WO2006068848A1 - Low profile illumination for direct part mark readers - Google Patents
Low profile illumination for direct part mark readers Download PDFInfo
- Publication number
- WO2006068848A1 WO2006068848A1 PCT/US2005/044466 US2005044466W WO2006068848A1 WO 2006068848 A1 WO2006068848 A1 WO 2006068848A1 US 2005044466 W US2005044466 W US 2005044466W WO 2006068848 A1 WO2006068848 A1 WO 2006068848A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- transmitter
- illumination
- reader
- dark field
- housing
- Prior art date
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Classifications
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06K—GRAPHICAL DATA READING; PRESENTATION OF DATA; RECORD CARRIERS; HANDLING RECORD CARRIERS
- G06K7/00—Methods or arrangements for sensing record carriers, e.g. for reading patterns
- G06K7/10—Methods or arrangements for sensing record carriers, e.g. for reading patterns by electromagnetic radiation, e.g. optical sensing; by corpuscular radiation
- G06K7/10544—Methods or arrangements for sensing record carriers, e.g. for reading patterns by electromagnetic radiation, e.g. optical sensing; by corpuscular radiation by scanning of the records by radiation in the optical part of the electromagnetic spectrum
- G06K7/10712—Fixed beam scanning
- G06K7/10722—Photodetector array or CCD scanning
- G06K7/10732—Light sources
Definitions
- This invention relates to the field of symbology readers used to read symbols marked directly on objects.
- Symbology readers of this type commonly known as direct part mark readers, are an extension of hand-held and fixed-mount image-based symbology readers.
- a direct part mark reader requires a unique image formation system to produce an image of a symbol that can be successfully and consistently decoded.
- Two-dimensional symbols are used for most direct part marking applications because such symbols can encode a sufficient number of characters while maintaining a relatively compact size. Error correction schemes are typically included in most two- dimensional symbologies, to improve the readability.
- the two-dimensional symbols are marked directly on the part or component using various methods, depending upon the material composition, part application, and environmental conditions. Common methods include dot peening, laser, and electro-chemical etch.
- Symbols marked directly on a part or component are often difficult to read in comparison to symbols printed on labels.
- An image of a dot-peened, or etched mark often exhibits very low contrast using illumination or image formation systems of most image- based symbology readers.
- a typical image-based symbology reader can provide sufficient read rate.
- High- angle "bright field” illumination is the type of illumination often used.
- Bright field illu- mination is a term of art for a type of illumination that produces a dark object in a bright background. Under bright field illumination, high-angle illumination strikes the object nearly perpendicularly, or at an angle not greater than 45 degrees from perpendicular. This type of illumination results in substantial illumination reflecting back toward the reader.
- low-angle illumination strikes the object at a low angle from the surface of the object, i.e., at an angle between 45 degrees and 90 degrees from perpendicular.
- Dark field illumination reflects away from the reader, with only random, irregular features of the mark or symbol on the surface of the object reflecting a portion of the illumination back into the reader. Further, certain reading applications may yield higher successful read rates when a combination of bright field and dark field illumination is used.
- Industrial symbology readers are typically designed to provide bright field illumination from lighting sources integrated into the reader. When these readers are adapted to read direct part mark symbols, the use of removable light pipes and other adapters are used to redirect bright field illumination into a dark field mode. Accordingly, hand held readers known in the art that are used for direct part mark reading applications are configured exclusively for either bright field mode or dark field mode. Accordingly, there is a need for a direct part mark reader with integrated illumination that provides variable and controllable illumination in both bright field and dark field modes.
- An illustrative embodiment of the present invention provides an industrial identification mark reader with integrated illumination for both bright field and dark field modes.
- the reader has a housing with an imaging module that captures an image of a mark on an object placed before the reader.
- an illumination module has an array of selectively actuated illuminators for illuminating the mark or object.
- An integrated optical transmitter, supported by the housing, is aligned with, i.e., in optical cooperation with, the selectively actuated illuminators.
- the integrated optical transmitter has a dark field transmitter for transmitting dark field illumination, and bright field transmitters, for transmitting bright field illumination.
- the integrated optical transmitter has a transparent window to provide a path for reflected illumination into the imager module, and to provide protection from the elements to the imager module, the illuminator module, and other internal components of the reader.
- the integrated optical transmitter has a light pipe for the dark field transmitter, with a base having the bright field transmitter po- sitioned within the light pipe.
- the alternate illustrative embodiment can be a removable component of the reader to permit field replacement for maintenance and repair and/or to permit the use of alternate light pipe designs for further varied illumination properties.
- a third illustrative embodiment of the reader has a viewing port through which a user can view the field of view to which is visible to the imager.
- Figure 1 is a perspective view of a hand held industrial mark reader with an em- bodiment of the present invention
- Figure 2 is a perspective view of an illumination transmitter according to an embodiment of this invention.
- Figure 3 is an exploded perspective view of the components of an industrial mark reader according to an embodiment of the present invention.
- Figure 4 is a side view of the components of an industrial mark reader according to an embodiment of the present invention.
- Figure 5a is a front plan view of a hand held industrial mark reader with an alternate illustrative embodiment of the present invention
- Figure 5b is a left side plan view of a hand held industrial mark reader with an al- ternate illustrative embodiment of the present invention
- Figure 5 c is a top plan view of a hand held industrial mark reader with an alternate illustrative embodiment of the present invention.
- Figure 6 is a cross section diagram of the components of an industrial mark reader according to an alternate illustrative embodiment of the present invention.
- Figure 7 is an exploded perspective view of the components of an industrial mark reader according to an alternate illustrative embodiment of the present invention.
- Figure 8 is an exploded perspective view of the components of an industrial mark reader according to an alternate illustrative embodiment of the present invention
- Figure 9 is an exploded perspective view of the components of an industrial mark reader according to an alternate illustrative embodiment of the present invention
- Figure 10 is a cross section diagram of light pipe component of an industrial mark reader according to an alternate illustrative embodiment of the present invention, showing 5 dark field illumination;
- Figure 11 is a cross section diagram of light pipe component of an industrial mark reader according to an alternate illustrative embodiment of the present invention, showing dark field illumination;
- Figure 12 is a cross section diagram of the components of an industrial mark I 0 reader according to a third illustrative embodiment of the present invention.
- Figure 1 shows an illustrative industrial mark reader 100 adapted for handheld operation, of the type that acquires an image of a mark or symbol, such as a one- is dimensional or two-dimensional bar code, or data matrix symbol.
- An internal processor (not shown) performs an analysis of the acquired image, and decodes the mark or symbol to provide a character string of the encoded information.
- the reader 100 shown in Figure 1 has a grip portion 102 and a trigger 104 that can be actuated by a finger of the user to initiate the image acquisition and decoding
- a housing 106 contains an imager 112 (shown in phantom) that is connected to a processor (not shown).
- a status illuminator 108 provides visual indication of the status of the reader, such as to indicate a successful decode of an acquired image of a mark.
- a tether cord 110 provides electrical power to the reader 100, as well as a communication transmission path for the decoded character string of the encoded information, though it 5 is contemplated that the reader 100 can be configured with battery power and wireless communication for complete portable flexibility.
- the reader 100 provides illumination of the mark during the acquisition of an image of the mark through the emission of light from an illumination board 114 (shown in phantom).
- the reader 100 of the present invention includes an integrated optical transmitter 120, as shown in further detail in Figure 2, to provide various types of illumination.
- the integrated optical transmitter 120 is shown according to an illustrative embodiment of the present invention.
- the transmitter 120 is a molded plastic part that has a structural frame 210 that provides structural support by engaging in recessed channel of the housing 106 (not shown).
- the transmitter 120 also includes a plurality of bright field illumination transmitters 220 that transmit bright field illumination from within the housing 106.
- the bright field transmitters 220 can be molded or fabricated to provide a lens capability and/or have diffusion properties to modify the angle and orientation of bright field illumination.
- the optical properties of the bright field transmitters 220 can be applied to either the front or the rear of the integrated transmitter 120 during fabrication, or both sides, as necessary to provide the lens capability.
- the optical transmitter 120 also includes a dark field illumination transmitter 230 that transmits low angle dark field illumination from within the housing 106.
- the dark field illumination transmitter 230 consists of an extended barrel of light transmissive material terminating (in this embodiment) in an angled tip 235. As described further below, this tip is designed to cause internal reflection that projects a low-angle dark field illumination in the area directly in front of the reader 100. As noted above, such dark field illumination is typically provided at an angle greater than approximately 45 degrees from perpendicular.
- the transmitter 120 also includes a window 240 that provides a transmission path for the reflected illumination into the housing 106 in the optical path of a field of view for the sensor module 112.
- the window 240 of the integrated optical transmitter 120 also provides physical protection from the elements for the several components of the reader that reside within the housing 106. Additionally, the window 240 can provide other optical functions, including filtering (for example, to reduce the effects of ambient illumination), and providing a telecentric view at the object by restricting the size of the opening.
- Figure 3 shows a perspective exploded view of the integrated optical transmitter 120, illumination board 1 14 and imager module 112.
- the illumination board 1 14 has shown four bright field illuminators 320, each aligned with a bright field transmitter 220.
- the bright field illuminator 320 can be a surface mount LED that can be individually actuated by a processor controlling the illumination (not shown) concurrent to the acquisition of an image of a mark, if bright field illumination is desired during acquisition.
- the illumination board 114 has shown an array of dark field illuminators 330 that are generally aligned with the dark field transmitter 230.
- Each of the dark field illuminators 330 can be surface mounted LEDs that can be individually actuated by a processor controlling the illumination (not shown) to provide dark field illumination in a variety of modes concurrent to the acquisition of an image of a mark, if dark field illumination is desired during acquisition.
- various modes of illumination can be provided by the array of dark field illuminators 330 that are actuated in quadrants, as disclosed in co-pending US Patent Application Serial Number 10/911,989 filed August 5, 2004, herein incorporated by reference. Control of various modes of illumination, and the synchronization of illumination to a specific acquisition, can be performed by a processor module (not shown) within the reader 100.
- the illumination board 114 of the illustrative embodiment has a hole 340 that is aligned with the window 240 and the imaging module 112 to permit the transmission of reflected illumination from the mark into the imaging module 1 12 during image acquisition. Note that the size and shape of the hole 340 is sufficiently sized to not obscure re- fleeted illumination from entering the imaging module 1 12.
- the imaging module 112 is positioned behind the illumination board 1 12 in the exemplary embodiment, to receive reflected illumination to produce an image of the mark or symbol.
- the imaging module 1 12 has an area sensitive imaging array and an imaging lens.
- the imaging array can be a charge coupled device (CCD) or a complimentary metal oxide semiconductor (CMOS) device, or other imaging sensor known in the art.
- CMOS complimentary metal oxide semiconductor
- the imaging module 112 can also include focus adjustment mechanism to optimize the focus of an image projected onto the imaging array. Additionally, the imaging module can also include illumination to project on-axis bright field illumination toward the field of view, and/or to project an aiming illumination beam onto the field of view to provide the user with guidance for positioning the reader 100 during acquisition.
- Coupled to the imaging module 112 is a processor unit (not shown) for receiving an acquired image from the imager module 112 to process and ultimately decode the image of the mark or symbol presented to the reader 100.
- the imager 112 can receive con- figuration instructions from the processing unit to set acquisition parameters, such as exposure duration, gain, offset, etc., in a manner commonly known in the art.
- the processor unit is coupled to the trigger 104 to initiate the illumination and image acquisition process when the trigger is actuated by the user.
- Figure 4 is a side view representation of the arrangement of the several compo- nents of the reader 100.
- the integrated optical transmitter 120 directs bright field and dark field illumination onto the mark or symbol 410.
- the illumination board 114 is positioned behind the integrated illumination transmitter 120, and the imaging module 112 is positioned behind both the integrated transmitter 120 and the illumination board 114.
- bright field illumination mode 460 is attained when the reader 100 is positioned in the range of approximately 3 to 8 inches from the mark or symbol 410.
- dark field illumination mode 450 is attained when the reader 100 is positioned in the range of approximately 0 to 3 inches from the mark or symbol 410.
- FIGs 5a, 5b, and 5c depict an alternate illustrative embodiment of the reader 100 according to the present invention.
- the reader 100 has a grip portion 102 and a trigger 104 that can be actuated by a finger of the user to initiate the image acquisition and decoding function.
- a tether cord 110 provides electrical power to the reader 100, as well as a communication transmission path for the decoded character string of the encoded information, though it is contemplated that the reader 100 can be configured with battery power and wireless communication for complete portable flexi- bility.
- the integrated optical transmitter 120 is partially shown in the reader 100.
- the front view depicted in Figure 5a shows the bright field transmitters 220 and the window 240.
- the dark field transmitter 230 and additional description of the alternate illustrative embodiment of the integrated transmitter 120, is shown in the cross sectional view depicted in Figure 6 and the following description.
- Figure 6 shows a cross sectional side view of the alternate illustrative embodiment of the reader 100 according to the present invention.
- the housing 106 supports the positioning of the imager 112 and the illumination board 114.
- the processor module and related functional electronic components are mounted on the processor board 115.
- the grip portion 102 and the trigger 104 are functionally cooperative with the housing 106 and components of the processor board 115.
- the integrated optical transmitter 120, and particularly, the dark field transmitter 230 are elongated in this alternative illustrative embodiment so that the dark field transmitter 230 operates as a light pipe for dark field illumination.
- the bright field transmitter 220 and the window 240 are shown at the base of the light pipe portion of the transmitter 120, and positioned within the light pipe.
- FIG 7 shows an exploded view of the integrated optical transmitter 120 according to the alternate embodiment of the present invention.
- the transmitter 120 can be fabricated from injection molded plastic components that are epoxied or thermosonically welded into a single, integrated optical component.
- the dark field transmitter 230 is at- tached to the structural frame 210, that has the bright field transmitters 220 molded therein.
- the window 240 is attached to the structural frame as shown, though optionally, the window 240 can be molded as an integrated component to the structural frame 210.
- FIG. 7 Also shown in Figure 7 is the imager 112 mounted to a frame 570. Rubber grom- mets 580 are inserted into receptacles 585 that can receive protrusions from the housing (not shown) to provide vibration and mechanical shock isolation in the assembled reader.
- the frame 570 receives the distal end member 575 of the optical transmitter 120 according to the alternate embodiment.
- a screw 590 can be used to secure the transmitter 120 into the frame 570.
- various methods can be used to mechanically secure the described assembly in place to permit the operation of an industrial mark reader.
- the skilled artisan will also appreciate that a transmitter 120 described herein can be removable in the field by way of such methods of attachment.
- Figure 8 depicts the alternate illustrative embodiment of the reader 100 in a partially assembled exploded view from a rear perspective
- Figure 9 shows the same embodiment from a front perspective.
- Figures 8 and 9 illustrate how the frame 570 is attached to the processor board.
- the optical transmitter 120 is shown in its fabricated, integrated form, depicting the bright field transmitters 220, the dark field transmitter 230, and the window 240.
- Figures 8 and 9 illustrate how the distal member 575 of the transmitter 120 is aligned for insertion into the frame 570. Further shown is the illumination board 114 with the array of dark field illuminators 330, and the bright field illuminators 320.
- the bright field illuminators 320 and the dark field illuminators 330 are surface mount LEDs that illuminate on the board side of the LED body as mounted on the board.
- the illumination board 114 is fabricated with holes at each LED location so that when the LED is energized, the illumination projects through the board.
- the integrated optical transmitter 120 is molded or fabricated with polymethyl methacrylate (PMMA) or polycarbonate.
- PMMA polymethyl methacrylate
- the opti- cal properties of the transmitter 120 can be obtained through polished mold surfaces and/or post fabrication polishing of the transmitter 120.
- FIG. 10 is a cross sectional view of the dark field transmitter 230 according to the alternate illustrative embodiment. Illumination enters the transmitter at the face end 630 from the dark field illuminators 330 (not shown).
- the transmitter is a elongated light pipe 600 about the optical axis 635, with a tapered end 625. Dark field illumination rays 640 reflect from the tapered end 625 to project a dark field mode of illumination 450 when the reader is posi- tioned in the range of approximately 0 to 3 inches from the mark or symbol 410.
- the dark field transmitter 230 will contribute to bright field illumination when the reader 100 is positioned in the bright field illumination mode 460, as shown in Figure 11. Illumination from the dark field illuminators 330 (not shown) will enter the transmitter at the face end 630 at an angle that results in internal reflection over the length of the elongated light pipe 600. Some of the illumination will emit from the tapered end 625 as high angle bright field illumination rays 650.
- a low profile reader is provided that permits direct observation of the mark or symbol by the user in dark field mode.
- Figure 12 depicts the reader 100 in a third alternate embodiment with an observation port 500.
- the reader 100 has an integrated illumination transmitter 120 and an illu- mination board 114 as previously described.
- the user 510 can view the mark or symbol 410 directly through the observation port 500, depicted as the line of sight 550 in Figure 12.
- the reflected illumination 560 projects into the imaging module 112 by reflecting the illumination through a first mirror 520 and a second mirror 530.
- the number, position and relative placement of the bright field transmitters on the in- tegrated optical transmitter is exemplary and a variety of such transmitters can be employed to perform bright field illumination on hand held image-based decoding methods herein.
- additional functionality can be added to the optical transmitter 120, such as aiming optics to direct aiming illumination onto the field of view to provide guidance to a user during operation of the reader 100.
- sensor optics can be incorpo- rated into the integrated transmitter 120 to permit the transmission and reception of electromagnetic signals to be used in conjunction with an auto-focus mechanism in the reader 100.
- improved or differing components can be employed within the teachings of this invention. Accordingly, this description is meant to be taken only by way of example, and not to otherwise limit the scope of this invention.
Abstract
Description
Claims
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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JP2007548265A JP5198873B2 (en) | 2004-12-21 | 2005-12-08 | Low profile lighting for direct component mark readers |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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US11/019,763 | 2004-12-21 | ||
US11/019,763 US7823789B2 (en) | 2004-12-21 | 2004-12-21 | Low profile illumination for direct part mark readers |
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WO2006068848A1 true WO2006068848A1 (en) | 2006-06-29 |
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PCT/US2005/044466 WO2006068848A1 (en) | 2004-12-21 | 2005-12-08 | Low profile illumination for direct part mark readers |
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US (3) | US7823789B2 (en) |
JP (2) | JP5198873B2 (en) |
WO (1) | WO2006068848A1 (en) |
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Also Published As
Publication number | Publication date |
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JP2008524746A (en) | 2008-07-10 |
JP2013080515A (en) | 2013-05-02 |
US9495573B2 (en) | 2016-11-15 |
US20060131419A1 (en) | 2006-06-22 |
US7823789B2 (en) | 2010-11-02 |
US8672227B2 (en) | 2014-03-18 |
JP5198873B2 (en) | 2013-05-15 |
US20150021396A1 (en) | 2015-01-22 |
US20110024506A1 (en) | 2011-02-03 |
JP5615944B2 (en) | 2014-10-29 |
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