KR101326373B1 - Terminal packing device for battery - Google Patents

Abstract

The present invention relates to a purpose of inserting a packing hole formed on the battery case cover to solve the conventional problem which is that the lower part of the packing for the pole is comprised of the taper structure. For this purpose, the provided is the pole part packing device which a part of the upper side and pole including the cell of the storage battery are connected and the connected cell connection part is opened with the pole supporting part and the pole supporting part having the taper structure attached to the lower part while being connected to the cable joint, connected with the cable for to surge high into the sky of the pole body portion. The upper corner part is to the rounding structure and the lower part of the pole body portion and a part with the packing top end portion are formed with the structure of being bulging to the outer portion in which the internal space is vacant and giving the change of length as the top and the bottom and the prominence structure where the packing body portion are located, and the part connected to the packing body portion are protruded with the taper structure where the lower part is broad while it is vacant inside and the multiple dentations are formed in the inner wall and a part with the inclined structure where the outside becomes narrow over the time and includes the packing for the pole including the cover joint having with the structure where the inner side is connected to the taper structure of the packing body portion.

Description

Terminal packing device for battery

The present invention relates to a pole portion packing device having the structural features of the packing portion of the pole portion of the automotive battery.

In general, a battery (storage battery) is composed of a positive and negative electrode plate and an electrolyte, and is a device which can generate a DC power by a chemical action and use it as a power source. That is, the storage battery has a structure in which chemical energy and electrical energy are converted to each other to supply power to the chemical action of the electrolyte and the electrode plate.

Batteries can convert chemical energy into electrical energy, and this state is called discharge. Electric energy can be supplied from another power source and converted into chemical energy to accumulate. This state is called charging. As such, since the charging and discharging are repeated, the electric power can be supplied, and thus the electric power can be supplied according to the charged capacity.

In the above-described storage battery, the electrolyte is accommodated inside the case, and the pole is protruded to the outside by being connected to the electrode plate. The storage battery can supply power generated by the chemical action of the electrolyte to the polarity in the direction of the pole to supply power to the mounted device.

In order to insert and fix the pole column in the battery, a hole is formed in the cover of the case, and the pole pole is inserted into the hole.

After the pole is inserted into the hole, a sealing device is provided between the pole and the hole to prevent the electrolyte from flowing out between the pole and the hole.

In the above-described conventional pole battery sealing device for a storage battery, a packing of a soft rubber material or a brazing material is installed between the pole and the hole of the case cover to prevent the electrolyte from leaking between the case and the pole.

However, the conventional battery pole sealing device for a battery is difficult to completely seal between the pole and the case, there is a problem that the electrolyte flows out from the contact surface of the packing.

To this end, the Republic of Korea Application No. 2010-0077148 describes a method for preventing the leakage of electrolyte to the outside by improving the sealing force in the packing installed between the pole of the battery and the hole of the case is inserted and fixed. .

However, the above technique improves the sealing force between the cover case and the packing of the roll, and the rolling and cover must be separately packed in the heat-sealing process and the cover case, and the packing is not easy to insert into the cover case and the pole. The height of the packing is fixed, so there is a limitation when connecting the charging cable to the pole, and the packing structure is fixed to the upper surface of the pole in order to reduce the appearance quality due to the difference in the packing height according to the pole height. The location of the packing due to the rise is raised, there is a disadvantage that the sealing force falls.

In order to solve the conventional problems, an object of the present invention is to provide a tapered structure of the lower part of the pole packing to facilitate the insertion of the packing into the packing hole formed in the battery case cover.

Further, an object of the present invention is to fix the pole packing in the case of inserting the pole packing into the packing hole by combining the jaw structures protruding from the packing bottom for the pole casting to the packing hole forming wall of the battery case cover.

In addition, it is an object to form a taper structure of the inner lower portion of the packing for the pole so that the pole can be more easily inserted into the process of inserting the pole in the packing for the pole.

In addition, an object of the present invention is to form a protrusion (O-ring) structure inside the packing for the pole so as to increase the sealing force when combined with the pole so as to prevent the outflow of the electrolyte.

In addition, the object is to form a round structure of the upper edge of the body of the pole so that the pole packing is more easily connected.

Other objects of the present invention will be readily understood through the following description of the embodiments.

The present invention is a pole packing device for a vehicle battery, the cable connecting portion is connected to the charging cable; and the pole body portion having a rounded upper edge portion; and is connected to the lower end of the pole body portion and is widened downward A columnar support having a taper structure; And a cell connection part connected to the pole support and connected to the cell of the battery. The pole including a part of an upper surface thereof is formed in a convex structure with an outer portion of which the inner space is empty, and has a length up and down. A packing upper end formed in a structure capable of making a change; and a packing body part having an inner side and a plurality of protrusion structures formed on an inner wall, and a lower end having a wider taper structure; And a part connected to the packing body portion has a protruding jaw structure, and an outer side has an inclined structure that is narrowed downward, and an inner side has a structure connected to a taper structure of the packing body portion. There is provided a pole packing unit including a pole packing including.

Here, the packing upper end portion may be characterized in that the thickness of the cross section is formed thinner than the thickness of the cross section of the packing body portion.

Here, the protrusion structure may be formed in an O-ring shape to increase the sealing force when combined with the pole.

Here, the pole packing may be characterized in that it is made of a rubber material having elasticity.

Here, a packing hole into which the pole packing is inserted is formed in a case cover of the battery, and the packing hole is formed surrounded by a packing hole forming wall formed by being integrally injected with the case cover. In the case of being inserted into the packing hole, the jaw structure of the cover coupling portion is caught at the lower end of the packing hole forming wall, so that the pole packing may be fixed.

Here, a free space is formed between the packing upper end and the cable connecting portion, so that the pole packing may be fixed to the case cover so as not to rise due to the height change of the pole.

Here, petroleum jelly is added between the packing hole and the pole packing and between the pole packing and the pole to prevent the mixing of foreign matter, to prevent corrosion of the pole, and to prevent discoloration of the pole packing. can do.

According to the present invention, it is easy to insert the pole packing in the battery case cover has the effect of making the battery manufacturing process easier.

In addition, by forming a structure to secure the free space in the top of the packing and poles and to fix the pole packing and the battery case cover, there is an effect of preventing the degradation of the sealing force due to the increase in packing due to pole growth during long-term use of the battery.

In addition, the upper end portion of the packing for the pole portion is formed with an excellent elastic structure has the effect of eliminating the restrictions of the cable that can be connected when connecting the charging cable.

1 is a view showing a cross section of the packing for the pole in one embodiment of the present invention.
2 is a cross-sectional view showing a pole in one embodiment of the present invention.
Figure 3 is a cross-sectional view showing a state in which the packing device of the pole portion of the present invention is mounted on the case cover of the battery according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention is capable of various modifications and various embodiments, and specific embodiments are illustrated in the drawings and described in detail in the detailed description. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. Singular expressions include plural expressions unless the context clearly indicates otherwise.

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

1 is a view showing a cross section of the packing for the pole in one embodiment of the present invention.

The pole packing 100 of the present invention includes a packing upper end 110, a packing body 120 and the cover coupling portion 130.

The packing upper end 110 is formed in a structure in which a part of the upper surface is bored and the inside of which is convex to the outer side is empty. That is, an empty space 111 is formed inside the packing upper end 110. Accordingly, the length (height) of the packing upper end 110 may be easily reduced by the pressing force from the upper side, and the length may be easily increased when the pulling force or the terminal 200 rises from the upper side.

That is, the length A of the packing upper end 110 shown in FIG. 1 can be easily changed.

Here, the packing upper end 110 has a thickness of the cross section is formed thinner than the thickness of the cross section of the packing body 120, the length (A) of the packing upper end 110 can be easily changed.

A portion of the upper surface of the packing upper end 110 is bored to expose a portion of the cable connection portion 210 of the pole column 20 through the hole.

The packing body portion 120 has a hollow inside and a plurality of protrusion structures 121 are formed on the inner wall for the pole column 200, and the inside has a taper structure that widens toward the bottom.

The plurality of protrusions 121 of the packing body portion 120 is configured in an O-ring shape so that the sealing body 120 may increase the sealing with the pole 200 when inserted into the pole 200. Therefore, the electrolyte may be prevented from being discharged to the outside through the pole 200 and the pole packing 100, and foreign matter may be prevented from entering the inside of the battery.

The outer side of the cover coupling portion 130 has an inclined structure in which a portion connected to the packing body portion 120 is wider than the diameter of the packing body portion 120 and narrows in diameter toward the bottom, and the inner portion of the packing body portion 120. It is connected to the taper structure of 120 and has an inclined structure in which the diameter becomes wider toward the bottom.

That is, the outer side of the cover coupling portion 130 has a jaw structure 131 protruding to the outside as the portion that is connected to the packing body portion 120 is more protruding than the packing body portion 120.

The pole packing 100 of the present invention is composed of a rubber material having elasticity.

2 is a cross-sectional view showing a pole in one embodiment of the present invention.

The pole column 200 of the present invention is composed of a cable connection portion 210, pole pole body portion 220, pole pole support portion 230 and the cell connection portion 240.

The cable connection part 210 is exposed to the outside through a hole formed in the upper surface of the packing upper end 110 is connected to the charging cable.

The pole body portion 220 has a rounded structure 221 at the upper edge portion. The cable connection part 210 is connected to the center of the upper surface of the pole body 220.

The upper edge portion of the pole body portion 220 is a rounding structure 221 has the following characteristics.

The upper edge portion of the pole pole body portion 220 has a rounding structure 221 so that the pole pole packing 100 can be fitted more easily in the process of connecting the pole pole packing 100.

Here, as described above with reference to FIG. 1, the pole casting 100 has a tapered structure in which the inside of the packing body 120 and the cover coupling portion 130 are inclined outward, thereby inserting and connecting the pole 200. It's easier and faster.

That is, the tapered structure in which the upper edge portion rounding structure 221 of the pole body portion 220 and the packing body portion 120 and the cover coupling portion 130 of the pole pole packing 100 are inclined outwards. Allows the smooth insertion of the pole 200 to the pole packing (100), and at the same time to heat-seaze the case cover 10 and the rolling of the storage battery connected to the pole pole packing 100 to the pole 200 And the process of inserting the battery case can be carried out at the same time. As a result, the battery generation process may be easier and shorter.

The pole support 230 is a structure that supports the pole body 220, is connected to the lower end of the pole body 220, and has a tapered structure that widens toward the lower end has a stabilized structure as a whole.

The cell connection unit 240 is connected to the lower portion of the pole support 230 and is connected to the battery cell (cell).

Figure 3 is a cross-sectional view showing a state in which the packing device of the pole portion of the present invention is mounted on the case cover of the battery according to an embodiment of the present invention.

In the case cover 10 of the storage battery of the present invention, a packing hole into which the pole casting packing 100 is inserted is formed, and the packing hole is a packing hole forming wall 11 formed by being integrally injected with the case cover 10. It is formed surrounded.

Here, when the pole packing 100 is inserted into the packing hole, the jaw structure 131 of the cover coupling portion 130 is caught at the lower end of the packing hole forming wall 11, and the pole packing 100 is formed of the storage battery. It is fixed to the case cover 10 has a structural feature that is not easy to remove.

When the pole pole 200 and the pole pole packing 100 are connected to each other, the pole pole 200 and the pole pole packing 100 are formed by a plurality of protrusions 121 formed in the pole pole packing 100 as described above. The sealing force of) is increased to prevent the electrolyte solution of the battery from flowing out and foreign foreign substances from flowing through the pole pole 200 and the pole pole packing 100.

As shown in FIG. 3, the packing upper end 110 is not in close contact with the cable connecting portion 210 of the pole column 200, and a free space 111 is formed therein, such that a charging cable is connected to the cable connecting portion 210. If the height (A) of the packing upper end 110 may be reduced due to the pressure at the time of connection according to the size of the connection terminal of the charging cable. Therefore, the height of the cable connection portion 210 of the pole 200 exposed to the outside of the packing upper end 110 may be increased. Therefore, in the case of connecting the charging cable to the pole 200, it is possible to connect various types of charging cables regardless of the shape of the charging cable (that is, the size of the connection terminal of the charging cable).

That is, the present invention has the advantage of not having to limit the type of cable that can be connected to the pole 200.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the following claims And changes may be made without departing from the spirit and scope of the invention.

10 battery case cover 11 packing hole forming wall
100: pole casting packing 110: packing top
120: packing body 121: protrusion
130: cover coupling portion 131: jaw structure
200: pole 210: cable connection
220: pole body portion 221: round structure
230: pole support 240: cell connection

Claims (7)

In the pole part packing device of a storage battery for a vehicle,
A cable connection part connected to the charging cable;
A pole column body having a rounded top structure;
A pole support portion connected to a lower end of the pole body portion and having a taper structure widening toward a lower portion thereof; And
And a pole connected to the pole support and connected to the cell of the battery cell;
A part of an upper surface of the packing upper end portion formed in a convex structure having a convex structure to the outer portion of the pole body and having an inner space;
A packing body portion having an empty interior and having a plurality of protrusion structures formed on an inner wall thereof, and having a lower tapered structure at a lower portion thereof; And
The part connected to the packing body portion has a protruding jaw structure, the outer side has an inclined structure that is narrowed toward the bottom, the inner cover coupling portion having a structure connected to the tapered structure of the packing body portion; Pole-part packing apparatus including a pole for packing including.
The method of claim 1,
The packing end of the pole portion packing device, characterized in that the thickness of the cross section is formed thinner than the thickness of the cross section of the packing body portion.
The method of claim 1,
The protruding structure has an O-ring shape, the pole portion packing device, characterized in that to increase the sealing force when combined with the pole.
The method of claim 1,
The pole casting packing is a pole casting device, characterized in that consisting of a rubber material having elasticity.
The method of claim 1,
A packing hole into which the pole packing is inserted is formed in the case cover of the battery, and the packing hole is formed surrounded by a packing hole forming wall formed by being integrally injected with the case cover. And the jaw structure of the cover coupling portion at the lower end portion of the packing hole forming wall when inserted into the pole hole packing device.
The method of claim 5,
An extra space is formed between the packing upper end and the cable connection part, so that the pole packing is fixed to the case cover so that the pole packing does not rise even by the height change of the pole.
The method of claim 5,
Vaseline is added between the packing hole and the pole packing and between the pole packing and the pole to prevent mixing of foreign matter, to prevent corrosion of the pole, and to prevent discoloration of the pole casting. Housewife packing device.

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