JP2019046611A - Battery device - Google Patents

Abstract

To simplify an assembly work, in a battery device that comprises a plurality of battery cells and a circuit board connected with these battery cells.SOLUTION: A battery device comprises: a plurality of battery cells 2; a circuit board electrically connected with the battery cells 2; and a connection terminal 3 for connecting between the battery cells 2 and the circuit board. The connection terminal 3 has a press-in part 3b2 pressed in and fixed to the circuit board.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a battery device.

  For example, as shown in Patent Document 1, a battery device mounted on a vehicle includes a plurality of battery cells, and a circuit board on which a voltage detection circuit or the like for detecting the voltage of the battery cells is formed. Conventionally, the plurality of battery cells and the circuit board are fixed by soldering or screwing.

JP, 2010-56035, A

  However, at present, in order to realize the battery capacity required for the vehicle, it is necessary to mount a large number of battery cells. For this reason, when connecting all the battery cells and the circuit board by soldering or screwing, the assembly operation of the battery device becomes complicated.

  The present invention has been made in view of the above-described problems, and an object thereof is to simplify assembly work in a battery device provided with a plurality of battery cells and a circuit board connected to the battery cells. .

  The present invention adopts the following configuration as means for solving the above-mentioned problems.

  A first invention is a battery device provided with a plurality of battery cells, a circuit board electrically connected to the battery cells, and a connection terminal for connecting the battery cells and the circuit substrate, The terminal adopts a configuration having a press-fit portion which is press-fitted and fixed to the circuit board.

  According to a second aspect of the present invention, in the first aspect, the connection terminal is provided at a base portion with a root portion fixed to the battery cell, and at a midway portion of the base portion. A configuration is adopted that includes a flexible portion that is displaceable with respect to the root portion, a shaft that is provided upright at the tip of the base, and the press-fit that is provided in the middle of the shaft.

  In a third invention according to the second invention, the flexible portion is shaped in a bridge shape projecting in a direction from the base portion toward the circuit board, and viewed from a direction along the shaft portion, A configuration is adopted in which the flexible portion is disposed at a position avoiding the circuit board.

  According to a fourth aspect of the present invention, in the second or third aspect, the base portion and the flexible portion, and the shaft portion and the press-fit portion are formed of different metal materials.

  According to a fifth invention, in the invention according to any one of the second to fourth inventions, the press-fit portion bulges radially outward of the shaft portion from the shaft portion, and a direction along the shaft portion on an outer wall surface Adopt a configuration having a flat portion parallel to

  According to the present invention, the connection terminal for connecting the battery cell and the circuit board has the press-fit portion which is press-fitted and fixed to the circuit board. Therefore, the battery cell and the circuit board can be electrically connected without soldering or screwing the connection terminal and the circuit board. For this reason, according to the present invention, it is not necessary to perform operations of soldering and screwing in order to electrically connect the battery cells and the circuit board. Therefore, according to the present invention, in a battery device provided with a plurality of battery cells and a circuit board connected to the battery cells, it is possible to simplify the assembly operation.

It is an exploded perspective view showing a schematic structure of a battery device in a 1st embodiment of the present invention. It is an expanded sectional view including a connection terminal with which a battery device in a 1st embodiment of the present invention is provided. It is a disassembled sectional view of a connecting terminal with which a battery device in a 1st embodiment of the present invention is provided. It is an expanded sectional view of the pin part of the connecting terminal with which the battery apparatus in 2nd Embodiment of this invention is provided.

  Hereinafter, an embodiment of a battery device according to the present invention will be described with reference to the drawings. In the following drawings, the scale of each member is appropriately changed in order to make each member a recognizable size.

First Embodiment
FIG. 1 is an exploded perspective view showing a schematic configuration of the battery device 1 of the first embodiment. The battery device 1 of the present embodiment is mounted on a vehicle and supplies electric power to a motor or the like under the control of an ECU (Engine Control Unit), and as shown in FIG. A substrate 20 is provided.

  The cell unit 10 includes a plurality of battery cells 2 and a plurality of connection terminals 3. In addition, in FIG. 1, the structure in which the cell unit 10 has the four battery cells 2 is shown. However, FIG. 1 is a simplified drawing for explanation. For this reason, the actual cell unit 10 further includes a large number of battery cells 2.

  The battery cell 2 is a secondary battery capable of storing electric power generated by a generator (not shown), and is made of, for example, a nickel-metal hydride storage battery or a lithium ion battery. As shown in FIG. 1, the battery cell 2 is formed in a flat, substantially rectangular parallelepiped shape, and is disposed so as to face the adjacent battery cells 2 with a certain gap between the front and back surfaces. That is, in the cell unit 10, the plurality of battery cells 2 are arranged so as to be opposed to each other with a certain gap therebetween.

  In addition, the installation attitude | position of the battery apparatus 1 of this embodiment is not specifically limited. However, in the following description, for convenience of explanation, as shown in FIG. 1, the side on which the connection terminal 3 is disposed with respect to the battery cell 2 is referred to as the upper side, and the opposite side is referred to as the lower side. Further, the longitudinal direction of the battery cell 2 orthogonal to the vertical direction is referred to as the lateral direction, and the short direction of the battery cell 2 orthogonal to the vertical direction is the longitudinal direction. That is, in the battery device 1 of the present embodiment, the plurality of battery cells 2 are arranged in the front-rear direction.

  Two output terminals 2 a are provided on the top surface of each battery cell 2. The connection terminal 3 is provided for each output terminal 2a. That is, in the present embodiment, four battery cells 2 are provided, and a total of eight output terminals 2 a exist, so a total of eight connection terminals 3 are provided. FIG. 2 is a cross-sectional view showing a schematic configuration of one connection terminal 3. As shown in this figure, the connection terminal 3 has a bar portion 3a and a pin portion 3b.

  The bar portion 3a is a substantially band-shaped portion extending in the left-right direction, and includes a base portion 3a1 and a flexible portion 3a2. The base portion 3a1 is a portion formed as a flat plate whose front and back surfaces are directed in the vertical direction along the upper surface of the battery cell 2, and extends in a substantially linear shape in the left-right direction. The base portion 3a1 has a connection hole 3a3 on the root side, into which the output terminal 2a of the battery cell 2 is inserted. The base portion 3a1 is connected to the battery cell 2 by welding or the like in a state where the output terminal 2a is inserted into the connection hole 3a3. The base portion 3a1 is fixed to the battery cell 2 only at the root portion where the connection hole 3a3 is formed. That is, although the lower surface of the tip end portion provided with the pin portion 3b is in contact with the upper surface of the battery cell 2 in FIG. 2, the base portion 3a1 is not fixed to the upper surface of the battery cell 2 at the tip portion.

  The flexible portion 3a2 is disposed at a substantially central portion in the left-right direction of the base portion 3a1. That is, the flexible portion 3a2 is provided in the middle of the base portion 3a1. As shown in FIGS. 1 and 2, the flexible portion 3a2 is a bridge-shaped portion which is curved so that the central portion protrudes upward and is elastically deformable. The tip of 3a1 is displaceable relative to the root. The flexible portion 3a2 is connected to the root portion of the base portion 3a1 located on one side in the left-right direction and the tip end portion of the base portion 3a1 located on the other side in the left-right direction, and the central portion protrudes upward It has a curved shape. For this reason, the flexible portion 3a2 has a shape that allows the tip portion of the base portion 3a1 to be easily moved in the left-right direction with respect to the root portion. However, the flexible portion 3a2 can also displace the front end portion of the base portion 3a1 in the front-rear direction with respect to the root portion.

  Further, the flexible portion 3a2 is disposed at a position avoiding the circuit board 20 when viewed from above (the direction along the shaft portion 3b1 described later). That is, in the present embodiment, the flexible portion 3a2 of the connection terminal 3 is disposed outside the edge of the circuit board 20 when viewed from above.

  The bar portion 3a having such a base portion 3a1 and the flexible portion 3a2 secures an amount of elastic deformation in the flexible portion 3a2 and allows electrical connection between the battery cell 2 and the circuit board 20, for example. It is formed of aluminum.

  The pin portion 3b is a portion erected upward from the tip end portion of the bar portion 3a, and has a shaft portion 3b1 and a press-fit portion 3b2. The shaft 3b1 is a rod-like portion extending upward from the tip of the base 3a1 of the bar 3a. That is, the shaft portion 3b1 is provided upright at the tip end portion of the base portion 3a1 in a state in which the direction in which the axis is directed is the vertical direction. The shaft 3b1 is connected to the base 3a1 by welding, for example.

  FIG. 3 is an exploded cross-sectional view showing an example of how the bar portion 3a and the pin portion 3b are connected. As shown in this figure, a flat plate-like mounting portion 3b3 is provided at the lower end of the shaft portion 3b1 with the front and back surfaces directed in the direction (vertical direction) along the shaft portion 3b1. When connecting the pin portion 3b to the bar portion 3a, the mounting portion 3b3 is welded to the bar portion 3a. This can facilitate the welding operation.

  The press-fit portion 3b2 is disposed substantially at the center of the shaft portion 3b1 in the vertical direction. That is, the press-fit portion 3b2 is provided at a midway portion of the shaft portion 3b1. The press-fit portion 3b2 is a portion provided so as to expand outward in the radial direction of the shaft portion 3b1 from the shaft portion 3b1, and a hollow portion is provided in the radial direction inner side of the shaft portion 3b1. The maximum width of the press-fit portion 3b2 in the left-right direction is set equal to or slightly larger than the inner diameter of the through hole 21 of the circuit board 20. Such a press-fit portion 3b2 is press-fit into the through hole 21 of the circuit board 20, and is thereby press-fitted and fixed to the circuit board 20. The dimension in the vertical direction of the press-fit portion 3b2 is preferably set larger than the depth dimension (dimension in the vertical direction) of the through hole 21 of the circuit board 20.

  The pin portion 3b having the shaft portion 3b1 and the press-fit portion 3b2 has a rigidity higher than that of the bar portion 3a in order to prevent plastic deformation when the press-fit portion 3b2 is inserted into the circuit board 20. For example, it is formed of copper.

  The circuit board 20 is an electronic board on which a voltage detection circuit and the like for detecting a voltage between terminals of the battery cell 2 are formed, and has a wiring pattern and elements (not shown). As shown in FIG. 1, the circuit board 20 has a plurality of through holes 21 into which the connection terminals 3 of the cell unit 10 are press-fitted. On the inner wall surfaces of these through holes 21, a plating layer that forms a part of the metal wiring is formed. Therefore, the battery cell 2 and the circuit board 20 are electrically connected by the press-fit portion 3b2 of the connection terminal 3 being press-fit into the through hole 21 and the outer wall surface of the press-fit portion 3b2 and the inner wall surface of the through hole 21 being in pressure contact. Connected to

  When assembling such a battery device 1, for example, the connection terminals 3 are press-fit into the circuit board 20 prior to fixing to the battery cells 2. At this time, the pin portion 3 b of the connection terminal 3 is inserted into the through hole 21 of the circuit board 20, and the pin portion 3 b is press-fit into the through hole 21 until the press-fit portion 3 b 2 is positioned inside the through hole 21.

  After the pin portion 3 b is press-fit and fixed in the through hole 21, the connection terminal 3 is fixed to the battery cell 2. Here, the output terminal 2a of the battery cell 2 is inserted into the connection hole 3a3 provided at the root of the base 3a1, and the output terminal 2a and the root of the base 3a1 are joined by welding. Here, in the present embodiment, since the connection terminal 3 has the flexible portion 3a2, even if the positional accuracy between the connection hole 3a3 and the output terminal 2a includes an error, the connection hole 3a3 is easily output. Terminal 2a can be inserted.

  According to the battery device 1 of the present embodiment as described above, the connection terminal 3 for connecting the battery cell 2 and the circuit board 20 has the press-fit portion 3 b 2 which is press-fitted and fixed to the circuit board 20. Therefore, the battery cells 2 and the circuit board 20 can be electrically connected without soldering or screwing the connection terminals 3 and the circuit board 20. Therefore, according to the battery device 1 of the present embodiment, there is no need to perform soldering and screwing operations to electrically connect the battery cells 2 and the circuit board 20, and the assembly operation can be simplified. It is possible to

  Further, in the battery device 1 of the present embodiment, the connection terminal 3 is provided in the middle of the base portion 3a1 with the root portion fixed to the battery cell 2 and the base portion 3a1 and the tip of the base portion 3a1 is the root It has a flexible portion 3a2 that can be displaced with respect to the portion, a shaft portion 3b1 erected at the tip of the base portion 3a1, and a press-fit portion 3b2 provided in the middle of the shaft portion 3b1. Therefore, the battery cell 2 and the circuit board 20 can be connected by the connection terminal 3 having a simple structure.

  Further, in the battery device 1 of the present embodiment, since the connection terminal 3 includes the flexible portion 3a2 provided in the middle of the base portion 3a1, the battery cell 2 and the circuit board are thermally deformed or vibrated by the vehicle. Even when the relative position with respect to 20 changes, the elastic deformation of the flexible portion 3a2 can absorb the change in the relative position. For this reason, it is possible to prevent local large stress from acting on the connection terminal 3 itself or the connection portion between the connection terminal 3 and the battery cell 2 or the circuit board 20.

  Further, in the battery device 1 of the present embodiment, the shaft portion 3b1 is provided upright at the end of the base portion 3a1. Therefore, when press-fitting the pin portion 2b into the circuit board 20, the axial force received by the pin portion 2b can be received by the wide surface of the base portion 3a1. For this reason, it is possible to prevent the large stress from acting on the flexible portion 3a2 at the time of press-in, and to prevent the plastic deformation of the flexible portion 3a2 at the time of press-in.

  Further, in the battery device 1 of the present embodiment, the flexible portion 3a2 is set in a shape of a bridge projecting in a direction from the base portion 3a1 toward the circuit board 20. Therefore, as shown in FIG. 2, the flexible portion 3 a 2 can be provided without interfering with the battery cell 2. Furthermore, it is possible to form the flexible portion 3a2 more easily for the strip-like bar portion 3a that turns the front and back in the vertical direction than providing the flexible portion that curves in the front, rear, left, and right planes.

  Furthermore, in the battery device 1 of the present embodiment, the flexible portion 3a2 is disposed at a position avoiding the circuit board 20 when viewed from the direction along the shaft portion 3b1. Therefore, when the connection terminal 3 is press-fit into the circuit board 20, and after the connection terminal 3 is press-fit into the circuit board 20, the circuit board 20 can be prevented from interfering with the flexible portion 3a2.

  Further, in the battery device 1 of the present embodiment, the bar portion 3a having the base portion 3a1 and the flexible portion 3a2 and the pin portion 3b having the shaft portion 3b1 and the press-fit portion 3b2 are formed of different metal materials. . Since the required functions are different between the bar portion 3a and the pin portion 3b, by forming the bar portion 3a and the pin portion 3b with different metal materials, the required function for each portion can be enhanced. For example, since the battery device 1 of the present embodiment is mounted on a vehicle, by forming the bar portion 3a of aluminum, the bar portion 3a has a function that can be elastically deformed flexibly against the vibration of the vehicle. It can be granted. Further, by forming the pin portion 3 b of copper, it is possible to prevent the pin portion 3 b from being buckled or the like at the time of press-fitting to the circuit board 20.

Second Embodiment
Next, a second embodiment of the present invention will be described. In the description of the second embodiment, the description of the same parts as those of the first embodiment will be omitted or simplified.

  FIG. 4 is an enlarged cross-sectional view showing a schematic configuration of the pin portion 3c of the connection terminal provided in the battery device of the present embodiment. The pin portion 3c is a portion erected upward from the tip end portion of the bar portion 3a similarly to the pin portion 3b in the first embodiment, and as shown in FIG. And a unit 3c2.

  The shaft portion 3c1 is a rod-like portion extending upward from the tip end portion of the base portion 3a1 of the bar portion 3a. That is, the shaft portion 3c1 is provided upright at the tip end portion of the base portion 3a1 in a state in which the direction in which the axis is directed is the vertical direction. The shaft 3c1 is connected to the base 3a1 by welding, for example.

  The press-fit portion 3c2 is disposed substantially at the center of the shaft portion 3c1 in the vertical direction. That is, the press-fit portion 3c2 is provided at a midway portion of the shaft portion 3c1. The press-fit portion 3b2 is a portion provided so as to expand outward in the radial direction of the shaft portion 3c1 from the shaft portion 3c1, and a hollow portion is provided in the radial direction inner side of the shaft portion 3c1. The maximum width of the press-fit portion 3c2 in the left-right direction is set equal to or slightly larger than the inner diameter of the through hole 21 of the circuit board 20.

  Furthermore, in the present embodiment, in the region R shown in FIG. 4, the outer wall surface of the press-fit portion 3c2 is a flat portion parallel to the direction along the shaft portion 3c1. According to the press-fit portion 3c2 having such a flat portion, it is pressed against the inner wall surface of the through hole 21 over a long distance in the vertical direction. For this reason, according to the battery device of the present embodiment, variations in press-fit amounts of the terminals 3 and the through holes 21 are absorbed, and the battery cells 2 and the circuit board 20 are electrically connected more reliably. be able to.

  Although the preferred embodiments of the present invention have been described above with reference to the accompanying drawings, it goes without saying that the present invention is not limited to the above embodiments. The shapes, combinations, and the like of the constituent members shown in the above-described embodiment are merely examples, and various changes can be made based on design requirements and the like without departing from the spirit of the present invention.

  For example, in the above embodiment, the configuration in which one flexible portion 3a2 is provided in the middle of the base portion 3a1 has been described. However, the present invention is not limited to this. For example, a plurality of flexible portions may be installed in the middle of the base portion 3a1. In this case, the plurality of flexible portions installed in one base portion 3a1 need not have the same shape. For example, a flexible portion capable of displacing the tip portion of the base portion 3a1 mainly in the lateral direction with respect to the root portion, and a flexible portion capable of displacing the tip portion of the base portion 3a1 mainly in the front and rear direction with respect to the root portion And may be installed.

  Further, in the above-described embodiment, the configuration has been described in which the flexible portion 3a2 is provided in the middle of the base portion 3a1 such that the tip of the base portion 3a1 can be displaced mainly in the left and right direction with respect to the root portion. However, the present invention is not limited to this. For example, it is also possible to adopt a configuration in which a flexible portion wound in a spiral shape as viewed from above is provided. In such a case, it is possible to make the tip end of the base 3a1 displaceable in the front-rear and left-right directions with respect to the root.

  DESCRIPTION OF SYMBOLS 1 ...... Battery apparatus, 2 ...... Battery cell, 2a ... Output terminal, 2b ... Pin part, 3 ...... Connection terminal, 3a ... Bar part, 3a1 ...... Base part, 3a2 ...... Flexible part, 3a3 ...... Connection hole, 3b ...... Pin portion, 3b1 ... Shaft portion, 3b2 ... Press fit portion, 3b 3 ... Mounting portion, 3c ...... Pin portion, 3c 1 ... Shaft portion, 3c 2 ... Press fit portion, 10 ...... Cell unit, 20 ... circuit board, 21 ... through hole

Claims (5)

A battery device comprising: a plurality of battery cells; a circuit board electrically connected to the battery cells; and a connection terminal connecting the battery cells and the circuit board,
The said connection terminal has a press-fit part fixedly press-fitted to the said circuit board, The battery apparatus characterized by the above-mentioned. The connection terminal is
A base portion having a root portion fixed to the battery cell;
A flexible portion provided at an intermediate portion of the base portion and capable of displacing the tip portion of the base portion with respect to the root portion;
A shaft which is erected at the tip of the base;
The battery device according to claim 1, further comprising: the press-fit portion provided at a midway portion of the shaft portion. The flexible portion is shaped and set in a bridge shape projecting in a direction from the base portion toward the circuit board.
The battery device according to claim 2, wherein the flexible portion is disposed at a position avoiding the circuit board when viewed from the direction along the shaft portion.   The battery device according to claim 2 or 3, wherein the base portion and the flexible portion, and the shaft portion and the press-fit portion are formed of different metal materials.   The said press-fit part bulges outward in the radial direction of the shaft part from the shaft part, and has a flat part parallel to the direction along the shaft part on the outer wall surface. The battery device according to any one of the preceding claims.

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