JP2006100146A - Battery pack - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To stack batteries in a multistage in the vertical and horizontal directions and surely insulate a lead plate and connect the lead plate to a circuit board. <P>SOLUTION: A battery pack has a case 2 housing a plurality of batteries 1 arranged in the vertical and horizontal directions, an end plate 3 fixed to an opening part 8 of the case 2, and the lead plate 5 connected from the opening part 8 of the case 2 to the end part of the battery 1 and connected to the adjacent battery 1. The battery pack connects the lead plate 5 to the prescribed position with the end plate 3, a leading-out part 5b of a first lead plate 5A whose connecting part 5a is connected to a battery 1A of a first group is arranged on the inside surface of the end plate 3, a leading-out part 5b of a second lead plate 5B whose connecting part 5a is connected to a battery 1B of a second group is passed through the end plate 3 and arranged on the outside surface, and the leading-out part 5b of the first lead plate 5A and the leading-out part 5b of the second lead plate 5A are insulated with the end plate 3. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a battery pack mainly suitable for discharging a large current, and more particularly to a battery pack in which a plurality of batteries are connected in parallel and in series.

The pack battery can increase the output current by increasing the number of batteries connected in parallel, and can increase the output voltage by the number of batteries connected in series. For this reason, a battery pack used in applications requiring high output, for example, bicycles, tools, automobiles, etc., can connect a plurality of batteries in parallel and further connect them in series to increase the output. Since the battery pack with this structure incorporates a large number of batteries, it is important to have a structure that allows each battery to be connected efficiently. As a battery pack for realizing this, a battery pack in which the battery is connected with a lead plate having a unique structure has been developed (see Patent Document 1).
JP-A-10-308205

  In the battery pack described in this publication, as shown in FIG. 1, lead plates 32 are connected by spot welding to the end faces of batteries 31 arranged side by side in two rows. The lead plate 32 is provided with a slit 33 along the middle so that it can be bent smoothly in the middle. Furthermore, a wiring projection 35 is provided in the middle of the lead plate 32 so that the projection connected to the circuit board 34 protrudes when bent along the slit 33. When the lead plate 32 is folded 180 degrees along the slit 33, the wiring projection 35 protrudes as shown in FIG. The protruding wiring protrusion 35 is connected to the circuit board 34, and the battery 31 is connected to the circuit board 34.

  In the battery pack of the arrangement shown in FIG. 1 and FIG. 2, the electrical resistance of the lead plate connecting the batteries connected in parallel is increased. This is because the lead plate is easily bent by providing a slit or the like in order to bend the intermediate portion connected in series. It is important to reduce the electrical resistance as much as possible for a high-power battery pack. This is because even if there is a very small electric resistance, the loss is large due to the large current, and the maximum output is limited.

  In the battery pack of FIGS. 1 and 2, since the lead plate is connected to the circuit board by connecting the lead plate to the electrodes of all the batteries, the lead plate and the battery are bent when the lead plate is bent. There is also a drawback that it is easy to disconnect. In addition, although it is not completely detached, there is a drawback that the lead plate is detached from the battery and easily breaks down during use. To make matters worse, it is difficult to check the connection between the lead plate and the battery because the lead plate is arranged in a narrow gap between the opposing battery end faces, and it is extremely difficult to connect the detached lead plate to the electrode. There are difficult drawbacks.

  Furthermore, the battery pack of this structure has a drawback that the circuit board becomes larger as the circuit board becomes larger and the number of batteries connected in parallel increases, which makes it easy to change the design of the number of batteries. There are some disadvantages that cannot be addressed.

  Further, the battery pack having the above-described structure has a drawback that since the batteries are arranged in one stage on the surface of the circuit board, the overall external shape becomes large as the number of batteries increases. In order to reduce the overall external shape, if batteries are stacked in multiple stages on the surface of the circuit board, it is difficult to insulate the lead plate connected to the battery and the circuit board in order to detect each battery voltage. Become. This is because the lead plate of the battery arranged away from the circuit board passes through the vicinity of the electrode of the battery arranged on the circuit board side and the lead board connected to the electrode.

  Furthermore, the battery pack shown in FIG. 1 and FIG. 2 is connected to the circuit board 34 by connecting the battery 31 to each other by the lead plate 32 and then connected to the circuit board 34 by the lead plate 32. It is necessary to store in an insulating case for insulating. For this reason, a process for manufacturing a battery assembly in which the electrodes of each battery are connected to a circuit board while connecting a large number of batteries in series or in parallel with a lead plate, and the battery assembly manufactured in this process are defined in an insulating case. It is necessary to assemble in two steps consisting of a case storing step that is housed and fixed in position, and there is a drawback that it takes time to assemble.

The present invention has been developed for the purpose of solving the above drawbacks. An important object of the present invention is that the lead plates can be reliably insulated while being arranged in multiple layers vertically and horizontally, and the lead plate connection and case storage can be assembled efficiently in the same process. It is to provide a battery pack.
Another important object of the present invention is that a large number of batteries can be connected in an extremely low resistance state, and the lead plate can be connected to the battery in a state in which the lead plate cannot be securely removed. It is an object of the present invention to provide a battery pack that can be easily confirmed, can efficiently connect a lead plate and a battery, and can easily respond to a design change that changes the number of batteries, and can be in an optimum state for use.

  The battery pack according to claim 1 of the present invention stores a plurality of batteries 1 side by side in a parallel posture with end faces positioned on the same surface, and exposes the ends of the stored batteries 1 to the outside. A case 2 made of an insulating material provided with an opening 8 to be fixed, and fixed to the opening 8 of the case 2 to fix the battery 1 in a fixed position so as not to come out of the case 2. An end plate 3 made of an insulating material having an electrode window 11 opened at the end face electrode position, and a lead plate 5 connected to the end of the battery 1 from the opening 8 of the case 2 and connecting the adjacent battery 1. With. The lead plate 5 on the end plate 3 side includes a connecting portion 5a connected to the electrode at the battery end, and a lead portion 5b drawn from the connecting portion 5a. The connecting portion 5a is arranged on the inner side of the end plate 3 which is the battery facing surface, and is connected to the electrodes of the batteries 1 arranged next to each other to connect adjacent batteries 1 in parallel or in series, or in parallel. Connected in series. The lead-out part 5b is a direction parallel to the end plate 3 and is drawn out in the same direction. In the battery pack, the lead plate 5 is connected to a fixed position by the end plate 3, and the battery 1 is composed of a first group of batteries 1A and a second group of batteries 1B, and the connecting portion 5a is connected to the first group of batteries 1A. The lead portion 5b of the first lead plate 5A connected to the inner surface of the end plate 3 and the lead portion 5b of the second lead plate 5B connecting the connecting portion 5a to the second group of batteries 1B are provided. The end plate 3 is arranged on the outer surface so as to insulate the lead portion 5b of the first lead plate 5A from the lead portion 5b of the second lead plate 5B.

  The battery pack according to claim 2 of the present invention stores a plurality of batteries 1 side by side in a parallel orientation with end faces positioned on the same surface, and exposes the ends of the stored batteries 1 to the outside. A case 2 made of an insulating material provided with an opening 8 to be fixed, and fixed to the opening 8 of the case 2 to fix the battery 1 in a fixed position so as not to come out of the case 2. An end plate 3 made of an insulating material having an electrode window 11 opened at the end face electrode position, and a lead plate 5 connected to the end of the battery 1 from the opening 8 of the case 2 and connecting the adjacent battery 1. With. The lead plate 5 on the end plate 3 side includes a connecting portion 5a connected to the electrode at the end of the battery, and a drawing portion 5b drawn from the connecting portion 5a. The battery 1 is arranged outside the opposite surface of the battery and connected to the electrodes of the batteries 1 arranged next to each other, and the adjacent batteries 1 are connected in parallel or in series, or connected in parallel and in series. ing. The lead-out part 5b is a direction parallel to the end plate 3 and is drawn out in the same direction. In the battery pack, the end plate 3 connects the lead plate 5 to a fixed position, and the battery 1 is composed of a first group of batteries 1A and a second group of batteries 1B, and is connected to the first group of batteries 1A. The first lead plate 5A connecting the 5a is disposed outside the end plate 3, and the lead portion 5b of the second lead plate 5B connecting the connecting portion 5a to the battery 1B of the second group is insulated. Insulated with the material 17 and laminated on the outer side of the first lead plate 5A and disposed on the outer surface of the end plate 3, the lead portion 5b of the first lead plate 5A and the lead portion 5b of the second lead plate 5B. Are insulated by an insulating material 17.

  The battery pack according to claim 3 of the present invention stores a plurality of batteries 1 side by side in a parallel posture with end faces positioned on the same surface, and exposes the ends of the stored batteries 1 to the outside. A case 2 made of an insulating material provided with an opening 8 to be fixed, and fixed to the opening 8 of the case 2 to fix the battery 1 in a fixed position so as not to come out of the case 2. An end plate 3 made of an insulating material that opens an electrode window 11 at the end face electrode position, and a circuit board 4 provided with a voltage detection circuit that is fixed to one surface of the outer periphery of the case 2 and detects the voltage of each battery 1. And a lead plate 5 connected to the end of the battery 1 from the opening 8 of the case 2 and connecting the electrode of the battery 1 to the circuit board 4. The lead plate 5 on the end plate 3 side includes a connecting portion 5a connected to the electrode at the end of the battery, and a lead portion 5b connected to the connecting portion 5a to connect the connecting portion 5a to the circuit board 4. . The connecting portion 5a is arranged on the inner side of the end plate 3 which is the battery facing surface, and is connected to the electrodes of the batteries 1 arranged next to each other to connect adjacent batteries 1 in parallel or in series, or in parallel. Connected in series. The lead-out part 5b is connected to the circuit board 4 and inputs each battery voltage to the voltage detection circuit. In the battery pack, the lead plate 5 is connected to a fixed position by the end plate 3, and the battery 1 is composed of a first group of batteries 1A and a second group of batteries 1B, and the connecting portion 5a is connected to the first group of batteries 1A. The lead portion 5b of the first lead plate 5A connected to the inner surface of the end plate 3 and the lead portion 5b of the second lead plate 5B connecting the connecting portion 5a to the second group of batteries 1B are provided. The end plate 3 is arranged on the outer surface so as to insulate the lead portion 5b of the first lead plate 5A and the lead portion 5b of the second lead plate 5B with the end plate 3 to provide a circuit for the electrode of the battery 1 It is connected to the substrate 4.

  The battery pack according to claim 4 of the present invention stores a plurality of batteries 1 side by side in a parallel posture with their end surfaces positioned on the same surface, and exposes the ends of the stored batteries 1 to the outside. A case 2 made of an insulating material provided with an opening 8 to be fixed, and fixed to the opening 8 of the case 2 to fix the battery 1 in a fixed position so as not to come out of the case 2. An end plate 3 made of an insulating material that opens an electrode window 11 at the end face electrode position, and a circuit board 4 provided with a voltage detection circuit that is fixed to one surface of the outer periphery of the case 2 and detects the voltage of each battery 1. And a lead plate 5 connected to the end of the battery 1 from the opening 8 of the case 2 and connecting the electrode of the battery 1 to the circuit board 4. The lead plate 5 on the end plate 3 side includes a connecting portion 5a connected to the electrode at the end of the battery, and a lead portion 5b connected to the connecting portion 5a to connect the connecting portion 5a to the circuit board 4. . The connecting portion 5a is arranged outside the end plate 3 opposite to the battery facing surface, and is connected to the electrodes of the batteries 1 arranged next to each other to connect adjacent batteries 1 in parallel or in series. Or connected in parallel and in series. The lead-out part 5b is connected to the circuit board 4 and inputs each battery voltage to the voltage detection circuit. In the battery pack, the end plate 3 connects the lead plate 5 to a fixed position, and the battery 1 includes a first group of batteries 1A and a second group of batteries 1B. Further, in the battery pack, the first lead plate 5A connecting the connecting portion 5a to the battery 1A of the first group 1A is arranged outside the end plate 3, and the connecting portion 5a is connected to the battery 1B of the second group. The lead portion 5b of the second lead plate 5B is insulated by the insulating material 17, laminated on the outside of the first lead plate 5A, and disposed on the outer surface of the end plate 3, so that the first lead plate The lead portion 5b of 5A and the lead portion 5b of the second lead plate 5B are insulated by an insulating material 17, and the electrode of the battery 1 is connected to the circuit board 4.

  The battery pack of the present invention separates the first group of batteries 1A and the second group of batteries 1B into a battery 1 on the side close to the circuit board 4 and a battery 1 on the side away from the circuit board 4, The battery 1 on the 4th side can be a first group of batteries 1A, and the battery 1 on the side away from the circuit board 4 can be a 2nd group of batteries 1B.

  In the battery pack of the present invention, the case 2 is made of plastic, and a holding portion 7 is formed by integrally forming the holding portion 7 through which the battery 1 is inserted to hold the outer periphery, and each battery 1 is inserted through the holding portion 7 to be fixed. Can be placed in position.

  In the battery pack of the present invention, the case 2 can be fixed to the end plate 3 in the opening 8 at one end by providing the opening 8 at both ends of the battery 1.

  The battery pack of the present invention can be provided by integrally forming a locking portion 12 for locking the lead plate 5 to the end plate 3.

  Further, in the battery pack of the present invention, the end plate 3 is provided with a screw hole 15 through which a set screw is inserted, and the case 2 is provided with a screw insertion portion 16 into which the set screw is screwed in a position facing the screw hole 15. Can do. In this battery pack, the end plate 3 can be connected to a fixed position of the case 2 by screwing a set screw inserted into the screw hole 15 of the end plate 3 into the screw insertion portion 16 of the case 2.

  Furthermore, the battery pack of the present invention can be provided with a fitting protrusion on one of the end plate 3 and the case 2 and a fitting recess for fitting the fitting protrusion on the other. In this battery pack, the end plate can be connected to a fixed position of the case by fitting the fitting protrusion into the fitting recess.

  The battery pack of the present invention has the feature that the lead plates connected to each battery can be reliably insulated and arranged while the batteries are stacked in multiple layers in the vertical and horizontal directions. In the battery pack of the present invention, the lead plate is connected to the fixed position of the end plate, and the end plate is used together with the insulating material or with the insulating material arranged at the fixed position of the end plate. This is because the laminated portion is insulated. In particular, the battery packs according to claims 1 and 3 can be reliably insulated without using an insulating material because the lead plates are arranged inside and outside the end plate and insulated by the end plate. Further, in the battery pack according to claims 2 and 4, since the lead plate is arranged outside the end plate and the lead plate is insulated by the insulating material, both the lead plate and the insulating material are arranged at a fixed position by the end plate. In addition, the lead plate can be reliably insulated with an insulating material.

  In addition, the battery pack of the present invention connects the lead plate to a fixed position of the end plate, and connects the batteries in series or in parallel with the lead plate. Lead plate can be connected. For this reason, the characteristic which can assemble efficiently is also realized by connecting the lead plate and fixing the end plate to the case and storing the battery in the case as the same process.

  Furthermore, the battery pack of the present invention has a feature that a plurality of batteries can be connected with a lead plate in a low resistance state and can be connected to the battery without the lead plate being reliably removed. That is, the battery pack of the present invention can be connected in series or in parallel by arranging the batteries vertically and horizontally, connecting the connecting part of the lead plate to the electrode of the adjacent battery, and fixing the lead plate to the case It is because it connects with the fixed position of the end plate to be connected to the electrode of the battery.

  In addition, the battery pack of the present invention can easily check the connection between the lead plate and the battery, can efficiently connect the lead plate and the battery, and can easily cope with design changes that change the number of batteries. In addition, it has the feature that it can be in the optimum condition for the application. That is, the battery pack of the present invention connects the connecting portion of the lead plate to the electrodes of the battery arranged vertically and horizontally by a method such as welding, and connects the lead plate to the end plate fixed at a fixed position of the case, This is because the total number of batteries can be adjusted by changing the number of batteries connected to the battery and arranging the batteries vertically and horizontally.

  In particular, the battery packs according to claims 3 and 4 of the present invention insulate the laminated portion of the lead plate connecting the circuit board having the voltage detection circuit for detecting the voltage of each battery and the battery with an end plate or an insulating material. Therefore, it is possible to accurately insulate the lead plate connecting the battery electrode and the circuit board and accurately detect each battery voltage.

  Embodiments of the present invention will be described below with reference to the drawings. However, the example shown below illustrates the battery pack for embodying the technical idea of the present invention, and the present invention does not specify the battery pack as follows.

  Further, in this specification, in order to facilitate understanding of the scope of claims, numbers corresponding to the members shown in the examples are indicated in the “claims” and “means for solving problems” sections. It is added to the members. However, the members shown in the claims are not limited to the members in the embodiments.

  The battery pack shown in FIGS. 3 to 5 is connected to a plurality of batteries 1, a case 2 housing the batteries 1, an end plate 3 fixed to the opening 8 of the case 2, and the battery 1. A circuit board 4 on which a voltage detection circuit for detecting battery voltage is mounted, and a lead plate 5 for connecting the battery 1 to the circuit board 4 and connecting the battery 1 in series and in parallel are provided. Further, the battery pack shown in the figure has a case 2 and a circuit board 4 housed in an outer case 6.

  The battery 1 is a cylindrical lithium ion secondary battery. However, the battery can be any rechargeable secondary battery, such as a nickel metal hydride battery or a nickel cadmium battery. Further, as the battery, a square battery can be used instead of the cylindrical battery.

  The battery pack shown in the figure includes 20 batteries 1 in which batteries 1 arranged vertically and horizontally are arranged in 4 rows and 5 columns. However, in this specification, as shown in FIGS. 3 and 4, the rows and columns of the batteries are arranged in such a manner that the circuit board 4 is arranged on the upper surface, and the horizontal elements are arranged in rows and the vertical elements are arranged in columns. And

  In the illustrated battery pack, the batteries 1 arranged in adjacent rows (up and down in the figure) have the same orientation in the upper two rows and the lower two rows, and are arranged in the same column. With respect to 1, the batteries 2 in the upper two rows and the batteries 1 in the lower two rows are in opposite directions. That is, the polarity of the batteries 1 exposed from the openings 8 of the case 2 is the same polarity in the upper two rows of batteries and the lower two rows of batteries, but the upper two rows of batteries 1 arranged in the same column. And the lower two rows of batteries 1 have different polarities. In other words, in the opening 8 of the case 2, in one column, the convex electrodes are arranged in the upper two rows and the planar electrodes are arranged in the lower two rows, or the planar electrodes are arranged in the upper two rows and the convex electrodes in the lower two rows. Is arranged. The batteries 1 arranged in this way can be connected in parallel by connecting the batteries 1 positioned vertically in the upper two rows or the lower two rows with the lead plate 5. In addition, four batteries arranged in one column can be connected by the lead plate 5 so that the upper two rows of batteries 1 and the lower two rows of batteries 1 can be connected in series.

  Further, the battery pack shown in the figure has the polarity of the battery 1 exposed from the opening 8 of the case 2 with the direction of the batteries 1 arranged in the adjacent rows (left and right in the drawing) reversed, and the batteries in the adjacent rows. The polarities are different from each other. That is, in the opening 8 of the case 2, the batteries adjacent to the left and right are arranged so that the convex electrodes and the planar electrodes are alternately positioned. Therefore, the electrodes of the battery 1 adjacent to the left and right can be connected by the lead plate 5, and these can be connected in series.

  In the illustrated battery pack, the electrodes of the battery 1 positioned above and below are connected in parallel and in series in one opening 8, and the electrodes of the battery 1 positioned on the left and right are connected in series in the other opening 8. , 20 batteries 1 are connected to each other. In the illustrated battery pack, ten batteries 1 are connected in series, and two 10 batteries 1 are connected in parallel. That is, 10 batteries in which two batteries 1 are arranged in parallel are connected in series.

  In the illustrated battery 1, the upper two rows of batteries 1 are used as a first group of batteries 1 </ b> A, and the lower two rows of batteries 1 are used as a second group of batteries 1 </ b> B. That is, the first group of batteries 1 </ b> A and the second group of batteries 1 </ b> B are configured by two rows of batteries 1. However, in the battery pack of the present invention, the first group of batteries and the second group of batteries can be three or more rows. Since the first group of batteries 1A and the second group of batteries 1B have the same number of rows, the total number of rows of the pack batteries is twice the number of rows of the first group of batteries 1A and the second group of batteries 1B. . For example, a battery pack having three rows of batteries of the first group and batteries of the second group has 6 rows as a whole. In the battery pack shown in the figure, the number of rows specifies the number of batteries 1 connected in series. To be exact, the battery pack shown in the figure has twice the number of rows as the number of batteries 1 in series. Therefore, in the battery pack in which the batteries 1 are connected in parallel and in series in the arrangement shown in the figure, the number of columns can be increased, the number of batteries 1 connected in series can be increased, and the output voltage can be increased.

  In the illustrated battery pack, upper and lower two rows of batteries 1 are connected in parallel, and adjacent rows of batteries 1 are connected in series. However, the present invention shows a battery arrangement in which the batteries are connected in parallel and in series. It is not specified in the structure shown in The upper and lower batteries can be connected in series, and the batteries in adjacent rows can be connected in parallel. Furthermore, in the illustrated battery pack, a plurality of batteries 1 are arranged in rows and columns in a straight line, but the batteries are not necessarily arranged in a straight line. For example, although not shown, batteries arranged in a column are positioned on the left and right. As a state of shifting the battery, it is also possible to arrange the batteries arranged in a zigzag shape or in a state where the positions of the batteries arranged in the horizontal row are shifted vertically.

  The case 2 is made of an insulating material such as plastic such as polypropylene or polyethylene. The plastic forming the case 2 is polypropylene. However, it can be molded from other plastics such as polyethylene and nylon. The case 2 made of an insulating material can directly store a battery whose surface is not insulated, that is, a battery having a metal outer can exposed on the surface.

  As shown in the cross-sectional view of FIG. 5, the case 2 is integrally formed with a holding portion 7 that is inserted through the battery 1 and holds the outer periphery of the inserted battery 1 and is disposed at a fixed position. Since the holding part 7 inserts and holds the battery 1, the shape of the inner surface is approximately equal to the outer shape of the battery 1, and is precisely formed slightly larger than the outer shape of the battery 1. In the illustrated battery pack, the cylindrical battery 1 is housed in the case 2, so the holding portion 7 is cylindrical. The case 2 is provided with a cylindrical holding portion 7 connected vertically and horizontally. The battery 1 is inserted into each holding part 7, and the case 2 stores a plurality of batteries 1 arranged at fixed positions. The holding portion 7 has an inner surface shape that conforms to the outer shape of the battery 1, but does not have to be a cylindrical shape that conforms to the entire surface of the battery 1. This is because the battery can be inserted into a holding portion having a shape in which a part of the cylinder is cut out and arranged at a fixed position.

  In the case 2, the batteries 1 are inserted into the holding portions 7, and the end faces of the plurality of batteries 1 are arranged in a vertical and horizontal orientation, that is, arranged in a matrix, in a parallel posture in which the end faces are located on the same surface. 3 and 4, the battery 1 is housed in the case 2 in a horizontal posture in parallel so that the end face of the battery 1 is positioned on a vertical surface.

  The battery 1 is connected to the lead plate 5 at the end while being housed in the holding portion 7 of the case 2. In order to realize this, the case 2 is provided with an opening 8 that exposes the end of the battery 1 to the outside. In the case 2 of FIGS. 3 and 4, one opening 8 has a structure in which the battery 1 can be taken in and out, and the other opening 8 has a structure in which the battery 1 does not come out. The opening 8 through which the battery 1 can be taken in and out has a size that allows the battery 1 to pass through the opening of the holding unit 7. As shown in FIG. 4, the opening 8 having a structure in which the battery 1 does not come out is provided with a stopper projection 10 that integrally blocks the insertion of the battery 1. The stopper projection 10 abuts against the end face of the battery 1 and prevents the battery 1 from exiting the opening 8.

  In the case 2 of FIGS. 3 and 4, the opening 8 for fixing the end plate 3 has a structure in which the battery 1 can be taken in and out, and the other opening 8 has a structure in which the battery 1 cannot be taken in and out. In the case 2 having this structure, the battery 1 is inserted into the holding portion 7 of the case 2 with the end plate 3 removed, and then the end plate 3 is fixed to the opening 8 so that the battery 1 does not come out of the case 2. Can be stored.

  The end plate 3 is made of an insulating material such as plastic. The end plate 3 is fixed to the opening 8 of the case 2 to fix the battery 1 at a fixed position so as not to come out of the case 2. Further, the end plate 3 has an electrode window 11 opened at each end face electrode position of the battery 1 so that the lead plate 5 can be fixed to the end of the battery 1 in a state where the end plate 3 is fixed to the case 2. . Since the battery pack shown in the figure accommodates 20 batteries 1 in 4 rows and 5 columns, the end plate 3 opens 20 electrode windows 11.

  The end plate 3 is connected to a fixed position of the case 2. In order to connect the end plate 3 to a fixed position of the case 2, the end plate 3 is provided with a screw hole 15 that is screwed and connected to the case 2. On the other hand, the case 2 is provided with a screw insertion portion 16 into which a set screw is screwed in a position facing the screw hole 15. The screw hole 15 is a through hole that penetrates the end plate 3, and a plurality of screw holes 15 are provided at the peripheral edge of the end plate 3. The screw insertion portion 16 is a portion into which a set screw inserted into the screw hole 15 is screwed, and is provided at a position facing the screw hole 15, that is, at the outer peripheral portion of the end portion in the case 2 in the figure. In the end plate 3, a set screw is inserted into the screw hole 15, and the set screw is screwed into the screw insertion portion 16 of the case 2 to be connected to a fixed position of the case 2.

  Further, although not shown, the battery pack is provided with a fitting protrusion on one of the end plate and the case, and a fitting recess for fitting the fitting protrusion on the other is provided. The end plate can also be connected to a fixed position of the case by fitting in the fitting recess. In this connection structure, for example, the fitting protrusion can be a protrusion or a protrusion, and the fitting recess can be a recess, hole, or groove into which the protrusion or protrusion is inserted. The fitting protrusion and the fitting recess are portions of the end plate and the case that face each other, and can be provided, for example, at the peripheral edge or the middle. In this battery pack, the end plate and the case are connected to a fixed position in a state where the fitting protrusion is fitted into the fitting recess. Further, the end plate and the case connected to a fixed position can be fixed firmly with an adhesive, welded, or screwed firmly.

  As described above, the battery pack that connects the end plate 3 to the fixed position of the case 2 connects the lead plate 5 to the fixed position of the end plate 3, and the battery 1 is fixed to the fixed position of the case 2 by the holding portion 7 of the case 2. As a result, the lead plate 5 can be disposed at a fixed position of the battery 1 and can be easily connected to the electrode of the battery 1. However, in the battery pack of the present invention, the structure for connecting the end plate to the fixed position of the case is not specified as the above structure. The battery pack can connect the end plate and the case in all other structures that can connect the end plate to a fixed position of the case.

  The end plate 3 connects the lead plate 5 to a fixed position. In the illustrated end plate 3, locking portions 12 are provided on both sides of the lead plate 5, and the lead plate 5 is connected to a fixed position by the locking portions 12. As shown in the sectional view of FIG. 6, the locking portion 12 is a convex portion formed in an L shape that locks both side edges of the lead plate 5. The locking portion 12 having this shape is integrally formed with the plastic end plate 3. The illustrated end plate 3 is provided with locking portions 12 on both sides of a connecting portion 5 a connected to the end of the battery 1. The end plate 3 can be easily connected by inserting the lead plate 5 into the locking portion 12 from above, that is, sliding the both end edges of the lead plate 5 into the locking portion 12. However, the battery pack of the present invention can be connected by bonding a lead plate to the end plate, or can be connected by fitting, or can be connected to a fixed position via an adhesive tape or the like.

  3 and 4, the connecting portion 5a of the lead plate 5 is connected to the inner surface of the end plate 3, as shown in FIGS. In the illustrated battery pack, the battery 1 is separated into a first group of batteries 1A and a second group of batteries 1B. The battery pack shown in the figure is separated into a first group of batteries 1A and a second group of batteries 1B by a battery 1 on the side close to the circuit board 4 and a battery 1 on the side away from the circuit board 4. In the figure, the upper two rows of batteries 1 on the circuit board 4 side are designated as a first group of batteries 1A, and the lower two rows of batteries 1 on the side away from the circuit board 4 are designated as a second group of batteries 1B.

  The lead portion 5b of the first lead plate 5A connecting the connecting portion 5a to the first group of batteries 1A is disposed on the inner surface of the end plate 3. The lead portion 5b of the second lead plate 5B connecting the connecting portion 5a to the second group of batteries 1B penetrates the end plate 3 and is arranged on the outer surface. As shown in FIG. 9, the end plate 3 has a through hole 13 through which the lead portion 5b of the second lead plate 5B is inserted, and the lead portion 5b of the lead plate 5B is inserted into the through hole 13. The connecting portion 5a of the second lead plate 5B is disposed inside the end plate 3, and the lead-out portion 5b of the second lead plate 5B is disposed outside. Furthermore, the end plate 3 of FIG. 9 is provided with a fitting recess 14 for guiding the drawn portion 5b of the second lead plate 5B drawn to the outside. The end plate 3 having this structure is insulated by arranging the lead portion 5b of the first lead plate 5A on the inner side and the lead portion 5b of the second lead plate 5B on the outer side, and the insulated lead portions 5b and 5b are insulated. Connected to the circuit board 4.

  The first lead plate 5A and the second lead plate 5B are manufactured by cutting a metal plate into a shape in which a connecting portion 5a connected to the electrode of the battery 1 is connected to a lead portion 5b connected to the circuit board 4. Is done. The first lead plate 5A and the second lead plate 5B include a lead plate for connecting four batteries in which a narrow drawer portion 5b is coupled to a wide coupling portion 5a, and the width of the drawer portion 5b and the coupling portion 5a. Are made of a lead plate for connecting two batteries having the same width. The lead plates for connecting four batteries are connected to the electrodes of four batteries 1 adjacent to each other vertically and horizontally in the drawing by a method such as welding. This lead plate for connecting four batteries connects two batteries 1 arranged in the vertical direction in parallel, and further connects two batteries 1 positioned on the left and right in series. The lead plate for connecting two batteries is connected to the electrodes of the battery 1 positioned above and below in the drawing by a method such as welding, and connects the two batteries 1 in parallel. The lead plate for connecting two batteries is connected to an output terminal (not shown).

  In the battery pack, the third lead plate 5 </ b> C is connected to the electrode of the battery 1 on the opposite side of the end plate 3. The third lead plate 5 </ b> C is connected to the electrodes of the batteries 1 in one vertical row and connects the upper end to the circuit board 4. The third lead plate 5C connects two batteries 1 in parallel, and further connects two batteries 1 connected in parallel in series. That is, the upper two rows of batteries 1 are connected in parallel, the lower two rows of batteries 1 are connected in parallel, and the upper two rows and the lower two rows of batteries 1 are connected in series with each other. The first lead plate 5A and the second lead plate 5B connect the upper two rows of batteries 1 in parallel, and further connect the lower two rows of batteries 1 in parallel, so that two batteries 1 in the adjacent columns are connected. Are connected in series. Therefore, in the illustrated battery pack, the upper and lower batteries 1 are connected in series by the third lead plate 5C, and the left and right batteries 1 are connected in series by the first lead plate 5A and the second lead plate 5B.

The above battery pack connects the end plate 3 and the lead plate 5 as follows.
(1) The first lead plate 5A and the second lead plate 5B are connected to a fixed position of the end plate 3. At this time, the lead portion 5b of the first lead plate 5A is arranged inside the end plate 3, and the lead portion 5b of the second lead plate 5B is inserted into the through hole 13 of the end plate 3 and pulled out to the outside. , And is arranged outside the end plate 3 while being guided by the insertion recess 14.
(2) The battery 1 is inserted into the holder 7 of the case 2 and the battery 1 is stored in the case 2.
(3) The end plate 3 is connected to the opening 8 of the case 2. The end plate 3 is screwed and connected to the case 2.
(4) The connecting portions 5a and 5a of the first lead plate 5A and the second lead plate 5B are connected to the electrode of the battery 1 by spot welding or laser welding.
(5) The third lead plate 5C is disposed in the opening 8 on the opposite side of the case 2, and is connected to the electrode of the battery 1 by spot welding or laser welding.

  The end plate 3 having the above-described structure can be insulated from the lead portions 5b and 5b of the first lead plate 5A and the second lead plate 5B without using another component. However, in the battery pack of the present invention, the entire lead plate 5 can be disposed outside the end plate 3 as shown in FIGS. This battery pack does not allow the lead plate 5B of the second lead plate 5B to penetrate the end plate 3. In this battery pack, a first lead plate 5A and a second lead plate 5B are disposed outside the end plate 3. In order to insulate the lead portion 5b of the second lead plate 5B from the first lead plate 5A, an insulating material 17 is laminated between the lead portion 5b of the second lead plate 5B and the first lead plate 5A. is doing. The insulating material 17 is a paper sheet or a plastic sheet. In the embodiment shown in FIGS. 11 to 14, the same components as those in the above-described embodiment are designated by the same reference numerals and the description thereof is omitted.

  The end plate 3 shown in these figures is provided with a fitting recess 18 on the outer surface for fitting and fixing the lead plate 5 in order to connect the lead plate 5 to a fixed position. The fitting recess 18 has an inner shape substantially equal to the outer shape of the connecting portion 5a so that the connecting portion 5a of the lead plate 5 is fitted. Since the lead plate 5 shown in the figure has a rectangular shape as a whole of the connecting portion 5a, the fitting recess 18 is also a square. Further, in the end plate 3 of FIGS. 11 and 12, the insulating material 17 is also fitted in the fitting recess 18 so as to be fitted at a fixed position. The insulating material 17 has a shape that covers the connecting portion 5 a that is fitted into the fitting recess 18 of the end plate 3. 11 and FIG. 12, the first lead plates 5A are arranged in three rows and connected. The insulating material 17 connects the main body cover portion 17A that covers the connecting portions 5a of the first lead plates 5A arranged in three rows by a narrow arm portion 17B. Further, the insulating material 17 opens an electrode window 17 a at the same position as the electrode window 11 of the end plate 3. The insulating material 17 can be fixed by welding the first lead plate 5A to the electrode of the battery 1 in a state of being laminated on the first lead plate 5A. This is because the first lead plate 5A can be exposed to the outside from the electrode window 17a of the insulating material 17. The end plate 3 shown in the figure is provided with a fitting recess 18 that fits the main body cover portion 17A and the arm portion 17B of the insulating material 17 and connects them in place. As shown in FIGS. 11 and 12, the main body cover portion 17A of the insulating material 17 is laminated on the surface of the connecting portion 5a of the first lead plate 5A, and the lead portion 5b of the second lead plate 5B is used as the first lead plate 5B. Insulating from the lead plate 5A.

  The lead portion 5b of the second lead plate 5B is disposed between the electrode windows 17a. When the lead-out portion 5b is in a position to close the electrode window 17a, the lead-out portion 5b of the second lead plate 5B is easily short-circuited from the electrode window 17a to the first lead plate 5A, and the second lead plate 5B is This is because the first lead plate 5 </ b> A cannot be connected to the battery 1 by being connected to the end plate 3.

  The end plate 3 is located at the end of the battery 1 and is provided with an electrode window 11. The electrode window 11A on the convex electrode side is substantially equal to the outer shape of the convex electrode so that the convex electrode can be inserted. An electrode window 11B on the plane electrode side through which the plane electrode opposite to the convex electrode is inserted passes through the plane electrode side of the battery 1 and positions the plane electrode on the outer surface of the end plate 3. Therefore, the electrode window 11 </ b> B on the planar electrode side is opened to a size substantially equal to the outer shape of the battery 1. The convex electrode and the planar electrode are inserted into the electrode window 11 and contact the lead plate 5 laminated on the outer surface of the end plate 3. In this state, the convex electrode and the planar electrode are connected to the connecting portion 5a of the lead plate 5 by welding. The end plate 3 in which the electrode window 11A on the convex electrode side is substantially equal to the outer shape of the convex electrode can omit an insulating ring that is inserted into the outer periphery of the convex electrode. This is because the end plate 3 insulates the caulking convex portion around the convex electrode, so that the lead plate 5 connected to the convex electrode can be prevented from coming into contact with the caulking convex portion and short-circuiting.

As described above, the battery pack in which the lead plate 5 is disposed outside the end plate 3 fixes the end plate 3 and the lead plate 5 as follows.
(1) Insert the battery 1 into the holding part 7 of the case 2.
(2) The end plate 3 is fixed to the opening 8 of the case 2. The end plate 3 closes the opening 8 of the case 2 so that the battery 1 does not come out of the case 2.
(3) Insert the first lead plate 5A into the fitting recess 18 provided on the outside of the end plate 3 and connect it in place. The insulating material 17 is put into the fitting recess 18 of the end plate 3 and connected to a fixed position of the end plate 3. The second lead plate 5B is inserted into the fitting recess 18 and connected to a fixed position of the end plate 3.
(4) The connecting portion 5a between the first lead plate 5A and the second lead plate 5B is connected to the electrode of the battery 1 by a method such as spot welding.
(5) The third lead plate 5C is disposed in the opening 8 on the opposite side of the case 2, and is connected to the electrode of the battery 1 by spot welding or laser welding.

  In the above method, since the connecting portion 5a of the first lead plate 5A and the second lead plate 5B is connected to the electrode of the battery 1 by welding in one step, the lead plate 5 is efficiently connected to the battery 1. it can. However, the first lead plate 5A is connected to the outside of the end plate 3, the first lead plate 5A is connected to the electrode of the battery 1, and then the insulating material 17 is laminated, and then the second lead plate 5B. Can be connected to the end plate 3, and the connecting portion 5 a of the second lead plate 5 B can be connected to the electrode of the battery 1.

  The circuit board 4 is mounted with a voltage detection circuit that detects each battery voltage and controls charging / discharging of the battery 1. The battery pack shown in the figure detects all battery voltages separately and independently by a voltage detection circuit. The battery pack using the battery 1 as a lithium ion secondary battery can detect all battery voltages and control charging and discharging in an ideal state. Since the battery pack shown in the figure has two batteries 1 connected in parallel, the voltages of the batteries 1 connected in parallel are detected together. The lithium ion secondary battery can detect a fully charged state and a completely discharged state by voltage. A battery pack in which a plurality of batteries 1 are connected in series charges and discharges all the batteries 1 with the same current. However, not all batteries 1 are charged and discharged in the same state. All the batteries 1 are not deteriorated in the same manner, and are not manufactured to exactly the same characteristics in the manufacturing process. For this reason, the plurality of batteries 1 connected in series vary in capacity, internal resistance, and the like that can be substantially fully charged. When such a battery 1 is charged and discharged with the same current, any one of the batteries 1 is fully charged first or completely discharged.

  The pack battery that controls charging / discharging while detecting all battery voltages by the voltage detection circuit charges / discharges while preventing overcharging and overdischarging of all the batteries 1. The voltage detection circuit cuts off the charging current when any battery voltage rises to the maximum voltage while charging the battery pack. Further, when the battery 1 is being discharged, the discharge current is cut off when the voltage of any one of the batteries 1 decreases to the minimum voltage.

  Even in a battery pack in which the battery 1 is a nickel metal hydride battery or a nickel cadmium battery, charging and discharging can be controlled while detecting all battery voltages to prevent overcharge and overdischarge of all the batteries 1. Therefore, this invention does not specify a battery as a lithium ion secondary battery.

  The circuit board 4 is fixed to one surface of the outer periphery of the case 2. In the illustrated battery pack, the circuit board 4 is fixed to the upper surface of the case 2. In the illustrated battery pack, a substrate holder 19 is fixed to the upper surface of the case 2, and the circuit board 4 is fixed in the substrate holder 19. The substrate holder 19 is an upper opening box made of plastic and formed separately from the case 2. The circuit board 4 fixed inside the substrate holder 19 is connected to the leading end of the lead portion 5 b of the lead plate 5 via the lead wire 20. In the illustrated battery pack, the lead wire 20 is soldered and connected to the circuit board 4, and the lead wire 20 is soldered and connected to the lead-out portion 5 b of the lead plate 5.

  Since the lead plate 5 connects the lead portion 5 b to the circuit board 4, the lead portion 5 b extends in the direction of the circuit board 4. The lead part 5b does not flow a load current flowing from the battery 1 to the load. Therefore, the drawer portion 5 b is narrower than the connecting portion 5 a and extends toward the circuit board 4.

  Further, in the battery pack of FIGS. 3 and 4, a battery assembly 21 including the battery 1, the case 2, the circuit board 4, and the board holder 19 is accommodated in the outer case 6. The outer case 6 connects the first case 6A and the second case 6B, and houses the battery assembly 21 therein. The first case 6A and the second case 6B are made of plastic in a shape in which a peripheral wall is provided around a square bottom plate. The peripheral wall is fixed with screws, and the battery assembly 21 is housed inside.

It is a conventional battery pack, and is a perspective view showing a state where a lead plate is connected to the battery. It is a side view which shows the state which folded the lead board shown in FIG. 1 into two. 1 is an exploded perspective view of a battery pack according to an embodiment of the present invention. FIG. 4 is a rear perspective view of the battery assembly of the battery pack shown in FIG. 3. 1 is a vertical longitudinal sectional view of a battery pack according to an embodiment of the present invention. It is a horizontal sectional view of the end plate of the battery pack according to one embodiment of the present invention. It is the figure which looked at the end plate of the battery pack concerning one Example of the present invention from the inside. It is the figure which looked at the end plate shown in FIG. 7 from the outer side. It is a disassembled perspective view of the end plate shown in FIG. It is a disassembled perspective view of the end plate shown in FIG. It is a disassembled perspective view of the battery pack concerning the other Example of this invention. FIG. 12 is a rear perspective view of the battery pack shown in FIG. 11. It is the figure which looked at the end plate of the battery pack concerning the other Example of this invention from the inner side. It is the figure which looked at the end plate shown in FIG. 13 from the outer side.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Battery 1A ... Battery of 1st group
DESCRIPTION OF SYMBOLS 1B ... Battery of 2nd group 2 ... Case 3 ... End plate 4 ... Circuit board 5 ... Lead plate 5A ... 1st lead plate
5B ... Second lead plate
5C ... Third lead plate
5a ... Connection part
5b ... drawer part 6 ... outer case 6A ... first case
6B ... 2nd case 7 ... Holding part 8 ... Opening part 10 ... Stopper convex part 11 ... Electrode window 11A ... Electrode window on convex electrode side
DESCRIPTION OF SYMBOLS 11B ... Plane electrode side electrode window 12 ... Locking part 13 ... Through-hole 14 ... Insertion recessed part 15 ... Screw hole 16 ... Screw insertion part 17 ... Insulating material 17A ... Main body cover part
17B ... Arm
17a ... electrode window 18 ... fitting recess 19 ... substrate holder 20 ... lead wire 21 ... battery assembly 31 ... battery 32 ... lead plate 33 ... slit 34 ... circuit board 35 ... projection for wiring

Claims (10)

A plurality of batteries (1) are stored side by side in a parallel orientation with their end faces positioned on the same surface, and an opening (8) for exposing the end of the stored battery (1) to the outside is provided. The case (2) made of an insulating material and the opening (8) of the case (2) are fixed, and the battery (1) is fixed in place so as not to come out of the case (2). An end plate (3) made of an insulating material that opens an electrode window (11) at the end electrode position of each battery (1), and the end of the battery (1) from the opening (8) of the case (2) A lead plate (5) connected to the adjacent battery (1),
The lead plate (5) on the end plate (3) side includes a connecting portion (5a) connected to the electrode at the end of the battery, and a lead-out portion (5b) drawn from the connecting portion (5a). The connecting portion (5a) is arranged on the inner side of the end plate (3) which is the battery-facing surface, and is connected to the electrodes of the batteries (1) arranged next to each other, so that the adjacent batteries (1) Are connected in parallel or in series, or connected in parallel and in series, and the drawer part (5b) is parallel to the end plate (3) and is drawn out in the same direction,
The end plate (3) connects the lead plate (5) to a fixed position, and the battery (1) is composed of a first group of batteries (1A) and a second group of batteries (1B). The lead part (5b) of the first lead plate (5A) connecting the connecting part (5a) to the battery (1A) of the battery is connected to the inner surface of the end plate (3), and to the second group of batteries (1B). The lead portion (5b) of the second lead plate (5B) connecting the connecting portion (5a) is passed through the end plate (3) and arranged on the outer surface, and the first plate with the end plate (3) A battery pack in which the lead portion (5b) of the lead plate (5A) and the lead portion (5b) of the second lead plate (5B) are insulated. A plurality of batteries (1) are stored side by side in a parallel orientation with their end faces positioned on the same surface, and an opening (8) for exposing the end of the stored battery (1) to the outside is provided. The case (2) made of an insulating material and the opening (8) of the case (2) are fixed, and the battery (1) is fixed in place so as not to come out of the case (2). An end plate (3) made of an insulating material that opens an electrode window (11) at the end electrode position of each battery (1), and the end of the battery (1) from the opening (8) of the case (2) A lead plate (5) connected to the adjacent battery (1),
The lead plate (5) on the end plate (3) side includes a connecting portion (5a) connected to the electrode at the end of the battery, and a lead-out portion (5b) drawn from the connecting portion (5a). The connecting portion (5a) is disposed on the outer side of the end plate (3) opposite to the battery facing surface, and is connected to the electrodes of the batteries (1) disposed next to each other, so that the adjacent battery (1) are connected in parallel or in series, or connected in parallel and in series, and the drawer part (5b) is in a direction parallel to the end plate (3) and is drawn out in the same direction,
The end plate (3) connects the lead plate (5) to a fixed position, and the battery (1) is composed of a first group of batteries (1A) and a second group of batteries (1B). The first lead plate (5A) connecting the connecting part (5a) to the battery (1A) is arranged outside the end plate (3), and the connecting part (5a) is connected to the second group of batteries (1B). The lead portion (5b) of the second lead plate (5B) connecting the two is insulated with an insulating material (17) and laminated on the outside of the first lead plate (5A). A battery pack which is arranged on the outer surface and insulates the lead portion (5b) of the first lead plate (5A) and the lead portion (5b) of the second lead plate (5B) with an insulating material (17). A plurality of batteries (1) are stored side by side in a parallel orientation with their end faces positioned on the same surface, and an opening (8) for exposing the end of the stored battery (1) to the outside is provided. The case (2) made of an insulating material and the opening (8) of the case (2) are fixed, and the battery (1) is fixed in place so as not to come out of the case (2). An end plate (3) made of an insulating material that opens an electrode window (11) at the end face electrode position of each battery (1) and a case (2) fixed to one surface of the outer periphery of each battery ( The circuit board (4) having a voltage detection circuit for detecting the voltage of 1) and the electrode of the battery (1) connected to the end of the battery (1) from the opening (8) of the case (2) A lead plate (5) connected to (4),
The lead plate (5) on the end plate (3) side is connected to the connection part (5a) connected to the electrode at the battery end, and the connection part (5a) is connected to the circuit board (4 A connecting portion (5a) is disposed on the inner side of the end plate (3) which is the battery facing surface, and is disposed next to each other (1) The adjacent batteries (1) are connected in parallel or in series, or connected in parallel and in series, and the lead-out part (5b) is connected to the circuit board (4). The voltage is input to the voltage detection circuit,
The end plate (3) connects the lead plate (5) to a fixed position, and the battery (1) is composed of a first group of batteries (1A) and a second group of batteries (1B). The lead part (5b) of the first lead plate (5A) connecting the connecting part (5a) to the battery (1A) of the battery is connected to the inner surface of the end plate (3), and to the second group of batteries (1B). The lead portion (5b) of the second lead plate (5B) connecting the connecting portion (5a) is passed through the end plate (3) and arranged on the outer surface, and the first plate with the end plate (3) Battery pack in which the lead portion (5b) of the lead plate (5A) and the lead portion (5b) of the second lead plate (5B) are insulated and the electrode of the battery (1) is connected to the circuit board (4) . A plurality of batteries (1) are stored side by side in a parallel orientation with their end faces positioned on the same surface, and an opening (8) for exposing the end of the stored battery (1) to the outside is provided. The case (2) made of an insulating material and the opening (8) of the case (2) are fixed, and the battery (1) is fixed in place so as not to come out of the case (2). An end plate (3) made of an insulating material that opens an electrode window (11) at the end face electrode position of each battery (1) and a case (2) fixed to one surface of the outer periphery of each battery ( The circuit board (4) having a voltage detection circuit for detecting the voltage of 1) and the electrode of the battery (1) connected to the end of the battery (1) from the opening (8) of the case (2) A lead plate (5) connected to (4),
The lead plate (5) on the end plate (3) side is connected to the connection part (5a) connected to the electrode at the battery end, and the connection part (5a) is connected to the circuit board (4 And a connecting portion (5a) disposed on the outer side opposite to the battery facing surface of the end plate (3) and arranged next to each other. Connected to the electrode of (1), adjacent batteries (1) are connected in parallel or in series, or connected in parallel and in series, and the drawer part (5b) is connected to the circuit board (4), Each battery voltage is input to the voltage detection circuit,
The end plate (3) connects the lead plate (5) to a fixed position, and the battery (1) is composed of a first group of batteries (1A) and a second group of batteries (1B). The first lead plate (5A) connecting the connecting part (5a) to the battery (1A) is arranged outside the end plate (3), and the connecting part (5a) is connected to the second group of batteries (1B). The lead portion (5b) of the second lead plate (5B) connecting the two is insulated with an insulating material (17) and laminated on the outside of the first lead plate (5A). The battery (1) is arranged on the outer surface, and the lead portion (5b) of the first lead plate (5A) and the lead portion (5b) of the second lead plate (5B) are insulated with an insulating material (17). Battery pack with the electrodes connected to the circuit board (4).   The first group of batteries (1A) and the second group of batteries (1B) are divided into a battery (1) on the side closer to the circuit board (4) and a battery (1) on the side away from the circuit board (4). Separately, the battery (1) on the circuit board (4) side is the first group of batteries (1A), and the battery (1) on the side away from the circuit board (4) is the second group of batteries (1B). Item 5. A battery pack according to item 3 or 4.   The case (2) is made of plastic, and a holding part (7) for inserting the battery (1) and holding the outer periphery is integrally formed, and each battery (1) is provided in the holding part (7). The battery pack according to any one of claims 1 to 4, wherein the battery pack is inserted into a fixed position.   The case (2) is provided with an opening (8) at both ends of the battery (1), and an end plate (3) is fixed to the opening (8) at one end. Pack battery.   The battery pack according to any one of claims 1 to 4, wherein a locking portion (12) for locking the lead plate (5) is integrally formed with the end plate (3).   The end plate (3) is provided with a screw hole (15) for inserting a set screw, and the case (2) is provided with a screw insertion part (16) for screwing the set screw at a position facing the screw hole (15). Screw the set screw that passes through the screw hole (15) of the end plate (3) into the screw insertion part (16) of the case (2), and connect the end plate (3) to the fixed position of the case (2). The battery pack according to any one of claims 1 to 8. One of the end plate (3) and the case (2) is provided with a fitting projection, and the other is provided with a fitting recess for fitting the fitting projection, and the fitting projection is used as a fitting depression. The battery pack according to any one of claims 1 to 8, wherein the battery pack is fitted to the end plate and connected to a fixed position of the case.

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