KR20170002661U

KR20170002661U - cooper plate recycling apparatus

Info

Publication number: KR20170002661U
Application number: KR2020160000261U
Authority: KR
Inventors: 임동묵
Original assignee: (주)성우알씨
Priority date: 2016-01-18
Filing date: 2016-01-18
Publication date: 2017-07-26

Abstract

The present invention relates to a novel structure of a copper plate reproducing apparatus capable of effectively removing carbon from a strip-shaped copper plate coated with carbon to reproduce the copper plate.
The copper plate reproducing apparatus according to the present invention removes the carbon coated on the copper plate 1 released from the uncoiler 10 in a state where the copper plate 1 is wound on the uncoiler 10 without cutting the copper plate 1, And completes the operation.
Therefore, unlike the conventional method of removing carbon in a state in which the copper plate 1 is finely cut off, there is an advantage that work can not be easily performed, and loss of the copper plate 1 can be prevented.
The removing means 20 for removing the carbon is provided with an air jetting means 26 for blowing air so that the carbon is released to the copper plate 1 to more effectively remove the carbon coated on the copper plate 1 There is an advantage to be able to do.

Description

[0001] COPPER PLATE RECYCLING APPARATUS [0002]

The present invention relates to a novel structure of a copper plate reproducing apparatus capable of effectively removing carbon from a strip-shaped copper plate coated with carbon to reproduce the copper plate.

Generally, a strip-shaped copper plate wound in a coil shape is provided inside a battery or the like.

At this time, the copper plate is covered with carbon.

Therefore, in order to extract and recycle the copper plate from a battery whose life is short, it is necessary to carry out a regeneration process of removing the carbon coated on the copper plate.

On the other hand, in order to remove the carbon coated on the copper plate in this way, a method is used in which the copper plate is finely cut and then the cut copper plate is immersed in hot water at a constant temperature so that the carbon is naturally peeled off.

At this time, if necessary, vibration may be applied by shaking the container containing the hot water so that the carbon is released more quickly.

However, when the copper plate is reproduced in this manner, it is necessary to cut the copper plate finely, so that the operation is very troublesome and takes a lot of time, and there is also a problem that a loss of the copper plate may occur in cutting the copper plate.

Particularly, in order to recycle the copper plate thus regenerated, the copper plate from which the carbon has been removed must be collected and molded again into a strip form, thereby requiring a large cost for regeneration.

Therefore, there is a need for a new method to solve such a problem.

Patent Document 1: JP-A-10-0056330, 10-0930624,

It is an object of the present invention to provide a novel structure of a copper plate reproducing apparatus capable of effectively removing carbon and reproducing a copper plate from a strip-shaped copper plate coated with carbon.

In order to achieve the above object, the present invention provides an uncoiler (10) for winding a carbon-coated copper plate (1) in a strip form and unwinding the copper plate (1) at a constant speed, A removing means 20 provided at an intermediate portion of the path where the copper plate 1 is loosened to remove the carbon coated on the copper plate 1 and a copper plate 20 having passed through the removing means 20 to remove carbon, The removing means 20 includes a support 21 provided at an intermediate portion of a path through which the copper plate 1 passes and a support 21 provided at the support 21, A heater 23 for heating the water stored in the water storage tank 20 and a heater 23 for heating the water stored in the water storage tank 20 and the water storage tank 20, And an intermediate portion of the copper plate (1) is provided with a plurality of guide rollers (24, 25) W is copper and reproducing apparatus, it characterized in that the immersed in the water stored in the water storage tank 20 is provided.

According to another feature of the present invention, the guide rollers 24 and 25 include a plurality of lower guide rollers 24 provided in the water storage tank 20 so as to be immersed in the water stored in the water storage tank 20, And a plurality of upper guide rollers 25 provided on the supporter 21 so as to be positioned on the water surface of the water stored in the reservoir tank 20, And the lower end of the lower guide roller 24 is alternately passed through the lower end of the upper guide roller 24 and the upper end of the lower guide roller 24 so as to be immersed in the water stored in the water storage tank 20 and exposed to the upper part of the water. Further comprising an air jetting means (26) for jetting high pressure air to the periphery of the copper plate (1) exposed above the water to remove carbon coated on the copper plate (1) Is provided.

According to another feature of the present invention, the water storage tank 20 is provided with a heating tank 22a for heating the copper plate 1 and the carbon, And a washing tank 22c located behind the removing tank 22b for washing off carbon pieces sticking to the copper plate 1. The washing tank 22c is connected to the air spraying means 22b, 26) is configured to spray air around the periphery of the copper plate (1) before being immersed in the water stored in the washing tank (22c) after passing through the heating tank (22a).

According to another feature of the present invention, the first discharge pipe 31 for connecting the washing tank 22c and the removing tank 22b to discharge the water and carbon pieces in the washing tank 22c to the removing tank 22b, A second discharge pipe 32 connecting the removal tank 22b and the heating tank 22a to discharge water and carbon pieces in the removal tank 22b to the heating tank 22a, A water jet nozzle 33 provided to face the circumferential surface of the copper plate 1 that has passed through the water stored in the washing tank 22c above the heating tank 22a and the water jetting nozzle 33, A filter body 35 provided at a middle portion of the supply pipe 34 to filter carbon pieces contained in the water discharged from the heating tank 22a and a filter body 35 disposed between the supply pipe 34 and the supply pipe 34, Further comprising a circulation pump (36) provided in the heating unit (22a) for supplying water of the heating tank (22a) to the water injection nozzle (33) The copper plate and reproducing apparatus, characterized in that provided in the (22a) is provided.

The copper plate reproducing apparatus according to the present invention removes the carbon coated on the copper plate 1 released from the uncoiler 10 in a state where the copper plate 1 is wound on the uncoiler 10 without cutting the copper plate 1, And completes the operation.

Therefore, unlike the conventional method of removing carbon in a state in which the copper plate 1 is finely cut off, there is an advantage that work can not be easily performed, and loss of the copper plate 1 can be prevented.

The removing means 20 for removing the carbon is provided with an air jetting means 26 for blowing air so that the carbon is released to the copper plate 1 to more effectively remove the carbon coated on the copper plate 1 There is an advantage to be able to do.

1 is a configuration diagram showing a copper plate reproducing apparatus according to the present invention,
2 is a configuration diagram showing a second embodiment of the copper plate reproducing apparatus according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 shows a copper plate reproducing apparatus according to the present invention, which comprises an uncoiler 10 in which a strip-shaped copper plate 1 coated with carbon is wound and unwound the copper plate 1 at a constant speed, (20) provided at an intermediate portion of a path through which the copper plate (1) unwound from the copper plate (10) is extended to remove the carbon coated on the copper plate (1) And a coiler 40 for winding the copper plate 1 removed.

The uncoiler 10 includes a support frame 11 fixed to the bottom surface and a support shaft 12 rotatably coupled to the support frame 11. The uncoiler 10 is supported on the periphery of the support shaft 12, The copper plate 1 is wound.

The removing means 20 comprises a support 21 provided at an intermediate portion of a path through which the copper plate 1 passes, a water storage tank 20 provided in the support 21 and storing water therein, A heater 23 provided in the water storage tank 20 for heating the water stored in the water storage tank 20; a plurality of guide rollers 24 and 25 provided in the support 21 and the water storage tank 20; And air jetting means 26 provided on the support table 21 for jetting high pressure air around the periphery of the copper plate 1. [

The water storage tank 20 is provided with a heating tank 22a for heating the copper plate 1 and the carbon and a removing tank 22b for removing the carbon coated on the copper plate 1, And a washing tank 22c located behind the removing tank 22b for washing off the carbon pieces sticking to the copper plate 1. The washing tank 22c is connected to the washing tank 22b.

At this time, the heating tank 22a, the removing tank 22b, and the washing tank 22c are formed in the form of a hopper whose width becomes narrower toward the lower side. At the lower end, drains 22d, 22e and 22f are formed, And the carbon pieces removed from the copper plate 1 can be discharged.

The heater 23 is provided in the heating tank 22a so that the water stored in the heating tank 22a can be heated to a predetermined temperature.

The guide rollers 24 and 25 are installed in the heating tank 22a and the removing tank 22b and the plurality of lower guide rollers 24 provided in the washing tank 22c so as to be immersed in the water stored in the water storage tank 20. [ And a plurality of upper guide rollers 25 provided on the supporter 21 so as to be positioned above the heating tank 22a, the removing tank 22b and the washing tank 22c.

At this time, the lower guide roller 24 is installed so as to be submerged in the water stored in the heating tank 22a, the removing tank 22b and the washing tank 22c, and the upper guide roller 25, (24).

The copper plate 1 uncoiled from the uncoiler 10 passes through the upper circumferential portion of the upper guide roller 25 and the lower circumferential portion of the lower guide roller 24 so that the intermediate portion is separated from the heating tank 22a Is disposed so as to be immersed in the water stored in the removing tank 22b and the washing tank 22c.

The air injection means 26 is connected to the air injection nozzle 26a through the air injection nozzle 26a provided in the support 21 so as to be positioned on the upper side of the washing tank 22c, And air supply means 26b for supplying high-pressure air to the air injection nozzle 26a.

The air injection nozzle 26a is connected to an upper guide roller 25 provided on the upper part of the washing tank 22c or the upper part of the washing tank 22c and a lower Are provided between the guide rollers 24 so as to face the upper and lower surfaces of the copper plate 1 on the upper and lower sides of the path through which the copper plate 1 passes.

The air supply means 26b uses a general air compressor.

Therefore, if high-pressure air is supplied to the air injection nozzle 26a by using the air supply means 26b, the air is supplied to the copper plate 1 before being immersed in the water stored in the cleaning tank 22c after passing through the water in the heating tank 22a Air is sprayed to the periphery of the copper plate 1 at a high pressure so that the carbon coated on the copper plate 1 is peeled off.

The coiler 40 includes a support frame 41 fixed to the floor surface, a take-up shaft 42 rotatably coupled to the support frame 41, And a drive motor 43 for driving the drive motor 43. The end of the copper plate 1 through which the carbon has been removed through the removal means 20 is fixed to the circumferential surface of the take-up shaft 42, 43 are driven, the copper plate 1 is wound on the winding shaft 42.

The operation of the thus constructed copper plate reproducing apparatus will be described as follows.

First, the water stored in the heating tank 22a is heated to an appropriate temperature by using the heater 23.

The copper plate 1 uncoiled from the uncoiler 10 passes through the upper side of the upper guide roller 25 and then passes through the lower circumference of the lower guide roller 24 provided in the heating tank 22a The water is appropriately heated while passing through the water stored in the heating tank 22a, thereby causing the carbon coated on the copper plate 1 to fall off easily

The copper plate 1 having passed through the heating tank 22a passes through the upper side of the upper guide roller 25 and then passes between the air jet nozzles 26a of the air jetting means 26, , The carbon coated on the copper plate 1 is released by the high-pressure air injected from the air injection nozzle 26a

The copper plate 1 separated from the carbon thus passes through the lower guide rollers 24 provided in the removing tank 22b and passes through the water stored in the removing tank 22b. The remaining carbon is washed away by the water.

The copper plate 1 from which the carbon is primarily removed as described above passes through the upper guide roller 25 and the lower guide rollers 24 provided in the washing tank 22c and passes through the water stored in the washing tank 22c The small carbon remaining in the copper plate 1 is washed away again.

Then, the copper plate 1 having passed through the washing tank 22c is wound around the coiler 40 as described above.

The copper plate reproducing apparatus constructed as described above removes the carbon coated on the copper plate 1 released from the uncoiler 10 while the copper plate 1 is wound on the uncoiler 10 without cutting the copper plate 1, Wind it up and finish the job.

2 shows another embodiment according to the present invention in which the washing tank 22c and the removing tank 22b are connected to discharge the water and carbon pieces in the washing tank 22c into the removing tank 22b A second discharge pipe 32 for connecting the removing tank 22b and the heating tank 22a to discharge the water and carbon pieces in the removing tank 22b to the heating tank 22a, A water jet nozzle 33 provided on the upper side of the washing tank 22c so as to face the circumferential surface of the copper plate 1 that has passed the water stored in the washing tank 22c, A filter body 35 provided at a middle portion of the supply pipe 34 for filtering the carbon pieces contained in the water discharged from the heating tank 22a, And a circulation pump 36 provided at an intermediate portion of the supply pipe 34 to supply water of the heating tank 22a to the water injection nozzle 33. [

The first discharge pipe 31 connects the side of the removal tank 22b at the drain port 22f at the lower end of the washing tank 22c.

The second discharge pipe 32 connects the side surface of the heating tank 22a at the drain port 22e at the lower end of the removal tank 22b.

The water injection nozzle 33 is provided to the top and bottom of the copper plate 1 on the upper and lower sides of the upwardly extending copper plate 1 via the lower guide rollers 24 in the washing tank 22c.

The supply pipe 34 connects the water discharge nozzle 33 with the drain port 22d at the lower end of the heating tank 22a.

The washing machine 22c, the removing tank 22b and the heating tank 22a are connected to each other by the first discharge pipe 31 and the second discharge pipe 32, The water level of the removing tank 22b and the heating device are kept the same.

When the circulation pump 36 is driven, the water heated by the heater 23 is supplied to the water spray nozzle 33 through the supply pipe 34, Is sprayed on the upper and lower surfaces of the copper plate 1 that has passed through the water of the copper plate 22c so that small pieces of carbon attached to the upper and lower surfaces of the copper plate 1 are removed neatly.

The water sprayed on the copper plate 1 is dropped and collected by the washing tank 22c and then circulated to the heating tank 22a through the first and second discharge pipes 32. Then, Is supplied to the water spray nozzle 33 through the spray nozzle 34 to be sprayed onto the copper plate 1.

Therefore, it is possible to neatly remove small pieces of carbon which have not yet been removed by the air injection means 26.

Particularly, the water heated in the heating tank 22a is circulated to the washing tank 22c and the removing tank 22b so that the temperature of the water in the washing tank 22c, the removing tank 22b and the heating tank 22a is constant So that the carbon coated on the copper plate 1 can be more effectively removed.

At this time, the carbon pieces separated from the copper plate 1 and collected into the washing tank 22c, the removing tank 22b and the heating tank 22a are circulated to the supply pipe 34 together with the water, (35).

Therefore, there is an advantage that the carbon pieces separated from the copper plate 1 can be effectively treated.

10. Uncoiler 20. Removal means
30. Coiler

Claims

An uncoiler 10 for winding a strip-shaped copper plate 1 coated with carbon and unwinding the copper plate 1 at a constant speed,
A removing means 20 provided at an intermediate portion of a path through which the copper plate 1 uncoiled from the uncoiler 10 is extended to remove carbon coated on the copper plate 1,
And a coiler (40) for winding the copper plate (1) from which the carbon has been removed through the removal means (20)
The removal means (20)
A support table 21 provided at an intermediate portion of a path through which the copper plate 1 passes,
A water storage tank 20 provided in the support 21 for storing water therein, a heater 23 provided in the water storage tank 20 for heating the water stored in the water storage tank 20,
And a plurality of guide rollers (24, 25) provided in the support base (21) and the water storage tank (20)
Wherein the middle portion of the copper plate (1) is immersed in the water stored in the water storage tank (20) via the periphery of the guide rollers (24, 25).

The method according to claim 1,
The guide rollers (24, 25)
A plurality of lower guide rollers (24) provided in the water storage tank (20) so as to be immersed in the water stored in the water storage tank (20)
And a plurality of upper guide rollers (25) provided on the supporter (21) so as to be positioned on the water surface of the water stored in the water reservoir (20)
The copper plate 1 is alternately passed through an upper circumferential portion of the upper guide roller 25 and a lower circumferential portion of the lower guide roller 24 and is immersed in the water stored in the water storage tank 20, And to repeat the process,
And air jetting means (26) provided on the support base (21) and jetting high pressure air to the periphery of the copper plate (1) exposed to the upper portion of the water to remove carbon coated on the copper plate (1) Wherein the copper plate reproducing apparatus comprises:

3. The method of claim 2,
The water storage tank (20)
A heating tank 22a for heating the copper plate 1 and the carbon,
A removing tank 22b located behind the heating tank 22a for removing carbon coated on the copper plate 1,
And a washing tank 22c located behind the removing tank 22b for washing the carbon pieces sticking to the copper plate 1,
Wherein the air jetting means (26) is configured to jet air to a peripheral portion of the copper plate (1) before being immersed in the water stored in the washing tank (22c) after passing through the heating tank (22a).

The method of claim 3,
A first discharge pipe 31 connecting the washing tank 22c and the removing tank 22b to discharge water and carbon pieces from the washing tank 22c into the removing tank 22b,
A second discharge pipe 32 connecting the removal tank 22b and the heating tank 22a to discharge water and carbon pieces in the removal tank 22b to the heating tank 22a,
A water jet nozzle 33 provided on the upper side of the washing tank 22c so as to face the circumferential surface of the copper plate 1 that has passed the water stored in the washing tank 22c,
A supply pipe 34 connecting the heating tank 22a and the water injection nozzle 33,
A filter body 35 provided at a middle portion of the supply pipe 34 to filter carbon pieces contained in the water discharged from the heating tank 22a,
Further comprising a circulation pump (36) provided in a middle portion of the supply pipe (34) to supply water of the heating tank (22a) to the water injection nozzle (33)
And the heater (23) is provided in the heating tank (22a).