US20140133136A1 - System for use in illumination of railway feature - Google Patents
System for use in illumination of railway feature Download PDFInfo
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- US20140133136A1 US20140133136A1 US14/020,063 US201314020063A US2014133136A1 US 20140133136 A1 US20140133136 A1 US 20140133136A1 US 201314020063 A US201314020063 A US 201314020063A US 2014133136 A1 US2014133136 A1 US 2014133136A1
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- Prior art keywords
- light source
- illumination unit
- illumination
- location
- interest
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21S—NON-PORTABLE LIGHTING DEVICES; SYSTEMS THEREOF; VEHICLE LIGHTING DEVICES SPECIALLY ADAPTED FOR VEHICLE EXTERIORS
- F21S9/00—Lighting devices with a built-in power supply; Systems employing lighting devices with a built-in power supply
- F21S9/02—Lighting devices with a built-in power supply; Systems employing lighting devices with a built-in power supply the power supply being a battery or accumulator
- F21S9/03—Lighting devices with a built-in power supply; Systems employing lighting devices with a built-in power supply the power supply being a battery or accumulator rechargeable by exposure to light
- F21S9/037—Lighting devices with a built-in power supply; Systems employing lighting devices with a built-in power supply the power supply being a battery or accumulator rechargeable by exposure to light the solar unit and the lighting unit being located within or on the same housing
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B61—RAILWAYS
- B61K—AUXILIARY EQUIPMENT SPECIALLY ADAPTED FOR RAILWAYS, NOT OTHERWISE PROVIDED FOR
- B61K13/00—Other auxiliaries or accessories for railways
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B61—RAILWAYS
- B61L—GUIDING RAILWAY TRAFFIC; ENSURING THE SAFETY OF RAILWAY TRAFFIC
- B61L9/00—Illumination specially adapted for points, form signals, or gates
- B61L9/04—Illumination specially adapted for points, form signals, or gates electric
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B61—RAILWAYS
- B61L—GUIDING RAILWAY TRAFFIC; ENSURING THE SAFETY OF RAILWAY TRAFFIC
- B61L2207/00—Features of light signals
- B61L2207/02—Features of light signals using light-emitting diodes (LEDs)
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21W—INDEXING SCHEME ASSOCIATED WITH SUBCLASSES F21K, F21L, F21S and F21V, RELATING TO USES OR APPLICATIONS OF LIGHTING DEVICES OR SYSTEMS
- F21W2111/00—Use or application of lighting devices or systems for signalling, marking or indicating, not provided for in codes F21W2102/00 – F21W2107/00
- F21W2111/02—Use or application of lighting devices or systems for signalling, marking or indicating, not provided for in codes F21W2102/00 – F21W2107/00 for roads, paths or the like
Definitions
- the present invention relates to railways in general and in particular to a system for use in illumination of a feature of a railway.
- Railways can comprise a series of interconnected railroad tracks.
- Railroad tracks typically comprise a system of railroad ties and rails.
- Railroad ties can be aligned in generally parallel relation to one another and can be spaced to nominal centerline spacing distance of about 53.34 cm (21.00 in.).
- Rail tracks can be disposed above a series of ties.
- a length of railroad track can include a pair of spaced apart rails disposed in perpendicular (transverse) relation to a series of railroad ties.
- Rail ties in one embodiment can comprise treated timber, and rails can comprise steel.
- a railway can include a switch.
- a switch can include a switchstand (a points lever assembly) and a set of switch rails. Within an area of a switch, railroad ties can be extended substantially outward from a rail.
- a switchstand for controlling a position of a switch can be disposed on a railroad tie extending beyond a normal distance from a rail.
- maintenance personnel typically carry flashlights into the field.
- injuries have been observed.
- maintenance personnel have been observed to be injured by railway features including a switchstand in the process of servicing a railway.
- Locations of interest of current railways are either not marked or are poorly marked.
- a switchstand can include a directional indicator often painted with red and/or green paint.
- a foul point is often indicated with a yellow painted tie and rail at a location of the foul point.
- a derail point is sometimes marked with a small sign with the word “DERAIL” carried thereon.
- a system for use in illuminating a feature of a railway.
- a system can include an illumination unit disposed for illumination of a railway feature.
- the illumination unit can include a light source bank, a solar panel, and a rechargeable battery for energizing the light source bank that is rechargeable utilizing energy collected by the solar energy panel.
- FIG. 1 is a perspective view of an illumination system for illumination of a feature of a railway
- FIG. 2 is a perspective view of an illumination system for highlighting a location of a railway switch
- FIG. 3 is a cross sectional view of a railway assembly comprising a footer and a rail, the railway assembly being supported on a plurality of ties;
- FIG. 4 is a perspective view of a section of an elongated rail having a horizontal axis
- FIG. 5 is a perspective view illustrating an installation of an illumination unit in one embodiment
- FIG. 6 is a side view of a light source having a central emission vector and a beam angle
- FIG. 7 is a perspective view illustrating an installation of an illumination unit in one embodiment
- FIG. 8 is a block diagram of an illumination unit in one embodiment
- FIG. 9 is perspective bottom view of an illumination unit in one embodiment wherein the illumination unit has a housing including downwardly extending formations that define a raised bottom portion of a bottom of the housing;
- FIG. 10 is a front view of an illumination unit in one embodiment wherein the illumination unit has a housing including downwardly extending formations that define a raised bottom portion of a bottom of the housing;
- FIG. 11 is a top view of a railway having a switch, a foul point, and a derail point;
- FIG. 12 is a perspective view of a system for illumination of a railway feature, wherein there is provided an illumination unit for illumination of a foul point;
- FIG. 13 is a perspective view of a system for illuminating a railway feature, wherein there is provided an illumination unit for illumination of a derail point.
- System 1000 can include an illumination unit 10 which can be specifically located and featurized as will be set forth herein.
- illumination unit 10 By illumination of a railway feature, a risk of injury posed by a railway feature can be substantially reduced.
- a railway feature can be e.g., a location of interest, e.g., a switch, or a plurality of locations of interest.
- illumination unit 10 in one embodiment can include a solar panel 30 for collection of solar energy and a light source bank 20 .
- Light source bank 20 can include a plurality of light sources as shown in the embodiment of FIGS. 1-13 or can include a single light source.
- Illumination unit 10 can include a rechargeable battery 40 as will be set forth herein and can be operative to be recharged utilizing solar energy collected from solar panel 30 .
- Illumination unit 10 can be operative so that during periods without sunlight, light source bank 20 can be energized for illumination of a railway feature.
- Illumination unit 10 can be a self-contained unit and can include a housing 60 for housing light sources of light source bank 20 and additional components making up illumination unit 10 .
- illumination unit 10 can comprise dimensions (1 ⁇ w ⁇ h) of about 11 cm ⁇ 8 cm ⁇ 3 cm.
- illumination unit 10 is operative for illumination of a railway feature in the form of a switch 280 .
- a switch typically can comprise a part (component) disposed externally to a rail assembly 100 which is commonly referred to as a switchstand 282 and a part (component) disposed internally relative to a rail assembly 100 .
- a part of switch 280 disposed internally relative to a rail assembly 100 can include a linkage member 290 for imparting forces to moveable rails 114 and 116 .
- Moveable rails 114 and 116 can have tapered ends to allow engagement of train wheels.
- Switchstand 282 (which can also be termed a ground throw or “points lever assembly”) can include a lever 283 , a linkage box 284 , and a directional indicator 285 typically having a vertically extending member as shown in the embodiment of FIG. 1-5 .
- switch 280 as is illustrated in FIG. 1 can provide switching between a primary railroad track 200 , a secondary railroad track 300 and a through railroad track 400 , all of which can be regarded as constituent elements of a railway 500 which can include numerous other constituent elements other than the ones specifically noted.
- a rail assembly 100 of railway 500 can comprise rails forming primary track 200 , secondary track 300 , and through track 400 as well as additional optional elements such as rail footers 204 for support of rails 110 , 112 , 114 , 116 .
- rail assembly 100 can comprise rail 110 forming part of and partially defining primary track 200 and through track 400 , rail 112 partially defining track 200 and track 300 , rail 114 partially defining track 200 when switch 280 is in a switched position and track 116 partially defining track 200 and track 400 when switch 280 is in a primary position.
- rails 110 , 112 , 114 , 116 rails 110 , 112 , 114 , 116 can be supported on a series of ties 202 which can comprise normal length ties and extended length ties. Extended length ties, e.g., at locations “a” and “b” as shown in FIG. 2 .
- Extended length ties of ties 202 can be provided for support of switch 280 .
- switch 280 can be switchable between a primary position in which a traveling train can be routed from the primary track 200 to the through track 400 and a switched position in which a traveling train can be routed from the primary track 200 to the secondary track 300 .
- both primary track 200 and through track 400 as well as their respective rails can be substantially straight.
- through track 400 as well as secondary track 300 can be curved relative to primary track 200 .
- one of secondary track 300 and through track 400 can be curved. Notwithstanding because of curve radius requirements of a curved track, each of rails 110 , 112 , 114 , 116 can be regarded as being substantially straight in an area of switch 280 , or another location of interest.
- railway 500 can include a series of ties 202 and rails 110 , 112 , 114 , 116 .
- Ties 202 are typically arranged in substantially parallel arrangement with respect to each adjacent tie (for forming a curved track portion, adjacent ties can be disposed at a slight angle relative to a parallel). Ties 202 can be spaced to a nominal centerline to centerline spacing of about 53.34 cm (21.00 inch).
- the series of ties can support a set of rails.
- ties 202 can directly support rails, e.g., two or more of rails 110 , 112 , 114 , 116 .
- ties 202 can support rails 110 , 112 , 114 , 116 by way of transferring ground forces through footers 204 .
- footers 204 can range in height from about 0.95 cm to 2.54 cm (about 3 ⁇ 8 in. to 1 in.).
- Rails 110 , 112 , 114 , 116 can comprise steel and can be disposed at spaced apart positions on ties and be supported by ties 202 at a position transverse to ties 202 .
- a nominal spacing (gauge) of rails 110 , 112 , 114 , 116 can be 143.5 cm (4 ft, 8 1/2 inch), in one example.
- a set of adjacent ties 202 can be extended beyond their normal length for support of components making up switch 280 .
- Ties 202 at locations “a” and “b” of FIG. 2 are extended length ties. Supported on extended length ties 202 at locations “a” and “b” in the embodiment of FIG.
- ties 202 comprise wood, e.g., hardwood or softwood and can be treated with creosote or other wood preservative. Ties 202 can also comprise pre-stressed concrete. In one example, ties 202 can include a nominal length of 259.08 cm (102.00 inch), a nominal width of 22.86 cm (9.00 inch), a nominal height of 17.78 cm (7.00 inch), a nominal centerline to centerline spacing of 53.34 cm (21.00 inch) and a nominal gap of 30.48 cm (12.00 inch). Dimensions and spacing of ties 202 can vary from the above nominal values. In one example extended length ties for support of a switchstand can have a length of about 381.00 cm (150.00 inch) to provide a platform on which switchstand 282 can be mounted.
- illumination unit 10 can be disposed in specific arrangement in relation to switch 280 , for highlighting a location of switch 280 in the field, and therefore highlighting the location of dangerous objects such a lever 283 and directional indicator 285 .
- system 1000 in one embodiment, it was determined that significant advantage can be yielded by configuring system 1000 to substantially illuminate a railroad rail in the area of switch 280 .
- system 1000 with reference to the use case of FIG. 2 can be configured to direct emitted light so that a rail, e.g., rail 110 opposing switchstand 282 is substantially illuminated.
- illumination unit 10 can include a solar panel 30 and can rely on solar energy for energy input.
- system 1000 can be implemented in regions away from the equator with minimal available solar energy, particularly during the winter months.
- a railway rails e.g., rail 110 is illuminated in an area of a switch
- a location of a switch 280 can be highlighted for a service personnel. From a distance, the rail can have the appearance of an elongated shiny bar to a service personnel.
- system 1000 can be particularly configured. Aspects of system 1000 configuring system 1000 for directing light for illumination of a rail such as rail 110 is described with reference to FIGS. 2 and 5 . It is seen that rail assembly 100 of system 1000 can be disposed at certain elevation, the certain elevation being an elevation range (a set of heights) delimited by a bottom of footers 204 , e 1 , and a top of rails 110 , 112 , 114 , 116 , e 2 , in the exemplary embodiment.
- elevation range a set of heights
- the certain elevation can be the elevation range delimited by the bottoms and tops of rails 110 , 112 , 114 , 116 .
- a railway can have gradient changes.
- an elevation of footers 204 and rails 110 , 112 , 114 , 116 can be substantially constant.
- rails 110 , 112 , 114 , 116 in the area of switch 280 can be regarded to define a substantially horizontally extending planar region, the substantially horizontally extending planar region 550 having a bottom plane 551 delimited by the respective bottom of footers 204 , and a top plane 552 delimited by respective tops of rails 110 , 112 , 114 , 116 .
- planar region 550 can be delimited by the bottoms of any two or more rails 110 , 112 , 114 , 116 and a top plane 552 can be delimited by the tops of any two or more rails 110 , 112 , 114 , 116 .
- planes 551 and 552 it is understood that planar region 550 extends through the area depicted in FIG. 2 (fragments of planes 551 , 552 are shown, but are expanded infinitely to define the planar region 550 described).
- FIG. 3 A cross-sectional view of rails 110 , 112 , 114 , 116 is shown in FIG. 3 .
- Certain elevation of a rail assembly 100 can be a set of heights delimited by a bottom of footer 204 , e 1 , and a top of rails 110 , 112 , 114 , 116 , e 2 . Where footer 204 is deleted, a rail assembly 100 can be at a certain elevation delimited by a bottom and top of rail 110 , 112 , 114 , 116 .
- FIG. 4 A perspective view of a length of a rail 110 , 112 , 114 , 116 is shown in FIG. 4 .
- a rail 110 , 112 , 114 , 116 can have a horizontal axis 118 .
- a vertically extending plane 119 (a fragment of which is shown in FIG. 4 ) extending through horizontal axis 118 can have the relative orientation to a rail 110 , 112 , 114 , 116 as shown in FIG. 4 .
- illumination unit 10 can include a light source bank 20 having one or more light sources disposed at certain elevation and within the substantially planar region, e.g., light source 21 , and/or light sources 22 , 23 , 24 , 25 , 26 , as will be described herein.
- a light source described herein e.g., light source 21 , and/or light sources 22 , 23 , 24 , 25 , 26 can include a beam angle, ⁇ , defined for a light source emitting light nominally symmetrically by nominal boundaries 2002 , 2004 , delimiting points on a target plane 2006 normal to a nominal beam axis 2008 at which luminous intensity is half of a maximum value.
- a light source 21 , 22 , 23 , 24 , 25 , 26 can include a central emission vector generically labeled 2010 in the view of FIG. 6 , which can extend in an emission direction along nominal axis 2008 of light source 21 , 22 , 23 , 24 , 25 , 26 .
- Beam angle, ⁇ can define an illumination cone of light source 21 , 22 , 23 , 24 , 25 , 26 .
- beam angle, ⁇ can be 30 degrees.
- beam angle, ⁇ can be 45 degrees.
- beam angle, ⁇ can be 60 degrees.
- light source 21 , 22 , 23 , 24 , 25 , 26 has a symmetrical emission pattern.
- An emission pattern of light source 21 , 22 , 23 , 24 , 25 , 26 can also be asymmetrical.
- housing 60 can include mounting holes 56 allowing unit 10 to be installed directly on a tie with use of set screws (not shown).
- system 1000 can be configured so that a central emission vector 31 , 32 , 33 , 34 , 35 , 36 of one or more light sources 21 , 22 , 23 , 24 , 25 , 26 , extends substantially horizontally substantially at the certain elevation within the substantially planar region 250 .
- the central emission vector(s) can extend substantially horizontally at the certain elevation. In such manner, light emitted by illumination unit 10 can be directed toward a rail 110 for illumination of rail 110 and a highlighting of a location of switch 280 .
- illumination unit 10 can be mounted on extended length tie 202 at location “a” at a location intermediate of switchstand 282 and rail 110 . Because rail assembly 100 is disposed adjacently above ties 202 , a disposal of illumination unit 10 also adjacently above a tie 202 positions an illumination source of unit 100 at the certain elevation and within planar region 250 where it is well positioned for illumination of one or more railway rail.
- light source bank 20 of unit 10 can have a first at least one light source 21 with a central emission vector 31 extending in a first direction and a second at least one light source 22 with a central emission vector 32 extending in a second direction.
- unit 10 can have a single light source, e.g., light source 21 .
- a first one light source 21 having a central emission vector 31 extends a first direction for primarily illuminating rail 110 while a second light source 22 with a central emission vector 32 extends in a second direction for primarily illuminating rail 110 and switchstand 282 of switch 280 .
- a first vertically extending plane 240 extending perpendicularly relative to a horizontal axis of rail 110 through a center of switchstand 282 , which can be regarded as the center of the linkage box 284 in the specifically shown embodiment.
- System 1000 can be configured so that the illumination unit 10 is disposed in a position adjacent to and spaced apart from the first vertically extending plane 240 , wherein the illumination unit 10 includes a first light source 21 having a central emission vector 31 extending in first direction and a second light source 22 having a central emission vector 32 extending in a second direction, wherein the first direction is a direction away from a first vertically extending plane 240 , wherein the second direction is a direction toward the first vertically extending plane 240 .
- a fragment of plane 240 is shown in FIG. 2 , but it is understood that plane 240 extends infinitely.
- a light source e.g., light source 21 can substantially illuminate a railway rail where central emission vector 31 of light source 21 extends substantially horizontal and to the certain elevation of the rail assembly including the rail.
- light source 21 can be oriented so that central emission vector 31 is directed substantially perpendicularly to and substantially perpendicularly intersects a vertically extending plane extending through a horizontal axis rail 110 .
- FIG. 1 the embodiment as shown in FIG. 1
- central emission vector 31 extends substantially parallel to a vertically extending plane extending through a horizontal axis of rail 110 where light emitted by light source 21 exhibits a beam radius defining an illumination cone (e.g., 30 degrees, 45 degrees, 60 degrees).
- an illumination cone e.g. 30 degrees, 45 degrees, 60 degrees.
- light source 21 With a central emission vector 31 extending in a direction substantially parallel to a vertical plane extending through a horizontal axis of rail 110 , light source 21 is positioned so as to be optimally be visible to an operator a distance away from light source 21 and in a path of natural approach of an operator to a switch 280 . (Operators tend to approach a switch by walking on or near a set of railway ties.)
- a central emission vector of a light source of illumination unit 10 can extend horizontally and can have an elevation of about 1.5 cm above the elevation e 1 .
- a central emission vector 31 can extend substantially horizontally at the particular elevation of footer 204 where footer 204 has a height greater than about 1.5 cm.
- a central emission vector 31 extends substantially horizontally at the certain elevation of footer 204
- illumination of footer 204 can be yielded which can guide an operator to a location of a switch.
- Footers 204 like rails 110 , 112 , 114 , 116 are naturally reflective and metallic, and furthermore, include a plurality of sharp edges which can be particularly reflective and metallic.
- illumination unit 10 can be positioned so that central emission vector is at a certain elevation of a rail, e.g., 110 .
- a partial illumination unit 10 in one embodiment having a height of 3 cm and where a rail assembly includes footers of heights greater than about 1.5 cm can include a spacer (not shown) disposed on a bottom of housing 60 increasing a height of light source central emission vector 31 .
- illumination unit 10 can include a light source 23 having a central emission vector 33 extending substantially parallel to central emission vector 31 , and light source 24 having a central emission vector 34 extending in a direct substantially parallel to emission vector 32 .
- illumination unit 10 can include light source 25 having central emission vector 35 and/or light source 26 having central emission vector 36 .
- Light source 25 and/or light source 26 can replace or supplement light source 21 .
- Illumination unit 10 can also or alternatively comprise one or more of light sources 23 , 24 as set forth herein.
- Illumination unit 10 can be configured so that central emission vectors 31 and 32 extend substantially parallel to a vertical plane extending through a horizontal axis of rail 110 .
- the central emission vectors 35 , 36 of light sources 25 , 26 can extend substantially horizontally and substantially at the certain elevation of rail assembly 100 .
- Emission vector 35 can be directed toward rail assembly 100 and substantially perpendicularly intersect a plane extending vertically through a horizontal axis rail 110
- emission vector 36 can be directed away from rail assembly 100 and can substantially perpendicularly intersect a switchstand plane extending vertically through switchstand 282 , the switchstand plane being substantially parallel to a plane extending vertically through a horizontal axis.
- System 1000 can be configured so that light rays emitted from light source 26 impinge on switchstand 282 .
- System 1000 can be configured so that light rays emitted from light sources 21 , 22 , 23 , 24 , 25 , impinge on rail 110 to illuminate rail 110 in an area of switchstand 282 .
- rail 110 and switchstand 282 are substantially illuminated.
- the illumination of rail 110 usefully illuminates an area about switch 280 and thereby highlights a location of switch 280 .
- Illumination unit 10 can include a solar panel 30 , a light source bank 20 , a rechargeable battery 40 , and a control circuit 50 .
- Control circuit 50 can be switchable between a first mode in which energy collected from solar panel 30 is utilized for the recharging of rechargeable battery 40 and a second mode in which energy stored in rechargeable battery 40 is utilized for the energization of light source bank 20 .
- control circuit 50 includes a timer 52 for controlling the switching of the modes.
- the timer 52 can include a real time clock which controls the on time of the second mode depending on the expected duration of nighttime based on the current day of the calendar year.
- control circuit 50 can control the switching between the modes based on an output of the solar panel 30 .
- Illumination unit 10 can be operative so that if an output of solar panel 30 indicates a lack of sunlight control circuit 50 switches to the second mode so that energy stored in battery 40 energizes light source bank 20 .
- illumination unit 10 can include reflectors 81 , 82 for reflecting light, e.g., light from a flashlight.
- system 1000 can be configured to be ruggedly constructed and durable notwithstanding significant exposure to various environmental effects, including precipitation events such as rain, snow, and frost.
- precipitation events such as rain, snow, and frost.
- railway ties 202 can be ungraded and can have substantially flat top surfaces. Also, a top surface of a railway tie 202 , typically comprising timber, e.g., hardwood or softwood can be substantially porous. For the above reasons, railway ties 202 can be particularly susceptible to pooling of precipitation. A pooling of precipitation can frustrate operation of an internal component of illumination unit 10 , reducing or preventing a capacity of illumination unit 10 to illuminate a railway feature.
- illumination unit 10 can be configured and arranged so that a pooling of precipitation is reduced.
- illumination unit 10 includes a housing 60 that houses the light source bank 20 and the rechargeable battery 40 .
- housing 60 can have a plurality of downwardly extending formations 61 , 62 , 63 , 64 extending downwardly from a housing major body to define a raised portion 66 of bottom 68 .
- a housing 60 can comprise clear material, e.g. clear polycarbonate which encapsulates light sources 21 , 23 in such manner that light sources are visible from both front perspective view of illumination unit 10 as shown in FIG. 10 and from a side perspective view (not shown).
- a light source e.g. clear polycarbonate
- light source 21 , 23 can be viewed from wide range of perspectives. Light rays from a certain light source e.g. light source 21 , 23 can be transmitted by unit 10 over an entire angular emission ray of the certain light source.
- the providing of illumination unit 10 to include raised portion 66 encourages removal of precipitation from an area of illumination unit 10 .
- the providing of illumination unit 10 to include raised portion 66 also encourages airflow about illumination unit 10 , thereby removing moisture from an interior and an exterior of illumination unit, and further regulating a temperature of illumination unit 10 . Regulating a temperature of illumination unit 10 can improve a performance of internal electrical components of illumination unit 10 .
- the providing illumination unit 10 to include raised portion 66 also allows an area for liquids to expand on freezing thereby increasing a securing force by which illumination unit 10 can be secured to a tie 202 , and reducing stresses on illumination unit 10 .
- extended length tie 202 at location “a” can include a top surface 206 and the illumination unit 10 can be installed on the extended length tie 202 at location “a” so that the plurality of downwardly extending formations 61 , 62 , 63 , 64 impart a compression force on the top surface 206 , the downwardly extending formations 61 , 62 , 63 , 64 defining a clearance between the raised portion 66 of bottom 68 and the top surface 206 when the illumination unit is installed on the extended length tie 202 so that it contacts top surface 206 of extended length tie 202 at location “a.”
- raised portion 66 of bottom 68 can be raised about 0.3 cm from an elevation of the bottom of formations 61 , 62 , 63 , 64 .
- the downwardly extending formations 61 , 62 , 63 , 64 can extend downwardly from a periphery of the housing 60 , to define weep channels 71 , 72 , 73 , 74 that are substantially smaller in dimension than formations 61 , 62 , 63 , 64 .
- the positioning of downward extending formations about the periphery of housing 60 operates to direct precipitation away from illumination unit 10 . Specification details of illumination unit 10 in one embodiment are summarized in Table A.
- illumination unit 10 can be provided by the illumination unit as summarized in Table B.
- Illumination unit 10 can also be provided by another model (solar light) available from Ninghan Quinghai Electrical or another manufacturer.
- illumination unit 10 can be provided by a commercially available solar light of one of the models mentioned modified to include a raised bottom portion and downwardly extending formations as set forth herein or another model modified to include a raised bottom portion and downwardly extending formations as set forth herein.
- Table C sets forth an embodiment including downwardly extending formations as set forth herein.
- Various embodiments of illumination unit 10 are set forth herein with six light sources, for example.
- the M additional light sources can have a common emission wavelength relative to the first light source and can be controlled according to a common control with the first light source.
- the M additional light sources can have different emission wavelengths relative to an emission wavelength of the first light source, and can be controlled according to control methods different than a control for the first light source.
- illumination unit 10 can be utilized to illuminate locations of interest of railway 500 other than switch 280 .
- railway 500 can include a foul point 600 and a derail point 800 .
- a foul point 600 can be regarded as a point on a railway 500 beyond which a car must travel on secondary track 300 so as to avoid interference with a stationary or moving car on a through track 400 .
- Location of interest in the form of switch 280 , foul point 600 , and the derail point 800 are also shown in a top view of FIG. 11 . If a car on track 300 is located between foul point 600 and through track 400 , it can interfere with stationary or moving car 700 (as shown in FIG. 11 ) of through track 400 potentially causing significant property damage and injury.
- a foul point can be a specific point in a length of track, e.g., track 300 .
- a foul point can be indicated by a line running transverse to a set of rails, e.g., rails 114 , 112 .
- a foul point can be associated to a specific tie 202 , the tie on which a foul point is located.
- a tie at which a foul point is located can be regarded as a foul point tie, e.g., tie 202 at location “c” of FIG. 12 herein.
- foul points have been observed to be highlighted with paint (e.g. a painted tie and rails at the foul point).
- paint e.g. a painted tie and rails at the foul point.
- indicating paint for indicating a foul point tends to fade or chip.
- such indicating paint tends to become obscured and not highly visible or visible at all when covered by debris, snow or rail
- a derail point of track 300 is a point where a derailer 802 is located.
- a derailer 802 is shown in FIG. 13 .
- Derailer 802 can be moveable from an active position (shown in the view) to an inactive position in which a car can move past the derail point without being derailed.
- derailer 802 can be partially supported by tie 202 at location “d” and by tie 202 at location “e.” If a car moved past a derail point 800 with a derailer in an active position, a car will be derailed.
- An illumination unit 10 can be disposed as shown in FIG. 12 for highlighting of a foul point 600 .
- Illumination unit 10 in the embodiment of FIG. 12 is shown as having a light source bank 20 comprising six light sources (in an alternative embodiment one to five of the light sources can be deleted).
- Each of light sources 21 , 22 , 23 , 24 , 25 , 26 can have a central emission vector extending substantially horizontally and substantially at a central elevation of rail assembly 100 delimited in the instance shown by a bottom of footer 204 , e 1 , and a top of rail 114 , 112 , e 2 , which can define a planar region 550 as described with reference to FIG. 12 can be delimited by bottom plane 551 and top plane 552 .
- one or more central emission vectors 31 , 32 , 33 , 34 , 35 , 36 can extend at a certain elevation.
- central emission vectors 31 , 33 of light sources 21 , 23 extend in first and second directions that are substantially parallel to a vertical plane extending through a length of rails 114 , 112 while central emission vectors 32 , 34 as shown in extend in second and third directions opposite respectively the first and second.
- Vectors 31 , 33 extend rearward along track 300 while vectors 32 , 34 extend forward along track 300 .
- Central emission vector 35 of light source 25 can extend in a direction substantially perpendicular to and substantially perpendicular intersecting a vertical plane extending through a horizontal axis of rail 114 while central emission vector 36 of light source 26 can extend in a direction substantially perpendicular to and substantially perpendicular intersecting vertical plane extending through a horizontal axis of rail 112 .
- Central emission vector 36 can extend in a direction parallel to a certain tie 202 that can define a foul point.
- Illumination unit 10 in the embodiment of FIG. 12 is shown as being supported directly on tie 202 .
- Illumination unit 10 can be in accordance with Tables A, B, C, and/or another specification with additional light sources added.
- Light sources 21 , 23 can illuminate rails and footers (or rails and not footers in the case footers are deleted) in the manner of a light source illuminating rails 110 and footers described in reference to FIG. 2 while being projected to be visible from a long range (e.g., 50M plus) from an approaching operator who may be approaching by walking on ties or adjacent to ties).
- Light source 25 can primarily illuminate rail 114 in the area of a foul point 600 while light source 26 can primarily illuminate rail 112 in an area of foul point 600 .
- light sources 21 - 25 can emit light rays impinging on rail 114
- light sources 21 - 24 , 26 can emit light rays impinging on rail 112 .
- An illumination unit 10 can be disposed as shown in FIG. 13 for highlighting of a derail point 800 , which can be regarded as the point of traveling on which a car can be derailed by derailer 802 illumination unit 10 in the embodiment of FIG. 13 is as shown having six light sources (in an alternative embodiment one to five of the light sources can be deleted).
- Each of light sources 21 , 22 , 23 , 24 , 25 , 26 can have a central emission vector extending substantially horizontally and substantially at a certain elevation of rail assembly 100 delimited in the instance shown by a bottom of footer 204 , e l , and a top of rail, e 2 , 114 , 112 which limiting elements define in the same manner as described with reference to FIG.
- central emission vectors 31 , 32 , 33 , 34 , 35 , 36 substantially extend horizontally at the certain elevation.
- central emission vectors 31 , 33 of light sources 31 , 33 extend in first and second directions that are parallel to a vertical plane extending through a horizontal axis of rail 114 while central emission vectors 32 , 34 of light sources 22 , 24 extend in second and third directions opposite respectively the first and second.
- Vectors 31 , 33 extend rearward along track 300 and vectors 32 , 34 extend forwardly along track 300 .
- Central emission vector 35 of light source 25 can extend in a direction substantially perpendicular to and substantially perpendicular by intersecting a vertical plane extending through a horizontal axis of rail 114 while central emission vector 36 of light source 26 can extend in a direction substantially perpendicular to and substantially perpendicular by intersecting a vertical plane extending through a horizontal axis of rail 112 .
- Central emission vector 36 can extend in a direction substantially parallel to a certain tie 202 at location “d” that supports derailer 802 as shown in FIG. 13 .
- Illumination unit 10 in the embodiment of FIG. 13 is shown as being supported directly on tie 202 supporting derailer 802 at a location between rail 114 and rail 112 .
- Illumination unit 10 can be provided in accordance with Tables A, B, or C, or in accordance with another specification with additional light sources added.
- Light sources 21 , 22 , 23 , 24 illuminate rails 112 , 116 and footers 204 (or rails and not footers in the case footers are deleted) in the manner of a illumination unit 10 illuminating rail 110 and footers 204 as described in reference to FIG. 2 while being projected to be visible from a long range (e.g., 50M plus) from an approaching operator who may be approaching by walking on ties or adjacent to ties.
- a long range e.g., 50M plus
- Light source 25 can primarily illuminate rail 114 in an area of a derailing point 800 while light source 26 can primarily illuminate rail 112 as well as derailer 802 in an area of a derail point.
- light sources 21 - 25 can emit light rays that impinge on rail 114
- light sources 21 - 24 , 26 can emit light rays impinging on rail 112
- Light source 26 can emit light rays impinging on derailer 802 .
- railway 500 particularly in remote areas can be exceedingly dark and void of light in the nighttime.
- a problem that was noted in the development of system 1000 was that even if points of interest are indicated with use of illumination unit 10 it may be difficult to distinguish between various points of interest.
- different lighting profiles can be utilized to highlight different locations of interest to facilitate an operator distinguishing between different locations of interest (i.e., whether a location of interest is a switch or a foul point or a derail point).
- the different lighting profiles can include different emission wavelengths (i.e., colors).
- the different lighting profiles can alternatively or additionally include different illumination controls (e.g., flashing on and off, intensity varying).
- Table D indicates various illumination profiles that can be utilized to highlight different locations of interest.
- system 1000 can be configured so that each light source of an illumination unit 10 can have a common illumination profile.
- a single illumination unit 10 provided for illuminating a single location of interest.
- a plurality of illumination units 10 can be provided for illuminating a particular location of interest.
- illumination units 10 for highlighting of different locations of interest can be differentiated from one another so that service personnel can distinguish different locations of interest from a distance.
- an illumination unit 10 can have an illumination profile selected so as not to cause confusion with other information that can be presented in a railway environment.
- illumination units 10 of system 1000 can be devoid of light sources that emit light in any of the red or orange or green wavelength bands for illuminating a railway feature.
- a stop prompt e.g. that a person or train must stop. Accordingly, avoiding use of red light avoids presentation of potentially confusing information relative to railway 500 .
- green in a railway environment can indicate a “go” prompt. Accordingly, avoiding use of green light avoids presentation of potentially confusing information.
- substantially parallel herein refers to angles less than 30 degrees from parallel. In one embodiment, substantially parallel herein refers to angles less than 20 degrees from parallel. In one embodiment, substantially parallel herein refers to angles less than 10 degrees from parallel. In one embodiment substantially parallel herein refers to angles less than 5 degrees from parallel. In one embodiment, substantially parallel herein refers to angles less than 2 degrees from parallel. In one embodiment, substantially perpendicular (substantially perpendicularly) herein refers to angles less than 30 degrees from perpendicular. In one embodiment, substantially perpendicular herein refers to angles less than 20 degrees from perpendicular. In one embodiment, substantially perpendicular herein refers to angles less than 10 degrees from perpendicular. In one embodiment substantially perpendicular herein refers to angles less than 5 degrees from perpendicular. In one embodiment, substantially perpendicular herein refers to angles less than 2 degrees from perpendicular.
- a system for illumination of a feature of a railway including a railroad track having plurality of ties, the plurality of ties including an extended length tie, and a switch for switching a route of a traveling train, the switch being switchable between a primary position in which a traveling train can be routed from a primary track to a through track, and a switched position in which a traveling train can be routed from a primary track to a secondary track, the switch having a switchstand component supported on the extended length tie, the railway having a rail assembly supported on the plurality of ties, the rail assembly having first and second elongated rails, wherein the rail assembly is supported at a certain elevation, wherein the system comprises:
- the illumination unit supported on the extended length tie in an area of the extended length tie between the first rail and the switch component, the illumination unit having a light source bank, the light source bank including a first light source that comprises a central emission vector extending in a first direction that is substantially horizontal and at the certain elevation;
- the illumination unit includes a solar panel for collecting solar energy, and a rechargeable battery, the rechargeable battery for energizing the light source bank and being rechargeable utilizing solar energy collected by the solar panel.
- A2 The system of A1, wherein the system is configured so that central emission vector of the first light source extends in a direction that is substantially parallel with a vertical plane extending through a horizontal axis of the first rail.
- the illumination unit comprises a second light source, the second light source having a central emission vector that extends in a direction that is substantially horizontal and that is substantially at the certain elevation.
- the illumination unit comprises a second light source, the second light source having a central emission vector that extends in a second direction that is substantially horizontal and that is substantially at the certain elevation, the second direction being substantially parallel to a vertical plane extending through a horizontal axis of the first rail.
- the illumination unit is disposed in a position adjacent to and spaced apart from a first vertically extending plane extending substantially perpendicularly relative to the first rail and through a center of the switchstand, wherein the illumination unit includes a second light source having a central emission vector extending in a second direction, wherein the first direction is a direction away from the first vertically extending plane, wherein the second direction is a direction toward the first vertically extending plane.
- the illumination unit includes a housing that houses the light source bank and the rechargeable battery, the housing having a plurality of downwardly extending formations extending downwardly from the housing to define a housing bottom having a raised bottom portion, wherein the extended length tie includes a top surface, the illumination unit being installed on the extended length tie so that the plurality of downwardly extending formations impart a compression force on the top surface, the downwardly extending formations defining a clearance between the raised bottom portion and the top surface when the illumination unit is installed on the extended length tie.
- the downwardly extending formations extend downwardly from a periphery of the housing.
- the central emission vector of the first light source extends in a direction that substantially perpendicularly intersects a vertically extending plane extending through a horizontal axis of the first rail.
- a system for illumination of a feature of a railway including a railroad track having plurality of ties including an extended length tie, the switch being switchable between a primary position in which a traveling train can be routed from a primary track to a through track, and a switched position in which a traveling train can be routed from a primary track to a secondary track, the switch having a switchstand component supported on the extended length tie, the railway having a rail assembly supported on the plurality of ties, the rail assembly having first and second elongated rails, wherein the rail assembly is supported at a certain elevation, wherein the system comprises:
- an illumination unit supported on a tie of the plurality of ties at a location proximate the switch, the illumination unit having a light source bank, the light source bank including a first light source that comprises a central emission vector, the illumination unit being supported so that the central emission vector extends in a first direction that is substantially horizontal and at the certain elevation;
- the illumination unit includes a solar panel for collecting solar energy and a rechargeable battery, the illumination unit being configured so that the rechargeable battery is operative for energizing the light source bank, the illumination unit further being configured so that the rechargeable battery is rechargeable utilizing solar energy collected by the solar panel.
- B2 The system of B1, wherein the illumination unit is supported on the elongated length tie.
- B3 The system of B1, wherein the illumination unit is supported on the extended length tie at a location externally disposed relative to the first rail and internally disposed relative to the switch component.
- B4. The system of B1, wherein the illumination unit is supported on a plurality of ties.
- B5. The system of B1, wherein the switch includes a linkage member and wherein the illumination unit is supported at a location that is more proximate the switchstand component than the rail link member.
- a method for illuminating a feature of a railway including a railroad track having plurality of ties, the railway having a rail assembly supported on the plurality of ties, the rail assembly having first and second elongated rails, wherein the rail assembly is supported at a certain elevation, wherein the method comprises:
- an illumination unit that includes a light source bank, a solar panel for collecting solar energy, and a rechargeable battery, the illumination unit being configured so that the rechargeable battery is operative for energizing the light source bank, the illumination unit further being configured so that the rechargeable battery is rechargeable utilizing solar energy collected by the solar panel;
- a method for illuminating a feature of a railway including a railroad track having plurality of ties, the railway having a rail assembly supported on the plurality of ties, the rail assembly having first and second elongated rails, wherein the rail assembly is supported at a certain elevation, wherein the system comprises:
- an illumination unit that includes a light source bank having a first light source, a solar panel for collecting solar energy and a rechargeable battery, the illumination unit being configured so that the rechargeable battery is operative for energizing the light source bank, the illumination unit further being configured so that the rechargeable battery is rechargeable utilizing solar energy collected by the solar panel;
- D2 The method of D1, wherein the providing includes providing the illumination unit to include a second light source having a central emission vector that extends in a direction substantially perpendicular to a vertical plane extending through the central emission vector of the first light source and wherein the installing step includes the step of installing the illumination unit so that the central emission vector of the second light source extends in a direction that substantially perpendicularly intersects a vertically extending plane extending through a horizontal axis of the first rail.
- the method of D1 wherein the providing includes providing the illumination unit so that the light source bank includes a second light source having a central emission vector that extends in a direction substantially perpendicular to a vertical plane extending through the central emission vector of the first light source and wherein the installing step includes the step of installing the illumination unit in an area of a switch so that the central emission vector of the second light source extends in a direction that substantially perpendicularly intersects a vertically extending plane extending through a switchstand of the switch in a direction that is substantially parallel to a vertically extending plane extending through a horizontal axis of the first rail.
- An illumination unit comprising:
- the illumination unit is switchable between a first mode in which solar energy collected by the solar panel is utilized for recharging the rechargeable battery; and a second mode in which stored energy stored within rechargeable battery is utilized for energizing the light source bank;
- a housing that houses the solar panel, the light source bank, and the rechargeable battery, the housing having a downward extending formation extending downwardly from a periphery of the housing, the downwardly extending formation defining a raised interior portion of a bottom of the housing, a periphery of the bottom of the housing being defined by the downward extending formation.
- An illumination unit of E1 wherein the housing has a plurality of downward extending formations defining a periphery of a bottom of the housing, the plurality of downward extending formations defining a raised interior portion of the bottom, and further defining weep channels of the housing.
- F1 A system for illuminating a feature of a railway, the railway including a railroad track having a plurality of ties, the railway having a rail assembly supported on the plurality of ties, the system comprising:
- a first illumination unit for illuminating a first location of interest, an area about the first location of interest including a rail assembly having a certain elevation, the first illumination unit having a first light source disposed at the certain elevation, wherein the first illumination unit is switchable between a first mode in which solar energy collected by the solar panel is utilized for recharging the rechargeable battery, and a second mode in which stored energy stored within a rechargeable battery is utilized for energizing the light source bank;
- a second illumination unit for illuminating a second location of interest, an area about the second location of interest including a rail assembly having a certain elevation, the second illumination unit having a first light source disposed at the certain elevation, wherein the first illumination unit is switchable between a first mode in which solar energy collected by the solar panel is utilized for recharging the rechargeable battery, and a second mode in which stored energy stored within rechargeable battery is utilized for energizing the light source bank;
- first location of interest and the second location of interest are of different types, and wherein each of the first location of interest and the second location of interest is a location of interest selected from the group consisting of a switch, a foul point, and derail point; and
- first light source of the first illumination unit has a first illumination profile and the first light source of the second illumination unit has a second illumination profile, the second illumination profile being different from the first illumination profile.
- F2 The system of F1, wherein the first illumination profile and the second illumination profile are differentiated by a wavelength of emission.
- F3. The system of F1, wherein the first illumination profile and the second illumination profile are differentiated by illumination control the first illumination profile being characterized by a constantly energized illumination control, the second illumination profile being characterized by a flashing illumination control.
- F4. The system of F1, wherein the first location of interest is a switch and the second location of interest is a foul point.
- F5. The system of F1, wherein the first location of interest is a switch and the second location of interest is a foul point.
- a central emission vector of the first light source of the first illumination unit extends substantially horizontally in a direction substantially parallel to plane extending through a horizontal axis of a rail in an area of the first location of interest.
- the system includes a third illumination unit for illuminating a third location of interest, an area about the third location of interest including a rail assembly having a certain elevation, the third illumination unit having a light source bank including a first light source disposed at the certain elevation, wherein the third illumination unit is switchable between a first mode in which solar energy collected by the solar panel is utilized for recharging the rechargeable battery, and a second mode in which stored energy stored within rechargeable battery is utilized for energizing the light source bank, wherein the first location of interest and the second location of interest and the third location of interest are of different types, and wherein each of the first location of interest and the second location of interest and the third location of interest is a location of interest selected from the group consisting of a switch,
- a system for illumination of a feature of a railway including a railroad track having plurality of ties, the railway having a rail assembly supported on the plurality of ties, the rail assembly having first and second elongated rails in an area of a foul point, wherein the rail assembly is supported at a certain elevation, wherein the system comprises:
- an illumination unit supported on a tie of the plurality of ties in the area of the foul point, the illumination unit having a light source bank, the light source bank including a first light source that emits light having a central emission vector, the illumination unit being supported so that the central emission vector extends in a first direction that is substantially horizontal and at the certain elevation;
- the illumination unit includes a solar panel for collecting solar energy and a rechargeable battery, the illumination unit being configured so that the rechargeable battery is operative for energizing the light source bank, the illumination unit further being configured so that the rechargeable battery is rechargeable utilizing solar energy collected by the solar panel.
- G2 The system of G1, wherein the tie on which the illumination unit is supported is a foul point tie.
- G3. The system of G1, wherein illumination unit is supported at position of the tie intermediate of the first and second rail.
- G4. The system of G1, wherein the central emission vector extends in a direction substantially parallel to a vertically extending plane extending through a horizontal axis of the first rail.
- illumination unit is supported at a position of the tie intermediate of the first and second rail
- the illumination unit includes first, second, third, fourth, fifth and sixth light sources with first, second, third, fourth, fifth, and sixth central emission vectors
- the first and second central emission vectors extending in rearward directions that are substantially parallel to a vertical plane extending through a horizontal axis of the first rail
- the third and fourth central emission vectors extending in forward directions that are substantially parallel to a vertical plane extending through a horizontal axis of the first rail
- the fifth central emission vector extending in a direction that substantially perpendicularly intersects a vertically extending plane extending through a horizontal axis of the first rail
- the sixth central emission vector extending in a direction that substantially perpendicularly intersects a vertically extending plane extending through a horizontal axis of the second rail.
- a system for illumination of a feature of a railway including a railroad track having plurality of ties, the railway having a rail assembly supported on the plurality of ties, the rail assembly having first and second elongated rails in an area of a derail point defined by a derailer, wherein the rail assembly is supported at a certain elevation, wherein the system comprises:
- an illumination unit supported on a tie of the plurality of ties in the area of the derail point, the illumination unit having a light source bank, the light source bank including a first light source that emits light having a central emission vector, the illumination unit being supported so that the central emission vector extends in a first direction that is substantially horizontal and at the certain elevation;
- the illumination unit includes a solar panel for collecting solar energy and a rechargeable battery, the illumination unit being configured so that the rechargeable battery is operative for energizing the light source bank, the illumination unit further being configured so that the rechargeable battery is rechargeable utilizing solar energy collected by the solar panel.
- H2 The system of H1, wherein the tie on which the illumination unit is supported is tie supporting a derailer. H3. The system of H1, wherein illumination unit is supported at a position of the tie intermediate of the first and second rail. H4. The system of H1, wherein the central emission vector extends in a direction substantially parallel to a vertically extending plane extending through a horizontal axis of the first rail. H5.
- illumination unit is supported at a position of the tie intermediate of the first and second rail
- the illumination unit includes first, second, and third light sources with first, second, third central emission vectors, the first central emission vector extending in a rearward direction that is substantially parallel to a vertical plane extending through a horizontal axis of the first rail, the second central emission vectors extending in a forward direction that is substantially parallel to a vertical plane extending through a horizontal axis of the first rail, the third light source emitting light rays impinging on a derailer.
Abstract
There is provided a system for use in illuminating a feature of a railway. In one embodiment, a system can include an illumination unit disposed for illumination of a railway feature. The illumination unit can include a light source bank, a solar panel, and a rechargeable battery for energizing the light source bank that is rechargeable utilizing energy collected by the solar energy panel.
Description
- This application is a continuation of U.S. patent application Ser. No. 12/764,597 filed Apr. 21, 2010 entitled, “System for Use in Illumination of Railway Feature.” The above application is incorporated herein by reference in its entirety.
- The present invention relates to railways in general and in particular to a system for use in illumination of a feature of a railway.
- Railways can comprise a series of interconnected railroad tracks. Railroad tracks typically comprise a system of railroad ties and rails. Railroad ties can be aligned in generally parallel relation to one another and can be spaced to nominal centerline spacing distance of about 53.34 cm (21.00 in.). Railroad tracks can be disposed above a series of ties. A length of railroad track can include a pair of spaced apart rails disposed in perpendicular (transverse) relation to a series of railroad ties. Railroad ties in one embodiment can comprise treated timber, and rails can comprise steel. A railway can include a switch. A switch can include a switchstand (a points lever assembly) and a set of switch rails. Within an area of a switch, railroad ties can be extended substantially outward from a rail. A switchstand for controlling a position of a switch can be disposed on a railroad tie extending beyond a normal distance from a rail. For maintenance of a railway, maintenance personnel typically carry flashlights into the field. In the maintenance of railways, injuries have been observed. For example, maintenance personnel have been observed to be injured by railway features including a switchstand in the process of servicing a railway. Locations of interest of current railways are either not marked or are poorly marked. A switchstand can include a directional indicator often painted with red and/or green paint. A foul point is often indicated with a yellow painted tie and rail at a location of the foul point. A derail point is sometimes marked with a small sign with the word “DERAIL” carried thereon.
- There is provided a system for use in illuminating a feature of a railway. In one embodiment, a system can include an illumination unit disposed for illumination of a railway feature. The illumination unit can include a light source bank, a solar panel, and a rechargeable battery for energizing the light source bank that is rechargeable utilizing energy collected by the solar energy panel.
- The objects and features of the invention can be better understood with reference to the drawings described below, and the claims. The drawings are not necessarily to scale, emphasis instead generally being placed upon illustrating the principles of the invention. However, the scale depicted in the drawings does depict the relative scale of various system components in one particular embodiment. In the drawings, wherein like numerals are used to indicate like parts throughout the various views,
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FIG. 1 is a perspective view of an illumination system for illumination of a feature of a railway; -
FIG. 2 is a perspective view of an illumination system for highlighting a location of a railway switch; -
FIG. 3 is a cross sectional view of a railway assembly comprising a footer and a rail, the railway assembly being supported on a plurality of ties; -
FIG. 4 is a perspective view of a section of an elongated rail having a horizontal axis; -
FIG. 5 is a perspective view illustrating an installation of an illumination unit in one embodiment; -
FIG. 6 is a side view of a light source having a central emission vector and a beam angle; -
FIG. 7 is a perspective view illustrating an installation of an illumination unit in one embodiment; -
FIG. 8 is a block diagram of an illumination unit in one embodiment; -
FIG. 9 is perspective bottom view of an illumination unit in one embodiment wherein the illumination unit has a housing including downwardly extending formations that define a raised bottom portion of a bottom of the housing; -
FIG. 10 is a front view of an illumination unit in one embodiment wherein the illumination unit has a housing including downwardly extending formations that define a raised bottom portion of a bottom of the housing; -
FIG. 11 is a top view of a railway having a switch, a foul point, and a derail point; -
FIG. 12 is a perspective view of a system for illumination of a railway feature, wherein there is provided an illumination unit for illumination of a foul point; -
FIG. 13 is a perspective view of a system for illuminating a railway feature, wherein there is provided an illumination unit for illumination of a derail point. - Referring to
FIGS. 1-13 , there is set forth herein asystem 1000 for illumination of a railway feature.System 1000 can include anillumination unit 10 which can be specifically located and featurized as will be set forth herein. By illumination of a railway feature, a risk of injury posed by a railway feature can be substantially reduced. A railway feature can be e.g., a location of interest, e.g., a switch, or a plurality of locations of interest. - Referring to
illumination unit 10,illumination unit 10 in one embodiment can include asolar panel 30 for collection of solar energy and alight source bank 20.Light source bank 20 can include a plurality of light sources as shown in the embodiment ofFIGS. 1-13 or can include a single light source.Illumination unit 10 can include arechargeable battery 40 as will be set forth herein and can be operative to be recharged utilizing solar energy collected fromsolar panel 30.Illumination unit 10 can be operative so that during periods without sunlight,light source bank 20 can be energized for illumination of a railway feature.Illumination unit 10 can be a self-contained unit and can include ahousing 60 for housing light sources oflight source bank 20 and additional components making upillumination unit 10. In one embodiment,illumination unit 10 can comprise dimensions (1×w×h) of about 11 cm×8 cm×3 cm. - One arrangement for disposal of
illumination unit 10 is shown inFIGS. 1-5 . In the embodiment ofFIGS. 1-5 ,illumination unit 10 is operative for illumination of a railway feature in the form of aswitch 280. Referring toFIGS. 1 and 2 , a switch typically can comprise a part (component) disposed externally to arail assembly 100 which is commonly referred to as aswitchstand 282 and a part (component) disposed internally relative to arail assembly 100. A part ofswitch 280 disposed internally relative to arail assembly 100 can include alinkage member 290 for imparting forces tomoveable rails Moveable rails lever 283, alinkage box 284, and adirectional indicator 285 typically having a vertically extending member as shown in the embodiment ofFIG. 1-5 . - Regarding
switch 280,switch 280 as is illustrated inFIG. 1 can provide switching between aprimary railroad track 200, asecondary railroad track 300 and a throughrailroad track 400, all of which can be regarded as constituent elements of arailway 500 which can include numerous other constituent elements other than the ones specifically noted. Arail assembly 100 ofrailway 500 can comprise rails formingprimary track 200,secondary track 300, and throughtrack 400 as well as additional optional elements such asrail footers 204 for support ofrails - Referring to
FIG. 1 ,rail assembly 100 can compriserail 110 forming part of and partially definingprimary track 200 and throughtrack 400,rail 112 partially definingtrack 200 andtrack 300,rail 114 partially definingtrack 200 whenswitch 280 is in a switched position and track 116 partially definingtrack 200 and track 400 whenswitch 280 is in a primary position. Regardingrails rails ties 202 which can comprise normal length ties and extended length ties. Extended length ties, e.g., at locations “a” and “b” as shown inFIG. 2 . Extended length ties ofties 202 can be provided for support ofswitch 280. In one example, the “area of a switch” as referred to herein can comprise the area about the extended lengthties supporting switch 280 together with N (e.g., N=5) adjacent ties on either side of the extended length ties. Regardingswitch 280, switch 280 can be switchable between a primary position in which a traveling train can be routed from theprimary track 200 to the throughtrack 400 and a switched position in which a traveling train can be routed from theprimary track 200 to thesecondary track 300. In one example bothprimary track 200 and throughtrack 400 as well as their respective rails can be substantially straight. In another example, throughtrack 400 as well assecondary track 300 can be curved relative toprimary track 200. In another example, one ofsecondary track 300 and throughtrack 400 can be curved. Notwithstanding because of curve radius requirements of a curved track, each ofrails switch 280, or another location of interest. - Referring to specific features of a
railway 500, e.g.,railway 500 can include a series ofties 202 andrails Ties 202 are typically arranged in substantially parallel arrangement with respect to each adjacent tie (for forming a curved track portion, adjacent ties can be disposed at a slight angle relative to a parallel).Ties 202 can be spaced to a nominal centerline to centerline spacing of about 53.34 cm (21.00 inch). The series of ties can support a set of rails. In one embodiment whererail assembly 100 does not includefooters 204,ties 202 can directly support rails, e.g., two or more ofrails rail assembly 100 includes a system ofrail footers 204,ties 202 can supportrails footers 204. Regardingfooters 204,footers 204 can range in height from about 0.95 cm to 2.54 cm (about ⅜ in. to 1 in.). -
Rails ties 202 at a position transverse toties 202. A nominal spacing (gauge) ofrails switch 280, a set ofadjacent ties 202 can be extended beyond their normal length for support of components making upswitch 280.Ties 202 at locations “a” and “b” ofFIG. 2 are extended length ties. Supported onextended length ties 202 at locations “a” and “b” in the embodiment ofFIG. 2 are a switchstand 282 which can includelever 283, alinkage box 284, and adirectional indicator 285. Typically, ties 202 comprise wood, e.g., hardwood or softwood and can be treated with creosote or other wood preservative.Ties 202 can also comprise pre-stressed concrete. In one example,ties 202 can include a nominal length of 259.08 cm (102.00 inch), a nominal width of 22.86 cm (9.00 inch), a nominal height of 17.78 cm (7.00 inch), a nominal centerline to centerline spacing of 53.34 cm (21.00 inch) and a nominal gap of 30.48 cm (12.00 inch). Dimensions and spacing ofties 202 can vary from the above nominal values. In one example extended length ties for support of a switchstand can have a length of about 381.00 cm (150.00 inch) to provide a platform on which switchstand 282 can be mounted. - In the field, accidents have been observed that result from poor illumination (in known systems illumination can consist of ambient illumination only and/or flashlight illumination) of various railway features. Railways have been observed to be notoriously poorly illuminated including in remote areas outside of commercial centers and industrialized areas that are characterized by street light illumination and illumination from buildings in the vicinity of a railway. Railway features that have been observed to pose a risk to personnel servicing railways are switch components, for example, switch levers have been reported to impale personnel, and tracks which, in some instances, can be so poorly illuminated that personnel have been observed to ascertain the presence of a rail only when walking upon the rail. One railway feature which has been observed to be a significant source of injury is a
switchstand 282 of a railway switch. Alever 283 anddirection indicator 285 of aswitch 280 normally comprise extending and pointed structures which can pose significant risk of injury to persons servicing a railway. - Referring to further aspects of
system 1000,illumination unit 10 can be disposed in specific arrangement in relation to switch 280, for highlighting a location ofswitch 280 in the field, and therefore highlighting the location of dangerous objects such alever 283 anddirectional indicator 285. In the development ofsystem 1000 in one embodiment, it was determined that significant advantage can be yielded by configuringsystem 1000 to substantially illuminate a railroad rail in the area ofswitch 280. In oneembodiment system 1000, with reference to the use case ofFIG. 2 can be configured to direct emitted light so that a rail, e.g.,rail 110 opposingswitchstand 282 is substantially illuminated. - One reason why it is advantageous to direct emitted light for illumination of a railway rail is that railway rails tend to comprise metallic and naturally reflective surfaces. Accordingly, by directing light toward a rail,
system 1000 tends to magnify an output of visible illumination output bysystem 1000. Because railway rails are pre-existing in a railway, the illumination magnification can be yielded without addition of extraneous components intosystem 1000. Increasing a visible light energy output ofsystem 1000 without increasing an energy input ofsystem 1000 is particularly advantageous in view of the fact that there can be considerable restraints on an amount of energy input available for input intosystem 1000. In one embodiment,illumination unit 10 can include asolar panel 30 and can rely on solar energy for energy input. In anotheraspect system 1000 can be implemented in regions away from the equator with minimal available solar energy, particularly during the winter months. Where a railway rails e.g.,rail 110 is illuminated in an area of a switch, a location of aswitch 280 can be highlighted for a service personnel. From a distance, the rail can have the appearance of an elongated shiny bar to a service personnel. - For illumination of a railway rail, particularly useful for highlighting a location of a railway feature such as a
switch 280,system 1000 can be particularly configured. Aspects ofsystem 1000configuring system 1000 for directing light for illumination of a rail such asrail 110 is described with reference toFIGS. 2 and 5 . It is seen thatrail assembly 100 ofsystem 1000 can be disposed at certain elevation, the certain elevation being an elevation range (a set of heights) delimited by a bottom offooters 204, e1, and a top ofrails assembly 100 is devoid offooters 204, the certain elevation can be the elevation range delimited by the bottoms and tops ofrails switch 280, because of railway gradient requirements, an elevation offooters 204 andrails switch 280 can be regarded to define a substantially horizontally extending planar region, the substantially horizontally extendingplanar region 550 having abottom plane 551 delimited by the respective bottom offooters 204, and atop plane 552 delimited by respective tops ofrails rail assembly 100 is devoid offooters 204 andrails ties 202, theplanar region 550 can be delimited by the bottoms of any two ormore rails top plane 552 can be delimited by the tops of any two ormore rails planes planar region 550 extends through the area depicted inFIG. 2 (fragments ofplanes planar region 550 described). - A cross-sectional view of
rails FIG. 3 . Certain elevation of arail assembly 100 can be a set of heights delimited by a bottom offooter 204, e1, and a top ofrails footer 204 is deleted, arail assembly 100 can be at a certain elevation delimited by a bottom and top ofrail rail FIG. 4 . Arail FIG. 4 ) extending through horizontal axis 118 can have the relative orientation to arail FIG. 4 . - In one aspect for directing light toward rail, e.g.,
rail 110,illumination unit 10 can include alight source bank 20 having one or more light sources disposed at certain elevation and within the substantially planar region, e.g.,light source 21, and/orlight sources - As shown in
FIG. 6 , a light source described herein, e.g.,light source 21, and/orlight sources nominal boundaries target plane 2006 normal to anominal beam axis 2008 at which luminous intensity is half of a maximum value. Alight source FIG. 6 , which can extend in an emission direction alongnominal axis 2008 oflight source light source FIG. 6 ,light source light source - Further regarding
illumination unit 10,housing 60 can include mountingholes 56 allowingunit 10 to be installed directly on a tie with use of set screws (not shown). In another aspect as is illustrated inFIGS. 2 and 5 ,system 1000 can be configured so that acentral emission vector light sources illumination unit 10 can be directed toward arail 110 for illumination ofrail 110 and a highlighting of a location ofswitch 280. In the embodiment ofFIG. 1 ,illumination unit 10 can be mounted onextended length tie 202 at location “a” at a location intermediate ofswitchstand 282 andrail 110. Becauserail assembly 100 is disposed adjacently aboveties 202, a disposal ofillumination unit 10 also adjacently above atie 202 positions an illumination source ofunit 100 at the certain elevation and within planar region 250 where it is well positioned for illumination of one or more railway rail. - In another aspect,
light source bank 20 ofunit 10 can have a first at least onelight source 21 with acentral emission vector 31 extending in a first direction and a second at least onelight source 22 with acentral emission vector 32 extending in a second direction. In another embodiment,unit 10 can have a single light source, e.g.,light source 21. In the arrangement shown inFIG. 2 , a first onelight source 21 having acentral emission vector 31 extends a first direction for primarily illuminatingrail 110 while a secondlight source 22 with acentral emission vector 32 extends in a second direction for primarily illuminatingrail 110 andswitchstand 282 ofswitch 280. - More specifically, there can be defined by the railway 500 a first vertically extending
plane 240 extending perpendicularly relative to a horizontal axis ofrail 110 through a center ofswitchstand 282, which can be regarded as the center of thelinkage box 284 in the specifically shown embodiment.System 1000 can be configured so that theillumination unit 10 is disposed in a position adjacent to and spaced apart from the first vertically extendingplane 240, wherein theillumination unit 10 includes afirst light source 21 having acentral emission vector 31 extending in first direction and a secondlight source 22 having acentral emission vector 32 extending in a second direction, wherein the first direction is a direction away from a first vertically extendingplane 240, wherein the second direction is a direction toward the first vertically extendingplane 240. A fragment ofplane 240 is shown inFIG. 2 , but it is understood thatplane 240 extends infinitely. - It has been described that a light source, e.g.,
light source 21 can substantially illuminate a railway rail wherecentral emission vector 31 oflight source 21 extends substantially horizontal and to the certain elevation of the rail assembly including the rail. For increasing an illumination of a rail, e.g.,rail 110,light source 21 can be oriented so thatcentral emission vector 31 is directed substantially perpendicularly to and substantially perpendicularly intersects a vertically extending plane extending through ahorizontal axis rail 110. However, the embodiment as shown inFIG. 2 will also substantially illuminate arail 110 wherecentral emission vector 31 extends substantially parallel to a vertically extending plane extending through a horizontal axis ofrail 110 where light emitted bylight source 21 exhibits a beam radius defining an illumination cone (e.g., 30 degrees, 45 degrees, 60 degrees). A substantial percentage of light rays will reachrail 110 wherecentral emission vector 31 extends in a direction substantially parallel to vertically extending plane extending through a horizontal axis ofrail 110. With acentral emission vector 31 extending in a direction substantially parallel to a vertical plane extending through a horizontal axis ofrail 110,light source 21 is positioned so as to be optimally be visible to an operator a distance away fromlight source 21 and in a path of natural approach of an operator to aswitch 280. (Operators tend to approach a switch by walking on or near a set of railway ties.) - In the particular embodiment described where
rail assembly 100 includesfooters 204, and whereillumination unit 10 has a height of about 3 cm, a central emission vector of a light source ofillumination unit 10 can extend horizontally and can have an elevation of about 1.5 cm above the elevation e1. In such embodiment, acentral emission vector 31 can extend substantially horizontally at the particular elevation offooter 204 wherefooter 204 has a height greater than about 1.5 cm. - Where a
central emission vector 31 extends substantially horizontally at the certain elevation offooter 204, illumination offooter 204 can be yielded which can guide an operator to a location of a switch.Footers 204, likerails illumination unit 10 can be positioned so that central emission vector is at a certain elevation of a rail, e.g., 110. With apartial illumination unit 10 in one embodiment having a height of 3 cm and where a rail assembly includes footers of heights greater than about 1.5 cm, such position can include a spacer (not shown) disposed on a bottom ofhousing 60 increasing a height of light sourcecentral emission vector 31. - Regarding
illumination unit 10,illumination unit 10 can include alight source 23 having acentral emission vector 33 extending substantially parallel tocentral emission vector 31, andlight source 24 having acentral emission vector 34 extending in a direct substantially parallel toemission vector 32. - In a still further aspect,
illumination unit 10 can includelight source 25 havingcentral emission vector 35 and/orlight source 26 havingcentral emission vector 36.Light source 25 and/orlight source 26 can replace or supplementlight source 21.Illumination unit 10 can also or alternatively comprise one or more oflight sources Illumination unit 10 can be configured so thatcentral emission vectors rail 110. Thecentral emission vectors light sources rail assembly 100.Emission vector 35 can be directed towardrail assembly 100 and substantially perpendicularly intersect a plane extending vertically through ahorizontal axis rail 110, andemission vector 36 can be directed away fromrail assembly 100 and can substantially perpendicularly intersect a switchstand plane extending vertically throughswitchstand 282, the switchstand plane being substantially parallel to a plane extending vertically through a horizontal axis.System 1000 can be configured so that light rays emitted fromlight source 26 impinge onswitchstand 282.System 1000 can be configured so that light rays emitted fromlight sources rail 110 to illuminaterail 110 in an area ofswitchstand 282. - With such arrangements,
rail 110 andswitchstand 282 are substantially illuminated. The illumination ofrail 110 usefully illuminates an area aboutswitch 280 and thereby highlights a location ofswitch 280. - Referring to
FIG. 8 a block diagram ofillumination unit 10 is shown and described.Illumination unit 10 can include asolar panel 30, alight source bank 20, arechargeable battery 40, and acontrol circuit 50.Control circuit 50 can be switchable between a first mode in which energy collected fromsolar panel 30 is utilized for the recharging ofrechargeable battery 40 and a second mode in which energy stored inrechargeable battery 40 is utilized for the energization oflight source bank 20. In one embodiment,control circuit 50 includes atimer 52 for controlling the switching of the modes. Thetimer 52 can include a real time clock which controls the on time of the second mode depending on the expected duration of nighttime based on the current day of the calendar year. In another embodiment,control circuit 50 can control the switching between the modes based on an output of thesolar panel 30.Illumination unit 10 can be operative so that if an output ofsolar panel 30 indicates a lack ofsunlight control circuit 50 switches to the second mode so that energy stored inbattery 40 energizeslight source bank 20. In another aspect as best seen inFIG. 7 ,illumination unit 10 can includereflectors - In another aspect,
system 1000 can be configured to be ruggedly constructed and durable notwithstanding significant exposure to various environmental effects, including precipitation events such as rain, snow, and frost. In the development ofsystem 1000 it was determined that while disposal ofillumination unit 10 on a railway tie is advantageous for a variety of reasons (e.g., for positioning of the illumination unit for directing light toward a rail), such disposal also can present challenges. - Unlike paved roads for motor vehicles which are required to be graded for precipitation runoff,
railway ties 202 can be ungraded and can have substantially flat top surfaces. Also, a top surface of arailway tie 202, typically comprising timber, e.g., hardwood or softwood can be substantially porous. For the above reasons,railway ties 202 can be particularly susceptible to pooling of precipitation. A pooling of precipitation can frustrate operation of an internal component ofillumination unit 10, reducing or preventing a capacity ofillumination unit 10 to illuminate a railway feature. - In one embodiment,
illumination unit 10 can be configured and arranged so that a pooling of precipitation is reduced. In oneembodiment illumination unit 10 includes ahousing 60 that houses thelight source bank 20 and therechargeable battery 40. As indicated inFIGS. 9 and 10 ,housing 60 can have a plurality of downwardly extendingformations portion 66 ofbottom 68. In the embodiment shown, downwardly extendingformations housing 60, so that periphery of bottom 68 is defined byformations portion 66 of bottom 68 is defined is a raisedinterior portion 66 ofbottom 68. In one embodiment as best seen inFIG. 10 ahousing 60 can comprise clear material, e.g. clear polycarbonate which encapsulateslight sources illumination unit 10 as shown inFIG. 10 and from a side perspective view (not shown). By such design, light from a light source e.g.light source light source unit 10 over an entire angular emission ray of the certain light source. The providing ofillumination unit 10 to include raisedportion 66 encourages removal of precipitation from an area ofillumination unit 10. The providing ofillumination unit 10 to include raisedportion 66 also encourages airflow aboutillumination unit 10, thereby removing moisture from an interior and an exterior of illumination unit, and further regulating a temperature ofillumination unit 10. Regulating a temperature ofillumination unit 10 can improve a performance of internal electrical components ofillumination unit 10. The providingillumination unit 10 to include raisedportion 66 also allows an area for liquids to expand on freezing thereby increasing a securing force by whichillumination unit 10 can be secured to atie 202, and reducing stresses onillumination unit 10. - Referring to the installation view of
FIG. 5 ,extended length tie 202 at location “a” can include atop surface 206 and theillumination unit 10 can be installed on theextended length tie 202 at location “a” so that the plurality of downwardly extendingformations top surface 206, the downwardly extendingformations portion 66 of bottom 68 and thetop surface 206 when the illumination unit is installed on theextended length tie 202 so that it contacts topsurface 206 ofextended length tie 202 at location “a.” In one embodiment, raisedportion 66 of bottom 68 can be raised about 0.3 cm from an elevation of the bottom offormations - Further referring to the installation view of
FIG. 5 , the downwardly extendingformations housing 60, to define weepchannels formations housing 60 operates to direct precipitation away fromillumination unit 10. Specification details ofillumination unit 10 in one embodiment are summarized in Table A. -
TABLE A Manufacturer Ninghan Quinghai Electrical of Ningbo, Zhejiang, Peoples Republic of China Model No. QH-011D Light Source Super luminosity LED Light Output Varying type/Constant Type Solar Panel Poly-crystalline silicon/Single crystalline silicon Run Time 108 hours for Varying type/More than 24 hours for Constant type Battery NI-MH/Super Capacitor Housing Polycarbonate Work Temperature −25 to 75 degrees C. Load Rating 40,000 lbs. Reflectors 2 Environmental Rating Waterproof Dimensions 11 cm × 8 cm × 3 cm Central Emission Vector Elevation 1.5 cm, horizontal relative to bottom of housing - In another embodiment,
illumination unit 10 can be provided by the illumination unit as summarized in TableB. Illumination unit 10 can also be provided by another model (solar light) available from Ninghan Quinghai Electrical or another manufacturer. -
TABLE B Manufacturer Ninghan Quinghai Electrical of Ningbo, Zhejiang, Peoples Republic of China Model No. Custom - Based on QH- 011D Light Source 4 LED - 8 mm Light Output 4 lumen Solar Panel Single crystalline silicon Run Time 20 hour minimum on full charge Battery Nickel-metal hydride-700 mAH Housing Polycarbonate - clear Body Melt Temp 374 degrees F. Load Rating 40,000 lbs. Reflectors 2 Environmental Rating Waterproof Dimensions 11 cm × 8 cm × 3 cm Central Emission Vector Elevation 1.5 cm, horizontal relative to bottom of housing - In another embodiment,
illumination unit 10 can be provided by a commercially available solar light of one of the models mentioned modified to include a raised bottom portion and downwardly extending formations as set forth herein or another model modified to include a raised bottom portion and downwardly extending formations as set forth herein. Table C sets forth an embodiment including downwardly extending formations as set forth herein. -
TABLE C Manufacturer Ninghan Quinghai Electrical of Ningbo, Zhejiang, Peoples Republic of China Model No. Custom - Based on QH- 011D Light Source Super luminosity LED Light Output Varying type/Constant Type Solar Panel Mono-crystalline silicon Run Time 70+ constant hours for white and yellow, 27+ for Purple Battery NiMH 2000 mAH Housing Polycarbonate Work Temperature Range −25 to 75 degrees C. Load Rating 8 Tons Reflectors 2 Environmental Rating Waterproof to IP 67 Dimensions 11 cm × 8 cm × 3 cm, 0.5 × 0.2 cm. Weep channels (2 on each of front & back) as shown in FIGS. 5 and 6. Centers of weep holes spaced 6.7 cm Central Emission Vector Elevation 1.5 cm, horizontal relative to bottom of housing - Manufacturers of solar lights often provide assistance in manufacturing custom units. One such manufacturer is Ninghan Quinghai Electrical of Ningbo, Zhejiang, Peoples Republic of China. In a number of embodiments of
illumination unit 10 set forth herein there can be alight source bank 20 having a first light source and M additional units, M=>0. Various embodiments ofillumination unit 10 are set forth herein with six light sources, for example. In one embodiment, the M additional light sources can have a common emission wavelength relative to the first light source and can be controlled according to a common control with the first light source. In one embodiment the M additional light sources can have different emission wavelengths relative to an emission wavelength of the first light source, and can be controlled according to control methods different than a control for the first light source. - In another
aspect illumination unit 10 can be utilized to illuminate locations of interest ofrailway 500 other thanswitch 280. - Referring to
FIG. 1 ,railway 500 can include afoul point 600 and a derailpoint 800. Afoul point 600 can be regarded as a point on arailway 500 beyond which a car must travel onsecondary track 300 so as to avoid interference with a stationary or moving car on a throughtrack 400. Location of interest in the form ofswitch 280,foul point 600, and the derailpoint 800 are also shown in a top view ofFIG. 11 . If a car ontrack 300 is located betweenfoul point 600 and throughtrack 400, it can interfere with stationary or moving car 700 (as shown inFIG. 11 ) of throughtrack 400 potentially causing significant property damage and injury. A foul point can be a specific point in a length of track, e.g.,track 300. A foul point can be indicated by a line running transverse to a set of rails, e.g., rails 114, 112. A foul point can be associated to aspecific tie 202, the tie on which a foul point is located. A tie at which a foul point is located can be regarded as a foul point tie, e.g., tie 202 at location “c” ofFIG. 12 herein. An “area of a foul point” herein can refer to the area about a foul point as well as N ties (e.g., N=5) laterally on either side of a foul point. In currently available railways, foul points have been observed to be highlighted with paint (e.g. a painted tie and rails at the foul point). In the development ofsystem 1000 it was observed that indicating paint for indicating a foul point tends to fade or chip. Also, it was noted that such indicating paint tends to become obscured and not highly visible or visible at all when covered by debris, snow or rail cars. - A derail point of
track 300 is a point where aderailer 802 is located. Aderailer 802 is shown inFIG. 13 .Derailer 802 can be moveable from an active position (shown in the view) to an inactive position in which a car can move past the derail point without being derailed. In the example shown,derailer 802 can be partially supported bytie 202 at location “d” and bytie 202 at location “e.” If a car moved past a derailpoint 800 with a derailer in an active position, a car will be derailed. An “area of a derail point” herein can refer to the area about a derailer 802 (which can be regarded as a derail location) as well as N ties (e.g., N=5) laterally on either side of a derail point. - An
illumination unit 10 can be disposed as shown inFIG. 12 for highlighting of afoul point 600.Illumination unit 10 in the embodiment ofFIG. 12 is shown as having alight source bank 20 comprising six light sources (in an alternative embodiment one to five of the light sources can be deleted). Each oflight sources rail assembly 100 delimited in the instance shown by a bottom offooter 204, e1, and a top ofrail planar region 550 as described with reference toFIG. 12 can be delimited bybottom plane 551 andtop plane 552. In one embodiment, one or morecentral emission vectors FIG. 12 central emission vectors light sources rails central emission vectors Vectors track 300 whilevectors track 300.Central emission vector 35 oflight source 25 can extend in a direction substantially perpendicular to and substantially perpendicular intersecting a vertical plane extending through a horizontal axis ofrail 114 whilecentral emission vector 36 oflight source 26 can extend in a direction substantially perpendicular to and substantially perpendicular intersecting vertical plane extending through a horizontal axis ofrail 112.Central emission vector 36 can extend in a direction parallel to acertain tie 202 that can define a foul point.Illumination unit 10 in the embodiment ofFIG. 12 is shown as being supported directly ontie 202.Illumination unit 10 can be in accordance with Tables A, B, C, and/or another specification with additional light sources added.Light sources source illuminating rails 110 and footers described in reference toFIG. 2 while being projected to be visible from a long range (e.g., 50M plus) from an approaching operator who may be approaching by walking on ties or adjacent to ties).Light source 25 can primarily illuminaterail 114 in the area of afoul point 600 whilelight source 26 can primarily illuminaterail 112 in an area offoul point 600. With reference to the embodiment ofFIG. 12 , light sources 21-25 can emit light rays impinging onrail 114, while light sources 21-24, 26 can emit light rays impinging onrail 112. - An
illumination unit 10 can be disposed as shown inFIG. 13 for highlighting of a derailpoint 800, which can be regarded as the point of traveling on which a car can be derailed byderailer 802illumination unit 10 in the embodiment ofFIG. 13 is as shown having six light sources (in an alternative embodiment one to five of the light sources can be deleted). Each oflight sources rail assembly 100 delimited in the instance shown by a bottom offooter 204, el, and a top of rail, e2, 114, 112 which limiting elements define in the same manner as described with reference toFIG. 2 aplanar region 550 as described in reference toFIG. 2 . In one embodiment,central emission vectors FIG. 13 central emission vectors light sources rail 114 whilecentral emission vectors light sources Vectors track 300 andvectors track 300.Central emission vector 35 oflight source 25 can extend in a direction substantially perpendicular to and substantially perpendicular by intersecting a vertical plane extending through a horizontal axis ofrail 114 whilecentral emission vector 36 oflight source 26 can extend in a direction substantially perpendicular to and substantially perpendicular by intersecting a vertical plane extending through a horizontal axis ofrail 112.Central emission vector 36 can extend in a direction substantially parallel to acertain tie 202 at location “d” that supportsderailer 802 as shown inFIG. 13 .Illumination unit 10 in the embodiment ofFIG. 13 is shown as being supported directly ontie 202 supportingderailer 802 at a location betweenrail 114 andrail 112.Illumination unit 10 can be provided in accordance with Tables A, B, or C, or in accordance with another specification with additional light sources added.Light sources rails illumination unit 10 illuminatingrail 110 andfooters 204 as described in reference toFIG. 2 while being projected to be visible from a long range (e.g., 50M plus) from an approaching operator who may be approaching by walking on ties or adjacent to ties.Light source 25 can primarily illuminaterail 114 in an area of aderailing point 800 whilelight source 26 can primarily illuminaterail 112 as well asderailer 802 in an area of a derail point. With reference to the embodiment ofFIG. 13 , light sources 21-25 can emit light rays that impinge onrail 114, while light sources 21-24, 26 can emit light rays impinging onrail 112.Light source 26 can emit light rays impinging onderailer 802. -
Railway 500 particularly in remote areas can be exceedingly dark and void of light in the nighttime. A problem that was noted in the development ofsystem 1000 was that even if points of interest are indicated with use ofillumination unit 10 it may be difficult to distinguish between various points of interest. Insystem 1000 different lighting profiles can be utilized to highlight different locations of interest to facilitate an operator distinguishing between different locations of interest (i.e., whether a location of interest is a switch or a foul point or a derail point). The different lighting profiles can include different emission wavelengths (i.e., colors). The different lighting profiles can alternatively or additionally include different illumination controls (e.g., flashing on and off, intensity varying). - Table D indicates various illumination profiles that can be utilized to highlight different locations of interest. In one embodiment,
system 1000 can be configured so that each light source of anillumination unit 10 can have a common illumination profile. -
TABLE D Location of Embodiment Embodiment Embodiment interest 1 2 3 Embodiment 4Switch White White White White (Constantly (Constantly (Constantly (Constantly Energized) Energized) Energized) Energized) Foul Point Yellow Yellow Yellow Yellow (Constantly (Constantly (Constantly (Constantly Energized) Energized) Energized) Energized) Derail Point White Purple Orange Orange (Flashing) (Constantly (Flashing) (Constantly Energized) Energized) - In embodiments described herein, there is described a
single illumination unit 10 provided for illuminating a single location of interest. However, it is understood that a plurality ofillumination units 10 can be provided for illuminating a particular location of interest. In the development ofsystem 1000 it was determined that confusion to service personnel can ensue if the illumination profile ofvarious illumination units 10 ofsystem 1000 are not coordinated and are not carefully selected. As noted,illumination units 10 for highlighting of different locations of interest can be differentiated from one another so that service personnel can distinguish different locations of interest from a distance. Also, anillumination unit 10 can have an illumination profile selected so as not to cause confusion with other information that can be presented in a railway environment. In one embodiment,illumination units 10 ofsystem 1000 can be devoid of light sources that emit light in any of the red or orange or green wavelength bands for illuminating a railway feature. In development ofsystem 1000 it was determined that use of red light relative torailway 500 can indicate a stop prompt (e.g. that a person or train must stop). Accordingly, avoiding use of red light avoids presentation of potentially confusing information relative torailway 500. Likewise “green” in a railway environment can indicate a “go” prompt. Accordingly, avoiding use of green light avoids presentation of potentially confusing information. In some embodiments, it can be useful to utilize red and/or green light for illuminating a railway feature. - In one embodiment, substantially parallel herein refers to angles less than 30 degrees from parallel. In one embodiment, substantially parallel herein refers to angles less than 20 degrees from parallel. In one embodiment, substantially parallel herein refers to angles less than 10 degrees from parallel. In one embodiment substantially parallel herein refers to angles less than 5 degrees from parallel. In one embodiment, substantially parallel herein refers to angles less than 2 degrees from parallel. In one embodiment, substantially perpendicular (substantially perpendicularly) herein refers to angles less than 30 degrees from perpendicular. In one embodiment, substantially perpendicular herein refers to angles less than 20 degrees from perpendicular. In one embodiment, substantially perpendicular herein refers to angles less than 10 degrees from perpendicular. In one embodiment substantially perpendicular herein refers to angles less than 5 degrees from perpendicular. In one embodiment, substantially perpendicular herein refers to angles less than 2 degrees from perpendicular.
- A small sample of systems methods and apparatus that are described herein is as follows:
- A1. A system for illumination of a feature of a railway, the railway including a railroad track having plurality of ties, the plurality of ties including an extended length tie, and a switch for switching a route of a traveling train, the switch being switchable between a primary position in which a traveling train can be routed from a primary track to a through track, and a switched position in which a traveling train can be routed from a primary track to a secondary track, the switch having a switchstand component supported on the extended length tie, the railway having a rail assembly supported on the plurality of ties, the rail assembly having first and second elongated rails, wherein the rail assembly is supported at a certain elevation, wherein the system comprises:
- an illumination unit supported on the extended length tie in an area of the extended length tie between the first rail and the switch component, the illumination unit having a light source bank, the light source bank including a first light source that comprises a central emission vector extending in a first direction that is substantially horizontal and at the certain elevation; and
- wherein the illumination unit includes a solar panel for collecting solar energy, and a rechargeable battery, the rechargeable battery for energizing the light source bank and being rechargeable utilizing solar energy collected by the solar panel.
- A2. The system of A1, wherein the system is configured so that central emission vector of the first light source extends in a direction that is substantially parallel with a vertical plane extending through a horizontal axis of the first rail.
A3. The system of A1, wherein the illumination unit comprises a second light source, the second light source having a central emission vector that extends in a direction that is substantially horizontal and that is substantially at the certain elevation.
A4. The system of A1, wherein the illumination unit comprises a second light source, the second light source having a central emission vector that extends in a second direction that is substantially horizontal and that is substantially at the certain elevation, the second direction being substantially parallel to a vertical plane extending through a horizontal axis of the first rail.
A5. The system of A1, wherein the system is configured so that the illumination unit is disposed in a position adjacent to and spaced apart from a first vertically extending plane extending substantially perpendicularly relative to the first rail and through a center of the switchstand, wherein the illumination unit includes a second light source having a central emission vector extending in a second direction, wherein the first direction is a direction away from the first vertically extending plane, wherein the second direction is a direction toward the first vertically extending plane.
A6. The system of A1, wherein the illumination unit includes a housing that houses the light source bank and the rechargeable battery, the housing having a plurality of downwardly extending formations extending downwardly from the housing to define a housing bottom having a raised bottom portion, wherein the extended length tie includes a top surface, the illumination unit being installed on the extended length tie so that the plurality of downwardly extending formations impart a compression force on the top surface, the downwardly extending formations defining a clearance between the raised bottom portion and the top surface when the illumination unit is installed on the extended length tie.
A7. The system of A6, wherein the downwardly extending formations extend downwardly from a periphery of the housing.
A8. The system of A6, wherein the downwardly extending formations extend downwardly from a periphery of the housing to define weep channels about a periphery of the housing.
A9. The system of A1, wherein the first and second rails delimit a substantially horizontally extending planar region having a top delimited by the tops of the first and second rails and a bottom delimited by the bottoms of the rail assembly, wherein the first light source is disposed within the substantially horizontally extending planar region.
A10. The system of A1, wherein the central emission vector of the first light source extends in a direction that substantially perpendicularly intersects a vertically extending plane extending through a horizontal axis of the first rail.
B1. A system for illumination of a feature of a railway, the railway including a railroad track having plurality of ties including an extended length tie, the switch being switchable between a primary position in which a traveling train can be routed from a primary track to a through track, and a switched position in which a traveling train can be routed from a primary track to a secondary track, the switch having a switchstand component supported on the extended length tie, the railway having a rail assembly supported on the plurality of ties, the rail assembly having first and second elongated rails, wherein the rail assembly is supported at a certain elevation, wherein the system comprises: - an illumination unit supported on a tie of the plurality of ties at a location proximate the switch, the illumination unit having a light source bank, the light source bank including a first light source that comprises a central emission vector, the illumination unit being supported so that the central emission vector extends in a first direction that is substantially horizontal and at the certain elevation; and
- wherein the illumination unit includes a solar panel for collecting solar energy and a rechargeable battery, the illumination unit being configured so that the rechargeable battery is operative for energizing the light source bank, the illumination unit further being configured so that the rechargeable battery is rechargeable utilizing solar energy collected by the solar panel.
- B2. The system of B1, wherein the illumination unit is supported on the elongated length tie.
B3. The system of B1, wherein the illumination unit is supported on the extended length tie at a location externally disposed relative to the first rail and internally disposed relative to the switch component.
B4. The system of B1, wherein the illumination unit is supported on a plurality of ties.
B5. The system of B1, wherein the switch includes a linkage member and wherein the illumination unit is supported at a location that is more proximate the switchstand component than the rail link member.
B6. The system of B1, wherein the central emission vector of the first light source extends in a direction that is substantially parallel to a vertical plane extending through a horizontal axis of the first rail, and wherein the illumination unit includes a second light source, the second light source having a central emission vector extending in a direction that is substantially perpendicular to the plane extending through a horizontal axis of the first rail.
C1. A method for illuminating a feature of a railway, the railway including a railroad track having plurality of ties, the railway having a rail assembly supported on the plurality of ties, the rail assembly having first and second elongated rails, wherein the rail assembly is supported at a certain elevation, wherein the method comprises: - providing an illumination unit that includes a light source bank, a solar panel for collecting solar energy, and a rechargeable battery, the illumination unit being configured so that the rechargeable battery is operative for energizing the light source bank, the illumination unit further being configured so that the rechargeable battery is rechargeable utilizing solar energy collected by the solar panel;
- installing the illumination unit so that the light source bank is disposed at the certain elevation.
- D1. A method for illuminating a feature of a railway, the railway including a railroad track having plurality of ties, the railway having a rail assembly supported on the plurality of ties, the rail assembly having first and second elongated rails, wherein the rail assembly is supported at a certain elevation, wherein the system comprises:
- providing an illumination unit that includes a light source bank having a first light source, a solar panel for collecting solar energy and a rechargeable battery, the illumination unit being configured so that the rechargeable battery is operative for energizing the light source bank, the illumination unit further being configured so that the rechargeable battery is rechargeable utilizing solar energy collected by the solar panel;
- installing the illumination unit so that a central emission vector of the first light source extends substantially horizontally at the certain elevation.
- D2. The method of D1, wherein the providing includes providing the illumination unit to include a second light source having a central emission vector that extends in a direction substantially perpendicular to a vertical plane extending through the central emission vector of the first light source and wherein the installing step includes the step of installing the illumination unit so that the central emission vector of the second light source extends in a direction that substantially perpendicularly intersects a vertically extending plane extending through a horizontal axis of the first rail.
D3. The method of D1, wherein the providing includes providing the illumination unit so that the light source bank includes a second light source having a central emission vector that extends in a direction substantially perpendicular to a vertical plane extending through the central emission vector of the first light source and wherein the installing step includes the step of installing the illumination unit in an area of a switch so that the central emission vector of the second light source extends in a direction that substantially perpendicularly intersects a vertically extending plane extending through a switchstand of the switch in a direction that is substantially parallel to a vertically extending plane extending through a horizontal axis of the first rail.
E1. An illumination unit comprising: - a light source bank;
- a solar panel for collecting solar energy;
- a rechargeable battery;
- wherein the illumination unit is switchable between a first mode in which solar energy collected by the solar panel is utilized for recharging the rechargeable battery; and a second mode in which stored energy stored within rechargeable battery is utilized for energizing the light source bank;
- a housing that houses the solar panel, the light source bank, and the rechargeable battery, the housing having a downward extending formation extending downwardly from a periphery of the housing, the downwardly extending formation defining a raised interior portion of a bottom of the housing, a periphery of the bottom of the housing being defined by the downward extending formation.
- E2. An illumination unit of E1, wherein the housing has a plurality of downward extending formations defining a periphery of a bottom of the housing, the plurality of downward extending formations defining a raised interior portion of the bottom, and further defining weep channels of the housing.
F1. A system for illuminating a feature of a railway, the railway including a railroad track having a plurality of ties, the railway having a rail assembly supported on the plurality of ties, the system comprising: - a first illumination unit for illuminating a first location of interest, an area about the first location of interest including a rail assembly having a certain elevation, the first illumination unit having a first light source disposed at the certain elevation, wherein the first illumination unit is switchable between a first mode in which solar energy collected by the solar panel is utilized for recharging the rechargeable battery, and a second mode in which stored energy stored within a rechargeable battery is utilized for energizing the light source bank;
- a second illumination unit for illuminating a second location of interest, an area about the second location of interest including a rail assembly having a certain elevation, the second illumination unit having a first light source disposed at the certain elevation, wherein the first illumination unit is switchable between a first mode in which solar energy collected by the solar panel is utilized for recharging the rechargeable battery, and a second mode in which stored energy stored within rechargeable battery is utilized for energizing the light source bank;
- wherein the first location of interest and the second location of interest are of different types, and wherein each of the first location of interest and the second location of interest is a location of interest selected from the group consisting of a switch, a foul point, and derail point; and
- wherein the first light source of the first illumination unit has a first illumination profile and the first light source of the second illumination unit has a second illumination profile, the second illumination profile being different from the first illumination profile.
- F2. The system of F1, wherein the first illumination profile and the second illumination profile are differentiated by a wavelength of emission.
F3. The system of F1, wherein the first illumination profile and the second illumination profile are differentiated by illumination control the first illumination profile being characterized by a constantly energized illumination control, the second illumination profile being characterized by a flashing illumination control.
F4. The system of F1, wherein the first location of interest is a switch and the second location of interest is a foul point.
F5. The system of F1, wherein the first location of interest is a switch and the second location of interest is a foul point.
F6. The system of F1, wherein a central emission vector of the first light source of the first illumination unit extends substantially horizontally in a direction substantially parallel to plane extending through a horizontal axis of a rail in an area of the first location of interest.
F7. The system of F1, wherein the system includes a third illumination unit for illuminating a third location of interest, an area about the third location of interest including a rail assembly having a certain elevation, the third illumination unit having a light source bank including a first light source disposed at the certain elevation, wherein the third illumination unit is switchable between a first mode in which solar energy collected by the solar panel is utilized for recharging the rechargeable battery, and a second mode in which stored energy stored within rechargeable battery is utilized for energizing the light source bank, wherein the first location of interest and the second location of interest and the third location of interest are of different types, and wherein each of the first location of interest and the second location of interest and the third location of interest is a location of interest selected from the group consisting of a switch, a foul point, and derail point, and wherein the first light source of the first illumination unit and the first light source of the second illumination unit and wherein the first illumination unit of the third illumination unit have different illumination profiles.
G1. A system for illumination of a feature of a railway, the railway including a railroad track having plurality of ties, the railway having a rail assembly supported on the plurality of ties, the rail assembly having first and second elongated rails in an area of a foul point, wherein the rail assembly is supported at a certain elevation, wherein the system comprises: - an illumination unit supported on a tie of the plurality of ties in the area of the foul point, the illumination unit having a light source bank, the light source bank including a first light source that emits light having a central emission vector, the illumination unit being supported so that the central emission vector extends in a first direction that is substantially horizontal and at the certain elevation; and
- wherein the illumination unit includes a solar panel for collecting solar energy and a rechargeable battery, the illumination unit being configured so that the rechargeable battery is operative for energizing the light source bank, the illumination unit further being configured so that the rechargeable battery is rechargeable utilizing solar energy collected by the solar panel.
- G2. The system of G1, wherein the tie on which the illumination unit is supported is a foul point tie.
G3. The system of G1, wherein illumination unit is supported at position of the tie intermediate of the first and second rail.
G4. The system of G1, wherein the central emission vector extends in a direction substantially parallel to a vertically extending plane extending through a horizontal axis of the first rail.
G5. The system of G1, wherein illumination unit is supported at a position of the tie intermediate of the first and second rail, wherein the illumination unit includes first, second, third, fourth, fifth and sixth light sources with first, second, third, fourth, fifth, and sixth central emission vectors, the first and second central emission vectors extending in rearward directions that are substantially parallel to a vertical plane extending through a horizontal axis of the first rail, the third and fourth central emission vectors extending in forward directions that are substantially parallel to a vertical plane extending through a horizontal axis of the first rail, the fifth central emission vector extending in a direction that substantially perpendicularly intersects a vertically extending plane extending through a horizontal axis of the first rail, the sixth central emission vector extending in a direction that substantially perpendicularly intersects a vertically extending plane extending through a horizontal axis of the second rail.
H1. A system for illumination of a feature of a railway, the railway including a railroad track having plurality of ties, the railway having a rail assembly supported on the plurality of ties, the rail assembly having first and second elongated rails in an area of a derail point defined by a derailer, wherein the rail assembly is supported at a certain elevation, wherein the system comprises: - an illumination unit supported on a tie of the plurality of ties in the area of the derail point, the illumination unit having a light source bank, the light source bank including a first light source that emits light having a central emission vector, the illumination unit being supported so that the central emission vector extends in a first direction that is substantially horizontal and at the certain elevation; and
- wherein the illumination unit includes a solar panel for collecting solar energy and a rechargeable battery, the illumination unit being configured so that the rechargeable battery is operative for energizing the light source bank, the illumination unit further being configured so that the rechargeable battery is rechargeable utilizing solar energy collected by the solar panel.
- H2. The system of H1, wherein the tie on which the illumination unit is supported is tie supporting a derailer.
H3. The system of H1, wherein illumination unit is supported at a position of the tie intermediate of the first and second rail.
H4. The system of H1, wherein the central emission vector extends in a direction substantially parallel to a vertically extending plane extending through a horizontal axis of the first rail.
H5. The system of H1, wherein illumination unit is supported at a position of the tie intermediate of the first and second rail, wherein the illumination unit includes first, second, and third light sources with first, second, third central emission vectors, the first central emission vector extending in a rearward direction that is substantially parallel to a vertical plane extending through a horizontal axis of the first rail, the second central emission vectors extending in a forward direction that is substantially parallel to a vertical plane extending through a horizontal axis of the first rail, the third light source emitting light rays impinging on a derailer. - While the present application has been described with reference to a number of specific embodiments, it will be understood that the true spirit and scope of the application should be determined only with respect to claims that can be supported by the present specification. Further, while in numerous cases herein wherein systems and apparatuses and methods are described as having a certain number of elements it will be understood that such systems, apparatuses and methods can be practiced with fewer than the mentioned certain number of elements. Also, while a number of particular embodiments have been set forth, it will be understood that features and aspects that have been described with reference to each particular embodiment can be used with each remaining particularly set forth embodiment.
Claims (29)
1. A system for illuminating a feature of a railway, the railway including a railroad track having a plurality of ties, the railway having a rail assembly supported on the plurality of ties, the system comprising:
a first illumination unit for illuminating a first location of interest, an area about the first location of interest including a rail assembly having a certain elevation, the first illumination unit having a first light source disposed at the certain elevation, wherein the first illumination unit is switchable between a first mode in which solar energy collected by the solar panel is utilized for recharging the rechargeable battery, and a second mode in which stored energy stored within a rechargeable battery is utilized for energizing the first light source of the first illumination unit;
a second illumination unit for illuminating a second location of interest, an area about the second location of interest including a rail assembly having a certain elevation, the second illumination unit having a first light source disposed at the certain elevation, wherein the second illumination unit is switchable between a first mode in which solar energy collected by the solar panel is utilized for recharging the rechargeable battery, and a second mode in which stored energy stored within rechargeable battery is utilized for energizing the first light source of the second illumination unit;
wherein the first location of interest and the second location of interest are of different types, and wherein each of the first location of interest and the second location of interest is a location of interest selected from the group consisting of a switch, a foul point, and derail point; and
wherein the first light source of the first illumination unit has a first illumination profile and the first light source of the second illumination unit has a second illumination profile, the second illumination profile being different from the first illumination profile.
2. The system of claim 1 , wherein the first illumination profile and the second illumination profile are differentiated by a wavelength of emission.
3. (canceled)
4. The system of claim 1 , wherein the first location of interest is a switch and the second location of interest is a foul point.
5. (canceled)
6. (canceled)
7. The system of claim 1 , wherein the system includes a third illumination unit for illuminating a third location of interest, an area about the third location of interest including a rail assembly having a certain elevation, the third illumination unit having a light source bank including a first light source disposed at the certain elevation, wherein the third illumination unit is switchable between a first mode in which solar energy collected by the solar panel is utilized for recharging the rechargeable battery, and a second mode in which stored energy stored within rechargeable battery is utilized for energizing the light source bank, wherein the first location of interest and the second location of interest and the third location of interest are of different types, and wherein each of the first location of interest and the second location of interest and the third location of interest is a location of interest selected from the group consisting of a switch, a foul point, and derail point, and wherein the first light source of the first illumination unit and the first light source of the second illumination unit and wherein the first illumination unit of the third illumination unit have different illumination profiles.
8. A method for illuminating a feature of a railway, the railway including a railroad track having a plurality of ties, the railway having a rail assembly supported on the plurality of ties, the method comprising:
providing a first illumination unit for illuminating a first feature, an area about the first feature including a rail assembly having a certain elevation, the first illumination unit having a first light source disposed at the certain elevation, wherein the first illumination unit is switchable between a first mode in which solar energy collected by a solar panel of the first illumination unit is utilized for recharging a rechargeable battery of the first illumination, unit, and a second mode in which stored energy stored within the rechargeable battery of the first illumination unit is utilized for energizing the first light source of the first illumination unit;
providing a second illumination unit for illuminating a second feature, an area about the second feature including a rail assembly having a certain elevation, the second illumination unit having a first light source disposed at the certain elevation, wherein the second illumination unit is switchable between a first mode in which solar energy collected by a solar panel of the second illumination unit is utilized for recharging a rechargeable battery of the second illumination unit, and a second mode in which stored energy stored within the rechargeable battery of the second illumination unit is utilized for energizing the first light source of the second illumination unit, wherein the first feature and the second feature are of different types and wherein the first light source of the first illumination unit has a first illumination profile and the first light source of the second illumination unit has a second illumination profile, the second illumination profile being different from the first illumination profile;
illuminating the first feature utilizing the first illumination unit; and
illuminating the second feature utilizing the second illumination unit.
9. The method of claim 8 , wherein the first illumination profile and the second illumination profile are differentiated by a wavelength of emission.
10. The method of claim 8 , wherein the first illumination profile and the second illumination profile are differentiated by a wavelength of emission, and wherein the first illumination profile and the second illumination profile are differentiated by illumination control, the first illumination profile being characterized by a constantly energized illumination control, the second illumination profile being characterized by a flashing illumination control.
11. The method of claim 8 , wherein the first feature is a switch and the second feature is selected from the group consisting of a foul point and a derail point.
12. The method of claim 8 , the first illumination unit highlights an area of a curved track.
13. The method of claim 8 , wherein the rail assembly includes an elevation other than the certain elevation of the rail assembly in an area of the first feature.
14. A system for illumination of a feature of a railway, the railway including a railroad track having plurality of ties, the railway having a rail assembly supported on the plurality of ties, the rail assembly having first and second elongated rails in an area of a curved track, wherein the rail assembly having first and second elongated rails is supported at a certain elevation, wherein the system comprises:
an illumination unit supported by a tie of the plurality of ties in the area of a curved track, the illumination unit having a light source bank, the light source bank including a first light source that comprises a central emission vector extending at the certain elevation; and
wherein the illumination unit includes a solar panel for collecting solar energy, and a rechargeable battery, the rechargeable battery for energizing the light source bank and being rechargeable utilizing solar energy collected by the solar panel.
15. The system of claim 14 , wherein the system comprises a plurality of illumination units including the illumination unit, the plurality of illumination units for illuminating the area of a curved track.
16. The system of claim 14 , wherein the central emission vector of the first light source is directed toward a vertically extending plane extending through a horizontal axis of the first elongated rail.
17. The system of claim 14 , wherein the central emission vector of the first light source is directed substantially in parallel with a vertically extending plane extending through a horizontal axis of the first elongated rail.
18. The system of claim 14 , wherein the central emission vector of the first light source is directed toward a vertically extending plane extending through a horizontal axis of the first elongated rail, the light source bank including a second light source having a central emission, vector directed toward a second vertically extending plane extending through a horizontal axis of the second elongated rail.
19. The system of claim 14 , wherein the light source bank includes a second light source having a central emission vector directed to substantially perpendicularly intersect a second plane, the second plane being substantially in parallel with a first plane that is substantially perpendicularly intersected by the central emission vector of the first light source.
20. The system of claim 14 , wherein the light source bank includes a second light source having a central emission vector directed to substantially perpendicularly intersect a second plane, the second plane being substantially in parallel with a first plane that is substantially perpendicularly intersected by the central emission vector of the first light source, wherein the light source bank includes a third light source having a central emission vector directed substantially in parallel with the first plane.
21. The system of claim 14 , wherein the central emission vector extends in a direction that is substantially horizontal.
22. The system of claim 14 , wherein the illumination unit includes a housing that houses the light source bank and the rechargeable battery, the housing having a plurality of downwardly extending formations extending downwardly from the housing to define a housing bottom having a raised bottom portion, the downwardly extending formations defining weep channels about a periphery of the housing.
23. The system of claim 14 , wherein the first and second rails delimit a substantially horizontally extending planar region having a top delimited by the tops of the first and second elongated rails and a bottom delimited by the bottoms of the first and second elongated rails or by footers supporting the first and second rails where the first and second elongated rails are supported by footers, wherein the first light source is disposed within the substantially horizontally extending planar region.
24. The system of claim 14 , wherein the central emission vector of the first light source extends in a direction that substantially perpendicularly intersects a vertically extending plane extending through a horizontal axis of the first rail.
25. The system of claim 14 , wherein the area of a curved track is an area of a switch.
26. The system of claim 14 , wherein the area of a curved track is an area of a foul point.
27. The system of claim 14 , wherein the first light source directs light toward the first elongated rail in an area of a curved track.
28. The system of claim 14 , wherein the illumination unit is disposed between the first and second elongated rails in an area of a curved track.
29. The system of claim 14 , wherein the illumination unit includes a housing and a spacer disposed on a bottom of the housing.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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US14/020,063 US20140133136A1 (en) | 2010-04-21 | 2013-09-06 | System for use in illumination of railway feature |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US12/764,597 US8529107B2 (en) | 2010-04-21 | 2010-04-21 | System for use in illumination of railway feature |
US14/020,063 US20140133136A1 (en) | 2010-04-21 | 2013-09-06 | System for use in illumination of railway feature |
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US12/764,597 Continuation US8529107B2 (en) | 2010-04-21 | 2010-04-21 | System for use in illumination of railway feature |
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US20140133136A1 true US20140133136A1 (en) | 2014-05-15 |
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US12/764,597 Expired - Fee Related US8529107B2 (en) | 2010-04-21 | 2010-04-21 | System for use in illumination of railway feature |
US14/020,063 Abandoned US20140133136A1 (en) | 2010-04-21 | 2013-09-06 | System for use in illumination of railway feature |
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US12/764,597 Expired - Fee Related US8529107B2 (en) | 2010-04-21 | 2010-04-21 | System for use in illumination of railway feature |
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US11523488B1 (en) | 2006-03-28 | 2022-12-06 | Amazon Technologies, Inc. | Wirelessly controllable communication module |
US9860965B2 (en) | 2006-03-28 | 2018-01-02 | Wireless Environment, Llc | Cloud connected lighting system |
US8829799B2 (en) | 2006-03-28 | 2014-09-09 | Wireless Environment, Llc | Autonomous grid shifting lighting device |
US8994276B2 (en) | 2006-03-28 | 2015-03-31 | Wireless Environment, Llc | Grid shifting system for a lighting circuit |
EP3418449B1 (en) * | 2017-06-22 | 2020-04-08 | DIN-Dietmar Nocker Facilitymanagement GmbH | Lighting device for railway tracks |
US11400963B2 (en) | 2018-09-05 | 2022-08-02 | Focused Technology Solutions, Inc. | Derail warning light system |
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US20110261558A1 (en) | 2011-10-27 |
US8529107B2 (en) | 2013-09-10 |
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