KR20200098804A - Battery set assembly - Google Patents

Abstract

The present invention provides a battery set assembly having a structure for good protection of a battery management unit (BMU). The battery set assembly includes a frame, a plurality of batteries, the BMU, and a BMU cover. The frame has a bottom wall and a first side wall connected to the bottom wall, and includes a first fixing set formed on the first side wall and including a first locking portion and a stopping portion adjacent to the first locking portion. The plurality of batteries are placed on the bottom wall of the frame. The BMU is disposed on the bottom wall of the frame and is close to the first side wall, and the stopping portion is located above the BMU so that the BMU is restricted between the bottom wall and the stopping portion in an assembly direction. The BMU electrically connected to the battery. The BMU cover is disposed on the frame and covers the BMU, and the BMU cover includes a second locking portion fixed to the first locking portion.

Description

Battery set assembly {BATTERY SET ASSEMBLY}

The present invention relates to a battery set assembly, and more particularly, to a battery set assembly capable of better protecting a battery management unit.

A battery management unit (BMU) is usually placed in the battery set assembly to manage the battery. The battery management unit has a function of measuring the battery voltage in general to prevent or avoid the occurrence of abnormal situations such as over-discharge, over-charge, and over-heating of the battery. How to protect the battery management unit in the battery set assembly is a subject to be addressed in the art.

The present invention provides a battery set assembly having a structure for good protection of a battery management unit.

The battery set assembly of the present invention includes a frame, a plurality of batteries, a battery management unit, and a battery management unit cover. The frame has a bottom wall and a first side wall connected to the bottom wall, and includes a first fixing assembly formed on the first side wall. The first fixing assembly includes a first engaging portion and a stopping portion adjacent to the first engaging portion. The battery is placed on the bottom wall of the frame. The battery management unit is disposed on the bottom wall of the frame and adjacent to the first side wall, and the stopping part is located above the battery management unit so that the battery management unit is limited between the bottom wall and the stopping part in the assembly direction. The battery management unit is electrically connected to the battery. The battery management unit cover is disposed on the frame and covers the battery management unit, and the battery management unit cover includes a second locking portion fixed to the first locking portion.

The first fixing assembly further includes a U-shaped wall structure, the first locking part and the stopping part are formed on the U-shaped wall structure, and both ends of the U-shaped wall structure are connected to the first side wall, and the An insertion space is formed between the first sidewall, and the battery management unit cover includes a cover part and an insertion part bent and connected to the cover, the second locking part is located in the insertion part, and the insertion part is inserted Enters the space.

The first locking part includes a locking hole, the second locking part includes a locking hook, the locking hole communicates with the insertion space, and the stopping part approaches the locking hole.

The bottom wall has a supporting rib connected to the U-shaped wall structure, and a lower surface of the battery management unit is supported by the supporting rib of the bottom wall.

The stopping part has an inclined surface at a portion away from the floor wall.

The stopping portion has a hollow portion at a portion away from the bottom wall.

The frame further includes a second fixing assembly, wherein the second fixing assembly includes a U-shaped wall structure and a third locking portion formed on the U-shaped wall structure, and the battery management unit cover is disposed on the third locking portion. It includes a fourth locking portion to be fixed.

The second fixing assembly is formed on the first sidewall, both ends of the U-shaped wall structure are connected to the first sidewall to form an insertion space between the first sidewall, and the third locking portion is inserted into the Includes a locking hole communicating with the space.

The frame further includes a second sidewall connected to the bottom wall and the first sidewall, and the second fixing assembly is formed on the second sidewall, and both ends of the U-shaped wall structure are connected to the second sidewall. Is formed to form an insertion space between the second sidewall, and the third locking portion includes a locking hole communicating with the insertion space.

In an embodiment of the present invention, the frame further includes a second sidewall and a third sidewall connected to the bottom wall and the first sidewall, respectively, the third sidewall facing the second sidewall, and the second sidewall 2 The fixing assembly is formed on the third sidewall, both ends of the U-shaped wall structure are connected to the third sidewall to form an insertion space between the third sidewall, and the third locking portion is in the insertion space. Includes a connecting hole that communicates.

In the battery set assembly of the present invention, the battery management unit is disposed between the bottom wall of the frame and the battery management unit cover, and the second locking portion of the battery management unit cover is fixed to the first locking portion of the first fixing assembly of the frame. The stopping part of the first fixing assembly is located above the battery management unit so that the battery management unit is limited between the bottom wall and the stopping part in the assembly direction. Thereby, the battery management unit is stably fixed and well protected between the frame and the battery management unit cover. In addition, in the battery set assembly of the present invention, the second locking portion and the first locking portion fixed and the stopping portion for limiting the position of the battery management unit are integrated into the first fixing assembly to reduce the number and complexity of molds. It can simplify the process.

1 is a schematic diagram of a battery set assembly according to an embodiment of the present invention.
2 is an exploded schematic diagram of the battery set assembly of FIG. 1.
Fig. 3 is a schematic diagram from another perspective of Fig. 2;
FIG. 4 is a schematic cross-sectional view taken along line AA by moving the battery management unit cover of the battery set assembly of FIG. 1 upward.
FIG. 5 is a partially enlarged schematic diagram of FIG. 4.
6 is a schematic cross-sectional view taken along line AA of FIG. 1.
7 is a partially enlarged schematic diagram of FIG. 6.

In order to make the above features and advantages of the present invention more clear and easy to understand, specific examples are hereinafter described and described in detail as follows in conjunction with the accompanying drawings.

1 is a schematic diagram of a battery set assembly according to an embodiment of the present invention. The battery set assembly 100 of FIG. 1 omits the adhesive layer coated on the outermost surface, so that the internal components can be clearly observed. Referring to FIG. 1, the battery set assembly 100 of the present embodiment may be applied to, for example, a portable electronic device (not shown) such as a notebook computer or a mobile phone. Of course, the electronic device to which the battery set assembly 100 is applied is not limited thereto. In addition, although the battery set assembly 100 of the present embodiment is a prismatic battery set assembly, the type and shape of the battery set assembly 100 are not limited thereto. Hereinafter, a detailed structure of the battery set assembly 100 according to the present embodiment will be described.

2 is an exploded schematic diagram of the battery set assembly of FIG. 1. Fig. 3 is a schematic diagram from another perspective of Fig. 2; FIG. 4 is a schematic cross-sectional view taken along line A-A by moving the battery management unit cover of the battery set assembly of FIG. 1 upward. FIG. 5 is a partially enlarged schematic diagram of FIG. 4. 6 is a schematic cross-sectional view taken along line A-A of FIG. 1. 7 is a partially enlarged schematic diagram of FIG. 6. Referring to FIGS. 1 to 7, the battery set assembly 100 in this embodiment includes a frame 110, a plurality of batteries 130, a battery management unit 120, and a battery management unit cover 140.

2 and 3, in this embodiment, the frame 110 includes a first sidewall 1103, a second sidewall 1104, and a third sidewall connected to the bottom wall 1101 and the bottom wall 1101. It has (1105). The first sidewall 1103 connects the second sidewall 1104 and the third sidewall 1105, and the second sidewall 1104 and the third sidewall 1105 face each other.

The frame 110 includes a plurality of accommodation spaces 112 to accommodate the battery 130. The batteries 130 are disposed on the bottom wall 1101 of the frame 110. In this embodiment, the number of batteries 130 is three, but the number of batteries 130 of the battery set assembly 100 is not limited thereto.

Further, in this embodiment, the frame 110 includes at least one first fixing assembly 113 formed on the first sidewall 1103. The first fixing assembly 113 includes a first engaging portion 116 and a stopping portion 118 adjacent to the first engaging portion 116. The first fixing assembly 113 optionally includes a U-shaped wall structure 114, and the first locking portion 116 and the stopping portion 118 are formed on the U-shaped wall structure 114. Both ends of the U-shaped wall structure 114 are connected to the first side wall 1103 and form an insertion space 111 between the first side wall 1103 and the first side wall 1103.

Further, in this embodiment, the battery management unit 120 is disposed on the bottom wall 1101 of the frame 110 and adjacent to the first side wall 1103. As shown in FIG. 2, in this embodiment the bottom wall 1101 has at least one support rib 1102 connected to the U-shaped wall structure 114. The lower surface 124 of the battery management unit 120 is supported by the support rib 1102 of the bottom wall 1101. Of course, in another embodiment, the bottom wall 1101 does not have to have the support ribs 1102, and the battery management unit 120 may directly contact the bottom wall 1101 of the frame 110. In this embodiment, the battery management unit 120 is electrically connected to the batteries 130 and measures the voltage of the battery 130 to manage the battery 130.

In addition, as shown in FIG. 5, in the present embodiment, the stopping part 118 is located above the battery management unit 120 so that the battery management unit 120 is positioned at the bottom wall ( It is limited between 1101 and the stopping part 118. Specifically, in this embodiment, the stopping portion 118 has a position limiting surface 118b at a portion facing the bottom wall 1101, and the upper surface 122 (FIG. 2) of the battery management unit 120 is The battery management unit 120 is positioned below the position limiting surface 118b of the topping part 118 so that the position limiting surface 118b of the stopping part 118 prevents the battery management unit 120 from moving upward. It is limited between the support rib 1102 (FIG. 2) of the bottom wall 1101 and the position limiting surface 118b of the stopping part 118. Accordingly, the battery management unit 120 may be stably fixed in the battery set assembly 100.

In addition, in this embodiment, the stopping portion 118 has an inclined surface 118a at a portion away from the bottom wall 1101. When assembling the battery management unit 120 from the top to the bottom according to the assembly direction (D, FIG. 2), the battery management unit 120 includes a stopping part 118 along the inclined surface 118a of the stopping part 118 And push the U-shaped wall structure 114. In this process, the stopping part 118 and the U-shaped wall structure 114 are slightly deformed to correspond (the insertion space 110 is correspondingly smaller), so that the stopping part 118 becomes the first side wall 1103 The battery management unit 120 may smoothly pass through the stopping unit 118 by moving to the outside toward the side. After the battery management unit 120 passes through the stopping part 118, the stopping part 118 is returned without being pushed by an external force, and the position limiting surface 118b of the stopping part 118 is battery management. Limit the unit 120 to prevent upward movement. Of course, in other embodiments, the design of the inclined surface 118a may be omitted for the stopping part 118.

And, in this embodiment, the stopping part 118 further includes a hollow part 118c at a portion away from the floor wall 1101, and the hollow part 118c reduces the weight of the stopping part 118 It is advantageous. Therefore, when the stopping part 118 and the U-shaped wall structure 114 are pushed by the battery management unit 120, the stopping part 118 and the U-shaped wall structure 114 are more easily formed by the first side wall ( 1103) can be moved outward. Of course, in another embodiment, the stopping part 118 does not have to have a hollow part 118c.

As shown in FIG. 7, in this embodiment, the battery management unit cover 140 is disposed on the frame 110 along the assembly direction D (FIG. 2) to cover the battery management unit 120. The battery management unit cover 140 includes a second locking part 142. Specifically, in this embodiment, the first locking portion 116 includes a locking hole, the second locking portion 142 includes a locking hook, and the locking hole communicates with the insertion space 111 and the stopping portion 118 ) Is located close to the locking hole. Of course, in another embodiment, the first locking portion 116 may include a locking hook and the second locking portion 142 may include a locking hole.

In this embodiment, the battery management unit cover 140 includes a cover part 143 and an insertion part 141 bent and connected to the cover part 143. The second locking part 142 is located on the insertion part 141. When the battery management unit cover 140 is assembled to the frame 110, the insertion portion 141 is inserted into the insertion space 111 and the second locking portion 142 is fixed to the first locking portion 116.

The battery set assembly 110 of this embodiment fixes the battery management unit cover 140 to the frame 110 and positions the battery management unit 120 between the frame 110 and the battery management unit cover 140 to In addition to protecting the management unit 120, the battery management unit 120 is confined between the bottom wall 1101 and the stopping portion 118 in the assembly direction (D, Fig. 2). This makes it possible to be stably fixed in the battery set assembly 100. In addition, in the present embodiment, the first locking part 116 fixed to the second locking part 142 and the stopping part 118 for limiting the position of the battery management unit 120 are attached to the first fixing assembly 113. By integrating, the manufacturing process can be simplified by reducing the number and complexity of molds.

It should be noted that, as a result of the drop test, the second locking part 142 is still stably fixed to the first locking part 116 even after the battery set assembly 100 of the present embodiment falls, so battery management The unit 120 can be effectively protected.

Referring back to FIGS. 2 and 3, in the present embodiment, the frame 110 optionally further includes at least one second fixing assembly 150, 160, and 170. In the present embodiment, each of the second fixing assemblies 150, 160, 170 includes a U-shaped wall structure 154, 164, 174 and a third locking portion 152 formed in the U-shaped wall structure 154, 164, 174, 162, 172). In this embodiment, both ends of the U-shaped wall structures 154, 164, and 174 are connected to the first sidewall 1103, the second sidewall 1104, and the third sidewall 1105, respectively.

The battery management unit cover 140 includes at least one fourth locking portion 144, 146, 148. The fourth locking portions 144, 146, 148 are fixed to the corresponding third locking portions 152, 162, 172. In this embodiment, the third locking portions 152, 162, 172 include locking holes, and the fourth locking portions 144, 146, 148 include locking hooks, but in other embodiments, the third locking portions 152, 162, 172 includes a locking hook, the fourth locking portions 144, 146, 148 may include locking holes, and the third locking portions 152, 162, 172 and the fourth locking portions 144, 146 , 148) is not limited thereto.

Specifically, as shown in FIG. 3, in this embodiment, the second fixing assembly 150 is formed on the first sidewall 1103 and the second fixing assembly 160 is formed on the second sidewall 1104, and As shown in 2, the second fixing assembly 170 is formed on the third sidewall 1105. When the battery management unit cover 140 is assembled to the frame 110, the fourth locking part 144 is fixed to the corresponding third locking part 152, and the fourth locking part 146 is It is fixed to the locking portion 162, the fourth locking portion 148 is fixed to the corresponding third locking portion 172.

Therefore, in this embodiment, the battery management unit cover 140 is also selectively fixed to the first locking portion 116 on the first side wall 1103 of the frame 110 through the second locking portion 142 Third locking portions 152, 162, 172 on the first side wall 1103, the second side wall 1104, and the third side wall 1105 of the frame 110 through the fourth locking portions 144, 146, 148 By being fixed to the battery management unit cover 140 to be fixed to the frame 110 more stably.

It should be noted that in other embodiments, the second fixing assembly may be formed only on one or both of the first sidewall 1103, the second sidewall 1104, and the third sidewall 1105. Further, the first fixing assembly 113 may be formed on the second sidewall 1104 and the third sidewall 1105, and is not limited to the example shown in the drawings.

In summary, in the battery set assembly of the present invention, the battery management unit is disposed between the bottom wall of the frame and the battery management unit cover, and the second locking portion of the battery management unit cover is fixed to the first locking portion of the first fixing assembly of the frame. And the stopping part of the first fixing assembly of the frame is located above the battery management unit so that the battery management unit is limited between the bottom wall and the stopping part in the assembly direction. Thereby, the battery management unit is stably fixed and well protected between the frame and the battery management unit cover. In addition, in the battery set assembly of the present invention, the second locking portion and the first locking portion fixed and the stopping portion for limiting the position of the battery management unit are integrated into the first fixing assembly to reduce the number and complexity of molds, thereby reducing the manufacturing process. It can be simplified. As a result of performing the drop test of the battery set assembly of the present invention, the second locking portion is still stably fixed to the first locking portion, so that the battery management unit can be effectively protected.

The present invention has been disclosed through the examples as described above, but this is not intended to limit the present invention, and those skilled in the art can make various modifications and modifications without departing from the spirit of the present invention. The scope of protection will be determined by the claims appended below.

D：Assembly direction 100：Battery set assembly
110: Frame 1101: Floor wall
1102: support rib 1103: first side wall
1104: second side wall 1105: third side wall
111: insertion space 112: accommodation space
113： 1st fixing assembly 114, 154, 164, 174： U-shaped wall structure
116: first locking portion 118: stopping portion
118a: Inclined surface 118b: Position limiting surface
118c: hollow part 120: battery management unit
122: upper side 124: lower side
130: Battery 140: Battery management unit cover
141: insertion part 142: second locking part
143: cover portion 144, 146, 148: fourth locking portion
150, 160, 170: Second fixing assembly
152, 162, 172: 3rd locking part

Claims (10)

A frame including a first fixing assembly having a bottom wall and a first sidewall connected to the bottom wall, formed on the first sidewall, and including a first locking portion and a stopping portion adjacent to the first locking portion;
A plurality of batteries disposed on the bottom wall of the frame;
A battery disposed on the bottom wall of the frame and close to the first side wall, the stopping part is located on the upper side, and is limited between the bottom wall and the locking part in the assembly direction, and is electrically connected to the batteries Battery Management Unit (BMU); And
A battery management unit cover disposed on the frame along the assembly direction, covering the battery management unit, and including a second locking portion fixed to the first locking portion,
Battery set assembly comprising a. The method of claim 1, wherein the first fixing assembly further comprises a U-shaped wall structure, the first locking part and the stopping part are formed on the U-shaped wall structure, and both ends of the U-shaped wall structure 1 connected to the side wall to form an insertion space between the first side wall, the battery management unit cover includes a cover portion and an insertion portion bent and connected to the cover portion, and the second locking portion And the insertion portion is inserted into the insertion space. The method of claim 2, wherein the first locking part includes a locking hole, the second locking part includes a locking hook, the locking hole communicates with the insertion space, and the stopping part is adjacent to the locking hole. Battery set assembly. The battery set assembly according to claim 2, wherein the bottom wall has a support rib connected to the U-shaped wall structure, and a lower surface of the battery management unit is supported by the support rib of the bottom wall. The battery set assembly of claim 1, wherein the stopping part has an inclined surface at a portion away from the bottom wall. The battery set assembly according to claim 1, wherein the stopping part has a hollow part at a portion away from the bottom wall. According to claim 1, wherein the frame further comprises a second fixing assembly, the second fixing assembly comprises a U-shaped wall structure and a third locking portion formed on the U-shaped wall structure, the battery management unit cover And a fourth locking part fixed to the third locking part. The method of claim 7, wherein the second fixing assembly is formed on the first sidewall, and both ends of the U-shaped wall structure are connected to the first sidewall to form an insertion space between the first sidewall, and the A battery set assembly, characterized in that the third locking part includes a locking hole communicating with the insertion space. The method of claim 7, wherein the frame further comprises a second side wall connected to the bottom wall and the first side wall, the second fixing assembly is formed on the second side wall, both ends of the U-shaped wall structure And a locking hole connected to the second sidewall to form an insertion space between the second sidewall, and the third locking part includes a locking hole communicating with the insertion space. The method of claim 7, wherein the frame further comprises a second sidewall and a third sidewall respectively connected to the bottom wall and the first sidewall, the third sidewall facing the second sidewall, and the second fixing The assembly is formed on the third sidewall, and both ends of the U-shaped wall structure are connected to the third sidewall to form an insertion space between the third sidewall, and the third locking portion communicates with the insertion space. Battery set assembly comprising a locking hole.

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