KR102551738B1 - Sensing module assembly and battery module assembly comprising thereof - Google Patents

Abstract

Sensing module assembly according to an embodiment includes a first sensing module and a second sensing module fastenable to both sides of a battery housing, a plurality of connecting means for connecting the first sensing module and the second sensing module, and the plurality of connections. It may include a connection housing for aligning means.

Description

Sensing module assembly and battery module assembly including the same {SENSING MODULE ASSEMBLY AND BATTERY MODULE ASSEMBLY COMPRISING THEREOF}

The description below relates to a sensing module assembly and a battery module assembly including the same.

Batteries can be divided into primary batteries, which are used once and discarded, and secondary batteries, which can be recharged and reused.

Due to its advantages, secondary batteries are applied to various technical fields throughout the industry, and are widely used as energy sources for electronic devices, as well as solving air pollution from conventional gasoline and diesel internal combustion engines using fossil fuels. As a way to achieve this, it is attracting attention as an energy source such as hybrid electric vehicles.

As the secondary battery, a nickel metal hydride (Ni-MH) battery is mainly used, and recently, a lithium ion battery has also been attempted. In order to satisfy high output and large capacity, a secondary battery pack having a large capacity is used by connecting small unit cells (hereinafter referred to as 'battery cells') in series or parallel. In the secondary battery battery pack, battery cells may be stacked at a high density, and prismatic or pouch-type batteries are used to increase space utilization.

For example, Korean Patent Publication No. 2014-0074411 discloses a battery sub-pack capable of assembling battery modules regardless of tolerances generated when battery modules are stacked.

A conventional battery package includes a plurality of batteries and a plurality of sensing wires respectively sensing states of the plurality of batteries. A plurality of these sensing wires were gathered in the center and taped. In this taping process, since the load applied to each sensing wire is different from each other, in particular, excessive load is applied to the outermost sensing wire, resulting in disconnection.

An object according to an embodiment is to provide a sensing module assembly that is convenient to assemble, prevents disconnection of a sensing wire, and has high stability, and a battery module assembly including the same.

The object according to one embodiment as described above is achieved by providing a sensing module assembly and a battery module assembly including the same as follows.

A sensing module assembly according to an embodiment includes a first sensing module and a second sensing module fastenable to both sides of a battery housing, a connecting means connected to a plurality of sensing terminals formed on the first sensing module and the second sensing module, and A connection housing for aligning the plurality of connection means may be included.

In one aspect, the connection housing may prevent mutual contact between the connection means by disposing the plurality of connection means apart from each other.

In one aspect, the connection housing may include a plurality of separated accommodating spaces, and the plurality of connection means may be disposed in the plurality of accommodating spaces, respectively.

In one side, the connecting means may extend perpendicular to a direction in which the first sensing module and the second sensing module are fastened to the battery housing.

In one side, the connecting means may be located on the lower surfaces of the first sensing module and the second sensing module when the surface on which the first sensing module and the second sensing module are fastened to the battery housing is the front. there is.

In one side, at least one of the first sensing module and the second sensing module may be connected to the connection housing in a hinged manner.

In one aspect, the sensing module may include an angle limiting member that limits a rotation angle of the sensing module.

In one side, a fastening protrusion is formed on the connection housing, and a fastening groove is formed on the angle limiting member, and the fastening protrusion and the fastening groove are fastened at a position where the sensing module and the connecting housing rotate, so that the sensing module can be fixed.

In one side, it may further include a connector for transmitting signals sensed by the plurality of connecting means to the outside.

In one side, the connector may be disposed on one side of any one of the first sensing module and the second sensing module.

In one side, at least one of the first sensing module and the second sensing module includes a sensing module housing and a connecting means provided on one side of the sensing module housing to connect the sensing terminal and the connecting means. can do.

In one side, the connection means includes a plurality of connection means having different lengths, and the sensing terminal located on the upper portion of the sensing module housing is connected to the connection means extending from the outside of the terminal housing, The sensing terminal positioned below the sensing module housing may be connected to the connecting means extending from the inside of the terminal housing.

In one side, the sensing module may include a fixing protrusion protruding from an inner surface of the module housing to fix the connecting means.

A battery module assembly according to an embodiment includes a battery module including a battery housing forming a space in which battery cells are stacked, a first sensing module, a second sensing module, the first sensing module, and the second sensing module. It may include a sensing module assembly including a plurality of connection means for connection, a connection housing for aligning the plurality of connection means, and fastenable to the battery module.

In one side, the battery module may include a side slot into which the first sensing module or the second sensing module is inserted, and a bottom slot into which the connecting means is inserted.

According to the sensing module assembly and the battery module assembly including the sensing module assembly according to an embodiment, as the connection housing aligns the sensing wires, assembly is convenient and time required for the manufacturing process can be saved. In addition, by disposing the sensing wires at a distance from each other, it is possible to prevent the sensing wires from being twisted and disconnected, and a short circuit problem can be prevented.

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

1 is a perspective view of a sensing module assembly according to an embodiment.
Figure 2 is a perspective view showing the inside of the sensing module assembly according to an embodiment.
3 is a cross-sectional view illustrating a form in which a connection means is inserted into a connection housing according to an embodiment.
4 is a perspective view of a sensing module according to another embodiment.
5 is a perspective view of a state in which a battery module and a sensing module assembly are separated according to an embodiment.
6 is a perspective view of a state in which a battery module and a sensing module are coupled according to an embodiment.

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

In addition, in describing the components 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 corresponding component is not limited by the term. When an element is described as being “connected,” “coupled to,” or “connected” to another element, that element may be directly connected or connected to the other element, but there may be another element between the elements. It should be understood that may be "connected", "coupled" or "connected".

1 is a perspective view of a sensing module assembly according to an embodiment, and FIG. 2 is a perspective view illustrating an inside of the sensing module assembly according to an embodiment.

Referring to FIGS. 1 and 2 , a sensing module assembly 1 according to an embodiment may include a sensing module 110 , a plurality of connecting means 120 , and a connecting housing 130 .

The sensing module 110 may include a first sensing module 110a and a second sensing module 110b. The first sensing module 110a and the second sensing module 110b may be fastened to both sides of the battery housing (not shown), respectively.

The sensing module 110 constitutes a side surface of the module assembly 1, and the first sensing module 110a and the second sensing module 110b may be configured to be symmetrical to each other.

Therefore, unless otherwise specified, the description of the first sensing module 110a may be applied to the second sensing module 110b, and conversely, the description of the second sensing module 110b may be applied to the first sensing module 110a. can be applied to

For example, FIG. 2 shows a form in which one surface of the first sensing module 110a is removed and a form in which one surface of the second sensing module 110b is removed. The removed side of the first sensing module 110a may have the shape of the second sensing module 110b shown in FIG. 2, and the removed side of the second sensing module 110b may have the shape of the second sensing module 110b shown in FIG. 1 may include the shape of the sensing module 110a.

The sensing module 110 may include sensing module housings 111a and 111b constituting a body and sensing terminals 140a and 140b connected to one side of the sensing module housings 111a and 111b.

The connecting unit 120 may be connected to the plurality of sensing terminals 140a and 140b. The connection unit 120 may be directly connected to the sensing terminal or indirectly connected through a connector, wire, or pattern.

The connection unit 120 may be a sensing wire or a pattern formed on a substrate.

When the connection unit 120 is a pattern, the pattern may be formed on the flexible substrate. In this case, the connecting means (150a, 150b) to be described later may be integrally formed with the connecting means (120). That is, it may be one pattern formed on a single flexible substrate.

Alternatively, the connection means (150a, 150b) and the connection means 120 are formed on each substrate, and the boards may be connected by fastening means such as connection terminals (not shown). Hereinafter, in this embodiment, for convenience of description, the connecting means 120 will be described based on the wire form.

The connection unit 120 may extend perpendicular to a direction in which the first sensing module 110a and the second sensing module 110b are fastened to the battery housing.

For example, the connecting means 120 may extend from one side of the first sensing module 110a where the sensing terminal 140a is not formed to one side of the corresponding second sensing module 110b. .

However, the angle formed by the connecting means 120 and the direction is not limited thereto. For example, the connection unit 120 may extend at an acute angle with the direction.

Alternatively, the connecting means 120 may be located on the lower surfaces of the sensing modules 110a and 110b when the surface to which the sensing module assembly 1 is fastened to the battery housing faces the front.

The connection units 150a and 150b may include a first connection unit 150a positioned within the first sensing module 110a and a second connection unit 150b located within the second sensing module 110b.

The connection unit 150a or 150b may transmit signals detected by the sensing terminals 140a or 140b. The connection units 150a and 150b may include wires or patterns printed on a board.

For example, the connecting means 150a and 150b may be printed on a flexible board. In this case, the substrate on which the connecting means 150a and 150b are formed and the substrate on which the connecting means 120 are printed may be integrally formed.

Alternatively, the connection means 150a and 150b may be formed on each board, and each board and the board on which the connection means are printed may be connected by fastening means such as connection terminals. Hereinafter, in the present embodiment, for convenience of description, the connecting means 150a and 150b will be described based on the wire form.

One side of the first connection unit 150a may be connected to the first sensing terminal 140a, and the other side may be connected to a connector 160 to be described later. Specifically, the first connection unit 150a may extend from the first sensing terminal 140a, be bent and extended within the first sensing module 110a, and then connected to the connector 160.

One side of the second connection unit 150b may be connected to the second sensing terminal 140b and the other side may be connected to the connection unit 120 . Specifically, the second connection unit 150b extends from the second sensing terminal 140b, is bent and extended within the second sensing sensing module 110b, and then bent again at the end of the second sensing module 110b. It can be connected to the connecting means 120.

The second connection unit 150b may be configured separately from the connection unit 120, or the second connection unit 150b and the connection unit 120 may be integrally configured. For example, the second connection means 150b and the connection means 120 may be composed of a single sensing wire.

The second connection unit 150b may include a plurality of connection units 151b and 152b having different lengths.

For example, the relatively long connection unit 151b may be connected to the sensing terminal 141b located on the upper portion of the sensing module housing 111b and may extend from the outside of the sensing module housing 111b.

Also, the relatively short connecting means 152b may be connected to the sensing terminal 142b positioned below the sensing module housing 111b and may extend inside the sensing module housing 111b.

The first connection unit 150a may have a similar configuration to that of the second connection unit 150b.

The fixing protrusion 112a may protrude from an inner surface of the sensing module housing 111a. The fixing protrusion 112a may fix the connection means 150a within the sensing module housing 111a. For example, the plurality of fixing protrusions 112a may form an insertion space, and the connection means 150a may be inserted into the insertion space and the connection means 150a may be fixed.

The connection housing 130 may accommodate the plurality of connection means 120 and connect the first sensing module 110a and the second sensing module 110b.

The connection housing 130 may constitute one surface of the sensing module assembly 1 .

The connection housing 130 may be formed perpendicular to the first sensing module 110a and the second sensing module 110b.

For example, the connection housing 130 may connect one side of the first sensing module 110a on which the sensing terminal 140 is not formed and one side of the second sensing module 110b corresponding thereto.

However, the angle formed by the connection housing 130 and the sensing modules 110a and 110b is not limited thereto. For example, the connection housing 130 may form an acute angle with the sensing modules 110a and 110b.

Alternatively, when the surface of the sensing module assembly 1 coupled to the battery housing (not shown) is the front, the connection housing 130 may constitute the lower surface of the sensing module assembly 1 . The structure of the connection housing 130 will be described in detail below.

The connector 160 may transmit signals detected by the sensing terminals 140a and 140b to the outside. The connector 160 may be disposed on one side of the first sensing module 110a or the second sensing module 110b.

For example, a signal sensed by the first sensing terminal 112a may be transferred to the connector 160 through the first connection means 150a. Also, the signal sensed by the second sensing terminal 112b may be transferred to the connector 160 through the first connection means 150b and the connection means 120 .

However, the position of the connector 160 is not limited thereto, and the connector 160 may be formed on one side of the connection housing 130 . In this case, both the signal detected by the first sensing terminal 112a and the signal detected by the second sensing terminal 112b may be transmitted to the connector 160 through the connecting means 120 .

The connector 170 may connect the connector 160 and the sensing module. The connection pipe 170 may prevent the connection means from being exposed to the outside.

3 is a cross-sectional view illustrating a form in which a connection means is inserted into a connection housing according to an embodiment.

Referring to FIG. 3 , the connection housing 130 may align a plurality of connection means 120 . In addition, the connection housing 130 may prevent mutual contact between the connection means 120 by disposing the plurality of connection means 120 apart from each other.

Specifically, the connection housing 130 may include a plurality of separated accommodating spaces 133 . Each of the plurality of connection means 120 may be disposed in the plurality of accommodation spaces 133 and spaced apart from each other.

The accommodation space 133 may be formed by the base plate 132 and the cover plate 131 covering the base plate 132 . A plurality of protrusions 134 may be formed on the base plate 132 , and an accommodation space 133 may be formed in a space between the protrusions 134 . The protrusion 134 may separate the connecting means 120 to prevent contact between the connecting means 120 and prevent the connecting means 120 from being shorted.

4 is a perspective view of a sensing module according to another embodiment. Hereinafter, components included in the above embodiments and components having common functions will be described using the same names. Unless stated to the contrary, the description of the above embodiment can also be applied to the following embodiments. A detailed description thereof will be omitted below.

The first sensing module 210a or the second sensing module 210b may be hingedly connected to the connection housing 230 through the fastening parts 280a and 280b.

The sensing modules 210a and 210b may include angle limiting members 213a and 213b that limit rotation angles of the sensing modules 210a and 210b. The angle limiting members 213a and 213b may be integrally formed with the sensing modules 210a and 210b, or separately formed angle limiting members 213a and 213b may be attached to the sensing modules 210a and 210b. However, rotation angles of the sensing modules 210a and 210b due to the angle limiting members 213a and 213b are not limited.

In addition, fastening protrusions 235a and 235b may be formed on one side of the connection housing 230 and fastening grooves 214a and 214b may be formed on one side of the angle limiting members 213a and 213b. For example, the fastening protrusions 235a and 235b and the fastening grooves 214a and 214b are fastened while the sensing modules 210a and 210b are rotated with respect to the connection housing 230, so that the sensing modules 210a and 210b position can be fixed.

By adopting this structure, it is possible to assemble connection means and connection means in a state where the connection housing 230 and the sensing modules 210a and 210b are unfolded, so that the sensing module assembly 2 can provide convenience in product assembly. .

When the assembly is completed, the sensing modules 210a and 210b are rotated, and in that state, the sensing module assembly 2 may be coupled to a battery housing (not shown).

The cover plate 231 and the base plate 232 of the connection housing 230 may be fastened in a hook structure. For example, a hook protrusion 213a may be formed on one side of the cover plate 231 , and the hook protrusion 213a may be engaged with a hook 232a formed on the base plate 232 .

5 is a perspective view of a state in which a battery module and a sensing module assembly are separated according to an embodiment, and FIG. 6 is a perspective view of a state in which a battery module and a sensing module are coupled according to an embodiment.

Referring to FIGS. 5 and 6 , the battery module assembly 4 may include a battery module 3 and a sensing module assembly 1 engageable to the battery module 3 .

The battery module 3 may include a battery housing 310 forming a space in which battery cells are stacked. The battery cells may be disposed inside the battery housing 310 in a stacked form, for example, in a vertical direction.

A slot 320 into which the sensing module assembly 1 is inserted may be formed in the battery module 3 . The slot 320 may include side slots 321a and 321b into which the sensing module 110 is inserted and a lower slot 322 into which the connection housing 130 is inserted. In particular, the lower slot 322 vertically supports the connection housing 130 to fix the position of the connection housing 130, thereby preventing damage to connection means such as sensing wires.

The sensing module assembly 1 is inserted into the slot 320 and fastened to the battery module 3, and may transmit power of the battery cell to the outside. Power of the battery cell may be transferred to the outside through the sensing module 110 and the connector 160 .

The battery module 3 may include a fixing member (not shown) for fixing the sensing module assembly 1 . For example, the fixing member is fastened to the sensing module assembly 1 in a state in which the sensing module assembly 1 is inserted into the battery module 3, so that the sensing module assembly 1 is arbitrarily separated from the battery module 3. can prevent

According to the sensing module assemblies 1 and 2 and the battery module assembly 4 described above, as the connection housing aligns the sensor wires, the assembly is convenient and the time required for the manufacturing process can be reduced, and the connection means are spaced apart. By doing so, it is possible to prevent the connecting means from being twisted and disconnected, and a short circuit problem can be prevented.

As described above, although the embodiments have been described with limited examples and drawings, those skilled in the art can make various modifications and variations from the above description. For example, the described techniques may be performed in an order different from the method described, and/or components of the described system, structure, device, circuit, etc. may be combined or combined in a different form than the method described, or other components may be used. Or even if it is replaced or substituted by equivalents, appropriate results can be achieved.

Therefore, other implementations, other embodiments, and equivalents of the claims are within the scope of the following claims.

1, 2 sensing module assembly
110 sensing module
120 connection means
130 connection housing
140a, 140b sensing terminal
150a, 150b connection means
160 connector
170 connector

Claims (15)

a first sensing module and a second sensing module respectively fastenable to both sides of the battery housing and each including a sensing module housing and a sensing terminal;
a plurality of connecting means connected to a plurality of sensing terminals formed in the first sensing module and the second sensing module; and
a connection housing for connecting the sensing module housings of each of the first sensing module and the second sensing module and aligning the plurality of connection means;
The connection housing includes a base plate including a plurality of protrusions forming a plurality of accommodating spaces in which the plurality of connection means are spaced apart, and a cover plate covering the base plate,
A sensing module assembly in which two adjacent connecting means among the plurality of connecting means are separated from each other by the protrusion to prevent contact with each other.
delete delete According to claim 1,
The connecting means is a sensing module assembly extending perpendicular to a direction in which the first sensing module and the second sensing module are fastened to the battery housing.
According to claim 4,
The connecting means is located on the lower surface of the first sensing module and the second sensing module when the first sensing module and the second sensing module are fastened to the battery housing as a front surface.
According to claim 1,
A sensing module assembly wherein at least one of the first sensing module and the second sensing module is connected to the connection housing in a hinged manner.
According to claim 6,
The sensing module assembly includes an angle limiting member for limiting a rotation angle of the sensing module.
According to claim 7,
A fastening protrusion is formed on the connection housing,
A fastening groove is formed in the angle limiting member,
The fastening protrusion and the fastening groove are fastened at a position where the sensing module and the connection housing are rotated to fix the sensing module.
According to claim 1,
Sensing module assembly further comprising a connector for transmitting the signals sensed by the plurality of connection means to the outside.
According to claim 9,
Wherein the connector is disposed on one side of one sensing module of the first sensing module and the second sensing module.
According to claim 1,
Any one or more sensing modules of the first sensing module and the second sensing module,
a sensing module housing; and
A sensing module assembly including a connecting means provided on one side of the sensing module housing to connect the sensing terminal and the connecting means.
According to claim 11,
The connecting means includes a plurality of connecting means having different lengths from each other,
The sensing terminal located on the upper part of the sensing module housing is connected to the connecting means extending from the outside of the sensing module housing,
The sensing module assembly of claim 1 , wherein the sensing terminal positioned at the lower portion of the sensing module housing is connected to the connecting means extending from the inside of the sensing module housing.
According to claim 11,
The sensing module assembly includes a fixing protrusion protruding from an inner surface of the sensing module housing to fix the connecting means.
a battery module including a battery housing forming a space in which battery cells are stacked; and
A first sensing module and a second sensing module including a sensing module housing and a sensing terminal, respectively, a plurality of connecting means connecting the first sensing module and the second sensing module, and the first sensing module and the second sensing module. A sensing module assembly including a connection housing connecting the sensing module housing of each module and aligning the plurality of connection means, and fastening to the battery module;
The connection housing includes a base plate including a plurality of protrusions forming a plurality of accommodating spaces in which the plurality of connection means are spaced apart, and a cover plate covering the base plate,
A battery module assembly in which two adjacent connecting means among the plurality of connecting means are spaced apart by the protruding portion to prevent contact with each other.
According to claim 14,
The battery module,
a side slot into which the first sensing module or the second sensing module is inserted; and,
Battery module assembly further comprising a slot when the connection housing is inserted.

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