JP5089350B2 - Pack battery - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To efficiently emit light of a light emitting diode to the outside by a lamp reader while facilitating assembly. <P>SOLUTION: The back battery includes a case 1, a battery 2 incorporated in the case 1, a circuit board 3 connected to the battery 2, a light emitting diode 4 made to emit light by an electronic circuit to be mounted on the circuit board 3, and the translucent lamp reader 5 which guides the light of the light emitting diode 4 to outside the case 1. The circuit board 3 has a first circuit board 3A and a second circuit board 3B. The first circuit board 3A and the second circuit board 3B are disposed at fixed position with a separator 6 clamped. The separator 6 and the lamp reader 5 are molded in one body of a translucent material such as plastic or glass having light transparency. <P>COPYRIGHT: (C)2009,JPO&amp;INPIT

Description

  The present invention relates to a battery pack in which a battery is housed in a case, and more particularly to a battery pack in which a display such as a remaining capacity of the battery is indicated by a light emitting diode.

Electronic devices that use a lamp reader to radiate light from a light emitting diode to the outside have been developed. (See Patent Document 1)
Japanese Patent Laid-Open No. 10-84737

  The gazette of patent document 1 describes the charger which guides the light of a light emitting diode to the exterior of a case with a lamp reader. In this charger, a lamp reader is fixed to a through hole provided in the case. The light of the light emitting diode provided inside the case is radiated to the outside of the case through a lamp reader fixed to the case. In this structure, it is important to place the light emitting diode at an accurate position of the lamp reader. This is because if the relative position of the light emitting diode with respect to the lamp reader is shifted, the light from the light emitting diode cannot be efficiently incident on the lamp reader, and the light emitted from the lamp reader to the outside becomes dark. In the charger of Patent Document 1, the lamp reader is fixed to the case, and the light emitting diode is fixed to the circuit board built in the case. Therefore, it is difficult to accurately arrange the relative position between the lamp reader and the light emitting diode. is there. This is because the displacement of the assembly position of the lamp reader and the case and the displacement of the circuit board relative to the case shift the relative positions of the lamp reader and the light emitting diode.

  The present invention has been developed for the purpose of solving the conventional drawbacks. An important object of the present invention is to provide a battery pack capable of efficiently emitting light from a light emitting diode to the outside with a lamp reader while simplifying assembly.

The battery pack of the present invention has the following configuration in order to achieve the aforementioned object.
The battery pack includes a case 1, a battery 2 built in the case 1, a circuit board 3 connected to the battery 2, a light emitting diode 4 that emits light in an electronic circuit mounted on the circuit board 3, A light-transmitting lamp reader 5 for guiding the light from the light-emitting diode 4 to the outside of the case 1 is provided. The circuit board 3 includes a first circuit board 3A and a second circuit board 3B. The first circuit board 3A and the second circuit board 3B are disposed at fixed positions with the separator 6 interposed therebetween. The separator 6 and the lamp reader 5 are integrally formed with a translucent material made of translucent plastic or glass.

  The battery pack according to claim 2 of the present invention is formed in a shape in which an L-shaped lamp reader 5 is connected to the surface of the separator 6, and the light of the light emitting diode 4 fixed to the circuit board 3 is transmitted by the lamp reader 5. Guided outside the case 1.

  The battery pack according to claim 3 of the present invention has a current detection plate 7 made of a metal plate for detecting the current of the battery 2, and the current detection plate 7 is composed of the first circuit board 3 </ b> A and the second circuit board 3 </ b> B. The first circuit board 3 </ b> A and the second circuit board 3 </ b> B are arranged at fixed positions by the current detection plate 7.

  The battery pack according to claim 4 of the present invention includes a plurality of light-emitting diodes 4 that connect the plurality of lamp readers 5 to the separator 6 at a predetermined interval and irradiate each lamp reader 5 with light. Further, in the battery pack, the current detection plate 7 includes a shielding piece 16 disposed between the lamp readers 5. The shielding piece 16 prevents light leakage of each light emitting diode 4 and the lamp reader. 5 is irradiated.

  The battery pack according to the present invention has a feature that light from a light emitting diode can be efficiently emitted to the outside by a lamp reader while being easily assembled. That is, the battery pack of the present invention is provided by integrally forming a lamp reader for guiding the light emitting diode to the outside on a separator that is sandwiched between the first circuit board and the second circuit board. Because. The lamp reader provided integrally with the separator is disposed at an accurate position via the separator connected to the circuit board. For this reason, the relative position of the light emitting diode and the lamp reader does not shift, and the light of the light emitting diode can be efficiently incident on the lamp reader and efficiently radiated to the outside. In addition, since the lamp reader is disposed at an accurate position via the separator, a process of arranging the lamp reader at a fixed position is not required, and the assembly can be simplified and the lamp reader can be disposed at an accurate position.

  The battery pack according to claim 2 of the present invention is shaped so that an L-shaped lamp reader is connected to the surface of the separator, and the light of the light-emitting diode fixed to the circuit board is guided outside the case by the lamp reader. Therefore, it is very convenient to fix the light emitting diode to the circuit board and to make the light incident on the lamp reader. This is because the light of the light emitting diode fixed to the circuit board can be reliably incident on the L-shaped lamp reader connected to the separator fixed to the circuit board, and efficiently radiated to the outside.

  The battery pack according to claim 3 of the present invention further includes a current detection plate made of a metal plate for detecting the current of the battery, and the current detection plate is connected to the first circuit board and the second circuit board. Therefore, the current detection plate is used in combination with a member for connecting the first circuit board and the second circuit board, and the first circuit board and the second circuit board are arranged at fixed positions by the current detection plate. it can.

  The battery pack according to claim 4 of the present invention connects a plurality of lamp readers to a separator at a predetermined interval, irradiates each lamp reader with light from a plurality of light emitting diodes, and further includes a current detection plate, A shielding piece disposed between each lamp reader is provided, and light leakage of each light emitting diode is prevented by this shielding piece. In this battery pack, light leakage of the light emitting diode is prevented by the current detection plate, and the light of the light emitting diode can be clearly emitted to the outside from each lamp reader.

  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. 1 to 7 includes a case 1, a battery 2 built in the case 1, a circuit board 3 connected to the battery 2, and an electronic circuit mounted on the circuit board 3. A light-emitting diode 4 that emits light, and a translucent lamp reader 5 that guides light from the light-emitting diode 4 to the outside of the case 1 are provided.

  The case 1 includes a box-shaped lower case 1B having an upper opening, and an upper case 1A that is connected to the lower case 1B and closes the opening of the lower case 1B. The upper case 1A and the lower case 1B are made of plastic. The lower case 1 </ b> B is formed of plastic in a rectangular box shape that houses a plurality of batteries 2. The upper case 1 </ b> A has a housing portion 11 for the circuit board 3, and irradiates the display window 12 for connecting the output terminal 8 fixed to the circuit board 3 to an external connection device and the light of the light emitting diode 4 to the outside. A display window 13 is provided. The case 1 is assembled by storing the battery assembly 10 in which the circuit board 3 is connected to the battery 2 in the lower case 1B, and connecting the upper case 1A to the lower case 1B in which the battery assembly 10 is stored.

  The battery assembly 10 is assembled by connecting the circuit board 3 to the battery block 20 via the lead plate 9. The battery pack of FIG. 2 has two sets of battery blocks 20 arranged horizontally in two rows horizontally and stored in an inner case 21. Each battery block 20 has four unit cells 2 arranged in parallel in two rows and two rows, and both ends thereof are connected by lead plates 9. Each battery block 20 is connected in series with two batteries 2 connected in parallel. Each battery block 20 is connected to the circuit board 3 via the lead plate 9. In the illustrated battery pack, the first circuit board 3A is connected in a horizontal position on the battery blocks 20 arranged in two rows in parallel. The lead plates 9 connected to both ends of each battery block 20 are connected to a voltage detection circuit (not shown) mounted on the first circuit board 3A. This voltage detection circuit detects the voltage of each battery 2 and controls the current of the battery 2 so as to prevent overcharge and overdischarge of the battery 2. Furthermore, on the first circuit board 3A, the second circuit board 3B is arranged in parallel and fixed in a horizontal posture.

  The battery 2 of the battery block 20 is a lithium ion secondary battery of a cylindrical battery. However, the battery pack of the present invention does not specify a battery as a cylindrical battery, nor does it specify a lithium ion secondary battery. As the battery, any rechargeable battery such as a nickel metal hydride battery or a nickel cadmium battery can be used. In addition, a rectangular battery can be used instead of the cylindrical battery.

  The circuit board 3 is fixed on the battery block 20, more precisely on the inner case 21 housing the battery block 20, and on the first circuit board 3 A. The second circuit board 3B is provided. The first circuit board 3A and the second circuit board 3B are disposed at fixed positions with the separator 6 interposed therebetween. The separator 6 is sandwiched between the first circuit board 3A and the second circuit board 3B that are arranged above and below, and arranges the first circuit board 3A and the second circuit board 3B at a predetermined interval. Furthermore, the first circuit board 3A and the second circuit board 3B are connected to each other via lead plates 17A and 18A that are fixed by a method such as soldering. The first circuit board 3A and the second circuit board 3B shown in the exploded perspective view of FIG. 3 are connected by a lead plate 18A connected to the output terminal 8 and a lead plate 17A connected to the current detection plate 7. Is done.

  The output terminal 8 is made of a metal plate that is elastically deformed. The output terminal 8 has a shape for connecting the lead plate 18 to an elastic contact portion 8a that is electrically connected by elastically sandwiching a connection terminal of an external connection device. The output terminal 8 is fixed to the surface of the second circuit board 3B via the lead plate 18. The lead plate 18 is a short lead plate 18B connected to the second circuit board 3B and a long lead board 18A connected to the first circuit board 3A to connect the first circuit board 3A and the second circuit board 3B. A lead plate 18A. The short lead plate 18B is fixed to the second circuit board 3B by soldering. The long lead plate 18A is fixed by soldering to the first circuit board 3A, and connects the first circuit board 3A and the second circuit board 3B. Furthermore, the output terminal 8 is connected to the battery 2 via a lead wire (not shown).

  The current detection plate 7 is connected in series with the battery 2 and detects the current of the battery 2. Therefore, the current detection plate 7 is made of a metal plate having a predetermined electric resistance. The current detection plate 7 of FIGS. 3 and 4 is made of a single metal plate. The current detection plate 7 is provided with lead plates 17 bent upward at both ends thereof, and a shielding piece 16 provided between the adjacent lamp readers 5 is provided at an intermediate portion. One lead plate 17, the lead plate 17A at the right end in the figure, is provided by bending the side of the current detection plate 7 upward, and the upper end is connected to the second circuit board 3B. The lead plate 17A penetrates through the second circuit board 3B and is connected to the second circuit board 3B. The other lead plate 17, that is, the lead plate 17 B at the left end in the drawing, is provided with its edge bent upward and connected to the battery 2 via the lead wire 19.

  The current of the battery 2 is calculated from the detected voltage by detecting the voltage across the current detection plate 7. This is because the current of the battery 2 is proportional to the product of the electric resistance and the current of the current detection plate 7 and can be calculated from the voltage / electric resistance. The current detection plate 7 connects the lead plate 17A to the first circuit board 3A by a method such as soldering, and places the first circuit board 3A and the second circuit board 3B in place. The lead plate 17A of the current detection plate 7 of FIGS. 3 and 4 extends upward, and is provided with a stepped portion 17a in contact with the lower surface of the first circuit board 3A. The stepped portion 17a is brought into contact with the lower surface of the first circuit board 3A, and the first circuit board 3A is disposed at a fixed position. In other words, the current detection plate 7 is arranged at a fixed position on the first circuit board 3A. Further, the current detection plate 7 of FIGS. 3 and 4 is provided with a shielding piece 16 disposed between the lamp readers 5 apart from the lead plate 17A.

  The shielding piece 16 of the current detection plate 7 is located between the lamp readers 5 and prevents light leakage of each light emitting diode 4. That is, the light from the light emitting diode 4 is prevented from entering the adjacent lamp reader 5. Therefore, the structure in which the shielding piece 16 is provided on the current detection plate 7 is a lamp reader that is arranged in a state where the light of each light emitting diode 4 is close to each other and optically coupled without entering the adjacent lamp reader 5. 5 is incident only. For this reason, each lamp reader 5 irradiates only the light of the light-emitting diode 4 optically coupling it to the outside, and does not irradiate the light of the adjacent light-emitting diode 4. The lamp reader 5 that does not emit light can be clearly distinguished. The shielding pieces 16 are disposed between the lamp readers 5 that fix the current detection plate 7 to the circuit board 3 and are connected to the separator 6 at a predetermined interval. For this reason, the current detection plate 7 can be fixed and the shielding piece 16 can be arranged at an accurate position, and a structure and labor for arranging the dedicated shielding piece at a specific position are not required.

  The first circuit board 3A and the second circuit board 3B are disposed at fixed positions with the separator 6 interposed therebetween. The separator 6 shown in FIGS. 3 and 4 is made of plastic in a rectangular frame shape. The thickness of the separator 6 is the distance between the first circuit board 3A and the second circuit board 3B. In other words, the interval at which the first circuit board 3A and the second circuit board 3B are arranged can be specified by the thickness of the separator 6. The separator 6 in the figure is formed in a rectangular frame shape that follows the outer shape of the second circuit board 3B.

  Further, the separator 6 is provided by integrally molding the lamp reader 5. The separator 6 is a translucent material made of translucent plastic or glass, and the separator 6 and the lamp reader 5 are integrally formed. The separator 6 shown in the figure is formed in a shape that protrudes from the lower surface and connects the L-shaped lamp reader 5. Furthermore, the separator 6 in the figure is formed into a shape that connects three sets of lamp readers 5 at a predetermined interval. The L-shaped lamp reader 5 has a shape in which a horizontal portion 5B extending horizontally is connected to a vertical portion 5A extending downward from the separator 6, and the tip of the horizontal portion 5B is disposed in the display window 13 of the case 1. ing.

  The light from the light emitting diode 4 is incident on the horizontal portion 5 </ b> B of the lamp reader 5. Therefore, the light emitting diode 4 is fixed to the circuit board 3 and fixed to a position where the converged light is incident on the horizontal portion 5B of the lamp reader 5. The portion to which the light emitting diode 4 is fixed is shown in the rear perspective view as seen from the bottom of FIGS. As shown in these drawings, the light emitting diode 4 is fixed to the back surface of the first circuit board 3 </ b> A and makes light incident on the horizontal portion 5 </ b> B of the lamp reader 5. The light emitting diode 4 is a type having a converging lens, and the converged light is incident on the horizontal portion 5 </ b> B of the lamp reader 5. The horizontal portion 5B of the lamp reader 5 is horizontally disposed at a position protruding from the back surface of the first circuit board 3A so that the convergent light of the light emitting diode 4 can be incident. The light emitting diode 4 irradiates the horizontal portion 5B with convergent light in the horizontal direction.

  The separator 6 shown in FIGS. 3 and 6 is provided with a protruding protruding portion 6a on both sides for connecting the first circuit board 3A and the second circuit board 3B to fixed positions. The first circuit board 3A and the second circuit board 3B are provided with positioning concave portions or positioning holes 3a for guiding the positioning convex portions 6a. The positioning projections 6a are inserted into the positioning recesses and the positioning holes 3a of the first circuit board 3A and the second circuit board 3B, and the separator 6 is positioned at the fixed positions of the first circuit board 3A and the second circuit board 3B. Connected. With this structure, the first circuit board 3 </ b> A and the second circuit board 3 </ b> B are accurately connected in place via the separator 6. The first circuit board 3A and the second circuit board 3B connected to a fixed position via the separator 6 are fixed to the fixed position by connecting the lead plates 18 and 17A by a method such as soldering.

  Further, the separator 6 is provided with a through hole 6 b of a set screw 14 for connecting the circuit board 3 to the inner case 21. The first circuit board 3A and the second circuit board 3B are also provided with a through-hole 3b located above and below the through-hole 6b. The set screw 14 is inserted through the through-hole 3b of the second circuit board 3B, the through-hole 6b of the separator 6 and the through-hole 3b of the first circuit board 3A, and the inner case housing the battery block 20 at the tip. 21 is screwed and connected. Further, in the battery pack shown in FIG. 2, both end portions of the first circuit board 3 </ b> A are connected to the inner case 21 with set screws 14 and 15. A set screw 14 for fixing one end of the first circuit board 3A to the inner case 21 passes through the second circuit board 3B, the separator 6 and the first circuit board 3A, and the tip thereof is attached to the inner case 21. It is fixed by screwing. The set screw 15 for fixing the other end of the first circuit board 3A to the inner case 21 penetrates only the first circuit board 3A and is screwed to the inner case 21 for fixing. A cylindrical body 22 through which the set screw 15 is inserted is provided between the first circuit board 3 </ b> A and the inner case 21. The cylindrical body 22 is sandwiched between the inner case 21 and the first circuit board 3A, and specifies a constant interval between the inner case 21 and the first circuit board 3A.

This battery pack is assembled in the following steps.
(1) As shown in FIG. 3, the output terminal 8 is fixed to the upper surface of the second circuit board 3B. As shown in FIG. 6, the output terminal 8 is fixed by soldering a short lead plate 18B to the second circuit board 3B.
(2) As shown in FIG. 4, the second circuit board 3B to which the output terminal 8 is fixed is connected to the first circuit board 3A. The second circuit board 3B and the first circuit board 3A are stacked together with the separator 6 interposed therebetween, and are connected via the lead plate 18A of the output terminal 8 and the lead plate 17A of the current detection plate 7. Is done. At this time, the separator 6 is connected to a fixed position by guiding the positioning convex portion 6 a to the positioning hole 3 a of the circuit board 3. As shown in FIG. 7, the lead plate 18A of the output terminal 8 penetrates through the first circuit board 3A and is fixed by soldering to the first circuit board 3A. The current detection plate 7 contacts the stepped portion 17a of the lead plate 17A with the lower surface of the first circuit board 3A, and the tip of the lead plate 17A is placed at the second position while the first circuit board 3A is disposed at a fixed position. It penetrates the circuit board 3B and is fixed to the second circuit board 3B by soldering. At this time, the current detection plate 7 arranges the shielding piece 16 between the lamp readers 5.
(3) Further, as shown in FIG. 5, the lead wire 19 is soldered to the lead plate 17B of the current detection plate 7 and connected.
The circuit board 3 is assembled through the above steps.
(4) Four unit cells 2 are arranged in parallel in two rows and two rows, and both ends thereof are connected by lead plates 9 to form a battery block 20. Two sets of battery blocks 20 are horizontally arranged in two rows horizontally and stored in the inner case 21.
(5) The circuit board 3 is connected to the inner case 21 in which the battery block 20 is housed. The circuit board 3 is fixed at a fixed position to the inner case 21 via set screws 14 and 15. Each battery block 20 is connected to the first circuit board 3 </ b> A via the lead plate 9.
Through the above steps, the circuit board 3 is fixed to the inner case 21, and the battery assembly 10 shown in FIG. 2 is obtained.
(6) The upper part of the battery assembly 10 is stored in the upper case 1A. In the battery assembly 10, the second circuit board 3B is housed in the housing portion 11 of the upper case 1A, and the output terminal 8 fixed to the second circuit board 3B is disposed in the display window 12 and exposed to the outside. At the same time, the tip of the lamp reader 5 is placed in the display window 13 and exposed outside.
(7) The lower part of the battery assembly 10 is stored in the lower case 1B. Further, the lower case 1B and the upper case 1A are connected to each other through openings.

1 is a perspective view of a battery pack according to an embodiment of the present invention. It is a disassembled perspective view of the battery pack shown in FIG. It is a disassembled perspective view of the circuit board of the battery pack shown in FIG. It is a disassembled perspective view which shows the assembly process of the circuit board shown in FIG. It is a perspective view which shows the state which assembled the circuit board shown in FIG. It is the back perspective view which looked at the circuit board shown in Drawing 4 from the bottom. It is the back perspective view which looked at the circuit board shown in Drawing 5 from the bottom.

Explanation of symbols

1 ... Case 1A ... Upper case
DESCRIPTION OF SYMBOLS 1B ... Lower case 2 ... Battery 3 ... Circuit board 3A ... 1st circuit board
3B ... Second circuit board
3a ... Positioning hole
3b ... Penetration part 4 ... Light emitting diode 5 ... Lamp reader 5A ... Vertical part
5B ... Horizontal part 6 ... Separator 6a ... Positioning convex part
6b ... Through-hole 7 ... Current detection plate 8 ... Output terminal 8a ... Elastic contact part 9 ... Lead plate 10 ... Battery assembly 11 ... Storage part 12 ... Terminal window 13 ... Display window 14 ... Set screw 15 ... Set screw 16 ... Shielding piece 17 ... Lead plate 17A ... Lead plate
17a ... Step part
17B ... Lead plate 18 ... Lead plate 18A ... Lead plate
18B ... Lead plate 19 ... Lead wire 20 ... Battery block 21 ... Inner case 22 ... Cylindrical body

Claims (4)

A case (1), a battery (2) built in the case (1), a circuit board (3) connected to the battery (2), and an electronic circuit mounted on the circuit board (3). A battery pack comprising a light emitting diode (4) that emits light, and a light-transmitting lamp reader (5) that guides the light from the light emitting diode (4) to the outside of the case (1),
The circuit board (3) includes a first circuit board (3A) and a second circuit board (3B), and the first circuit board (3A) and the second circuit board (3A) include a separator (6). A battery pack that is sandwiched and disposed at a fixed position, and the separator (6) and the lamp reader (5) are integrally formed of a light-transmitting material made of light-transmitting plastic or glass.   The light of the light emitting diode (4) fixed to the circuit board (3) is shaped by connecting the L-shaped lamp reader (5) to the surface of the separator (6), and the lamp reader (5) The battery pack according to claim 1, wherein the battery pack is guided outside the case (1).   It has a current detection plate (7) made of a metal plate for detecting the current of the battery (2), and this current detection plate (7) is attached to the first circuit board (3A) and the second circuit board (3B). The battery pack according to claim 1, wherein the battery pack is connected and the first circuit board (3A) and the second circuit board (3B) are arranged at fixed positions by the current detection plate (7).   The plurality of lamp readers (5) are connected to the separator (6) at a predetermined interval, and each of the lamp readers (5) includes a plurality of light emitting diodes (4), and further, the current detection The plate (7) includes a shielding piece (16) disposed between each lamp reader (5), and this shielding piece (16) prevents light leakage of each light emitting diode (4). The battery pack according to claim 3, wherein the battery pack is irradiated with a lamp reader (5).

Images