CN210048825U - Carbon residue copper scrap cleaning and sorting device - Google Patents

Abstract

The utility model discloses a carbon residue and waste copper cleaning and sorting device, which comprises a high-level reservoir, a cleaning pool, a three-level filtering pool and a sedimentation pool, wherein the high-level reservoir is connected with the cleaning pool, and a stirring device is arranged in the cleaning pool; the third-stage filter tank is connected with the cleaning tank and is connected to the sedimentation tank; the sedimentation water tank is connected back to the high-level reservoir through a return conduit to form a circulation structure of cleaning water. The utility model separates the copper-containing carbon ash through the self-flowing clear water and the stirring device through the mutual matching of the high-position reservoir, the cleaning pool, the three-stage filtering pool and the sedimentation pool from high to low in sequence, so that the copper slag sinks, and the carbon ash floats upwards, thereby separating the waste copper; the waste water containing carbon ash is filtered by the three-stage filter tank and precipitated by the precipitation water tank to achieve the recycling condition, and then is pumped into the high-level reservoir by the water pump for recycling.

Description

Carbon residue copper scrap cleaning and sorting device

Technical Field

The utility model relates to an electrolytic copper foil raw and other materials processing technology field, concretely relates to a device for retrieving copper scrap from charcoal sediment.

Background

The raw material copper plate/copper wire has high requirement on the purity during the preparation of the electrolytic copper foil, so that the purchased copper plate/copper wire needs to be subjected to fusion casting and wire drawing treatment, namely, the raw material (copper wire/copper plate) is firstly added into a melting furnace which is covered with charcoal in advance according to the process requirement to be molten into copper liquid, the copper liquid is purified by a transition cavity and then is introduced into a crystallizer filled with cooling water through a heat preservation furnace (the temperature of the copper liquid is ensured to be within the range of 1140-1160 ℃) to be cooled and crystallized, an 8mm oxygen-free copper rod is formed and is continuously led out, and the drawn copper rod is taken up and loaded on a tray through a take-up. Because partial molten copper falls into charcoal ash formed by burning charcoal, the traditional treatment of charcoal ash garbage only directly discharges the charcoal ash after simple washing, and the problems of environmental pollution, excessive water resource consumption, copper resource waste and the like are easily caused.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to the shortcoming that prior art exists, provide a simple structure, convenient operation, can be very easily with the charcoal sediment copper scrap cleaning and sorting device that copper scrap was retrieved.

In order to solve the technical problem, the utility model adopts the following technical scheme: the utility model provides a useless copper of charcoal sediment washs sorting device which characterized in that: the copper-containing carbon slag cleaning device comprises a high-level reservoir, a cleaning pool, a three-level filtering pool, a sedimentation water pool and a control box, wherein copper-containing carbon slag is placed in the high-level cleaning pool, the high-level reservoir and the cleaning pool are connected to form a structure which can enable clear water in the high-level reservoir to flow into the cleaning pool, and a stirring device used for stirring the copper-containing carbon slag is arranged in the cleaning pool; the three-stage filtering tank comprises a first-stage filtering area, a second-stage filtering area and a third-stage filtering area which are sequentially arranged, the first-stage filtering area, the second-stage filtering area and the third-stage filtering area are communicated with each other, a filter screen is arranged in each stage of filtering area, the first-stage filtering area is connected with the cleaning tank, the third-stage filtering area is connected with the sedimentation tank, and the second-stage filtering area is positioned between the first-stage filtering area and the third; the sedimentation water tank is connected back to the high-level reservoir through a return conduit to form a circulation structure of cleaning water.

Furthermore, the position of the high-level reservoir is higher than that of the cleaning pool, so that clean water of the high-level reservoir can automatically flow into the cleaning pool from the upper part, and the impact force of the clean water during flushing can play a good role in stirring; the position of the cleaning pool is higher than that of the third-stage filtering pool, so that the slag-liquid mixture in the cleaning pool can automatically flow into the third-stage filtering pool; the position of the third filtering tank is higher than that of the sedimentation tank, so that water filtered by the third filtering tank can automatically flow into the sedimentation tank; a pump is arranged in the return conduit between the sedimentation water tank and the high-level reservoir, and the clear water in the sedimentation water tank is pumped into the high-level reservoir by the pump. The structure can ensure that most of the whole device realizes the self-flow of liquid, and only finally, the water pump is needed to pump clean water back to the high-level reservoir for realizing the recycling.

Furthermore, the device also comprises a mounting platform which is of a step structure with a high step and a low step, wherein the high-level reservoir is mounted at a high-level position, and the cleaning pool is mounted at a low-level position, so that the position of the high-level reservoir is higher than that of the cleaning pool, and the device is simple in structure.

Furthermore, the aperture of the filter screen in the first-stage filtering area is larger than that of the filter screen in the second-stage filtering area, and the aperture of the filter screen in the second-stage filtering area is larger than that of the filter screen in the third-stage filtering area. The primary filtering area filters out larger particles at first, the secondary filtering area filters out medium particles, the tertiary filtering area filters out smaller particles, and the rest smaller particles which are not filtered are removed by sedimentation through the sedimentation tank.

Further, the leakage fluid dram that washs the pond sets up in the intermediate position of wasing the pond lateral wall, and the leakage fluid dram is higher than the bottom of the pool that washs the pond but is less than the liquid level position, can make the copper slag sink at the bottom of the pool that washs the pond like this, and the sewage of thoughtlessly having the charcoal ash then filters in discharging to tertiary filtering ponds from the leakage fluid dram, washs the pond and is equipped with the discharge port that is used for the empty water of complete drainage in addition, can retrieve waste copper after emptying water completely.

The overall size of each filter screen is 116cm in length and 55cm in width, the aperture of the filter screen in the first-stage filtering area is 10 mm, the aperture of the filter screen in the second-stage filtering area is 6 mm, and the aperture of the filter screen in the third-stage filtering area is 3 mm.

And (3) placing the copper-containing carbon ash garbage into a cleaning pool, placing clear water into the cleaning pool from a high-level reservoir, and stirring the cleaning pool. Because the density of copper is greater than that of carbon ash, copper slag can sink to the bottom of the cleaning tank in the stirring process, and the carbon ash and wastewater are discharged into the third-stage filtering tank through a pipeline. And carrying out three-stage filtration on the wastewater in a three-stage filtration tank, blocking most particle impurities in the wastewater on a filter screen, and discharging the water subjected to the three-stage filtration into a precipitation tank for precipitation treatment. The water after the precipitation treatment is uploaded to a high-level reservoir by a pump, and then the recovery of waste water and the recovery and utilization of waste copper are realized.

The utility model separates the copper-containing carbon ash through the self-flowing clear water and the stirring device through the mutual matching of the high-position reservoir, the cleaning pool, the three-stage filtering pool and the sedimentation pool from high to low in sequence, so that the copper slag sinks, and the carbon ash floats upwards, thereby separating the waste copper; the waste water containing carbon ash is filtered by the three-stage filter tank and precipitated by the precipitation water tank to achieve the recycling condition, and then is pumped into the high-level reservoir by the water pump for recycling.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

In the figure, 1 is a high-level reservoir, 2 is a cleaning tank, 3 is a three-stage filtering tank, 31 is a first-stage filtering area, 32 is a second-stage filtering area, 33 is a third-stage filtering area, 4 is a sedimentation tank, 5 is an installation platform, 6 is a return conduit, and 7 is a pump.

Detailed Description

In this embodiment, referring to fig. 1, the carbon slag and waste copper cleaning and sorting device includes a high-level reservoir 1, a cleaning tank 2, a third-stage filtering tank 3, a sedimentation tank 4 and a control box, which are used for controlling water pumping and the like, wherein copper-containing carbon slag is placed in the high-level cleaning tank 1, the high-level reservoir 1 is connected with the cleaning tank 2 to form a structure that clean water in the high-level reservoir 1 can flow into the cleaning tank 2, and a stirring device (not shown in the drawing, which is only required to adopt a stirring device in the prior art, such as a stirring blade and the like) for stirring the copper-containing carbon slag is; the third filtering tank 3 comprises a first filtering area 31, a second filtering area 32 and a third filtering area 33 which are arranged in sequence, the first filtering area 31, the second filtering area 32 and the third filtering area 33 are communicated with each other, a filter screen (not shown) is arranged in each filtering area, the first filtering area 31 is connected with the cleaning tank 2, the third filtering area 31 is connected with the sedimentation tank 4, and the second filtering area 32 is arranged between the first filtering area 31 and the third filtering area 33; the sedimentation water tank 4 is connected back to the high-level reservoir 1 through a return conduit 6 to form a circulation structure of cleaning water.

The position of the high-level reservoir 1 is higher than that of the cleaning pool 2, so that the clean water in the high-level reservoir 1 can automatically flow into the cleaning pool 2 from the top, and the impact force of the clean water during flushing can play a good role in stirring; the position of the cleaning pool 2 is higher than that of the third-stage filtering pool 3, so that the slag-liquid mixture in the cleaning pool 2 can automatically flow into the third-stage filtering pool 3; the position of the third filtering tank 3 is higher than that of the sedimentation tank 4, so that water filtered by the third filtering tank 3 can automatically flow into the sedimentation tank 4; a pump 7 is arranged in the return conduit 6 between the sedimentation water tank 4 and the high-level reservoir 1, and the clean water in the sedimentation water tank 4 is pumped into the high-level reservoir 1 through the pump 7. The structure can ensure that the whole device mostly realizes the self-flow of liquid, and only finally needs the water pump to pump clean water back to the high-level reservoir 1 for recycling.

The washing machine further comprises a mounting platform 5, the mounting platform 5 is of a stepped structure with two steps, namely a high-level reservoir 1 is mounted at a high-level position, and a washing tank 2 is mounted at a low-level position, so that the position of the high-level reservoir 1 is higher than that of the washing tank 2, and the washing machine is simple in structure.

The aperture of the filter screen in the first-stage filtering area 31 is larger than that of the filter screen in the second-stage filtering area 32, and the aperture of the filter screen in the second-stage filtering area 32 is larger than that of the filter screen in the third-stage filtering area 33. The primary filtering area 31 firstly filters out larger particles, the secondary filtering area 32 filters out medium particles, the tertiary filtering area 33 filters out smaller particles, and the rest smaller particles which are not filtered are removed by sedimentation in the sedimentation tank 4.

Wash 2 the leakage fluid dram of pond sets up in the intermediate position who washs 2 lateral walls of pond, and the leakage fluid dram is higher than the bottom of the pool of wasing pond 2 but is less than the liquid level position, can make the copper slag sink at the bottom of the pool of wasing pond 2 like this, and the sewage of thoughtlessly having the charcoal ash then filters in discharging tertiary filter tank 3 from the leakage fluid dram, washs 2 and is equipped with the discharge port that is used for the water of emptying completely in addition, can retrieve waste copper after emptying water completely.

The overall size of each filter screen is 116cm long and 55cm wide, the aperture of the filter screen of the primary filtering area 31 is 10 mm, the aperture of the filter screen of the secondary filtering area 32 is 6 mm, and the aperture of the filter screen of the tertiary filtering area 33 is 3 mm, so that the filter screen can respectively filter the particulate impurities with corresponding sizes.

The copper-containing carbon ash garbage is placed in a cleaning pool 2, clear water is placed in the cleaning pool 2 from a high-level reservoir 1, and the cleaning pool 2 is stirred. Because the density of copper is greater than that of carbon ash, copper slag can sink to the bottom of the cleaning tank 2 in the stirring process, and the carbon ash and wastewater are discharged into the third-stage filtering tank 3 through a pipeline. And carrying out three-stage filtration on the wastewater in the three-stage filtration tank 3, blocking most particle impurities in the wastewater on a filter screen, and discharging the water subjected to the three-stage filtration into a precipitation tank for precipitation treatment. The water after the precipitation treatment is uploaded to a high-level reservoir 1 by a pump, so that the recovery of the waste water and the recovery and utilization of the waste copper are realized.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the scope of the invention, i.e. the present invention is intended to cover all equivalent variations and modifications within the scope of the present invention.

Claims (6)

1. The utility model provides a useless copper of charcoal sediment washs sorting device which characterized in that: the copper-containing carbon slag cleaning device comprises a high-level reservoir, a cleaning pool, a three-level filtering pool, a sedimentation water pool and a control box, wherein copper-containing carbon slag is placed in the high-level cleaning pool, the high-level reservoir and the cleaning pool are connected to form a structure which can enable clear water in the high-level reservoir to flow into the cleaning pool, and a stirring device used for stirring the copper-containing carbon slag is arranged in the cleaning pool; the three-stage filtering tank comprises a first-stage filtering area, a second-stage filtering area and a third-stage filtering area which are sequentially arranged, the first-stage filtering area, the second-stage filtering area and the third-stage filtering area are communicated with each other, a filter screen is arranged in each stage of filtering area, the first-stage filtering area is connected with the cleaning tank, the third-stage filtering area is connected with the sedimentation tank, and the second-stage filtering area is positioned between the first-stage filtering area and the third; the sedimentation water tank is connected back to the high-level reservoir through a return conduit to form a circulation structure of cleaning water.

2. The carbon slag waste copper cleaning and sorting device according to claim 1, characterized in that: the position of the high-level reservoir is higher than that of the cleaning pool, so that clear water of the high-level reservoir can automatically flow from the upper part and fall into the cleaning pool; the position of the cleaning pool is higher than that of the third-stage filtering pool, so that the slag-liquid mixture in the cleaning pool can automatically flow into the third-stage filtering pool; the position of the third filtering tank is higher than that of the sedimentation tank, so that water filtered by the third filtering tank can automatically flow into the sedimentation tank; a pump is arranged in the return conduit between the sedimentation water tank and the high-level reservoir, and the clear water in the sedimentation water tank is pumped into the high-level reservoir by the pump.

3. The carbon slag waste copper cleaning and sorting device according to claim 1, characterized in that: the washing device is characterized by further comprising a mounting platform which is of a step structure with a high step and a low step, wherein the high-level reservoir is mounted on a high-order position, and the washing tank is mounted on a low-order position, so that the position of the high-level reservoir is higher than that of the washing tank.

4. The carbon slag waste copper cleaning and sorting device according to claim 1, characterized in that: the aperture of the filter screen in the first-stage filtering area is larger than that of the filter screen in the second-stage filtering area, and the aperture of the filter screen in the second-stage filtering area is larger than that of the filter screen in the third-stage filtering area.

5. The carbon slag waste copper cleaning and sorting device according to claim 1, characterized in that: the liquid outlet of the cleaning pool is arranged in the middle of the side wall of the cleaning pool, and the liquid outlet is higher than the bottom of the cleaning pool but lower than the liquid level.

6. The carbon slag waste copper cleaning and sorting device according to claim 4, characterized in that: the overall size of each filter screen is 116cm in length and 55cm in width, the aperture of the filter screen in the first-stage filtering area is 10 mm, the aperture of the filter screen in the second-stage filtering area is 6 mm, and the aperture of the filter screen in the third-stage filtering area is 3 mm.

Images