KR100564797B1 - Cutting Machine for Manufacture of Secondary battery - Google Patents

Abstract

The present invention relates to a cutting machine used for manufacturing a secondary battery, and a driving unit connected to a power supply unit, a cutting member connected to the driving unit and a blade formed at an end thereof, and accommodating the cutting member and reciprocating the cutting member. A guide member and a support member for supporting an object to be cut and disposed in the downward direction of the cutting member, characterized in that the blade is curved in at least one of the shape of a curve, a straight line or any shape.

According to the present invention, it is easy to cut and open a part of the exterior material of the pouch battery before being put into the gas removal process, and the cutting area is constant, thereby improving productivity and quality of the product.

Secondary battery, cutting

Description

Cutting Machine for Manufacture of Secondary Battery

1 is a schematic view of a conventional cutter for manufacturing secondary batteries,

2 is a schematic view of a cutter for manufacturing a secondary battery of the present invention,

Figure 3a, 3b is a view showing a cutting member used in the secondary battery manufacturing cutter of the present invention,

Figure 4 is an enlarged view of an enlarged blade portion of the cutting member used in the cutter for manufacturing a secondary battery of the present invention.

Explanation of symbols on the main parts of the drawings

10 cutter 15 cylinder

20: cutting member 25: blade

26: mountain 27: goal

30: guide member 40: support member

50: exterior material

The present invention relates to a secondary battery manufacturing process using a pouch-type exterior material, more specifically, a secondary battery that cuts a part of the pouch-type exterior material of the secondary battery to remove the gas generated during the initial charge and discharge of the secondary battery. It relates to a manufacturing cutter.

With the recent rapid development of the telecommunications, electronics, and computer industries, the trend of light and short reduction of electronic devices is progressing rapidly. As the demand for batteries conforming to such electronic devices increases day by day, there is an increasing tendency to demand high performance and inventive integrity of electronic devices. Therefore, the most research and development and production in recent years is a lithium secondary battery.

When the secondary battery is classified according to the type of exterior material that can be sealed by inserting into the electrode assembly, the secondary battery is divided into a cylindrical using a cylindrical can, a square using a rectangular can, and a pouch battery using a pouch type exterior material. Among them, a battery using a pouch case and a liquid electrolyte is called an advanced lithium ion battery (ALB).

Here, the pouch battery is a battery that is currently attracting the most attention in accordance with the situation of light and short and small size of the electronic device. This pouch cell is relatively free in its design and is lighter and cheaper than square and cylindrical cells. In addition, it is easy to thin and lightweight.

In the case of the secondary battery using the pouch packaging material, after the assembly of the battery is completed, a part of the packaging material is sealed by applying a vacuum through an electrolyte injection process. After that, when the initial charging and discharging is performed, gas is generated inside the battery depending on the composition of the electrolyte and the system of the battery. Thus, the adoption of a method of preventing the rupture of the packaging material due to the gas, which may be generated by overcharging or the like, is generally performed through the initial charging and discharging and removing the generated gas.

 After the gas is removed through the process, the battery package is completed by bonding the remaining exterior parts except for the part containing the electrode assembly.

     When the battery is to be manufactured by the above process, it is necessary to cut a part of the pouch-type exterior material and open the exterior material a little to facilitate the gas removal process before putting the battery into the gas removal process.

As shown in Fig. 1, the cutting blade 2 for cutting the pouch-shaped exterior material 1 has a general blade shape such as small bean. In the operation of opening the pouch-type exterior material cut by the blade in a subsequent process, the metal inside the pouch-shaped exterior is stuck to each other when cutting. Then, the phenomenon that the polymer film, which is a part of the packaging material, adheres, and the stress caused by the electrolyte solution become difficult to open after cutting the packaging material.

The present invention is to solve the above problems, in the process of cutting a part of the exterior material of the battery, which is a previous step for removing the gas inside the battery by introducing a method different from the existing cutting method to open after cutting the exterior material The purpose is to facilitate this.

Cutting machine for manufacturing a secondary battery of the present invention for achieving the above object, the drive unit is connected to the power source, the cutting member is connected to the drive and the end is formed with a knife blade, the cutting member and the reciprocating motion of the cutting member A guide member for guiding and a support member for supporting an object to be cut and disposed in a downward direction of the cutting member, wherein the blade is curved in at least one of a shape of a curve, a straight line, or any shape. .

In a preferred embodiment of the present invention the curved shape of the blade is bent in a constant shape, such as a waveform.

In a preferred embodiment of the present invention, the straight shape of the blade is bent in a shape in which the inclined to both sides at the center, or the valley and the mountain is repeated.

In a preferred embodiment of the present invention the cutting member is reciprocated in at least one of vertical, horizontal or any direction.

In a preferred embodiment of the present invention, the blade end is formed in the shape of a saw blade.

In a preferred embodiment of the present invention, the blade is composed of a single component of at least one of stainless steel, carbon steel, polymer in the form of resin, ceramic material, or at least two composite and mixed components.

Hereinafter, the secondary battery manufacturing cutter of the present invention will be described in detail with reference to FIGS. 2 to 4. In addition, the same reference numerals are assigned to components that perform the same function in the drawings.

As shown in FIG. 2, the secondary battery manufacturing cutter 10 of the present invention includes a driving unit (not shown), a cutting member 20, a guide member 30, and a support member 40.

The driving unit may be provided as a motor (not shown) or an air cylinder 15 connected to a power supply device. First, when the drive unit is installed as a motor, a drive gear is joined to the rotation shaft of the motor. The drive gear is connected to one side of the cutting member bar cutting member 20 is provided with a driven gear that is engaged with the drive gear. Here, it may be replaced by a roller or a sprocket instead of the drive gear provided on the rotating shaft, it may be replaced by a chain or a rope instead of the driven gear provided on the cutting member (20). That is, the cutting member 20 is converted into linear motion by the rotational force generated by the driving unit. Therefore, it can be used with any of various gear components or other mechanical components. However, as shown in the drawing, in this embodiment, the air cylinder 15 is provided. Since the configuration and operation of the air cylinder 15 is a general one, detailed description thereof will be omitted.

The cutting member 20 may be accommodated in the guide member 30 or vice versa. And, the lower edge of the cutting member 20 is coupled to the blade 25, the blade 25 may be formed integrally with the cutting member 20, but more preferably separated from the cutting member 20 It is good to have them combined. This blade 25 has a curved shape or a straight curve different from the shape of the general blade 25. That is, the curved shape of the blade 25 is bent in a constant shape, such as a waveform. In another embodiment, as shown in FIG. 3B, the straight shape of the blade 25 is bent in a shape in which the hill 26 and the valley 27 and the hill 26 are inclined to both sides at the center. May be

In this way, by bending the shape of the blade 25 can be obtained after the pouch packaging material 50 is cut after the vacuum adsorption of the packaging material 50 through the air pad (not shown) to facilitate the operation that is easier to open.

As shown in FIG. 4, the blade 25 has an end portion shaped like a saw blade. In addition, the blade 25 is made of a single component of any one of stainless steel, carbon steel, a polymer of a resin form, and a ceramic material. Furthermore, it is preferable that it consists of at least 2 or more composite and mixed components of the said material.

The support member 40 is disposed in the downward direction of the cutting member 20 in the same concept as a jig (sub tool used when using various parts). The packaging material 50, which is a cutting material, is transferred to the upper surface of the support member 40. The support member 40 has the same bend according to the shape of the blade 25.

Here, the support member 40 can be replaced according to the standard of the secondary battery. In addition, the material of the support member 40 is wrapped with an insulating material to prevent damage to the battery packaging material 50 and short circuit of the battery.

The cutter 10 for manufacturing a secondary battery of the present invention configured as described above has a battery positioned in the support member 40 and moved to a cutting unit so that a sensor detects this and the cutting member 20 is vertically along the guide member 30. It works as At this time, when cutting a part of the exterior member 50 and the cutting member 20 is returned to its original position, after the cutting is completed, the support member 40 is moved to the open part. At this time, the two air pads are operated to open the outer packaging material 50 to a predetermined width.

In the present invention, by cutting the blade 25 of the cutting member 20 in the form of a saw blade to reduce the phenomenon that the metal inside the pouch packaging material 50 adhere to each other, and the phenomenon that the polymer film that is part of the packaging material 50. Therefore, it is easy to open the outer working material 50 after the cutting work.

As described above, the secondary battery manufacturing cutter of the present invention has the following effects.

First, the shape of the cutting blade reciprocated by the drive unit is formed to be bent in any form of curve, straight line. Therefore, it is easy to cut and open a part of the exterior material of the pouch battery before being put into the gas removal process.

Second, the blades may have a wave-like shape, or may have a shape of a blade bent to have a valley and an acid, thereby removing the phenomenon in which the metal layers inside the pouch are in close contact with each other when cutting the exterior material of the battery.

Third, the end of the blade has a saw blade-like shape, the blade is composed of a single component of any one of stainless steel, carbon steel, resin-type polymer, ceramic material or at least two composite and mixed components, so that the blade is easy It does not break and can keep the area of the exterior material cut | disconnected uniformly.

That is, since the area to be cut is constant, the productivity and quality of the product can be improved, and the work to be opened in the subsequent process after cutting the exterior material is easier than the conventional method, thereby improving the productivity of the product.

Although the present invention has been described in detail only with respect to the embodiments described, it will be apparent to those skilled in the art that various modifications and variations are possible within the technical spirit of the present invention, and such modifications and modifications belong to the appended claims. .

Claims (6)

A driving unit connected to the power supply unit; A cutting member connected to the driving part and having a blade formed at an end thereof; A guide member for receiving the cutting member and guiding the reciprocating motion of the cutting member; A support member disposed in a lower direction of the cutting member and supporting an object to be cut; The blade is a cutter for manufacturing a secondary battery, characterized in that the shape is curved in at least one of curved, straight or any shape. The method of claim 1, Cutting blade for the secondary battery, characterized in that the curved shape of the blade is curved in a constant shape, such as a waveform. The method of claim 1, The linear shape of the blade is a cutter for producing secondary batteries, characterized in that the bent in the shape of the mountain, or the valley and the mountain is inclined to both sides from the center. The method of claim 1, The cutting member is a secondary battery manufacturing cutter, characterized in that the reciprocating motion in at least one of the vertical, horizontal or any direction. The method of claim 2 or 3, The blade is a cutter for manufacturing a secondary battery, characterized in that the end portion is made in the same shape as the saw blade. The method of claim 5, The blade is a cutter for manufacturing a secondary battery, characterized in that consisting of a single component or at least two or more composite and mixed components of any one of stainless steel, carbon steel, polymer in the form of resin, ceramic material.

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