US2158903A - Photo-printing apparatus - Google Patents
Photo-printing apparatus Download PDFInfo
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- US2158903A US2158903A US185879A US18587938A US2158903A US 2158903 A US2158903 A US 2158903A US 185879 A US185879 A US 185879A US 18587938 A US18587938 A US 18587938A US 2158903 A US2158903 A US 2158903A
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- switch
- cell
- printing
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- tube
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- 239000000615 nonconductor Substances 0.000 description 4
- 239000004020 conductor Substances 0.000 description 3
- 239000011521 glass Substances 0.000 description 3
- 238000002508 contact lithography Methods 0.000 description 2
- 230000000994 depressogenic effect Effects 0.000 description 2
- 230000004313 glare Effects 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
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- G—PHYSICS
- G03—PHOTOGRAPHY; CINEMATOGRAPHY; ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ELECTROGRAPHY; HOLOGRAPHY
- G03B—APPARATUS 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
- G03B27/00—Photographic printing apparatus
- G03B27/72—Controlling or varying light intensity, spectral composition, or exposure time in photographic printing apparatus
- G03B27/80—Controlling or varying light intensity, spectral composition, or exposure time in photographic printing apparatus in dependence upon automatic analysis of the original
Definitions
- This invention relates to an improved photo printing apparatus constructed and arranged automatically to make prints from negatives by either contact or projection printing. I am aware that mechanism of this nature and for this purpose has been suggested heretofore, and the primary object of my invention is to produce such an improved apparatus which will function more accurately and successfully than like apparatuses heretofore known and which will produce superior results with greater efflciency.
- the invention contemplates the employment of a light sensitive cell in combination with a thyratron tube and electric storage means, the tube preferably being of the gas-filled thermionic type adapted to change instantly from a nonconductor to a conductor at a definite grid voltage and the electric storage means preferably being a plurality of condensers of varying capacities. Also cooperating with the tube and condensers are preferably a plurality of potentiometers serving to regulate the charging of the condensers.
- the employment 01 these various elements in a novel manner and in cooperation with switches and corresponding mechanism, all as hereinafter more specifically described, provides a substantially automatic photo-printing apparatus capable of producing a superior product at a very substantially greater efficiency than has been heretofore possible.
- FIG. 4 is a sectional view taken on line 4-4 of Fig. 2,
- Fig. 5 is a sectional view taken on line 5-5 of Fig. 4,
- Fig. 6 is a sectional detail taken on of Fig. 2,
- Fig. 7 is a sectional detail 01' the print holding mechanism
- Fig. 8 is a diagrammatic view showing the wiring circuits of the apparatus.
- Fig. 9 is a plan view of a contact printing apparatus employing the invention.
- Fig. 10 is a sectional view taken on line Ill-I0 of Fig. 9, and
- Fig. 11 is a like view taken on line I Ill of Fig. 9.
- l0 indicates a post mounted on a base H and carrying the projection printing apparatus illustrated herein and comprising my invention.
- the negative support and the light projecting means cooperating therewith are carried by a bracket l2 secured to the post.
- the printing paper support and cooperating mechanism are carried by a bracket H on the post.
- the light sensitive cell and cooperating circuit and parts are carried in a housing I5 supported by a bracket IS on the post.
- a transparent plate i8 is arranged to receive and support the photographic negative l9 and a hold-down member 20 carrying a transparent plate 2
- the printing lamp 26 is mounted in a housing 28 on the bracket l2 and the light is directed therefrom through a lens 29 onto a mirror 30 and from thence upwardly through a lens 32, the negative IS, a lens 33, a glass plate 34 set at an angle of 45 degrees, and then through the transparent support 35 onto the printing paper 36.
- the operator is protected from the glare of the lamp by a shield 31 pivoted at 33.
- the printing paper support 35 is carried on the bracket ll which bracket also carries an arm 39 pivoted thereto at 40.
- a foot II On the forward end of the arm is a foot II for engaging the printing paper and holding it against the support 35.
- a link 42 connects the arm to a piston 43 operating within a cylinder 44.
- the cylinder is supported on a vertical post 46 carried by the bracket [4.
- a spring 41 normally swings the arm downwardly and the piston and arm are adapted to be moved upwardly by the pressure of air from a pipe 48.
- Air pressure to the pipe 48 is controlled by a valve comprising a plunger 50 hung froma key 52 pivoted at its rear end 53, the plunger being slidable within a cylinder 54.
- An electro-magnet 55 mounted on the support 55 beneath the key and cooperating with an armature 5'17 carried by the key is adapted when energized to hold the key down to the position of Figs. 4 and 8 wherein air pressure from a supply pipe 58 is conducted to the cylinder to force the piston upwardly.
- a spring 60 serves normally to raise the key 52 upwardly to a position wherein the pipe is connected with an exhaust port ii i.
- the glass plate 35 is mounted within a tube 62 projected outwardly from the housing [15 and its function is to reflect a portion of the light passing through the negative through a condensing lens 54 and onto a photo-electric cell (55 in the housing iii.
- a shutter 55 pivoted at to is normally held in the light beam beneath the plate 34 by a spring it, the shutter being pivoted out of the beam when a solenoid coil l8 cooperating therewith is energized.
- the sole source of power supply for the apparatus is the lilo volt line M.
- This power supply operating through the transformer l5 and rectifier tube l6 gives about 400 volts D. C. across the 16 microfarad condenser '58.
- a drop wire is connected across this condenser consisting of a resistance 50 and three potentiometer-s 90, 9i and 92.
- Power for the filament of a thyratron tube 82 is taken from the transformer at a secondary coil 84.
- the apparatus as illustrated employs three condensers 86, 81 and 88 of different capacities for respective varying the time of printing exposure, and cooperating with these condensers are the three potentiometers 90, 9
- the condensers are connected to the grid of the tube 82 at 93 and respectively to three terminals 94 with which cooperates a switch pole 95.
- a wire 96 connects this switch pole to a tap on the secondary 84.
- and 92 are connected to the source of electrical supply from the tube 16 and the condenser I8, and three adjustable taps 98 thereto connect with three terminals I with which cooperates a switch pole IOI.
- a wire I03 connects this switch pole with one side of a normally closed switch I05. The other side of this switch is-connected by a wire I01 to the wire 83.
- the cell 65 is connected to the grid of the tube 82 and to the resistance 80.
- the electro-magnet 55 is under the control of a normally closed switch I09.
- normally open switch III The circuit from the lower terminal of 2.
- normally closed switch I I passes through two electromagnets H1 and H9 and to the plate of the tube 82.
- the electromagnets Ill and H9 are adapted respectively when energized to open the switches I09 and H3.
- the switches I05, III and H5 are arranged to be automatically operated from a rod I2I connected to one end I23 of the pivoted arm 39 the aisaooa rod carrying three laterally extending lugs i25, Hi and H29 cooperating with the switches for this purpose. While the switch poles 95 and EM may be operated independently if desired, it is more convenient that they shall be connected to a single operating knob l3l, it being understood that these poles are insulated from each other.
- the switch mechanism operated by this knob may be mounted in any place convenient to the operator as in a box H33 on the arm 52.
- the operation of the apparatus is substantially as follows: The operator first adjusts the taps 98 respectively to positions on the potentiometers suitable to compensate for the grade of printing paper which is to be used, these taps usuallybeing adjusted only when a new or different batch of paper is to be employed, it being understood that the grade or speed of the same paper may vary in different batches. The operator then sets the double-pole switch Hi to cut into the circuit 9? the condenser tii8il which is most suitable for the grade or speed of paper being used and simultaneously therewith to place the correspending potentiometer in the circuit.
- the operator depresses the key 52 from its inoperative position shown in broken lines in Fig. 8, to the operative position, shown in full lines, the electro-magnet 55 thereupon serving to hold the key thus depressed.
- Air pressure thereupon passes through the pipe 48 and swings the arm 49 to the position shown in Figs. 1 and 8.
- the rod I2I thereupon serves to open switch I05 and close switches III and H5. Opening of the switch I05 disconnects the biasing circuit from the potentiometer selected to the grid of tube 82. Closing of the switch III causes the main lamp 28 to operate and energize the solenoid I2 whereupon withdrawing the shutter from the path of the light beam received from the nega tive.
- the tube is of the gas-filled thermionic type which is a non-conductor until it reaches a definite grid voltage and no current will therefore immediately pass through this closed circuit.
- the glass plate 34 reflects onto the photoelectric cell 65 a definite portion of the light received from the negative and this cell thereupon allows current to flow to the selected condenser in proportion to the light thus received, whereby the voltage across the condenser is drawn down from the original negative value to which it was set.
- this voltage reaches the value of about minus 1 volt
- the tube 82 starts to conduct current through the electro-magnets Ill and H9, which thereupon open the switches H3 and H1.
- the spring I0 thereupon closes the shutter and the spring 60 raises the key 52 to its inoperative position.
- the pipe 48 Upon upward movement of the key 52, the pipe 48 is placed in communication with the exhaust port BI and the arm 39 is swung counter-clockwise under the action of the spring 41.
- the rod I2I thereupon closes the switch I05 and opens the switches III and H5. Closing of the switch I05 again cuts in the biasing circuit. Opening of the switch III throws off the lamp 25 and breaks the circuit to the solenoid 12. Opening of the switch I I5 breaks the circuit through the electro-magnets III and H9, it being noted that the switch III is opened and the switch I05 is closed slightly prior to the opening of the switch II5.
- Opening of the switch II5 opens the circuit to the plate of the tube 82 and permits switches I09 and Hi to close, whereupon the electro-magnet 55 is again energized and the circuit to the solenoid I2 will be closed upon subsequent closing of the switch III.
- -Thus opening of the switch I I5 stops the tube 02 from conducting and such tube will not again start conducting until it again reaches a definite grid voltage.
- the condensers 0008 are of fixed values approximately in such a ratio ascorresponds to the necessary timing for three grades of printing paper.
- the potentiometers -92 allow adjustment independently for each grade of paper to give the proper speed and the more negative the C bias is made the longer is the resulting exposure time.
- Figs. 9-11 I have illustrated my invention as adapted to contact printing.
- the negative and printing paper are supported in contact with each other 'on a transparent plate I40 inset on a support I42.
- Fixed to a shaft I43 on this support is a pair of arms I44 having posts I45 carrying a frame I" having a transparent foot I48 for engagingthe print and negative.
- a hood I49 is mounted over the top surface of the foot and carries a photo-electric cell I50 therein corresponding to the cell 85.
- This pivoted unit is provided with an operating handle I52 secured to the shaft.
- a spring I53 normally holds the unit'in its raised position, indicated in broken lines in Fig. 10, 'and an ar mature I55 carried by the handle and cooperating with an electro-magnet I56 is adapted to hold the unit down after it is depressed into the down position, the electro-magnet and its operation being like the electro-magnet 55 already described.
- Switch 205, 2 and M5 corresponding respectively to the switches I05, III and H5, and cooperating with these switches are three shouldered elements I50 fixed to the shaft.
- the arrangement is such that when the unit is in its up position the switch 205 is closed and the switches 2 II and 215 are open. When the unit is in its down pos tion the switch 205 is.open and the switches 2H and 2 I5 are closed.
- a double pole switch 23I like the switch I3I, may' be mounted on the support I42 as illustrated in Fig. 9.
- the print rejects have been considerably less than 1%, and has with the light received by the cell, a plurality of variable potentiometers respectively associated with the condensers to predetermine the original voltage across the condensers, a switch for selectively associating the condensers with the cell, and means associated with the cell for terminating the printing exposure when the condenser selected is brought to a predetermined charge, variation of said original voltage by the potentiometers being adapted to vary the time period for said termination of the printing exposure.
- a light sensitive cell arranged to receive a definite portion of light passing through the negative being printed, a plurality of electric condensers respectively of different capacities arranged to be selectively associated with the cell and to have the electric charge thereof varied by the cell in accordance with the light received by the cell, a plurality of variable potentiometers, switch means for selectively associating the potentiometers with the condensers and the condensers with the cell, the association of the potentiometers with the condensers being adapted to predetermine the original voltage across the condensers, and means associated with the cell for terminating the printing exposure when the condenser selected is brought to a predetermined charge, variation of said original voltage by the potentiometers being adapted to vary the time period for said termination of the printing exposure.
- a light sensitive cell arranged to receive a definite portion of light passing through the negative being printed
- a unitary doublepole multiple-throw switch for selectively-associating the potentiometers with the condensers and the condensers with the cell, and means associated with the cell for terminating the printing exposure when the condenser selected is operative and inoperative positions and arranged in the former position to clamp a printing paper onthe support, means including an electro-magnet for holding the clamping means in operative position, a normally closed switch in the electromagnet circuit, a second electro-magnet arranged in position to open the switch, means associated with the cell for terminating the printing exposure and energizing the second electro-magnet whereby to release the holding electro-magnet when the condenser is brought to a predetermined charge, a second switch in the circuit of the second electro-magnet, and means for opening the second switch when the holding electromagnet is released.
- a condenser associated with the cell and arranged to have the electric charge thereof varied by the cell in accordance with the light received by the cell and a gas-filled thermionic tube associated with the cell and condenser and adapted to change instantly from a non-conductor to a conductor at a definite grid voltage, a support, means movable to operative and inoperative positions and arranged in the former position to clamp a printing paper on the support, means for holding the clamping means in' operative position, means including a circuit and switch therein for biasing the charge of the condenser through the tube when the switch is closed, a second switch in the circuit to the plate of the tube, means associated with the cell for releasing said holding means when the condenser is brought to a predetor-mined charge, and means operative thereupon artaeos by movement of the first-named means to
- a photo-printing apparatus employing a light sensitive cell arranged to receive a definite portion or light passing through the negative being printed, a shutter normally in the path of such light, an electromagnet for withdrawing the shutter, a condenser associated with the cell and arranged to have the electric charge thereof varied by the cell in accordance with the light received by the cell and a gas-filled thermionic tube associated with the cell and with the condenser and adapted to change instantly from a non-conductor to a conductor at a definite grid voltage, a support, means movable to operative and inoperative positions and arranged in the former position to clamp a printing paper on the support, means including an electromagnet for holding the clamping means in operative position, two normally closed switches respectively in the circuits of said electromagnets, two electromagnets arranged respectively to open said normally closed switches, a switch in circuit to the plate of the tube and through the said two electromagnets, and means associated with the cell for opening the last named switch when the condens
- a photo-printing apparatus employing a light sensitive cell arranged to receive a definite portion of light passing through a negative being printed, a plurality of electric condensers of different capacities associated with the cell and arranged to have the electric charge thereof varied by the cell in accordance with the light received by the cell and a plurality of variable potentiometers respectively associated with the condensers to predetermine the original voltage thereacross, a support, means movable to operative and inoperative positions and arranged in the former position to clamp a printing paper on the support, means for holding the clamping means in operative position, a switch for selectively associating the potentiometers with the condensers, a second switch in series circuit with the first switch, and means associated with the cell for terminating the printing exposure, releasing said holding means and closing the second switch when the condenser selected is brought to a predetermined charge.
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Description
May 16, 1939 KNQBEL 2,158,903
PHOTO-PRINTING APPARATUS Filed Jan. 20, 1938 4 Sheets-Sheet 3 fie I 11 061112;? MAX KNOBEL y 93 M. KNOBEL 2,158,903
PHOTO-PRINTING APPARATUS Filed Jan. 20, 1938 4 Sheets-Sheet 4 1a I I ,v I] r2 rd! 142 g f f g j icfilzis Inventor MAX KNoBEL Giveaways Patented May 16, 1939 PATENT OFFICE PHOTO-PRINTING APPARATUS Max Knobel, Arlington, Masa, asaignor to Block- Jones Photo 00., Inc., Dorchester, Mass., a corporation of Massachusetts Application January 20, 1938, Serial No. 185,879
8 Claims.
This invention relates to an improved photo printing apparatus constructed and arranged automatically to make prints from negatives by either contact or projection printing. I am aware that mechanism of this nature and for this purpose has been suggested heretofore, and the primary object of my invention is to produce such an improved apparatus which will function more accurately and successfully than like apparatuses heretofore known and which will produce superior results with greater efflciency.
It is well known that negatives vary in many respects requiring different grades and speeds of printing paper, different timing exposures, etc.,'
and one object of my invention is to provide an improved apparatus which will efllciently care for these varying conditions. To serve these functions, the invention contemplates the employment of a light sensitive cell in combination with a thyratron tube and electric storage means, the tube preferably being of the gas-filled thermionic type adapted to change instantly from a nonconductor to a conductor at a definite grid voltage and the electric storage means preferably being a plurality of condensers of varying capacities. Also cooperating with the tube and condensers are preferably a plurality of potentiometers serving to regulate the charging of the condensers. The employment 01 these various elements in a novel manner and in cooperation with switches and corresponding mechanism, all as hereinafter more specifically described, provides a substantially automatic photo-printing apparatus capable of producing a superior product at a very substantially greater efficiency than has been heretofore possible.
Further novel features of the invention relate to means for supporting and holding the printing paper and switch mechanism cooperating therewith and with the light sensitive cell for releasing the paper, terminating the printing exposure, charging the condenser for the next ex-' posure, etc., all oi which operations are carried Fig. 4 is a sectional view taken on line 4-4 of Fig. 2,
Fig. 5 is a sectional view taken on line 5-5 of Fig. 4,
Fig. 6 is a sectional detail taken on of Fig. 2,
Fig. 7 is a sectional detail 01' the print holding mechanism,
Fig. 8 is a diagrammatic view showing the wiring circuits of the apparatus,
Fig. 9 is a plan view of a contact printing apparatus employing the invention,
Fig. 10 is a sectional view taken on line Ill-I0 of Fig. 9, and
Fig. 11 is a like view taken on line I Ill of Fig. 9.
Referring first to Figs. 1-8 of the drawings, l0 indicates a post mounted on a base H and carrying the projection printing apparatus illustrated herein and comprising my invention. The negative support and the light projecting means cooperating therewith are carried by a bracket l2 secured to the post. The printing paper support and cooperating mechanism are carried by a bracket H on the post. The light sensitive cell and cooperating circuit and parts are carried in a housing I5 supported by a bracket IS on the post.
A transparent plate i8 is arranged to receive and support the photographic negative l9 and a hold-down member 20 carrying a transparent plate 2| for engaging the negative is pivoted to a bracket 22 at 24, an arm 25 being provided for pivoting the member 20 upwardly. The printing lamp 26 is mounted in a housing 28 on the bracket l2 and the light is directed therefrom through a lens 29 onto a mirror 30 and from thence upwardly through a lens 32, the negative IS, a lens 33, a glass plate 34 set at an angle of 45 degrees, and then through the transparent support 35 onto the printing paper 36. The operator is protected from the glare of the lamp by a shield 31 pivoted at 33.
The printing paper support 35 is carried on the bracket ll which bracket also carries an arm 39 pivoted thereto at 40. On the forward end of the arm is a foot II for engaging the printing paper and holding it against the support 35. Real-wardly of the pivot 40 a link 42 connects the arm to a piston 43 operating within a cylinder 44. The cylinder is supported on a vertical post 46 carried by the bracket [4. A spring 41 normally swings the arm downwardly and the piston and arm are adapted to be moved upwardly by the pressure of air from a pipe 48.
line 6-6 Air pressure to the pipe 48 is controlled by a valve comprising a plunger 50 hung froma key 52 pivoted at its rear end 53, the plunger being slidable within a cylinder 54. An electro-magnet 55 mounted on the support 55 beneath the key and cooperating with an armature 5'17 carried by the key is adapted when energized to hold the key down to the position of Figs. 4 and 8 wherein air pressure from a supply pipe 58 is conducted to the cylinder to force the piston upwardly. A spring 60 serves normally to raise the key 52 upwardly to a position wherein the pipe is connected with an exhaust port ii i.
The glass plate 35 is mounted within a tube 62 projected outwardly from the housing [15 and its function is to reflect a portion of the light passing through the negative through a condensing lens 54 and onto a photo-electric cell (55 in the housing iii. A shutter 55 pivoted at to is normally held in the light beam beneath the plate 34 by a spring it, the shutter being pivoted out of the beam when a solenoid coil l8 cooperating therewith is energized.
The sole source of power supply for the apparatus is the lilo volt line M. This power supply operating through the transformer l5 and rectifier tube l6 gives about 400 volts D. C. across the 16 microfarad condenser '58. A drop wire is connected across this condenser consisting of a resistance 50 and three potentiometer-s 90, 9i and 92. Power for the filament of a thyratron tube 82 is taken from the transformer at a secondary coil 84.
The apparatus as illustrated employs three condensers 86, 81 and 88 of different capacities for respective varying the time of printing exposure, and cooperating with these condensers are the three potentiometers 90, 9| and 92 each of which is individually adjustable, the potentiometers being adapted to bias the charging voltages to the condensers for the purpose of varying the time of printing exposure in accordance with the grade of printing paper used, all as hereinafter more specifically described. The condensers are connected to the grid of the tube 82 at 93 and respectively to three terminals 94 with which cooperates a switch pole 95. A wire 96 connects this switch pole to a tap on the secondary 84.
The potentiometers 90, 9| and 92 are connected to the source of electrical supply from the tube 16 and the condenser I8, and three adjustable taps 98 thereto connect with three terminals I with which cooperates a switch pole IOI. A wire I03 connects this switch pole with one side of a normally closed switch I05. The other side of this switch is-connected by a wire I01 to the wire 83. The cell 65 is connected to the grid of the tube 82 and to the resistance 80. The electro-magnet 55 is under the control of a normally closed switch I09.
The main lamp 26 and the solenoid 12, which latter serves to withdraw the shutter 66, are under the control of a normally open switch III and the portion of the circuit to the solenoid I2 passes through a normally closed switch H3. The circuit from the lower terminal of 2. normally closed switch I I passes through two electromagnets H1 and H9 and to the plate of the tube 82. The electromagnets Ill and H9 are adapted respectively when energized to open the switches I09 and H3.
The switches I05, III and H5, are arranged to be automatically operated from a rod I2I connected to one end I23 of the pivoted arm 39 the aisaooa rod carrying three laterally extending lugs i25, Hi and H29 cooperating with the switches for this purpose. While the switch poles 95 and EM may be operated independently if desired, it is more convenient that they shall be connected to a single operating knob l3l, it being understood that these poles are insulated from each other. The switch mechanism operated by this knob may be mounted in any place convenient to the operator as in a box H33 on the arm 52.
The operation of the apparatus is substantially as follows: The operator first adjusts the taps 98 respectively to positions on the potentiometers suitable to compensate for the grade of printing paper which is to be used, these taps usuallybeing adjusted only when a new or different batch of paper is to be employed, it being understood that the grade or speed of the same paper may vary in different batches. The operator then sets the double-pole switch Hi to cut into the circuit 9? the condenser tii8il which is most suitable for the grade or speed of paper being used and simultaneously therewith to place the correspending potentiometer in the circuit.
The parts are shown in the printing position in Figs. 1 and 8. With the parts in the nonprinting position, the switches H15, H19 and H3 are closed and the switches ill and H5 are open. With the parts in such non-printing position, one of the three condensers 8688 is connected between the grid and the filament of the tube 82 and the voltage across this condenser is set by the corresponding potentiometer through a circuit including switches [0| and I05.
After placing the negative and printing paper in place, the operator depresses the key 52 from its inoperative position shown in broken lines in Fig. 8, to the operative position, shown in full lines, the electro-magnet 55 thereupon serving to hold the key thus depressed. Air pressure thereupon passes through the pipe 48 and swings the arm 49 to the position shown in Figs. 1 and 8. The rod I2I thereupon serves to open switch I05 and close switches III and H5. Opening of the switch I05 disconnects the biasing circuit from the potentiometer selected to the grid of tube 82. Closing of the switch III causes the main lamp 28 to operate and energize the solenoid I2 whereupon withdrawing the shutter from the path of the light beam received from the nega tive. Closing of the switch H5 completes the circuit from the plate of the tube 82 through the electro-magnets H1 and I I9. However, the tube is of the gas-filled thermionic type which is a non-conductor until it reaches a definite grid voltage and no current will therefore immediately pass through this closed circuit.
The glass plate 34 reflects onto the photoelectric cell 65 a definite portion of the light received from the negative and this cell thereupon allows current to flow to the selected condenser in proportion to the light thus received, whereby the voltage across the condenser is drawn down from the original negative value to which it was set. When this voltage reaches the value of about minus 1 volt, the tube 82 starts to conduct current through the electro-magnets Ill and H9, which thereupon open the switches H3 and H1. The spring I0 thereupon closes the shutter and the spring 60 raises the key 52 to its inoperative position.
Upon upward movement of the key 52, the pipe 48 is placed in communication with the exhaust port BI and the arm 39 is swung counter-clockwise under the action of the spring 41. The rod I2I thereupon closes the switch I05 and opens the switches III and H5. Closing of the switch I05 again cuts in the biasing circuit. Opening of the switch III throws off the lamp 25 and breaks the circuit to the solenoid 12. Opening of the switch I I5 breaks the circuit through the electro-magnets III and H9, it being noted that the switch III is opened and the switch I05 is closed slightly prior to the opening of the switch II5. Opening of the switch II5 opens the circuit to the plate of the tube 82 and permits switches I09 and Hi to close, whereupon the electro-magnet 55 is again energized and the circuit to the solenoid I2 will be closed upon subsequent closing of the switch III. -Thus opening of the switch I I5 stops the tube 02 from conducting and such tube will not again start conducting until it again reaches a definite grid voltage.
It should be understood that the condensers 0008 are of fixed values approximately in such a ratio ascorresponds to the necessary timing for three grades of printing paper. The potentiometers -92 allow adjustment independently for each grade of paper to give the proper speed and the more negative the C bias is made the longer is the resulting exposure time. We have found it advantageous to use relatively high voltages for the charging of the condensers 05, 81 and 8B. The higher this voltage, within suitable limits, the greater the accuracy of the timing cycle and while the apparatus will work with voltages from 20 volts up to reasonably high limits, we have found it preferable to use relatively high voltages in the order of from to volts.
In Figs. 9-11, I have illustrated my invention as adapted to contact printing. In this apparatus the negative and printing paper are supported in contact with each other 'on a transparent plate I40 inset on a support I42. Fixed to a shaft I43 on this support is a pair of arms I44 having posts I45 carrying a frame I" having a transparent foot I48 for engagingthe print and negative. A hood I49 is mounted over the top surface of the foot and carries a photo-electric cell I50 therein corresponding to the cell 85. This pivoted unit is provided with an operating handle I52 secured to the shaft. A spring I53 normally holds the unit'in its raised position, indicated in broken lines in Fig. 10, 'and an ar mature I55 carried by the handle and cooperating with an electro-magnet I56 is adapted to hold the unit down after it is depressed into the down position, the electro-magnet and its operation being like the electro-magnet 55 already described.
Rearwardly'of the shaft I 45 are three switches 205, 2 and M5 corresponding respectively to the switches I05, III and H5, and cooperating with these switches are three shouldered elements I50 fixed to the shaft. The arrangement is such that when the unit is in its up position the switch 205 is closed and the switches 2 II and 215 are open. When the unit is in its down pos tion the switch 205 is.open and the switches 2H and 2 I5 are closed. A double pole switch 23I, like the switch I3I, may' be mounted on the support I42 as illustrated in Fig. 9.
This form of my invention otherwise employs the circuit and parts illustrated in Fig. 8 and the operation thereof is substantially the same as has already been described in reference to Figs. 1-8. Light from the lamp I26 passes through the combined negative and printing paper and onto the cell I50, the amount of such light reaching the cell being a definite portion of the light passing through the negative.
It will now be apparent that I have produced a photo-printing apparatus which is substantially automatic and which will perform desired printing operations from negatives with great efficiency. In fact, this apparatus, constructed in accordance with Figs. 1-8, has been in commercial use in the regular production of prints from negatives for a period of some months and during such period it has produced a substantially superior product with an operating efiiciency of better than 99%, i. e., the print rejects have been considerably less than 1%, and has with the light received by the cell, a plurality of variable potentiometers respectively associated with the condensers to predetermine the original voltage across the condensers, a switch for selectively associating the condensers with the cell, and means associated with the cell for terminating the printing exposure when the condenser selected is brought to a predetermined charge, variation of said original voltage by the potentiometers being adapted to vary the time period for said termination of the printing exposure.
2. In a photo-printing apparatus, a light sensitive cell arranged to receive a definite portion of light passing through the negative being printed, a plurality of electric condensers respectively of different capacities arranged to be selectively associated with the cell and to have the electric charge thereof varied by the cell in accordance with the light received by the cell, a plurality of variable potentiometers, switch means for selectively associating the potentiometers with the condensers and the condensers with the cell, the association of the potentiometers with the condensers being adapted to predetermine the original voltage across the condensers, and means associated with the cell for terminating the printing exposure when the condenser selected is brought to a predetermined charge, variation of said original voltage by the potentiometers being adapted to vary the time period for said termination of the printing exposure.
3. In a photo-printing apparatus, a light sensitive cell arranged to receive a definite portion of light passing through the negative being printed,
with the condensers to predetermine the original voltage across the condensers, a unitary doublepole multiple-throw switch for selectively-associating the potentiometers with the condensers and the condensers with the cell, and means associated with the cell for terminating the printing exposure when the condenser selected is operative and inoperative positions and arranged in the former position to clamp a printing paper onthe support, means including an electro-magnet for holding the clamping means in operative position, a normally closed switch in the electromagnet circuit, a second electro-magnet arranged in position to open the switch, means associated with the cell for terminating the printing exposure and energizing the second electro-magnet whereby to release the holding electro-magnet when the condenser is brought to a predetermined charge, a second switch in the circuit of the second electro-magnet, and means for opening the second switch when the holding electromagnet is released.
5. The apparatus defined in claim t wherein said second switch is normally closed and wherein said means for opening the second switch is carried by the first-named means and operates to open the second switch while the first-named means is moving to the inoperative position.
6. In a photo-printing apparatus employing a light sensitive cell arranged to receive a definite portion of light passing through the negative being printed, a condenser associated with the cell and arranged to have the electric charge thereof varied by the cell in accordance with the light received by the cell and a gas-filled thermionic tube associated with the cell and condenser and adapted to change instantly from a non-conductor to a conductor at a definite grid voltage, a support, means movable to operative and inoperative positions and arranged in the former position to clamp a printing paper on the support, means for holding the clamping means in' operative position, means including a circuit and switch therein for biasing the charge of the condenser through the tube when the switch is closed, a second switch in the circuit to the plate of the tube, means associated with the cell for releasing said holding means when the condenser is brought to a predetor-mined charge, and means operative thereupon artaeos by movement of the first-named means to termihate the printing exposure, close the first switch and open the second switch.
7. In a photo-printing apparatus employing a light sensitive cell arranged to receive a definite portion or light passing through the negative being printed, a shutter normally in the path of such light, an electromagnet for withdrawing the shutter, a condenser associated with the cell and arranged to have the electric charge thereof varied by the cell in accordance with the light received by the cell and a gas-filled thermionic tube associated with the cell and with the condenser and adapted to change instantly from a non-conductor to a conductor at a definite grid voltage, a support, means movable to operative and inoperative positions and arranged in the former position to clamp a printing paper on the support, means including an electromagnet for holding the clamping means in operative position, two normally closed switches respectively in the circuits of said electromagnets, two electromagnets arranged respectively to open said normally closed switches, a switch in circuit to the plate of the tube and through the said two electromagnets, and means associated with the cell for opening the last named switch when the condenser is brought to a predetermined charge.
8. In a photo-printing apparatus employing a light sensitive cell arranged to receive a definite portion of light passing through a negative being printed, a plurality of electric condensers of different capacities associated with the cell and arranged to have the electric charge thereof varied by the cell in accordance with the light received by the cell and a plurality of variable potentiometers respectively associated with the condensers to predetermine the original voltage thereacross, a support, means movable to operative and inoperative positions and arranged in the former position to clamp a printing paper on the support, means for holding the clamping means in operative position, a switch for selectively associating the potentiometers with the condensers, a second switch in series circuit with the first switch, and means associated with the cell for terminating the printing exposure, releasing said holding means and closing the second switch when the condenser selected is brought to a predetermined charge.
MAX KNOBEL.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US185879A US2158903A (en) | 1938-01-20 | 1938-01-20 | Photo-printing apparatus |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US185879A US2158903A (en) | 1938-01-20 | 1938-01-20 | Photo-printing apparatus |
Publications (1)
Publication Number | Publication Date |
---|---|
US2158903A true US2158903A (en) | 1939-05-16 |
Family
ID=22682796
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US185879A Expired - Lifetime US2158903A (en) | 1938-01-20 | 1938-01-20 | Photo-printing apparatus |
Country Status (1)
Country | Link |
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US (1) | US2158903A (en) |
Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2439055A (en) * | 1945-05-15 | 1948-04-06 | Verneur E Pratt | Optical system for microfilm apparatus |
US2464162A (en) * | 1945-03-21 | 1949-03-08 | Eastman Kodak Co | Automatic exposure control for photographic printers |
US2507161A (en) * | 1947-02-28 | 1950-05-09 | Eastman Kodak Co | Film gate operating mechanism |
US2614453A (en) * | 1948-07-14 | 1952-10-21 | George D Macarthur | Opacity sensing device |
US2666858A (en) * | 1951-06-06 | 1954-01-19 | Fotopak Corp | Photographic exposure control circuit |
US2669156A (en) * | 1950-04-22 | 1954-02-16 | Gerald Harold G Fitz | Image slide projector apparatus |
US3102463A (en) * | 1957-02-07 | 1963-09-03 | Agfa Ag | Photographic copying device |
US3140645A (en) * | 1957-08-05 | 1964-07-14 | Minnesota Mining & Mfg | Photoprinter timing apparatus |
US3178999A (en) * | 1961-11-02 | 1965-04-20 | Pako Corp | Compensating circuit for photographic timers |
US5392093A (en) * | 1993-01-18 | 1995-02-21 | Noritsu Koki Co., Ltd. | Photographic printing apparatus |
-
1938
- 1938-01-20 US US185879A patent/US2158903A/en not_active Expired - Lifetime
Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2464162A (en) * | 1945-03-21 | 1949-03-08 | Eastman Kodak Co | Automatic exposure control for photographic printers |
US2439055A (en) * | 1945-05-15 | 1948-04-06 | Verneur E Pratt | Optical system for microfilm apparatus |
US2507161A (en) * | 1947-02-28 | 1950-05-09 | Eastman Kodak Co | Film gate operating mechanism |
US2614453A (en) * | 1948-07-14 | 1952-10-21 | George D Macarthur | Opacity sensing device |
US2669156A (en) * | 1950-04-22 | 1954-02-16 | Gerald Harold G Fitz | Image slide projector apparatus |
US2666858A (en) * | 1951-06-06 | 1954-01-19 | Fotopak Corp | Photographic exposure control circuit |
US3102463A (en) * | 1957-02-07 | 1963-09-03 | Agfa Ag | Photographic copying device |
US3140645A (en) * | 1957-08-05 | 1964-07-14 | Minnesota Mining & Mfg | Photoprinter timing apparatus |
US3178999A (en) * | 1961-11-02 | 1965-04-20 | Pako Corp | Compensating circuit for photographic timers |
US5392093A (en) * | 1993-01-18 | 1995-02-21 | Noritsu Koki Co., Ltd. | Photographic printing apparatus |
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