JP3586532B2 - Photoprocessing agent supply method and photoprocessing agent supply device - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a photographic processing agent supply method and a photographic processing agent supply apparatus, and more particularly, to an automatic developing machine from a photographic processing agent container in which an outlet for taking out a photographic processing agent contained therein is closed by a seal member. The present invention relates to a photographic processing agent supply method and a photographic processing agent supply apparatus for supplying a photographic processing agent to a replenishing tank.
[0002]
[Prior art]
Automatic developing machines such as film processors and printer processors are provided with a plurality of processing tanks containing processing solutions and water for color development, bleach-fixing, washing and stabilization, etc. It is transported and processed while being sequentially immersed in the processing tank.
[0003]
The component composition and amount of the processing solution in each processing tank vary depending on the processing of the film or color paper. For this reason, the automatic developing machine is provided with replenishing tanks corresponding to the respective processing tanks, and new liquid is replenished from the replenishing tanks to the processing tanks according to the processing amount of each processing tank. I have. That is, in each replenishing tank, a liquid, paste or powdered and concentrated photographic processing agent and a predetermined amount of water are mixed to produce a processing solution having a desired concentration, and replenished to each processing tank. Is done.
[0004]
Here, the photographic processing agent is put in a container in a factory or the like in advance, and an outlet of the container is closed by a lid. Replenishment of the photographic processing agent into the replenishing tank is performed manually by an operator. Therefore, the operator had to remove the lid by hand, open the opening, and put the photographic processing agent into the replenishing tank.
[0005]
In addition, when removing the lid, it is necessary to pay attention so that the photographic processing agent does not adhere to hands or clothes, which is a burden on the operator.
[0006]
On the other hand, even after the photographic processing agent was taken out of the photographic processing agent container, the photographic processing agent sometimes adhered and remained on the inner surface of the photographic processing agent container. In particular, since the paste-like photographic processing agent has a high viscosity, it takes time to flow down from the photographic processing agent container, and tends to remain in the photographic processing agent container. This problem can be solved by increasing the inner diameter of the outlet of the container for the photographic processing agent, but it is generally difficult and costly to form a container for the photographic processing agent having a larger inner diameter of the outlet. In the case of a powdery photographic processing agent, when it absorbs moisture, it solidifies and tends to remain in the photographic processing agent container.
[0007]
If the photographic processing agent remains in the photographic processing agent container, the photographic processing agent container cannot be reused.
[0008]
[Problems to be solved by the invention]
In consideration of such a fact, the present invention can easily open the opening of the photographic processing agent container, the photographic processing agent does not adhere to the hands and clothes of the worker, and the photographic processing agent in the photographic processing agent container is removed. It is an object of the present invention to provide a photographic processing agent supply method and a photographic processing agent supply apparatus that can take out a photographic processing agent container and reuse the photographic processing agent container.
[0009]
[Means for Solving the Problems]
According to the first aspect of the present invention, the outlet for taking out the photographic processing agent contained therein is closed by the seal member.Different heights for different types of photographic processing agentsPhotographic processing agent containerBetween the holding plate and the abutment plate, which are spaced one-to-one corresponding to the heightA holding step of holding the outlet above the replenishing tank of the automatic developing machine so that the outlet faces downward; and an opening step of pressing the seal member of the photographic processing agent container from below with a cylinder to open the outlet. A washing step of discharging washing water into the photographic processing agent container from the discharge port formed in the cylindrical body to wash the inside of the photographic processing agent container; and And drying the photographic processing agent container by discharging a drying air to the container.
[0010]
That is, first, in the holding step, the container for the photographic processing agent is held above the automatic developing machine so that the opening faces downward.Prevents incorrect mounting because containers for photographic processing agents, which have different heights for each type of photographic processing agent, are held between the holding plate and the abutment plate, which are one-to-one corresponding to this height. Is done.At this time, the outlet is facing the replenishing tank. In addition, as a seal member of the outlet, for example, there is a thin film formed of aluminum, and this seal member (thin film) is attached to the rim of the outlet, and the outlet of the container for the photographic processing agent is closed. You.
[0011]
The photographic processing agent contained in the photographic processing agent container may be any of a liquid, a paste, and a powder.
[0012]
Next, in the opening step, the sealing member is pressed from below by the cylindrical body. As a result, the seal member is crushed, and the discharge port at the tip of the cylindrical body is located inside the photographic processing agent container. The photographic processing agent flows out of the photographic processing agent container held with the take-out port down, and is supplied to the replenishing tank.
[0013]
Next, in the cleaning step, cleaning water is discharged into the container for the photographic processing agent from the discharge port formed in the cylindrical body to clean the inside of the container for the photographic processing agent. At this time, if the photographic processing agent is liquid, even if a small amount of the photographic processing agent adheres to the inside of the photographic processing agent container, it can be washed away. Also, when the photographic processing agent is in a paste form, the photographic processing agent is diluted with washing water and becomes liquid, so that the photographic processing agent smoothly flows down from the photographic processing agent container even if the inner diameter of the outlet is small. In addition, all the photographic processing agent remaining in the photographic processing agent container can be washed away. Furthermore, even when the photographic processing agent is in the form of a powder and has absorbed water and solidified, the photographic processing agent dissolves in the washing water and becomes liquid, so that the photographic processing agent smoothly flows down from the photographic processing agent container. Also, the photographic processing agent remaining in the photographic processing agent container can be washed away. As described above, regardless of whether the photographic processing agent is liquid, paste-like, or powdery, the washing step can clean the inside of the photographic processing agent container and allow the photographic processing agent to flow out without leaving it. As a result, after the completion of the cleaning step, only the cleaning liquid adheres to the inner surface of the photographic processing agent container.
[0014]
Next, in the drying step, drying air is discharged from the discharge port into the photographic processing agent container to dry the inside of the photographic processing agent container. All the cleaning liquid adhering to the inner surface of the photographic processing agent container can be evaporated.
[0015]
As described above, in the photographic processing agent supply method of the first aspect, the opening can be easily opened only by pressing the seal member by the cylinder in the opening step. As in the conventional case, the trouble of removing the cap each time is eliminated, and the processing liquid does not adhere to the hands and clothes of the worker.
[0016]
In addition, since the inside of the photographic processing agent container is washed in the cleaning process, the photographic processing agent is not left in the photographic processing agent container, regardless of whether the photographic processing agent is liquid, paste, or powder. Can be drained.
[0017]
Further, since the inside of the photographic processing agent container is dried in the drying step, the photographic processing agent container can be reused as it is.
[0018]
Further, since the cylinder pressing the seal member is located in the container for the photographic processing agent, the cleaning liquid and the drying air can be continuously discharged from the discharge port formed in the cylinder, and unnecessary operation is performed between each process. Absent.
[0019]
According to the invention described in claim 2, in the invention described in claim 1,Measure the amount of washing water in the washing stepIt is characterized by the following.
[0020]
Therefore, the amount of water to be further replenished to obtain the desired concentration of the photographic processing solution can be calculated.
[0021]
According to the third aspect of the present invention, the outlet for taking out the photographic processing agent contained therein is closed by the seal member.Different heights for different types of photographic processing agentsPhotographic processing agent containerBetween the holding plate and the abutment plate, which are spaced one-to-one corresponding to the heightA holding means for holding the take-up port above a replenishing tank of the automatic developing machine, and a seal for the container for the photographic processing agent which is provided in the automatic developing machine so as to be movable up and down and held by the holding means. A cylinder that presses a member from below to open the outlet, a discharge port formed in the cylinder, and is provided in the automatic developing machine, and the cylinder has one of washing water or dry air or And a supply means for selecting and supplying both of them and discharging them from the discharge port.
[0022]
That is, in this photographic processing agent supply device, the photographic processing agent container is held by the holding means provided above the automatic developing machine.Prevents incorrect mounting because containers for photographic processing agents, which have different heights for each type of photographic processing agent, are held between the holding plate and the abutment plate, which are one-to-one corresponding to this height. Is done.At this time, the container for the photographic processing agent is held so that the outlet thereof faces downward.
[0023]
Here, the cylinder provided in the automatic developing machine is raised. The cylinder presses the seal member from below, and opens the outlet. For example, when the sealing member is a thin aluminum film attached to the rim of the outlet, the thin film breaks through the thin film. Thus, the outlet can be easily opened simply by raising the cylinder. At this time, the discharge port formed at the tip of the cylindrical body is located in the photographic processing agent container.
[0024]
Since the container for the photographic processing agent is held with the outlet facing downward by the holding means, when the opening is opened, the photographic processing agent in the container for the photographic processing agent flows out.
[0025]
Next, the washing water is supplied to the cylindrical body by the supply means, and is projected from the discharge port. When the photographic processing agent is in a liquid state, even a small amount of the photographic processing agent attached to the inside of the photographic processing agent container is washed away. In addition, when the photographic processing agent is in a paste form, the photographic processing agent is diluted with washing water to be in a liquid state, and even when the inside diameter of the outlet is small, the photographic processing agent smoothly flows down from the photographic processing agent container, All the photographic processing agent remaining in the photographic processing agent container is washed away. Furthermore, even a powdery photographic processing agent that has absorbed water and solidified can be dissolved in the photographic processing agent with washing water to be in a liquid state and can smoothly flow down. Thereby, after the cleaning, only the cleaning liquid adheres to the inner surface of the container for the photographic processing agent.
[0026]
In addition, a plurality of passages are formed by providing a longitudinal partition in the cylinder, or a plurality of cylinders are provided, and washing water is simultaneously supplied from the supply means to the cylinder and drying water is supplied from each discharge port. May be able to simultaneously discharge drying air.
[0027]
Next, dry air is supplied to the cylinder from the supply means, and is discharged from the discharge port. As a result, all of the cleaning liquid adhering to the inner surface of the photographic processing agent container evaporates.
[0028]
As described above, in the photographic processing agent supply device according to the third aspect, the outlet can be easily opened simply by raising the cylinder and pressing the seal member. As in the conventional case, the trouble of removing the cap each time is eliminated, and the processing liquid does not adhere to the hands and clothes of the worker.
[0029]
Also, since the washing water is supplied to the cylindrical body by the supply means and is discharged from the discharge port, the photographic processing agent is left without any photographic processing agent regardless of whether the photographic processing agent is liquid, paste, or powder. It can be drained from the container.
[0030]
Further, the drying air is supplied to the cylindrical body by the supply means and is discharged from the discharge port to evaporate the cleaning liquid remaining in the photographic processing agent container, so that the photographic processing agent container can be reused as it is.
[0031]
In addition, the outlet can be opened by pressing the seal member with the cylindrical body, and the washing water and the drying air can be discharged from the discharge port formed in the cylindrical body. The number of parts is reduced as compared with the case of performing with a separate member.
[0032]
In the invention according to claim 4, in the invention according to claim 3,Control device capable of measuring the amount of washing water supplied to the cylinder, Is characterized by having.
[0033]
Therefore, the amount of water to be further replenished to obtain the desired concentration of the photographic processing solution can be calculated.
[0034]
BEST MODE FOR CARRYING OUT THE INVENTION
FIG. 1 shows an automatic developing machine 10 provided with a photographic processing agent supply device 12 according to one embodiment of the present invention. As shown in FIG. 2, a plurality of supply chambers 16 are formed in the automatic developing machine 10 by partition walls 14, and a photographic processing agent supply device 12 is provided in each of these supply chambers 16. Has been. Usually, a plurality of photographic processing agent supply devices 12 are required for each type of photographic processing solution such as a developing solution and a fixing solution, and FIG. 1 shows an example in which six photographic processing agent supply devices 12 are provided. . (Note that the partition wall 14 is omitted in FIG. 1 for convenience of illustration.)
The upper part of each supply chamber 16 can be opened and closed by an opening / closing door 18 pivotally supported by the automatic developing machine 10. By opening the door 18, the photographic processing agent container 20 can be put into the supply chamber 16 from above. A liquid photographic processing agent is stored in the photographic processing agent container 20, and an outlet 22 for taking out the photographic processing agent is closed by a thin film-shaped seal made of aluminum.
[0035]
As shown in FIG. 2, each supply chamber 16 is separated by a partition wall 24 into a near-side supply chamber 26 (the side opposite to the arrow B) and a far-side supply chamber 28. A replenishing tank (not shown) is located below. A holding plate 30, which is a holding table, protrudes from the near side of the partition wall 24 so as to be located above the replenishing tank. The holding plate 30 is formed with a holding hole 32 having an opening on the front side (the side opposite to the arrow B). When the photographic processing agent container 20 is inverted from the opening and inserted into the holding hole 32, The shoulder 20A of the photographic processing agent container 20 abuts against the inner surface of the holding hole 32, and the photographic processing agent container 20 is held above the replenishing tank.
[0036]
Above the holding plate 30, a contact plate 34 protrudes from the partition wall 24, and the bottom surface 20B of the photographic processing agent container 20 held by the holding plate 30 (in FIG. 20 is held upside down so that it comes into surface contact with the upper surface). Here, as shown in FIG. 1, the photographic processing agent container 20 is formed so that the height differs for each type of photographic processing agent, and the height of the photographic processing agent container 20 and the photographic processing The distance between the holding plate 30 and the contact plate 34 in each of the agent supply devices 12 corresponds one-to-one. Therefore, for example, even if an operator mistakenly sets the photographic processing agent container 20 containing the photographic processing agent B in the photographic processing agent supply device 12 to which the photographic processing agent A is to be replenished, Since the bottom surface 20B of the 20 and the contact plate 34 are not in surface contact, they cannot be set, and erroneous mounting is prevented.
[0037]
A driving unit 36 is fixed to the partition wall 24 and is disposed in the rear side supply chamber 28, and an elevating unit 38 is disposed below the driving unit 36. Two pistons 40 protrude upward from the elevating part 38, and these pistons 40 are accommodated in two cylinders (not shown) provided in the driving part 36, 38 is supported by the drive unit 36 so as to be able to move up and down. A rack plate 42 on which a rack is formed protrudes upward from the elevating section 38, and this rack meshes with a pinion 43 (see FIG. 8) in the drive section 36. The pinion 43 is rotated by driving a motor (not shown) in the drive unit 36, and the elevating unit 38 can be moved up and down.
[0038]
A substantially L-shaped perforated pipe 44 protrudes from the front surface of the elevating section 38 toward the near side, penetrates a vertically long hole 46 formed in the partition wall 24, and the tip side faces upward. The tip of the perforated pipe 44 is located below the outlet 22 of the photographic processing agent container 20 with the photographic processing agent container 20 set on the holding plate 30. Further, the outer diameter of the perforated pipe 44 is slightly smaller than the inner diameter of the outlet 22 so that the photographic processing agent flows out between the perforated pipe 44 and the outlet 22.
[0039]
The tip of the perforated pipe 44 is formed in a hemispherical shape, and a plurality of discharge ports 48 are formed in this hemispherical portion.
[0040]
A supply unit 50 is provided further inside the driving unit 36 and the elevating unit 38. A washing water pipe 52 and a drying air pipe 54 penetrate the front wall of the supply unit 50. The washing water pipe 52 and the drying air pipe 54 are each divided at a substantially intermediate portion in the supply section 50, and an open / close plate 58 that is slid by a solenoid 56 is disposed at the divided part. An insertion hole 60 is formed in the opening / closing plate 58, and the sliding hole of the opening / closing plate 58 allows the insertion hole 60 to communicate with one of the washing water pipe 52 and the drying air pipe 54, while the other opening / closing plate 58 shields the other. . That is, the valve 62 (see FIG. 8) is constituted by the opening / closing plate 58 and the solenoid 56.
[0041]
The cleaning water pipe 52 and the drying air pipe 54 are combined into a single collecting pipe 64 in the supply section 50 and protrude upward from the upper surface of the supply section 50. The collecting pipe 64 is connected to the elevating section 38 via the flexible pipe 66, and further connected to the perforated pipe 44 through the inside of the elevating section 38.
[0042]
As shown in FIG. 8, the washing water pipe 52 is connected to a washing water tank 68 provided in the automatic developing machine 10, and the washing water in the washing water tank 68 is supplied by a bellows pump 70. You.
[0043]
On the other hand, the drying air pipe 54 is communicated with an air collecting device 72 provided in the automatic developing device 10, and the warm exhaust air in the automatic developing device 10 collected by the air collecting device 72 is discharged by a fan 74. Supplied. That is, the automatic developing machine 10 is provided with a heating means such as a heater for maintaining the processing solution at a predetermined temperature. Conventionally, heat around the heating means is generated by a fan or the like as hot exhaust air. It is released outside the automatic developing machine 10. The warm exhaust air in the automatic developing machine 10 which has been discharged to the outside in the related art is collected by the air collecting device 72 and supplied to the drying air pipe 54 by the fan 74.
[0044]
The bellows pump 70, the valve 62 (the solenoid 56 and the opening / closing plate 58), the fan 74, and the air collecting device 72 are controlled by the control device 76. In particular, with respect to the bellows pump 70, the cleaning water sent out is measured by the control device 76. The operating states of the bellows pump 70, the valve 62 (the solenoid 56 and the opening / closing plate 58), the fan 74, and the air collecting device 72 can be monitored by a monitor 78 connected to the control device 76.
[0045]
Next, a method for supplying the liquid photographic processing agent stored in the photographic processing agent container 20 by the photographic processing agent supply device 12 according to the present embodiment will be described.
[0046]
First, the opening / closing door 18 is opened, and as shown in FIG. 2, the photographic processing agent container 20 is inserted into the holding hole 32 of the holding plate 30, and the photographic processing agent container 20 is set. At this time, the height of the photographic processing agent container 20 is different for each photographic processing agent, and the distance between the holding plate 30 and the contact plate 34 is set according to the height of the photographic processing agent container 20. Therefore, the photographic processing agent container 20 is not erroneously mounted. In this state, the photographic processing agent container 20 is held above a replenishing tank (not shown) with the outlet 22 facing downward.
[0047]
Next, the control device 76 rotates the pinion 43 (see FIG. 8) in the drive unit 36 to raise the elevating unit 38 as shown in FIG. As a result, the perforated pipe 44 also rises, and the tip of the perforated pipe 44 breaks through the aluminum thin film seal closing the outlet 22, and the outlet 22 is opened. At this time, since the bottom surface 20B of the photographic processing agent container 20 is in surface contact with the contact plate 34, the entire photographic processing agent container 20 does not move upward by being pushed by the perforated pipe 44. . There is a gap between the outlet 22 and the perforated pipe 44, and the photographic processing agent flows out of this gap and is replenished to the replenishing tank. At this time, the discharge port 48 at the tip of the perforated pipe 44 is located inside the photographic processing agent container 20.
[0048]
When the outflow of the photographic processing agent is completed, as shown in FIG. 4, the control device 76 drives the solenoid 56 to slide the open / close plate 58, closes the drying air pipe 54, and connects the washing water pipe 52. When the bellows pump 70 is operated, the cleaning water in the cleaning water tank 68 is discharged from the discharge port 48 through the cleaning water pipe 52, the collecting pipe 64, the flexible pipe 66, and the perforated pipe 44. As a result, the washing water is used to wash away any photographic processing agent that has adhered to the inner surface of the photographic processing agent container 20, and the photographic processing agent container 20 is washed. At this time, the amount of washing water sent out by the bellows pump 70 is measured by the control device 76.
[0049]
Next, the bellows pump 70 is stopped, and as shown in FIG. 5, the open / close plate 58 is slid by the solenoid 56, the drying air pipe 54 is connected, and the washing water pipe 52 is closed. When the fan 74 is operated, warm exhaust air in the automatic developing machine 10 is discharged from the discharge port 48 through the drying air pipe 54, the collecting pipe 64, the flexible pipe 66, and the perforated pipe 44. As a result, the warm exhaust air evaporates all the cleaning liquid adhering to the inner surface of the photographic processing agent container 20, and the photographic processing agent container 20 is dried.
[0050]
Next, the motor in the drive unit 36 is reversed to lower the perforated pipe 44, and the photographic processing agent container 20 is removed from the holding plate 30. Since nothing remains in the photographic processing agent container 20, it can be reused as it is.
[0051]
The replenishment tank is replenished with the photographic processing agent in the photographic processing agent container 20 and the cleaning water, and the cleaning water is measured by the control device 76, so that a photographic processing solution having a desired concentration is obtained. Therefore, the amount of water to be replenished to the replenishing tank can be calculated.
[0052]
Not only when the photographic processing agent is in a liquid form, but also when the photographic processing agent is in a paste or powder form, replenishment of the photographic processing agent, washing and drying of the photographic processing agent container 20 are performed in the same manner as described above. Can be. In particular, when the photographic processing agent is in the form of a paste, as shown in FIG. 6, the photographic processing agent in the form of a paste can be diluted with washing water to be in a liquid state and can be discharged from the outlet 22. No photographic processing agent remains in the container 20. Further, even when the photographic processing agent is in a powder form and is solidified by absorbing moisture in the photographic processing agent container 20, as shown in FIG. Since the photographic processing agent can be melted and discharged as a liquid from the outlet 22, no photographic processing agent remains in the photographic processing agent container 20.
[0053]
As described above, according to the photographic processing agent supply device 12 according to the present embodiment, the outlet 22 can be opened and the photographic processing agent can flow out only by raising the perforated pipe 44.
[0054]
Further, since the cleaning water is discharged from the discharge port 48 of the perforated pipe 44 to wash away the photographic processing agent in the photographic processing agent container 20, the photographic processing agent does not remain in the photographic processing agent container 20 and there is no waste.
[0055]
Further, warm exhaust air is discharged from the discharge port 48 of the perforated pipe 44 to evaporate the washing water remaining in the photographic processing agent container 20 and to dry the photographic processing agent container 20. 20 can be reused as it is.
[0056]
In addition, since the cooling air in the automatic developing machine 10 is used as the warm exhaust air, the photographic processing agent container 20 can be dried in a short time without wasting energy.
[0057]
In addition, since all of the above operations are performed by the control device 76 in the automatic developing machine 10, the labor of the operator is omitted, and the photographic processing agent does not adhere to the hands and clothes of the operator. Of course, even if an operator performs each operation such as rotation of the motor that drives the pinion 43 in the drive unit 36, opening and closing of the valve 62, operation of the bellows pump 70, and operation of the fan 74, without using the control device 76. Good.
[0058]
The holding means is not limited to the holding plate 30 and the abutting plate 34 described above. The photographic processing agent container 20 is supported with the outlet 22 facing downward, and is supported by a cylindrical body (perforated pipe 44). What is necessary is just to prevent the photographic processing agent container 20 from moving upward even if it is pushed upward.
[0059]
As the material of the photographic processing agent container 20 (replenishment cartridge) used in the present invention, any material such as paper, plastic, and metal can be used. In particular, the oxygen permeation coefficient is 50 ml / m 2.²-A plastic material of atm.day or less is preferable. Incidentally, the oxygen permeability coefficient is "O₂permeation of plastic container, Modern Packing; J. Calyan, 1968, December, pages 143 to 145.
[0060]
Specific preferred plastic materials include vinylidene chloride (PVDC), nylon (NY), polyethylene (PE), polypropylene (PP), polyester (PES), ethylene-vinyl acetate copolymer (EVA), and ethylene-vinyl. Examples include alcohol copolymer (EVAL), polyacrylonitrile (PAN), polyvinyl alcohol (PVA), and polyethylene terephthalate (PET). For the purpose of reducing oxygen permeability, use of PVDC, NY, PE, EVA, EVAL and PET is preferred.
[0061]
These materials may be used singly and formed and used, or may be formed into a film, and a plurality of types may be laminated and formed (a so-called composite film). Further, as the shape of the photographic processing agent container 20, various shapes such as a bottle type, a cubic type, and a pillow type can be used, but the present invention is flexible, easy to handle, and can be reduced in volume after use. A particularly cubic type and similar structures are particularly preferred.
[0062]
When used as the above-mentioned composite film, the following structures are particularly preferable, but the present invention is not limited thereto.
[0063]
・ PE / EVAL / PE
・ PE / aluminum foil / PE
・ NY / PE / NY
・ NY / PE / EVAL
・ PE / NY / PE / EVAL / PE
・ PE / NY / PE / PE / PE / NY / PE
・ PE / SiO₂Membrane / PE
・ PE / PVDC / PE
・ PE / NY / aluminum foil / PE
・ PE / PP / aluminum foil / PE
・ NY / PE / PVDC / NY
・ NY / EVAL / PE / EVAL / NY
・ NY / PE / EVAL / NY
・ NY / PE / PVDC / NY / EVAL / PE
・ PP / EVAL / PE
・ PP / EVAL / PP
・ NY / EVAL / PE
・ NY / aluminum foil / PE
・ Paper / Aluminum foil / PE
・ Paper / PE / Aluminum foil / PE
・ PE / PVDC / NY / PE
・ NY / PE / aluminum foil / PE
・ PET / EVAL / PE
・ PET / aluminum foil / PE
・ PET / aluminum foil / PET / PE
The thickness of the composite film is about 5 to 1500 microns, preferably about 10 to 1000 microns.
[0064]
The content of the photographic processing agent container 20 is about 100 to 20 liters, preferably about 500 to 10 liters.
[0065]
The photographic processing agent container 20 (replenishment cartridge) may have a cardboard or plastic outer box, or may be formed integrally with the outer box.
[0066]
The photographic processing agent container 20 of the present invention can be filled with various processing solutions. Examples thereof include a color developer, a black-and-white developer, a bleaching solution, an adjusting solution, a reversing solution, a fixing solution, a bleach-fixing solution, and a stabilizing solution. It is preferable to use a color developer, a black-and-white developer, a fixer and a bleach-fixer in the container 20.
[0067]
【The invention's effect】
Since the present invention is configured as described above, the opening of the photographic processing agent container can be easily opened, the photographic processing agent does not adhere to the hands and clothes of the worker, and the photographic processing agent in the photographic processing agent container is removed. It is possible to reuse the container for the photographic processing agent by removing it without leaving it.
[Brief description of the drawings]
FIG. 1 is a perspective view of an automatic developing machine provided with a photographic processing agent supply device according to an embodiment of the present invention.
FIG. 2 is a perspective view schematically showing a photographic processing agent supply device according to one embodiment of the present invention.
FIG. 3 is a perspective view showing a state in which an opening of a photographic processing agent container is opened by a photographic processing agent supply device according to an embodiment of the present invention.
FIG. 4 is a perspective view showing a state in which the photographic processing agent container is being cleaned by the photographic processing agent supply device according to the embodiment of the present invention.
FIG. 5 is a perspective view showing a state in which the photographic processing agent container is being dried by the photographic processing agent supply device according to the embodiment of the present invention.
FIG. 6 is a perspective view showing a state in which the paste-like photographic processing agent in the photographic processing agent container is being washed away by the photographic processing agent supply device according to the embodiment of the present invention.
FIG. 7 is a perspective view showing a state in which the powdery photographic processing agent in the photographic processing agent container is washed away by the photographic processing agent supply device according to the embodiment of the present invention.
FIG. 8 is an explanatory diagram showing the flow of the cleaning water and the drying air in the photographic processing agent supply device according to the embodiment of the present invention, and the connection between the control device, the pinion, the bellows pump, the valve, the fan, and the air collecting device. is there.
[Explanation of symbols]
12 Photographic processing agent supply device
20 Containers for photographic processing agents
22 Exit
30 holding plate (holding means)
32 holding holes (holding means)
44 Perforated pipe (tubular body)
48 Discharge port
50 supply unit (supply means)
56 solenoid (supply means)
58 Opening / closing plate (supply means)
70 Bellows pump (supply means)
72 Wind collecting device (wind collecting means)
74 fan (supply means)

Claims (4)

The outlet for taking out the photographic processing agent accommodated therein is closed by a sealing member, and the photographic processing agent containers having different heights for each type of photographic processing agent are set at intervals corresponding to this height on a one-to-one basis. A holding step of holding the upper part of the replenishing tank of the automatic processor so that the outlet faces downward between the holding plate and the contact plate ,
An opening step of opening the outlet by pressing the seal member of the photographic processing agent container from below with a cylindrical body,
A washing step of washing the inside of the photographic processing agent container by discharging cleaning water into the photographic processing agent container from an outlet formed in the cylindrical body;
A drying step of drying the inside of the photographic processing agent container by discharging drying air from the discharge port into the photographic processing agent container,
A method for supplying a photographic processing agent, comprising: The method according to claim 1, wherein an amount of the washing water is measured in the washing step . The outlet for taking out the photographic processing agent accommodated therein is closed by a sealing member, and the photographic processing agent containers having different heights for each type of photographic processing agent are set at intervals corresponding to this height on a one-to-one basis. Holding means for holding above the replenishment tank of the automatic developing machine so that the outlet is between the holding plate and the contact plate ,
A cylindrical body which is provided to be able to move up and down in the automatic developing machine, and presses the seal member of the photographic processing agent container held by the holding means from below to open the outlet;
A discharge port formed in the cylindrical body,
A supply unit provided in the automatic developing machine, and selectively supplying one or both of washing water and dry air to the cylindrical body and discharging the same through the discharge port;
A photographic processing agent supply device comprising: 4. The photographic processing agent supply device according to claim 3, further comprising a control device that can measure an amount of the cleaning water supplied to the cylinder . 5.

Images