PL7115B1 - Self-acting camera for photographic pictures. - Google Patents

Description

The present invention relates to an automatic photographic apparatus for the removal, i.e. exposure and finishing, of a series of photos showing a person posing in a number of different positions. This apparatus is set in motion by throwing in a suitable coin, and the ribbon of photosensitive material moves progressively through the camera as the shutter opens, the exposed piece of ribbon is cut and caught by the feeding mechanism which pulls it successively through a developer bath, a washing bath and a fixative bath, and finally a dryer. Finally, the dried and finished ribbon pops out of the device in the form of a ready-made series of photographs. In the accompanying drawing, Fig. 1 shows, partially schematically, a side view of the apparatus, Fig. 2 is a vertical section of the trays and dryers, Figs. 3 and 4 - perspective views of some parts of the apparatus, Fig. 5 - side view of the feeding plate with edges, intended for the tray and supporting some of the feeding rollers, Fig. 6 - vertical section of the entire feeding device for one of the trims, Fig. 7 is a front view of this feed device, Fig. 8 is a top view of the feed device shown in Fig. 7, Fig. 9 - a cross section along line 9-9 in Fig. 6, Fig. 10 - cross section along line 10-10 in Fig. 6, Fig. 11 - view of the slope of the camera shutter and the mechanism moving the film strip, Fig. 12 - vertical section of these, Fig. 13 - partial view, showing the mechanism of the ribbon cutting knife, fig. 14 - electric top view the clutch mechanism for moving the camera, Fig. 15 is a schematic view showing the various parts of the device with a diagram of the wires, and Fig. 16 is a partially schematic perspective view of some parts of the electric switch. 1 shows a camera A, a beam B, a coil C made of a ribbon of light-sensitive paper or other material C *, a tray D through which the ribbon passes into the chamber E containing developing and washing trays and others, the drive motor F; G chain driving the camera, H chain driving the device moving the web through the tubs, tanks with the belt of the necessary solutions J, L tubes connecting the tanks J with the tubs into the chamber E, the dryer chamber M, into which the ribbon enters after lowering the tubs, the blower N connected to the drying chamber, solenoid O to move the cutting mechanism, P clutch, device R to illuminate the poseur, S stool for her, T conduit returning the coin thrown to the switch set in motion by the coin, mechanism U closing the slot for inserting the coin for the duration of the operation of the apparatus. After inserting the coin into the conductor T, it falls downwards so that one of its edges touches the vertical plate 1 (Fig. 15), and the opposite edge presses the spring 2 forward, the contact of which 2 * makes contact with contact 3, which creates an electric circuit consisting of a negative conductor 4 and a positive conductor 5 with magnetic switches Ax and B *. Switch A * then closes the circuit formed by the conductors 6 and 7 leading to the motor 8, which begins to rotate the roller 9 connected by the thread 10 of the screw 11 and the roller 12 with the chain wheel 13, mounted idly on the roller 12, and connected by the chain G to the wheel 15 moving the camera (fig. 11). The switch Bx completes the circuit supplying the magnets 16, 16 *, which are pulled by the levers 17, moving the pulley 13 so that its teeth engage with the teeth of the chain pulley 15 (Fig. 15) fixed on the roller 12, so that the chain on The pedal G starts to move the camera mechanism. The pulley 15 is connected by a chain H to a pulley 18 that drives the tub support device, which will be referred to below. The switch Bx also completes the circuit formed by the positive conductors 5, 5X and the negative conductor 19 and passing through lamps 20 intended to illuminate the poseur. This circuit is closed immediately after coupling the chain wheel 13 moving the camera with a roller 12. The device for moving the ribbed Cx (Fig. 12) through the camera includes two soft rollers W having two segment projections, while the segment of one roller coincides with section of the second, while entering into a direct contact with the ribbon. With each revolution of these rollers, the ribbon receives a certain displacement, stops for a moment and shifts slightly again. At each stop of the ribbon, one of the two pins 41 located on the pulley rotating with one of the rollers W is moved by a spring 42 connected to a shutter of any design. The lever 40 is rotatably mounted 40x on the arm 41x pivotally mounted on the Y-frame. The shaft 43 (Fig. 11) of one cylinder is mounted in an arm 44 rotatably seated at 45 and provided with a threaded bushing 46, in which the adjusting screw 47 is screwed on with its end resting on a fixed part of the frame. By turning the screw 46, the rolls W can be moved or moved apart from each other to compensate for their wear or to change the thickness of the photosensitive web used. The rollers of the rollers W are supported by toothed wheels 48 that engage and are driven by gear wheels 23 by means of a small wheel 49. When turning chain wheel 15, chain G turns wheel 21, engaging wheel 22, which in turn turns wheel 23, seated On the shaft 24, so arranged that it makes one revolution for each series of photographs, a book 25 is mounted on the roller 24 (Fig. 15), rotating in the direction of the clock hand, and lifting the switch arm at the beginning of its rotation. 26 upwards. On the arm tern there is a second switch arm 27 having a contact finger 28 contacting the contact plate 29 and thereby closing the circuit 30, 30 * and 31 of the magnet 32 rotating the arm 33 around the axis 34, which moves the bolt 35 and closes the cable T to the coin. The magnet arm 33 normally keeps the contacts 36 in contact and, by closing the circuit 37, 38 and 38 *, causes a small lamp 39 to light, indicating that a coin can be inserted into the apparatus in question. These contacts are extended by a special spring so that, when released from the pressure of the arm 33, they break the circuit. When the book 25 raises the arms 26 and 27, the conductor T closes as already described, and the light 39 starts to shine under the action of the switch arm 270 Arm 26, rising upwards, brings the finger 50 into contact with the switch-board 51, and that said finger and plate are connected by conductors 50 *, 51x to the motor and the positive and negative conductors for the entire time of contact contacts 50 and 51, the motor runs continuously. The frame 26 has a second switch finger 52 shown in detail in FIG. 16, which, when the arm 26 is lifted, slides over the insulating sloping surface 53. However, after the last photo on the web, Due to the high sensitivity, the contact disc r of the arm 26 falls into the cut or indentation in the book 25, as a result of which the arm 26 falls and the movement of the arm and arm 27 is delayed by the softening mechanism 54, 54 *. Even before the arm 26 drops, the finger 52 passes the upper end of the ramp portion 53 and suddenly returns to the line of the contact plate 55, so that at the beginning of said downward movement of the arm 26, the finger 52 comes into contact with the plate 55, whereby on guides 56, 57 runs a current to the magnet 58, which then pulls the plate 59 forward from the position shown in FIG. 15, swinging the plate 1 holding the coin to release it. The circuit of the magnet 58 is closed only for a very short time, the black parts / and 2 holding the coin return to their original positions, causing the contacts 2 * and 3 to open and the circuit surrounding the switches A *, Bx to be broken. Accordingly, the clutch magnet 16 is no longer energized and the chain G stops and the circuit of the lamps 20 is broken. The motor would also have stopped, had it not been for the fact that its circuit is closed due to the contact of contact finger 56 with plate 51. As it continues to move downward of arm 26, switch finger 52 comes into contact with contact 60, completing the circuit of actuating switch D * a supply of electricity through conductors 61, 62 to solenoid 63, the core of which 64 is connected to a rod 65 (Fig. 13) connected to a tooth section 66 which engages with a ring 67, which in turn is interlocked with a tooth 68 carrying cutting knife 69. The gear wheel 68 slides horizontally in frame 70 directly under the lens holder 71 (FIG. 12). The knife is normally positioned on one side of the Cx band, while the spring 72 holds all of the above-indicated parts in their correct positions. TL momentarily - 3 - to excite the solenoid 63, its core 64 pulls the disc 65 by turning the toothed section 66 which, for its part, moves the knife 69 to cut off the illuminated piece of ribbon, which may then pass freely through the basin with the developing liquid, - water - the fixing liquid, as described below. During the operation of the solenoid 63 and cutting off the piece of the ribbon, the arm 26 drops so low that the finger 50 slides below the plate 51 and then the motor would stop if it were not that the movement of the solenoid core 63 during the cut-off is simultaneously used to move the switch, which keeps the circuit the engine closed. Namely, an engagement forks 73, which may be received by an engagement knife 74 fitted on a rotating shaft 75 having a crank frame 76, are incorporated into the branch circuit of the engine; a lever 78 is pivotally mounted on the frame of the apparatus and is connected by a bar 79 to the arm 76. The free end of the lever 78 is normally directly under the cushion 80 formed on a rod 81 connected to the core 64 of the solenoid 63. On energizing the solenoid 63 to release in the movement of the knife of the strip cutter, the bar 81 advances downward so that its cushion 80 tilts the levers 78, whereby the switch knife engages the forks 73 and thereby supports the periphery of the motor. As the lever 78 tilts, its free end presses a latch 82 pivotally mounted on the apparatus frame so that the latch finally slides and passes over the lever, holding it in the tilted position, whereby the switch knife 74 remains in its forks and the motor circuit is still closed. The downward movement of the stick 79 not only engages the knife 74 of the switch, but also tilts the levers 83, pivotally seated in 84 on the pin of the needle valve 85, so that the lever presses fig 85 *, opening the lever. the flow of water through the pipe 86 to the pipe 87 (fig. 2), and then to the tubs rinsing the ribbon. As already mentioned above, the solenoid 63 is excited by means of the switch D *, which also closes the circuit formed by conductors 88, 89 and passing through the magnet K measuring the inflow of chemical solutions to some of the tubs located in the chamber E. The magnet K and its connections are shown in Fig. 1, which shows the reservoirs J containing the supply of solutions and flexible pipes connecting each of them to its specific tub. The flexible conductors L pass between the fixed plate 90 and the movable plate 90 * rigidly connected to the anchor plate 91 of the magnet K. The plate 90 *, loaded with springs 92, presses said hoses so that they become flattened and dissolve. can flow through them. On excitation of the magnet K, plate 91 advances downward, pulling plate 90 * with it, so that some solution may flow from the reservoirs J into the tubs in chamber E in order to maintain the strength of the developing solution, fixative solution, etc. in these tubs. However, the action of the K magnet lasts only a few moments, since only a small amount is needed to equalize the quality of the solution absorbed by the ribbon during the taking of each picture or diluted due to the transfer of water by these ribbons from the washing tub to the adjacent bath with the solution. The compartment E is divided by vertical compartments into a number of separate tubs containing the individual liquids and solutions needed to develop the exposed and cut part of the ribbon. In Fig. 2 it can be seen that the illuminated and cut piece of film strip C * enters downward through the stomata 93, and then the pushers - - 4 - eons between the passes 94, 95 are shown in detail in Fig. 8 The feed rolls are seated on axes 97 fixed and extending sideways 96 plates. Axis 97 carrying the feed pulley 94 is turned by means of a belt H (Figs. 1, 7 and 8) pulley H and a chain 98 running along the pulley by a chain pulley 99 seated on this axis 97. Feed roller 94 captures the exposed ribbon with rubber rings 100 in contact with the edges of the ribbon, while these ribbons press against the rings 100 tapered heads 95 * roller 95. Thanks to the above device, the surface of the ribbon covered with the emulsion does not come into contact with the mechanism and passes through A certain number of the same pulleys are placed under the first feeding pulleys 94, 95, of which pulleys 94 are driven simultaneously by two parallel belts without end 101, and pulleys 95 by two endless belts 102. Fig. 10 shows the way in which the rubber rings 100 catch the exposed ribbon through the tapered surfaces 95 of the strips 95. | After the ribbon has reached its lowest position, the curved guide wall 103 directs its lower end upwards, thus reversing the direction of its travel and forcing it to slide upwards between the lowest in-feed pulley 95 and the lowest pulley 104 in the row rollers 104, arranged one above the other and in the same shape as the discs 94. The illuminated ribbon advances until it finally meets the guide 105 shown in detail in Fig. 4. The guide has curved side edges 105x that enclose the edges of the web. without touching its surface at all, and guiding it through an arc to where it grasps the top feed disks of the next tub, the disks of which with rings and stripes may be the same as described previously. 94, 104 are mounted on the rollers placed in the slots 106 formed in the plates 96, and at the ends of the rollers protruding outside these plates are There are pulleys 107 connected with each other by flexible belts 108 trying to move the exchanged pulleys towards each other so that the ribbon moves over the conical ends of the pulleys 95. In order to drive the intermediate lane 102 at the end of the bout of the highest pulley the feeder 102, which is extended by the side plate $ 6, is seated with a pulley 109 driven by a belt 110, moved by the uppermost pulleys 94, 104 by means of pulleys 111, IIIx. Belt 110 running over pulleys *? belt 112t 112x located on one of the lower disks 94 and on one of the lower disks 104. Chamber E contains developing, fixing and toning trays 113, 114, 115, 116, 117 and intermediate wash trays 118, 119 , 120, 121. The chamber E and the walls separating the tubs may be made of hard rubber or other material, while the walls separating two adjacent tubs with solutions have inside channels P (Fig. 2) with an inlet opening near the top edge of the tub, through which excess solution may drain from the tubs into a conduit 122 terminated in an outlet pipe 123. Each of the tubs has a drain opening W (Fig. 2) at the bottom, through which water water flows downstream 122. Water flows pipe 87 into pipe 124 with inlet branches 125 through which it flows into individual washing tubs 118, 119, 120, 121 (Fig. 2), each pipe 125 runs across one May to the other wall and it is so perforated that a water spray is formed falling on the surface of the ribbon as it passes through the tub in the manner indicated in Fig. 6 above. After passing the last dishwasher tub 121, the ribbon advances upward at point marked with the arrow 126 (Fig. 2), as a special channel directs it so that the end of it passes between the surfaces of the feed belt 127 and the lowest pulley belonging to row 128. The endless belt 127 runs over a series of steering wheels 129. The ribbon is transferred to the above method upwards onto a conveyor without an end 130 in the form of a chain or strings. The lowest pulley 120 receives movement from pulley H via connection 131 (Fig. 1). The endless conveyor 130 runs along a pulley 132 with a pedal also along a pulley, first up and tilting under pulleys 128, then stepping along pulley 133, horizontally to the second supporting pulley 134, and returns along the small pulleys. 135. The horizontal line of the conveyor 130 runs directly above the heating chamber M * containing the electric resistor 137. The air enters this chamber through the channel N * communicating with the bellows or a blower N driven by the motor F. Air heated by the resistor 137 and passing through the openings 138 meet the ribbon facing downwards, the two sides are coated with the emulsion. The hot air tends to lift the ribbon off the surface of the conveyor 130, preventing its surface from being damaged. The exposed ribbon moves through the drying chamber Ox to the right and is finally ejected from the camera at Px as a finished photo. After the finished photo is ejected, the motor circuit F automatically interrupts the mechanism described below. This mechanism not only stops the motor after the finished photograph has been discarded, but also prevents the motor from stopping if a second coin is inserted into the coin wire while the first group of photographs is being completed. After one ready-made group of pictures has been ejected, the motor stops, but only when the apparatus is not in the process of making another ribbon or ribbon, so that the engine stops only after the last finished ribbon has been ejected. The mechanism in question includes a worm 139 mounted on a roller. 12 (FIG. 15) and a rotating reduction gear 140, 141, 142. The hub 142x of the wheel 142 sits loosely on the shaft 143 so that it can still slide along it. A friction disc 144 is mounted on the roller 143, contacting a similar disc 144x on the pinion of the toothed wheel 142 and pressed against the disc 144 with a weak spring 145. Thus, the idle speed of the toothed wheel 142 is transferred to the fight 143. the parts of this mechanism are in the positions shown in Fig. 15 for the coin wire. It should be added that the shaft 143 will have a switch arm 146, connecting the switch plate 147 with the plate 148. An insulating wedge 149 is placed between the arm 146 & plate 148, so and that during the exposure, cutting, and fabrication of the ribbon, the lower end of arm 146 slides upwards along the wedge 149, and after the finished photo ribbon has been ejected, the lower end of arm 146 passes the right end of the insulating wedge and falls zen to come into contact with circuit board 148. Switch plates 147 and 148 serve to energize, by conductors 150, 151, the magnet of switch G *, which causes the current to flow through conductors 152, 153. a circuit extending through the latch releasing the solenoid 154. The solenoid core 155 has a projection 156 for tilting the levers 157 connected to the latch 82 by the rod 158 such that the latch engages with the lever 78, causing the lever to drop into position. visible - 6 - for leagues. 15 by pulling out switch knife 74, fork 73, 75, which breaks the circuit of the motor. Core 155 of the saltenoid 154 has an extension in the form of a rod 159, the lower end of which forms a contact head 160 striking due to the release of the latch 82 in the handle 161 connected to the lever. switch 76 so that the lever tilts to assist the force of the lever 78 and bar 79 to pull the switch knife 74 out of the fork 73 to break the circuit. However, if a coin is inserted into the wire T while the apparatus is still passing through the apparatus. the previously paid photo band should be provided with a device to prevent the camera from stopping after the first ribbon has been ejected, thereby enabling the execution of the second ribbon. The mechanism of this device is as follows: The coin wire remains closed as expected until the exposed piece of ribbon is cut off. After this ribbon of two tubs has entered, the coin tube opens and you can start taking the next ribbon of photos by inserting a new coin. Operation of the apparatus in making the first ribbon, already brought to a certain point, turned the shaft 12 and the switch arm 146 a certain distance in the direction of the arrow in Fig. 15. However, when the second ribbon (illuminated is cut before entering the tub, action of the cutting salt 63 will move the rod 81 downward, bringing the rod 162 into contact with the lever 163 connected by the slider 164 to the crank 165 of the shaft 143, causing it to rotate to its starting position, whereby the switch arm 146 is given the position shown in FIG. The circuit of the motor will not be interrupted until the second ribbon has passed completely through the apparatus. If the first ribbon has been completed, and the camera is emitted from the apparatus at the moment when it is illuminated by a second circumstance, this does not prevent the arm 146 from completing the circuit of the magnet moving the latch and thereby turning off the main switches of the motor 73, 74, 75. This will not, however, stop the device from operating. here, as the coin will continue to close the motor circuit with switch A *, and the subsequent action of the cutting salt will close the main switches of the motor 73, 74, 75 again as previously stated. , PL PL

Claims (4)

1. Patent claims. 1. A self-acting camera, characterized in that it has a mechanism equipped with a measuring device which gradually moves a flexible ribbon of light in front of the lens during the operation of the shutter, guides the exposed ribbon through a bath with developing solution, water flakes, a tub with a solution of u- the device for drying and other operations, finally ejects the finished ribbon from the apparatus, and after performing these operations, the drive mechanism stops automatically. 2. A camera according to claims The apparatus of claim 1, characterized in that it has electric lamps which light up automatically when the coin is inserted into the apparatus and they turn off automatically as soon as the exposure, or photo, is taken. 3. A camera according to claims The method of claim 1, characterized in that the mechanism by which the band of photosensitivity is moved in front of the darkroom object disconnects automatically from the drive mechanism as soon as the picture is taken. 4. Camera by substitutes. The apparatus of Claims 1 and 3, characterized in that the drive mechanism operates after taking the still pictures, moving the mechanism that pulls the illuminated ribbon through the developing tubs. 5. Camera according to the provisions. - 7-1, characterized by a device that cuts off the illuminated piece of ribbon from the rest of the still unexposed before drawing the illuminated part through the developing tubs. 6. A camera according to claim 1 and 3, characterized by the fact that a coin inserted into the apparatus while the exposed ribbon passes through the developing tubs sets the device for the automatic stopping of the apparatus so that the apparatus does not interrupt its operation when the first ribbon is ejected, but is an act. continues until the second ribbon is thrown. 7. A camera according to claims 1, characterized by the fact that the channel to the coin closes automatically as soon as the coin is introduced, and opens only after the end of ribbon irradiation. 8. ' A camera, characterized by the fact that upon insertion of the coin, an electrical circuit is produced which includes an electric motor that operates a drive mechanism for the gradual advance of the photosensitive web in front of the camera lens so as to take a certain number of photos, with a switch associated with the shift mechanism. these ribbons produce a circuit to stop this mechanism and to actuate the ribbon knife, but without interrupting the operation of the motor which is needed to pull the cut piece of exposed ribbon through the tubs. 8, characterized by the fact that the mechanism for moving the ribbon in front of the lens is associated with a switch generating a circuit containing a solenoid, i.e. magnetic coils, used to release the knife and to close the switch generating a circuit passing through the motor, 10. Apparatus according to claim 8, characterized in that the motor actuates a pedal mechanism containing a shaft provided with an electrically actuated clutch for driving the ribbon-shifting mechanism, whereby the roller-turning device is provided with a switch-on frame which, at a certain moment, will stop engine. 11. The apparatus according to claim 9 and 10, characterized in that the knife actuating solenoid also actuates a mechanism that reverses the direction of rotation relative to the shaft of the drive mechanism to adjust the switch arm. 12. The apparatus according to claim 8 and 9, characterized by the fact that the solenoid operating the knife also activates the valve supplying the fluid to the tubs. 13. The apparatus according to claim 8. The apparatus of claim 8, characterized in that it has a switch generating a circuit through the electromagnet that acts on the conduit carrying the solution to the tubs. 14. A camera according to claim A circuit as claimed in claim 1, characterized in that it comprises an electric motor for driving individual apparatus of the apparatus, a circuit breaker connected to the circuit of the motor, a switch moving from an original position to a second position in which it moves said circuit-breaker, and a device for restoring said switch to its original position at the moment when the second light-sensitive ribbon is irradiated even before the previously illuminated ribbon is ejected from the apparatus. 15. A camera according to claim A device as claimed in claim 1, characterized in that it comprises a motor for driving individual apparatus of the apparatus, a device which cuts off the exposed piece of non-exposed ribbon, and a movable switch operating in time which closes the motor circuit during operation of the camera shutter, the switch has a movable finger and a certain number of contacts, by means of which the circuits running through the devices disconnecting the darkroom mechanic from the motor drive are closed successively, activating the cutting mechanism and closing the main switch of the motor, 16. Photo camera according to claim 1, characterized by the fact that it has a motor drive for the individual organs of the apparatus, a knife that cuts off an illuminated piece of ribbon from the still unexposed ribbon, a salt salt for moving this knife, a standby device for automatic interruption of the current running through the engine , and a mechanism associated with said shut-off solenoid for returning the waiting device to its original position during operation of the actual knife. 17. A camera according to claim 1, characterized by the area having electric lighting, motor drive for the mechanism moving the ribbon moving the shutter, reservoirs with a reserve of solutions, wires leading to the main baths with solutions, washing tubs, an electrical device measuring the flow of liquid to the tubs with solutions and water, a waiting device which turns off the motor automatically, and a movable switch mechanism for measuring lighting devices, shutters, and a device for moving a ribbon in front of this shutter. 18. A camera according to claim A device according to claim 1, characterized in that it has a tub provided with a device for dragging the exposed ribbon through the tub in such a way that the device contacts only the edges of the ribbon. 19. A camera according to claim In accordance with claim 1, characterized in that it comprises a number of tubs through which the illuminated ribbon passes, each of which has a device for reversing the direction of the ribbon's motion; a guide is provided between the tops of two adjacent tubs linearly from one tub to the other. 20. A camera according to claim 19, characterized in that the device for pulling the web through the tubs and the device for guiding the ribbons from one roll to the other adjacent tub only contact the edges of said ribbon. 21. A camera according to claim 18. The method according to claim 18, characterized in that the ribbon conveying device consists of a circular feeder series provided with rings made of elastic material and only contacting the edges of the ribbon. 22. A camera according to claim 20, characterized in that the ribbon conveying mechanism comprises a number of spaced-apart contact disks, narrower in the center and wider at the ends, a second set of inlet ports, and a device arranged on these disks for pressing the illuminated ribbon against the expanded disks. 23. A camera according to claim 1, characterized in that it contains a certain number of tubs, each of which has a mechanism for transmitting the illuminated ribbon through its interior, first in one direction, then in the opposite direction, and finally directing the ribbons to a step adjacent baby baths; 24. A camera according to claim 1, characterized in that it comprises a dryer for drying the finished web, which dryer includes a ribbon conveying device positioned above a heating chamber having a perforated wall adjacent to the portable device and a heating device. whereby the heated air flows through said perforated wall. 25. Camera according to claim 20, characterized in that it comprises a blowpipe driven by an electric motor associated with a measuring mechanism which stops the motor as soon as the dried web or the last of the series of dried webs is ejected from the apparatus. Anatol Marco Josepho Zastepca: M. Skrzypkowski patent attorney, for patent description No. 7115. Ark. i. 105 -Fnj. 4-. J0f * i mi ims xAi / r nu u Ark. 3. l / - ^ and 1 23 f sJJi. 42, Sz ^ Ty 70 to patent specification No. 7115. Ark. 2. 1Q% ^% 9th ^^^^ 100 F / g.?. iOQ to Patent No. 7115. Ark. 4. FLai *. Print by L. Bogustawfki. Warsaw. PL PL