JP4292451B2 - Battery pack - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a battery pack and can be applied to, for example, a power source of a portable personal computer. In the present invention, the positive and negative terminals of the secondary battery cells are connected to both surfaces of the terminal board, respectively, and the secondary batteries are connected in series and parallel by this terminal board, thereby reducing the thickness by simple assembly work. To be able to.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, portable personal computers are carried around and used in various places. For this reason, they are created in a small shape so as not to be inconvenient to carry, and are further formed in a thin shape. ing.
[0003]
For this reason, in the personal computer, the driving battery pack is held so as to be replaceable, and the battery pack is replaced as necessary so that it becomes difficult to use due to running out of the battery. Also, the battery pack is formed so as to be thin so as not to impair portability.
[0004]
For this reason, this type of battery pack is configured by connecting secondary battery cells, which are constituent units of the battery pack, in series and parallel according to the power supply voltage and power supply capacity required for the personal computer. Further, in the battery pack, these secondary battery cells are formed in a thin plate shape, stacked so as to correspond to the series-parallel connection, and further arranged in parallel.
[0005]
[Problems to be solved by the invention]
By the way, this type of battery pack is required to be further reduced in thickness.
[0006]
However, in a battery pack, a plurality of secondary battery cells are connected in series and parallel as necessary, so that the internal connection becomes complicated when the size and thickness are reduced in this way. The productivity is expected to deteriorate significantly.
[0007]
The present invention has been made in consideration of the above points, and intends to propose a battery pack that can be reduced in thickness by a simple assembly operation.
[0008]
[Means for Solving the Problems]
In order to solve such a problem, in the invention of claim 1, the secondary battery cell has a positive electrode terminal or a negative electrode terminal disposed substantially at the center in the longitudinal direction of one end face, and sequentially in the longitudinal direction of the one end face. A positive terminal and a negative terminal are provided. According to the first aspect of the present invention, a plurality of sets of secondary battery cells are formed by laminating a plurality of secondary batteries so that the positive electrode terminal and the negative electrode terminal are located on the same side and the same surface faces each other. The plurality of sets of secondary battery cells are sequentially arranged in the longitudinal direction so that the terminal and the negative electrode terminal are located on the same side, and the positive terminal and the negative electrode of each secondary battery cell located on the same side The terminals are connected by a terminal plate, and the terminal plate connects the positive electrode terminal and the negative electrode terminal of the secondary battery cell to the lands formed on the front side surface and the back side surface, respectively. A plurality of secondary battery cells are connected in series and parallel according to the pattern. In addition, the secondary battery cell is disposed in parallel with the end surface of the secondary battery cell provided with the positive electrode terminal and the negative electrode terminal, and connected to the side opposite to the side provided with the secondary battery cell. Output power to external equipment .
[0009]
According to the configuration of claim 1, by connecting the positive terminal and the negative terminal of each secondary battery cell located on the same side by the terminal plate, a plurality of secondary battery cells are connected to the terminal plate by a simple operation. can do. At this time, the terminal plate connects the positive terminal and the negative terminal of the secondary battery cell to the lands formed on the front side surface and the back side surface, respectively, and a plurality of secondary battery cells are directly connected by the wiring pattern between the lands. By connecting in parallel, even when these secondary battery cells are complicatedly connected due to the arrangement of various secondary batteries, the number of secondary batteries, the number of sets connected in series, etc., it is easy to connect And it can be executed reliably.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings as appropriate.
[0011]
(1) Configuration of Embodiment FIG. 2 is an exploded perspective view showing a battery pack according to an embodiment of the present invention. The battery pack 1 is mounted on a personal computer, supplies power to the personal computer, and is charged by the personal computer.
[0012]
That is, the battery pack 1 is formed in a thin plate shape as a whole and is configured to be slid and mounted on the back surface of the personal computer. The battery pack 1 is formed in such a manner that the thickness on the back side when it is slid in this way is thicker than the opposite side. The battery pack 1 is configured by sequentially arranging the upper cases 4 and 5 after the secondary battery unit 3 is arranged inside the lower case 2.
[0013]
Here, the lower case 2 is formed in a substantially rectangular shape in which a resin material is injection-molded and a wall surface is formed around it. The lower case 2 is formed with a notch 2A in a part of the long side wall that is the side that abuts the personal computer. In the battery pack 1, the notch 2A is formed so that the connector 3A of the secondary battery unit 3 is exposed, thereby being electrically connected to the personal computer via the connector 3A.
[0014]
The secondary battery unit 3 is an assembly product formed by connecting secondary battery cells 6A to 6F having a thin plate shape applied to the battery pack 1 by a terminal plate described later. The upper case 4 is formed by injection molding of a resin material, covers the lower case 2 and holds the secondary battery unit 3 on the thick side of the secondary battery unit 3. The upper case 5 is formed by pressing a metal plate material, and covers the lower case 2 and holds the secondary battery unit 3 on the thin side of the secondary battery unit 3. Thus, in the battery pack 1, the lower case 2 is covered with the upper case 4 made of resin on the thick side, and the lower case 2 is covered with the upper case 5 made of a metal plate on the thin side. Thus, the entire thickness is made as thin as possible.
[0015]
Accordingly, in this embodiment, the lower case 2 and the upper cases 4 and 5 are about the secondary battery unit 3 formed by connecting a plurality of secondary battery cells 6A to 6F in a thin plate shape with one terminal plate. The cutout 2A constitutes an exterior case for holding the secondary battery unit 3 so that the power of the secondary battery unit 3 can be supplied to an external device.
[0016]
FIG. 1 is an exploded perspective view showing the secondary battery unit 3. In the secondary battery unit 3, after connecting the secondary battery cells 6A to 6F to the terminal board 7, the terminal board 7 and the temperature control component 9 are sequentially connected to the wiring board 8, and thereafter, as shown by arrows A and B. The secondary battery cells 6 </ b> A to 6 </ b> F are bent with respect to the terminal plate 7 from the terminal portions. When the secondary battery unit 3 is assembled in this way, the insulating tape 10 is disposed between the terminal board 7 and the wiring board 8, and the insulating tape is also provided between the temperature control component 9 and the terminal board 7. 11 are arranged to ensure safety.
[0017]
Here, the secondary battery cells 6A to 6F are non-aqueous secondary battery cells having the same configuration, and are formed in a rectangular shape with a thin plate shape. The secondary battery cells 6A to 6F have a positive electrode terminal (a terminal formed with a sign + at the base portion) and a negative electrode terminal (a terminal formed with a sign-at the root portion) on the end surface on the short side. Is placed. The secondary battery cells 6A to 6F have a negative electrode terminal formed at the corner of the short side and the side surface of the positive electrode terminal and the negative electrode terminal, and a positive electrode terminal formed at a substantially central portion of the short side and the side surface. To be made. Thereby, when this side is seen from the front side, the positive electrode terminal and the negative electrode terminal are biased and arranged on one side in the longitudinal direction.
[0018]
The secondary battery cells 6A to 6F are in close contact with each other on both sides in the longitudinal direction of the elongated terminal plate 7 so that the side surface on which the positive electrode terminal and the negative electrode terminal are arranged is on the terminal plate 7 side. The positive terminal and the negative terminal are soldered to the terminal plate 7. When the secondary battery cells 6A to 6F are arranged on both sides of the terminal plate 7 in this way, all the secondary battery cells 6A are arranged so that the surfaces with the signs + and-are seen upward. -6F are arrange | positioned in the same direction, and the positive direction of the positive electrode terminal and the negative electrode terminal is made into the reverse direction on both sides of the terminal board 7 by this. Thus, the secondary battery cells 6A to 6F are arranged on the terminal plate 7 as described above, and as shown by arrows A and B, when the positive electrode terminal and the negative electrode terminal are bent at an angle of about 90 degrees, the terminal plate 7 In the secondary battery cells 6A to 6F arranged on both sides in the longitudinal direction, the same surface is brought into close contact so that the thickness of the battery pack 1 as a whole can be reduced. Yes.
[0019]
That is, in the secondary battery cells 6A to 6F of this type, it is inevitable that the thickness is uneven by forming a laminate of sheet-like members such as separators and electrodes. Of course, this thickness deviation is a little less than the intersection, but in practice, when the secondary battery cells 6A to 6F are stacked in the same direction, this slight thickness deviation is accumulated. As a result, the entire thickness is increased by this bias. On the other hand, as in this embodiment, if the same surfaces are stacked and held so as to face each other, it is possible to cancel out such slight thickness deviations, and accordingly, overlap in the same direction. Compared with the case of matching, the overall thickness can be reduced.
[0020]
In the secondary battery cells 6A to 6F, the secondary battery cells 6A and 6D, 6B and 6E, 6C and 6F, which are laminated so that the same surfaces face each other, are connected in parallel by the terminal plate 7, respectively. A set of secondary battery cells 6A and 6D, 6B and 6E, 6C and 6F by parallel connection is formed. Moreover, the group of secondary battery cells 6A and 6D, 6B and 6E, 6C and 6F by these parallel connections is connected in series.
[0021]
Here, as shown in FIG. 3, the terminal board 7 is formed by covering both surfaces of a wiring pattern 12 made of a metal plate material with an insulating sheet 13 made of a polyimide film. The terminal board 7 is formed so as to be elongated, and a slit S extending in an elongated manner is intermittently formed in the central portion so that the terminal plate 7 can be folded in half from the substantially central portion extending in the longitudinal direction. Yes. The terminal plate 7 is separated on both sides of the slit S to form a wiring pattern 12 made of a metal plate material, and is formed so that the wiring pattern 12 is partially interrupted at a predetermined position in the longitudinal direction.
[0022]
Further, on the back surface side in FIG. 3, the insulating sheet 13 is formed so as to cover almost the entire surface of the wiring pattern 12, whereas on the front surface side in FIG. 3, the secondary battery cell 6A is formed at a predetermined position. An opening for forming a land 14 for connection between the terminal 6F and the wiring pattern 12 is formed in the insulating sheet 13. As a result, the terminal board 7 is folded in half at the central slit S so that the side on which the opening is formed becomes the front side. A wiring pattern 12 is disposed, and lands 14 are formed to connect the terminals of the secondary battery cells 6A to 6F to the wiring pattern 12.
[0023]
Thereby, the terminal board 7 connects the secondary battery cells 6A and 6D, 6B and 6E, 6C and 6F, which are laminated so that the same surfaces face each other, in parallel. Accordingly, when the terminal plate 7 is used in the same manner as the double-sided board and the secondary battery cells 6A and 6D, 6B and 6E, 6C and 6F are connected in parallel, respectively, in FIG. By arranging the positive terminal and the negative terminal of the secondary battery cells 6A to 6F on the back side and the front side, respectively, and soldering them to the land 14, it is possible to form these parallel connections, thereby simplifying assembly work. Therefore, the secondary battery cells 6A to 6F can be connected to the terminal plate 7 without fail.
[0024]
Further, the terminal board 7 is formed with a protrusion 15 that protrudes laterally from the insulating sheet 13 in one wiring pattern 12 separated by the central slit S. In the other wiring pattern, the terminal board 7 has a portion corresponding to the protrusion 15. The land 16 is disposed. The terminal plate 7 is bent at the slit S, and the protrusions 15 are bent toward the lands 16 and soldered, whereby the secondary battery cells 6A and 6D, 6B and 6E, 6C and 6F formed in parallel are respectively connected. It can be connected in series. Accordingly, the terminal board 7 is configured such that the secondary battery cells 6A to 6F are arranged back to back, and the secondary battery cells 6A to 6F can be connected in series and parallel by a simple operation.
[0025]
Further, the terminal board 7 has a similar protrusion 17 on the side where the protrusion 15 is formed, and a protrusion 18 at the end in the longitudinal direction. The protrusion 18 is formed in the wiring pattern 12 so as to be connected to the positive terminals of the secondary battery cells 6C and 6F on the highest potential side by connecting the secondary battery cells 6A to 6F in series and parallel as described above. The protrusion 17 is formed on the wiring pattern 12 at each connection point in the series circuit of the secondary battery cells 6A to 6F. These protrusions 17 and 18 are formed so as to be bent substantially at right angles and to protrude toward the wiring board 8.
[0026]
In the wiring board 8, slits for inserting the protrusions 17 and 18 are formed, and the secondary battery cells 6A and 6D are connected in parallel by inserting the protrusions 17 and 18 into the slit and soldering. Both ends of 6B and 6E, 6C and 6F can be connected. In FIG. 3, the connection relationship between the secondary battery cells 6 </ b> A to 6 </ b> F and the wiring board 8 by the terminal plate 7 is indicated by a battery symbol by a broken line.
[0027]
In the wiring board 8, a connector 3A and a charge / discharge control circuit 20 for controlling charge / discharge of the secondary battery cells 6A and 6D, 6B and 6E, 6C and 6F are arranged. That is, the charge / discharge control circuit 20 overcharges the secondary battery cells 6A and 6D, 6B and 6E, 6C and 6F by monitoring the voltage across the terminals of the secondary battery cells 6A and 6D, 6B and 6E, 6C and 6F. Further, overdischarge is prevented, and charge / discharge is stopped and controlled by monitoring charge / discharge current. Further, the temperature of the secondary battery cells 6A to 6F is monitored by a thermistor (not shown) to prevent abnormal discharge.
[0028]
The temperature control component 9 is constituted by a series circuit of thermostats 9A and 9B and a temperature fuse 9C (FIG. 1), and is disposed between the charge / discharge control circuit 20 and the connector 3A, thereby preventing an accident of the battery pack 1. . Temperature control components 9 per nuclei, these thermostats 9A, 9B, so as to be disposed in a gap between the positive and negative terminals of the series circuit of the temperature fuse. 9C terminal plate 7 and the secondary battery cell 6A~6F Thus, in this battery pack 1, the temperature control component 9 is arranged by effectively using a minute internal space, and this can be formed to be smaller and thinner.
[0029]
(2) Operation of the embodiment In the above configuration, the battery pack 1 (FIG. 3), after the terminal plate 7 is folded in half, the projection 15 for series connection is folded and soldered to the land 16 side. Thereby, the processing of the terminal board 7 is completed. The battery pack 1 has lands 14 that connect the positive terminals and the negative terminals of the secondary battery cells 6A to 6F to the front and back surfaces of the battery pack 1 by bending the terminal plate 7, respectively. The pattern 12 forms wirings for connecting the secondary battery cells 6A and 6D, 6B and 6E, 6C and 6F in series and parallel, respectively. Moreover, the connection of the wiring pattern 12 which connects the secondary battery cells 6A and 6D, 6B and 6E, 6C and 6F connected in parallel in this way is formed by the connection of the protrusion 15 and the land 16.
[0030]
In this battery pack 1, three secondary battery cells 6A to 6F are arranged side by side on both sides of the terminal plate 7 so that the terminal plate 7 side becomes a positive terminal and a negative terminal (FIG. 2). The positive terminal and the negative terminal are connected to the front and back lands 14 of the terminal plate 7 by soldering, respectively. Thus, in the battery pack 1, two secondary battery cells 6A to 6F are connected in parallel, and these parallel circuits are connected in series.
[0031]
The battery pack 1 is a terminal board in which a connector 3A and a charge / discharge control circuit 20 are separately mounted on a wiring board 8, and secondary battery cells 6A to 6F are connected to slits formed in the wiring board 8. projections 17 and 18 of the 7 is soldered plugged, thereby the secondary battery cells 6A~6F is connected to the charge and discharge control circuit 20. Similarly, a series circuit of thermostats 9A and 9B and a thermal fuse 9C assembled in a separate process is connected to the wiring board 8 from the terminal board 7 side, whereby the charge / discharge control circuit 20 and the connector 3A are connected. Charge / discharge paths are formed.
[0032]
In the battery pack 1, when the secondary battery cells 6A to 6F and the like are connected to the wiring board 8 in this way, the terminals of the secondary battery cells 6A to 6F are bent and connected in parallel. The cells 6A and 6D, 6B and 6E, 6C and 6F are stacked and held so that the same surfaces face each other (FIG. 1), and the secondary battery cells 6A and 6D, 6B and 6E, 6C and 6F The secondary battery unit 3 is formed by arranging the wiring board 8 and the terminal plate 7 on the terminal side.
[0033]
The battery pack 1 is formed by sequentially arranging the upper cases 4 and 5 after the secondary battery unit 3 thus created is stored in the lower case 2.
[0034]
In the battery pack 1 created in this way, the secondary battery cells 6A and 6D, 6B and 6E, 6C and 6F connected in parallel are stacked and held so that the same surfaces face each other. Thus, the thickness unevenness in each of the secondary battery cells 6A to 6F is not accumulated, that is, the thickness unevenness can be canceled between the stacked secondary battery cells 6A to 6F. The overall thickness can be reduced.
[0035]
However, when the secondary battery cells 6A and 6D, 6B and 6E, 6C and 6F are stacked so that the same surface faces in this way, the secondary battery cells 6A and 6D, 6B and 6E, 6C and 6F are assembled. Thus, when connecting in parallel, the connection becomes complicated as compared with the case of stacking in the same direction. In particular, when the positive electrode terminal and the negative electrode terminal are arranged symmetrically with respect to the center line of the secondary battery cell, a short circuit accident occurs between the positive electrode terminal and the negative electrode terminal in the stacked secondary battery cell. There is also a fear.
[0036]
However, in the battery pack 1, the positive terminals and the negative terminals of the secondary battery cells 6 </ b> A to 6 </ b> F are arranged in the longitudinal direction on the side surface where the positive terminals and the negative terminals are arranged, and thus, Occurrence of a short circuit accident can be prevented. Further, by arranging the wiring pattern 12 to be connected to the positive terminal and the negative terminal on the front surface and the back surface of the terminal board 7, respectively, the positive terminal and the negative terminal are simply placed on the back and front of the terminal board 7 by being arranged in this way. Thus, the secondary battery cells 6A to 6F can be reliably connected by effectively avoiding erroneous connection by a simple operation of simply sorting and soldering to the corresponding land 14.
[0037]
Further, since the terminal plate 7 is formed by covering both surfaces of the wiring pattern made of a metal plate material with an insulating sheet, it is possible to reduce power loss due to such a wiring pattern as much as possible.
[0038]
Further, the wiring board 8 is laminated and connected to the terminal board 7 as described above, so that the space in the battery pack 1 is effectively used, and the secondary battery cells 6A and 6D, 6B and 6E and 6C of each set are obtained. And a charging / discharging control circuit for controlling charging / discharging of 6F, respectively, can be arranged, thereby reducing the overall shape and size.
[0039]
(3) Effects of the embodiment According to the above configuration, the positive terminal and the negative terminal of the secondary battery cell are connected to both surfaces of the terminal board, respectively, and these secondary batteries are connected in series and parallel by this terminal board. Thus, the thickness can be reduced by a simple assembly operation.
[0040]
Further, in each such set, the secondary batteries are stacked so that the same surfaces face each other, so that the thickness can be reduced without accumulating uneven thickness.
[0041]
In addition, in the secondary battery cell, the positive electrode terminal and the negative electrode terminal are provided in the longitudinal direction so that a short circuit accident or the like between the stacked secondary battery cells can be effectively prevented, and further to the terminal plate. Connection work can be simplified and erroneous connection can be reliably prevented.
[0042]
In addition, by covering both sides of the wiring pattern made of a metal plate with an insulating sheet and forming a terminal plate by folding it almost in half, a terminal having connection lands on the front and back sides is reduced by reducing power loss. A board can be created.
[0043]
In addition, a wiring board equipped with a charge / discharge control circuit for controlling charging / discharging of the secondary battery cell is stacked and connected, and the power of the secondary battery cell is output to an external device through this wiring board, so that The shape can be reduced and the size can be reduced.
[0044]
(4) Other Embodiments In the above-described embodiment, the case where the terminal plate is folded in half by the slit extending in the longitudinal direction has been described. However, the present invention is not limited to this, and the bending direction is also described. Can be variously set as required.
[0045]
Further, in the above-described embodiment, the case where two secondary battery cells are connected in parallel and three of these parallel connections are connected in series has been described. However, the present invention is not limited to this, and various numbers are used. In the case of forming a parallel connection, the present invention can be widely applied to a case of connecting in series with various stages.
[0046]
In the above-described embodiment, the case where the present invention is applied to a battery pack of a personal computer has been described. However, the present invention is not limited to this and can be widely applied to battery packs of various devices.
[0047]
【The invention's effect】
As described above, according to the present invention, the positive electrode terminal and the negative electrode terminal of the secondary battery cell are connected to both surfaces of the terminal plate, respectively, and these secondary batteries are connected in series and parallel by this terminal plate, thereby simplifying assembly. It can be thinned by work.
[Brief description of the drawings]
FIG. 1 is an exploded perspective view showing a secondary battery unit of a battery pack according to an embodiment of the present invention.
FIG. 2 is an exploded perspective view of the battery pack according to the embodiment of the present invention.
FIG. 3 is a plan view for explaining a terminal plate applied to the secondary battery unit of FIG. 1;
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Battery pack, 2 ... Lower case, 2A ... Connector, 3 ... Secondary battery unit, 4, 5 ... Upper case, 6A-6F ... Secondary battery cell, 7 ... Terminal board, 8 ... Wiring board, 20 ... Charge / discharge control circuit

Claims (3)

A secondary battery unit formed by connecting a plurality of secondary battery cells in a thin plate shape with a terminal plate;
An external case that holds the secondary battery unit so that the power of the secondary battery unit can be supplied to an external device;
The secondary battery cell is
A positive electrode terminal or a negative electrode terminal is arranged at substantially the center in the longitudinal direction of one end surface , and a positive electrode terminal and a negative electrode terminal are sequentially provided in the longitudinal direction of the one end surface ,
The secondary battery unit is
A plurality of sets of secondary battery cells are formed by laminating the plurality of secondary battery cells in the thickness direction so that the positive electrode terminal and the negative electrode terminal are located on the same side and face the same surface ,
The plurality of sets of secondary battery cells are sequentially arranged in the longitudinal direction so that the positive electrode terminal and the negative electrode terminal are located on the same side,
Formed by connecting the positive terminal and the negative terminal of each secondary battery cell located on the same side by the terminal plate,
The terminal board is
Arranged in parallel with the end face of the secondary battery cell provided with the positive electrode terminal and the negative electrode terminal,
A land formed on a front surface and a rear surface, respectively connect a positive terminal and a negative terminal of the secondary battery cell, the wiring pattern between the land, connecting the plurality of secondary battery cells in series-parallel ,
The electric power of the secondary battery cell is output to an external device via a connector disposed on the side opposite to the side where the secondary battery cell is provided.
Bas Tteripakku. The terminal board is
It was formed by covering both sides of the wiring pattern made of a metal plate with an insulating sheet and folding it almost in half .
The battery pack according to 請 Motomeko 1. The terminal board is
A charge / discharge control circuit for controlling charge / discharge of the secondary battery cell and a wiring board on which the connector is mounted are stacked and connected to the wiring board, whereby the power of the secondary battery cell is supplied via the connector. Output to external device
The battery pack according to 請 Motomeko 1.

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