KR102042775B1 - Battery cell degassing apparatus - Google Patents

Abstract

The present invention relates to a battery cell degassing apparatus (1) and, more specifically, to an apparatus for sealing the edge side after punching and degassing battery cells (90). The degassing apparatus (1) can be applied to all battery cells (90) having different thickness. When pressurizing for fixing the battery cells (90), power is uniformly applied to both outer side surfaces of the battery cells (90) so strong fixing is performed. In addition, the transfer height of the fixed battery cells (90) can be controlled, thereby being applied to the battery cells (90) with different sizes.

Description

Battery cell degassing unit {BATTERY CELL DEGASSING APPARATUS}

The present invention relates to a battery cell degassing apparatus 1, and more particularly, to an apparatus for sealing the edge portion side after the punching and degassing process of the battery cell 90. As will be described in detail below, the degassing apparatus 1 is applicable to all battery cells 90 having various thicknesses, and both outer side surfaces of the battery cells 90 when pressurized for fixing the battery cells 90. By giving a uniform force to achieve a firm fixing, it is possible to adjust the transport height of the fixed battery cell 90 has the advantage that can be applied to all of the battery cells 90 of various sizes.

The secondary battery having high application characteristics and high electrical density such as energy efficiency according to the product group is not only a portable device but also an electric vehicle (EV) or a hybrid vehicle (HEV) driven by an electric driving source. It is applied universally. The secondary battery has attracted attention as a new energy source for improving eco-friendliness and energy efficiency in that it has a primary advantage of reducing the use of fossil fuels and does not generate any by-products of energy use.

Briefly referring to the secondary battery battery cell manufacturing method, the electrode assembly is first embedded in the pouch case, and then the electrolyte is injected into the case so that the electrolyte is incorporated in the electrode assembly. Thereafter, the case rim is joined and sealed. Thereafter, after performing the aging process, a charge / discharge process for activating the battery cell is performed. When the charge and discharge process is performed, an irreversible reaction of the electrolyte solution and the additive occurs and gas is generated. The degassing process is performed through the degassing apparatus to remove the generated gas. After the gas is removed, a process of sealing the edge of the battery cell is performed.

Referring to the conventional battery cell degassing apparatus, it is common that both the punching portion for punching and the sealing portion for sealing are disposed inside the upper chamber. Therefore, the layout inside the upper chamber becomes too complicated and the space becomes narrow. As a result, it becomes difficult to secure a worker's field of view, and it is impossible to secure enough space for a hand to replace a component or the like. This, in turn, makes the maintenance and repair of the operator costly.

And, since both the punching portion and the sealing portion are disposed on the upper chamber side, the lateral thickness of the upper chamber is inevitably thickened for accommodating all of these configurations. This is one factor that makes it difficult to achieve sufficient process efficiency in the degassing process in a limited space by making the thickness of the upper chamber thicker when performing simultaneous degassing process for several battery cells.

In addition, since the lower chamber is generally configured to be movable only in the direction in which the lower chamber is coupled, the space for maintenance and repair of the lower chamber side components is secured only a space away from the upper chamber. Narrow problems also exist.

In order to solve these problems, the inventor of the present invention proposes an improved battery cell degassing apparatus.

Domestic Publication No. KR 10-2015-0139440 'Gas discharge device of the battery pack'

In order to solve the problems of the prior art,

The present invention allows the lower chamber portion to be moved laterally by the lower chamber driver, so that the upper side of the lower chamber portion is completely opened from the upper chamber portion, thereby ensuring an easy view and space for the operator with respect to components disposed in the first body portion. Accordingly, an object of the present invention is to provide a battery cell degassing apparatus capable of facilitating easy maintenance and maintenance.

In addition, the present invention is a battery cell that allows the punching unit, which is configured to cut the gas discharge portion for degassing is disposed on the lower chamber side rather than the upper chamber portion to enable easy maintenance and maintenance of the punching unit. It is an object to provide a singh device.

In addition, the present invention is formed by extending a predetermined distance upward from the upper surface of the first pressing portion and the second pressing portion for pressing and fixing the battery cell, the first guide portion and the second guide portion for preventing the battery cell gas discharge portion from tipping / falling down. By including, when the pressure unit is elevated to the position of the punching unit, the gas discharge portion is prevented from interfering with some components of the punching unit during the lifting process, and the tip portion of the incision during the punching process is precisely cut at the predetermined position of the gas discharge portion It is an object of the present invention to provide a battery cell degassing apparatus which is intended to perform the following.

In addition, the present invention is formed to extend to the length so that the first guide portion and the second guide portion does not cover the front side of the outer surface of the gas discharge portion, it is formed in the 'c' rim shape so as to be partially open, the cut portion during the punching process It is an object of the present invention to provide a battery cell degassing apparatus that does not interfere with the entry to the gas discharge side.

In addition, the present invention is to provide a battery cell degassing device to be arranged in the through-hole of the front plate of the incision tip side of the incision, to prevent the occurrence of human accidents during the maintenance and maintenance of the operator. Its purpose is.

In addition, the present invention is provided with a connecting rod disposed between the first fixing plate and the front plate and one end is in contact with the elastic means, so that the battery cell is easily returned to the inside of the through hole by the restoring force after the punching process It is an object to provide a degassing device.

In addition, the present invention is provided with a lifting and lowering drive unit for the lifting or lowering operation of the second body portion on the upper chamber side, so that it can be easily separated from the second body portion enables easy maintenance and repair work of the sealing unit It is an object of the present invention to provide a battery cell degassing apparatus.

In addition, the present invention is a battery cell degassing to simplify the inner layout of the second body portion and consequent maintenance and repair work by placing the sealing unit in the lower chamber portion, the punching unit in the upper chamber side The purpose is to provide a device.

In addition, the present invention is to minimize the lateral width of the upper chamber portion by simplifying the layout of the inside of the second body portion, thereby maximizing the process efficiency when performing simultaneous degassing process for a plurality of battery cells It is an object to provide a gasing device.

In addition, according to the present invention, according to the operation of the elevating drive unit, a pair of insertion plates hingedly coupled to one side of the fixed portion is moved in the direction of spreading outward to each other, so that the lower sealing tool is moved laterally, so that the battery during the sealing process It is an object of the present invention to provide a battery cell degassing apparatus for simultaneously pressing both sides of the cell rim portion.

In addition, an object of the present invention is to provide a battery cell degassing apparatus for guiding easy lateral movement of the lateral movement plate by inserting a guide rod into the through hole formed along the left and right sides of the lateral movement plate.

The present invention can be implemented by an embodiment having the following configuration to achieve the above object.

According to an embodiment of the present invention, a battery cell degassing apparatus according to the present invention comprises: a lower chamber portion for fixing both outer surfaces of a battery cell and allowing the battery cell to move up and down; A lower chamber driver for enabling lateral movement of the lower chamber and lifting and lowering of the jig plate; An upper chamber portion having a lower side coupled to an upper side of the lower chamber portion and allowing punching and sealing in an inner space with the lower chamber portion; And an upper chamber driving part coupled to one side of the upper chamber part to enable a lowering operation of the upper chamber part.

According to another embodiment of the present invention, the lower chamber portion provided in the battery cell degassing apparatus according to the present invention forms an overall appearance of the lower chamber portion and the first body portion having an upper side opened; And a seating portion extending downward from a bottom surface of the first body portion and having a recessed portion recessed upwardly from a bottom surface thereof, wherein the lower chamber driving portion is coupled to one side of the lower chamber portion to allow lateral movement of the lower chamber. And a lateral moving device, wherein the lateral moving device comprises lateral drive means for enabling lateral movement of the first body portion; And an upper side formed in a shape complementary to the recessed portion of the seating portion and inserted into the recessed portion.

According to another embodiment of the present invention, the lower chamber portion provided in the battery cell degassing apparatus according to the present invention forms an overall appearance of the lower chamber portion and the first body portion is opened on the upper side; A jig plate disposed on an inner side of the first body part and having a lower surface coupled to a lower chamber driving part to move up or down; A pressurizing unit disposed on the jig plate at an inner side of the first body part to pressurize and fix both outer surfaces of the battery cell; And a punching unit disposed at an upper side of the first body part to punch one side of the gas discharge part of the battery cell, wherein the lower chamber driving part includes a lifting device configured to enable a lifting operation of the jig plate; Characterized in that it comprises a.

According to another embodiment of the present invention, the pressing unit provided in the battery cell degassing apparatus according to the present invention includes a plate-shaped first pressing unit for pressing one outer surface of the battery cell; A plate-shaped second pressurizing portion pressurizing the other outer surface of the battery cell; And a pressurizing driver configured to allow lateral movement of the first pressurizing portion and the second pressurizing portion, wherein the first pressurizing portion extends upward from a top surface by a predetermined distance and is fixed between the first pressurizing portion and the second pressurizing portion. And a first guide part for preventing the gas discharge part of the battery cell from falling down.

According to another embodiment of the present invention, the first guide portion provided in the battery cell degassing apparatus according to the present invention is formed to extend to a length not to cover the front side of one outer surface of the gas discharge portion, 'c 'Is formed in a shape.

According to another embodiment of the present invention, the punching unit provided in the battery cell degassing apparatus according to the present invention comprises a first piercing plate for cutting one side of the gas discharge portion facing one side of the battery cell; A second piercing plate facing the other side of the battery cell, wherein the first piercing plate is connected to a punching driving means and moves laterally toward an adjacent battery cell according to the driving of the punching driving means; First punching drive means for enabling lateral movement of said first fixed plate; And a cutting part disposed on one side of the first fixing plate and configured as a cutter blade for cutting one side of the gas discharge part.

According to another embodiment of the present invention, the first piercing plate provided in the battery cell degassing apparatus according to the present invention comprises a front plate which is spaced apart from the first fixing plate and the incision is inserted into the inner through hole; It further comprises, wherein the incision is disposed so that the incision tip toward the adjacent battery cell, one side is fixed to the first fixing plate, characterized in that the incision tip is disposed in the through hole of the front plate.

According to another embodiment of the present invention, the first piercing plate provided in the battery cell degassing apparatus according to the present invention is inserted into one side of the first fixing plate and between the first fixing plate and the front plate. And a connection rod disposed at one end thereof so as to be in contact with the elastic means.

According to another embodiment of the present invention, the upper chamber portion provided in the battery cell degassing apparatus according to the present invention forms the overall appearance of the upper chamber portion and a second body portion having an open lower side; An elevating driving unit arranged on an upper side of the second body to plan a lifting or lowering operation of a sealing unit; And a sealing unit for tightly sealing the battery cell edge.

According to another embodiment of the present invention, the lower chamber portion provided in the battery cell degassing apparatus according to the present invention forms an overall appearance of the lower chamber portion and the first body portion is opened on the upper side; And a punching unit disposed at an upper side of the first body part to punch one side of the gas discharge part of the battery cell.

According to another embodiment of the present invention, the sealing unit provided in the battery cell degassing apparatus according to the present invention is connected to the lifting and lowering driving unit coupled to the lifting or lowering operation in accordance with the driving of the lifting and lowering drive unit; An insertion rod formed in a rod shape along a front and rear direction and inserted into one side of the coupling unit; A pair of left and right insertion plates, one side of which is coupled to the insertion rod and the other side of which is coupled to the side moving plate; A lateral movement plate having an upper side coupled to a lower side of the insertion plate to move laterally; And a pair of sealing tools coupled to a lower side of the lateral moving plate and extending downward to seal the edges of the battery cells.

According to another embodiment of the present invention, the coupling unit provided in the battery cell degassing apparatus according to the present invention is coupled to the lifting drive unit and extends downward and the lower side is coupled with the insertion rod coupling portion part; And an insertion rod coupling portion having an upper side coupled to a lower side of the lower extension portion, and a lower side coupled to the insertion rod to push the insertion rod downward in accordance with the lowering operation of the elevating drive portion. .

According to still another embodiment of the present invention, the insertion plate provided in the battery cell degassing apparatus according to the present invention has one side coupled to the insertion rod and the other side to the side moving plate, and a left and right pair are disposed, Insertion rod is inserted into the through hole of the left and right side insertion plates, characterized in that the hinge is coupled to one side of the fixing portion extending downward from the upper bottom surface of the second body portion.

According to another embodiment of the present invention, the insertion plate provided in the battery cell degassing apparatus according to the present invention is a side movement plate of a pair of adjacent insertion plates hinged to the fixing portion when the insertion rod is moved downward The side coupled with the moving in the outward direction is characterized in that the mutual movement.

According to another embodiment of the present invention, the sealing tool provided in the battery cell degassing apparatus according to the present invention is characterized in that it moves in a direction near or away from the edge of the battery cell with the lateral movement plate. .

The present invention has the following effects by the above configuration.

The present invention allows the lower chamber portion to be moved laterally by the lower chamber driver, so that the upper side of the lower chamber portion is completely opened from the upper chamber portion, thereby ensuring an easy view and space for the operator with respect to components disposed in the first body portion. As a result, it is possible to facilitate easy maintenance and maintenance management.

In addition, the present invention has the effect of allowing the punching unit, which is a configuration for cutting the gas discharge part for degassing, to be disposed on the lower chamber part side rather than the upper chamber part to enable easy maintenance and maintenance of the punching unit.

In addition, the present invention is formed by extending a predetermined distance upward from the upper surface of the first pressing portion and the second pressing portion for pressing and fixing the battery cell, the first guide portion and the second guide portion for preventing the battery cell gas discharge portion from tipping / falling down. By including, when the pressure unit is elevated to the position of the punching unit, the gas discharge portion is prevented from interfering with some components of the punching unit during the lifting process, and the tip portion of the incision during the punching process is precisely cut at the predetermined position of the gas discharge portion The effect of encouraging performance is derived.

In addition, the present invention is formed to extend to the length so that the first guide portion and the second guide portion does not cover the front side of the outer surface of the gas discharge portion, it is formed in the 'c' rim shape so as to be partially open, the cut portion during the punching process It does not interfere with the entry to the gas discharge side.

In addition, the present invention has the effect that the incision tip side of the incision portion is arranged in the through hole of the front plate, it is possible to prevent the occurrence of human accidents in the maintenance and maintenance management of the operator.

In addition, the present invention includes a connecting rod disposed between the first fixing plate and the front plate and the elastic means is disposed in the inner hollow portion, so that the cutout is easily returned to the inside of the through hole by a restoring force after the punching process. Have

In addition, the present invention is provided with a lifting and lowering drive unit for the lifting or lowering operation of the second body portion on the upper chamber side, so that it can be easily separated from the second body portion enables easy maintenance and repair work of the sealing unit The effect is to derive.

In addition, the present invention has the effect that the sealing unit is arranged in the lower chamber portion, the punching unit is located on the upper chamber side, to simplify the inner layout of the second body portion and thereby the convenience of maintenance and repair work.

In addition, the present invention has the effect of maximizing the process efficiency when performing the simultaneous degassing process for a plurality of battery cells by minimizing the lateral width of the upper chamber portion by simplifying the inner layout of the second body portion. .

In addition, according to the present invention, according to the operation of the elevating drive unit, a pair of insertion plates hingedly coupled to one side of the fixed portion is moved in the direction of spreading outward to each other, so that the lower sealing tool is moved laterally, so that the battery during the sealing process It has the effect of simultaneously pressing both sides of the cell edge portion.

In addition, the present invention is inserted into the through-holes formed along the left and right sides of the lateral movement plate, thereby exhibiting the effect of guiding easy lateral movement of the lateral movement plate.

On the other hand, even if the effects are not explicitly mentioned herein, the effects described in the following specification expected by the technical features of the present invention and its provisional effects are treated as described in the specification of the present invention.

1 is a reference diagram of a typical pouch type battery cell;
2 is a perspective view of a battery cell degassing apparatus according to an embodiment of the present invention;
3 is a cross-sectional view of the battery cell degassing apparatus according to FIG. 1;
4 is a side view of the seat and the lateral movement device according to FIG. 1;
5 is a front view of the pressing unit according to FIG. 1;
6 is a front view of the punching unit according to FIG. 1;
7 is a plan view of the punching unit according to FIG. 5;
8 is a reference view of the sealing unit according to FIG. 1;
9 is a use state diagram of a punching unit according to an embodiment of the present invention;
10 is a state diagram used in the sealing unit according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in more detail with reference to the accompanying drawings. Embodiments of the invention may be modified in various forms, the scope of the invention should not be construed as limited to the following examples, but should be construed based on the matter described in the claims. In addition, this embodiment is merely provided as a reference to more fully explain the present invention to those skilled in the art.

Hereinafter, terms such as 'first configuration' and 'second configuration' are used, but it should be noted that the 'second configuration' does not exist on the premise of the 'first configuration' and corresponds to a configuration independent of each other.

1 is a reference view of a typical pouch type battery cell.

Before describing the battery cell degassing apparatus 1 according to an embodiment of the present invention, the structure of the battery cell 90 will be described in detail. Referring to FIG. 1, the battery cell 90 is, for example, a pouch type secondary battery, and has a substantially rectangular parallelepiped case portion 910 having a hollow portion formed therein, and an electrode assembly 930 inside and outside the case portion 910. Is located. The electrode assembly 930 may be formed of a positive electrode plate, a negative electrode plate, and a separator. In addition, a gas discharge part 950 is formed to extend from the edge of the case part 910 and become a passage through which gas generated inside the case part 910 is discharged to the outside during the degassing process.

2 is a perspective view of a battery cell degassing apparatus according to an embodiment of the present invention; 3 is a cross-sectional view of the battery cell degassing apparatus according to FIG. 1; 4 is a side view of the seat and the lateral movement device according to FIG. 1; 5 is a front view of the pressing unit according to FIG. 1; 6 is a front view of the punching unit according to FIG. 1; 7 is a plan view of the punching unit according to FIG. 5; 8 is a reference view of the sealing unit according to FIG. 1; 9 is a use state diagram of a punching unit according to an embodiment of the present invention; 10 is a state diagram used in the sealing unit according to an embodiment of the present invention.

Hereinafter, a battery cell degassing apparatus 1 according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 and 3, the present invention relates to a battery cell degassing apparatus 1, and more particularly, an apparatus for sealing the edge portion after punching and degassing a battery cell 90. Relates to a device. As will be described in detail below, the degassing apparatus 1 is applicable to all battery cells 90 having various thicknesses, and both outer side surfaces of the battery cells 90 when pressurized for fixing the battery cells 90. By giving a uniform force to achieve a firm fixing, it is possible to adjust the transport height of the fixed battery cell 90 has the advantage that can be applied to all of the battery cells 90 of various sizes.

To this end, the battery cell degassing apparatus 1 according to an embodiment of the present invention includes a lower chamber part 10, a lower chamber driving part 30, an upper chamber part 50, and an upper chamber lifting part 70. It may include.

The lower chamber part 10 is configured to allow the battery cell 90 to move up and down while fixing both outer surfaces of the battery cell 90 to sequentially perform a punching and sealing process. The lower chamber part 10 may be coupled to and released from the upper chamber part 50 which will be described later in accordance with the ascending and descending, and more specifically, is coupled to the open lower side of the upper chamber part 50. There is no restriction in the shape of the lower chamber portion 10, but the upper side may have an approximately rectangular parallelepiped shape. In addition, the lower chamber 10 may be moved laterally by the lower chamber driver 30 to be described later. That is, the upper side of the lower chamber 10 may be positioned to match the upper chamber 50 by moving laterally to the position of the upper chamber 50 in a fully open state.

Accordingly, the lower chamber part 10 may be separated from the position matching the upper chamber part 50 before or after the punching and / or sealing process so that the upper side is completely opened, and then the maintenance and repair process may be performed. Can be. This provides the operator with sufficient space clearance, resulting in the convenience of the maintenance process for the components disposed in the lower chamber portion 10 or the upper chamber portion 50.

That is, assuming that the lower chamber portion 10 does not move laterally and moves only upward or downward in a state in which the lower chamber portion 10 is matched with the upper chamber 50, the operator may move the upper chamber portion 50 and the lower chamber portion ( The maintenance work of the components should be carried out by inserting the hands between the limited vertically spaced spaces of 10), which leads to the inability to secure sufficient visibility and the inefficiency of the maintenance and repair work due to the narrow space. The lower chamber part 10 according to an embodiment of the present invention may provide a direct solution to the above-described problems by allowing the lateral movement along the rail 313 to be described later.

To this end, the lower chamber part 10 may include a first body part 110, a seating part 120, a jig plate 130, a pressing unit 140, and a punching unit 150.

The first body portion 110 is configured to form the overall appearance of the lower chamber portion 10, it is preferable that the upper side is formed in a rectangular parallelepiped shape. In the first body 110, a part of the punching unit 150 may be disposed together with the jig plate 130 and the pressing unit 140.

Referring to FIG. 4, the seating part 120 extends downward from the bottom of the first body part 110 or is located below the lower chamber part 10, or is located outside the first body part 110. Thus, the configuration is coupled to the rail 313 of the laterally moving device 310 to be described later. The seating part 120 may be formed on the bottom or side 2 or 4 of the first body part 110, but is not limited thereto. In addition, the seating portion 120 has a recessed portion 121 recessed upward from the bottom thereof in a lateral direction, and is formed in a shape complementary to the rail 313, so that the first body portion 110 can move laterally. It is preferable. In addition, the depression 121 is sufficient to be formed in a shape that is suitable to prevent the upward departure from the rail 313.

Referring to FIG. 3, the jig plate 130 is coupled to the lower chamber driver 30, which will be described later, by the lower chamber driver 30, and the pressing unit 140 positioned on an upper surface thereof is lifted and / or It is a plate-like structure which allows it to descend. The jig plate 130 may be disposed inside the first body part 110. Therefore, after the lower chamber portion 10 is laterally moved to match the upper chamber portion 50, the lower chamber portion 10 is combined with the lower chamber portion 10 as the upper chamber portion 50 descends to seal the internal space, and then the jig The plate 130 may move upwards a predetermined distance independently of the lower chamber part 10 to perform a punching process, and then move upwards again to further perform a sealing process.

Referring to FIG. 5, the pressurizing unit 140 pressurizes and fixes both outer surfaces of the battery cell 90, and the fixed battery cell 90 is punched as the jig plate 130 moves up and down. And a configuration to sequentially transfer to the upper chamber part 50, and is disposed on the jig plate 130 in an inner space of the first body part 110. In addition, the pressurizing unit 140 may be disposed in a plurality of spaced apart from each other within the first body portion 110 by a predetermined distance. For example, when four pressurizing units 140 are formed in the first body part 110, punching and sealing processes for four battery cells 90 may be simultaneously performed by one device 1. Therefore, process efficiency can be improved.

To this end, the pressing unit 140 may include a first pressing part 141, a second pressing part 142, and a departure prevention part 143.

The first pressing unit 141 is a plate-like configuration for pressing one outer surface of the battery cell 90. For example, after the first pressing unit 141 moves toward the battery cell 90 by a pressure driving unit (not shown), one outer surface of the battery cell 90 is pressed. The first pressing unit 141 may be formed in a pair spaced apart from each other, two pairs may be formed is not limited to this.

In addition, the first pressing part 141 may include a first guide part 1411 formed to extend a predetermined distance upward from the upper side to prevent the gas discharge part 950 from falling / tilting.

The first guide part 1411 extends a predetermined distance upward from an upper surface of the first pressing part 141 and performs a function of preventing the gas discharge part 950 from falling or inclining as described above. The first guide part 1411 is preferably formed so that its height is shorter than the upper length of the gas discharge part 950 so as not to cover the front side of one outer surface of the gas discharge part 950. In addition, the first guide portion 1411 may be formed in a polygonal frame shape, for example, a rectangular frame shape or a 'C' frame shape, so that the remaining positions except for the edge portion may be opened. Therefore, in the punching process or the sealing process to be described later, it may be prevented from interfering with the configuration of the punching unit 150 approaching the gas discharge unit 950 side.

The second pressing portion 142 is a plate-like configuration for pressing the other outer surface of the battery cell 90. For example, after the second pressing unit 142 moves toward the battery cell 90 by the pressure driving unit, the other outer surface of the battery cell 90 is pressed. Accordingly, the second pressing unit 142 is positioned to be spaced apart from the first pressing unit 141 by approximately the thickness of the battery cell 90. In addition, the second pressing unit 142 may also be formed with a pair of spaced apart from each other in the same way as the first pressing unit 141, two pairs may be formed.

The second pressing part 142 may also include a second guide part 1421 formed to extend a predetermined distance upward from the upper side to prevent the gas discharge part 950 from falling or inclining. By preventing the gas discharge part 950 from being inclined to one side by the second guide part 1421 and the first guide part 1411, it is possible to facilitate punching of the punching unit 150 to be described later. have. That is, according to the lifting operation of the jig plate 130 in a state in which the gas discharge unit 950 is inclined toward one side, when the pressing unit 140 moves up and down to the position of the punching unit 150, the punching unit ( There is a risk of interference due to some configurations of 150). In order to prevent this, the degassing apparatus 1 according to an embodiment of the present invention may include first and / or second guide parts 1311 and 1411.

In detail, the gas discharge part 950 of the battery cell 90 rising together with the jig plate 130 is in contact with the tip portion of the cutout portion 1513 of the punching unit 150 which will be described later in the lifting process. As a result, the punching process may not be performed at the correct position. In addition, even if the gas discharge unit 950 is not cut during the lifting process, there is also a problem in that accurate entry of the cutout 1513 into a predetermined position in a later process becomes costly. In order to prevent such problems, the degassing apparatus 1 according to an embodiment of the present invention may include first and / or second guide parts 1311 and 1411.

The departure prevention part 143 is formed on the front and / or rear side of the battery cell 90 fixed between the first pressing part 141 and the second pressing part 142 so that the front and the front of the battery cell 90 And / or is configured to prevent back departure.

3 and 6, 7 and 9, the punching unit 150 is provided on the lower chamber portion 10 side, preferably disposed on the upper side of the lower chamber portion 10 gas discharge unit It is a configuration for punching one side of the (950). In general, in the conventional degassing apparatus, a punching portion or a piercing portion for punching the gas discharge portion 950 is disposed on the upper chamber side. In this case, since both the sealing portion and the sealing portion are disposed inside the upper chamber, there is inevitably a cost point in the maintenance and maintenance of the operator. That is, all components required for the punching process and the sealing process are disposed inside the upper chamber, so that the layout may be too complicated. This causes the space inside the upper chamber to be narrow, which makes it difficult for the operator to perform easy maintenance and repair work. In addition, in order to visually check the configurations of the punching part and the sealing part, there is an inconvenience in that the face of the operator must be directly located inside or immediately below the upper chamber to check the respective configurations.

In addition, in the conventional degassing apparatus, a plurality of components are located in the upper chamber, and the side width of the upper chamber 50 may be large for easy placement thereof. At this time, when performing a simultaneous degassing process for a plurality of battery cells 90 in a limited space, the total horizontal width of the upper chamber 50 becomes larger, which inevitably lowers the process efficiency. In order to solve these problems, the degassing apparatus 1 according to an embodiment of the present invention is characterized in that the punching unit 150 is provided on the lower chamber portion 10 side.

To this end, the punching unit 150 may include a first piercing plate 151 and a second piercing plate 153.

The first piercing plate 151 is configured such that one side of the first piercing plate 151 faces the side surface of the battery cell 90 to cut the gas discharge part 950 side. To this end, the first piercing plate 151 may include a first fixing plate 1511, a first punching driving means 1512, an incision 1513, a connecting rod 1514, and a front plate 1515. .

The first fixing plate 1511 is connected to the punching driving means 1512 to move laterally a predetermined distance toward or adjacent to the battery cell 90 in accordance with the driving of the punching driving means 1512. The first fixing plate 1511 is coupled to the cutout 1513, which will be described later, and moves together in the same direction according to the lateral movement of the first fixing plate 1511.

The first punching driving means 1512 is configured to enable the lateral movement of the first fixing plate 1511 by a predetermined distance, and may be formed of, for example, a pneumatic piston, but is not limited thereto. It should be noted that there may be any of a variety of configurations.

The cutout 1513 is a cutter blade configuration disposed on one side of the first fixing plate 1511 to cut one side of the gas discharge unit 950, and, for example, a plurality of cutouts 1513 are preferably spaced apart in the horizontal direction. . The incision tip portion of this incision 1513 is disposed to face the adjacent battery cell 90 side. Therefore, the first fixing plate 1511 moves toward the battery cell 90, and the cutout 1513 also moves toward the gas discharge part 950 to cut one side of the gas discharge part 950. One end of the cutout 1513 is fixed to the first fixing plate 1511, and the cutout tip is inserted into the through hole 1515 ′ of the front plate 1515 to be described later.

The connecting rod 1514 is inserted into one side of the first fixing plate 1511 and disposed between the first fixing plate 1511 and the front plate 1515 to be described later. On the end side, for example, an elastic means such as a spring is arranged. The elastic means is located inside the receiving portion coupled with the first fixing plate 1511. Therefore, when the first fixing plate 1511 moves toward the adjacent battery cell 90, the elastic means is pressed by the connecting rod 1514, and the through hole of the front plate 1515 coupled with the connecting rod 1515. The cutout 1513 inside the 1515 'moves to an open outside of the through hole 1515' to cut one side of the gas outlet 950. Thereafter, when the first fixing plate 1511 returns to its original position, the front plate 1515 also returns to its original position by the restoring force of the elastic means, and in detail, returns to the direction away from the first fixing plate 1511. The cutting tip portion of the cutout 1513 is easily movable back into the through hole 1515 '. That is, except when the punching process is performed, the tip portion of the cutout 1513 is positioned inside the through hole 1515 '.

The front plate 1515 is spaced apart from the first fixing plate 1511 and is configured to insert the cutout 1513 into the inner through hole 1515 '. Therefore, when the first fixing plate 1511 moves toward the battery cell 90, the cutout 1513 may be moved along the through hole 1515 ′ to guide the gas discharge part 950.

Conventionally, since there is no configuration covering both sides of the cutout 1513 during the punching process, there is a possibility that a safety accident occurs during maintenance of the operator. That is, a safety accident may occur by inserting a hand into the inside of the upper chamber and not touching the cutout 1513 without having a secure view. In order to solve this problem, in the present invention, the front plate 1515 is provided so that the tip portion of the cutout 1513 is movable outside the through hole 1515 'only during the punching process.

The second piercing plate 153 may be configured to face the other side of the battery cell 90. For this purpose, the second piercing plate 153 may include a second fixing plate 1531 and a second punching driving means 1533.

The second fixing plate 1531 is configured to pressurize the outer surface of the battery cell 90 together with the front plate 1515 so that the pressure discharge part 950 side is firmly fixed during the punching process. Accordingly, as the pressure discharge part 950 is fixed, the predetermined position of the pressure discharge part 950 may be accurately cut through the cutout 1513.

The second punching driving means 1533 is configured to enable the lateral movement of the second fixing plate 1531 in a predetermined distance, and may be, for example, made of a pneumatic piston, but is not limited thereto. It should be noted that there may be any of a variety of configurations.

2 and 3, the lower chamber driving unit 30 is configured to enable the lateral movement of the lower chamber unit 10 and / or the lifting operation of the jig plate 110. 310 and the lifting device 330 may be included.

The lateral movement device 310 is configured to be coupled to one side of the lower chamber part 10 to enable the lateral movement of the lower chamber part 10. As described above, the lower chamber part 10 can be moved laterally by the lateral moving device 310 to be described later, so that the upper side of the lower chamber 10 is fully opened to the position of the upper chamber 50. It may be laterally moved to be matched with the upper chamber 50. Accordingly, the lower chamber 10 may perform a maintenance and repair process after leaving the upper chamber 50 to be completely opened before or after the punching and / or sealing process is performed.

To this end, the side movement device 310 may include a side driving means 311 and the rail 313.

Side drive means 311 is configured to enable the lateral movement of the first body portion 110, for example, may be made of a motor, but is not limited thereto.

Rail 313 is formed on the lower side of the first body portion 110 and is configured to facilitate the lateral movement of the lower chamber portion 10 through the seating portion 120 coupled. The rail 313 may be formed a pair spaced apart from each other is not limited to this.

The lifting device 330 is configured to allow the jig plate 130 to move up and down. In detail, the lifting device 330 may be coupled to the lower surface of the jig plate 110 to allow the jig plate 130 to move up or down. The lifting device 330 may be made of, for example, a servo motor, but is not limited thereto. The detailed operation thereof will be described, and the inner spaces of the lower chamber part 10 and the upper chamber part 50 are completely sealed by the downward movement of the upper chamber part 50. Then, the jig plate 130 is moved up and down by driving of the lifting device 30 so that the battery cell 90 fixed by the first and second pressing units 131 and 132 is the height of the punching unit 150. Go up and down. After setting the inside of the upper and lower chamber portions 10 and 50 in a vacuum environment, a punching process is performed to allow the gas inside the battery cell 90 to flow out through the gas discharge part 950.

After the punching process is completed, the jig plate 130 is lifted again by the driving of the elevating device 330 again so that the battery cell 90 is elevated to the height of the sealing unit 550 to perform the sealing process.

As described above, the elevating device 330 lifts the jig plate 130 to a predetermined height, and then performs a punching process, and then lifts the jig plate 110 again to perform the sealing process. It is not necessary to replace the component according to the height change of), and the height at which each process is performed may be convenient for maintenance and repair.

The upper chamber portion 50 is configured such that its lower side abuts or engages with an upper side of the lower chamber portion 10 and is punched and / or sealed in an inner space with the lower chamber portion 10. As described above, the upper chamber portion 50 may be coupled to and released from the lower chamber portion 10 to be described later as the ascend and descend, and more specifically, coupled to the open upper side of the lower chamber portion 10. The shape of the upper chamber part 50 is not particularly limited, but may be a rectangular parallelepiped having an upper side opened.

To this end, the upper chamber 50 may include a second body portion 510, a lift driver 530, and a sealing unit 550.

The second body portion 510 is configured to form the overall appearance of the upper chamber portion 50, it is preferable that the lower side is formed in a rectangular parallelepiped shape.

The lifting lowering driver 530 is disposed on the upper side of the second body part 510 to configure the lifting or lowering operation of the sealing unit 550 to be described later. The lifting drive unit 530 may be made of, for example, a lifting cylinder, but is not limited thereto. By moving the sealing unit 550 to the lower side of the second body portion 510 by the elevating drive unit 530, there is an advantage that easy maintenance and the like for the sealing unit 550 is possible.

8 and 10, the sealing unit 550 is configured to closely seal the edge of the case part 910 after the punching process is completed.

For this purpose, the sealing unit 550 may include a coupling unit 551, an insertion rod 553, an insertion plate 555, a lateral movement plate 557, and a sealing tool 559.

The coupling unit 551 is connected to the lifting lowering driver 530 and is configured to move up or down in response to the driving of the lifting lowering driver 530. The coupling unit 551 is coupled to the upper side of the insertion rod 553 which will be described later. To this end, the coupling part 551 may include a lower extension part 5511 and an insertion rod coupling part 5513.

The lower extension part 5511 is coupled to the elevating driving part 530 and extended downwards by a predetermined distance, and the lower extension part 5511 is coupled to the insertion rod coupling part 5513. There is no separate limitation on the shape of the downward extension part 5511, but may be formed in, for example, a rod shape.

Insertion rod coupling portion 5313 has an upper side of the lower extension portion 5511 and the lower side of the configuration coupled to the insertion rod 553, according to the lowering operation of the elevating drive unit 530 It is a structure which pushes the said insertion rod 553 downward. In addition, an insertion hole / penetration hole is formed at an upper side of the insertion rod coupling part 5513 so that the lower extension part 5511 may be inserted into the insertion hole / penetration hole, or the lower extension part 5511 and the insertion rod may be combined. The coupling part 5513 may be integrally formed by welding or the like, but the present invention is not limited thereto.

In addition, the insertion bar coupling portion 5513 is formed with a recess portion 5313 ′ that is recessed upwardly along the longitudinal direction from the lower surface thereof, and an insertion rod 553 to be described later is inserted into the depression portion. Therefore, when the lower extension part 5511 is lowered by the driving of the elevating drive part 530, the insertion bar coupling part 5313 pushes the upper side of the insertion bar 553 downward.

Insertion rod 553 is formed in a rod shape along the front and rear direction is inserted into one side of the coupling unit 551, more specifically, the insertion arrangement in the recessed portion (5513 ') of the insertion rod coupling portion 5513 Can be.

The insertion plate 555 is configured such that one side is coupled to the insertion rod 553 and the other side is coupled to the lateral movement plate 557. The insertion plate 555 has a pair of left and right, and the insertion rod 553 is inserted into the through-hole 5551 formed on one side thereof. Therefore, the insertion rod 553 is allowed to be inserted in the state where the through holes 5551 of the left and right insertion plates 555 are overlapped with each other. In addition, the insertion plate 555 is characterized in that the hinge is coupled to one side of the fixing portion 554 extending downward from the upper bottom surface of the second body portion 510. Therefore, when the lower extension 551 is lowered, the insertion rod coupling portion 5513 pushes the insertion rod 553 downward, and the side of the adjacent pair of insertion plates 555 hinged to the fixing portion 554. The side coupled with the moving plate 557 may move in the outward direction which is mutually extended.

The lateral movement plate 557 is configured to move together with the lower side of the insertion plate 555 to move outward when the insertion plate 555 moves in an outward direction. In addition, there is no separate limitation on the coupling manner of the lateral movement plate 557 with the insertion plate 555. In addition, the lateral movement plate 557 may have a through hole 5571 formed along the left and right sides thereof, and the guide rod 558 may be inserted into the through hole. Therefore, an easy movement can be guided along the guide rods 558 during the lateral movement of the lateral movement plate 557, and at the same time to achieve a lateral movement of a predetermined range, and to prevent movement beyond that range, the penetrating It is appropriate to limit the diameter of the ball 5571 to be larger than the diameter of the guide rod 558 to be less than a predetermined range.

The sealing tool 559 is coupled to the lower side of the lateral movement plate 557 and extends downward by a predetermined distance, and is a pair of configurations for sealing the edge of the battery cell 90. The sealing tool 559 is movable together with the lateral movement plate 557 in a direction near or away from the edge of the battery cell 90. In addition, both sides of the edge portion may be pressurized in a heated state during the sealing process. As such, the sealing tool 559 is configured to be movable laterally together with the lateral movement plate 557, thereby simultaneously pressing both sides of the edge of the battery cell 90 during the sealing process.

The upper chamber lifting unit 70 is configured to be coupled to one side of the upper chamber unit 50 so that the upper chamber 50 moves up or down. The upper chamber lifting unit 70 may be, for example, a servo motor. Therefore, the lower chamber part (10) may be coupled to the lower chamber part 10 in accordance with the lowering operation of the upper chamber part 50 by the upper chamber lifting part 70. 10) may be released.

The foregoing detailed description illustrates the present invention. In addition, the above-mentioned content shows and describes preferred embodiment of this invention, and this invention can be used in various other combinations, changes, and environments. That is, changes or modifications can be made within the scope of the concept of the invention disclosed in this specification, the scope equivalent to the disclosures described above, and / or the skill or knowledge in the art. The above-described embodiments illustrate the best state for implementing the technical idea of the present invention, and various modifications required in the specific application field and use of the present invention are possible. Thus, the detailed description of the invention is not intended to limit the invention to the disclosed embodiments.

1: battery cell degassing device
10: lower chamber part
110: first body portion 120: seating portion
121: depression
130: jig plate 140: pressure unit
141: first pressing portion 1411: first guide portion
142: second pressing portion 1421: second guide portion
143: Departure prevention part
150 punching unit
151: first piercing plate
1511: first fixing plate 1512: first punching drive means
1513: incision 1514: connecting rod
1515: front plate 1515 ': through hole
153: second piercing plate
1531: second fixing plate 1533: second punching driving means
30: lower chamber drive unit
310: side shifter
311: lateral drive means 313: rail
330: lifting device
50: upper chamber portion
510: second body portion 530: elevating drive unit
550: Sealing Unit
551: coupling unit
5511 downward extension
5513: insertion rod coupling portion 5513 ': depression
553: insertion rod 554: fixing part
555: insertion plate 5551: through hole
557: side moving plate 5571: through hole
558 guide rod 559 sealing tool
70: upper chamber lifting portion

Claims (15)

A lower chamber part fixing both outer surfaces of the battery cell and allowing the battery cell to move up and down;
A lower chamber driver for allowing the jig plate to move up and down;
An upper chamber portion having a lower side coupled to an upper side of the lower chamber portion and allowing punching and sealing of the battery cells in an inner space formed by the lower chamber portion; And
And an upper chamber driving part coupled to one side of the upper chamber part to enable a lowering operation of the upper chamber part.
The lower chamber portion
A first body part which forms an overall appearance of the lower chamber part and whose upper side is opened; A jig plate disposed on an inner side of the first body part and having a lower surface coupled to a lower chamber driving part to move up or down; A pressurizing unit disposed on the jig plate at an inner side of the first body part to pressurize and fix both outer surfaces of the battery cell; And a punching unit disposed at an upper side of the first body part to punch one side of the gas discharge part of the battery cell.
The upper chamber portion
A second body part which forms an overall appearance of the upper chamber part and whose lower side is opened; An elevating driving unit arranged on an upper side of the second body to plan an elevating or descending of a sealing unit; And a sealing unit for tightly sealing the case rim after punching the battery cell.
A lower chamber part fixing both outer surfaces of the battery cell and allowing the battery cell to move up and down;
A lower chamber driver for enabling the jig plate to move up and down;
An upper chamber portion having a lower side coupled to an upper side of the lower chamber portion and allowing punching of the battery cell in an inner space formed by the lower chamber portion; And
And an upper chamber driving part coupled to one side of the upper chamber part to enable a lowering operation of the upper chamber part.
The lower chamber portion
A first body part which forms an overall appearance of the lower chamber part and whose upper side is opened; A jig plate disposed on an inner side of the first body part and having a lower surface coupled to a lower chamber driving part to move up or down; A pressurizing unit disposed on the jig plate at an inner side of the first body part to pressurize and fix both outer surfaces of the battery cell; And a punching unit disposed at an upper side of the first body part to punch one side of the gas discharge part of the battery cell.
The lower chamber drive unit
And a lifting device for enabling a lifting operation of the jig plate.
The punching unit
A first piercing plate facing one side of the battery cell to cut one side of the gas discharge part; And a second piercing plate facing the other side of the battery cell.
The first piercing plate is
A first fixing plate connected to a punching driving means and laterally moving toward an adjacent battery cell according to the driving of the punching driving means; First punching drive means for enabling lateral movement of said first fixed plate; Battery cell degassing apparatus comprising a; cutting portion which is disposed on one side of the first fixed plate is a cutter blade configuration for cutting one side of the gas discharge portion.
The method of claim 2, wherein the lower chamber portion
A first body part which forms an overall appearance of the lower chamber part and whose upper side is opened; And
And a seating part disposed on one side of the lower chamber part and having a recessed portion recessed upward from a bottom surface thereof.
The lower chamber drive unit
Further comprising a side moving device coupled to one side of the lower chamber portion to enable the lateral movement of the lower chamber,
The lateral moving device
Lateral drive means for enabling lateral movement of the first body portion; And an upper rail formed in a shape complementary to the recessed portion of the seating portion and inserted into the recessed portion.
The method of claim 2, wherein the pressing unit
A plate-shaped first pressurizing unit configured to press one outer surface of the battery cell; And
It includes; a plate-shaped second pressing portion for pressing the other outer surface of the battery cell, including
The first pressing portion
And a first guide part extending upward from a top surface by a predetermined distance to prevent the gas discharge part of the battery discharged from being fixed between the first pressing part and the second pressing part. Singh device.
The method of claim 4, wherein
The formation height of the first guide portion extends to a size lower than the formation height of the gas discharge portion, the battery cell degassing device, characterized in that formed in a 'b' rim shape.
delete The method of claim 2, wherein the first piercing plate is
And a front plate disposed to be spaced apart from the first fixing plate to allow the incision to be inserted into the inner through hole.
The incision
Battery degassing apparatus, characterized in that the distal tip is disposed facing the adjacent battery cell, one end is fixed to the first fixed plate, the distal tip is disposed in the through hole of the front plate.
The method of claim 7, wherein the first piercing plate is
The battery cell degassing apparatus further comprises a; connecting rod is inserted into one side of the first fixing plate and disposed between the first fixing plate and the front plate and one end is in contact with the elastic means .
A lower chamber part fixing both outer surfaces of the battery cell and allowing the battery cell to move up and down;
A lower chamber driver configured to allow a lowering operation of the battery cell;
An upper chamber portion having a lower side coupled to an upper side of the lower chamber portion and allowing punching and sealing of the battery cells in an inner space with the lower chamber portion; And
And an upper chamber driving part coupled to one side of the upper chamber part to enable a lowering operation of the upper chamber part.
The upper chamber portion
A second body part which forms an overall appearance of the upper chamber part and whose lower side is opened; An elevating driving unit arranged on an upper side of the second body to plan a lifting or lowering operation of a sealing unit; And a sealing unit configured to closely seal the edge of the battery cell.
The sealing unit
A coupling unit connected to the lift driver and configured to move up or down according to the driving of the lift driver; An insertion rod formed in a rod shape along a front and rear direction and inserted into one side of the coupling unit; A pair of left and right insertion plates, one side of which is coupled to the insertion rod and the other side of the insertion plate; A side movement plate having an upper side coupled to a lower side of the insertion plate to move laterally within a predetermined range; And a pair of sealing tools coupled to the lower side of the lateral moving plate and extending downward to seal the edges of the battery cells.
The method of claim 9, wherein the lower chamber portion
A first body part which forms an overall appearance of the lower chamber part and whose upper side is opened; And
And a punching unit disposed at an upper side of the first body part to punch one side of the gas discharge part of the battery cell.
delete The method of claim 9, wherein the coupling unit
A lower extension part coupled to the elevating driving part and extending downward and coupled with an insertion rod coupling part; And
A lower side of the lower extension portion and a lower side coupled to the insertion rod, and an insertion rod coupling portion for pushing the insertion rod downward in accordance with the lowering operation of the elevating driving portion; Cell degassing device.
The method of claim 9, wherein the insertion plate is
One side is inserted into the rod, the other side is coupled to the lateral movement plate, a pair of left and right are disposed, the insertion rod is inserted into the through hole of the left and right side insertion plates, and is formed extending downward from the upper bottom of the second body portion Battery cell degassing device characterized in that the hinge is coupled to one side of the government.
The method of claim 13, wherein the insertion plate is
The battery cell degassing device, characterized in that when the insertion rod moves downward, the side coupled to the side moving plate of the pair of adjacent insertion plates hingedly coupled to the fixing portion moves in an outward direction.
The method of claim 9, wherein the sealing tool
And a battery cell degassing apparatus which moves in a direction toward or away from an edge of the battery cell together with the lateral movement plate.

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