KR101608658B1 - Cartridge for Battery - Google Patents

Abstract

A battery cartridge according to an embodiment of the present invention includes a plurality of unit cells for generating a current, an electrode unit provided in the unit cell, and an electrode unit having one side contacted with one side of the electrode unit, A cartridge center in which a unit cell is received and an electrode support unit for supporting the other side of the electrode unit is formed, and a cartridge inner rib for supporting the other side of the terminal unit and contacting the terminal unit and the electrode unit together with the electrode support unit is formed And a cartridge inner.

Description

[0002] Cartridge for Battery [

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a battery cartridge, and more particularly, to a battery cartridge capable of preventing breakage of a terminal portion due to warping generated during vibration or assembly.

One of the biggest problems with vehicles using fossil fuels such as gasoline and diesel is that it causes air pollution. As a solution to this problem, a technique of using a power source of a vehicle as a secondary battery capable of charging and discharging has attracted attention. Accordingly, an electric vehicle (EV) that can be operated only by a battery, and a hybrid electric vehicle (HEV) that uses a battery and an existing engine have been developed, and some of them have been commercialized. BACKGROUND ART [0002] Nickel metal hydride (Ni-MH) batteries are mainly used as secondary batteries as power sources for EV, HEV and the like, but recently lithium-ion batteries have also been used.

Large-capacity battery packs having a structure in which a large number of small secondary cells (unit cells) are connected in series and / or in parallel are used in order to be used as a power source for EV, HEV and the like.

A prismatic battery or a pouch-shaped battery is used as a unit battery, which is a component of such a middle- or large-sized battery pack, and can reduce the size of a dead space by being filled with a high density. In order to facilitate the mechanical fastening and electrical connection of such unit cells, a battery cartridge is generally used which is capable of mounting one or more unit cells. That is, a plurality of battery cartridges mounting unit cells are stacked to constitute a battery pack.

Such a battery cartridge is required to protect, insulate, and dissipate internal unit cells, and it is demanded that the battery cartridges are stacked and configured. Further, in the internal structure of the battery cartridge, it is necessary to compensate for the problem of damaging the internal structure at the time of mechanical vibration and assembly.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a battery cartridge capable of preventing breakage of a terminal portion due to warping generated during vibration or assembly.

The problems of the present invention are not limited to the above-mentioned problems, and other problems not mentioned can be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention, there is provided a battery cartridge comprising:

A plurality of unit cells for generating current; An electrode unit provided in the unit cell; A terminal part having one side contacting a side surface of the electrode part and receiving a current generated from the unit cell from the electrode part; A cartridge center in which the unit cell is accommodated and in which an electrode support portion supporting the other side of the electrode portion is provided; And a cartridge inner rib formed to protrude from the electrode supporting portion to support the other side surface of the terminal portion and to contact the terminal portion and the electrode portion together with the electrode supporting portion; .

The details of other embodiments are included in the detailed description and drawings.

According to the battery cartridge of the present invention, one or more of the following effects can be obtained.

First, the cartridge inner rib supports the terminal portion to prevent the terminal portion from being twisted by the screw fastening and the contact between the terminal portion and the electrode portion.

Second, the cartridge inner rib supports the terminal portion to prevent the contact between the terminal portion and the electrode portion from being separated by mechanical vibrations.

Third, the supporting surface is in contact with the inclined surface so that the cartridge inner rib supports the electrode portion, thereby enabling additional support.

Fourth, the electrode supporting part supports the electrode part so that the electrode part and the terminal part together with the cartridge inner rib are pressed so as to be held on both sides, respectively, so that the electrode part and the terminal part are kept in contact with each other.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the description of the claims.

1 is an exploded perspective view of a battery cartridge according to an embodiment of the present invention.
2 to 5 are views showing a unit cell of a battery cartridge according to an embodiment of the present invention.
FIG. 6 is an assembled view of a battery cartridge according to an embodiment of the present invention disclosed in FIG. 1. FIG.
7 is a perspective view of a cross section taken along line A-A 'shown in Fig.
FIG. 8 is a top view and a bottom view of the cross section shown in FIG. 7; FIG.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and the manner of achieving them, will be apparent from and elucidated with reference to the embodiments described hereinafter in conjunction with the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

Hereinafter, the present invention will be described with reference to the drawings for explaining a battery cartridge according to embodiments of the present invention.

1 is an exploded perspective view of a battery cartridge according to an embodiment of the present invention.

A battery cartridge according to an embodiment of the present invention includes a plurality of unit cells 110, an upper cartridge inner 131-1, a lower cartridge inner 131-2, a cartridge center 121, an upper cover 141-1, And a lower cover 141-2.

The plurality of unit cells 110 is a bundle of unit cells. The unit cell generates a current as a nickel metal hydride (Ni-MH) battery or a lithium ion (Li-ion) battery. A plurality of unit cells 110 are provided in the cartridge center 121. The upper surface of the plurality of unit cells 110 is in contact with the edge of the upper cartridge inner 131-1 and the upper cover 141-1 is in close contact with the center portion. The bottom surface of the plurality of unit cells 110 is in contact with the edge of the lower cartridge inner 131-2 and the lower cover 141-2 is in close contact with the center portion.

The upper cover 141-1 contacts the upper surfaces of the plurality of unit cells 110 to discharge heat of the plurality of unit cells 110. [ It is preferable that the upper cover 141-1 is made of an aluminum material excellent in heat generation. An upper cartridge inner 131-1 is provided between the upper cover 141-1 and the plurality of unit cells 110. [

The upper cartridge inner 131-1 is in contact with the upper edge of the plurality of unit cells 110. [ The upper cartridge inner 131-1 is insulated such that the upper edge of the plurality of unit cells 110 does not directly contact the upper cover 141-1. The upper cartridge inner 131-1 supports between the upper edge of the plurality of unit cells 110 and the upper cover 141-1 to protect the upper edges of the plurality of unit cells 110. [

The description of the lower cover 141-2 and the lower cartridge inner 131-2 is the same as described above and will be omitted.

The convex portion 141a and the concave portion 141b are formed in the upper cover 141-1 and the lower cover 141-2. The convex portion 141a and the concave portion 141b are engaged with each other when the battery cartridges are stacked. The convex portion 141a and the concave portion 141b are formed symmetrically to the four corners of the upper surface of the upper cover 141-1 so that not only forward stacking in which the battery cartridges are stacked in the same direction but also reverse stacking in which stacking is reversed . This will be described later with reference to FIG. 8 and FIG.

The cartridge center 121 has a plurality of unit cells 110. An upper cover 141-1 is coupled to an upper side of the cartridge center 121 via an upper cartridge inner 131-1. A lower cover 141-2 is coupled to the lower side of the cartridge center 121 via a lower cartridge inner 131-2. Various combinations of bonding, bolting and welding may be used for each bonding.

The cartridge center 121 supports the upper cartridge inner 131-1 and the upper cover 141-1, the lower cartridge inner 131-2 and the lower cover 141-2, A spacer 124 through which the long bolt is passed is provided.

The cartridge support 125 is inserted into the side hole 121b formed in the cartridge center 121. [ The cartridge support 125 supports and protects the edges of the plurality of unit cells 110.

A cover front 123 is coupled to the front of the cartridge center 121 and a cover 122 is coupled to the rear of the cartridge center 121 to protect the terminals of the plurality of unit cells 110.

2 to 5 are views showing a unit cell of a battery cartridge according to an embodiment of the present invention.

The plurality of unit cells may be composed of four unit cells including the first unit cell 110-1 to the fourth unit cell 110-4. However, it can be changed to various numbers depending on the type of the unit cell.

The first unit cell 110-1 and the second unit cell 110-2 are tightly coupled and the third unit cell 110-3 and the fourth unit cell are tightly coupled. A gap is formed between the second unit cell 110-2 and the third unit cell 110-3. The gap between the second unit cell 110-2 and the third unit cell 110-3 is formed by the cartridge center 121. [ A gap exists between the second unit cell 110-2 and the third unit cell 110-3 to prepare for swelling of the unit cell. A thermal sensor may be inserted into the gap between the second unit cell 110-2 and the third unit cell 110-3.

The first unit cell sealing portion 110-1a is a portion for sealing the edge of the first unit cell 110-1 and can be energized by leakage if it is torn or broken. Accordingly, the first unit cell sealing portion 110-1a is in close contact with the upper cartridge inner 131-1 in order to insulate and protect the first unit battery sealing portion 110-1a.

A cartridge support 125 is inserted between the first unit cell sealing portion 110-1a and the second unit battery sealing portion 110-2a to support, protect and insulate the respective sealing portions. In particular, the cartridge support 125 prevents the first unit cell sealing portion 110-1a and the second unit battery sealing portion 110-2a from being broken when the battery cartridge is vertically erected.

The plurality of unit cells 110 are provided with a positive electrode 117, a negative electrode 119, a positive electrode 113, a negative electrode 114 and a series electrode 115.

The positive electrode 117 connects the first unit cell 110-1 and the second unit cell 110-2 in parallel to form the positive electrode of the plurality of unit cells 110. [ The positive electrode 117 is disposed on one side of the plurality of unit cells 110. The negative electrode 119 connects the third unit cell 110-3 and the fourth unit cell 110-4 in parallel to form the negative electrode of the plurality of unit cells 110. [ The negative electrode 119 is arranged side by side with the positive electrode 117 on one side of the plurality of unit cells 110.

The positive electrode 113 connects the first unit cell 110-1 and the second unit cell 110-2 in parallel and the negative parallel electrode 114 connects the third unit cell 110-3 and the fourth unit cell 110-3, The unit cells 110-4 are connected in parallel and the series electrode 115 connects the positive electrode 113 and the negative electrode 114 together.

The first unit cell 110-1 and the second unit cell 110-2 are connected in parallel and the third unit cell 110-3 and the fourth unit cell 110-4 are connected in parallel. The sets are connected in series again. The plurality of unit cells 110 are connected in a 2-parallel-2 serial structure. However, the connection structure can be changed according to the required voltage and capacity.

FIG. 6 is an assembled view of a battery cartridge according to an embodiment of the present invention shown in FIG. 1, FIG. 7 is a perspective view of a section taken along the line A-A 'shown in FIG. 6, FIG.

6 to 8, a battery cartridge according to an embodiment of the present invention includes a plurality of unit cells 110 for generating a current, an electrode unit 111 provided in the unit cell 110, A terminal unit 150 for receiving a current generated from the unit cell 110 from the electrode unit 111 by contacting a side surface of the electrode unit 111 with the side surface of the electrode unit 111, A cartridge center 121 having an electrode supporting part 121-1 for supporting the other side of the terminal part 150 and a terminal part 150 supporting the other side of the terminal part 150, And a cartridge inner 131-1 or 131-2 protruding from the cartridge inner rib 131-1.

The cartridge inner 131-1 or 131-2 may correspond to either the upper cartridge inner 131-1 or the lower cartridge inner 131-2.

The electrode unit 111 is provided on one side of the unit cell 110. The electrode unit 111 may be provided for each unit cell 110 in order to transfer a current generated in each unit cell 110. In addition, the electrode unit 111 may include two or more unit cells 110, A portion 111 may be provided. Hereinafter, it is assumed that the electrode unit 111 includes one electrode unit 111 by combining two unit cells 110, but the number of the electrode units 111 or the number of the unit cells 110 But is not limited thereto.

The electrode portion 111 corresponds to any one of the above-described meandering electrode 113 and the negative parallel electrode 114, and the shape of the electrode portion 111 will be described later.

One side of the terminal portion 150 is in contact with one side of the electrode portion 111. The terminal unit 150 contacts the electrode unit 111 and receives a current generated from the unit cell 110. The terminal unit 150 may be any one of the positive electrode 117, the negative electrode 119 and the series electrode 115. The terminal unit 150 will be described as the negative electrode 119, Is not limited.

A plurality of unit cells 110 are accommodated in the cartridge center 121. The cartridge center 121 has an electrode support 121-1 on one side thereof for supporting the other side of the electrode unit 111. [ The electrode support 121-1 may be formed of one or more ribs. In the following description, the ribs are formed as a plurality of ribs, but the spirit of the present invention is not limited thereto. The electrode supporting portion 121 - 1 formed by a plurality of ribs supports the other side of the electrode portion 111. The electrode support 121-1 may be formed integrally with the cartridge center 121. [

The cartridge inner rib 131-3 is formed protruding from the cartridge inner 131-1 or 131-2. The cart grip inner rib may be integrally formed with the cartridge inner 131-1 or 131-2. The cartridge inner rib 131-3 supports the other side of the terminal portion 150. [ The cartridge inner rib 131-3 allows the terminal portion 150 and the electrode portion 111 to come into contact with the electrode supporting portion 121-1.

One side of the electrode unit 111 and one side of the terminal unit 150 are in contact with each other and the other side of the electrode unit 111 is supported by the electrode support unit 121-1, 150 is supported by the cartridge inner rib 131-3.

That is, the electrode supporting portion 121-1 and the cartridge inner rib 131-3 press the electrode portion 111 and the terminal portion 150 provided therebetween so as to protrude from both sides, So that the terminal portion 150 is maintained in a contact state.

The terminal portion 150 may be formed with a fastening hole (not shown) at one side thereof, and the terminal portion 150 may be formed at the other side When fastened to an external device, a fastening screw is used to fasten the screw. In this case, the terminal portion 150 may be twisted by screwing, and the contact between the terminal portion 150 and the electrode portion 111 may be separated due to the twisting. The current generated in the unit cell 110 is not transferred when the terminal part 150 is separated from the electrode part 111. This requires a structure for pressing the electrode part 111 and the terminal part 150 so as not to be separated from each other Do. In this case, the electrode part 111 and the terminal part 150 are not separated from each other by the structure of the electrode supporting part 121-1 and the cartridge inner rib 131-3.

The cartridge inner rib 131-3 supports the terminal portion 150 to prevent the contact between the terminal portion 150 and the electrode portion 111 from being separated by the vibration. A mechanical microvibration is generated in a machine and other devices to which the battery cartridge is mounted, and the contact between the electrode part 111 and the terminal part 150 can be separated by such vibration. At this time, since the electrode portion 111 and the terminal portion 150 are pressed and supported by the electrode supporting portion 121-1 and the cartridge inner rib 131-3 from both sides, the terminal portion 150 and the electrode portion Thereby preventing the contact of the contact portion 111 from being separated.

The electrode portion 111 may be bent in a multi-step manner to form the inclined surface 111-1. The electrodes of each unit cell 110 may be combined into one electrode unit 111 to form a plurality of unit cells 110 as one electrode unit 111. At this time, The shape of the curved line and the curved line of the multi-stepped curved line. The shape of the side surface of the electrode part 111 is not limited to this.

The electrode unit 111 is formed by bending a plurality of unit cells 110 so as to combine the two unit cells 110 into one end so that the inclined surface 111-1 is formed and the cartridge inner rib 131-3 A corresponding surface 131-4 formed corresponding to the inclined surface 111-1 of the electrode portion 111 is formed.

The corresponding surface 131-4 is formed on one side surface of the cartridge inner rib 131-3 and contacts the inclined surface 111-1 of the electrode portion 111 to support the inclined surface 111-1. It is preferable that the corresponding surface 131-4 is in contact with the entire inclined surface 111-1. The supporting surface 131-4 is brought into contact with the inclined surface 111-1 so that the cartridge inner rib 131-3 supports the electrode portion 111. This further supports the vibration and the screw Thereby preventing the contact between the electrode portion 111 and the terminal portion 150 from being separated by fastening.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It should be understood that various modifications may be made by those skilled in the art without departing from the spirit and scope of the present invention.

110: Unit battery 131-1: Upper cartridge inner
131-2: Lower cartridge inner 121: Cartridge center
141-1: upper cover 141-2: lower cover
141a: convex portion 141b: concave portion
123: Cover front 124: Spacer
125: Cartridge support 121b: Side hole
122: cover 113: negative parallel electrode
115: serial electrode 117: positive electrode terminal
114: positive electrode 119: negative parallel electrode terminal
121-1: Electrode support part 150: Terminal part
131-3: Cartridge inner rib 131-4: Corresponding surface
111: electrode part 111-1: inclined surface

Claims (5)

A plurality of unit cells for generating current;
An electrode unit provided in the unit cell;
A terminal part having one side contacting a side surface of the electrode part and receiving a current generated from the unit cell from the electrode part;
A cartridge center in which the unit cell is accommodated and in which an electrode support portion supporting the other side of the electrode portion is provided; And
A cartridge inserter having a cartridge inner rib protruding from the terminal supporting portion to contact the terminal portion and the electrode portion together with the electrode supporting portion;
.
The method according to claim 1,
Wherein the electrode supporting portion is formed of a plurality of ribs.
The method according to claim 1,
Wherein the cartridge inner rib supports the terminal portion to prevent contact between the terminal portion and the electrode portion by vibration.
The method according to claim 1,
Wherein one side of the electrode portion is in contact with one side of the terminal portion,
And the other side surface of the electrode portion is supported by the electrode supporting portion,
And the other side surface of the terminal portion is supported by the cartridge inner rib.
The method according to claim 1,
The electrode portion is bent in a multi-step shape to form an inclined surface,
Wherein the cartridge inner rib has a corresponding surface formed corresponding to the inclined surface.

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