US1800903A - Incandescent lamp - Google Patents

Incandescent lamp Download PDF

Info

Publication number
US1800903A
US1800903A US351187A US35118729A US1800903A US 1800903 A US1800903 A US 1800903A US 351187 A US351187 A US 351187A US 35118729 A US35118729 A US 35118729A US 1800903 A US1800903 A US 1800903A
Authority
US
United States
Prior art keywords
filament
lamp
auxiliary
main
light
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
US351187A
Inventor
Ramsey Ernest Glen
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.)
AT&T Corp
Original Assignee
Western Electric Co Inc
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 Western Electric Co Inc filed Critical Western Electric Co Inc
Priority to US351187A priority Critical patent/US1800903A/en
Application granted granted Critical
Publication of US1800903A publication Critical patent/US1800903A/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
    • G03B21/00Projectors or projection-type viewers; Accessories therefor
    • G03B21/14Details
    • G03B21/20Lamp housings
    • G03B21/2006Lamp housings characterised by the light source
    • G03B21/2013Plural light sources
    • 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
    • G03B21/00Projectors or projection-type viewers; Accessories therefor
    • G03B21/14Details
    • G03B21/20Lamp housings
    • G03B21/2006Lamp housings characterised by the light source
    • G03B21/202Incandescent light sources

Definitions

  • This invention relates to incandescent lamps, and more particularly to a lamp unit for picture projecting apparatus.
  • the principal object of the present inven tion is to provide an incandescent lamp unit responsive automatically to predetermined conditions for insuring a continuous operation thereof.
  • One embodiment of the invention contemplates the provision of a lamp unit, particularly for use with sound picture projectors, wherein an auxiliary filament, preferably of the ribbon. type, is rendered eliective upon the failure of the main filament also of the ribbon type, whereupon a relay in series with the main filament releases to establish an energizing circuit to operate an electromagnet for changing the position of the lamp to focus properly the auxiliary filament.
  • a warning lamp also is lighted when the main filament burns out to indicate the actual condition to the operator.
  • FIG. 1 is a schematic'view of one-embodiment of the invention showing the lamp unit ZISSOOlfltGd with a sound projector system, an
  • Fig. 2 is a horizontal sectional view taken on line 2-2 of Fig. 1, disclosing the lamp supporting structure.
  • the numeral 10 designates a lamp unit comprising an incandescent lamp 11 suitably mounted in a to socket 12 and having a main and auxiliary tensity is caused to fallv upon a photoelectric filament '13 and 14, respectively, preferably of the ribbon type to prevent sagging.
  • the socket 12 is secured to a metallic plate 15, composed of any suitable magnetic material, which is slidably mounted on three rods 1616 spaced one hundred and twenty degrees apart, the lower ends of the rods being threaded into a bracket 17.
  • coil springs 2020 Surrounding the rods 16 and interposed between the plate 15 and the bracket 17 are coil springs 2020 for maintaining the plate 15 and lamp 11 in their uppermost position, as controlled by adjusting nuts 1818 threaded on the upper ends of the rods 16.
  • an electromagnet 21 Mounted centrally of the bracket 17 is an electromagnet 21, the upper spool head 22 of which is provided with adjustable screws 2323 for regulating the distance through which the plate 15 will be permitted to travel downward.
  • the bracket 17 is provided with an upwardly extending portion 25 slidably mounted in a guide 26 having a screw 27, so that by turning this screw the bracket can be moved vertically.
  • the guide 26 in turn is slidably mounted in another guide 28 having an adjustable screw 29 for moving the bracket in a horizontal direction.
  • the lamp is provided with an adjustable feature to permit the main filament to be properly focused in projecting a beam of light through condensing lenses 3535, objective lenses 36-36, and through a striated sound track 37 of varying density at one side of a picture film 38 whereby the narrow light beam of high incell 39 which is electrically connected to a sound reproducer unit 40 through athermionic vacuum tube amplifier 41.
  • the main filament 13 of the lamp 11 is connected in series with a non-inductive resistance 45 and the winding of a low resistance relay 46, so that upon failure of the main filament, the winding of the relay 46 is deenergized to establish operating circuits for the auxiliary filament 14, a warning lamp 48, and the electromagnet 21 to attract the metallic plate 15 against the compression of the springs 20-20 thus to bring the light producing auxiliary filament into focus with the lenses and the striated sound track 37 of the film 38.
  • the main and auxiliary tive resistance 45, conductor 54, main filament 13, conductor 55, and conductor 56 are connected in series with a non-inductive resistance 45 and the winding of a low resistance relay 46, so that upon failure of the main filament, the winding of the relay 46 is deenergized to establish operating circuits for the auxiliary filament 14, a warning lamp 48, and the electromagnet 21 to attract the metallic plate 15 against the compression of the springs 20-20 thus to bring the light producing auxiliary filament into focus with the lenses and the striated sound track 37 of the film 38
  • the incandescent filament 13 is then focused by means of the adjusting screws 27 and 29 until a narrow beam of light of high intensity passes through the sound track 37 in the film 38 into the photoelectric cell 39.
  • the varying density of the striated sound track interposed between the exciting lamp 11 and the photoelectric cell causes variations in the intensity of the light beam passing into the photoelectric cell thereby to vary its resistance.
  • the character of the photoelectric cell is such that when it is polarized by a proper voltage from the amplifier unit 41, the current through the photoelectric cell is proportional to the incident light in the striated sound track. This variable current produced by the incident light is received and amplified by the amplifier unit 41 for the sound reproducer unit where the current is transformed into sound.
  • Lamp. 48 is thus operated to signal the operator that the auxiliary filament of the lamp 11 is in operation so that, if necessary, the operator may make more minute adjustments with the screws 27 and '29 better to focus the beam of light upon-the film.
  • a lamp having a main filament, an auxiliary filament therefor, and means responsive to the failure of the main filament for automatically and simultaneously focusing and rendering the auxiliary filament effective.
  • an incandescent lamp having a plurality of independent filaments oifset from each other, and an electromagnetic means responsive to the failure of one of the filaments for automatically focusing another of the filaments and simultaneously rendering the other filament effective.
  • an electric lamp having a mainfilament, an auxiliary filament spaced vertically therefrom, an elec tromagnetic means responsive to the failure of one ofthe filaments for automatically focusing the auxiliary filament and simultaneously rendering the other filament effective.
  • an incandescent lamp having a main filament, an auxiliary filament therefor, means for maintaining the main filament in a predetermined focusing position, and means responsive to a failure of the main filament for rendering 'the main filament maintaining means ineffective and for simultaneously therewith automatically moving the lamp to bring the auxiliary filament into focusing position.
  • an incandescent lamp having a main filament, an auxiliary filament therefor, resilient means for retaining the main filament in a predtermined focusing position, and electromagnetic means for overcoming the resilient means and for automatically moving the lamp to bring the auxiliary filament into focusing posltion upon failure of the main filament.
  • an lncandescent lamp having a main filament, an auxiliary filament therefor, an electromagnetic means for automatically moving the lamp to bring the auxiliary filament into a focusing position, and adjustable"means operatively associated with the electromagnetic means for re lating the travel of the lamp.
  • a main filament In a projecting apparatus, a main filament, an auxiliary filament, means responsive upon a predetermined condition for auto matically focusing and rendering the auxiliary filament effective, and means efiective when said main filament is operative for insuring the same intensity of illumination as when said auxiliary filament is energized.
  • an incandescent lamp having a main filament, an auxiliary filament therefor, a magnetic member for supporting the lamp, means for positioning the main filament in a predetermined focusing position, an electromagnet, means for effecting the energization of the electromagnet upon failure of the main filament to move the magnetic member and the lamp to bring the auxiliary filament into a focusing position, means effective when said main filament is operative for insuring the same intensity of illumination as when said auxiliary filament is energized, and adjustable means for governing the movement of the lamp.
  • an incandescent lamp having a plurality of independent filaments offset from each other, a bracket, resilient means disposed upon said bracket for supporting said lamp, and elec tromagnetic means disposed upon said bracket and operatively connected to said resilient means for moving said lamp when one of said filaments becomes ineffective whereby another of said filaments may be made effective.
  • an incandescent lamp having a plurality of independent filaments offset from each other, a bracket, resilient means disposed upon said bracket for supporting said lamp, electromagnetic means disposed upon said bracket and operatively connected to said resilient means for moving said lamp when one of said filaments becomes ineffective whereby another of said filaments may be made effective, and means for varying the movement of said lamp.
  • an incan descent lamp having a plurality of independent filaments offset from each other, a bracket, resilient means disposed upon said bracket for supporting said lamp, electromagnetic means disposed upon said bracket and operatively connected to said resilient meansfor moving said lamp when one of said filaments becomes ineffective whereby another of said filaments maybe made effective, and means for adjustably supporting said bracket whereby said bracket and said lamp may be moved independent of the movement imparted to said lamp by said electromagnetic means.
  • a main source of light an auxiliary source of light, means responsive to the main source of light for rendering said auxiliary source of light effective, and an electromagnetic device energized when said auxiliary source of light is effective for moving said latter light source into the same focal plane as the main source of light.
  • an incandescent lamp unit a main source of light, an auxiliary source of light; means responsive to the main source of light forrendering said auxiliary source of light efiective, and means operated simultaneously with the rendering of said auxiliary source of light effective for moving it vertically into the same focal plane as the main source of light.
  • an incandescent lamp having a plurality of independent filaments ofi'set from each other in the same vertical plane, and means responsive upon a failure of one of the filaments to render automaticallyand simultaneously the other filament efiective and move the lamp vertically to have the then effective filaments in the focal plane of the projecting apparatus.
  • a lamp unit including two filaments, means responsive upon a failure of one of the filaments to render the other filament effective and simultaneously therewith bring said effective filament in the focal plane of the other filament, and means operated when said second filament is rendered effective for indicating the condition of the first filament.

Landscapes

  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Non-Portable Lighting Devices Or Systems Thereof (AREA)

Description

April M, 1931. E. G. RAMSEY 1,800,903
I NCANDES CENT LAMP Filed March 30. 1929 Patented Apr. 14, 1931 UNITED STATES PATENT OFFICE PANY, INCORPORATED, OF NEW YORK,
N. Y., A CORPORATION OF NEW YORK INOANDESCENT LAMP Application filed March 30, 1929. Serial No. 351,187.
This invention relates to incandescent lamps, and more particularly to a lamp unit for picture projecting apparatus.
In the production of cinematographic programs, it sometimes occurs that the source of light for the projector fails and there results an interruption in the continuity of the per-" formance until the burned-out lamp can be manually removed from its socket and re placed by a new one. In the case of pictures accompanied with sound, any interruption in the sound reproduction accompanying a pictorial record of events is especially disconcerting to an audience and is to be avoided. The principal object of the present inven tion is to provide an incandescent lamp unit responsive automatically to predetermined conditions for insuring a continuous operation thereof.
One embodiment of the invention contemplates the provision of a lamp unit, particularly for use with sound picture projectors, wherein an auxiliary filament, preferably of the ribbon. type, is rendered eliective upon the failure of the main filament also of the ribbon type, whereupon a relay in series with the main filament releases to establish an energizing circuit to operate an electromagnet for changing the position of the lamp to focus properly the auxiliary filament. A warning lamp also is lighted when the main filament burns out to indicate the actual condition to the operator.
It is believed that a clear understanding of the invention can be had from the following description when taken in conjunction with the accompanying drawing, in which-- Fig. 1 is a schematic'view of one-embodiment of the invention showing the lamp unit ZISSOOlfltGd with a sound projector system, an
Fig. 2 is a horizontal sectional view taken on line 2-2 of Fig. 1, disclosing the lamp supporting structure.
Referring now to the drawings wherein like reference numerals designatesimilar parts throughout the several views, the numeral 10 designates a lamp unit comprising an incandescent lamp 11 suitably mounted in a to socket 12 and having a main and auxiliary tensity is caused to fallv upon a photoelectric filament '13 and 14, respectively, preferably of the ribbon type to prevent sagging. The socket 12 is secured to a metallic plate 15, composed of any suitable magnetic material, which is slidably mounted on three rods 1616 spaced one hundred and twenty degrees apart, the lower ends of the rods being threaded into a bracket 17. Surrounding the rods 16 and interposed between the plate 15 and the bracket 17 are coil springs 2020 for maintaining the plate 15 and lamp 11 in their uppermost position, as controlled by adjusting nuts 1818 threaded on the upper ends of the rods 16. Mounted centrally of the bracket 17 is an electromagnet 21, the upper spool head 22 of which is provided with adjustable screws 2323 for regulating the distance through which the plate 15 will be permitted to travel downward.
The bracket 17 is provided with an upwardly extending portion 25 slidably mounted in a guide 26 having a screw 27, so that by turning this screw the bracket can be moved vertically. The guide 26 in turn is slidably mounted in another guide 28 having an adjustable screw 29 for moving the bracket in a horizontal direction. Thus, the lamp is provided with an adjustable feature to permit the main filament to be properly focused in projecting a beam of light through condensing lenses 3535, objective lenses 36-36, and through a striated sound track 37 of varying density at one side of a picture film 38 whereby the narrow light beam of high incell 39 which is electrically connected to a sound reproducer unit 40 through athermionic vacuum tube amplifier 41.
The main filament 13 of the lamp 11 is connected in series with a non-inductive resistance 45 and the winding of a low resistance relay 46, so that upon failure of the main filament, the winding of the relay 46 is deenergized to establish operating circuits for the auxiliary filament 14, a warning lamp 48, and the electromagnet 21 to attract the metallic plate 15 against the compression of the springs 20-20 thus to bring the light producing auxiliary filament into focus with the lenses and the striated sound track 37 of the film 38. In order that the main and auxiliary tive resistance 45, conductor 54, main filament 13, conductor 55, and conductor 56. The incandescent filament 13 is then focused by means of the adjusting screws 27 and 29 until a narrow beam of light of high intensity passes through the sound track 37 in the film 38 into the photoelectric cell 39. Upon intermittently moving the film in front of the photoelectric cell at desired speeds by any suitable mechanism (not shown) ,the varying density of the striated sound track interposed between the exciting lamp 11 and the photoelectric cell causes variations in the intensity of the light beam passing into the photoelectric cell thereby to vary its resistance.
The character of the photoelectric cell is such that when it is polarized by a proper voltage from the amplifier unit 41, the current through the photoelectric cell is proportional to the incident light in the striated sound track. This variable current produced by the incident light is received and amplified by the amplifier unit 41 for the sound reproducer unit where the current is transformed into sound.
If, during the performance, the main filament burns out, its operating circuit, hereinbefore described, is simultaneously opened, and the winding of the relay 46 is deenergized to release a contact spring 58 of the relay 46.
The release of this spring establishes an opcrating circuit for the electromagnet 21 and the auxiliary filament 14 from the source of electrical energy (not shown), through conductor 50, conductor 60, contact spring 58, conductors 61-62, the winding of the electromagnet 21, conductor 63, auxiliary filament 14, and conductors 55-56 to the source of electrical energy. Energization of the electromagnet 21 effects the attraction of the plate 15 to compress the springs 20 and move the plate into engagement with the adjustable screws 23, whereby the now incandescent, auxiliary filament 14 is brought into position to focus a beam of light upon the film wlthout any interruption in the performance. Simultaneously with the movement of the auxiliary filament into'position, an operating circuit for the warning lamp 48 is established from the source of electrical energy through conductor 50, conductor 60, contact spring 58,
conductor 61, the filament of the lamp 48-, and conductor 56 to the source of electrical energy. Lamp. 48 is thus operated to signal the operator that the auxiliary filament of the lamp 11 is in operation so that, if necessary, the operator may make more minute adjustments with the screws 27 and '29 better to focus the beam of light upon-the film.
Although the invention as herein described and illustrated is particularly well adapted for use with the production of sound pictures, it will be understood that the inven' tion is capable of many other modifications and applications without departing from the spirit and scope of the invention as defined by the appended claims.
' What is claimed is:
1. In an incandescent lamp unit, a lamp having a main filament, an auxiliary filament therefor, and means responsive to the failure of the main filament for automatically and simultaneously focusing and rendering the auxiliary filament effective.
2. In a projecting apparatus, an incandescent lamp having a plurality of independent filaments oifset from each other, and an electromagnetic means responsive to the failure of one of the filaments for automatically focusing another of the filaments and simultaneously rendering the other filament effective.
3. In a projecting apparatus, an electric lamp having a mainfilament, an auxiliary filament spaced vertically therefrom, an elec tromagnetic means responsive to the failure of one ofthe filaments for automatically focusing the auxiliary filament and simultaneously rendering the other filament effective.
4. In a projecting apparatus, an incandescent lamp having a main filament, an auxiliary filament therefor, means for maintaining the main filament in a predetermined focusing position, and means responsive to a failure of the main filament for rendering 'the main filament maintaining means ineffective and for simultaneously therewith automatically moving the lamp to bring the auxiliary filament into focusing position.
5. In a projecting apparatus, an incandescent lamp having a main filament, an auxiliary filament therefor, resilient means for retaining the main filament in a predtermined focusing position, and electromagnetic means for overcoming the resilient means and for automatically moving the lamp to bring the auxiliary filament into focusing posltion upon failure of the main filament.
6. In a projecting apparatus, an lncandescent lamp having a main filament, an auxiliary filament therefor, an electromagnetic means for automatically moving the lamp to bring the auxiliary filament into a focusing position, and adjustable"means operatively associated with the electromagnetic means for re lating the travel of the lamp.
In a projecting apparatus, a main filament, an auxiliary filament, means responsive upon a predetermined condition for auto matically focusing and rendering the auxiliary filament effective, and means efiective when said main filament is operative for insuring the same intensity of illumination as when said auxiliary filament is energized.
8. In a projecting apparatus, an incandescent lamp having a main filament, an auxiliary filament therefor, a magnetic member for supporting the lamp, means for positioning the main filament in a predetermined focusing position, an electromagnet, means for effecting the energization of the electromagnet upon failure of the main filament to move the magnetic member and the lamp to bring the auxiliary filament into a focusing position, means effective when said main filament is operative for insuring the same intensity of illumination as when said auxiliary filament is energized, and adjustable means for governing the movement of the lamp.
9. In a projecting apparatus, an incandescent lamp having a plurality of independent filaments offset from each other, a bracket, resilient means disposed upon said bracket for supporting said lamp, and elec tromagnetic means disposed upon said bracket and operatively connected to said resilient means for moving said lamp when one of said filaments becomes ineffective whereby another of said filaments may be made effective.
10, In a projecting apparatus, an incandescent lamp having a plurality of independent filaments offset from each other, a bracket, resilient means disposed upon said bracket for supporting said lamp, electromagnetic means disposed upon said bracket and operatively connected to said resilient means for moving said lamp when one of said filaments becomes ineffective whereby another of said filaments may be made effective, and means for varying the movement of said lamp.
11. In a projecting apparatus, an incan descent lamp having a plurality of independent filaments offset from each other, a bracket, resilient means disposed upon said bracket for supporting said lamp, electromagnetic means disposed upon said bracket and operatively connected to said resilient meansfor moving said lamp when one of said filaments becomes ineffective whereby another of said filaments maybe made effective, and means for adjustably supporting said bracket whereby said bracket and said lamp may be moved independent of the movement imparted to said lamp by said electromagnetic means.
12. In an incandescent lamp unit, a mainsource into the same focal plane as the main source of light.
13. In an incandescent lamp unit, a main source of light, an auxiliary source of light, means responsive to the main source of light for rendering said auxiliary source of light effective, and an electromagnetic device energized when said auxiliary source of light is effective for moving said latter light source into the same focal plane as the main source of light.
14. Im an incandescent lamp unit, a main source of light, an auxiliary source of light; means responsive to the main source of light forrendering said auxiliary source of light efiective, and means operated simultaneously with the rendering of said auxiliary source of light effective for moving it vertically into the same focal plane as the main source of light. 1
15. In a projecting apparatus, an incandescent lamp having a plurality of independent filaments ofi'set from each other in the same vertical plane, and means responsive upon a failure of one of the filaments to render automaticallyand simultaneously the other filament efiective and move the lamp vertically to have the then effective filaments in the focal plane of the projecting apparatus.
16. In a projecting apparatus, a lamp unit including two filaments, means responsive upon a failure of one of the filaments to render the other filament effective and simultaneously therewith bring said effective filament in the focal plane of the other filament, and means operated when said second filament is rendered effective for indicating the condition of the first filament.
In witness whereof, I hereunto subscribe my name this 22nd day of March, A..D. 1929.
' ERNEST GLEN RAMSEY.
US351187A 1929-03-30 1929-03-30 Incandescent lamp Expired - Lifetime US1800903A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US351187A US1800903A (en) 1929-03-30 1929-03-30 Incandescent lamp

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US351187A US1800903A (en) 1929-03-30 1929-03-30 Incandescent lamp

Publications (1)

Publication Number Publication Date
US1800903A true US1800903A (en) 1931-04-14

Family

ID=23379930

Family Applications (1)

Application Number Title Priority Date Filing Date
US351187A Expired - Lifetime US1800903A (en) 1929-03-30 1929-03-30 Incandescent lamp

Country Status (1)

Country Link
US (1) US1800903A (en)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2557531A (en) * 1946-10-11 1951-06-19 Ovila J Blanchet Traffic signal apparatus
US2723113A (en) * 1949-05-11 1955-11-08 Hobart Mfg Co Scale
US3148016A (en) * 1962-04-12 1964-09-08 Century Electronics And Instr Oscillograph recording improvement utilizing dual filament lamps
US3319115A (en) * 1964-11-04 1967-05-09 William T Smith Standby circuit using a two filament incandescent lamp to maintain approximately thesame light output

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2557531A (en) * 1946-10-11 1951-06-19 Ovila J Blanchet Traffic signal apparatus
US2723113A (en) * 1949-05-11 1955-11-08 Hobart Mfg Co Scale
US3148016A (en) * 1962-04-12 1964-09-08 Century Electronics And Instr Oscillograph recording improvement utilizing dual filament lamps
US3319115A (en) * 1964-11-04 1967-05-09 William T Smith Standby circuit using a two filament incandescent lamp to maintain approximately thesame light output

Similar Documents

Publication Publication Date Title
US1800903A (en) Incandescent lamp
US2668474A (en) Photographic printing apparatus
US3060796A (en) Photographic copying apparatus
US1338818A (en) Optical apparatus and method of operating the same
US3190174A (en) Slide-actuate switch for photographic projector
US2256965A (en) Remote control for camera shutters
US2936672A (en) Automatic recycling slide projector
US1971457A (en) Optical system
US2136237A (en) Method and apparatus for prefocusing lamps
US2081015A (en) Automatic change-over
US1896768A (en) Photographic sound recording
US1828328A (en) Photographic device
US2247809A (en) Synchronizing apparatus
US2928316A (en) Stereoscopic slide projector
US1592455A (en) Flash-light mechanism
US2422077A (en) Camera shutter system
US2093215A (en) Method and device for recording oscillations
US2200483A (en) Twin arc lamp
US1199046A (en) Automatic relay for electric regulators.
US3282151A (en) Projection apparatus
US1803590A (en) Flasher
US2291947A (en) Regulation of arc lamps
US1830537A (en) Lamp support for projection machines
US2144526A (en) Beam changer for incandescent searchlights
US2127341A (en) Relay