KR102629812B1 - Waste bettery crushing device - Google Patents

Abstract

The present invention provides a waste battery shredding device, comprising: a shredding chamber 100 including an inlet 111 and an outlet 112 and shredding waste batteries in a nitrogen gas atmosphere; A immersion solution fresh water tank 200 disposed below the crushing chamber 100, connected to the outlet 112, and configured to hold the immersion solution; and a nitrogen gas tank 300 configured to supply nitrogen gas into the shredding chamber 100, and is configured to dry-shred waste batteries, and the inlet 111 of the shredding chamber 100 is connected to the opening and closing device 120. It is configured, and the opening and closing device 120 is opened downward by a force acting downward due to the fall of the waste battery 500 supplied into the shredding chamber 100, and returns to the original position immediately after inserting the waste battery 500. It relates to a waste battery shredding device configured to be closed.

Description

Waste battery crushing device {WASTE BETTERY CRUSHING DEVICE}

The present invention relates to a waste battery shredding device, and more specifically, to a waste battery shredding device that reduces the risk of explosion.

Recently, the spread of electric vehicles has been expanding. Accordingly, the amount of waste batteries generated from electric vehicles is expected to increase rapidly in the future.

Waste battery packs contain cobalt, lithium, copper, graphite, nickel, aluminum, manganese, etc., so research to recover these expensive materials is actively underway.

However, in the case of the prior art, there is a risk of explosion during the process of shredding the waste battery pack, which is problematic.

Figure 1 shows a representative diagram of Republic of Korea Patent No. 10-2085848 (Patent Document 1). Patent Document 1 discloses an apparatus for carrying out size reduction of a material under immersion conditions, comprising a housing, a first feeding chute, a second feeding chute, a first underwater grinding device, a second underwater grinding device, and a transport device. .

The device of Patent Document 1 is a device for performing a wet crushing process, and a waste battery crushing device is required to perform a dry crushing process with reduced explosion risk.

Republic of Korea Patent No. 10-2085848 (2020.03.02.)

One object of the present invention is to provide a waste battery shredding device for performing a dry shredding process with reduced explosion risk.

The present invention provides a waste battery shredding device, comprising: a shredding chamber 100 including an inlet 111 and an outlet 112 and shredding waste batteries in a nitrogen gas atmosphere; A immersion solution fresh water tank 200 disposed below the crushing chamber 100, connected to the outlet 112, and configured to hold the immersion solution; and a nitrogen gas tank 300 configured to supply nitrogen gas into the shredding chamber 100, and is configured to dry-shred waste batteries, and the inlet 111 of the shredding chamber 100 is connected to the opening and closing device 120. It is configured, and the opening and closing device 120 is opened downward by a force acting downward due to the fall of the waste battery 500 supplied into the shredding chamber 100, and returns to the original position immediately after inserting the waste battery 500. A waste battery shredding device configured to be closed is provided.

The waste battery shredding device according to the present invention can perform a dry shredding process with reduced explosion risk.

Figure 1 shows a representative diagram of Republic of Korea Patent No. 10-2085848.
Figure 2 is a diagram schematically showing a waste battery shredding device according to one embodiment of the present invention.

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

In this specification, descriptions of configurations that are the same or similar to the prior art and can be easily inferred from the prior art are omitted.

The present invention provides a waste battery shredding device in one embodiment.

Figure 2 is a diagram schematically showing a waste battery shredding device according to one embodiment of the present invention.

Referring to Figure 2, the waste battery shredding device of the present invention includes a shredding chamber 100, a immersion solution fresh water tank 200, and a nitrogen gas tank 300. The waste battery shredding device of the present invention is configured to shred waste batteries 500 in a dry manner.

The shredding chamber 100 includes an inlet 111 and an outlet 112 and is configured to shred waste batteries in a nitrogen gas atmosphere.

Waste batteries 500 to be shredded are supplied into the shredding chamber 100 through the inlet 111, and are discharged through the outlet 112 after shredding.

As will be described in detail below, the spent battery 500 is shredded in the shredding chamber 100 in a nitrogen gas atmosphere, then discharged through the outlet 112 and then immersed in the immersion solution fresh water tank 200.

The inlet 111 of the crushing chamber 100 is composed of an opening and closing device 120. Here, the opening and closing device 120 is opened downward by a downward force due to the fall of the waste battery 500 supplied into the shredding chamber 100, and is returned to the original position immediately after the waste battery 500 is introduced and closed. It is composed.

In another embodiment, the opening and closing device 120 of the present invention includes a first cover 121 and a second cover 122. Here, the first cover 121 and the second cover 122 are configured so that at least a part of the first cover 121 covers at least a part of the second cover 122. The first cover 121 and the second cover 122 are opened by being pushed downward by the downward force caused by the falling waste battery 500, and are configured to return to the original position and close immediately after inserting the waste battery 500. do. That is, the crushing chamber 100 is closed in the original position (A, B) by having at least a portion of the first cover 121 cover at least a portion of the second cover 122.

Specifically, the first cover 121 and the second cover 122 are disposed at the original positions A and B to maintain the crushing chamber 100 in a closed state. When the waste battery 500 is introduced through the inlet 111, the first cover 121 and the second cover 122 are pushed downward by the downward force caused by the falling waste battery 500, respectively, to open positions. It is placed at (A', B') to open the crushing chamber 100. Afterwards, immediately after inserting the spent battery 500, the first cover 121 and the second cover 122 are configured to return to their original positions (A, B) and close, respectively. By the switch 120 of this configuration, the nitrogen gas supplied to the crushing chamber 100 is effectively retained within the crushing chamber 100, so that the nitrogen gas atmosphere within the crushing chamber 100 can be effectively maintained.

In another specific example, the opening and closing device 120 further includes a first rotation shaft 123 and a second rotation shaft 124 provided on the side wall of the crushing chamber 100. Here, the first cover 121 and the second cover 122 are configured to rotate downward by a predetermined angle about the first and second rotation shafts 123 and 124, respectively, and then return to their original positions.

Specifically, the first rotation axis 123 is provided on one side wall of the crushing chamber 100, and the first cover 121 rotates downward by a predetermined angle around it and moves to the open position (A'). It is configured to return to the win position (A). For example, the first rotation shaft 123 may include an elastic body that is relaxed by the falling force of the spent battery 500, causing the first cover 121 to rotate and contract again to return the first cover 121 to its original position. You can.

Similarly, the second rotation shaft 124 is provided on the opposite side wall of the crushing chamber 100, so that the second cover 122 rotates downward by a predetermined angle around it and moves to the open position (B') and then again. It is configured to return to the original position (B). For example, the second rotation shaft 124 may include an elastic body that is relaxed by the falling force of the spent battery 500, causing the second cover 122 to rotate and contract again to return the second cover 122 to its original position. You can.

Accordingly, the switchgear 120 can be driven without power supply from the outside, thereby reducing maintenance costs.

In another embodiment, the opening and closing device 120 is configured to open downward by reflecting a change in force acting downward due to a change in the weight of the falling waste battery 500.

Specifically, the weight of the waste battery 500 may vary depending on the type of electric vehicle, for example. Therefore, for example, when the waste battery 500 of the first weight falls and when the waste battery 500 of the second weight falls, the force acting downward on the switch 120 is different. The opening and closing device 120 according to the present invention is configured to open downward by reflecting the change in force acting downward due to the change in weight of the falling waste battery 500. For example, by adjusting the elastic force of the elastic body, which is relaxed by the falling force of the spent battery 500, the first cover 121 rotates and contracts again to return the first cover 121 to its original position, the falling spent battery The change in force acting downward can be reflected by the change in weight of (500).

In another embodiment, the first cover 121 and the second cover 122 are configured not to be opened upwardly. As shown in FIG. 2, at least a portion of the first cover 121 is configured to cover at least a portion of the second cover 122, and the first cover 121 and the second cover 122 are each in an open position. When returning from (A', B') to the original position (A, B), upward movement is restricted and it is configured not to open upward.

Meanwhile, when at least a part of the first cover 121 is configured to cover at least a part of the second cover 122, the lower surface of the first cover 121 and the upper surface of the second cover 122 are configured to contact, thereby crushing. The sealed state of the chamber 100 can be maintained.

In another embodiment, the waste battery shredding device of the present invention further includes a first support plate 163 and a second support plate 164.

The first support plate 163 has a side fixed to the first support wall 161 extending upward from the side wall of the crushing chamber 100, and the lower surface is in contact with the upper surface of the first cover 121 to form the first cover 121. It is configured to prevent opening upward.

Similarly, the second support plate 164 has a side fixed to the second support wall 162 extending upward from another side wall of the crushing chamber 100, and the lower surface is in contact with the upper surface of the second cover 122. 2 It is configured to prevent upward opening of the cover 122.

The first support plate 163 and the second support plate 164 support the first cover 121 and the second cover 122 downward, respectively, to prevent them from opening upward, so that an explosion occurs inside the crushing chamber 100. Even if an incident occurs, safety can be guaranteed because the first cover 121 and the second cover 122 do not open upward.

Here, the side wall of the crushing chamber 100, the first cover 121, the second cover 122, the first support plate 163, and the second support plate 164 are formed when an explosion occurs inside the crushing chamber 100. It is desirable to make it from a material that can withstand explosion.

Meanwhile, the immersion solution freshwater tank 200 is disposed below the crushing chamber 100, is connected to the outlet 112, and is configured to hold the immersion solution 210.

The immersion solution 210 may be, for example, an aqueous solution. The immersion solution 210, which is an aqueous solution, may include a salt such as an alkali metal chloride, an alkaline earth metal chloride, or a mixture thereof (eg, sodium chloride, calcium chloride, or a mixture thereof).

Meanwhile, the immersion solution freshwater tank 200 may be formed of, for example, a concrete structure.

The nitrogen gas tank 300 is configured to supply nitrogen (N ₂ ) gas into the crushing chamber 100. Since the nitrogen gas tank 300 supplies nitrogen (N ₂ ) gas into the shredding chamber 100, a nitrogen atmosphere is formed inside the shredding chamber 100 to reduce the risk of explosion when the spent battery 500 is shredded. You can.

In another embodiment, the waste battery shredding device of the present invention further includes a shredder 130 provided inside the shredding chamber 100. The shredder 130 serves to shred the spent batteries 500 introduced into the shredding chamber 100. At this time, as described above, a nitrogen atmosphere is formed inside the shredding chamber 100, thereby reducing the risk of explosion.

Meanwhile, the waste battery shredding device of the present invention further includes a supply chute (140; 141, 142) extending laterally and downward from the side wall of the shredding chamber (100) to the shredder (130). The supply chute 140 serves to accurately guide the spent batteries 500 introduced into the shredding chamber 100 to the shredder 130.

In another embodiment, the waste battery shredding device of the present invention is disposed below the shredder 130 and further includes a discharge chute 150 extending laterally and downward from the side wall of the shredding chamber 100 to the outlet 112. . The discharge chute 150 may include a first discharge chute 151 and a second discharge chute 152. Here, the lower end of the second discharge chute 152 is disposed further lower than the lower end of the first discharge chute 151, so that when the shredded spent batteries 500 fall into the immersion solution fresh water tank 200, the immersion solution 210 It is possible to prevent the shredder from bouncing up to the shredder (130).

In another embodiment, the waste battery shredding device of the present invention further includes a waste battery transport unit 400 for transporting the waste batteries 500 to the inlet 111 of the shredding chamber 100.

When explaining the movement path of the waste battery 500, the waste battery 500 is transported to the entrance 111 of the chamber 100 by the waste battery transfer unit 400 and falls into the entrance 111. The first cover 121 and the second cover 122 are opened by the waste battery 500 falling into the inlet 11, and thus the waste battery 500 is introduced into the shredding chamber 100. Meanwhile, immediately after the spent battery 500 is put into the shredding chamber 100, the first cover 121 and the second cover 122 are returned to their original positions and closed.

Meanwhile, referring to FIG. 2, in this specification, upward or upward refers to the y direction, and downward or downward refers to the -y direction.

Hereinafter, various embodiments of the present invention will be described.

(1) A waste battery shredding device, comprising: a shredding chamber 100 including an inlet 111 and an outlet 112 and shredding waste batteries in a nitrogen gas atmosphere; A immersion solution fresh water tank 200 disposed below the crushing chamber 100, connected to the outlet 112, and configured to hold the immersion solution; and a nitrogen gas tank 300 configured to supply nitrogen gas into the shredding chamber 100, and is configured to dry-shred waste batteries, and the inlet 111 of the shredding chamber 100 is connected to the opening and closing device 120. It is configured, and the opening and closing device 120 is opened downward by a force acting downward due to the fall of the waste battery 500 supplied into the shredding chamber 100, and returns to the original position immediately after inserting the waste battery 500. A waste battery shredding device configured to be closed.

(2) The switchgear 120 includes a first cover 121 and a second cover 122, and the first cover 121 and the second cover 122 are at least a portion of the first cover 121. It is configured to cover at least a portion of the second cover 122, and the first cover 121 and the second cover 122 are pushed downward and opened by the downward force caused by the falling spent battery 500, A waste battery shredding device configured to return to the original position and close immediately after inserting the waste battery 500.

(3) The opening and closing device 120 further includes a first rotating shaft 123 and a second rotating shaft 124 provided on the side wall of the crushing chamber 100, and a first cover 121 and a second cover 122. is a waste battery shredding device configured to rotate downward by a predetermined angle about the first and second rotation shafts 123 and 124, respectively, and then return to the original position.

(4) A waste battery shredding device in which the first cover 121 and the second cover 122 are configured not to be opened upward.

(5) The side is fixed to the first support wall 161 extending upward from the side wall of the crushing chamber 100, and the lower surface is in contact with the upper surface of the first cover 121 to extend upward from the side wall of the crushing chamber 100. A first support plate 163 configured to prevent opening; And the side is fixed to the second support wall 162 extending upward from another side wall of the crushing chamber 100, and the lower surface is in contact with the upper surface of the second cover 122 to extend upward from the second cover 122. A waste battery shredding device further comprising a second support plate 164 configured to prevent opening.

(6) a crusher 130 provided inside the crushing chamber 100; And a supply chute 140 extending laterally and downward from the side wall of the shredding chamber 100 to the shredder 130. A waste battery shredding device further comprising a.

(7) A waste battery shredding device further comprising a discharge chute 150 disposed below the shredder 130 and extending laterally and downward from the side wall of the shredding chamber 100 to the outlet 112.

(8) It further includes a waste battery transfer unit 400 for transporting the waste battery 500 to the inlet 111 of the shredding chamber 100, and the waste battery 500 is transported to the chamber by the waste battery transfer unit 400. 100) is transported to the inlet 111 and falls to the inlet 111, and the first cover 121 and the second cover 122 are opened by the spent battery 500 falling to the inlet 11, thereby discharging the spent battery. (500) is introduced into the shredding chamber 100, and immediately after the waste battery 500 is introduced into the shredding chamber 100, the first cover 121 and the second cover 122 are configured to return to their original positions and close. , Waste battery shredding device.

(9) The opening and closing device 120 is a waste battery shredding device configured to open downward by reflecting a change in force acting downward due to a change in the weight of the falling waste battery 500.

100: crushing chamber, 200: immersion solution freshwater tank, 300: nitrogen gas tank, 400: waste battery transfer unit, 500: waste battery

Claims (9)

In the waste battery shredding device,
A shredding chamber 100 including an inlet 111 and an outlet 112 and shredding spent batteries in a nitrogen gas atmosphere;
A immersion solution fresh water tank 200 disposed below the crushing chamber 100, connected to the outlet 112, and configured to hold the immersion solution; and
A nitrogen gas tank 300 configured to supply nitrogen gas into the crushing chamber 100;
It is configured to dry-shred waste batteries, including
The inlet 111 of the crushing chamber 100 is composed of an opening and closing device 120,
The opening and closing device 120 is configured to open downward by a force acting downward due to the fall of the waste battery 500 supplied into the shredding chamber 100, and to return to the original position and close immediately after inserting the waste battery 500. And
The switchgear 120 includes a first cover 121 and a second cover 122,
The first cover 121 and the second cover 122 are configured such that at least a portion of the first cover 121 covers at least a portion of the second cover 122,
The first cover 121 and the second cover 122 are opened by being pushed downward by the downward force caused by the falling waste battery 500, and are configured to return to the original position and close immediately after inserting the waste battery 500. , Waste battery shredding device. delete In claim 1,
The opening and closing device 120 further includes a first rotation shaft 123 and a second rotation shaft 124 provided on the side wall of the crushing chamber 100,
The first cover 121 and the second cover 122 are configured to rotate downward by a predetermined angle about the first and second rotation shafts 123 and 124, respectively, and then return to the original position. . In claim 1,
A waste battery shredding device in which the first cover 121 and the second cover 122 are configured not to be opened upward. In claim 4,
The side is fixed to the first support wall 161 extending upward from the side wall of the crushing chamber 100, and the lower surface contacts the upper surface of the first cover 121 to prevent the first cover 121 from opening upward. a first support plate 163 configured to; and
The side is fixed to the second support wall 162 extending upward from another side wall of the crushing chamber 100, and the lower surface is in contact with the upper surface of the second cover 122 to open the second cover 122 upward. a second support plate 164 configured to prevent;
Further comprising a waste battery shredding device. In claim 1,
A crusher 130 provided inside the crushing chamber 100; and
A supply chute 140 extending laterally and downward from the side wall of the crushing chamber 100 to the crusher 130;
Further comprising a waste battery shredding device. In claim 6,
A waste battery shredding device further comprising a discharge chute 150 disposed below the shredder 130 and extending laterally and downward from the side wall of the shredding chamber 100 to the outlet 112. In claim 1,
It further includes a waste battery transfer unit 400 for transporting the waste battery 500 to the inlet 111 of the shredding chamber 100,
The waste battery 500 is transported to the entrance 111 of the chamber 100 by the waste battery transfer unit 400 and falls into the entrance 111,
The first cover 121 and the second cover 122 are opened by the waste battery 500 falling into the inlet 11, and the waste battery 500 is introduced into the shredding chamber 100,
A waste battery shredding device configured to allow the first cover 121 and the second cover 122 to return to their original positions and close immediately after the waste battery 500 is put into the shredding chamber 100. In claim 1,
The opening and closing device 120 is a waste battery shredding device configured to open downward by reflecting a change in force acting downward due to a change in the weight of the falling waste battery 500.