JPH0553557B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application] The present invention relates to a developer waste liquid processing apparatus used for concentrating photographic developer waste liquid.

[Conventional technology]

The waste liquid produced during photographic processing is
Because it is not possible to dispose of waste into rivers, etc. to prevent pollution, the reality is that disposal is outsourced to specialized companies. Since most of the developer waste liquid is water, if the developer waste liquid is concentrated or solidified, the amount to be stored can be extremely small, and the storage space and subsequent processing can be simplified.

Recently, developing waste liquid processing apparatuses that can separate and recover solid substances contained in waste liquid have been commercially available. This developing waste liquid processing apparatus is configured to temporarily store waste liquid sent from an automatic developing machine through a pipe in a receiving tank, and then send it to a transfer tank using a pump. A transfer roller is rotatably provided in the transfer tank in a partially immersed state, and the waste liquid is attached to the rotating heat cylinder via the transfer roller. During the rotation of this rotary thermal cylinder, water evaporates and the remaining harmful solids are scraped off with a scraper and collected in a sludge pan. In addition, evaporated moisture and the like are dissipated into the atmosphere.

[Problem that the invention seeks to solve]

In the above-mentioned developer waste liquid treatment apparatus, during the treatment of the developer waste liquid, water in the developer waste liquid is discharged as water vapor to the outside of the developer waste liquid treatment apparatus. As a result, the place where the developing waste liquid treatment device is installed becomes humid due to the discharged water vapor, which has a disadvantage in that it has a negative effect on other installed equipment and articles.

The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a dehumidifying type developer waste liquid processing apparatus that recovers water from the developer waste liquid.

[Means for solving problems]

In order to achieve the above object, the present invention provides a main body case having an intake hole and an exhaust hole, a waste liquid tank provided inside the main body case for storing developing waste liquid, and a waste liquid tank partially immersed in the developing waste liquid. An evaporation medium that moves to expose the waste developer solution in the tank to the outside air after adhering to it; a fan that generates an air flow that flows in from the intake hole, passes through the evaporation medium, and flows out to the discharge hole; A cooler is installed between the exhaust hole and cools and liquefies the moisture evaporated from the evaporation medium, and a cooler is installed between the intake hole and the evaporation medium and allows outside air to flow in from the intake hole using heat obtained from the cooler. Equipped with a radiator to heat the room.

Embodiments of the present invention will be described in detail below with reference to the drawings.

〔Example〕

FIG. 1 shows an embodiment of the developing waste liquid treatment apparatus of the present invention. An exhaust hole 3 and an intake hole 4 are provided on the right side surface of the main body case 2 of this developing waste liquid processing apparatus 1 from above. A waste liquid tank 5 is installed on the left side of the main body case 2, and a waste liquid pipe 6 from this waste liquid tank 5 is inserted into the main body case 2. A waste liquid tank 7 is installed at the bottom of the main body case 2 so as to be located below the discharge hole of the waste liquid pipe 6. A waste liquid pipe 6 connecting the waste liquid tank 5 of this waste liquid tank 7 is provided with a suction pump 10 controlled by a float switch 8 and a pump drive circuit 9. That is,
Until the float switch 8 is turned on by the surface of the developer waste in the waste tank 7, the pump 10 operates to send the developer waste 11 in the waste tank 5 to the waste tank 7, and the float switch 8 is turned on. By turning on, the pump 10 stops operating.

Pulleys 12a and 12b are provided on the bottom of the waste liquid tank 7.
are attached, and the main body case 2 corresponds to these.
A mesh endless belt 14 is stretched between pulleys 13a and 13b provided therein. The pulleys 13a and 13b are V
By being connected to the motor _M1 via belts 15a and 15b and driving the motor _M1 ,
The endless belt 14 can be run.

A duct 16 is installed above the pulleys 13a and 13b.
A fan 17 is provided within the duct 16. This fan 17 is V-belt 18
When driven by the motor M ₁ through the endless belt 14 , air containing moisture evaporated from the endless belt 14 is sent through the duct 16 to the exhaust hole 3 . Duct 1
A cooler 19 is attached to the other end of the fan 6 to cool the air sent by the fan 16. A water drop tray 20 is installed below the cooler 19 to receive water cooled and liquefied by the cooler 19. A drain pipe 21 is attached to this water tray 20 to drain the water dripping into the tray 20 to the outside of the main body case 2.

A radiator 22 is provided adjacent to an intake hole 4 provided on the side surface of the main body case 2, and an intake fan 24 is provided at the back of the radiator 22. The cooler 19 and the radiator 22 are connected via a pipe 23 for refrigerant circulation. Furthermore, this pipe 23 includes a compressor 25 for compressing the refrigerant circulating from the cooler 19, and an expansion valve 26 for rapidly expanding the refrigerant that has passed through the radiator 22.
are connected. As a result, compressed refrigerant whose temperature has become high flows through the radiator 22,
To warm the outside air taken in from the intake hole 4. Also,
When the refrigerant expands by opening the expansion valve 26 and passes through the cooler 19, it absorbs heat from its surroundings, so that the air discharged from the exhaust hole 3 is cooled.

According to the developing waste liquid processing apparatus 1 configured as described above, the developing waste liquid 1 stored in the waste liquid tank 5
1 is pumped up into a waste liquid tank 7 by a suction pump 10. As the amount of the developer waste liquid 11 pumped up increases, the liquid level of the developer waste liquid 11 in the waste liquid tank 7 rises. When the liquid level is detected by the float switch 8, the operation of the suction pump 10 is stopped. Further, when the liquid level of the developer waste liquid 11 falls, the float switch 8 is turned off, and the suction pump 10 is operated again via the pump drive circuit 9. Therefore, a predetermined amount of the developing waste liquid 11 is always stored in the waste liquid tank 7.

By driving the motor _M1 , the endless belt 14 runs while partially immersed in the developer waste liquid. Therefore, the endless belt 14 to which the developing waste liquid 11 has adhered is pulled out from the waste liquid tank 7 and exposed to the outside air. The endless belt 14 thus exposed to the outside air is blown into the endless belt 14 through the intake hole 4 by the fan 24, and outside air warmed by the radiator is blown onto the endless belt 14. When warmed air is blown onto the endless belt 14, the water in the developer waste adhering to the endless belt 14 rapidly evaporates. The humid air containing a large amount of moisture evaporated in this way is sent to the cooler 19 through the duct 16 by the fan 17, and this air is sent to the cooler 19.
As the water vapor passes through the container 9, it is cooled and the supersaturated water vapor is liquefied and dripped into the tray 20.
As a result, dry air after dehumidification is discharged from the exhaust hole 3. Therefore, there is no possibility of increasing the humidity around the developing waste liquid processing apparatus 1.

Moreover, since the water dripping into the saucer 20 is discharged to the outside of the main body case 2 through the drain pipe 21,
You can either collect it in a separate container or simply pour it into the drain.

Note that as the endless belt 14, a synthetic resin sheet having a mesh structure, cloth, or the like can be used as long as it is easily adhered to developer waste. Further, in the illustrated embodiment, two endless belts 14 are arranged in parallel in order to increase the evaporation efficiency and to avoid increasing the size of the apparatus itself, but the number is not necessarily limited to this.

〔Effect of the invention〕

As described above in detail, according to the waste developer treatment apparatus of the present invention, after the water is evaporated from the waste developer, the air containing moisture is dehumidified and then exhausted. Therefore, humid air is not discharged from the developing waste liquid processing device, and the problem of abnormally increasing the humidity around the developing device, unlike the conventional device, does not occur.

[Brief explanation of the drawing]

FIG. 1 is a cross-sectional view of an embodiment of the developer waste liquid treatment apparatus of the present invention. 1... Development waste liquid processing device, 2... Main body case,
3... Exhaust hole, 4... Intake hole, 7... Waste liquid tank, 1
5...Belt, 17...Fan, 19...Cooler, 22...Radiator, 24...Fan.

Claims (1)

[Scope of Claims] 1. A developing waste liquid processing device for concentrating photographic developing waste liquid, comprising: a main body case having an intake hole and an exhaust hole; a waste liquid tank provided in the main body case for storing the developing waste liquid; and a developing liquid waste tank. An evaporation medium is partially immersed in the evaporation medium and moves to expose the development waste solution in the waste liquid tank to the outside air after adhering to it, and an airflow is generated that flows in from the intake hole, passes through the evaporation medium, and flows out to the discharge hole. a cooler installed between the fan and the exhaust hole to cool and liquefy the moisture evaporated from the evaporation medium; and a cooler installed between the intake hole and the evaporation medium to cool and liquefy the moisture that has evaporated from the evaporation medium; A developing waste liquid processing apparatus characterized in that it is equipped with a radiator for warming outside air flowing in from an intake hole. 2. The developing waste liquid treatment apparatus according to claim 1, wherein the evaporation medium is an endless belt having a mesh structure. 3. Claim 2, characterized in that two endless belts having the mesh structure are arranged in parallel.
Developing waste liquid processing device described in Section 1.