KR20210014940A - Separating device for waste-battery - Google Patents

Abstract

The present invention relates to an apparatus for disassembling a waste-battery, which includes a separator, and a cathode and an anode provided at opposite side surfaces of the separator. The apparatus includes: a main body including a frame and an outer appearance; a waste-battery receiving unit provided at the center of an inner part of the main body such that the waste-battery is received while longitudinally extending; electrode receiving units provided at opposite sides of the waste-battery receiving unit, inside the main body to receive the electrodes separated from the waste battery; electrode separating units provided while being spaced apart from upper parts of the electrode receiving units and including a plurality of rollers; and a separator receiving unit provided inside the main body to pull the separator from the waste battery while receiving the separator having no electrode. The waste-battery receiving unit further includes a fixing member to fix one end of the waste battery. Accordingly, the separator is unfolded in the waste battery for an electrical vehicle while individually separating/receiving the cathode and the anode attached to the separator without using chemicals. Accordingly, an eco-friendly effect may be produced, and the electrodes may be easily collected and recycled.

Description

Waste battery separation device {SEPARATING DEVICE FOR WASTE-BATTERY}

The present invention relates to an apparatus for separating a waste battery, and more specifically, a negative electrode material and a positive electrode material attached to the separation membrane while spreading the separation membrane in a waste battery for an electric vehicle are separated/collected separately without using chemicals, so that it is eco-friendly and It relates to a waste battery separation device that can facilitate collection and recycling.

Recently, in order to overcome environmental problems worldwide and to solve the problem of rising oil prices due to depletion of fossil fuels, electric vehicles are being developed competitively.

These electric vehicles are driven by batteries and electric motors due to the trend of electrification of power sources, and are classified into HEV, PHEV, and EV in stages of evolution.

HEV (Hybrid Electric Vehicle) refers to a vehicle that improves fuel economy by operating an optimal combination of engine and motor. It refers to a vehicle that charges a battery using a generator while driving with an internal combustion engine and drives an electric motor when driving at a low speed.

PHEV (Plug-in Hybrid Electric Vehicle) is a hybrid vehicle that can charge a battery using an external power source. The electric motor is the main power source, and when the battery is consumed, it means a vehicle that uses the engine and the electric motor at the same time, like HEV.

Electric Vehicle (EV) refers to a pure electric vehicle that runs only with charged electric energy without an internal combustion engine.

It is expected that the development of such electric vehicles in the future will continue, and the field of electric vehicle batteries is an area that attracts attention with the growth of the electric vehicle market.

This is because the battery is the most important power source for electric vehicles and plays the biggest role in driving distance and output that determine the performance of electric vehicles.

Most of HEVs are equipped with nickel hydride secondary batteries.

All HEVs mass-produced and sold by Toyota, Ford, and Honda are equipped with nickel-hydrogen secondary batteries.

For PHEVs and EVs, lithium-ion secondary batteries with a high operating voltage of 3.7V on average and large capacity and light weight are widely used.

This lithium-ion secondary battery basically consists of three layers of an anode, a separator, and a cathode, and has a structure in which these are stacked in an electrolyte.

In typical lithium-ion secondary batteries, lithium metal oxide is used as the positive electrode active material, aluminum thin film as the current collector of the positive electrode, carbon material as the negative electrode active material, copper thin film as the negative electrode current collector, and a micro porous membrane of polyolefine on the separator. ), as an electrolyte, a lithium salt dissolved in a carbonate-based organic solvent is used.

However, lithium-ion secondary batteries are used as batteries for electric vehicles and have the best performance among commercialized secondary batteries, but they are acting as an obstacle to mass production and commercialization of electric vehicles due to their high selling price.

In addition, such a battery for an electric vehicle has a service life of approximately 2 years to 5 years depending on the usage environment, and the battery must be replaced each time, and the replaced battery is classified as a waste battery.

However, waste batteries are not easy to dispose of because they are classified as waste products designated waste in accordance with the waste management law enforcement regulations, and if the amount of waste increases rapidly, there is a problem in that the shortage of landfills intensifies and damages the environment.

In order to solve these environmental problems, a method of regenerating and using a waste battery is being discussed, but the recycled waste battery is less than a new battery in terms of efficiency, and the demand of users is decreasing.

Accordingly, a method of recycling the waste batteries by separating the components constituting the waste batteries is being discussed without recycling them.

However, conventional technologies for separating waste batteries use a chemical substance such as a stripper to separate the electrode material, so that it takes a long time to separate and causes environmental pollution due to chemical substances.

KR 10-1097555 B1 JP Hei 9-195071

In order to solve the above problems, the present invention transfers a waste battery having a negative electrode material and a positive electrode material attached to each side of the separator to be extended long, and the transferred waste battery is rapidly bent at any one point, so that the negative electrode material and the positive electrode material The anode material separation roller and the cathode material separation roller to separate the ash, the anode material collection unit and the cathode material collection unit to separately collect the separated anode and cathode materials, and the anode material at the same time as pulling the separator of the waste battery The anode material and cathode material are separated and collected separately by physical action, so there is no problem of environmental pollution, and there is no problem of environmental pollution. An object of the present invention is to provide an apparatus for separating a waste battery that is easy to separate and collect ash and cathode materials.

The technical problem of the present invention is not limited to those mentioned above, and another technical problem that is not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the present invention provides an apparatus for separating a waste battery consisting of a separator and an anode material and a cathode material provided on both sides of a separator, respectively, comprising: a main body forming a skeleton and an exterior; A waste battery accommodating part provided in the inner central part of the main body to accommodate a waste battery extended and accommodated; An electrode material collection unit provided on both sides of the main body with respect to the waste battery accommodating unit to collect electrode material separated from the waste battery; An electrode material separating unit provided spaced apart from the upper portion of the electrode material collection unit and comprising a plurality of rollers; And a separation membrane collection unit provided inside the main body to pull the separation membrane of the waste battery and collect the separation membrane from which all of the electrode materials are separated, wherein the waste battery accommodating unit further includes a fixing member for fixing one end of the waste battery. It provides a waste battery separation device, characterized in that provided.

In this case, the electrode material collection unit is provided on one side of the waste battery accommodating unit to collect the negative electrode material separated by the electrode material separation unit; And a cathode material collection unit provided on the opposite side of the anode material collection unit with respect to the waste battery receiving unit to collect the cathode material separated by the electrode material separation unit.

In addition, the anode material collection unit and the cathode material collection unit are characterized in that each is provided with a replaceable collection box to facilitate the collection of the separated anode material and cathode material.

At this time, the electrode material separating part negative electrode material separation roller provided spaced apart from the upper portion of the negative electrode material collection part; And a cathode material separating roller provided spaced apart from the top of the cathode material collection unit.

And the surface of the waste battery transported along the electrode material separator is bent so as to form a sharp inclination at the point where it passes through the anode material separation roller and the cathode material separation roller, so that the anode material and the cathode material are separated from the waste battery, and the separator is the separator. It is characterized in that it is transferred to the collection unit.

In addition, the electrode material separation unit further comprises a transfer unit provided between the anode material separation roller and the cathode material separation roller to spread and transfer the waste battery in a straight line.

At this time, the transfer unit is provided between the negative electrode material separation roller and the positive electrode material separation roller to spread the transferred waste battery in a straight line; At least one support frame provided between the anode material separation roller and the double roller to support a lower portion of the waste battery transferred; And a prevention plate provided under the support frame to prevent the electrode material separated from the transferred waste battery from flowing into the waste battery receiving part.

In addition, the electrode material separation unit is provided adjacent to the anode material separation roller, the first blade in close contact with one surface of the waste battery that is moved along the anode material separation roller to facilitate separation of the anode material; And a second blade provided adjacent to the cathode material separation roller, and in close contact with one surface of the waste battery moving along the cathode material separation roller to facilitate separation of the cathode material.

And the separation membrane collection unit is a separation membrane collection roller provided with a rotating member so that one side of the separation membrane is fixed and wound in a roll form. And a control unit for controlling the rotational speed and driving of the separation membrane collecting roller.

In this case, at one side of the main body, it is characterized in that it further comprises a ventilation fan to remove dust generated between the separation of the electrode material from the waste battery.

In addition, the waste battery separation device may further include a pedal-type on/off switch to immediately stop the operation when a malfunction or emergency occurs between the electrode material separation operations.

By providing the present invention configured as described above, in separating and collecting the electrode material from the waste battery, the process of separating the anode material and the cathode material separately and at the same time collecting and recycling the electrode material can be omitted. There is an effect that simplification of the process can be expected, and eco-friendly work can be performed without the occurrence of environmental pollution because no chemical substances are used in the separation process.

The effects of the present invention are not limited to the effects mentioned above, and other effects that are not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 is a block diagram showing a waste battery separation apparatus according to the present invention.
Figure 2 is a detailed configuration of the waste battery separation apparatus according to the present invention and an exemplary operation showing a waste battery separation process.
3 is a block diagram showing a negative electrode material separation unit of the waste battery separation device according to the present invention.
Figure 4 is a configuration diagram showing a cathode material separation unit and a separator collection unit of the waste battery separation apparatus according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the same technical field can easily implement the present invention.

The present invention is an eco-friendly and environmentally friendly electrode material by separately separating/collecting the anode material (A) and cathode material (B) attached to both sides of the separator and the separator while spreading the separator from a waste battery for an electric vehicle. It relates to a waste battery separation device that can facilitate collection and recycling, the waste battery separation device according to the present invention, as shown in Figs. 1 to 4, the main body constituting the overall skeleton and appearance of the waste battery separation device ( 100), and a waste battery accommodating part 200, an electrode material collection part 300, an electrode material separation part 400, and a separator collection part 500.

According to an embodiment of the present invention, the waste battery accommodating part 200 may be provided inside the main body 100, and a space in which the waste battery may be extended and accommodated may be formed.

At this time, the waste battery accommodating unit 200 is between the electrode material collection unit 300 so that the anode material (A) and the cathode material (B) provided on both sides of the separator and the separator can be separately collected, That is, it is preferable to be provided in the center of the main body 100 so that the inner space of the main body 100 can be divided according to the purpose.

In addition, the waste battery accommodating part 200 may further include a fixing member 210 for fixing one end of the waste battery so that the long unfolded waste battery can be pulled and transported in the waste battery separation device.

According to an embodiment of the present invention, the electrode material collection unit 300, the electrode material separation unit 400, and the separator collection unit 500 are, as shown in FIG. 2, the waste battery accommodating unit 200 At one end, as the waste battery fixed to the fixing member 210 is transferred inside the main body 100, the anode material (A) and the cathode material (B) provided on both sides of the separator and the separator are separated from each other. It can be made in a structure that is interconnected so that it can be collected.

That is, the electrode material collection unit 300 provided inside the main body 100 to collect the anode material (A) and the cathode material (B), which are electrode materials separated from the waste battery, respectively, is the waste battery accommodating unit 200 ) May be provided on each side of the electrode material collection unit 300 so that the anode material (A) and the cathode material (B) separated from the waste battery can be separated and collected. The electrode material separating part 400 may be spaced apart from the upper part of the rejection 300.

In this case, the electrode material separation unit 400 may be formed of a plurality of rollers in order to separate the electrode material from the waste battery without using chemicals and to separate the electrode material only by physical action.

In addition, the separator conveyed in the waste battery separator and all of the electrode materials are separated may be collected by being wound in a roll form by the separator collecting part 500, and the separator collecting part 500 is By pulling the separator of the waste battery inside the main body 100, the waste battery may pass through the electrode material separation unit 400 so that the electrode material can be physically separated.

According to an embodiment of the present invention, as described above, the electrode material collection unit 300 has a negative electrode material collection unit 310 and a positive electrode material collection unit 310 on both sides of the waste battery receiving unit 200 as described above. 320) may be provided, respectively, and the anode material collection unit 310 collects only the anode material (A) separated from the waste battery, and the cathode material collection unit provided on the opposite side of the anode material collection unit 310 In 320, only the cathode material (B) separated from the waste battery is collected, so that the anode material (A) and the cathode material (B), which are electrode materials constituting the waste battery, can be separately collected.

In addition, the anode material collection unit 310 and the cathode material collection unit 320 may be provided with a collection box 330 made to be replaced, respectively.

For example, the collection box 330 is to be more efficient in transporting the anode material (A) and cathode material (B) collected from the anode material collection unit 310 and the cathode material collection unit 320, and replacement The collection box 330 is capable of removing the collection box 330 filled with the anode material (A) and the cathode material (B) and inserting another empty collection box 330, thereby performing smoothly without stopping the separation of the waste battery. You can do it.

According to an embodiment of the present invention, the electrode material separation unit 400 may include a negative electrode material separation roller 410 and a positive electrode material separation roller 420, and the negative electrode material separation roller 410 is the negative electrode material separation roller 410 The anode material (A) can be separated from the waste battery that is provided at a distance from the top of the re-collection unit 310 to be transported.

In addition, the cathode material separation roller 420 may be spaced apart from the top of the cathode material collection unit 320, and may serve to separate the cathode material (B) from the transferred waste battery.

The electrode material separation unit 400 may have a structure in which the electrode material can be separated from the waste battery only by a physical action without using a chemical substance.

That is, the negative electrode material separation roller so that the surface of the waste battery conveyed along the electrode material separation unit 400 passes through the negative electrode material separation roller 410 and the positive electrode material separation roller 420 so that a sharp inclination can be formed. 410 and the cathode material separation roller 420 may be installed, the anode material (A) and the cathode material in the waste battery that is rapidly bent while passing through the anode material separation roller 410 and the cathode material separation roller 420 (B) is separated and collected by falling into the negative electrode material collection unit 310 and the positive electrode material collection unit 320, and the separation membrane from which both the negative electrode material (A) and the positive electrode material (B) are separated is the separation membrane collection unit It is conveyed to 500 so that it can be collected in a roll format.

At this time, the electrode material separation unit 400 is provided between the anode material separation roller 410 and the cathode material separation roller 420 to allow the waste battery to be spread and transferred in a straight line to be further provided. I can.

According to an embodiment of the present invention, the transfer unit 800 may include a double roller 810, a support frame 820, and a prevention plate 830.

The dual roller 810 may serve to unfold a waste battery that is provided between the anode material separation roller 410 and the cathode material separation roller 420 and is transferred in a straight line.

For example, the double roller 810 may perform a role of spreading a folded or wrinkled portion between transfers by allowing the waste battery to pass between the rollers provided in the upper and lower sides.

In addition, between the double roller 810 and the anode material separation roller 410, the waste battery that has passed the anode material separation roller 410 is guided in a diagonal direction so that it can be horizontally transferred along the transfer unit 800. An auxiliary roller to assist may be further provided.

That is, the waste battery transferred through the anode material separation roller 410 first passes through an auxiliary roller provided in the same line as the double roller 810, and the height of the waste battery transferred by the auxiliary roller is adjusted. It is possible to transfer the waste battery in the horizontal direction in the transfer unit 800.

At this time, between the negative electrode material separation roller 410 and the double roller 810, that is, one supporting the waste battery in the lower portion of the waste battery transferred in close contact with the auxiliary roller passing through the negative electrode material separation roller 410 The above support frame 820 may be provided, and the support frame 820 may serve to support the waste battery so that the waste battery transported from the transfer unit 800 is not sagged and transported taut. .

In addition, a prevention plate 830 for preventing the electrode material from being unexpectedly separated from the waste battery transferred through the transfer unit 800 and flowing into the waste battery receiving unit 200 is provided below the support frame 820. It can be provided.

For example, when the electrode material is unexpectedly separated from the waste battery that passes through the transfer unit 800 that is positioned above the waste battery receiving unit 200 and transfers the waste battery, the electrode material is It can play a role of preventing the occurrence of difficulty in collecting the electrode material by falling into the receiving part 200, and covering all the upper portions of the waste battery receiving part 200 or having the same width as the width of the transfer part 800 It is preferable to have a wide plate shape.

According to an embodiment of the present invention, as shown in FIGS. 3 and 4, the electrode material separation unit 400 includes a negative electrode material in the negative electrode material separation roller 410 and the positive electrode material separation roller 420. A first blade 430 and a second blade 440 that can assist to smoothly separate A) and the cathode material (B) are attached to the anode material separation roller 410 and the cathode material separation roller 420 Each may be provided adjacent to each other.

At this time, the first and second blades 430 and 440 are provided to be in close contact with one surface of the waste battery that is moved along the anode material separation roller 410 and the cathode material separation roller 420, so that the anode material It is desirable to ensure that the anode material (A) and the cathode material (B) can be reliably separated from the waste battery that is rapidly bent by the separation roller 410 and the cathode material separation roller 420.

In addition, the first blade 430 and the second blade 440 may be the angle of the first blade 430 and the second blade 440 and the negative electrode material separation roller 410 and the positive electrode material separation roller. It may be installed and fixed to the main body by an adjustment member so that the separation distance from the 420 can be adjusted, respectively.

According to an embodiment of the present invention, the separator collection unit 500 serves to collect a separator from which all of the electrode materials are separated from a waste battery, and one side of the separator is fixed to be wound in a roll form. A roller 510 may be provided.

At this time, the separation membrane collection roller 510 collects the separation membrane and at the same time, as the separation membrane is wound, the waste battery transferred from the waste battery accommodating unit 200 through the electrode material separation unit 400 and the transfer unit 800 is tightened. It can be automatically rotated so that it can be pulled together, and this rotation can be made by a rotating member 511 that is provided at one end of the separation membrane collecting roller 510 and generates a rotational force.

In addition, a control unit 520 for controlling the rotational speed and driving of the separator collection roller 510 may be provided, and the overall speed at which the waste battery is transferred through the operation of the control unit 520 is controlled, and the You can turn on/off the power of the battery separation device.

The separation membrane collection unit 500 may be more easily understood through the configurations shown in FIGS. 1, 2, and 4.

According to an embodiment of the present invention, at one side of the main body 100, dust that may occur between the separation of the electrode material from the waste battery may be removed, and the inside of the waste battery separation device may be prevented from overheating. A ventilation fan 600 to enable it may be further provided.

In addition, in performing the electrode material separation operation through the waste battery separation device, a pedal-type on/off switch 700 may be provided to immediately stop the operation in case of malfunction of the device or an emergency situation, and the on It is preferable that the /off switch 700 is provided under the main body 100 at a position adjacent to the control unit 520 so that the operator controlling the operation of the waste battery separation device in the control unit 520 can respond immediately. Do.

To this end, it is preferable that the outer wall surface of the waste battery separation device is made of a transparent material that can be easily seen inside so that the operator can immediately recognize the occurrence of a malfunction of the device or an emergency situation.

In the order of separating and collecting the electrode material in the waste battery separating device driven by the structure as described above, the anode material (A) can be separated/collected first and the remaining cathode material (B) can be separated/collected. Conversely, the cathode material (B) may be separated/collected first, and then the remaining anode material (A) may be separated/collected.

By providing the present invention configured as described above, in the case of separating and collecting the electrode material from the waste battery, the anode material (A) and the cathode material (B) must be separately separated, and at the same time, the electrode material must be separately separated for recycling. Simplification of the process can be expected because the process of separation can be omitted, and there is an effect that eco-friendly work can be performed without the occurrence of environmental pollution because no chemicals are used in the separation process.

The terms and words used in the present specification and claims described above should not be construed as being limited to their usual or dictionary meanings, and the present inventors appropriate the concept of terms to describe their own invention in the best way. It should be interpreted as a meaning and concept consistent with the technical idea of the present invention on the basis of the principle that it can be defined.

Therefore, the configurations shown in the drawings and embodiments described in the present specification are only one of the most preferred embodiments of the present invention, and do not represent all the technical ideas of the present invention, and thus can be replaced at the time of application. It is to be understood that there may be a variety of equivalents and variations that may exist.

100: main body 200: waste battery accommodating part
210: fixing member 300: electrode material collection unit
310: anode material collection unit 320: cathode material collection unit
330: collection box 400: electrode material separation unit
410: anode material separation roller 420: cathode material separation roller
430: first blade 440: second blade
500: separation membrane collection unit 510: collection roller
511: rotating member 520: control unit
600: ventilation fan 700: on/off switch
800: transfer unit 810: dual roller
820: support frame 830: prevention plate
A: Anode material B: Anode material

Claims (11)

In the separator and the device for separating a waste battery consisting of a negative electrode material and a positive electrode material respectively provided on both sides of the separation membrane,
A main body constituting a skeleton and an exterior;
A waste battery accommodating part provided in the inner central part of the main body to accommodate a waste battery extended and accommodated;
An electrode material collection unit provided on both sides of the main body with respect to the waste battery accommodating unit to collect electrode material separated from the waste battery;
An electrode material separating unit provided spaced apart from the upper portion of the electrode material collection unit and comprising a plurality of rollers; And
And a separation membrane collection unit provided inside the main body to pull the separation membrane of the waste battery and collect the separation membrane from which all of the electrode materials are separated,
The waste battery separation device, characterized in that further provided with a fixing member for fixing one end of the waste battery to the waste battery accommodating part.
The method of claim 1,
The electrode material collection unit,
A negative electrode material collection unit provided on one side of the waste battery receiving unit to collect the negative electrode material separated by the electrode material separation unit; And
And a cathode material collection unit provided on the opposite side of the anode material collection unit based on the waste battery receiving unit to collect the cathode material separated by the electrode material separation unit.
The method of claim 2,
In the anode material collection unit and the cathode material collection unit,
Waste battery separation device, characterized in that each is provided with a replaceable collection box to facilitate the collection of the separated anode material and cathode material.
The method of claim 2,
The electrode material separation unit,
A negative electrode material separating roller spaced apart from the upper part of the negative electrode material collection part; And
A waste battery separation device comprising a cathode material separation roller spaced apart from an upper portion of the cathode material collection unit.
The method of claim 4,
The negative electrode material and the positive electrode material are separated from the waste battery by being bent so that the surface of the waste battery transported along the electrode material separation part passes through the negative electrode material separation roller and the positive electrode material separation roller. Waste battery separation device, characterized in that transferred to rejection.
The method of claim 4,
In the electrode material separation unit,
A waste battery separation device comprising a transfer unit provided between the anode material separation roller and the cathode material separation roller to spread and transfer the waste battery in a straight line.
The method of claim 6,
The transfer unit,
A double roller provided between the negative electrode material separation roller and the positive electrode material separation roller to expand the transferred waste battery in a straight line;
At least one support frame provided between the anode material separation roller and the double roller to support a lower portion of the waste battery transferred; And
A waste battery separation device comprising a prevention plate provided under the support frame and preventing the electrode material separated from the transferred waste battery from flowing into the waste battery receiving part.
The method of claim 4,
In the electrode material separation unit,
A first blade provided adjacent to the anode material separation roller and in close contact with one surface of the waste battery that is moved along the anode material separation roller to facilitate separation of the anode material; And
A waste battery separation device comprising a second blade provided adjacent to the cathode material separation roller and in close contact with one surface of the waste battery moving along the cathode material separation roller to facilitate separation of the cathode material.
The method of claim 1,
The separation membrane collection unit,
A separation membrane collecting roller provided with a rotating member so that one side of the separation membrane is fixed and wound in a roll form; And
And a control unit for controlling the rotational speed and driving of the separation membrane collecting roller.
The method of claim 1,
On either side of the body,
A waste battery separation device, characterized in that it further comprises a ventilation fan to remove dust generated between the separation of the electrode material from the waste battery.
The method according to any one of claims 1 to 10,
In the waste battery separation device,
Waste battery separation device, characterized in that it further comprises an on / off switch made of a pedal type to immediately stop the operation in the event of a malfunction or an emergency situation between the electrode material separation operations.

Images