KR20040059302A - Secondary battery module - Google Patents

Abstract

PURPOSE: A secondary battery module is provided to simplify the manufacturing process of the module and to improve the safety of a secondary battery by operating a protection circuit even if the current of external drive units is not controlled. CONSTITUTION: The secondary battery module comprises a secondary battery(100) which comprises a can(110) receiving an electrode assembly together with an electrolyte solution, and a positive electrode and a negative electrode connected with the positive electrode plate and the negative electrode plate of the electrode assembly, respectively; a protection circuit(300) which is provided at one side of the secondary battery to prevent overcharge and overdischarge; a case(500) which receives the secondary battery and the protection circuit; and a pack terminal(400) which comprises a first external terminal(410 or 420) connected in serial with any one terminal selected from the positive electrode terminal and the negative electrode terminal of the secondary battery, and a second external terminal(420 or 410) connected in serial with the other terminal via the protection circuit. Preferably the first external terminal is connected with the protection circuit in parallel.

Description

Secondary battery module

The present invention relates to a secondary battery module, and more particularly, to a secondary battery module having an improved electrical connection structure between a positive electrode and a negative electrode terminal, a protection circuit, and a pack terminal of a secondary battery.

In general, as the light weight and high functionalization of portable wireless devices such as a video camera, a portable telephone, a portable computer, and the like progress, many studies have been conducted on secondary batteries used as driving power. Such secondary batteries include, for example, nickel cadmium batteries, nickel hydrogen batteries, nickel zinc batteries, and lithium secondary batteries. Among them, lithium secondary batteries are rechargeable, compact, and large-capacity, and are widely used in advanced electronic devices because of their high operating voltage and high energy density per unit weight.

The lithium secondary battery is formed by accommodating a power generating element having a positive electrode plate, a negative electrode plate, and a separator, that is, an electrode assembly together with an electrolyte solution in a can, and sealing an upper opening of the can by a cap assembly.

Such a lithium secondary battery is rapidly exposed to voltage due to an internal short circuit, an external short circuit, or an overcharge / discharge discharge, thereby exposing the battery to a risk of rupture. In order to alleviate such risks, a lithium secondary battery is usually electrically connected to safety devices such as a PTC (Positive Temperature Coefficient) element, a thermal fuse, and a protection circuit. When the voltage or temperature of the surge increases, the current is cut off to prevent the battery from bursting. Therefore, the secondary battery connected to the safety device is built in the case to form a secondary battery module, the secondary battery module is used as a driving power source for various external driving devices.

1 is a schematic view of a conventional secondary battery module.

Referring to the drawings, a conventional secondary battery module includes a secondary battery 10 having a can for accommodating an electrode assembly (not shown), a protection circuit 30 for preventing overcharging and discharging of the secondary battery 10, The case 50 having the secondary battery 10 and the protection circuit 30 embedded therein, and a pack terminal 40 partially exposed to the outside of the case 50 to be electrically connected to an external driving device (not shown). ).

The outer bottom 11a and the negative electrode terminal 13 of the can 11, which is the positive electrode terminal of the secondary battery 10, are electrically connected in series with the protection circuit 30, respectively, and the protection circuit 30 is a pack terminal ( 40 is electrically connected in series. Meanwhile, as shown, a PTC element 20 as a safety element may be provided between the outer bottom 11a of the can 11 and the protection circuit 30. The PTC device 20 serves to block the current flowing in by increasing the resistance when the temperature or current increases.

However, in the conventional secondary battery module configured as described above, since both the positive electrode and the negative electrode terminal 11a, 13 of the secondary battery 10 are connected to the pack terminal 40 via the protection circuit 30, the secondary The manufacturing process of the battery module becomes complicated.

In addition, when an external driving device is electrically connected to the pack terminal 40, current control of the external driving device may not be performed due to a malfunction of the external driving device. As such, when the current control of the external driving device is not performed, the protection circuit 30 may not operate, and thus there is a problem in that the safety of the secondary battery cannot be ensured.

The present invention has been made in view of the above problems, and in order to simplify the manufacturing process of the secondary battery module and secure the stability of the secondary battery, improve the electrical connection structure between the positive and negative terminals, the protection circuit and the pack terminal of the secondary battery. It is an object to provide a secondary battery module.

1 is a view schematically showing a conventional secondary battery module,

Figure 2 is an exploded perspective view showing a secondary battery according to an embodiment of the present invention,

3 is a view showing a secondary battery module having a secondary battery shown in FIG. 2 according to an embodiment of the present invention;

4 is a view schematically showing a secondary battery module according to another embodiment of the present invention;

5 is a configuration diagram illustrating the operation of the secondary battery module illustrated in FIG. 4.

<Description of Symbols for Major Parts of Drawings>

100 ... rechargeable battery 110 ... can

110a ... outer bottom 130 ... cathode terminal

211,212,213,214 ... Lead 220 ... PTC element

300 ... protective circuit 400 ... pack terminal

410,420 positive and negative external terminals 500 case

600 ... external driving device

In order to achieve the above object, a secondary battery module of the present invention includes a secondary battery including a can for accommodating an electrode assembly together with an electrolyte, and a positive electrode and a negative electrode terminal respectively connected to the positive electrode and the negative electrode plate of the electrode assembly; A protection circuit provided on one side of the secondary battery to prevent overcharge and overdischarge; A case including the secondary battery and the protection circuit; A first external terminal connected in series with one terminal selected from the positive and negative terminals of the secondary electron, and a second external terminal connected in series via the protection circuit and the other terminal of the positive and negative terminals of the secondary electron; Pack terminal; to be provided.

Preferably, the first external terminal of the pack terminal and the protection circuit are connected in parallel.

Here, the first external terminal of the pack battery may be connected to the positive terminal of the secondary battery, and the second external terminal of the pack battery may be connected to the negative terminal of the secondary battery.

In addition, the positive terminal may be external to the can.

Furthermore, when the temperature rises, a PTC element may be provided between the positive terminal of the secondary battery and the first external terminal of the pack terminal to block the current flowing therethrough by increasing the resistance.

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

2 is an exploded perspective view illustrating a rechargeable battery according to an exemplary embodiment of the present invention, and FIG. 3 is a view showing a rechargeable battery module according to an exemplary embodiment of the present invention, which includes the rechargeable battery illustrated in FIG. 2.

Referring to FIG. 2, the secondary battery 100 seals the can 110, an electrode assembly 112 accommodated in the can 110, and an upper opening 110b of the can 110. A cap assembly 120.

The can 110 may be formed of a metal material having a substantially rectangular parallelepiped shape, and the can 110 may serve as a terminal itself. For example, the outer bottom 110a of the can 110 serves as a positive electrode terminal. It is possible. The can 110 includes an opening 110b of which one side is opened, and the electrode assembly 112 is accommodated through the opening 110b.

The electrode assembly 112 includes a positive electrode plate 113, a negative electrode plate 115, and a separator 114. The positive electrode plate 113 and the negative electrode plate 115 may be stacked through a separator 114 and then wound in a jelly-roll form. A positive electrode lead 116 is welded to the positive electrode plate 113, and an end portion of the positive electrode lead 116 protrudes above the electrode assembly 112. A negative electrode lead 117 is also welded to the negative electrode plate 115, and an end portion of the negative electrode lead 117 also protrudes above the electrode assembly 12.

The cap plate 120 is provided with a cap plate 121. The cap plate 121 is a metal plate having a size and a shape corresponding to the top opening 110b of the can 110. A terminal through hole 121a having a predetermined size is formed in the center of the cap plate 121. An electrode terminal, for example, a negative electrode terminal 130, is inserted into the terminal through hole 121a. The outer surface of the negative electrode terminal 130 is provided with a tubular gasket 123 to insulate the negative electrode terminal 130 and the cap plate 121. An insulating plate 125 is provided on the lower surface of the cap plate 121. The terminal plate 126 is provided on the lower surface of the insulating plate 125. The bottom portion of the negative electrode terminal 130 is electrically connected to the terminal plate 126. An insulating case 127 is installed on the electrode assembly 112 to electrically insulate the electrode assembly 112 and the cap assembly 120 from each other. In addition, after welding the cap assembly 120 to the opening 110a of the can 110, the electrolyte is injected through the electrolyte injection hole 121b formed in the cap plate 121 and then sealed by the plug 122. .

However, the configuration of the secondary battery 100 described above is an example, and is not intended to limit the scope of the present invention. For example, the positive electrode terminal 110a and the negative electrode terminal 130 may be configured in reverse.

As shown in FIG. 3, the secondary battery module according to an exemplary embodiment of the present invention is provided on the secondary battery 100 and one side of the secondary battery 100 to prevent overcharge and overdischarge. 300, a case 500 having the secondary battery 100 and the protection circuit 300 embedded therein, and a part thereof is exposed to the outside of the case 500 for electrical connection with an external driving device (not shown). The pack terminal 400 is provided. The pack terminal 400 includes an external anode terminal 410 and an external cathode terminal 420.

Here, the external 110a of the can 110, which is the positive terminal of the secondary electron 100, and the external positive terminal 410 of the pack terminal 400 are electrically connected in series by the leads 211 and 212. In addition, the negative terminal 130 of the secondary electron 100 and the external negative terminal 420 of the pack terminal 400 are electrically connected in series by the lead 213 through the protection circuit 300. On the other hand, as shown in the figure between the outside 110a of the can 110, which is the positive electrode terminal, and the external positive electrode terminal 410 of the pack terminal 400, when temperature or current rises, PTC increases the resistance to block the current flowing therein. Element 220 may be provided. Meanwhile, reference numeral 111, which is not described, indicates a bottom plate that protects the outer bottom 110a of the can 110. The bottom plate 111 may be removed, and the lid 211 is directly attached to the outside 110a of the can 110.

However, from above, the outside 110a of the can 110 and the external positive electrode terminal 410 are directly connected in series, and the negative electrode terminal 130 and the external negative electrode terminal 420 of the secondary electron 100 are the protection circuit 300. Although an electrical connection structure connected in series via the above has been described, this is merely illustrative and is not intended to limit the scope of the present invention. For example, the cathode terminal 130 of the secondary electron 100 is directly connected in series with the external cathode terminal 420 of the pack terminal 140, and the outside 110a of the can 110 is a protection circuit 300. An electrical connection structure may be configured to be connected in series to the external anode terminal 410 of the pack terminal 140 via the through.

According to an embodiment of the present invention configured as described above, by configuring the electrical connection structure such that only one terminal selected from the positive electrode and the negative electrode terminal (110a, 130) of the secondary battery 100 via the protection circuit 130 As compared with the related art, the manufacturing process of the secondary battery module can be simplified.

4 is a view schematically showing a secondary battery module according to another embodiment of the present invention, Figure 5 is a configuration diagram for explaining the operation of the secondary battery module shown in FIG. Here, the same reference numerals as the reference numerals shown in FIG. 3 denote the same members having the same configuration and effect, and thus repetitive description thereof will be omitted.

As shown in FIG. 4, the anode external terminal 410 and the protection circuit 130 of the pack terminal 400 are connected in parallel by leads 214.

Here, as shown in FIG. 5, when an external driving device 600 such as a portable telephone is electrically connected to the pack terminal 400, the external driving device 600 is not controlled by current due to a malfunction or the like. You may not. However, according to another exemplary embodiment of the present invention configured as described above, the protection circuit 300 of the secondary battery may operate normally even when the current control of the external driving device 600 is not performed. Therefore, regardless of the malfunction of the external drive device 600, the safety of the secondary battery can be secured constantly.

According to the secondary battery module according to the present invention, it is possible to simplify the manufacturing process of the secondary battery module, even if the current control of the external drive device is not controlled due to a malfunction of the external drive device driven by the secondary battery module protection circuit. By operating can ensure the safety of the secondary battery.

Although the present invention has been described with reference to the embodiments illustrated in the accompanying drawings, it is merely an example, and those skilled in the art may realize various modifications and equivalent other embodiments therefrom. Will understand. Therefore, the true scope of protection of the present invention should be defined by the technical spirit of the appended claims.

Claims (5)

A secondary battery having a can for accommodating an electrode assembly together with an electrolyte, and a positive electrode and a negative electrode terminal respectively connected to the positive electrode and the negative electrode plate of the electrode assembly; A protection circuit provided on one side of the secondary battery to prevent overcharge and overdischarge; A case including the secondary battery and the protection circuit; A first external terminal connected in series with one terminal selected from the positive and negative terminals of the secondary electron, and a second external terminal connected in series via the protection circuit and the other terminal of the positive and negative terminals of the secondary electron; A secondary battery module comprising a; pack terminal. The method of claim 1, And a first external terminal of the pack terminal and the protection circuit are connected in parallel. The method according to claim 1 or 2, And a first external terminal of the pack terminal is connected to the positive terminal of the secondary battery, and a second external terminal of the pack terminal is connected to the negative terminal of the secondary battery. The method of claim 3, The positive electrode terminal is a secondary battery module, characterized in that the outside of the can. The method of claim 3, The secondary battery module, characterized in that the PTC element is provided between the positive terminal of the secondary battery and the first external terminal of the pack terminal to block the current flowing to increase the resistance when the temperature rises.