US1970579A - Light-operated mechanism - Google Patents

Light-operated mechanism Download PDF

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US1970579A
US1970579A US568738A US56873831A US1970579A US 1970579 A US1970579 A US 1970579A US 568738 A US568738 A US 568738A US 56873831 A US56873831 A US 56873831A US 1970579 A US1970579 A US 1970579A
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light
lens
diaphragm
sensitive
sensitive element
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US568738A
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Schweitzer William Edmund
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J40/00Photoelectric discharge tubes not involving the ionisation of a gas
    • H01J40/02Details
    • H01J40/14Circuit arrangements not adapted to a particular application of the tube and not otherwise provided for

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  • This invention relates ingeneral to light-operated mechanism and moreparticularly to signalling systems and specially to those of the character wherein light-sensitive elements are em- 5 ployed for actuating a controlling circuit for an electrical signal.
  • this invention finds utilityvas an actuating means for visual or audible signals for announcing the presence or absence of objects within or their passage through a predetermined. field, such, for example,
  • the principal objects and advantages of this invention reside in the provision of an improved arrangement of the light-sensitive means and the normally permanently acting light source whereby a visual or audible signal may be actuated upon the interposing of an object between the light source and the light-sensitive element; the provision of an improved arrangement of the lightsensitive means and permanent light source wherein the light-sensitive element is made to respond only to variations or interruptions in the permanent light source and is unresponsive to extraneous light rays; the provision generally of an improved signalling system; the provision'of an improved arrangement of the light-sensitive cell for controlling an electrical circuit and in associating lensand apertured diaphragm means therewith so that an artificial light source placed at a distance fromthe light element source may befocus'edthereon to the substantial'exclusion of other unwanted activating light rays; the pro,- vision of.
  • an improved signalling means including a light sensitive element, collecting and. condensinglenses and means for providing for relative adjustmentbetween said elements; and the provision of a signalling system of the character referred to which is relatively simple in construction andinexpensive to maintain and operate.
  • I provide as -the essential elements of this conventional incandescent lamp, which is placed 5 the intensity of the rays projected from said invention a light source 5', such for example asa lamp.
  • a suitable reflector 8 may be provided behind the lamp.
  • the light source 5 is arranged in spaced relationship to a light-sensitive element 9, and in one of the installations of this invention in practical G0: operation the light source is placed on one side of a, driveway to a garage or gasoline filling station and the light-sensitive element is placed in axial alignment with the beam of light projected from the light source on the other side of such driveway, so that any vehicle or person passing along the driveway will intercept the light rays passing from the light source to the light-sensitive element.
  • the light- 70. sensitive element is not only responsive to rays from the light source 5 but that without the as-' sociatd structureywhich I will now describe, the light-sensitive element would be affected by extraneous light rays such as daylight and, therefore, it is necessary to provide means for excluding extraneous light and facilitating the concentration of the light rays from the source 5 on said light-sensitive element.
  • the light-sensitive element which may be of the vacuum tube type, having the electrodes '10 and ll'therein, is enclosed in a housing 12.
  • This housing and the light-sensitive tube or cell 9 are mounted on a suitable base 13 which is adapted "to be supported in any convenient position as desired.
  • the housing 12 is provided with a variably positioned diaphragm 14, said diaphragm' being supported by a leg 15 passing through a slot 16in the base 13.
  • the lower end of the leg 15 is provided with a rack bar 17 and 00 a pinion 18 meshes with said rack bar for the purpose of moving the diaphragm 14 bodily toward oraway from the light sensitive element.
  • the light-sensitive element is so positioned that its medial portion lies substantially transverse to the optical axis A of the beam of light projected from the light source 5, the filament 19 of said light source being similarly arranged on said optical. axis A.
  • Adjacent to the light source 5 I provide a projecting lens 20, so positioned as to collect and project the light rays A in a substantially parallel' cylindricalform, indicated by the lines B, on to a condensing or focusing lens 21, which latter is arranged adjacent to the light-sensitive element and diaphragm 14.
  • Both of thelenses 20 'and'21 are preferably disposed with their optical axes in alignment with the axis A.
  • the lens 21 is supported in a suitable ring 22 carried by a leg 23 fixedly mounted on the base 13. It will be 110 understood that the lens 21 may be adjustably mounted, if desired, but that under ordinary conditions the lens can have a fixed adjustment with respect to the plate 10 in the light-sensitive cell.
  • the lens 21 acts upon the rays, indicated by the lines B, to converge these rays as indicated at C, the focal point of said lens being indicated at the point D and being substantially on the axis A.
  • the diaphragm 14 is provided with a relatively small aperture 22 preferably in substantial alignment with the optical axis A and, by an adjustment of said diaphragm to and fro, the aperture 22 may be made to coincide substantially with the focal point D of the lens 21. In this manner the rays thus condensed by the lens 21 will, within the housing 12, be distributed to the light-sensitive element of the cell or tube 9.
  • extraneous light is substantially excluded from entering the housing by virtue of the relatively small opening 22 in the diaphragm 14 and that in any event such inciden: tal extraneous light rays as may enter the housing do not have an undesirable effect on the light sensitive cell, due to the fact that they are not focused on the sensitive portions thereof.
  • this cell is connected to the grid circuit on a vacuum tube amplifier on one side and is supplied with a voltage on the other side so that, upon an interruption of the light rays passing from the source 5 to the light-sensitive element, this element will to be of variable size by means such as that known as an Iris diaphragm, in place of the fixed sized opening shown in the drawing, and thus by a proper regulation of the size of the opening 22,
  • the light-sensitive cell may be rendered sensitive normally only to the light rays passing from the light source 5 thereto and thus by substantially excluding all other extraneous light rays, permitting the device to operate successfully either in daylight or at night time.
  • the housing 12 may be positioned in a casing 12a provided with a slidable tubular extension or hood 21a in which the lens 21 may be mounted.
  • This arrangement not only permits an adjustment of the lens 21 relative to the aperture 22 but also further serves as a hood to protect the lens 21 both from the incidence of incidental extraneous ray and from atmospheric precipitation and accidental blows.
  • the casing 12a may be supported by a. standard capable of rotary motion,'whereby further adjustment of lens 21 relatively to the lens 20 is readily attainable.
  • the inner housing 12 is adapted to be slidably adjusted on the base 13 by manipulation of the rack and pinion 1'7 and 18, the arm 15 having engagement with an annulus 12c which reinforces the bottom edge of the wall 24 of the housing 12, the arm 15 having a rivet 15a engaging said annulus 12c and the annulus being spaced from a portion 15b of said arm 15 to permit of a vertical adjustment of the diaphragm 14 in the housing 12. It will be observed that the upper edge of the diaphragm 14 engages in a recess 14a formed in the top wall of the housing 12 which permits of such vertical adjustment.
  • I provide a rack and pinion 27 and 28, the rack being carried by the diaphragm, and the pinion being mounted on the side wall of the housing 12.
  • the shaft 29 extends through a slot 31 in the outer wall of the casing 12a and may be provided with a suitable manipulating rod.
  • one of the advantages of structures embodying my invention is that in the event of any interruption of (or even substantial reduction in) the feed circuit for the source of light, the circuit controlled by the light sensitive element will also be correspondingly varied. Thus not only the passage of any one across the light path, but any interference with the feed circuit or other parts of the mechanism will cause the signalling element to operate.
  • the invention is susceptible of installations other than the specific example given herein and that the signalling circuit, which is generally designated, may be provided with the required relays and other electrical apparatus for attaining the desired signal, either audible or visible, and hasa wide field of usefulness.
  • a weather-proof casing a base fixed within said casing, a light-senstive element mounted on said base, a shield surrounding said element and resting on said base, means for moving said shield horizontally comprising a rack rigidly secured to said shield, a pinion rotatably supported by said casing and meshing with said rack, and means extending externally of the easing for rotating said pinion to adjust said shield horizontally
  • said shield including a vertically movable portion having an aperture therein positioned opposite the element, means for moving said portion vertically comprising a rack secured to said portion, a pinion meshing with the lastmentioned rack and being rotatable and horizontally slidable relative to said casing, and'ineans extending externally of the casing for rotating the last-mentioned pinion, and a condensing lens supported by the wall of the casing opposite the aperture for focusing light from an external source at said aperture.
  • a weather-proof casing a base fixed within said casing, a light-sensitive element mounted on said base, an opaque shield surrounding said element and slidably supported on the top of said base to permit adjustment thereof relative to said element, said shield including a diaphragm slidable vertically in said shield and hav-- ing an aperture opposite said element, a condensing lens mounted in the wall of the casing opposite said aperture for focusing light from an external source, means for sliding the shield as a whole on the top of the base, and means for sliding said diaphragm vertically to adjust said aperture to the focal point of the light focused by said lens.

Description

Aug. 21, 1934- w. SCHWEITZER LIGHT OPERATED MECHANISM Filed Oct. 14. 1931 Patented Aug. 21, 1934 UNITED STATES PATENT OFFICE 1,970,579 LIGHT-OPERATED MECHANISM William Edmund Schweitzer; Chicago, .111. Application October 14, 1931, Serial No. 568,738 2 Claims. (01. 250-415) This invention relates ingeneral to light-operated mechanism and moreparticularly to signalling systems and specially to those of the character wherein light-sensitive elements are em- 5 ployed for actuating a controlling circuit for an electrical signal. In one of its embodiments this invention finds utilityvas an actuating means for visual or audible signals for announcing the presence or absence of objects within or their passage through a predetermined. field, such, for example,
for announcing to the attendant of a garage or gasoline station the presence of a customer in the entrance or driveway thereof.
The principal objects and advantages of this invention reside in the provision of an improved arrangement of the light-sensitive means and the normally permanently acting light source whereby a visual or audible signal may be actuated upon the interposing of an object between the light source and the light-sensitive element; the provision of an improved arrangement of the lightsensitive means and permanent light source wherein the light-sensitive element is made to respond only to variations or interruptions in the permanent light source and is unresponsive to extraneous light rays; the provision generally of an improved signalling system; the provision'of an improved arrangement of the light-sensitive cell for controlling an electrical circuit and in associating lensand apertured diaphragm means therewith so that an artificial light source placed at a distance fromthe light element source may befocus'edthereon to the substantial'exclusion of other unwanted activating light rays; the pro,- vision of. an improved signalling means, including a light sensitive element, collecting and. condensinglenses and means for providing for relative adjustmentbetween said elements; and the provision of a signalling system of the character referred to which is relatively simple in construction andinexpensive to maintain and operate.
The foregoingand such other objects and advantages asmay appear as this description proceeds are attained in thestructural embodiment of the invention shown in the accompanying drawing. I
Referring now more particularly to the-drawing, I provide as -the essential elements of this conventional incandescent lamp, which is placed 5 the intensity of the rays projected from said invention a light source 5', such for example asa lamp. A suitable reflector 8 may be provided behind the lamp.
The light source 5 is arranged in spaced relationship to a light-sensitive element 9, and in one of the installations of this invention in practical G0: operation the light source is placed on one side of a, driveway to a garage or gasoline filling station and the light-sensitive element is placed in axial alignment with the beam of light projected from the light source on the other side of such driveway, so that any vehicle or person passing along the driveway will intercept the light rays passing from the light source to the light-sensitive element.
It will be understood, of course, that the light- 70. sensitive element is not only responsive to rays from the light source 5 but that without the as-' sociatd structureywhich I will now describe, the light-sensitive element would be affected by extraneous light rays such as daylight and, therefore, it is necessary to provide means for excluding extraneous light and facilitating the concentration of the light rays from the source 5 on said light-sensitive element.
To thisend the light-sensitive element, which may be of the vacuum tube type, having the electrodes '10 and ll'therein, is enclosed in a housing 12. This housing and the light-sensitive tube or cell 9 are mounted on a suitable base 13 which is adapted "to be supported in any convenient position as desired. The housing 12 is provided with a variably positioned diaphragm 14, said diaphragm' being supported by a leg 15 passing through a slot 16in the base 13. The lower end of the leg 15is provided with a rack bar 17 and 00 a pinion 18 meshes with said rack bar for the purpose of moving the diaphragm 14 bodily toward oraway from the light sensitive element.
The light-sensitive element is so positioned that its medial portion lies substantially transverse to the optical axis A of the beam of light projected from the light source 5, the filament 19 of said light source being similarly arranged on said optical. axis A.
Adjacent to the light source 5 I provide a projecting lens 20, so positioned as to collect and project the light rays A in a substantially parallel' cylindricalform, indicated by the lines B, on to a condensing or focusing lens 21, which latter is arranged adjacent to the light-sensitive element and diaphragm 14. Both of thelenses 20 'and'21are preferably disposed with their optical axes in alignment with the axis A. The lens 21 is supported in a suitable ring 22 carried by a leg 23 fixedly mounted on the base 13. It will be 110 understood that the lens 21 may be adjustably mounted, if desired, but that under ordinary conditions the lens can have a fixed adjustment with respect to the plate 10 in the light-sensitive cell.
The lens 21 acts upon the rays, indicated by the lines B, to converge these rays as indicated at C, the focal point of said lens being indicated at the point D and being substantially on the axis A. The diaphragm 14 is provided with a relatively small aperture 22 preferably in substantial alignment with the optical axis A and, by an adjustment of said diaphragm to and fro, the aperture 22 may be made to coincide substantially with the focal point D of the lens 21. In this manner the rays thus condensed by the lens 21 will, within the housing 12, be distributed to the light-sensitive element of the cell or tube 9.
It will be understood that extraneous light is substantially excluded from entering the housing by virtue of the relatively small opening 22 in the diaphragm 14 and that in any event such inciden: tal extraneous light rays as may enter the housing do not have an undesirable effect on the light sensitive cell, due to the fact that they are not focused on the sensitive portions thereof.
In the normal installation of the device for a signalling means, such as a gas station or the like, light rays from the light source 5 are continually projected through the aperture 22 on to the light-sensitive cell. Under these conditions, this cell is connected to the grid circuit on a vacuum tube amplifier on one side and is supplied with a voltage on the other side so that, upon an interruption of the light rays passing from the source 5 to the light-sensitive element, this element will to be of variable size by means such as that known as an Iris diaphragm, in place of the fixed sized opening shown in the drawing, and thus by a proper regulation of the size of the opening 22,
, position of the diaphragm 14 and the intensity of the light source, the light-sensitive cell may be rendered sensitive normally only to the light rays passing from the light source 5 thereto and thus by substantially excluding all other extraneous light rays, permitting the device to operate successfully either in daylight or at night time.
The housing 12 may be positioned in a casing 12a provided with a slidable tubular extension or hood 21a in which the lens 21 may be mounted. This arrangement not only permits an adjustment of the lens 21 relative to the aperture 22 but also further serves as a hood to protect the lens 21 both from the incidence of incidental extraneous ray and from atmospheric precipitation and accidental blows.
The casing 12a may be supported by a. standard capable of rotary motion,'whereby further adjustment of lens 21 relatively to the lens 20 is readily attainable.
The inner housing 12 is adapted to be slidably adjusted on the base 13 by manipulation of the rack and pinion 1'7 and 18, the arm 15 having engagement with an annulus 12c which reinforces the bottom edge of the wall 24 of the housing 12, the arm 15 having a rivet 15a engaging said annulus 12c and the annulus being spaced from a portion 15b of said arm 15 to permit of a vertical adjustment of the diaphragm 14 in the housing 12. It will be observed that the upper edge of the diaphragm 14 engages in a recess 14a formed in the top wall of the housing 12 which permits of such vertical adjustment.
In order to vertically adjust the diaphragm, I provide a rack and pinion 27 and 28, the rack being carried by the diaphragm, and the pinion being mounted on the side wall of the housing 12. The shaft 29 extends through a slot 31 in the outer wall of the casing 12a and may be provided with a suitable manipulating rod.
It will further be noted that one of the advantages of structures embodying my invention is that in the event of any interruption of (or even substantial reduction in) the feed circuit for the source of light, the circuit controlled by the light sensitive element will also be correspondingly varied. Thus not only the passage of any one across the light path, but any interference with the feed circuit or other parts of the mechanism will cause the signalling element to operate.
It will thus be observed that the invention is susceptible of installations other than the specific example given herein and that the signalling circuit, which is generally designated, may be provided with the required relays and other electrical apparatus for attaining the desired signal, either audible or visible, and hasa wide field of usefulness.
Having thus described my invention and illustrated its use, what I claim as new and desire to secure by Letters Patent is:
1. In a system of the character described, the combination of a weather-proof casing, a base fixed within said casing, a light-senstive element mounted on said base, a shield surrounding said element and resting on said base, means for moving said shield horizontally comprising a rack rigidly secured to said shield, a pinion rotatably supported by said casing and meshing with said rack, and means extending externally of the easing for rotating said pinion to adjust said shield horizontally, said shield including a vertically movable portion having an aperture therein positioned opposite the element, means for moving said portion vertically comprising a rack secured to said portion, a pinion meshing with the lastmentioned rack and being rotatable and horizontally slidable relative to said casing, and'ineans extending externally of the casing for rotating the last-mentioned pinion, and a condensing lens supported by the wall of the casing opposite the aperture for focusing light from an external source at said aperture.
2. In a system of the character described, the combination of a weather-proof casing, a base fixed within said casing, a light-sensitive element mounted on said base, an opaque shield surrounding said element and slidably supported on the top of said base to permit adjustment thereof relative to said element, said shield including a diaphragm slidable vertically in said shield and hav-- ing an aperture opposite said element, a condensing lens mounted in the wall of the casing opposite said aperture for focusing light from an external source, means for sliding the shield as a whole on the top of the base, and means for sliding said diaphragm vertically to adjust said aperture to the focal point of the light focused by said lens.
WILLIAM EDMUND SCHWEI'IZER,
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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2465036A (en) * 1943-09-13 1949-03-22 Gen Controls Co Valve structure
US2625658A (en) * 1946-09-19 1953-01-13 Frazier Simplex Tank level control
US2673060A (en) * 1950-12-06 1954-03-23 Result Ab Photoelectrically controlled scale
US2700916A (en) * 1951-06-06 1955-02-01 Samuel A Muirhead Device for restricting light acceptance angles for light meters
DE1057237B (en) * 1956-05-29 1959-05-14 Meier Elektromotorenfabrik A G Photoelectric barrier device
US2898857A (en) * 1944-08-07 1959-08-11 Lawrence R Hafstad Fuze
US3197646A (en) * 1962-01-09 1965-07-27 Sperry Rand Corp Photosensitive object detecting mechanism

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2465036A (en) * 1943-09-13 1949-03-22 Gen Controls Co Valve structure
US2898857A (en) * 1944-08-07 1959-08-11 Lawrence R Hafstad Fuze
US2625658A (en) * 1946-09-19 1953-01-13 Frazier Simplex Tank level control
US2673060A (en) * 1950-12-06 1954-03-23 Result Ab Photoelectrically controlled scale
US2700916A (en) * 1951-06-06 1955-02-01 Samuel A Muirhead Device for restricting light acceptance angles for light meters
DE1057237B (en) * 1956-05-29 1959-05-14 Meier Elektromotorenfabrik A G Photoelectric barrier device
US3197646A (en) * 1962-01-09 1965-07-27 Sperry Rand Corp Photosensitive object detecting mechanism

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