KR200339861Y1 - Apparatus for heat lamination sealing in battery cover - Google Patents

Abstract

The present invention relates to a heat-sealed sealing device of a battery cover for assembling a lower cover and an upper cover of a battery during a manufacturing process of a battery for supplying power to automobiles and various engines. The movement of all stages of fusion and melting is performed by using an air cylinder.In the case of fusion and melting, it controls the melting position and speed by servo motor and ball screw to improve the adhesive strength and increase the airtightness of the battery, thereby increasing the electrical components and engine. It is possible to improve the quality by preventing corrosion of the upper end of the upper cover crimping tool housing (H) to operate by lifting the slider (11, 11 ') on both side guides (10, 10') air cylinder (12) ) And the inside is operated by the ball screw 13 by the servo motor (M), and the upper cover pressing tool (14) is mounted on the lower end of the ball screw (13), the both sides of which are guides. The rod 15, 15 'is installed and the bottom cover of the sealing device (T), the heat-sealed sealing device of the battery cover, characterized in that the lower cover set 16 of the battery (B) is installed.

Description

Apparatus for heat lamination sealing in battery cover

The present invention relates to a heat-sealed sealing device for a battery cover for assembling a lower cover and an upper cover of a battery or a roll and a cover during a manufacturing process of a battery for supplying power to automobiles and various engines. The movement of the previous stage of fusion and melting of the adhesive surface of the upper cover uses an air cylinder, and during fusion and melting, the melting position and speed are controlled by the servo motor and the ball screw to improve the adhesive strength and increase the airtightness of the battery. It is possible to improve the quality by preventing corrosion of electrical components and engines.

In general, a storage battery is formed by filling a positive electrode plate and a negative electrode plate isolated by an inner separator of a polypropylene case, and then heat-sealing a polypropylene upper cover having a terminal to store electricity. Supply of power to starting devices, ignition devices, lighting devices, machinery, air conditioners, horns, windshield wipers and washers.

In the conventional heat sealing device of a battery case, the upper and lower adhesive surfaces are welded and melted at the front and bottom stages of the battery when the bottom cover and the top cover are heat-sealed, and the air cylinder is used for the movement in the whole process during the welding and melting. The lower cover and the upper cover of the fusion was sealed.

The conventional fusion and sealing as described above is sealed in dependence on the operating force of the air cylinder in the previous process, so it is impossible to control the melting position and speed, so that the reliability of the adhesive strength is lowered and the high temperature generated in the engine room when used in the vehicle is used. There was a problem that the outer shape was bottled and the airtightness was lowered.

Therefore, the present invention was devised for the purpose of solving the conventional problems as described above, the operation of fusion and melting of the lower cover and the upper cover of the battery or the adhesive surface of the roll and the cover in two stages to operate the melting position and speed The purpose of the present invention is to provide a thermal fusion sealing device that can improve quality by controlling adhesive strength and improving airtightness of storage batteries to prevent corrosion of electrical components and engines.

In order to provide the above heat-sealed sealing device, an air cylinder is mounted on the upper end of the cover pressing tool housing, and both ends are lifted and operated by a slider on the guide, and the ball screw is operated by the servo motor inside the cover pressing tool housing. A cover pressing tool is installed at the bottom of the ball screw, and guide rods are installed at both sides of the ball screw, and a lower cover support of the battery is installed at the bottom of the sealing device.A lower stage of fusion and melting is performed using an air cylinder. It is possible to provide a sealing device that can control the amount of melt by the ball screw by the servo motor and the speed and position at the time of bonding.

1 is a conceptual diagram showing the overall structure of the present invention

2 is a detailed structural diagram of the present invention servo motor and ball screw

<Description of the symbols for the main parts of the drawings>

10 (10 ') Guide

11 (11 ') slider

(12) Air Cylinder

(13) ball screw

(14) Upper cover crimping tool

(15) (15 ') guide rod

(16) Lower cover lining

(B) storage battery

(H) Upper cover crimping tool housing

(M) servo motor

(T) sealing device

Hereinafter, the configuration and operation of the present invention will be described in detail with reference to the accompanying drawings.

1 is a conceptual diagram showing the overall structure of the present invention, the air cylinder is installed and operated in the upper portion of the upper cover crimping tool housing and the structure of the upper cover crimping tool operated by a servo motor and a ball screw therein, FIG. 2 is a detailed structural diagram of the servo motor and the ball screw of the present invention, and shows the connection structure of the servo motor and the ball screw in detail.

In heat-sealing sealing the lower cover and the upper cover of the storage battery (B),

An air cylinder 12 is mounted on the upper end of the upper cover crimping tool housing H, which is lifted and operated by sliders 11 and 11 'on both side guides 10 and 10', and inside the servo motor M. It is operated by the ball screw 13 and the lower end of the ball screw 13 is equipped with the upper cover pressing tool 14, both sides of the guide rods (15, 15 ') to install the lower end of the suture device (T) Has a structure in which the lower cover set 16 of the storage battery B is provided.

The present invention has a positive electrode plate and a negative electrode plate which is isolated by the inner separator of the lower cover of the battery (B) to fill the electrolyte solution and heat-sealed the polypropylene upper cover having a terminal to increase the fusion strength during sealing In order to provide a sealing device (T) to control the fusion position and speed so that the bonding surface is gradually fused in a molten state in order to.

As shown in FIG. 1, the upper cover pressing tool housing H mounted at the center of the sealing device T is coupled to the guides 10 and 10 'installed at both sides by sliders 11 and 11', respectively. When the air cylinder 12 installed at the top of the cover pressing tool housing H is operated, the sliders 11 and 11 'are guided to the guides 10 and 10' to raise and lower the upper cover pressing tool housing H. .

A ball screw 13 is installed on the inner central axis of the upper cover pressing tool housing H to raise and lower the upper cover pressing tool 14 by a servo motor M mounted on one side. Guide rods 15 and 15 'installed on both sides of the guide.

The lower cover set 16 of the storage battery (B) is provided at the lower end of the sealing device (T).

FIG. 2 illustrates the coupling structure of the ball screw 13 and the servo motor M installed in the upper cover pressing tool housing H to lift the upper cover pressing tool 14 in detail.

The action of the present invention described above is to place the lower cover of the storage battery (B) in the lower cover support 16 installed on the lower end of the sealing device (T) and the air in the state in which the upper cover is mounted on the upper cover pressing tool (14) The cylinder 12 is operated to lower the upper cover pressing tool housing H.

At this time, the sliders 11 and 11 'of the upper cover pressing tool housing H are guided along the guides 10 and 10' at both ends, and are lowered.

The upper cover pressing tool housing (H) lowered by the air cylinder 12 is lowered only until the process of the preceding stage of fusion and melting.

As described above, when the lowering of the upper cover pressing tool housing H is completed, the adhesive surface of the lower cover fused to the upper cover by the heating tool (not shown) is melted and fused at the same time.

The above operation during melting and fusion is performed when the servomotor (M) mounted inside the upper cover pressing tool housing (H) is operated to rotate the ball screw (13) to which the rotational force is applied, thereby rotating the upper cover pressing tool (14). Lower slowly.

At this time, the upper cover mounted on the upper cover pressing tool 14 controls the fusion position control and the welding speed control at the same time by adjusting the rotational force of the servo motor M at the upper end of the lower cover placed on the lower cover support 16. Weld and seal the upper and lower covers

The present invention is not limited to the above-described specific preferred embodiments, and any person having ordinary skill in the art to which the present invention pertains may make various modifications without departing from the gist of the present invention claimed in the claims. Of course, such changes are intended to fall within the scope of the claims.

Therefore, the present invention lowers the operation during welding and melting of the adhesive surface of the lower cover and the upper cover of the battery by two stages of air cylinder, servo motor and ball screw to control the welding position and welding speed to improve the adhesive strength and to accumulate the battery. By increasing the airtightness of the electronics to prevent corrosion of electrical components and engines, such as to improve the quality.

Claims (1)

In heat-sealing sealing the lower cover and the upper cover of the storage battery (B), An air cylinder 12 is mounted on the upper end of the upper cover crimping tool housing H, which is lifted and operated by sliders 11 and 11 'on both side guides 10 and 10', and inside the servo motor M. It is operated by the ball screw 13 and the lower end of the ball screw 13 is equipped with the upper cover pressing tool 14, both sides of the guide rods (15, 15 ') to install the lower end of the suture device (T) The heat-sealed sealing device of the battery cover, characterized in that the lower cover set 16 of the storage battery (B) is installed.