JP2001183787A - Waste liquid treating device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a waste liquid treating device which does not require the interruption of print processing even in waste liquid treatment. SOLUTION: When a fill-up detecting sensor 28a disposed below a waste liquid tank 28 detects the fill-up of the waste liquid tank 28, a user must remove the waste liquid tank 28 and remove the waste liquid therein. In the absent state of the waste liquid tank 28, the waste liquid flowing out of the waste liquid tank 28 is dammed up by closing a solenoid valve 10b and is stored into an intermediate tank 11c. The solenoid valve is opened to allow the waste liquid accumulated in the intermediate tank 11 to flow out to the waste liquid tank 28 after the end of exchange operation of the waste liquid tank 28.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a waste liquid processing device provided in a developing device.

[0002]

2. Description of the Related Art Conventionally, photographic paper (hereinafter, also referred to as paper) is exposed and baked by light transmitted through a film, and then passed through a developing solution, a fixing solution, and a stabilizing solution, dried, and dried. A photographic printing / developing device configured to discharge the toner to a printer has been put to practical use. Such a developing device is disclosed, for example, in US Pat. No. 5,307,114.

A developing device of this type generally includes a developing tank, a fixing tank, and a stabilizing tank, each of which stores a developing solution, a fixing solution, and a stabilizing solution. It is necessary to maintain the concentration of these liquids in water at the time of development. For this reason, the replenisher of the developer, the fixer, and the stabilizer is supplied at a predetermined timing, and the liquid exceeding a predetermined amount is discharged to a waste liquid tank (see FIG. 7). When the waste liquid tank becomes full, the waste liquid tank is removed, the liquid is discarded by a predetermined method, and the liquid is set again after emptying.

[0004]

However, according to the above-mentioned conventional waste liquid treatment mechanism, when the waste liquid in the waste liquid tank becomes full, the waste liquid tank is replaced with a empty tank or the waste liquid in the tank is replaced. I was doing the extraction work.

[0005] At the time of the waste liquid processing, the print processing is temporarily interrupted so that no further replenisher liquid flows into the processing tank. That is, generally, since the processing tank is replenished with the processing liquid in accordance with the number of processed photographic papers, there is an inconvenience that the processing of the photographic paper itself must be stopped at the time of waste liquid processing.

SUMMARY OF THE INVENTION The present invention has been made to solve the problems of the prior art, and an object of the present invention is to provide a waste liquid processing apparatus which does not need to interrupt print processing even when processing waste liquid. It is in.

[0007]

According to the present invention, there is provided a waste liquid processing apparatus for processing a waste liquid of a processing liquid in a photographic development processing apparatus, wherein the waste liquid is used for finally storing the waste liquid. A tank, an intermediate tank for intermediately storing the waste liquid, a first discharge pipe for guiding the waste liquid flowing out of the processing tank in which the processing liquid is stored to the intermediate tank, and guiding the waste liquid from the intermediate tank to the waste liquid tank. A second discharge pipe, and a valve provided on the second discharge pipe, for controlling outflow of waste liquid from the intermediate tank to the waste liquid tank, wherein the valve is open in the intermediate tank In the state, the waste liquid is not stored, and the waste liquid is stored with the valve closed.

The waste liquid tank has waste liquid full detecting means, and the valve is a solenoid valve. When the waste liquid full detecting means detects that the waste liquid tank is full of waste liquid, the waste liquid tank automatically detects the waste liquid. The apparatus further comprises control means for controlling the waste liquid full detection means and the electromagnetic valve so that the valve is closed and waste liquid is stored in the intermediate tank.

A waste liquid processing apparatus for processing a waste liquid of a processing liquid in a photographic development processing apparatus, wherein a first waste liquid tank for storing the waste liquid, a second waste liquid tank for storing the waste liquid, and one end of the processing liquid are stored. A discharge pipe connected to the first waste liquid tank and the second waste liquid tank at the other end, and a waste liquid discharged from the processing tank flows into the first waste liquid tank, (2) a valve for switching whether to flow into the waste liquid tank.

The discharge pipe has a first discharge pipe having an end connected to the processing tank, a second discharge pipe having an end connected to the first waste liquid tank, and a second discharge pipe having an end connected to the first waste liquid tank. A third discharge pipe having an end to be connected is connected at one place, and the valve comprises: a first valve provided on the second discharge pipe; and a third valve provided on the third discharge pipe. And a second valve provided at the first position.

The first waste liquid tank and the second waste liquid tank have first full detecting means and second full detecting means, respectively, and when the first full detecting means detects full, the first valve is closed. When the second valve is opened and the second full detecting means detects full, the second valve is closed and the first valve is closed.
Control means for controlling the first and second valves so that the valves are opened;
It is characterized by having.

[0012]

Preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings. However, the relative arrangements, numerical values, and the like of the components described in the embodiments are not intended to limit the scope of the present invention to them unless otherwise specified.

(One Embodiment) <Structure of Entire Apparatus> First, the structure of an entire developing apparatus according to an embodiment of the present invention will be described with reference to FIG.

FIG. 1 shows a photographic printing / developing apparatus 1 (hereinafter referred to as an apparatus 1).
FIG. 1 is a front view showing the entire internal configuration of the present embodiment. The device 1 is provided with a cover and the like detachably provided to the housing 2, and this figure shows a state where the cover and the like of the device 1 are partially removed.

In FIG. 1, the apparatus 1 is composed of a printer (exposure printing) section 3, a processor (development processing) section 5, and a dryer (drying) section 6, and is configured to be horizontally long and flattened forward and backward. In order to minimize the occupied area, it is designed so that the main parts can be easily accessed from the front in various operations to be performed daily.

The photographic paper P exposed by the printer unit 3 is sent to the processor unit 5 via the transport unit 8. The photographic paper P transported to the processor unit 5 is sequentially sent to the developing tank 1
1, through the fixing processing tank 12 and the stabilizing processing tank 13, and then sent to the dryer unit 6.

Each processing tank has a rack unit 1
4 and a reversing roll (not shown) are provided, and all of the rack unit 14 and the reversing roll rotate at the same time to turn the photographic paper P entering the horizontal direction downward and guide it into each processing tank, Furthermore, the inside of each processing tank is transported as indicated by an arrow, and the direction is changed again by the rack unit 14 and sent to the next processing tank. The development processing tank 11 and the fixing processing tank 12 are each composed of one tank. The stabilization processing tank 13 has four tanks (13a, 13a) as shown in the figure.
b, 13c, 13d), and each tank is depleted so that the liquid level becomes lower in order from the right, and the replenishing stabilizing liquid flowing into 13a flows from 13b to 13c and further into 1c.
It flows into 3d and so on.

It is discharged from the tank 13a of the stabilization tank 13,
The photographic paper P conveyed to the dryer section 6 is first sent to a drying unit 15, dried, guided to a direction changing device 16, sorted by size, and supplied to a large-size tray 18.
Alternatively, the sheet is sent to a belt conveyor 17 of a normal size and discharged outside the apparatus 1.

A replenisher tank 24 for replenishing the processing solution, a replenishment tank 25 for the fixing solution, and a replenishment tank 26 for the stabilizing solution are provided below the processing tank in the processor unit 5. Above these replenishment tanks, a container storing various concentrated processing liquids as raw materials for making a processing liquid for replenishment is configured to be set, and when the processing liquid in the replenishment tank is reduced. Next, the set container is opened and poured into these tanks to generate a replenisher. The figure shows a state in which a developer container 20, a fixer container 21, and two stabilizing solution containers 22, 23 are set with their openings downward.

Below the drying unit 15, a control unit 9 for performing various controls related to each of the above-mentioned processing tanks is provided together with a power supply unit, and is configured to control the entire apparatus. I have.

<Detailed Configuration of Processor Unit> Next, the detailed configuration of the processor unit 5 will be described separately with reference to FIGS. FIG. 2 shows the developing tank 11 and the fixing tank 1.
2. Supply each processing liquid to the stable processing tank 13
FIG. 3 is a block diagram of the piping for discharging.

[Replenishment tank] A replenishment tank 24 for developer,
Fixer replenishment tank 25 and stabilizer replenishment tank 26
Are connected to a developing tank 11, a fixing tank 12, and a stabilizing tank 13, respectively, by a liquid supply pipe 10 having a pump 10a and an electromagnetic valve 10b. Basically, each replenisher can be supplied to each processing tank at a predetermined timing according to the number of processed prints. That is, the pump 10a and the solenoid valve 10b between each replenishment tank and each processing tank are controlled based on the output of the processing number counter 33 as shown in FIG.

Each of the replenishing tanks 24, 25, and 26 has a developer container 20, a fixer container 21, and two stabilizing solution containers 2.
Opening members 24a, 25a, 26a for 2, 23 are provided. The opening member is a hollow tube and also plays a role as an inflow path for the concentrated processing liquid. In addition, each refill tank 2
4, 25, and 26 are spare holes 24 through which the concentrated processing solution flows.
b, 25b, and 26b are provided, and further, a stirrer (not shown) is provided for each. 31 is a motor for the stirring device.

Also, as shown in FIG. 3, inside the replenishing tank, replenishing solution full detecting sensors 24c, 25c, 26c,
And a depletion detection sensor 24d, 25d, 26d, and controls a pump and an electromagnetic valve when refilling water from a water supply tank;
Alternatively, it is used to control the opening time of the solenoid valve when replenishing the processing bath with the processing solution.

[Waste liquid tank] Waste liquid tanks 28 and 29 are provided below the developing processing tank 11 and the fixing processing tank 12, and the old developing solution and fixing liquid in each processing tank are discharged to each tank. Is done. At the bottom of each waste liquid tank 28, 29, a sensor 28a for detecting the amount of waste liquid in the tank,
If the amount of waste liquid in the tank exceeds a certain amount, the user is prompted to remove the waste liquid in the tank. The waste liquid tanks 28 and 29 are piped such that the waste liquid flows out not only from the liquid surface of each of the processing tanks 11 and 12 but also from the bottom. Therefore, at the bottom of each processing tank, outlets 11a and 12a are provided at substantially the center thereof, and outflow passages 28c and 29c extend toward the waste liquid tanks 28 and 29. Solenoid valves 28b, 29b are provided in each of the outflow paths 28c, 29c.
Is provided, and the liquid level sensor 1 of each of the processing tanks 11 and 12 is provided.
It is linked with 1b and 12b. When the processing liquid is detected by these liquid level sensors 11b and 12b,
When the processing liquid is replenished in a certain amount, the solenoid valves 28b and 29b are opened for a certain period of time, waste liquid flows out, and paper powder and crystals settled at the bottom of the processing tanks 11 and 12 are discharged. Is done. To this end, the bottoms of the processing tanks 11 and 12 are provided with inclinations toward the outlets 11a and 12a.

On the other hand, intermediate tanks 11c and 12c and a solenoid valve 10b are provided in the outflow paths from the upper portions of the processing tanks 11 and 12, respectively. Further, an outflow path extends from the upper part of the tank 13d of the stabilization processing tank 13 to the waste liquid tank 29, and an intermediate tank 13c is also provided in the outflow path. These intermediate tanks 11c, 12c and 13c temporarily store the waste liquid discharged while the waste liquid tank is full and is replaced with an empty waste liquid tank. It is possible to exchange the waste liquid tank or remove the waste liquid without interruption.

[Reuse Tank] A reuse tank 30 is provided below the stabilization tank 13. An inflow path extends from the upper part of the tank 13d, and when a replenisher of a predetermined amount or more flows into the stabilization tank 13, the overflow is temporarily stored in the reuse tank 30. A flow path extends from the reuse tank 30 to the fixer replenishment tank 25. A predetermined amount of stabilizing liquid (an old one, close to water) at a predetermined timing by a pump and a solenoid valve provided on the way.
Is supplied to the replenishment tank 25 for fixing.

[Water Supply Tank] A water supply tank 27 is provided below the apparatus 1 and water is replenished once or twice a day to the gears in the rack units of the treatment layers 11, 12, and 13. Do. This is for preventing the generation of crystals and the generation of abnormal noise by injecting water into the sliding surface of the gear. For this reason, a flow path provided with a pump and an electromagnetic valve extends from the water supply tank 27 to all the tanks of each processing tank. The timing of water replenishment is also controlled by the output of the evaporation sensor 32.

Further, each replenishment tank 2
The flow path extends to 4, 25, and 26, but this flow path is one on the water supply tank side and one pump 27
It has only a and branches to three at the end. An electromagnetic valve is provided in each of the flow paths after branching, and controls the amount of inflowing water. From the water supply tank 27 to each replenishment tank 24, 2
Since a single pump is used as a device for supplying water to the devices 5 and 26, the productivity of the device 1 as a whole is improved, and the size of the device can be reduced. Further, a water tap 31 is provided in the water supply tank 27.
Is supplied with water.

[Other Configurations] A temperature control device 70 is provided in each processing tank, and is controlled so that each processing liquid is maintained at a desired temperature. Further, a reuse tank 30 for reusing a part of the water from the above-mentioned stabilization tank 13 is provided between the stabilizing tank 13 and the replenisher tank 25 for fixing solution. <Detailed Configuration and Operation of Waste Liquid Treatment Apparatus> Next, the configuration and operation of the waste liquid treatment apparatus will be described with reference to FIG.

FIGS. 4 and 5 are views showing the configuration of a waste liquid treatment apparatus according to an embodiment of the present invention.

FIG. 4 shows another waste liquid processing apparatus for discharging waste liquid from the development processing tank 11 to the waste liquid tank 28. The developing solution is replenished into the developing tank 11 from the developing solution replenishing tank 24 at a predetermined timing based on the number of processed prints. At this time, when the liquid level of the developer in the processing tank 11 reaches the overflow port 11d, excess developer is discharged, and first flows into the intermediate tank 11c through the discharge pipe 11e. The waste liquid in the intermediate tank 11c flows out of the discharge pipe 11f without stopping and is guided to the waste liquid tank 28. As shown in FIG. 4, when the waste liquid tank 28 is not full, the solenoid valve 10b is open and no waste liquid is stored in the intermediate tank 11c.

However, when the full sensor 28a provided below the waste tank 28 detects that the waste tank 28 is full, the user removes the waste tank 28,
The waste liquid in it must be removed. This state is shown in FIG. As shown in FIG. 5, when there is no waste liquid tank 28, the waste liquid flowing into the waste liquid tank 28 is closed by closing the electromagnetic valve 10b. Therefore, when the waste liquid tank 28 is removed, the waste liquid is stored in the intermediate tank 11c.

When the solenoid valve is opened after the replacement operation of the waste liquid tank 28 is completed, the waste liquid accumulated in the intermediate tank 11c flows into the waste liquid tank 28, and becomes a normal state as shown in FIG.
Wait until the waste liquid tank 28 is full again.

The solenoid valve 10b may be operated so as to be closed by the user as described above, or the controller may be controlled so as to be automatically closed in response to a signal output from the full detection sensor 28a. .

By providing the intermediate tank as described above, even when the waste liquid tank 28 is removed, there is no need to replenish the replenisher and eventually interrupt the printing process.

FIG. 6 is a diagram showing a configuration of a waste liquid treatment apparatus as another embodiment of the present invention.

As shown in the figure, this waste liquid treatment apparatus has a first waste liquid tank 281 for storing waste liquid, a second waste liquid tank 282 for storing waste liquid, and one end connected to the developing tank 11 and the other end. Is connected to the waste liquid tanks 281 and 282, and the waste liquid discharged from the development processing tank 11 flows into the waste liquid tank 281 or the waste liquid tank 282
Solenoid valves 101 and 102 for switching whether to flow into the apparatus. Further, the waste liquid tanks 281 and 282 have full detection sensors 281a and 282a, respectively.

This waste liquid processing apparatus operates as follows.

First, the solenoid valve 101 is opened, and the solenoid valve 102 is opened.
Is closed, and the waste liquid from the development processing tank 11 flows into the waste liquid tank 281 through the discharge pipe 11g. In this state, the printing process is performed, and when the sensor 281a detects that the waste liquid tank 281 is full, the solenoid valve 101 is closed and the solenoid valve 102 is opened next time.
At the same time, the user is notified that the waste liquid tank 281 is full.

At this point, the user replaces the full waste liquid tank 281. Since only the solenoid valve 102 is open, the waste liquid passing through the discharge pipe 11g flows to the waste liquid tank 282 this time. Come. Therefore, the developing tank 1
It is not necessary to stop the printing process itself in order to stop the replenishment of the developing solution into 1.

When the sensor 282a detects that the waste liquid tank 282 is full, the electromagnetic valve 102 is closed and the electromagnetic valve 101 is opened so that the waste liquid flows into the waste liquid tank 281. By repeating these steps, the processing solution can be replenished to the processing tank at a regular timing even when the waste liquid tank is replaced, and the efficiency of the printing process is not impaired.

In the above description, the waste liquid processing apparatus including the waste liquid tank 28 has been described. However, the waste liquid processing apparatus for the waste liquid tank 29 has the same configuration.

In the above description, the weight sensor is used as the full sensor, but any other sensor such as a float sensor may be used as long as it can detect the fullness of the waste liquid.

[0045]

According to the present invention, it is possible to provide a waste liquid processing apparatus which does not need to interrupt the print processing even when processing the waste liquid.

[Brief description of the drawings]

FIG. 1 is a view showing an overall configuration of a photographic printing and developing apparatus 1.

FIG. 2 is a schematic perspective view showing a piping configuration of a processor unit of FIG.

FIG. 3 is a block diagram illustrating a piping configuration of a processor unit of FIG. 1;

FIG. 4 is a diagram showing a schematic configuration of a waste liquid treatment apparatus as one embodiment of the present invention.

FIG. 5 is a diagram showing a schematic configuration of a waste liquid treatment apparatus as one embodiment of the present invention.

FIG. 6 is a diagram showing a schematic configuration of a waste liquid treatment apparatus as another embodiment of the present invention.

FIG. 7 is a diagram showing a schematic configuration of a conventional waste liquid treatment apparatus.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Photographic printing apparatus 2 Housing 3 Printer part 5 Processor part 6 Dryer part 8 Conveying part 9 Control unit 11 Development processing tank 11c Intermediate tank 12 Fixing processing tank 13 Stabilization processing tank 20 Developer container 21 Fixer container 22, 23 Stable Liquid container 24 Developer supply tank 25 Fixer supply tank 26 Stabilizer supply tank 27 Water supply tank 28, 29, 281, 282 Waste liquid tank 28a, 29a Fullness detector 101, 102 Solenoid valve

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[Procedure amendment]

[Submission date] February 10, 2000 (2000.2.1
0)

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] 0022

[Correction method] Change

[Correction contents]

[Replenishment tank]
Fixer replenishment tank 25 and stabilizer replenishment tank 26
Are connected to a developing processing tank 11, a fixing processing tank 12, and a stabilizing processing tank 13, respectively, by a liquid supply pipe 10c having a pump 10a and an electromagnetic valve 10b. And
Basically, each replenisher can be supplied to each processing tank at a predetermined timing according to the number of processed prints. That is, the pump 10a and the solenoid valve 10b between each replenishment tank and each processing tank are controlled based on the output of the processing number counter 33 as shown in FIG.

[Procedure amendment 2]

[Document name to be amended] Statement

[Correction target item name] 0028

[Correction method] Change

[Correction contents]

[Water Supply Tank] A water supply tank 27 is disposed below the apparatus 1 and water is replenished once or twice a day to gears in the rack units of the processing tanks 11, 12, and 13. Do. This is for preventing the generation of crystals and the generation of abnormal noise by injecting water into the sliding surface of the gear. For this reason, a flow path provided with a pump and an electromagnetic valve extends from the water supply tank 27 to all the tanks of each processing tank. The timing of water replenishment is also controlled by the output of the evaporation sensor 32.

[Procedure amendment 3]

[Document name to be amended] Statement

[Correction target item name] 0029

[Correction method] Change

[Correction contents]

Further, each replenishment tank 2
The flow passages extend to 4, 25, and 26, but this flow passage is one on the water supply tank side and one pump 10
It has only 0 and branches to three beyond it. An electromagnetic valve is provided in each of the flow paths after branching, and controls the amount of inflowing water. From the water supply tank 27 to each replenishment tank 24, 2
Since a single pump is used as a device for supplying water to the devices 5 and 26, the productivity of the device 1 as a whole is improved, and the size of the device can be reduced. Further, a water tap 35 is provided in the water supply tank 27.
Is supplied with water.

Claims (5)

[Claims] 1. A waste liquid processing apparatus for processing a waste liquid of a processing liquid of a photographic development processing apparatus, the waste liquid tank storing the waste liquid finally, an intermediate tank storing the waste liquid intermediately, and the processing liquid A first discharge pipe for guiding the waste liquid flowing out of the stored processing tank to the intermediate tank, a second discharge pipe for guiding the waste liquid from the intermediate tank to the waste liquid tank, and a second discharge pipe provided on the second discharge pipe; A valve for controlling the outflow of the waste liquid from the tank to the waste liquid tank; andthe intermediate tank does not store the waste liquid when the valve is open, and stores the waste liquid when the valve is closed. A waste liquid treatment apparatus. 2. The waste liquid tank has waste liquid full detecting means. The valve is a solenoid valve. When the waste liquid full detecting means detects that the waste liquid tank is full with waste liquid, the waste liquid tank automatically detects when the waste liquid tank is full. 2. The waste liquid treatment apparatus according to claim 1, further comprising a control unit that controls the waste liquid full detection unit and the electromagnetic valve so that the valve is closed and waste liquid is stored in the intermediate tank. 3. A waste liquid processing apparatus for processing a waste liquid of a processing liquid of a photographic development processing apparatus, comprising: a first waste liquid tank for storing the waste liquid; a second waste liquid tank for storing the waste liquid; A discharge pipe connected to the stored processing tank and having the other end connected to the first waste liquid tank and the second waste liquid tank, and whether the waste liquid discharged from the processing tank flows into the first waste liquid tank, A valve for switching whether to flow into the second waste liquid tank. 4. The discharge pipe has a first discharge pipe having an end connected to the treatment tank, a second discharge pipe having an end connected to the first waste liquid tank, and the second waste liquid. A third discharge pipe having an end connected to the tank, which is connected at one location, wherein the valve comprises: a first valve provided on the second discharge pipe; and a third discharge pipe. The waste liquid treatment apparatus according to claim 3, further comprising a second valve provided on the pipe. 5. The first waste liquid tank and the second waste liquid tank have first full detecting means and second full detecting means, respectively, and when the first full detecting means detects full, the first valve is provided. Is closed and the second valve is opened, and when the second full detection means detects fullness, control means for controlling the first and second valves so that the second valve closes and the first valve opens. The waste liquid treatment apparatus according to claim 4, comprising: