KR102149577B1 - Device for cooling cell tabs - Google Patents

Abstract

A cell tap cooling apparatus according to an embodiment includes: a bus bar including a bus bar body and a cell tab receiving portion formed under the bus bar body and accommodating at least a portion of the cell tab; A fastening terminal provided in the cell tab receiving portion and movable in a vertical direction within the cell tab receiving portion; And a pressing member penetrating the busbar body and protruding at least a portion of the cell tab receiving portion to press the fastening terminal downward.

Description

Cell tap cooling system {DEVICE FOR COOLING CELL TABS}

The description below relates to a cell tap cooling device.

Surface cooling of conventional lithium-ion battery packs is largely divided into two ways. The first cooling method is a method of inserting a cooling plate between the stacked pouch cells, and then cooling the surface of the pouch cell by air cooling or water cooling through the cooling plate. The second cooling method is a method of air-cooling by attaching a heat sink to a cell tab (battery terminal block), and is mainly used to generate a lot of heat in and around the cell tab when the pouch cell discharges at a high C rating. .

In the case of the first cooling method, the weight and volume of the cooling structure is large, the cost is high, the cooling effect on the pouch surface is limited, and the structure of applying pressure between cells to maintain cooling efficiency is required. There is a disadvantage in that it takes effort to disassemble and assemble.

In the case of the second cooling method, since there is no cooling plate between the pouch cells, the pack can be stacked compactly and the cost is low.However, since there is no electrical connection between the cell tabs, it is difficult to attach a large heat sink, so the cooling effect is limited. In addition, there is a disadvantage that waterproofing is difficult and there is a risk of short circuit because the heat sink is exposed to have a cooling effect.

The above-described background technology is possessed or acquired by the inventor in the process of deriving the present invention, and is not necessarily a known technology disclosed to the general public prior to filing the present invention.

An object of an embodiment is to provide a cell tap cooling device having a structure in which only cells to be separated can be easily replaced.

An object of an embodiment is to provide a cell tap cooling device that can be manufactured simply and is easy to operate.

A cell tap cooling apparatus according to an embodiment includes: a bus bar including a bus bar body and a cell tab receiving portion formed under the bus bar body and accommodating at least a portion of the cell tab; A fastening terminal provided in the cell tab receiving portion; And a pressing member penetrating the busbar body and protruding at least a portion of the cell tab receiving portion to press the fastening terminal downward.

The cell tab accommodating portion may have a shape whose width becomes narrower as it goes downward, and it is possible to prevent supporting the fastening terminal.

The fastening terminal has a shape whose width becomes narrower as it goes downward, and may be in surface contact with the cell tab receiving portion.

The cell tab receiving portion may accommodate two cell tabs disposed opposite to each other around the fastening terminal.

The pressing member can be screwed to the bus bar.

The cell tap cooling device further includes a cover disposed above the bus bar and formed of an insulating material, the bus bar including a flow path lower portion recessed in the upper surface of the bus bar body, and the cover It may include a flow path upper portion connected to the lower portion of the flow path to form a flow path.

The bus bar may include a fastening hole for supporting the pressing member, and the cover may include a jig guide communicating with the fastening hole.

The pressing member may include a pressing body screwed into the fastening hole; And a pressing head connected to an upper end of the pressing body and having a larger diameter than the pressing body.

The lower surface of the pressing head may be in contact with the bus bar body to limit the length of the pressing member protruding toward the cell tab receiving portion.

The busbar may have a coupling groove, and the cover may have a coupling hole communicating with the coupling groove.

The fastening hole and the coupling groove may be arranged parallel to the flow path.

The lower portion of the flow path is disposed at the center of the bus bar, and the pressing member may pass through the rim of the bus bar.

The pressing member may include a fastening body that passes through the busbar body in a first direction, and the fastening terminal is slidable along the cell tab receiving part in a second direction crossing the first direction.

The fastening terminal may further include a receiving groove recessed in the upper surface of the fastening body and accommodating at least a portion of the pressing member.

The fastening terminal may further include a wedge groove recessed in the left or right side of the fastening body.

The pressing member may be rotatably connected to the busbar body and screwed to the fastening terminal.

The cell tap cooling apparatus according to an exemplary embodiment has a structure in which a cell to be separated can be easily replaced, and thus, as compared with an existing battery pack structure, it is possible to significantly improve assembly performance and stability. In particular, it can have an excellent effect in a target where cell replacement may occur frequently, such as a modified electric vehicle.

The cell tap cooling apparatus according to an embodiment has a simple structure, is inexpensive, and can be manufactured with a light weight.

The cell tap cooling apparatus according to an exemplary embodiment may maximize cooling efficiency by directly flowing a refrigerant to a bus bar.

1 is a perspective view of a cell tap cooling apparatus according to an exemplary embodiment.
2 is an exploded perspective view of a cell tap cooling device according to an exemplary embodiment.
3 is a cross-sectional view of a cell tap cooling device according to an exemplary embodiment, and illustrates a state in which the cell tap is separated from the cell tap cooling device.
4 is a cross-sectional view and a partially enlarged view of a cell tap cooling device according to an exemplary embodiment, and illustrates a state in which the cell tab is in close contact with a bus bar by a fastening terminal.
5 is a partially enlarged cross-sectional view of a cell tap cooling device according to an exemplary embodiment.
6 is a cross-sectional view of a fastening terminal according to an embodiment.
7 is a partially enlarged cross-sectional view of a cell tap cooling device according to an exemplary embodiment.

This patent application claims priority based on patent application No. 10-2018-0047891 filed on April 25, 2018, and the entire contents of the application are incorporated by reference in this patent application.

Hereinafter, embodiments will be described in detail through exemplary drawings. In adding reference numerals to elements of each drawing, it should be noted that the same elements are assigned the same numerals as possible even if they are indicated on different drawings. In addition, in describing the embodiment, if it is determined that a detailed description of a related known configuration or function interferes with the understanding of the embodiment, a detailed description thereof will be omitted.

In addition, in describing the constituent elements of the embodiment, terms such as first, second, A, B, (a) and (b) may be used. These terms are only used to distinguish the component from other components, and the nature, order, or order of the component is not limited by the term. When a component is described as being "connected", "coupled" or "connected" to another component, that component may be directly connected or connected to that other component, but another component between each component It should be understood that may be “connected”, “coupled” or “connected”.

Components included in one embodiment and components including common functions will be described using the same name in other embodiments. Unless otherwise stated, descriptions in one embodiment may be applied to other embodiments, and detailed descriptions in the overlapping range will be omitted.

1 is a perspective view of a cell tap cooling device according to an embodiment, and FIG. 2 is an exploded perspective view of a cell tap cooling device according to an embodiment. 3 is a cross-sectional view of a cell tap cooling device according to an exemplary embodiment, and illustrates a state in which the cell tap is separated from the cell tap cooling device. 4 is a cross-sectional view and a partially enlarged view of a cell tap cooling device according to an exemplary embodiment, and illustrates a state in which the cell tab is in close contact with a bus bar by a fastening terminal. 5 is a partially enlarged cross-sectional view of a cell tap cooling device according to an exemplary embodiment.

1 to 5, the cell tap cooling apparatus 1 may cool the plurality of cell tabs T while assisting in electrical connection between the plurality of cell tabs T. The cell tap cooling device 1 may include a bus bar 11, a cover 12, a fastening terminal 13, a pressing member 91, and a coupling member 92.

The bus bar 11 may accommodate at least a portion of the plurality of cell tabs T, and may implement electrical connection between the plurality of cell tabs T. For example, Figs. 1 and 2 show a bus bar 11 implementing electrical connection between eight cell taps, but it should be noted that the present invention is not limited thereto. Of the 8 cell tabs, 4 on the left can function as-and 4 on the right can function as +. The bus bar 11 may be made of a material having high thermal conductivity and electrical conductivity. The bus bar 11 may include a bus bar body 111, a cell tab receiving portion 112, a flow path lower portion 113, a fastening hole 118, and a coupling groove 119.

The bus bar body 111 may support the fastening terminal 13 and the pressing member 91. The upper side of the bus bar body 111 may be connected to the cover 12, and a cell tab receiving portion 112 may be provided under the bus bar body 111. The busbar body 111 may be electrically connected by contacting the cell tab.

The cell tab receiving portion 112 may accommodate at least a portion of the cell tab. The cell tab accommodating part 112 may be provided under the bus bar body 111, and a plurality of the cell tab receiving portions 112 may be provided side by side. The cell tab receiving portion 112 may accommodate the fastening terminal 13. The cell tab accommodating part 112 may have a free space so that the fastening terminal 13 can move. For example, the size of the cell tab receiving portion 112 may be larger than the size of the fastening terminal 13. The cell tab receiving portion 112 may be opened downward. The cell tab T may enter the cell tab receiving portion 112 through the lower opening of the cell tab receiving portion 112. In addition, the cell tab receiving portion 112 may be opened to the left and/or to the right. The fastening terminal 13 may enter the cell tab receiving portion 112 through the left and/or right openings.

The cell tab accommodating part 112 may have a shape whose width becomes narrower downward. For example, the cell tab receiving part 112 may have a trapezoidal shape. The cell tab accommodating part 112 may support the fastening terminal 13 to prevent the fastening terminal 13 from escaping downward. For example, the cell tab receiving portion 112 may support both sides of the fastening terminal 13. For example, the cell tab receiving part 112 may make surface contact with the fastening terminal 13. The cell tab accommodating part 112 may accommodate two cell tabs T disposed opposite to each other around the fastening terminal 13. One fastening terminal 13 may press the two cell tabs T.

The lower flow path 113 may be recessed in the upper surface of the bus bar body 111. The flow path lower part 113 may be combined with the flow path upper part 123 of the cover 12 to form the flow path F. The flow path F may guide the flow of the refrigerant. For example, the flow path lower portion 113 may have a semicircular shape convex downward.

The fastening hole 118 may support the pressing member 91. For example, the fastening hole 118 may be screwed with the pressing member 91. For example, the fastening hole 118 may function as a female thread, and the pressing member 91 may function as a male thread. The fastening hole 118 may include a fastening hole body 1181 and a fastening hole head 1182.

The fastening hole body 1181 may penetrate the bus bar body 111 in the vertical direction and may be screwed with the pressing member 91.

The fastening hole head 1182 is provided on the upper end of the fastening hole body 1181 and may have a larger width than the fastening hole body 1181. The fastening hole head 1182 may accommodate the pressing head 912 of the pressing member 91.

The coupling groove 119 may support the coupling member 92. For example, the coupling groove 119 may be screwed to the coupling member 92.

The cover 12 is disposed above the bus bar 11 and may be formed of an insulating material. The cover 12 may include a cover body 121, an upper flow path 123, a jig guide 128, and a coupling hole 129.

The cover body 121 may be engaged with the bus bar body 111. For example, the cover body 121 may have a shape corresponding to the bus bar body 111.

The upper flow path 123 may be coupled to the lower flow path 113 to form a flow path F for guiding the flow of the refrigerant. For example, the flow path upper part 123 may have a semicircular shape convex upward.

The jig guide 128 may be in communication with the fastening hole 118. The jig guide 128 may guide insertion of a jig (not shown) for rotating the pressing member 91 supported by the fastening hole 118. The jig can move the pressing member 91 downward or upward by rotating the pressing member 91. The jig guide 128 may assist a user to easily insert the jig into the pressing member 91.

The coupling hole 129 may communicate with the coupling groove 119 and may support the coupling member 92. For example, the coupling hole 129 may be screwed to the coupling member 92.

The fastening terminal 13 may be provided in the cell tab receiving portion 112. The fastening terminal 13 is movable in the vertical direction (also referred to as "first direction") within the cell tab receiving portion 112. For example, the cell tab accommodating part 112 may have a free space so that the fastening terminal 13 can move. The fastening terminal 13 may press the cell tab T. For example, the cell tab T may be accommodated in the cell tab accommodating portion 112 and may be disposed between the bus bar 11 and the fastening terminal 13. In a state in which no external force is applied to the fastening terminal 13, the cell tab T may not be in close contact with the bus bar 11. On the other hand, the fastening terminal 13 may press the cell tab T downward while moving downward by receiving an external force from the pressing member 91, in this case, the cell tab T is attached to the bus bar 11 It can adhere.

The fastening terminal 13 is slidable in a left-right direction (also referred to as a “second direction”) along the cell tab receiving portion 112. The fastening terminal 13 can be easily replaced by sliding in the left and right direction. The fastening terminal 13 may include a fastening body 131, a receiving groove 132, and a wedge groove 133.

The fastening body 131 may have a shape whose width becomes narrower toward the bottom. For example, the cross section of the fastening body 131 may include a trapezoidal shape. The fastening body 131 may be in surface contact with the cell tab receiving portion 112. When the cell tab (T) is disposed between the bus bar (11) and the fastening terminal (13), the inner wall of the bus bar body (111), that is, the cell tab receiving portion (112) is in surface contact with the cell tab (T) Thus, one surface of the cell tab T can be pressed. Meanwhile, the fastening body 131 may contact the cell tab T and press the other surface of the cell tab T.

The receiving groove 132 may accommodate at least a portion of the pressing member 91. The receiving groove 132 may accommodate the lower end of the pressing member 91. The receiving groove 132 may surround the lower end of the pressing member 91, and thus, sliding in the left and right directions of the fastening terminal 13 may be restricted. In other words, the pressing member 91 inserted into the receiving groove 132 can prevent the fastening terminal 13 from being separated from the left and right directions.

The wedge groove 133 may be recessed from the surface exposed to the outside. For example, the wedge groove 133 may be recessed from the left or right side of the fastening body 131.

The pressing member 91 may pass through the bus bar body 111. For example, the pressing member 91 may be screwed into the fastening hole 118 penetrating the bus bar body 111. At least a portion of the pressing member 91 may protrude to the cell tab receiving portion 112 to press the fastening terminal 13 downward. For example, when the pressing member 91 is screwed into the fastening hole 118 and rotates in one direction, the pressing member 91 may move downward and press the fastening terminal 13 downward. . On the other hand, when the pressing member 91 is screwed into the fastening hole 118 and rotates in the opposite direction, the pressing member 91 may move upward to release the close contact state of the cell tab T. . The lower end of the pressing member 91 may be inserted into the receiving groove 132 of the fastening terminal 13. The pressing member 91 may include a pressing body 911 and a pressing head 912.

The pressing body 911 may be screwed to the fastening hole body 1181.

The pressing head 912 is connected to the upper end of the pressing body 911 and may have a larger diameter than the pressing body 911. The pressure head 912 may be accommodated in the fastening hole head 1182. The lower surface of the pressure head 912 may contact the bus bar body 111. The pressing head 912 may limit the length of the pressing member 91 protruding to the cell tab receiving portion 112 by contacting the upper surface of the bus bar body 111. Contact between the busbar body 111 and the pressure head 912 prevents excessive force from being applied to the fastening terminal 13. The pressing head 912 may include a jig accommodating groove 912a for accommodating the jig.

The coupling member 92 may couple the bus bar 11 and the cover 12.

Hereinafter, a method of fixing the cell tab T to the cell tap cooling device 1 and cooling the cell tab T will be described.

First, the user may rotate the pressing member 91 in one direction to move the pressing member 91 upward. In this case, since the external force applied to the fastening terminal 13 disappears, and the size of the cell tab receiving part 112 is larger than the size of the fastening terminal 13, the fastening terminal 13 may be in a state in which movement is possible. .

Next, the user can place the cell tab cooling device 1 above the plurality of cell tabs T, and insert the cell tab T into the space between the fastening terminal 13 and the bus bar 11. have. Since there is a gap between the upper surface of the fastening terminal 13 and the lower end of the pressing member 91, the cell tab T can be easily inserted between the fastening terminal 13 and the bus bar 11. For example, two cell tabs T disposed opposite to each other around the fastening terminal 13 may be accommodated in the cell tab receiving portion 112.

Next, the user can move the pressing member 91 downward by rotating the pressing member 91 in the opposite direction. In this case, the fastening terminal 13 may press the cell tab T to bring the cell tab T into close contact with the bus bar 11.

6 is a cross-sectional view of a fastening terminal according to an embodiment.

Referring to FIG. 6, the fastening terminal 13 may include a fastening body 131, a receiving groove 132, and a wedge groove 133.

The wedge groove 133 may be recessed in the left or right side of the fastening body 131. The wedge groove 133 may accommodate a wedge (not shown). The user can easily separate the fastening terminal 13 fixed to the cell tab T by placing the wedge on the wedge groove 133 and applying an impact to the wedge.

7 is a partially enlarged cross-sectional view of a cell tap cooling device according to an exemplary embodiment.

Referring to FIG. 7, a bus bar 21 according to an embodiment may include a bus bar body 211, a support groove 217, and a fastening hole 218.

The bus bar body 211 may include a lower body 211a and an upper body 211b. At least one of the lower body 211a and the upper body 211b may form a step, and the lower body 211a and the upper body 211b may be bonded to each other to form the support groove 217.

The pressing member 91 ′ may be rotatably connected to the bus bar body 211. The pressing member 91 ′ can be screwed to the fastening terminal 23 ′. The pressing member 91 ′ includes a pressing head 912 ′ provided in the fastening hole 218 and a pressing rim part 913 ′ formed to protrude radially from the pressing head 912 ′ and inserted into the support groove 217 And, it may include a pressing body 911 ′ protruding downward from the pressing head 912 ′ and screwed to the fastening terminal 23 ′.

As described above, although the embodiments have been described by the limited drawings, various modifications and variations are possible from the above description to those of ordinary skill in the art. For example, the described techniques are performed in a different order from the described method, and/or components such as the described structure, device, etc. are combined or combined in a form different from the described method, or in other components or equivalents. Even if substituted or substituted by, appropriate results can be achieved.

Claims (16)

In the cell tap cooling device for fixing and cooling the cell tab,
A bus bar including a bus bar body and a cell tab receiving portion formed under the bus bar body and accommodating at least a portion of the cell tab;
A fastening terminal provided in the cell tab receiving portion; And
And a pressing member penetrating the bus bar body and protruding at least a portion of the cell tab receiving portion to press the fastening terminal downward,
The cell tab cooling device is pressed by the fastening terminal so that one surface contacts the busbar body and the other surface contacts the fastening terminal.
The method of claim 1,
A cell tap cooling device that has a shape in which the width of the cell tab accommodating portion becomes narrower downward, and prevents supporting the fastening terminal.
The method of claim 2,
The cell tap cooling apparatus having a shape in which a width of the fastening terminal decreases downward.
The method of claim 2,
The cell tab receiving portion is a cell tap cooling device capable of accommodating two cell tabs disposed opposite to each other around the fastening terminal.
The method of claim 1,
The pressing member is a cell tab cooling device that can be screwed to the bus bar.
The method of claim 1,
It is disposed above the bus bar, further comprising a cover formed of an insulating material,
The bus bar includes a flow path lower portion recessed in the upper surface of the bus bar body,
The cover is a cell tap cooling apparatus comprising a flow path upper portion connected to the lower portion of the flow path to form a flow path.
The method of claim 6,
The bus bar includes a fastening hole for supporting the pressing member,
The cover is a cell tap cooling device including a jig guide in communication with the fastening hole.
The method of claim 7,
The pressing member,
A pressing body screwed into the fastening hole; And
A cell tap cooling apparatus comprising a pressure head connected to an upper end of the pressure body and having a larger diameter than the pressure body.
The method of claim 8,
A cell tap cooling device that has a lower surface of the pressing head in contact with the bus bar body to limit a length of the pressing member protruding from the cell tab receiving portion.
The method of claim 7,
The bus bar has a coupling groove,
The cover is a cell tap cooling apparatus having a coupling hole communicating with the coupling groove.
The method of claim 10,
The cell tap cooling device wherein the fastening hole and the coupling groove are arranged in parallel with the flow path.
The method of claim 11,
The pressing member is a cell tab cooling device passing through the rim of the bus bar body.
The method of claim 1,
The pressing member penetrates the bus bar body in a first direction,
The fastening terminal includes a fastening body slidable along the cell tab receiving portion in a second direction crossing the first direction.
The method of claim 13,
The fastening terminal further comprises a receiving groove recessed in the upper surface of the fastening body and accommodating at least a portion of the pressing member.
The method of claim 13,
The fastening terminal further comprises a wedge groove recessed in the left or right side of the fastening body.
The method of claim 1,
The pressing member is rotatably connected to the bus bar body, and the cell tap cooling device is screwable to the fastening terminal.

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