KR20150037155A - Secondary Battery - Google Patents

Abstract

A secondary battery according to the present invention is characterized by comprising a case having a cavity inside; an electrode assembly having a cathode plate, a separator, and an anode plate laminated; a main electrode tab extended from the electrode assembly; an electrode lead having one end electrically connected to the main electrode tab, and having the other end exposed to the outside of the case; and multiple sub-electrode tabs extended from the electrode assembly independently from the main electrode tab, and combined with each other between the same polarity. The secondary battery according to the present invention has an effect of preventing performance degradation and obtaining safety event the main electrode tab and the electrode lead are broken.

Description

Secondary Battery

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a secondary battery, and more particularly, to a secondary battery including a positive electrode plate or a negative electrode plate of an electrode assembly and having an electrode tab connected to an electrode lead.

As technology development and demand for mobile devices are increasing, the demand for batteries as energy sources is rapidly increasing, and accordingly, a lot of researches on batteries capable of meeting various demands have been conducted.

Typically, the battery can be classified into a can-type secondary battery and a pouch-type secondary battery depending on the type of the casing.

1 is a perspective view showing a conventional pouch type secondary battery. 2 is a cross-sectional view showing the pouch type secondary battery shown in FIG.

Referring to FIGS. 1 and 2, a secondary battery 10 includes a case 11, an electrode assembly 12, an electrode tab 13, and an electrode lead 14.

The case 11 may be formed to have a size capable of accommodating the electrode assembly 12, the electrode tab 13, and the electrode lead 14 to be described later.

The electrode assembly 12 includes a positive electrode plate, a negative electrode plate, and a separator. In the electrode assembly 12, the positive electrode plate and the negative electrode plate may be sequentially stacked in a state where the separator is interposed. The electrode assembly 12 typically includes a jelly-roll (wound-type) electrode assembly having a long sheet-like anode and a cathode wound with a separator interposed therebetween, a plurality of positive and negative electrodes A stacked (stacked) electrode assembly in which a plurality of positive electrodes and negative electrodes are stacked in this order with a separator interposed therebetween; a structure in which a bi-cell or a full cell Stacked / folded electrode assemblies, and the like.

The electrode tabs (13) extend from the electrode assembly (12). For example, the positive electrode tab extends from the positive electrode plate, and the negative electrode tab extends from the negative electrode plate. Here, when the electrode assembly 12 is formed in a state in which a plurality of positive electrode plates and a plurality of negative electrode plates are stacked, the electrode tabs 13 extend from the respective positive electrode plates and negative electrode plates. At this time, the electrode tab 13 may not be directly exposed to the outside of the case 11, but may be connected to another component such as the electrode lead 14.

The electrode leads 14 are electrically connected to a part of the electrode tabs 13 extended from the positive electrode plate or the negative electrode plate, respectively. That is, the positive electrode leads are coupled with the positive electrode tabs and electrically connected to each other, and the negative electrode leads are coupled with the negative electrode tabs and electrically connected to each other. At this time, the electrode lead 14 can be bonded to the electrode tab 13 by a general resistance welding, ultrasonic welding, laser welding, riveting, or the like.

However, the electrode tabs 13 and the electrode leads 14 are joined together by welding or the like, and can be broken by a physical impact generated from the outside. Particularly, in the case of the electrode assembly 12 in which a plurality of positive electrode plates and a plurality of negative electrode plates are stacked, the connection between the electrode tabs 13 of some layers and the electrode leads 14 may be disconnected. In this case, since the electrode plate of the layer is not charged or discharged, not only the overall capacity of the secondary battery 10 is reduced but also the secondary battery 10 may not operate properly.

It is an object of the present invention to provide a secondary battery which is capable of preventing performance degradation and continuous operation even if some main electrode tabs and electrode leads are broken.

According to an aspect of the present invention, there is provided a secondary battery including: a case having a hollow space therein; An electrode assembly housed in the case and having a positive electrode plate, a separator, and a negative electrode plate laminated; A main electrode tab extending from the electrode assembly; An electrode lead having one end electrically connected to the main electrode tab and the other end exposed to the outside of the upper case; And a plurality of auxiliary electrode tabs extending from the electrode assembly separately from the main electrode tabs and having the same polarities bonded to each other.

Preferably, the auxiliary electrode tab may include a positive auxiliary tab and a negative auxiliary tab.

In addition, preferably, the positive electrode auxiliary tab and the negative electrode auxiliary tab may be located on different sides of the electrode assembly.

In addition, preferably, the plurality of auxiliary electrode taps may be coupled by ultrasonic welding.

In addition, the auxiliary electrode tab may be provided in all layers.

Preferably, a plurality of the positive electrode plates and the negative electrode plates are stacked, and the auxiliary electrode tabs may be provided on different layers and bonded to each other.

Preferably, the auxiliary electrode tab may be located on a terrace of the electrode assembly.

Preferably, the auxiliary electrode tab may be located inside the case.

In addition, preferably, the case may be configured in the form of a pouch.

A secondary battery according to an aspect of the present invention includes a main electrode tab extending from a plurality of electrode plates stacked in a plurality of layers and partially damaged or partially disconnected from a main electrode tab and an electrode lead, The current can be transferred through the auxiliary electrode tab.

Therefore, according to this aspect of the present invention, even if a part of the plurality of main electrode tabs is cut off, capacity reduction or failure of the secondary battery can be prevented.

1 is a perspective view showing a conventional pouch type secondary battery.
2 is a cross-sectional view showing the pouch type secondary battery shown in FIG.
3 is a perspective view showing a pouch type secondary battery of the present invention.
4 is a cross-sectional view showing the pouch type secondary battery shown in FIG.
5 is an enlarged cross-sectional view of a portion A in Fig.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only some of the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

3 is a perspective view showing a pouch type secondary battery of the present invention. 4 is a cross-sectional view showing the pouch type secondary battery shown in FIG. 5 is an enlarged cross-sectional view of a portion A in Fig.

3 and 4, a secondary battery 100 according to the present invention includes a case 110, an electrode assembly 120, a main electrode tab 130, an electrode lead 140, and an auxiliary electrode tab 150 .

Although the main electrode tab 130, the electrode lead 140, and the auxiliary electrode tab 150 are collectively referred to as the main electrode tab 130 and the auxiliary electrode tab 150 in FIGS. 3 and 4, this structure is not limited to the structure of the combination of the positive electrode tabs and the positive electrode leads, The positive electrode main tab and the negative electrode main tab are connected to the main electrode tab 130, the positive electrode auxiliary tab and the negative electrode auxiliary tab are connected to the auxiliary electrode tab 150, and the positive electrode lead and the negative electrode lead, respectively, Will be collectively referred to as an electrode lead 140.

The case 110 has an empty space therein and may be formed to accommodate the electrode assembly 120 in the inner space. The case 110 may be formed in a hexahedron or angular shape, but the shape of the case 110 is not limited to a specific shape in the present invention.

The electrode assembly 120 includes a positive electrode plate, a negative electrode plate, and a separator. That is, in the electrode assembly 120, the positive electrode plate and the negative electrode plate are sequentially stacked and insulated from each other with the separator interposed therebetween. The electrode assembly 120 may be formed in various shapes such as a winding type, a stack type, or a stack / folding type according to the embodiment.

The positive electrode plate is formed of a positive electrode current collector made of a thin metal plate having excellent conductivity, for example, aluminum (Al) foil, and a positive electrode active material layer coated on both surfaces thereof. The positive electrode plate may have a positive electrode current collector region where the positive electrode active material layer is not formed on both surfaces, that is, a positive electrode uncoated portion. The positive electrode plate may be bonded to one end of the positive electrode uncoated portion with a metallic material such as a positive electrode tab made of aluminum (Al).

The negative electrode plate includes a negative electrode current collector made of a conductive metal thin plate, for example, a copper (Cu) foil, and a negative electrode active material layer coated on both surfaces thereof. The negative electrode plate has negative electrode current collector regions on both sides of which a negative active material layer is not formed, that is, a negative electrode uncoated portion. The negative electrode plate may be bonded to one end thereof with a negative electrode tab made of a metal material, such as nickel (Ni). The negative electrode plate may be included more than two depending on the shape of the electrode assembly 120, such as the positive electrode plate, and in particular, in the case of the stacked electrode assembly.

The separator is disposed between the positive electrode plate and the negative electrode plate, electrically insulates the positive electrode plate and the negative electrode plate from each other, and may be formed in the form of a porous membrane so that lithium ions pass between the positive electrode plate and the negative electrode plate. Such a separation membrane may be made of, for example, a porous membrane using polyethylene (PE) or polypropylene (PP) or a composite film thereof.

The main electrode tab 130 extends from the electrode assembly 120. The main electrode tab 130 may be connected to other components such as the electrode lead 140 without being directly exposed to the outside of the case 110.

In particular, the positive electrode plate and the negative electrode plate may be included in two or more of them according to the shape of the electrode assembly 120. In this case, each electrode plate may be provided with a main electrode tab 130, Can be coupled to the electrode leads 140 of the same polarity while the polarities are in contact with each other.

The electrode lead 140 connected to the main electrode tab 130 may be provided with a sealing tape 130a at a portion contacting the sealing portion of the case 110. [ At this time, the sealing tape 130a prevents the electrolyte from leaking to the outside of the case 110, and can prevent a short circuit or the like that may occur in the main electrode tab 130. [

The electrode lead 140 is electrically connected to the main electrode tab 130. One end of the electrode lead 140 is connected to the main electrode tab 130 and the other end of the electrode lead 140 is exposed to the outside of the case 110. The other end exposed to the outside can function as an electrode terminal. Therefore, the secondary battery can be charged and discharged by connecting a charger, a load, or the like to the other end of the electrode lead 140.

In more detail, the electrode leads 140 and the main electrode tabs 130 may be joined to each other by welding or the like, and these welded portions are shaded in FIG. That is, the positive electrode tab and the positive electrode lead are joined to each other by welding, and the negative electrode tab and the negative electrode lead can also be joined to each other by welding. At this time, the main electrode tab 130 and the electrode lead 140 may be made of a metallic material, and the connection between the metallic materials can be easily accomplished by such a welding method. However, the present invention is not limited to the specific combination of the main electrode tab 130 and the electrode lead 140.

The auxiliary electrode tab 150 may extend from the electrode assembly 120 separately from the main electrode tab 130.

The auxiliary electrode tab 150 may include a positive auxiliary tab and a negative auxiliary tab. Here, the positive electrode auxiliary tab is provided on the positive electrode plate separately from the positive electrode main tap, and the negative electrode auxiliary tab is provided on the negative electrode plate separately from the negative electrode main tap.

As shown in FIG. 4, a plurality of auxiliary electrode tabs 150 may be included. For example, the auxiliary electrode tab 150 may be composed of a plurality of anode auxiliary tabs and a plurality of cathode auxiliary tabs.

Each of the auxiliary electrode tabs 150 may be connected so that the same polarity is electrically connected to each other. For example, a plurality of positive electrode auxiliary taps may be joined to each other, and a plurality of negative electrode auxiliary taps may be joined to each other.

According to the present invention, even if a part of the plurality of main electrode tabs 130 is damaged or the main electrode tab 130 and the electrode lead 140 are disconnected, The plate can be electrically connected to the other electrode plate.

For example, in the configuration in which the first positive electrode plate and the second positive electrode plate are stacked with the separator and the negative electrode plate interposed therebetween, when the connection between the main electrode tab 130 of the first positive electrode plate and the electrode lead 140 is broken, The first positive electrode plate can not be connected to the electrode lead 140 any longer and can not be used for charging and discharging. However, according to the present invention, since the first positive electrode plate is connected to the second positive electrode plate through the auxiliary electrode tab 150, the first positive electrode plate is electrically connected to the electrode lead 140 through the main electrode tab 130 of the second positive electrode plate and the second positive electrode plate. ). Therefore, according to the present invention, the first positive electrode plate can be continuously used for charging and discharging.

Preferably, the electrode assembly 120 includes a plurality of positive electrode plates and a plurality of negative electrode plates stacked. All positive plates are provided with positive auxiliary tabs. Each negative electrode tab may be provided with a negative auxiliary tab. That is, after the positive electrode tab and the negative electrode tab are stacked with the separator interposed therebetween, the main electrode tab 130 and the auxiliary electrode tab 150 may be connected to the positive electrode tab and the negative electrode tab, respectively. Therefore, even if the main electrode tab 130 is cut off, the current can move through the auxiliary electrode tab 150 in a short period of time, so that the charge and discharge can be maintained.

The auxiliary electrode tabs 150 may be provided on different layers and bonded to each other. According to this embodiment, the positive electrode auxiliary tabs are connected to the positive electrode plates, respectively, and the negative electrode auxiliary tabs are connected to the negative electrode plates, respectively. That is, a plurality of positive electrode plates and a plurality of negative electrode plates may be provided with respective positive electrode auxiliary tabs and negative electrode auxiliary tabs, which are then bonded to each other.

The plurality of auxiliary electrode tabs 150 may be coupled by ultrasonic welding. At this time, the auxiliary electrode tab 150 is joined by ultrasonic welding, thereby increasing the movement path of the electrons, thereby allowing the electrons to be transmitted faster. In addition, the ultrasonic welding not only improves the workability but also prevents the auxiliary electrode tab 150 from being short-circuited.

The auxiliary electrode tab 150 may be located on the terrace portion of the electrode assembly 120 and may be electrically connected to the electrode assembly 120. At this time, the terrace portion refers to the short side of the electrode assembly 120, that is, the width direction of the electrode assembly 120.

Since the auxiliary electrode tab 150 is additionally formed in addition to the conventional main electrode tab 130, it is possible to further form the electrode tab without deforming the shape of the secondary battery 100. At this time, the auxiliary electrode tab 150 is not limited to a length and a width, and may be a length and a width that can be positioned inside the case 110.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is to be understood that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

100: secondary battery 110: case
120: electrode assembly 130: main electrode tab
130a: sealing tape 140: electrode lead
150: auxiliary electrode tab

Claims (10)

A case having an empty space therein;
An electrode assembly housed in the case and having a positive electrode plate and a negative electrode plate stacked with a separator interposed therebetween;
A main electrode tab extending from the electrode assembly;
An electrode lead having one end electrically connected to the main electrode tab and the other end exposed to the outside of the upper case; And
And a plurality of auxiliary electrode tabs extending from the electrode assembly separately from the main electrode tabs and having the same polarity and bonded to each other.
The method according to claim 1,
The auxiliary electrode tab
And a positive electrode auxiliary tab and a negative electrode auxiliary tab.
3. The method of claim 2,
Wherein the positive electrode auxiliary tab and the negative electrode auxiliary tab are located on different sides of the electrode assembly.
The method according to claim 1,
The auxiliary electrode tab
Wherein the battery pack is provided in all layers.
The method according to claim 1,
Wherein a plurality of the positive electrode plates and the negative electrode plates are laminated,
Wherein the auxiliary electrode tabs are provided on different layers and bonded to each other.
The method according to claim 1,
The plurality of auxiliary electrode tabs
Wherein the secondary battery is bonded by ultrasonic welding.
The method according to claim 1,
The auxiliary electrode tab
Wherein the electrode assembly is located on a terrace portion of the electrode assembly.
The method according to claim 1,
The auxiliary electrode tab
Wherein the battery case is located inside the case.
The method according to claim 1,
The case
Wherein the secondary battery is formed in a pouch shape.
A battery pack comprising at least one secondary battery according to any one of claims 1 to 9.

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