KR100300429B1 - Secondary battery - Google Patents

Abstract

PURPOSE: The present invention relates to a lead terminal for connecting a positive electrode or a negative electrode housed inside a case to an outside of the case, and more particularly, to a secondary battery having a lead terminal having improved assembly, reliability, and sealing property.

Composition: In forming the lead terminal of the secondary battery connecting the positive electrode or the negative electrode stored inside the case to the outside of the case, a through hole 62 is formed in the cap plate 60 constituting the case, and the inside of the hole. A female pin 140a and a male pin 140b, which are inserted in and out of the insulator 12 and the gasket 8, respectively, are provided in the upper and lower ends of the female pin and the male pin, respectively. And rod portions 146 and 148, and the rod portions of the male pin and the male pin are fastened to each other to be physically and electrically connected to each other.

Effect: The fastening strength can be strengthened by mutual coupling between the male pin and the male pin having the head, and as a result, the reliability and sealing property of the battery can be improved. In addition, since the terminal tab of the electrode, the external terminal, and the charger / discharger are directly connected to the lead terminal, the connection characteristics can be improved, and the configuration and assembly process of the cap assembly can be simplified.

Description

Secondary Battery

The present invention relates to a secondary battery including a lead terminal for connecting the positive electrode or the negative electrode stored in the case to the outside of the case.

Rechargeable batteries can be recharged, miniaturized and large-capacity. Representatively, nickel-hydrogen (Ni-MH) batteries, lithium (Li) batteries, and lithium-ion (Li-ion) batteries are used. It is divided into battery.

5 illustrates a conventionally known square secondary battery.

As shown in the drawing, the rectangular secondary battery is wound together through a separator between the positive electrode and the negative electrode to form an electrode group 2, and the electrode group 2 is inserted into the can 4, and the can ( The negative electrode plate 6 is welded to the upper opening of 4), and the positive electrode plate 10 is disposed through the gasket 8 at the lower part of the negative electrode plate 6 and the pin insulated with the insulator 12 at the center thereof. (14) is fastened and the cap assembly 16 is comprised.

At this time, the negative electrode of the electrode group 2 is directly connected to the terminal tab or can 4 (not shown), and the positive electrode is connected to the positive electrode plate 10 through the terminal tab 18 and then externally through the pin 14. Is connected.

Here, the pin 14 physically fastens the cap assembly 16 including the negative electrode plate 6, the gasket 8, the insulator 12, and the positive electrode plate 10, and simultaneously pulls the positive electrode out of the case. It also serves as a terminal. For this purpose, the pin 14 is inserted downward from the top of the hole through the negative plate 6, the gasket 8 and the positive plate 10, and is fastened by riveting at the bottom thereof. Like the can 4, the pin 14 is made of a steel plated with nickel.

However, according to the above riveting method, the bending and fastening structure of the lower portion of the pin 14 is weak, which may result in a poor assembly of the cap assembly. As a result, the reliability and sealability of the battery are adversely affected. In particular, in recent years, a can of aluminum material is used to reduce the weight of the battery. In this case, since the flexible aluminum is used as the material of the pin, the fastening structure becomes more vulnerable.

In addition, according to the conventional riveting method, in order to electrically connect the terminal tab 18 and the pin 14 of the positive electrode, a positive electrode plate 10 must be provided therebetween, thus increasing the number of configurations and increasing the assembly process. There is this.

6 shows another example of a conventionally known terminal structure. In the drawing, the pin 14 constitutes the cap assembly 16 by physically coupling the negative plate 6, the gasket 8, the insulator 12, and the positive plate 10. ) Is inserted upwards from the lower part of the hole penetrating through the negative electrode plate 6, the gasket 8, the insulator 12 and the positive electrode plate 10, and is fastened by riveting the upper part.

In this case, the pin 14 is connected to the terminal tab 18 drawn out from the positive electrode of the electrode group 2, and is connected to the positive electrode plate 10 to be connected to the outside to serve as an electrical terminal.

The pin 14 having such a structure has a problem in that reliability, bondability, and sealing property are inferior due to the riveting structure as described above. In addition, since the tip of the center portion 14a, which is in contact with the probe pin during charging and discharging or the external washer or the external terminal is not flat, is formed in an irregular shape by the aforementioned riveting structure, the connection quality of the charger and the discharger is poor and the contact is poor. There is a problem that a defect occurs.

In addition, the conventional pin 14 is to install the positive electrode plate 10 in order to increase the electrical connection to the outside and the contactability and reliability in the connection, which is accompanied with the problem of increasing the number of parts and increase the assembly process .

In order to solve the problems of the prior art described above, the present invention to improve the reliability and sealability of the assembly in forming and assembling the outgoing terminal to the outside, reducing the components to simplify the configuration and assembly process, and The object of the present invention is to provide a secondary battery that makes it easier to realize the connection and electrical connection structure of the external charger and discharger.

To this end, in the present invention, when constructing the lead-out terminal of the secondary battery connecting the positive electrode or the negative electrode stored in the case to the outside of the case, a through hole is formed in the case, and the inside of the hole is provided with an insulating means. A male pin and a male pin are respectively provided to be inserted from inside and outside, and the male pin and the male pin are configured to have a head portion and a rod portion, and the rod portions of the male pin and the male pin are electrically connected to each other. It is done.

The female pin and male pin may be made of a soft material such as aluminum, copper, or brass, and the surface may further be plated with nickel.

In addition, when the female pin and the male pin are fastened by a forced crimping method, irregularities may be formed in the fastening portion of the rod part. Alternatively, the female pin and the male pin may be fastened by forming a female screw and a male screw in an opposite rod part.

Here, the male pin and the male pin of the present invention are provided with a head, respectively, and are fastened in the middle while simultaneously being crimped in and out of the case. Therefore, the male pin and the male pin, that is, the drawing terminal of the present invention can simultaneously strengthen the tightening strength in both the inner and outer sides of the case, for example, the cap plate in an insulated state through the insulating means, and as a result, the bondability of the battery , Reliability and sealing can be improved.

In addition, since the drawing terminal of the present invention has a wide head, the connection of the terminal tab drawn from the positive electrode or the negative electrode can be realized more conveniently, and the connection characteristics of the external terminal and the charger / discharger can be improved. The removal of the positive electrode plate of the prior art can simplify the construction and assembly process of the cap assembly.

1 is an exploded perspective view showing a secondary battery of the present invention.

2 is a partial cross-sectional view showing a lead terminal as a main part of the present invention.

3 and 4 are cross-sectional views showing another example of the drawing terminal according to the present invention.

5 is a cross-sectional view illustrating a lead terminal of a conventionally known secondary battery.

6 is a cross-sectional view showing another example of a conventionally known drawing terminal.

Explanation of symbols on the main parts of the drawings

4-can 8-gasket

12-insulator 18-terminal tab

60-cap plate 140-outlet

140a-shaped pin 140b-male pin

142,144-head 146,148-rod

150-Rough 152-Male Thread

154-female thread

Hereinafter, preferred embodiments for realizing the present invention will be described in more detail with reference to the accompanying drawings.

1 and 2 show the secondary battery of the present invention.

As can be seen from the drawings, a characteristic configuration of the secondary battery of the present invention is in the lead terminal 140 for connecting the positive electrode or the negative electrode to the outside of the electrode group 2 accommodated in the case.

The lead terminal 140 forms a hole 62 penetrating the case in order to increase the reliability of the assembly structure, and the male pin 140a and the male pin (140) are inserted into both sides of the hole 62 to be fastened to each other. 140b).

The case is composed of a can 4 and a cap plate 60 welded to an upper opening of the can 4. In the drawing, a through hole 62 is formed in the center of the cap plate 60. Is shown as an example.

The male pins 140a and the male pins 140b each include a head part 142 and 144 that are widely spread on the outside (upper part of the drawing) and the inside (lower part of the drawing) of the cap plate 60, and the head part ( 142, 144, the rod portion 146, 148 extending downward or upward, respectively. In the drawing, the head portion 142 of the male pin 140a disposed outside the cap plate 60 is larger than the head portion 144 of the male pin 140b disposed therein, or vice versa. Alternatively, the two head parts may be formed in the same size.

The male pin 140a and the male pin 140b thus formed are simultaneously inserted from both the inside and the outside of the through hole 62 of the cap plate 60 via the insulator 12 and the gasket 8, and are pressurized by a press. By applying the end portions of the rods 146 and 148 to indent and stick together, an electrical connection and a fastening structure which is physically physical can be realized. The insulator 12 and the gasket 8 may be used in the same manner as in the conventional art, and may be connected to form a single body.

Here, the lead terminal 140, that is, the male pin 140a and the male pin 140b may be formed of a soft material of aluminum, copper, or brass in order to more reliably achieve a physical coupling between them. In this case, the can 4 constituting the present invention can be used as a positive electrode terminal, and the material is made of aluminum.

In addition, the female pin 140a and the male pin 140b may be used by plating nickel on a material of aluminum, copper, or brass. In this case, the can 4 is used as a negative electrode terminal, and the material is nickel in steel. Products coated with silver can be used.

In the drawing terminal 140 formed and fastened as described above, the head portions 142 and 144 having a large area of the male pin 140a and the male pin 140b are simultaneously formed on both sides of the cap plate 60, that is, the upper side and the lower side. By the crimping action, the tightening strength can be strengthened and the reliability and sealing property of the assembly structure can be improved.

The present invention can simplify the configuration of the cap assembly by eliminating the conventional positive electrode plate as shown in the drawing, which provides a head portion 144 having a large area in the male pin 140b of the lead-out terminal 140 and By directly connecting the terminal tab 18 drawn out from the electrode group 2 to the head portion 142 of the female pin 140a, the external terminal and the probe pin of the charger / discharger are directly connected to each other. The positive plate can be removed.

Further, since the surfaces of the male pins 140a and the male pins 140b of the present invention are flattened, the connection characteristics of the terminal tab and the external terminal and the charger / discharger can be improved. .

Meanwhile, the female pin 140a and the male pin 140b of the present invention may be fastened by changing their positions, and the terminal tab 18 may be connected to either the positive electrode or the negative electrode.

3 is another example of the lead terminal 140 constituting the present invention in order to further strengthen the fastening strength of the female pin (140a) and male pin (140b), the contact portion of the rod portion (146) 148 The convex-concave 150 is formed. Concave-convex 150 respectively formed on the tip surface of the rod pins 146 and 148 of the male pin 140a and the male pin 140b is formed to have an inclination in one direction to facilitate insertion and to prevent separation. Good to do.

In addition, the drawing terminal 140 of the present invention may adopt a screw coupling method as a method of coupling the female pin 140a and the male pin 140b as shown in FIG. 4. At this time, the male screw 152 may be formed on the rod portion 146 of the male pin 140a, and the female screw 154 may be formed on the rod portion 148 of the male pin 140b. In this case, the head pins 142 and 144 of the male pin 140a and the male pin 140b may be formed in a polygon like a bolt so as to use a tool or a groove may be formed like a screw.

As can be seen through the configuration and operation described above, the secondary battery of the present invention is formed by the lead pin and the male pin coupled to penetrate through the cap plate to be mutually fastened, thereby improving the bondability and reliability and sealing Can get

In addition, the withdrawal terminal of the present invention is directly connected and contacted to the terminal tab or the external terminal of the electrode and the charger and discharger, thereby making electrical connection easier and improving its connection characteristics, and also the configuration and assembly process of the cap assembly. Can be simplified.

In addition, the withdrawal terminal of the present invention can improve the assembly quality because the structure is easy to match the center when fastening the male pin and the male pin.

Claims (10)

In a secondary battery that realizes an electrical connection structure, including a terminal connected to either the positive electrode or the negative electrode stored inside the case and penetrating through the case, the terminal is insulated from the inner circumference of the through hole of the case. Secondary battery, characterized in that it is installed via the means consisting of a male pin and a male pin, the female pin and male pin is inserted into and fixed to each other inside and outside of the case. The secondary battery of claim 1, wherein the female pin and the male pin are made of aluminum, copper, or brass. The secondary battery according to claim 2, wherein the female pin and the male pin are nickel plated. The secondary battery according to claim 1, wherein the female pin and the male pin are fastened by a forced compression method. The secondary battery according to claim 4, wherein irregularities are formed at a fastening portion of the female pin and the male pin. The secondary battery according to claim 1, wherein the female pin and the male pin are fastened by a screw coupling method. The secondary battery of claim 1, wherein a terminal tab of an electrode is directly connected to the female pin or the male pin. The secondary battery according to claim 1 or 7, wherein the case comprises a can and a cap plate. The secondary battery of claim 1, wherein the female pin and the male pin comprise a head part and a rod part extending from the head part. The secondary battery according to claim 9, wherein the head portion is flat.