KR20180056132A - Degassing apparatus for secondary battery - Google Patents

Abstract

An embodiment of the present invention provides a degassing apparatus for a secondary battery, capable of improving a structure to prevent the warpage of a gas chamber in a gas discharge process of a pouch cell. The degassing apparatus for a secondary battery according to an aspect of the present invention includes: a vacuum chamber in which the pouch cell connected to a gas chamber is mounted; an exhaust unit connected to one side of the vacuum chamber to discharge a gas inside the pouch cell through the medium of the gas chamber; and a porous inner member provided inside the vacuum chamber to support the gas chamber.

Description

{DEGASSING APPARATUS FOR SECONDARY BATTERY}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a gas discharging device for a secondary battery, which is used for discharging a gas of a pouch cell during the manufacture of a secondary battery.

2. Description of the Related Art [0002] In general, secondary batteries are excellent in charge and discharge characteristics and are under active research due to development of high-tech fields such as digital cameras, cellular phones, notebook computers, and hybrid vehicles. Examples of such secondary batteries include nickel- , A nickel-hydrogen battery, a nickel-zinc battery, and a lithium secondary battery.

Among the secondary batteries, the lithium secondary battery includes at least one pouch cell, and a lithium metal battery, a lithium ion battery, and a lithium polymer battery using a polymer solid electrolyte are classified according to an electrolyte filled in the pouch cell. .

In the secondary battery, gas may be generated in the course of charging the electrolyte into the pouch cell. Such a gas may cause deformation of the secondary battery, shorten its service life, and cause explosion or ignition. Therefore, , And a degassing apparatus is used to remove such gas.

1 and 2, a conventional gas discharging device 1 is configured such that a pouch cell 50 is inserted into a vacuum chamber 10, and then, through a gas chamber 52 connected to the pouch cell 50, It is possible to evacuate the gas inside the chamber 50 by vacuum.

The vacuum chamber 10 is provided with a pallet-type lower plate 14 provided with a space for seating the pouch cell 50 and a sealing bar 12 for supporting the pouch cell 50 by pressing . The gas chamber (52) may be installed through the sealing bar (12).

The vacuum chamber 10 is provided with an exhaust part 22 for evacuating the inside of the vacuum chamber 10. The lower part of the vacuum chamber 10 has a structure in which the lower plate 14 is lifted and lowered and the upper part has an interference with the sealing bars 12, It is difficult to install the exhaust nozzle.

Accordingly, in the conventional gas exhausting apparatus 1, the evacuation section 22 is connected to the side surface of the vacuum chamber 10, and the gas chamber 52 is closed by the pressure generated in the process of evacuating the air in the vacuum chamber 10 May be bent in the direction of the exhaust nozzle.

When the gas chamber 52 is bent, the pouch cell 50 may be deformed, and the sealing may be uneven due to such deformation, and insulation resistance of the pouch cell 50 may be defective due to damage to the pouch insulating layer. it is necessary to add a gripper or a guide to remove the bending deformation of the gas chamber 52 by installing a gripper or a guide on the outer surface of the pouch cell 50. However, There is a possibility that deformation may occur.

An object of the present invention is to provide a gas discharging device for a secondary battery which is improved in structure to prevent warping of a gas chamber in the process of discharging gas of a pouch cell.

According to an aspect of the present invention, there is provided a gas discharge apparatus for a secondary battery, comprising: a vacuum chamber in which a pouch cell connected with a gas chamber is mounted; An exhaust unit connected to one side of the vacuum chamber to exhaust gas inside the pouch cell through the gas chamber; And a porous inner member provided inside the vacuum chamber to support the gas chamber.

Also, the porous inner member may be formed of a metal material and may be provided in the form of a mesh connected in a porous manner.

The porous inner member may have a mesh density at a portion closer to the exhaust portion than a mesh density at a portion far from the exhaust portion.

Further, in the porous inner member, when the distribution amount of the mesh is constant, the opening size of the mesh near the exhaust part may be smaller than the distance from the exhaust part.

Further, when the opening size of the mesh is constant, the distribution amount of the mesh in the portion near the exhaust portion may be larger than the portion far from the exhaust portion.

According to an embodiment of the present invention, warping of the gas chamber can be prevented in the process of discharging the internal gas of the pouch cell. In addition, in the process of discharging the gas, the portion directly adjacent to the exhaust port and directly influenced by the exhaust forming the mesh density, and the portion not directly influenced by the exhaust forming the mesh density is small, The pressure can be kept constant.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view of a conventional gas discharge device for a secondary battery. FIG.
2 is a cross-sectional view of a state in which a gas chamber is bent by a gas exhaust of a gas discharge apparatus for a secondary battery according to the prior art.
3 is a sectional view of a gas discharge device for a secondary battery according to an embodiment of the present invention.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. The embodiments of the present invention can be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. The shape and the size of the elements in the drawings may be exaggerated for clarity and the same elements are denoted by the same reference numerals in the drawings.

3 is a cross-sectional view of a gas discharge apparatus for a secondary battery according to an embodiment of the present invention.

Referring to FIG. 3, the gas exhausting apparatus 100 for a secondary battery according to the present embodiment can be used to discharge gas generated in the process of filling the pouch cell 150 with an electrolyte.

The gas exhausting apparatus 100 for a secondary battery may include a vacuum chamber 110 having a closed slope to maintain a vacuum. The vacuum chamber 110 may be opened at a lower portion thereof and a pouch cell 150 for discharging gas through an opened lower portion thereof may be mounted.

The vacuum chamber 110 may be provided with a sealing bar 112 for sealingly supporting the pouch cell 150 at an upper portion of the vacuum chamber 110.

A gas chamber 152 connected to the pouch cell 150 for supplying an electrolyte solution or discharging a gas may be connected to the upper portion of the pouch cell 150. The gas chamber 152 is connected to the center of the sealing bar 112 As shown in FIG. Here, the sealing bar 112 may be installed at a predetermined width inside the vacuum chamber 110, and the upper and lower portions of the sealing bar 112 may communicate with each other.

In addition, a pallet-shaped lower plate 114, on which the pouch cells 150 are mounted and supported, can be coupled to the lower portion of the vacuum chamber 110 in a liftable manner. The lower plate 114 is coupled to the lower portion of the vacuum chamber 110 to seal the lower portion of the vacuum chamber 110. The lower plate 114 can be lifted and lowered and the pouch cell 150 can be held in close contact with the sealing bar 112.

Further, an exhaust part 122 may be connected to one side of the vacuum chamber 110. The exhaust unit 122 may include a vacuum pump (not shown), and may be connected to an exhaust nozzle installed at one side of the vacuum chamber 110 via a pipe or the like.

The evacuation unit 122 can discharge the gas inside the vacuum chamber 110 to the outside during the operation of the vacuum pump and the inside of the vacuum chamber 110 is maintained at the vacuum pressure by the evacuation unit 122 The gas inside the pouch cell 150 can be discharged.

In the present embodiment, in order to prevent the gas chamber 152 from being bent in the direction in which the discharge pressure of the exhaust part 122 is generated in the process of discharging the gas inside the pouch cell 150, A porous inner member 130 for supporting the chamber 152 may be provided.

In this embodiment, the porous inner member 130 may be installed inside the vacuum chamber 110 before the pouch cell 150 is coupled.

The porous inner member 130 may be formed of a metal material and may be provided in the form of a mesh connected in a porous manner.

The porous inner member 130 may be formed to have a strength enough to support the gas chamber 152 against the exhaust pressure of the exhaust part 122 and may be formed in various shapes have.

For example, the porous inner member 130 may be formed of a metal material such as SUS. Specifically, the porous inner member 130 may be formed in the form of a plurality of wires intertwined with each other, and may be shaped like an iron wool. Further, the porous inner member 130 may be in the form of a plate in which a plurality of wire rods are bonded to each other in an alternating manner, and thus, a plate in which a plurality of rods are cross-bonded may be provided in a wrinkled form. Also, the porous inner member 130 can be connected to a plurality of wire rods in various sizes.

As described above, the porous inner member 130 may be provided in various forms having openings connected to each other. The shape and material of the porous inner member 130 are not limited, and various shapes and materials can be deformed. For example, the porous inner member 130 may be formed of synthetic resin such as plastic.

In the present embodiment, the porous inner member 130 is generally formed of various shapes and materials having a predetermined shape and a space continuously formed therein, and is generally defined as a mesh. In addition to the mesh shape, the porous inner member 130 may have various shapes Lt; / RTI >

The mesh density at the portion of the porous inner member 130 close to the exhaust portion 122 may be larger than the mesh density of the portion far from the exhaust portion 122.

For example, in the present embodiment, the mesh density of the porous inner member 130 is inversely proportional to the opening size of the mesh when the distribution amount of the mesh is constant, and may be varied in proportion to the distribution amount of the mesh when the opening size of the mesh is constant.

In this embodiment, the porous inner member 130 may be formed such that the size of the opening of the mesh near the exhaust portion 122 is smaller than the size of the opening of the mesh at a portion distant from the exhaust portion 122.

According to such a structure, the space between the meshes may be formed to be small in the portion near the exhaust portion 122, so that the exhaust of the gas may be restricted, and the space between the exhaust portion 122 and the exhaust portion 122 may be large, So that the amount of gas discharged from the portion near the exhaust portion 122 as a whole and the portion far from the exhaust portion 122 can be kept constant.

As described above, since the porous inner member 130 is constructed so as to have a uniform mesh size so that the gas can be uniformly discharged, the bending deformation of the gas chamber 152 and the deformation or damage of the pouch cell 150 can be prevented , It is possible to freely adjust the position where the exhaust nozzles are connected, so that it is possible to solve the facility restriction according to the connection position of the exhaust nozzle.

In the present embodiment, the porous inner member 130 has a mesh size different from that of the mesh. However, the opening size of the mesh may be the same, but the gas discharge amount may be adjusted depending on the density of the mesh.

That is, in this embodiment, the porous inner member 130 has a large mesh density distribution at a portion close to the exhaust portion 122 when the opening size of the mesh is the same, and a mesh density distribution portion at a portion far from the exhaust portion 122, The discharge resistance of the gas is small so that it is easily discharged. In a portion near the exhaust portion 122, the distribution density of the mesh is high, so that the discharge of gas can be limited have.

The operation of the gas discharging device 100 for a secondary battery constructed as described above will be described below.

First, a porous inner member 130 having a controlled mesh density is inserted into the vacuum chamber 110 according to the position of the exhaust nozzle of the exhaust part 122.

A pouch cell 150 seated on the lower plate 114 is inserted into a lower portion of the vacuum chamber 110.

The gas chamber 152 connected to the pouch cell 150 is supported between the porous inner member 130 while the pouch cell 150 is inserted into the vacuum chamber 110. [

Next, when the vacuum pump of the exhaust part 122 is operated, the gas inside the vacuum chamber 110 is exhausted through the pipe and the exhaust nozzle to form the vacuum pressure, and the gas inside the pouch cell 150 flows into the gas chamber 152 to the vacuum chamber 110.

At this time, the gas inside the vacuum chamber 110 can be discharged to the exhaust nozzle through the mesh of the porous inner member 130. In this process, the density difference of the mesh, that is, the size of the mesh opening, The exhaust gas is discharged from the side close to the exhaust nozzle, and the gas is uniformly discharged as a whole.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents. It will be clear to those who have knowledge.

100: Gas discharge device for secondary battery 112: Sealing bar
110: vacuum chamber 122:
130: porous inner member 150: pouch cell
152: Gas room

Claims (5)

A vacuum chamber in which a pouch cell connected with a gas chamber is mounted;
An exhaust unit connected to one side of the vacuum chamber to exhaust gas inside the pouch cell through the gas chamber; And
A porous inner member provided inside the vacuum chamber to support the gas chamber;
And a gas discharge device for the secondary battery.
[2] The porous member according to claim 1,
A gas exhausting device for a secondary battery, which is formed of a metal material and is provided in the form of a mesh connected with a porous body.
[3] The porous member according to claim 2,
Wherein a mesh density at a portion close to the exhaust portion is formed to be larger than a mesh density at a portion far from the exhaust portion.
[4] The method according to claim 3, wherein the porous inner member
When the distribution amount of the mesh is constant,
Wherein an opening size of the mesh in a portion close to the exhaust portion is smaller than a portion distant from the exhaust portion.
[4] The method according to claim 3, wherein the porous inner member
When the opening size of the mesh is constant,
Wherein a distribution amount of the mesh at a portion close to the exhaust portion is formed larger than a portion far from the exhaust portion.

Images