US3597717A - Dual potentiometer - Google Patents

Dual potentiometer Download PDF

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US3597717A
US3597717A US879271A US3597717DA US3597717A US 3597717 A US3597717 A US 3597717A US 879271 A US879271 A US 879271A US 3597717D A US3597717D A US 3597717DA US 3597717 A US3597717 A US 3597717A
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shaft
contact
resistive
indicator
variable
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Harry William Kent
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01CRESISTORS
    • H01C10/00Adjustable resistors
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01CRESISTORS
    • H01C10/00Adjustable resistors
    • H01C10/16Adjustable resistors including plural resistive elements
    • H01C10/20Contact structure or movable resistive elements being ganged

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  • a dual potentiometer is operable by manipulation of a single shaft; two stationary resistive elements presenting annular tracks are axially spaced adjacent the shaft, and a contact hub is fixed on the shaft between the resistive elements with a pair of brushes for slidably contacting the elements; the shaft may be reciprocated to place a brush in contact with either of the elements, or to open circuit both potentiometers, and the shaft may be rotated to adjust the potentiometers; each of two indicator discs on the shaft is marked with appropriate calibrations for one of the potentiometers, and each is viewed through a lens having a focal length such that the disc is in focus when viewed through the lens when the shaft is in operating position for the potentiometer to which it relates.
  • the potentiometer also known as a variable'resistor or voltage divider. often plays an important role in adjustable electronic circuitry.
  • the function of the potentiometer is to provide an electrical resistance in a circuit which may be selectively varied by the operator or by electrical or electromechanical control devices.
  • potentiometers are frequently used in electrical systems, linked together and into the system in any number of ways and employing a variety of modes of operation Such a system may require that two potentiometers be used in the alternative, and that the capability be present of switching both potentiometers out of the system's circuit.
  • a further object of the invention is the provision of a device having such a control element which may be moved to a position wherein both potentiometers are disabled.
  • Yet another object of the invention is to provide such a dual potentiometer with indicator means for each potentiometer which will present a readable display of the resistance values of its corresponding potentiometer only when the potentiometer is in operation, or at other selected times.
  • a further object of the invention is the provision of a device having the foregoing characteristics which is lightweight, compact. simple and relatively inexpensive to manufacture.
  • a dual potentiometer having a rotatable and reciprocatable shaft mounted adjacent first and second resistive means.
  • Contact means carried by the shaft may be moved into sliding contact with either of the resistive means by reciprocation of the shaft, or may be moved to a position in which it contacts neither of the resistive means.
  • indicator means carried by the shaft provide a display of the resistance setting of the potentiometer which is in service.
  • the indicator means corresponding to each potentiometer is discernible when that potentiometer is in service, but is not discernible in other positions of the device.
  • This invention contemplates a device incorporating two potentiometers which is controllable by a single control element.
  • the control element may be reciprocated to place either potentiometer in service, or to disable both potentiometers, and it may be rotated to vary the resistance setting of the potentiometers.
  • FIGv 1 is a cross-sectional view of a dual potentiometer which embodies the present invention
  • FIG. 2 is an exploded isometric view of a portion of the device shown in FIG. I;
  • Fig. 3 is a partially cutaway isometric the device shown in FIG 1.
  • a dual potentiometer generally indicated by the reference numeral 10 is shown mounted in a control panel 12 by means of mounting plates 14 and 16.
  • Flanges 18 and 20 on mounting plates 14 and 16, respectively, are provided to hold the device securely in place in panel 12 when the mounting plates 14 and 16 are secured together by appropriate means. such as screws 22.
  • An indicator housing 24 is positioned on mounting plate 14 in front of the panel 12. Housing 24 may be secured to mounting plate 14 about flange 18 by acrylic cementing. A rear housing 26 is secured to mounting plate 16 to the rear of panel 12 by means of screws 28.
  • the housing 26 is closed by rear plate 30, held in place by screws 32.
  • a central shaft 34 extends through the device, riding in apertures in indicator housing 24, mounting plate 16 and rear plate 30.
  • the shaft 34 is journaled slidably in those members, so that it may be rotated and reciprocated.
  • a control knob 36 is secured to the outer end ofshaft 34.
  • a resistance ring 38 is secured to the rear face of mounting plate 16, and a referencing ring 40 is mounted concentrically therewith on plate 16.
  • the resistance ring 38 has ends extending through housing 26 to present exterior electrical terminals 42 and 44.
  • referencing ring 40 has an external tap 46 extending through housing 26.
  • Referencing ring 40 is provided with raised contact 47.
  • a second resistance ring 48 and referencing ring 50 are mounted concentrically on the rear plate 30, in the same manner as rings 38 and 40. Resistance ring 48 terminates in external taps 52 and 54. Referencing ring 50 has an exterior terminal 56, and a raised contact 57.
  • Resistance rings 38 and 48 are formed so that the electrical resistance between circumferentially spaced pints thereon varies over a desired range in dependence upon the circumferential distance between the points. This may be achieved, for example, by forming the rings 38 and 48 from a material which will give resistance values varying over the desired range. For example, a sintered carbon might be used for rings 38 and 40. Other ways of providing the variable resistance in rings 38 and 48 will be appreciated, such as by winding a long continuous wire about the rings. Discrete variations in resistance about the rings 38 and 40 might be provided by employing printed circuit boards on the faces of the rings, with the electrically connected material being arrayed in serpentine fashion along the annulus.
  • a contact mount 60 having mounting slots 62 on its sides is fixed to the shaft 34 by means of setscrew 64.
  • Contact rings 66 and 68 are mounted on the opposite faces of mount 60, about hubs 70 and 72 provided on mount 60.
  • the contact rings 66 and 68 are secured to the mount 60 by means of tabs 74 on the contact rings, which tabs 74 are inserted in slots 62.
  • the contact rings 66 and 68 are provided with contact brushes 76 and 68.
  • the inner radius of contact rings 66 and 68 is smaller than the radial distance from the axis of the shaft to the raised contacts 47 and 57 on referencing rings 40 and S0.
  • a pair of cars 80 are provided on the mount 60 for cooperation with a raised portion 82 on the inside of housing 26. Cooperation of the ears 80 with the raised portion 82 limits the rotation of mount 60, and thus contact rings 66 and 68.
  • Indicator discs 84 and 86 are mounted on the shaft 34, and are calibrated on their outer faces with markings corresponding to the possible resistances obtainable across terminals 4446 and 54-56, respectively.
  • the discs 84 and 86 may be viewed through lenses 88 and 90, respectively.
  • Three notches 92 are provided in the shaft adjacent housing 24, for cooperation with detent means such as a spring plunger 94 shown mounted in housing 24
  • the notches 92 define three view of a portion of discrete axial positions of the shaft 34. in FIG. 1, the plunger 94 engages the center notch, which places the device in its off condition. ln this position, there is no contact between any portion of either contact rings 66 or 68 and either resistance rings 38 or 48.
  • the lenses 88 and 90 are selected so that viewing of the respective discs 84 and 86 is only possible at a selected position or positions of the shaft 34.
  • the lens 88 is provided so that its focal with the resistance ring 38. ln this position, however, disc 86 is not viewable through lens 90.
  • Disc 86 is discernible through lens 90 when brush 78 engages resistance ring 48, but at such time the disc 84 is not readable through lens 88
  • the dual potentiometer 10 is operable by a simple manipulation of the knob 36 on shaft 34. Resistances which increase with clockwise rotation of the shaft 34 are obtainable across terminals 44-46 and terminals 54--56, when the shaft 34 is in the appropriate axial position. Conversely, decreasing resistances with clockwise rotation would be obtained across taps 42-46 and 5256.
  • the device in the position shown in FIG. 1, the device is in the off" state, with both potentiometers disabled. There are open circuits across all terminals of the device in this position.
  • the knob 36 is either pushed or pulled to create the desired engagement of contact in resistance rings.
  • the resistance value may be adjusted by rotation of the knob 36.
  • the value may be read from the indicator disc corresponding to the potentiometer which is engaged. Simplicity and readability of the display is provided by virtue of the fact that the indicator disc which is not in service is unreadable.
  • a dual potentiometer comprising:
  • first indicator means for indicating the position of the contact means with respect to the first resistive means, which first indicator means is discernible when the contact means is in contact with the first resistive means and is not discernible in at least one other position of the con- 1 tact means;
  • second indicator means for indicating the position of the contact means with respect to the second resistive means, which second indicator means is discernible when the contact means is in contact with the second resistive means and is not discernible in at least one other position of the contact means.
  • lens means fixedly positioned adjacent the indicator means for viewing the indicator means therethrough.
  • a dual potentiometer comprising first variable resistive means, second variable resistive means, contact means, and
  • said means responsive to the manipulation of a single control comprises a rotatable and reciprocatable shaft adjacent both said variable resistive means, and the mounting of said contact means on said shaft.
  • a dual potentiometer comprising:
  • a control device comprising:
  • a rotatable and reciprocatable shaft for controlling a plurality of variable functions, each function being variable by rotation of the shaft at one of a plurality of axially spaced positions of the shaft;
  • optic means for viewing each indicator means therethrough
  • each indicator means is in focus when viewed through the optic means when the shaft is in at least one predetermined axial position of the shaft, but is not in such focus for all positions of the shaft.
  • eachindicator means is in focus when viewed through the optic means when the shaft is in the position in which the function corresponding to the indicator means is variable by rotation of the shaft.
  • each indicator is in focus in at least one additional predetermined position of the shaft.

Abstract

A dual potentiometer is operable by manipulation of a single shaft; two stationary resistive elements presenting annular tracks are axially spaced adjacent the shaft, and a contact hub is fixed on the shaft between the resistive elements with a pair of brushes for slidably contacting the elements; the shaft may be reciprocated to place a brush in contact with either of the elements, or to open circuit both potentiometers, and the shaft may be rotated to adjust the potentiometers; each of two indicator discs on the shaft is marked with appropriate calibrations for one of the potentiometers, and each is viewed through a lens having a focal length such that the disc is in focus when viewed through the lens when the shaft is in operating position for the potentiometer to which it relates.

Description

United States Patent 3,355,628 ll/1967 Tronca ABSTRACT: A dual potentiometer is operable by manipulation of a single shaft; two stationary resistive elements presenting annular tracks are axially spaced adjacent the shaft, and a contact hub is fixed on the shaft between the resistive elements with a pair of brushes for slidably contacting the elements; the shaft may be reciprocated to place a brush in contact with either of the elements, or to open circuit both potentiometers, and the shaft may be rotated to adjust the potentiometers; each of two indicator discs on the shaft is marked with appropriate calibrations for one of the potentiometers, and each is viewed through a lens having a focal length such that the disc is in focus when viewed through the lens when the shaft is in operating position for the potentiometer to which it relates.
PATENTEU am: 3:92:
SHEET 2 OF 2 INVENTOR:
HARRY W. KENT ATTORNEY DUAL POTENTIOMETER This invention relates to potentiometers and. more particularly. to a dual potentiometric deuce incorporating two potentiometers which may be used alternatively or switched ofi altogether, and having correspondingly alternative displays of the potentiometer settings.
The potentiometer. also known as a variable'resistor or voltage divider. often plays an important role in adjustable electronic circuitry. The function of the potentiometer is to provide an electrical resistance in a circuit which may be selectively varied by the operator or by electrical or electromechanical control devices.
Various combinations of potentiometers are frequently used in electrical systems, linked together and into the system in any number of ways and employing a variety of modes of operation Such a system may require that two potentiometers be used in the alternative, and that the capability be present of switching both potentiometers out of the system's circuit.
An important objective in such systems is to minimize the physical manipulations involved in making required control adjustments. It is also important to reduce the number of individual control knobs, switches, levers and the like, to facilitate the carrying out of control functions. it is therefore highly desirable to render a number of related but distinct control functions exercisable through a single control element.
While it is important to minimize the physical manipulations necessary to perform control functions by reducing the complexity of interface control elements, it is equally important to provide readily comprehensible optical displays representing various parameters of the system and subparts thereof. The value of reducing the number of control elements is lessened if clarity in the necessary displays is lost.
It is therefore an object of this invention to provide a device incorporating two potentiometers which permits alternative switching between two potentiometers by a single control element which can also be manipulated to vary the setting of the potentiometers.
A further object of the invention is the provision of a device having such a control element which may be moved to a position wherein both potentiometers are disabled.
Yet another object of the invention is to provide such a dual potentiometer with indicator means for each potentiometer which will present a readable display of the resistance values of its corresponding potentiometer only when the potentiometer is in operation, or at other selected times.
A further object of the invention is the provision of a device having the foregoing characteristics which is lightweight, compact. simple and relatively inexpensive to manufacture.
in accordance with this invention, there may be provided a dual potentiometer having a rotatable and reciprocatable shaft mounted adjacent first and second resistive means. Contact means carried by the shaft may be moved into sliding contact with either of the resistive means by reciprocation of the shaft, or may be moved to a position in which it contacts neither of the resistive means.
In a further aspect of the invention, indicator means carried by the shaft provide a display of the resistance setting of the potentiometer which is in service. The indicator means corresponding to each potentiometer is discernible when that potentiometer is in service, but is not discernible in other positions of the device.
This invention contemplates a device incorporating two potentiometers which is controllable by a single control element. The control element may be reciprocated to place either potentiometer in service, or to disable both potentiometers, and it may be rotated to vary the resistance setting of the potentiometers.
For a more complete understanding of the present invention and for further objects and advantages thereof, reference may now be had to the following description taken in conjunction with the accompanying drawings, in which:
FIGv 1 is a cross-sectional view of a dual potentiometer which embodies the present invention;
FIG. 2 is an exploded isometric view of a portion of the device shown in FIG. I; and
Fig. 3 is a partially cutaway isometric the device shown in FIG 1.
Referring now to the drawings. a dual potentiometer generally indicated by the reference numeral 10 is shown mounted in a control panel 12 by means of mounting plates 14 and 16. Flanges 18 and 20 on mounting plates 14 and 16, respectively, are provided to hold the device securely in place in panel 12 when the mounting plates 14 and 16 are secured together by appropriate means. such as screws 22.
An indicator housing 24 is positioned on mounting plate 14 in front of the panel 12. Housing 24 may be secured to mounting plate 14 about flange 18 by acrylic cementing. A rear housing 26 is secured to mounting plate 16 to the rear of panel 12 by means of screws 28.
The housing 26 is closed by rear plate 30, held in place by screws 32. A central shaft 34 extends through the device, riding in apertures in indicator housing 24, mounting plate 16 and rear plate 30. The shaft 34 is journaled slidably in those members, so that it may be rotated and reciprocated. A control knob 36 is secured to the outer end ofshaft 34.
A resistance ring 38 is secured to the rear face of mounting plate 16, and a referencing ring 40 is mounted concentrically therewith on plate 16. The resistance ring 38 has ends extending through housing 26 to present exterior electrical terminals 42 and 44. Similarly, referencing ring 40 has an external tap 46 extending through housing 26. Referencing ring 40 is provided with raised contact 47.
A second resistance ring 48 and referencing ring 50 are mounted concentrically on the rear plate 30, in the same manner as rings 38 and 40. Resistance ring 48 terminates in external taps 52 and 54. Referencing ring 50 has an exterior terminal 56, and a raised contact 57.
Resistance rings 38 and 48 are formed so that the electrical resistance between circumferentially spaced pints thereon varies over a desired range in dependence upon the circumferential distance between the points. This may be achieved, for example, by forming the rings 38 and 48 from a material which will give resistance values varying over the desired range. For example, a sintered carbon might be used for rings 38 and 40. Other ways of providing the variable resistance in rings 38 and 48 will be appreciated, such as by winding a long continuous wire about the rings. Discrete variations in resistance about the rings 38 and 40 might be provided by employing printed circuit boards on the faces of the rings, with the electrically connected material being arrayed in serpentine fashion along the annulus.
Between rings 38 and 48, a contact mount 60 having mounting slots 62 on its sides is fixed to the shaft 34 by means of setscrew 64. Contact rings 66 and 68 are mounted on the opposite faces of mount 60, about hubs 70 and 72 provided on mount 60. The contact rings 66 and 68 are secured to the mount 60 by means of tabs 74 on the contact rings, which tabs 74 are inserted in slots 62. The contact rings 66 and 68 are provided with contact brushes 76 and 68. The inner radius of contact rings 66 and 68 is smaller than the radial distance from the axis of the shaft to the raised contacts 47 and 57 on referencing rings 40 and S0.
A pair of cars 80 are provided on the mount 60 for cooperation with a raised portion 82 on the inside of housing 26. Cooperation of the ears 80 with the raised portion 82 limits the rotation of mount 60, and thus contact rings 66 and 68.
Indicator discs 84 and 86 are mounted on the shaft 34, and are calibrated on their outer faces with markings corresponding to the possible resistances obtainable across terminals 4446 and 54-56, respectively. The discs 84 and 86 may be viewed through lenses 88 and 90, respectively.
Three notches 92 are provided in the shaft adjacent housing 24, for cooperation with detent means such as a spring plunger 94 shown mounted in housing 24 The notches 92 define three view of a portion of discrete axial positions of the shaft 34. in FIG. 1, the plunger 94 engages the center notch, which places the device in its off condition. ln this position, there is no contact between any portion of either contact rings 66 or 68 and either resistance rings 38 or 48.
WHEn the left-hand notch is engaged with the plunger 94, contact 78 on contact ring 68 slidingly engages the resistance ring 48, and the contact 57 on referencing ring 56 also slidingly engages contact ring 68. In the third position of the shaft 34, in which plunger 94 engages the third notch, the brush 76 on contact ring 66 slidingly contacts resistance ring 38, and the contact ring 66 is placed in sliding engagement with the contact 47 on referencing ring 40. 88.
The lenses 88 and 90 are selected so that viewing of the respective discs 84 and 86 is only possible at a selected position or positions of the shaft 34. The lens 88 is provided so that its focal with the resistance ring 38. ln this position, however, disc 86 is not viewable through lens 90. Disc 86 is discernible through lens 90 when brush 78 engages resistance ring 48, but at such time the disc 84 is not readable through lens 88 The dual potentiometer 10 is operable by a simple manipulation of the knob 36 on shaft 34. Resistances which increase with clockwise rotation of the shaft 34 are obtainable across terminals 44-46 and terminals 54--56, when the shaft 34 is in the appropriate axial position. Conversely, decreasing resistances with clockwise rotation would be obtained across taps 42-46 and 5256.
in the position shown in FIG. 1, the device is in the off" state, with both potentiometers disabled. There are open circuits across all terminals of the device in this position. To actuate either potentiometer, the knob 36 is either pushed or pulled to create the desired engagement of contact in resistance rings. The resistance value may be adjusted by rotation of the knob 36. The value may be read from the indicator disc corresponding to the potentiometer which is engaged. Simplicity and readability of the display is provided by virtue of the fact that the indicator disc which is not in service is unreadable.
Having described the invention in connection with certain specific embodiments thereof, it is to be understood that further modifications may now suggest themselves to those skilled in the art and it is intended to cover such modifications as fall within the scope of the appended claims.
What I claim is:
IV A dual potentiometer comprising:
a rotatable and reciprocatable shaft;
first resistive means;
second resistive means spaced from the first resistive means;
contact means carried by the shaft for movement between sliding contact with the first resistive means and sliding contact with the second resistive means; first indicator means for indicating the position of the contact means with respect to the first resistive means, which first indicator means is discernible when the contact means is in contact with the first resistive means and is not discernible in at least one other position of the con- 1 tact means; and
second indicator means for indicating the position of the contact means with respect to the second resistive means, which second indicator means is discernible when the contact means is in contact with the second resistive means and is not discernible in at least one other position of the contact means.
2. The combination of claim 1, wherein the means for rendering the indicator means discernible or not are:
the mounting of the first and second indicator means on the shaft for movement with the shaft; and
lens means fixedly positioned adjacent the indicator means for viewing the indicator means therethrough.
3. A dual potentiometer comprising first variable resistive means, second variable resistive means, contact means, and
means res nsive to manipulation of a single control to:
switch t e contact means between a first position in which it contacts the first variable resistive means and a second position in which it contacts the second variable resistive means;
slide the contact means against the first variable resistive means; and
slide the contact means against the second variable resistive means.
4. The combination of claim 3 wherein said means responsive to manipulation of a single control is operable to place the contact means in a position not contacting either variable resistive means.
5. The combination of claim 3 wherein said means responsive to the manipulation of a single control comprises a rotatable and reciprocatable shaft adjacent both said variable resistive means, and the mounting of said contact means on said shaft.
6. A dual potentiometer comprising:
a rotatable and reciprocatable shaft;
first resistive means;
second resistive means;
contact means rotatable with the shaft, and movable into sliding contact with the first resistive means by reciprocation of the shaft to a first axial position, and movable into sliding contact with the second resistive means by reciprocation of the shaft to a second axial position; and
a pair of terminals associated with each resistive means such that the resistance across the pair is varied as the contact means slides against the resistive means with which the pair is associated.
7. The combination of claim 6, wherein the shaft is reciprocatable to a third axial position in which the contact means contacts neither of the resistive means.
8. The combination of claim 6, wherein one terminal in each pair of terminals is electrically connected to a referencing means mounted fixedly adjacent each resistive means whereby each referencing means engages the contact means when the contact means is in contact with the adjacent resistive means.
9. A control device comprising:
a rotatable and reciprocatable shaft for controlling a plurality of variable functions, each function being variable by rotation of the shaft at one of a plurality of axially spaced positions of the shaft;
indicator means corresponding to each controlled function;
optic means for viewing each indicator means therethrough;
and
means for varying, as the shaft is reciprocated, the distance between each indicator means and the optic means through which it is viewable, whereby each indicator means is in focus when viewed through the optic means when the shaft is in at least one predetermined axial position of the shaft, but is not in such focus for all positions of the shaft.
10. The combination of claim 9, wherein the means for varying the distance between the indicator means and the optic means is the mounting of the indicator means on the shaft.
11. The combination of claim 9 wherein eachindicator means is in focus when viewed through the optic means when the shaft is in the position in which the function corresponding to the indicator means is variable by rotation of the shaft.
12. The combination of claim 11, in which each indicator is in focus in at least one additional predetermined position of the shaft.
13. The combination of claim 9. wherein the optic means comprises a plurality of lenses, each optically aligned with one of the indicator means.

Claims (13)

1. A dual potentiometer comprising: a rotatable and reciprocatable shaft; first resistive means; second resistive means spaced from the first resistive means; contact means carried by the shaft for movement between sliding contact with the first resistive means and sliding contact with the second resistive means; first indicator means for indicating the position of the contact means with respect to the first resistive means, which first indicator means is discernible when the contact means is in contact with the first resistive means and is not discernible in at least one other position of the contact means; and second indicator means for indicating the position of the contact means with respect to the second resistive means, which second indicator means is discernible when the contact means is in contact with the second resistive means and is not discernible in at least one other position of the contact means.
2. The combination of claim 1, wherein the means for rendering the indicator means discernible or not are: the mounting of the first and second indicator means on the shaft for movement with the shaft; and lens means fixedly positioned adjacent the indicator means for viewing the indicator means therethrough.
3. A dual potentiometer comprising first variable resistive means, second variable resistive means, contact means, and means responsive to manipulation of a single control to: switch the contact means between a first position in which it contacts the first variable resistive means and a second position in which it contacts the second variable resistive means; slide the contact means against the first variable resistive means; and slide the contact means against the second variable resistive means.
4. The combination of claim 3 wherein said means responsive to manipulation of a single control is operable to place the contact means in a position not contacting either variable resistive means.
5. The combination of claim 3 wherein said means responsive to the manipulation of a single control comprises a rotatable and reciprocatable shaft adjacent both said variable resistive means, and the mounting of said contact means on said shaft.
6. A dual potentiometer comprising: a rotatable and reciprocatable shaft; first resistive means; second resistive means; contact means rotatable with the shaft, and movable into sliding contact with the first resistive means by reciprocation of the shaft to a first axial position, and movable into sliding contact with the second resistive means by reciprocation of the shaft to a second axial position; and a pair of terminals associated with each resistive means such that the resistance across the pair is varied as the contact means slides against the resistive means with which the pair is associated.
7. The combination of claim 6, wherein the shaft is reciprocatable to a third axial position in which the contact means contacts neither of the resistive means.
8. The combination of claim 6, wherein one terminal in each pair of terminals is electrically connected to a referencing means mounted fixedly adjacent each resistive means whereby each referencing means engages the contact means when the contact means is in contact with the adjacent resistive means.
9. A control device comprising: a rotatable and reciprocatable shaft for controlling a plurality of variable functions, each function being variable by rotation of the shaft at one of a plurality of axially spaced positions of the shaft; indicator means corresponding to each controlled function; optic means for viewing each indicator means therethrough; and means for varying, as the shaft is reciprocated, the distance between each indicator means and the optic means through which it is viewable, whereby each indicator means is in focus when viewed through the optic means when the shaft is in at least one predetermined axial position of the shaFt, but is not in such focus for all positions of the shaft.
10. The combination of claim 9, wherein the means for varying the distance between the indicator means and the optic means is the mounting of the indicator means on the shaft.
11. The combination of claim 9 wherein each indicator means is in focus when viewed through the optic means when the shaft is in the position in which the function corresponding to the indicator means is variable by rotation of the shaft.
12. The combination of claim 11, in which each indicator is in focus in at least one additional predetermined position of the shaft.
13. The combination of claim 9, wherein the optic means comprises a plurality of lenses, each optically aligned with one of the indicator means.
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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4114445A (en) * 1977-05-18 1978-09-19 Honeywell Inc. Electrical thermostat control apparatus
US4223294A (en) * 1978-10-16 1980-09-16 Allen-Bradley Company Vernier control
US4973939A (en) * 1988-04-16 1990-11-27 Bsg-Schalttechnik Gmbh & Co. Kg Potentiometer combination mounted on a circuit board
US5565785A (en) * 1994-11-18 1996-10-15 Square D Company Potentiometer calibration method
US5856618A (en) * 1997-07-25 1999-01-05 Texas Instruments Incorporated Position sensor apparatus
US20130167706A1 (en) * 2011-12-30 2013-07-04 Lowell Stevens Bearing and shaft assemblies, including tuning keys and tuner assemblies for stringed instruments, methods of using bearing and shaft assemblies, and methods of making bearing and shaft assemblies
US20170051757A1 (en) * 2015-08-17 2017-02-23 Pedro Arnulfo Sarmiento Convectors

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US2308422A (en) * 1940-02-09 1943-01-12 Foxboro Co Slide wire potentiometer
US2469924A (en) * 1947-02-06 1949-05-10 Jr John G Kunz Rheostat with switch
US3355628A (en) * 1965-08-26 1967-11-28 Globe Union Inc Multiple control system and method of manufacture thereof

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2308422A (en) * 1940-02-09 1943-01-12 Foxboro Co Slide wire potentiometer
US2469924A (en) * 1947-02-06 1949-05-10 Jr John G Kunz Rheostat with switch
US3355628A (en) * 1965-08-26 1967-11-28 Globe Union Inc Multiple control system and method of manufacture thereof

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4114445A (en) * 1977-05-18 1978-09-19 Honeywell Inc. Electrical thermostat control apparatus
US4223294A (en) * 1978-10-16 1980-09-16 Allen-Bradley Company Vernier control
US4973939A (en) * 1988-04-16 1990-11-27 Bsg-Schalttechnik Gmbh & Co. Kg Potentiometer combination mounted on a circuit board
US5565785A (en) * 1994-11-18 1996-10-15 Square D Company Potentiometer calibration method
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US20130167706A1 (en) * 2011-12-30 2013-07-04 Lowell Stevens Bearing and shaft assemblies, including tuning keys and tuner assemblies for stringed instruments, methods of using bearing and shaft assemblies, and methods of making bearing and shaft assemblies
US8618388B2 (en) * 2011-12-30 2013-12-31 Lowell Stevens Bearing and shaft assemblies, including tuning keys and tuner assemblies for stringed instruments, methods of using bearing and shaft assemblies, and methods of making bearing and shaft assemblies
US20170051757A1 (en) * 2015-08-17 2017-02-23 Pedro Arnulfo Sarmiento Convectors

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