US2209639A - Camera diaphragm - Google Patents

Camera diaphragm Download PDF

Info

Publication number
US2209639A
US2209639A US244704A US24470438A US2209639A US 2209639 A US2209639 A US 2209639A US 244704 A US244704 A US 244704A US 24470438 A US24470438 A US 24470438A US 2209639 A US2209639 A US 2209639A
Authority
US
United States
Prior art keywords
coil
blades
diaphragm
lens
filaments
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.)
Expired - Lifetime
Application number
US244704A
Inventor
Tonnies Hans Ferdinand
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to US244704A priority Critical patent/US2209639A/en
Application granted granted Critical
Publication of US2209639A publication Critical patent/US2209639A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • GPHYSICS
    • G03PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
    • G03BAPPARATUS OR ARRANGEMENTS FOR TAKING PHOTOGRAPHS OR FOR PROJECTING OR VIEWING THEM; APPARATUS OR ARRANGEMENTS EMPLOYING ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ACCESSORIES THEREFOR
    • G03B7/00Control of exposure by setting shutters, diaphragms or filters, separately or conjointly
    • G03B7/08Control effected solely on the basis of the response, to the intensity of the light received by the camera, of a built-in light-sensitive device
    • G03B7/081Analogue circuits
    • G03B7/085Analogue circuits for control of aperture

Definitions

  • This invention relates to camera diaphragms and particularly to electrically operated diaphragms for use with photoelectric systems to adjust the efiective lens aperture automatically in accordance with the existing scene'brightness, and preselected values of exposure factors as, for example, emulsion speed, shutter timing, filter factor and/or character of the scene.
  • An object of the invention is to provide an electrically operated diaphragm having a plurality of pivoted blades, an electrical instrument having one or more coils for actuating the plurality of blades, and mechanisms that place substantially no load on the moving system connecting the coil or coils and the blades for simultaneous movement.
  • An object is to provide a diaphragm having a plurality of pivoted blades, an instrument having a coil carrying one of the blades, and mechanical connections of negligible power consumption coupling the coil to the other blades.
  • An object is to provide a diaphragm of the type stated in which the mechanical connections include resilient wires or filaments passing around cylindrical surfaces at the several blades, the power consumed in coiling one end of the wire or filament about its cylindrical surface in the turning the blades being offset by the power given up as the other end of the resilient wire or filament is uncoiled.
  • automatic diaphragms including an instrument having a pivoted coil carrying one diaphragm blade, a plurality of addltional diaphragm blades each mounted on a shaft, and mechanical connections between the coil and the additional blades, the mechanical connections including resilient wires or filaments anchored to levers-or to small pulleys carried by the coil and the several blade shafts.
  • Fig. l is an enlarged side elevation of an instrument and blade members constituting one 5 embodiment of the invention.
  • Fig. 2 is a transverse section approximately on line 2-2 of Fig.1;
  • Fig. 3 is an enlarged fragmentary view, similar to Fig. l but omitting the instrument magnet 10 and the blades, of another form of mechanical coupling between the instrument coil and the pivotal supports for certain blades;
  • Fig. 4 is an enlarged elevation, partly in section, of one of the blade'supports; and 15 Fig. 5 is an elevation of an embodiment in which more than one moving coil is used to actuate the set of mechanically coupled blades.
  • the reference numeral I identifies the permanent magnet structure of an 20 electrical measuring instrument which includes a soft iron core 2 and a coil 3 pivotally mounted on jewel bearings l for angular movement about the core.
  • the restoring springs and electrical connections to the coil are not shown but may be 25 of known or desired design. It is to be understood that the parts are shown on an enlarged scale for clearness-of illustration and that recently developed magnet alloys of high retentivity permit the manufacture of instruments 30 of small size that are well adapted for the operation of an automatic camera diaphragm.
  • the axis of the coil 3 and a plurality of shafts 5, 5 are uniformly spaced in cylindrical symmetry about and parallel to the axis of the 35 camera lens L..
  • Each stafi 5 is supported by a substantially frictionless bearing 6 such as the jewel bearings commonly used in measuring instruments.
  • the coil and each staff 5 have se-- cured thereto a diaphragm blade I of blackened aluminum or mica, the blades being of sickle shape and having efl'ective edges 8 that lie beyond the lens L when the blades are fully opened and move progressively into the light passages as the blades are turned counterclockwise.
  • Each blade extends beyond its pivotal support and carries a balance weight 9.
  • the turning range of the coil may be about to and the effective lens aperture is slowly and progressively varied with the displacement of the blades.
  • the mechanism for transmitting motion from the coil 3 to the shaft 5 comprises actuating members l0 secured to the coil and shafts and connected by cables in the form of resilient filaments H such as wires. ribbons, twisted 55 spider web threads, thin silk threads, or human hair.
  • the actuating .but the power consumption for bending each fillower filament H, to impart the same angular movement to the shafts 5 and theirblades I.
  • one end of each filament H is wound upon a cylindrical surface as the other end is unwound in the angular movement of the shafts and-coil. This bending of a resilient filament about a'cylindrical surface places a mechanical load upon the moving coil system since some force must be exerted to fiex the filament,
  • the actuating-members I 0' of the motion transmitting system of. Figs. 3 and 4 comprise small pulleys around which the ends of the resilient filaments II are coiled and secured by drops i3 of cement or wax.
  • the curvature of the pulley surfaces is substantially less than that of the studs H .of the previously described construction and the force required to bend the resilient filaments about the pulleys is therefore quite small.
  • the bending or ceiling of the resilient filaments should not be so sharp as to exceed the elastic limit of the material since, if that condition exists', the tendency of the filament to unwind from one pulley will not neutralize the force required to bend the filament about the other pulley.
  • This resilient filament type of mechanical coupling may be used to insure like displacements of all blades in automatic diaphragms having a moving coil for each blade or the filaments may function both as operating and as displacement stabilizing means in diaphragms having two or more coils for actuating a larger number of blades.
  • a construction of the latter type includes a magnetic system formed by two magnets 2! having unlike poles spaced apart to provide gaps arranged symmetrically with respect to the axis of the camera lens L.
  • Moving coils 23 are pivotally supported in the air gaps and carry small pulleys It, and two shafts, 5"are arranged parallel to the lens axis and in symmetry with, the coil axes.
  • Pulleys Ill on the shafts 5 are connected to the pulleys of the moving coils by fine resilient filaments I/L'anddiaphragm blades 1 are supported by the shafts 5' and the coils.
  • the outer edges 8' of the blades I have approximately the 'shape' of the inner edges 8 of the described sickle shaped blades 1, and the edges 8' move progressively into the light passage of the lens system as the coils 23 move in response to current flow.
  • the symmetrical arrangement of all blade edges 8' with respect/to the lens axis is maintained throughout the range of blade movement by the filaments II that interconnect the several pulleys i0.
  • the torque developed by the moving coil or coils of a sensitive milliammeter associated with a current-generating photocell is exceedingly minute and it isnot possible for a moving coil to actuate a diaphragm system which imposes an appreciable mechanical load upon the instrument.
  • the power consumption is reduced to a minimum by the present invention as the work performed by the instrumentis restricted to the overcomingof the frictional resistance of shafts mounted'in jewel bearings or the like and the internal frictional resistance to bending of a plurality of slightly resilient filaments.
  • An automatic diaphragm for use with a camera lens, said diaphragm comprising a plurality of blades, means supporting said blades for pivotal movement about axes parallel to and in cylindrical symmetry about the axis of the camera lens, an electrical measuring instrument having at least one coil supported for pivotal movement, and motion transmitting means including filaments connecting said supporting means to each other and to said coil.
  • a" plurality of blades means pivotally supporting said blades, an electrical measuring instrument having a coil pivoted for angular movement about an axis parallel to the axes of said blades, and motion transmitting means connecting said coil to said blades, said motion transmitting means including actuating members, secured to said coil and to said supporting means, and initially straight resilient filaments extending between adjacent actuating members, the actuating members having curved surfaces for engagement by said filaments.
  • a diaphragm mechanism for use with a camera lens comprising-an electrical measuring instrument including a pivotally mounted coil, a plurality of shafts parallel to and with said coil symmetrically located with reference to the axis of the camera lens, diaphragm blades carried by said coil and said shafts, and means coupling said shafts to said coil for actuation thereby.
  • each of said blades is of sickle shape with a light-intercepting edge at the side of the lens opening opposite the pivotal axis of the blade.
  • a camera diaphragm comprising a plurality of blades, circumferentially spaced supporting means mounting said blades for pivotalmovement about parallel axes, an electrical instrument having a pivoted coil, and motion transmitting means connecting said supporting means to each other and to said coil; said motion transmitting means including operating members secured respectively to said coil and to each blade aaoaess 8.
  • said operating members have cylindrical surfaces engaging end portions of said resilient filaments, said end portions of the filaments extending tangentially to said cylindrical surface to wind and unwind with the turning movement of said supporting means.
  • a diaphragm mechanism for controlling the passage of light through a camera lens comprising a plurality of blades, sup'- ports mounting said blades for pivotal movemen about axes parallel instrument having a coil supported for pivotal movement about an axis parallel to the lens axis, and means including resilient filaments for transmitting angulanmovement .of said coil to said blades.
  • An automatic lens diaphragm comprising a plurality of blades pivctally supported for movement about axes parallel to the lens axis, an electrical measuring instrument having a pivoted coil, and motion-transmitting means mechanically connecting said coil to said blades; said means including actuating members secured to the several blades and having cylindrical surfaces, and resilient filamentssecured to adjacent actuating means and in engagement with said cylindrical surfaces.
  • An automatic lens diaphragm comprising an electrical measuring instrument having a pinrality of moving coils having axes parallel to the lens axis, a plurality of shafts parallel to the lens axis, a diaphragm blade carried by each coil and each shaft, and means connecting said coils to each other and to said blades for simultaneous angular displacement thereof; said means comprising an operating member on each coil and each shaft, and filaments extending between and anchored to adjacent operating members.
  • An automatic lens diaphragm comprising an electrical measuring instrument having a plurality of moving coils having axes parallel to the lens axis, a plurality of shafts parallel to the lens axis, a diaphragm blade carried by each coil and each shaft, a pulley on each coil and each shaft, and resilient filaments extending between and secured to adjacent pulleys.
  • An automatic lens diaphragm comprising an instrmnent having two coils on axes parallel to and symmetrically arranged with respect to the lens axis, a pair of shafts parallel to the lens axis and symmetrically arranged with respect to the lens axis and the coils, a diaphragm blade carried by each coil and each shaft, a pulley carried by each coil and each shaft, and resilient filaments extending between and secured to adjacent pulleys.

Landscapes

  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Diaphragms For Cameras (AREA)

Description

July 30, 1940. H. F. TONNIES V CAMERA DIAPHRAGM Filed Dec. 8, 1938 Patented July 30, 1940 mm DIAPHRAGM Hans Ferdinand Tiinnies, Hamburg-Gronflottbek, Germany Application December 8, 1938, Serial No. 244,704
14 Claims.
This invention relates to camera diaphragms and particularly to electrically operated diaphragms for use with photoelectric systems to adjust the efiective lens aperture automatically in accordance with the existing scene'brightness, and preselected values of exposure factors as, for example, emulsion speed, shutter timing, filter factor and/or character of the scene.
Many of the prior proposals for automatic diaphragms are inoperative or impractical for the reason that the photoelectric systems are incapable ofdeveloping power suflicient to actuate the diaphragm members. This faulty design is characteristic of that type of diaphragm which 16 has a single moving coil for operating a plurality of diaphragm members. A diaphragm including independently movable coils that each carry a. diaphragm blade is described and claimed in my prior Patent No.2,051,061, granted August 20 18, 1936, butthis'invention contemplates a mechanical connection between a plurality of pivoted diaphragms that are actuated by one or more moving coils. The mechanical connection insures the simultaneous adjustment of all blades. An object of the invention is to provide an electrically operated diaphragm having a plurality of pivoted blades, an electrical instrument having one or more coils for actuating the plurality of blades, and mechanisms that place substantially no load on the moving system connecting the coil or coils and the blades for simultaneous movement. An object is to provide a diaphragm having a plurality of pivoted blades, an instrument having a coil carrying one of the blades, and mechanical connections of negligible power consumption coupling the coil to the other blades. An object is to provide a diaphragm of the type stated in which the mechanical connections include resilient wires or filaments passing around cylindrical surfaces at the several blades, the power consumed in coiling one end of the wire or filament about its cylindrical surface in the turning the blades being offset by the power given up as the other end of the resilient wire or filament is uncoiled.- Further objects are to provide automatic diaphragms including an instrument having a pivoted coil carrying one diaphragm blade, a plurality of addltional diaphragm blades each mounted on a shaft, and mechanical connections between the coil and the additional blades, the mechanical connections including resilient wires or filaments anchored to levers-or to small pulleys carried by the coil and the several blade shafts. These and other objects and advantages of the invention will be apparent from the following specification when taken with the accompanying drawing in which:
Fig. l is an enlarged side elevation of an instrument and blade members constituting one 5 embodiment of the invention;
Fig. 2 is a transverse section approximately on line 2-2 of Fig.1;
Fig. 3 is an enlarged fragmentary view, similar to Fig. l but omitting the instrument magnet 10 and the blades, of another form of mechanical coupling between the instrument coil and the pivotal supports for certain blades;
Fig. 4 is an enlarged elevation, partly in section, of one of the blade'supports; and 15 Fig. 5 is an elevation of an embodiment in which more than one moving coil is used to actuate the set of mechanically coupled blades.
In the drawing, the reference numeral I identifies the permanent magnet structure of an 20 electrical measuring instrument which includes a soft iron core 2 and a coil 3 pivotally mounted on jewel bearings l for angular movement about the core. The restoring springs and electrical connections to the coil are not shown but may be 25 of known or desired design. It is to be understood that the parts are shown on an enlarged scale for clearness-of illustration and that recently developed magnet alloys of high retentivity permit the manufacture of instruments 30 of small size that are well adapted for the operation of an automatic camera diaphragm.
The axis of the coil 3 and a plurality of shafts 5, 5 are uniformly spaced in cylindrical symmetry about and parallel to the axis of the 35 camera lens L.. Each stafi 5 is supported by a substantially frictionless bearing 6 such as the jewel bearings commonly used in measuring instruments. The coil and each staff 5 have se-- cured thereto a diaphragm blade I of blackened aluminum or mica, the blades being of sickle shape and having efl'ective edges 8 that lie beyond the lens L when the blades are fully opened and move progressively into the light passages as the blades are turned counterclockwise. Each blade extends beyond its pivotal support and carries a balance weight 9. The turning range of the coil may be about to and the effective lens aperture is slowly and progressively varied with the displacement of the blades.
The mechanism for transmitting motion from the coil 3 to the shaft 5 comprises actuating members l0 secured to the coil and shafts and connected by cables in the form of resilient filaments H such as wires. ribbons, twisted 55 spider web threads, thin silk threads, or human hair. As shown in Figs. 1 and 2, the actuating .but the power consumption for bending each fillower filament H, to impart the same angular movement to the shafts 5 and theirblades I. It is to be noted that one end of each filament H is wound upon a cylindrical surface as the other end is unwound in the angular movement of the shafts and-coil. This bending of a resilient filament about a'cylindrical surface places a mechanical load upon the moving coil system since some force must be exerted to fiex the filament,
ament is substantially neutralized as the opposite end of that filament uncoils from its stud. It
is impossible to obtain filaments of such high flexibility as to require no force for bending the same, but initially straight resilient filaments impose substantially no load on the moving system when, as described, one end is wound from a cylindrical surface as its opposite end is wound upon a similar cylindrical surface. t
The actuating-members I 0' of the motion transmitting system of. Figs. 3 and 4 comprise small pulleys around which the ends of the resilient filaments II are coiled and secured by drops i3 of cement or wax. The curvature of the pulley surfaces is substantially less than that of the studs H .of the previously described construction and the force required to bend the resilient filaments about the pulleys is therefore quite small. The bending or ceiling of the resilient filaments should not be so sharp as to exceed the elastic limit of the material since, if that condition exists', the tendency of the filament to unwind from one pulley will not neutralize the force required to bend the filament about the other pulley.
This resilient filament type of mechanical coupling may be used to insure like displacements of all blades in automatic diaphragms having a moving coil for each blade or the filaments may function both as operating and as displacement stabilizing means in diaphragms having two or more coils for actuating a larger number of blades. A construction of the latter type, as shown in Fig. 5, includes a magnetic system formed by two magnets 2! having unlike poles spaced apart to provide gaps arranged symmetrically with respect to the axis of the camera lens L. Moving coils 23 are pivotally supported in the air gaps and carry small pulleys It, and two shafts, 5"are arranged parallel to the lens axis and in symmetry with, the coil axes. Pulleys Ill on the shafts 5 are connected to the pulleys of the moving coils by fine resilient filaments I/L'anddiaphragm blades 1 are supported by the shafts 5' and the coils. The outer edges 8' of the blades I have approximately the 'shape' of the inner edges 8 of the described sickle shaped blades 1, and the edges 8' move progressively into the light passage of the lens system as the coils 23 move in response to current flow. The symmetrical arrangement of all blade edges 8' with respect/to the lens axis is maintained throughout the range of blade movement by the filaments II that interconnect the several pulleys i0.
The torque developed by the moving coil or coils of a sensitive milliammeter associated with a current-generating photocell is exceedingly minute and it isnot possible for a moving coil to actuate a diaphragm system which imposes an appreciable mechanical load upon the instrument. 'The power consumption is reduced to a minimum by the present invention as the work performed by the instrumentis restricted to the overcomingof the frictional resistance of shafts mounted'in jewel bearings or the like and the internal frictional resistance to bending of a plurality of slightly resilient filaments.
It is to be understood that there is considerable latitude in the design and construction of embodiments of this invention and that many changes which may occur to those familiar with this art fall within the spirit of my invention as set forth in the following claims.
I claim:
1. An automatic diaphragm for use with a camera lens, said diaphragm comprising a plurality of blades, means supporting said blades for pivotal movement about axes parallel to and in cylindrical symmetry about the axis of the camera lens, an electrical measuring instrument having at least one coil supported for pivotal movement, and motion transmitting means including filaments connecting said supporting means to each other and to said coil.
.2. An automatic diaphragm as claimed in claim 1, wherein one of said blades is secured to said coil.
3. In an automatic diaphragm for use with a camera lens, a" plurality of blades, means pivotally supporting said blades, an electrical measuring instrument having a coil pivoted for angular movement about an axis parallel to the axes of said blades, and motion transmitting means connecting said coil to said blades, said motion transmitting means including actuating members, secured to said coil and to said supporting means, and initially straight resilient filaments extending between adjacent actuating members, the actuating members having curved surfaces for engagement by said filaments.
4. A diaphragm mechanism for use with a camera lens, said mechanism comprising-an electrical measuring instrument including a pivotally mounted coil, a plurality of shafts parallel to and with said coil symmetrically located with reference to the axis of the camera lens, diaphragm blades carried by said coil and said shafts, and means coupling said shafts to said coil for actuation thereby.
5. A diaphragm mechanism as claimed in claim 4, wherein each of said blades is of sickle shape with a light-intercepting edge at the side of the lens opening opposite the pivotal axis of the blade.
6., A camera diaphragm comprising a plurality of blades, circumferentially spaced supporting means mounting said blades for pivotalmovement about parallel axes, an electrical instrument having a pivoted coil, and motion transmitting means connecting said supporting means to each other and to said coil; said motion transmitting means including operating members secured respectively to said coil and to each blade aaoaess 8. A camera diaphragm as claimed in claim wherein said operating members have cylindrical surfaces engaging end portions of said resilient filaments, said end portions of the filaments extending tangentially to said cylindrical surface to wind and unwind with the turning movement of said supporting means. i
9. A diaphragm mechanism for controlling the passage of light through a camera lens, said mechanism comprising a plurality of blades, sup'- ports mounting said blades for pivotal movemen about axes parallel instrument having a coil supported for pivotal movement about an axis parallel to the lens axis, and means including resilient filaments for transmitting angulanmovement .of said coil to said blades.
10. An automatic lens diaphragm comprising a plurality of blades pivctally supported for movement about axes parallel to the lens axis, an electrical measuring instrument having a pivoted coil, and motion-transmitting means mechanically connecting said coil to said blades; said means including actuating members secured to the several blades and having cylindrical surfaces, and resilient filamentssecured to adjacent actuating means and in engagement with said cylindrical surfaces.
11. An automatic diaphragm as claimed in claim 10, wherein said motion-transmitting means includes pulleys secured respectively to said coil and to said blades, and resilient filaments extending about said pulleysr to the lens axis, an electrical 12. An automatic lens diaphragm comprising an electrical measuring instrument having a pinrality of moving coils having axes parallel to the lens axis, a plurality of shafts parallel to the lens axis, a diaphragm blade carried by each coil and each shaft, and means connecting said coils to each other and to said blades for simultaneous angular displacement thereof; said means comprising an operating member on each coil and each shaft, and filaments extending between and anchored to adjacent operating members.
13. An automatic lens diaphragm comprising an electrical measuring instrument having a plurality of moving coils having axes parallel to the lens axis, a plurality of shafts parallel to the lens axis, a diaphragm blade carried by each coil and each shaft, a pulley on each coil and each shaft, and resilient filaments extending between and secured to adjacent pulleys.
14. An automatic lens diaphragm comprising an instrmnent having two coils on axes parallel to and symmetrically arranged with respect to the lens axis, a pair of shafts parallel to the lens axis and symmetrically arranged with respect to the lens axis and the coils, a diaphragm blade carried by each coil and each shaft, a pulley carried by each coil and each shaft, and resilient filaments extending between and secured to adjacent pulleys.
we mmmnn 'ronnrns.
US244704A 1938-12-08 1938-12-08 Camera diaphragm Expired - Lifetime US2209639A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US244704A US2209639A (en) 1938-12-08 1938-12-08 Camera diaphragm

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US244704A US2209639A (en) 1938-12-08 1938-12-08 Camera diaphragm

Publications (1)

Publication Number Publication Date
US2209639A true US2209639A (en) 1940-07-30

Family

ID=22923797

Family Applications (1)

Application Number Title Priority Date Filing Date
US244704A Expired - Lifetime US2209639A (en) 1938-12-08 1938-12-08 Camera diaphragm

Country Status (1)

Country Link
US (1) US2209639A (en)

Cited By (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2551085A (en) * 1946-03-12 1951-05-01 Walter H Bach Motion-picture camera reflex view finder
US2858754A (en) * 1957-08-13 1958-11-04 Bell & Howell Co Exposure control for photographic cameras
DE1043801B (en) * 1955-05-17 1958-11-13 Paul Hobruecker Automatic aperture control for photographic, cinematographic or television recording devices
US2917982A (en) * 1955-03-07 1959-12-22 Paul S Martin Camera shutters
US2956492A (en) * 1956-06-06 1960-10-18 Flight Res Inc Photoelectrically controlled devices
US2999446A (en) * 1958-01-25 1961-09-12 Gossen & Co Gmbh P Automatic iris control and indicating unit for cameras
DE1117381B (en) * 1957-08-31 1961-11-16 Gossen & Co Gmbh P Camera with exposure controller
US3045575A (en) * 1958-10-23 1962-07-24 Yashica Co Ltd Automatic camera diaphragm
US3060821A (en) * 1958-03-27 1962-10-30 Polaroid Corp Photographic device
US3072035A (en) * 1959-06-03 1963-01-08 Eastman Kodak Co Automatic exposure control for photographic cameras
DE1166613B (en) * 1958-07-14 1964-03-26 Minnesota Mining & Mfg Automatic aperture regulator for photographic devices
DE1188931B (en) * 1957-06-22 1965-03-11 Agfa Ag Photoelectric device for the automatic control of a diaphragm arranged in the objective beam path of a photographic device
DE1190328B (en) * 1958-03-27 1965-04-01 Polaroid Corp Photographic shutter with a partially coverable opening

Cited By (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2551085A (en) * 1946-03-12 1951-05-01 Walter H Bach Motion-picture camera reflex view finder
US2917982A (en) * 1955-03-07 1959-12-22 Paul S Martin Camera shutters
DE1043801B (en) * 1955-05-17 1958-11-13 Paul Hobruecker Automatic aperture control for photographic, cinematographic or television recording devices
US2956492A (en) * 1956-06-06 1960-10-18 Flight Res Inc Photoelectrically controlled devices
DE1188931B (en) * 1957-06-22 1965-03-11 Agfa Ag Photoelectric device for the automatic control of a diaphragm arranged in the objective beam path of a photographic device
US2858754A (en) * 1957-08-13 1958-11-04 Bell & Howell Co Exposure control for photographic cameras
DE1117381B (en) * 1957-08-31 1961-11-16 Gossen & Co Gmbh P Camera with exposure controller
US2999446A (en) * 1958-01-25 1961-09-12 Gossen & Co Gmbh P Automatic iris control and indicating unit for cameras
US3060821A (en) * 1958-03-27 1962-10-30 Polaroid Corp Photographic device
DE1190328B (en) * 1958-03-27 1965-04-01 Polaroid Corp Photographic shutter with a partially coverable opening
DE1166613B (en) * 1958-07-14 1964-03-26 Minnesota Mining & Mfg Automatic aperture regulator for photographic devices
US3045575A (en) * 1958-10-23 1962-07-24 Yashica Co Ltd Automatic camera diaphragm
US3072035A (en) * 1959-06-03 1963-01-08 Eastman Kodak Co Automatic exposure control for photographic cameras

Similar Documents

Publication Publication Date Title
US2209639A (en) Camera diaphragm
US3082674A (en) Automatic exposure mechanism with magnetic control of iris blades
US3051001A (en) Room thermostat
US2163737A (en) Automatic diaphragm working by means of a photoelectric cell, a light-sensitive element, or the like
US2948887A (en) Pressure responsive instrument
US2956492A (en) Photoelectrically controlled devices
US3572906A (en) Automatic electroresponsive light regulator utilizing translational drive motor
US2600476A (en) Coercing means for gyroscopes
US3227056A (en) Battery testing device
US3183808A (en) System for automatically controlling diaphragm for photographic camera
US2685064A (en) Electrical measuring and indicating system
US1849831A (en) Apparatus for measuring irregularity of movement
US3349682A (en) One-piece exposure-controlling structure
US1729320A (en) Instrument for measuring electric currents
US3177789A (en) Diaphragm control arrangement
US2995996A (en) Automatic exposure control for photographic cameras
US3205569A (en) Method of fabricating a photographic aperture regulating device
US2552296A (en) Constant speed apparatus
US2865001A (en) Electrical measuring instrument
US2211493A (en) Variable resistor
US2295960A (en) Measuring and control apparatus
US2883634A (en) Limit stops for rotatable inductive electro-mechanical devices
US2355237A (en) Electromagnetic device
US1764363A (en) Electrical measuring instrument
US3250996A (en) Extended scale electrical meter with motion multiplying flexible coupling