RU2786199C2 - Battery block - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: invention relates to the field of electrical engineering, namely to a battery block, which can be used, for example, for an electrical instrument. Undesired short circuits are prevented between places of connections, in which outputs are respectively electrically connected to a circuit board and other electroconductive outputs of the battery block. The battery block includes: case (18), one or more battery elements (12) placed inside the case, one or more installation surfaces (52a, 54a, 56a, 58a) located inside the case, circuit board (16), which is placed inside the case and is installed on installation surface(s), and one or more outputs (20b, 22b) electrically connected to the circuit board, while one or more elastic gaskets (60, 62) surround perimeter(s) of output(s), and they are placed between the circuit board and installation surface(s).

EFFECT: increase in the reliability of operation of a battery block.

15 cl, 10 dwg

Description

FIELD OF THE INVENTION

[0001] The present invention relates generally to a battery pack, for example, for a power tool.

BACKGROUND OF THE INVENTION

[0002] Japanese Patent Laid-open Publication 2011-171125 discloses a battery pack that includes: a case; battery cells that are located inside the case; mounting surfaces that are located inside the case; a circuit board that is placed inside the case and installed on the mounting surfaces; and leads inside the case that are connected to the circuit board.

SUMMARY OF THE INVENTION

[0003] However, in the above-described known battery pack, there is a risk that an electrically conductive substance (liquid), such as water, enters the inside of the case and adheres to the surfaces of the circuit board. In this case, it is possible that one or more of the connection points where the leads are connected to the circuit board will be undesirably shorted to one or more other places, thereby causing irreversible damage to the battery cells and/or the circuit board.

[0004] Therefore, it is a non-limiting object of the present invention to provide a method for preventing unwanted short circuits between junctions in which the leads are respectively electrically connected to the circuit board and other electrically conductive lead, material, etc., which should not be connected with the places mentioned.

[0005] In one aspect of the present invention, the battery pack may include: a housing; one or more battery cells that fit(s) inside the case; one or more mounting surfaces, which(s) is(are) inside the housing; a circuit board that is housed inside the case and mounted on the mounting surface(s); one or more terminals within the package, which(s) are connected(s) to the circuit board; and one or more elastic spacers that(s) surround(s) the perimeter(s) of the lead(s) and are(are) placed between the circuit board and the mounting surface(s).

[0006] Thus, even if a conductive substance such as water has entered (came into contact with) the rear surface(s) of the circuit board from the side that contacts the mounting surfaces in the battery pack according to the above aspect, the junctions at which the circuit board and terminals are respectively connected are sealed with an elastic gasket(s). Therefore, it is possible to prevent an unwanted short circuit between any of the connection points at which the circuit board and terminals are connected and another point. In addition, since the elastic spacer(s) are placed between the circuit board and the mounting surface(s), the adhesive properties of the elastic spacer can be further improved.

[0007] Additional objects, aspects, embodiments, and advantages of the present invention will become apparent to those skilled in the art upon examination of the following detailed description in connection with the accompanying claims and drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

[0008] FIG. 1 is an angled view that shows the exterior of a battery pack 10 according to an exemplary embodiment of the present invention.

Fig. 2 is an exploded view of a battery pack 10 according to an exemplary embodiment.

Fig. 3 is an exploded view of an element holder 14 according to an exemplary embodiment.

Fig. 4 is a front view of the positional relationship of a plurality of battery cells 12, a plurality of lead plates 20, 22, and a circuit board 16 in an exemplary embodiment.

Fig. 5 is a left side view of the positional relationship of a plurality of battery cells 12, a plurality of lead plates 20, 22, and a circuit board 16 in an exemplary embodiment.

Fig. 6 is a right side view of the positional relationship of a plurality of battery cells 12, a plurality of lead plates 20, 22, and a circuit board 16 in an exemplary embodiment.

Fig. 7 is a plan view of the positional relationship of a plurality of battery cells 12, a plurality of lead plates 20, 22, and a circuit board 16 in an exemplary embodiment.

Fig. 8 is a partial angled view of an element holder 14 according to an exemplary embodiment.

Fig. 9 is an angled view that shows the appearance of a rear surface side of the circuit board 16 according to an exemplary embodiment.

Fig. 10 is a sectional view that shows an exemplary construction of a junction in which the first contact portion 20b (the second contact portion 22b) is connected to the circuit board 16, in the exemplary embodiment.

DETAILED DESCRIPTION OF EMBODIMENTS

[0009] Representative, non-limiting specific examples of the present invention are described in detail below with reference to the drawings. This detailed description is only intended to explain the details to a person skilled in the art for the purpose of practicing the preferred examples of the present invention and is not intended to limit the scope of the present invention. In addition, each of the additional features and developments disclosed below may be used alone or in combination with other features and developments to provide further improved battery packs, methods for their manufacture, and methods for their use.

[0010] In addition, the combinations of features and steps disclosed in the following detailed description are not essential to the practice of the invention in the broadest sense and, on the contrary, are presented only to specifically describe representative specific examples of the present invention. In addition, the various features of the above and below-described representative specific examples, as well as the various features described in the independent and dependent claims, need not be combined, as shown in the specific examples described herein, or in the order shown, to provide additional useful embodiments of the present invention. In other words, to provide additional useful embodiments of the present invention, the above features can be combined in ways that are not specifically and explicitly listed.

[0011] All features described in the present description and/or claims are intended to be disclosed separately and independently of each other for the purpose of the initial written disclosure of the invention, as well as for the purpose of limiting the claimed subject matter, regardless of the combinations of features described in the embodiments and/or claims. In addition, all ranges or indications of groups and sets are intended to disclose each possible intermediate value or indication for the purpose of the initial written disclosure of the invention, as well as for the purpose of limiting the claimed subject matter.

[0012] In one or more embodiments of the present invention, the battery pack may include: a housing; a battery cell or cells that fit(s) within the case; a mounting surface or mounting surfaces that(s) is/are located inside the housing; a circuit board that is housed inside the case and mounted on the mounting surface(s); a terminal or terminals within the package that(s) is(are) connected to the circuit board; and a resilient spacer or resilient spacers which(s) surround(s) (cover(s)) the perimeter(s) of the terminal(s) and are(are) located between the circuit board and the mounting surface(s).

[0013] According to the above configuration, even if an electrically conductive substance such as water has entered (came into contact with) the back surface(s) of the circuit board from the side that is in contact with the mounting surface(s) , the location(s) of the connection(s) at which the circuit board and the terminal(s) are (electrically) connected are sealed(are) with an elastic gasket(s), and therefore an undesirable short circuit between any of the locations can be prevented. (a) connection(s) in which the circuit board and the output(s) of the output(s) are respectively (electrically) connected, and one or more other places. the spacer(s) are(are) placed between the circuit board and the mounting surface(s), and hence the adhesive properties of the resilient spacer can be further improved.

[0014] In one or more embodiments of the present invention, the terminal(s) may be connected (electrically connected) to the battery cell(s).

[0015] In the event that any junction at which the circuit board and terminal(s) and battery cell(s) are (electrically) connected is undesirably shorted (hypothetically) to another electrically conductive location, a strong electric current may flow and cause irreversible damage to the battery cell(s) and/or circuit board. Therefore, it is desirable to have a method to reliably prevent short circuits. According to the above configuration, it is possible to reliably prevent any junction at which the circuit board and the terminal(s) connected to the battery cell(s) are connected from being undesirably short-circuited to another location due to the elastic gasket(s) ) covers(s) the output or each of the outputs. In a preferred embodiment, one or more through holes are formed in the resilient spacer(s) and the lead(s) (respectively) extend(s) through the hole(s).

[0016] In one or more embodiments of the present invention, the battery pack may further comprise a cell holder that is housed within the housing and secures the battery cell(s). Mounting surface(s) may be formed(s) on the element holder.

[0017] By applying a configuration in which the mounting surface(s) is(are) formed on the cell holder that fixes the battery cell(s), and the circuit board is mounted on the mounting surface(s) , the battery pack can be made more compact. According to the aforementioned configuration of the battery pack, it is possible to prevent any junction where the circuit board and terminal(s) are (electrically) connected from being undesirably short-circuited to another location.

[0018] In one or more embodiments of the present invention, the elastic(s) gasket(s) can be attached (glued, attached) to the circuit board.

[0019] According to the above configuration, by mounting the circuit board on the mounting surface(s) with the elastic pad(s) attached to the circuit board, the elastic pad(s) can be placed between circuit board and mounting surface(s), without displacement during operation. In addition, the elastic(s) gasket(s) can be easily combined with the place(s) of connection(s) in which the circuit board and lead(s) are connected. For example, in an embodiment in which holes are formed in the resilient spacer(s) to pass through leads, the holes in the resilient spacer(s) are aligned with corresponding through holes formed in the circuit board.

[0020] In one or more embodiments of the present invention, the leads may comprise a first lead that is connected to the circuit board and a second lead that is connected to the circuit board separately (separately) from the first lead. The form(s) of the resilient(s) gasket(s) are preferably designed such that the resilient(s) gasket(s) continuously and completely surround(s) (surround) the perimeters of both the first lead and the second lead.

[0021] According to the above configuration, the junction at which the circuit board and the first terminal are connected and the junction at which the circuit board and the second terminal are connected can be protected by one elastic pad. Accordingly, the number of parts of the battery pack can be reduced.

[0022] In one or more embodiments of the present invention, the circuit board may have a notch between the junction at which the first terminal and the circuit board are connected and the junction at which the second terminal and the circuit board are connected. In embodiments in which at least three leads are provided, one notch may be provided between each set of adjacent of the leads so that a plurality of notches may be provided in the circuit board, for example at equal intervals along one or both edges of the circuit board. . The notch(s) are preferably formed along the edge of the circuit board between adjacent junctions such that a line crossing the adjacent junctions is intersected by the notch(s).

[0023] According to the above configuration, it is possible to more reliably prevent the occurrence of an undesired short circuit between the junction at which the circuit board and the first terminal are connected and the junction at which the circuit board and the second terminal are connected.

[0024] In one or more embodiments of the present invention, the battery pack may further comprise a (protective) coating or coatings that(s) are provided on the surface of the circuit board from the side opposite the surface on which the elastic(s) are provided. (s), and covers(s) and/or seal(s) the place(s) of the connection(s) in which the circuit board and the terminal(s) are connected.

[0025] In the above configuration, on one surface of the circuit board, the joint(s) at which the circuit board and the lead(s) are connected are protected by an elastic gasket(s). On the other (opposite) surface of the circuit board, the junction(s) where the circuit board and lead(s) are connected is protected by a cover(s). Accordingly, it is possible to more reliably prevent the occurrence of a short circuit between any connection point at which the circuit board and the terminal(s) are connected and another point.

[0026] In one or more embodiments of the present invention, the elastic(s) gasket(s) may (may) consist of at least one material selected from the group consisting of rubber, elastomer, foam (foamed polymer) and sponges.

[0027] According to the above configuration, the elastic spacer(s) can be made from a material that is easily obtainable and easily moldable, and hence the manufacturing cost of the battery pack can be reduced.

[0028] (Exemplary embodiment)

A battery pack (battery case) 10 according to one representative, non-limiting exemplary embodiment of the present invention is described below with reference to the drawings. The battery pack 10 of the present exemplary embodiment is a rechargeable battery that serves as a power source for supplying power to an electrical device (not shown) such as power tools such as impact drills, circular saws, chain saws, lawn mowers, blowers, etc. and is installed on the electrical device and dismantled (removable) from it. As shown in figures 1 and 2, the battery pack 10 includes: a plurality of battery cells 12; a cell holder 14 (battery cell holder) that accommodates a plurality of battery cells 12; and a circuit board 16 which is fixedly fixed to the cell holder 14 and electrically connected to the plurality of battery cells 12. In addition, the battery pack 10 includes a case 18 that accommodates a plurality of battery cells 12, a cell holder 14, and a circuit board 16.

[0029] The battery cells 12 are fixed by the cell holder 14 so that the battery cells 12 are parallel to each other. Each of the battery cells 12 is a rechargeable battery cell. In at least one example of the principles of the present invention, each of the battery cells 12 in the present exemplary embodiment may be, for example, a lithium ion battery cell having a nominal voltage of approximately 4 volts. thirty-two battery cells 12 may be arranged (electrically connected) such that one set of battery cells consists of two battery cells 12 connected to each other in parallel, and sixteen sets of such parallel-connected battery cells 12 are connected in series. In this arrangement, the battery pack 10 has a nominal voltage of approximately 64 volts.

[0030] The cell holder 14 consists of an electrically insulating material (eg, a polymeric (synthetic) material, preferably a hard or rigid polymeric material). Embedded in the cell holder 14 are a plurality of first lead plates (battery connection leads) 20 and a plurality of second lead plates (battery connection leads) 22. Specifically, the first lead plates 20 are disposed on one side wall of the cell holder 14, and the second lead plates 22 are disposed on the other (opposite) side wall of the holder 14 elements. The battery cells 12 are electrically connected to each other by the first lead plates 20 and the second lead plates 22. In addition, each of the first lead plates 20 and each of the second lead plates 22 are electrically connected to the circuit board 16. The circuit board 16 includes wiring connections or busbars. , which electrically connect the first lead plates 20 and the second lead plates 22 in series, thereby creating a 64-volt power supply.

[0031] In the present description, the term "terminal plate" is used as a synonym for the terms "connection contacts" or "connection jumpers". It should be noted that the term "lead" in the original is used in the sense of "electrical lead", and not in the sense of the element lead (Pb). Thus, the lead plates can be made from any electrically conductive metal or alloy, such as copper, copper alloy, aluminium, aluminum alloy, etc.

[0032] Thus, the circuit board 16 is electrically connected to the plurality of battery cells 12 via the first lead plates 20 and the second lead plates 22. The circuit board 16 is configured to detect voltages on each of the first lead plates 20 and voltages on each of the second lead plates 22 and thereby can determine the voltage of each of the battery cells 12 to diagnose whether one or more of the battery cells 12 is not fully charged and/or is irreversibly damaged. In addition, a plurality of external connection terminals 24 are provided on the circuit board 16. The external connection terminals 24 are for connection to an electrical device and may include, for example, a pair of power supply terminals (plus and minus batteries) and one or more terminals for signal/data transmission. . A pair of power supply terminals are electrically connected to the battery cells 12 and supplies the electrical device with power (current) output (delivered) when the battery cells 12 are discharged. In addition, a pair of power supply terminals is configured to be electrically connected to a charger (not shown) to receive charging current supplied from the charger to recharge the battery cells 12. On circuit board 16, signal/data output(s) are provided connected to a processor (not shown). The processor (eg, microprocessor and memory) may execute programs to determine and output one or more signals indicative of, for example, the current-voltage characteristic of the battery pack 10, the remaining battery capacity of the battery pack 10, the temperature inside the battery pack 10, and so on.

[0033] The outer shape of the body 18 is essentially a rectangular box. The housing 18 is preferably formed from a polymeric (synthetic) material, such as a hard or rigid polymeric material. On the upper surface of the housing 18, gripping structures (eg, guides) 18a are formed to engage with the electrical apparatus and a plurality of holes 18b (eg, slots) that receive the respective connection terminals of the electrical apparatus. The external connection terminals 24 on the circuit board 16 are respectively positioned (continued) within the plurality of holes 18b. It should be noted that the configuration of the housing 18 in the present description is only one example, and the specific configuration of the housing 18 can be modified as needed.

[0034] Next, the structure of the cell holder 14 will be explained with reference to FIG. 3. The element holder 14 includes a first holder main body 26 and a second holder main body 28. The first holder main body 26 and the second holder main body 28 are fixed to each other with a plurality of battery cells 12 therebetween and thereby fixing (holding) the plurality of battery cells 12 so that the battery cells 12 are parallel to each other. The element holder 14 further comprises a first holder cover 30 and a second holder cover 32. The first holder cover 30 presses (closes) the plurality of first lead plates 20 and is mounted on (attached to) the first holder main body(s) 26, thereby securing the plurality of first lead plates 20 to the first main body 26 holder (ie, to a plurality of battery cells 12). The second holder cover 32 presses (closes) the plurality of second lead plates 22 and is mounted on the second holder main body 28, thereby securing the plurality of second lead plates 22 to the second holder main body 28 (i.e., to the plurality of battery cells 12).

[0035] The first outer waterproof gasket 34 is provided (placed) between the first holder cover 30 and the plurality of first lead plates 20, and the first inner waterproof gasket 36 is provided (placed) between the plurality of first lead plates 20 and the first holder main body 26. The first outer waterproof gasket 34 and the first inner waterproof gasket 36 are composed of silicone rubber and prevent (block) the penetration(s) of moisture, small foreign materials, and the like. In other words, the first lead plates 20 are integrally held between a pair of waterproof films ( 34, 36) due to lamination with these films. Similarly, a second outer waterproof gasket 38 is provided (placed) between the second holder cover 32 and the plurality of second lead plates 22, and a second inner waterproof gasket 40 is provided (placed) between the plurality of second lead plates 22 and the second holder main body 28. The second outer waterproof liner 38 and the second inner waterproof liner 40 are also composed of silicone rubber and prevent moisture, small foreign materials, etc. from entering. In this way, the second lead plates 22 are also placed in one piece between the pair of waterproof films (38, 40) due to the lamination of these films.

[0036] It should be noted that none of the waterproof gaskets 34, 36, 38, 40 is limited to silicone rubber. That is, instead, one, some or all of the waterproof pads 34, 36, 38 and/or 40 may consist of another type of flexible material having waterproof properties, such as another high molecular weight (polymeric) material, such as, for example: foams type of foamed polyethylene; gaskets made of elastomers and urethane sponge; or similar materials. The waterproof pads 34, 36, 38 and/or 40 preferably also function as electrically insulating pads.

[0037] Next, the constructions of the first lead plates 20 and the second lead plates 22 are explained in further detail. It should be noted that, for simplicity, the element holder 14 is not shown in FIG. 4-6. As shown in FIG. 4-6, the first lead plates 20 are spaced (arranged, placed) along (in) the first plane P1, and the second lead plates 22 are spaced (arranged, placed) along (in) the second plane P2, which is preferably parallel or, along at least substantially parallel (eg, less than 5° in angle) to the first plane P1. In addition, each of the battery cells 12 includes a first end 12a that faces the first plane P1 and a second end 12b that faces a second plane P2 parallel to the first plane P1. It should be noted that not all battery cells 12 have the same orientation. That is, some of the battery cells 12 have their positive electrodes at first ends 12a and their negative electrodes at second ends 12b, while other battery cells 12 have their negative electrodes at first ends 12a and their positive electrodes at second ends 12b.

[0038] Each of the first lead plates 20 includes: a first main portion (bridge) 20a that is located along (continues in) the first plane P1; a first contact portion (contact) 20b that extends through an opening (described below) in the circuit board 16 and is electrically connected to it near the first side edge 16a of the circuit board 16; and a first extension (curved) section 20c that connects the first main section 20a to the first contact section 20b. The first main portions 20a are respectively connected to one or more of the first ends 12a (ie, positive electrode or negative electrode) of the battery cells 12. Although not specifically limited, in the present exemplary embodiment, the first main portions 20a are connected (electrically connected) to the first end(s) 12a of one or more of the battery cells 12 by spot welding (resistance welding). The circuit board 16 is formed with a plurality of first through holes 16c (see FIGS. 7, 9 and 10) corresponding to the plurality of first contact areas 20b. Thus, the first contact portions 20b respectively pass through the circuit board 16 from the rear surface side to the front surface side, through the respective first through holes 16c, and are soldered (electrically connected) to the circuit board 16.

[0039] Similarly, each of the second lead plates 22 includes: a second main portion (bridge) 22a that is located along (continues in) the second plane P2; a second contact portion (contact) 22b that extends through and is electrically connected to a hole (described below) in the circuit board 16 near the second side edge 16b of the circuit board 16; and a second extension (curved) section 22c which connects the second main section 22a to the second contact section 22b. The second main portions 22a are respectively connected to one or more of the second ends 12b (ie, positive electrode or negative electrode) of the battery cells 12. Although not specifically limited, in the present exemplary embodiment, the second main portions 22a are connected (electrically connected) to the second end(s) 12b of one or more battery cells 12 by spot welding (resistance welding). The circuit board 16 is formed with a plurality of second through holes 16d (see FIGS. 7, 9 and 10) corresponding to the plurality of second contact areas 22b. Thus, the second contact portions 22b respectively pass through the circuit board 16 from the rear surface side to the front surface side, through the respective second through holes 16d, and are soldered (electrically connected) to the circuit board 16.

[0040] As shown in FIG. 7, the front surface side of the circuit board 16 is provided with coatings 50 which respectively cover the junctions at which the first contact portions 20b are connected to the circuit board 16 and the junctions at which the second contact portions 22b are connected to the circuit board 16. The coatings 50 are composed , for example, from urethane resin (polyurethane), epoxy resin, polyurea or similar materials. Therefore, even if a conductive substance, such as water, has entered (came into contact with) the front surface side(s) of the circuit board 16, the coatings 50 may prevent the first contact portions 20b and the second contact portions 22b from being undesirably shorted to their adjacent first contact areas 20b and second contact areas 22b, respectively. Therefore, the covers 50 are preferably a durable, strong, electrically insulating material that seals the first and second contact areas 20b, 22b. Coatings 50 are preferably also hard. In the present embodiment, a plurality of separate (discontinuous) coatings 50 are provided, but the coating material can also be applied such that two or more of the junctions (first and/or second contact areas 20b, 22b) are closed (sealed) by a common (solid) coating 50 .

[0041] As shown in FIG. 4 and 7, the circuit board 16 extends from the first side edge 16a to the second side edge 16b, which is located on the side opposite the first side edge 16a, such that the circuit board 16 intersects the first plane P1 and the second plane P2 (and preferably perpendicular to these planes). That is, the circuit board 16 of the present exemplary embodiment is relatively large, and its width from the first side edge 16a to the second side edge 16b exceeds the length of the battery cells 12.

[0042] As shown in FIG. 7, in the battery pack 10 of the present exemplary embodiment, on (c) the first side edge 16a of the circuit board 16, a plurality of first cutouts 42 are provided. . Due to such a configuration (such an arrangement) of the cutouts 42 and the locations of the first contact areas 20b, it is possible to improve the electrical insulating properties of the gaps between the first contact areas 20b on the circuit board 16, since there is no bridge material between adjacent first contact areas 20b in the direction of the first plane P1. Similarly, on the second side edge 16b of the circuit board 16, a plurality of second cuts 44 are also provided. Again, due to this configuration (arrangement) of the cutouts 44 and the locations of the second contact areas 22b, it is possible to improve the electrical insulation properties of the spaces between the second contact areas 22b on the circuit board 16, since there is no bridge material between adjacent second contact areas 22b in the direction of the second plane P2. .

[0043] As shown in FIG. 3 and 8, in the battery pack 10 of the present exemplary embodiment, on the first main body 26 of the holder (along the edge of this body), a plurality of first supporting parts (flanges, consoles) 52 corresponding to the plurality of first lead plates 20 are formed (arranged, arranged). As shown in FIG. 10, when the circuit board 16 is installed on the element holder 14, each of the first supporting parts 52 is placed between the circuit board 16 and the first extension (curved) portion 20c of the corresponding first lead plate 20. Similarly, on the second main body 28 of the holder (at the edge of this body ) a plurality of second support parts (flanges, consoles) 54 is formed (arranged, located) corresponding to a plurality of second lead plates 22. When the circuit board 16 is installed on the element holder 14, each of the second support parts 54 is placed between the circuit board 16 and the second extension ( curved) section 22c of the corresponding second output plate 22.

[0044] As also shown in FIG. 3 and 8, in the battery pack 10 of the present exemplary embodiment, a plurality of first support shelves (curved flanges) 56 corresponding to a plurality of first support parts 52 are formed on the first holder cover 30. Each of the first support shelves 56 has a shape that surrounds the perimeter of the respective of the first support piece 52 and the perimeter of the first extension portion 20c of the corresponding first lead plate 20. Similarly, on the second holder cover 32, a plurality of second support legs (curved flanges) 58 are formed corresponding to the plurality of second support pieces 54. Each of the second support shelves 58 is shaped (shaped) that surrounds the perimeter of the respective second support piece 54 and the perimeter of the second extension portion 22c of the respective second lead plate 22.

[0045] Each of the first support members 52 has a first inner mounting surface 52a that is opposite the rear surface of the circuit board 16. Each of the second support members 54 has a second inner mounting surface 54a that is opposed to the rear surface of the circuit board 16. Each of the first support shelves 56 has a first outer mounting surface 56a that is opposite the rear surface of the circuit board 16. Each of the second support shelves 58 has a second outer mounting surface 58a that is opposite the rear surface of the circuit board 16. When the circuit board 16 is to be mounted on the member holder 14, the circuit board 16 is fixed with one or more screws (not shown) to the cell holder 14, with the circuit board 16 mounted on the first inner mounting surfaces 52a, the second inner mounting surfaces 54a, the first outer mounting surfaces 56a, and the second outer mounting surfaces 58a.

[0046] As shown in FIG. 9, the first waterproof gasket (seal) 60 and the second waterproof gasket (seal) 62 are affixed (glued, bonded) to the rear surface of the circuit board 16. The first waterproof gasket 60 may extend in parallel or substantially parallel to the second waterproof gasket 62. In addition, , the first plane P1 intersects the first waterproof gasket 60, and the second plane P2 intersects the second waterproof gasket 62. The first waterproof gasket 60 and the second waterproof gasket 62 are composed of silicone rubber and prevent (block) the penetration(s) of moisture, small foreign materials, etc. to the first and second contact areas 20b, 22b between the circuit board 16 on one side and the element holder 14 on the other side.

[0047] The first waterproof gasket 60 is a material in the form of one (solid, integral) sheet, which is attached from one end to the other end of the circuit board 16 in the longitudinal direction along the first side edge 16a. The first waterproof gasket 60 is shaped such that the perimeter of each of the first through holes 16c of the circuit board 16 is surrounded (covered) in a direction perpendicular to the extension direction of the first contact portions 20b that respectively pass through the first through holes 16c of the circuit board 16. In particular, in The first waterproof gasket 60 is formed with a set of first through holes 60a, and these first through holes 60a are respectively aligned with the first through holes 16c of the circuit board 16 in the continuation direction of the first contact portions 20b. Therefore, when the circuit board 16 is installed on the cell holder 14, the first waterproof gasket 60 is positioned such that the material of the first waterproof gasket 60 surrounds (covers) the perimeters of all the first contact portions 20b of the plurality of first lead plates 20. Therefore, even if the electrically conductive substance, for example, water has entered (came into contact with) the back surface side(s) of the circuit board 16, the first waterproof gasket 60 prevents such conductive substance from penetrating into the space around the perimeters of the first contact areas 20b, thereby preventing the first contact areas 20b from being undesirably shorted. on top of each other (ie, on adjacent first contact areas 20b).

[0048] Similarly, the second waterproof pad 62 is a single sheet material that is attached from one end to the other end of the circuit board 16 in the longitudinal direction along the second side edge 16b. The second waterproof gasket 62 is shaped such that the perimeter of each of the second through holes 16d of the circuit board 16 is surrounded (covered) in a direction perpendicular to the extension direction of the second contact portions 22b, which respectively pass through the second through holes 16d of the circuit board 16. In particular, in the second waterproof gasket 62 is formed with a set of second through holes 62a, and these second through holes 62a are respectively aligned with the second through holes 16d of the circuit board 16 in the continuation direction of the second contact portions 22b. Therefore, when the circuit board 16 is installed on the cell holder 14, the second waterproof gasket 62 is disposed such that the material of the second waterproof gasket 62 surrounds (covers) the perimeters of all the second contact portions 22b of the plurality of second lead plates 22. Therefore, even if the electrically conductive substance, for example, water has entered (came into contact with) the back surface side(s) of the circuit board 16, the second waterproof gasket 62 prevents such conductive substance from penetrating into the space around the perimeters of the second contact areas 22b, thereby preventing undesirable short circuiting of the second contact areas 22b on each other (ie, on adjacent second contact areas 22b).

[0049] It should be noted that the first waterproof gasket 60 and the second waterproof gasket 62 are not limited to silicone rubber. That is, instead, one or both of the first and second waterproof pads 60, 62 can be made from another type of flexible (preferably compressible) material having different waterproof properties, for example, from another high molecular weight (polymeric) material, such as, for example, : Polyethylene foam type foam; gaskets made of elastomers and urethane sponge; or similar materials. The first and second waterproof pads 60, 62 preferably also function as electrically insulating pads as well as vibration absorbing materials, thereby suppressing vibrations between the cell holder 14 and the circuit board 16 during operation.

[0050] The waterproof pads 34, 36, 38, 40 and the first and second waterproof pads 60, 62 may be made from the same material, if necessary, but the present invention is not limited to this. The first and second waterproof pads 60, 62 (and if necessary also waterproof pads 34, 36, 38, 40) are preferably resiliently compressible (elastic) in their thickness direction. According to ASTM F36, the material of the first and second waterproof gaskets 60, 62 (and, if necessary, also waterproof gaskets 34, 36, 38, 40) preferably has a compressibility of at least 3%, preferably at least 10% , preferably at least 20%, preferably at least 30%, preferably 40%, when subjected to a load of 5,000 psi. inch (34.5 MPa) for 60 seconds. In addition, according to ASTM F36, the material of the first and second waterproof gaskets 60, 62 (and, if necessary, also waterproof gaskets 34, 36, 38, 40) preferably has an elastic recovery of at least 40%, preferably at least at least 50%, preferably at least 60%, preferably 70%, after the load is removed and the material is given 60 seconds to rebound.

[0051] The material of the first and second waterproof seals 60, 62 (and, if necessary, also waterproof seals 34, 36, 38, 40) preferably has a permanent deformation of no more than 50%, preferably no more than 40%, preferably no more than 30%, preferably not more than 20%.

[0052] The thickness of the first and second waterproof pads 60, 62 (and if necessary also the waterproof pads 34, 36, 38, 40) is preferably at least 0.3 mm, preferably at least 0.5 mm, preferably at least 1 mm, preferably at least 1.5 mm, preferably at least 2 mm. The thickness of the first and second waterproof pads 60, 62 (and if necessary also the waterproof pads 34, 36, 38, 40) is preferably not more than 4 mm, preferably not more than 3.5 mm, preferably not more than 3 mm, preferably not more than 2.5 mm. The thickness of the first and second waterproof pads 60, 62 (and, if necessary, also waterproof pads 34, 36, 38, 40) can be within a range limited by any of the above upper and lower limits.

[0053] As shown in FIG. 10, in the battery pack 10 according to the present exemplary embodiment, when the circuit board 16 is installed on the cell holder 14, the first waterproof gasket 60 is placed between and pressed (compressed) by the first inner mounting surfaces 52a and the rear surface of the circuit board 16, and is also placed between and is pressed (compressed) between the first outer mounting surfaces 56a and the rear surface of the circuit board 16. Thus, by the first watertight gasket 60, the watertightness of the first lead plates 20 (in particular, their first contact portions 20b) can be further improved, and improved electrical insulation can be achieved. (insulation) between the first contact areas 20b on the circuit board 16. Similarly, when the circuit board 16 is installed on the cell holder 14, the second waterproof gasket 62 is placed between and pressed (compressed) by the second inner mounting surfaces 54a and the back surface circuit board 16, and is also placed between and pressed (compressed) by the second outer mounting surfaces 58a and the rear surface of the circuit board 16. Thus, due to the second waterproof gasket 62, it is possible to further improve the water resistance of the second lead plates 22 (in particular, their second contact sections 22b), and improved electrical isolation (isolation) can be provided between the second contact sections 22b on the circuit board 16.

[0054] It should be noted that, although in the above-described exemplary embodiment, a configuration has been explained that prevents any of the junctions at which the circuit board 16 is connected on the one hand and the first lead plates 20 and the second lead plates 22 that are connected from being short-circuited with the battery cells 12 on the other hand, to a different location, the same configuration can be applied between the connection points at which the circuit board 16 and other terminals are connected, and can be applied between the connection points at which another circuit board and other terminals are connected.

[0055] In the above-described exemplary embodiment, when the circuit board 16 is viewed from the front surface side (or rear surface side) in plan view, the first side edge 16a and the second side edge 16b are each substantially straight. In addition, the plurality of first through holes 16c and the plurality of second through holes 16d are arranged in a straight line along the first side edge 16a and the second side edge 16b, respectively. Therefore, the connection points at which the circuit board 16 and the plurality of first contact portions 20b are respectively connected are arranged in a straight line along the first side edge 16a, and the first waterproof gasket 60 has a substantially oblong (elongated) shape with through holes 60a corresponding to the connection points. , in which the circuit board 16 and the plurality of first contact portions 20b are respectively connected. Likewise, the junctions at which the circuit board 16 and the plurality of first contact portions 20b are respectively connected are arranged straight along the second side edge 16b, and the second waterproof gasket 62 has a substantially oblong (elongated) shape with through holes 62a corresponding to the junctions. , in which the circuit board 16 and a plurality of second contact portions 22b are connected.

[0056] However, when the circuit board 16 is viewed from the front surface side (or rear surface side) in plan view in an alternative embodiment of the present invention, the first side edge 16a and the second side edge 16b need not be straight, and a plurality of first through the holes 16c and the plurality of second through holes 16d need not be arranged in a straight line. In addition, the first waterproof gasket 60 may be of any shape, as long as the material of the first waterproof gasket 60 surrounds (covers) the perimeter of each junction at which the circuit board 16 and the plurality of first contact portions 20b are respectively connected. Similarly, the second waterproof pad 62 may be of any shape, as long as the material of the second waterproof pad 62 surrounds (covers) the perimeter of each junction at which the circuit board 16 and the plurality of second contact areas 22b are respectively connected.

[0057] For example, if one or more screw-mounted parts (not shown) that are for attaching the circuit board 16 to the cell holder 14 using one or more screws are provided near the junctions at which the circuit board 16 and a plurality of of the first contact portions 20b, near the junctions at which the circuit board 16 and the plurality of second contact portions 22b are respectively connected, or the like, the first waterproof gasket 60, the second waterproof gasket 62, or the like may have a shape that surrounds (bypasses ) the vicinity of the screwed part(s). Additionally or alternatively, if a drain hole (not shown) is formed in the circuit board 16 in the vicinity of the junctions at which the circuit board 16 and the plurality of first contact portions 20b are respectively connected, in the vicinity of the junctions at which the circuit board 16 and the plurality of second terminals are respectively connected contact portions 22b, or the like, the first waterproof pad 60, the second waterproof pad 62 or the like may be shaped such that the first waterproof pad 60, the second waterproof pad 62 or the like may be shaped such that the drainage hole .

[0058] As described above, in one or more embodiments of the present invention, the battery pack 10 may optionally include: a case 18; battery cells 12 that fit inside the case 18; first inner mounting surfaces 52a and first outer mounting surfaces 56a (and, if necessary, second inner mounting surfaces 54a and second outer mounting surfaces 58a) (representative, non-limiting examples of "mounting surface" in accordance with the principles of the present invention) located inside the housing 18 ; a circuit board 16 (a representative, non-limiting example of a "circuit board" in accordance with the principles of the present invention) that is housed within the housing 18 and mounted on the first inner mounting surfaces 52a and the first outer mounting surfaces 56a (and, if necessary, the second inner mounting surfaces 54a and second outer mounting surfaces 58a); first contact areas 20b (and, if necessary, second contact areas 22b) (representative, non-limiting examples of "terminal" in accordance with the principles of the present invention) inside the housing 18, which are connected to the circuit board 16; and a first waterproof pad 60 (and optionally a second waterproof pad 62) (a representative, non-limiting example of a "resilient pad" in accordance with the principles of the present invention) that surrounds the perimeters of the first contact areas 20b (and, if necessary, the second contact areas 22b ) and is placed between the circuit board 16 on the one hand and the first inner mounting surfaces 52a and the first outer mounting surfaces 56a on the other hand (and, if necessary, the second inner mounting surfaces 54a and the second outer mounting surfaces 58a on the other hand ).

[0059] According to the above configuration, even if an electrically conductive substance such as water has entered (came into contact with) the rear surface(s) of the circuit board 16 from the side that contacts the first inner mounting surfaces 52a and the first outer mounting surfaces 56a (and, if necessary, second inner mounting surfaces 54a and second outer mounting surfaces 58a), the junctions at which the circuit board 16 and the first contact areas 20b (and, if necessary, the second contact areas 22b) are respectively connected, sealed with a first waterproof seal 60 (and optionally with a second waterproof seal 62). Therefore, this configuration prevents the possibility of an undesirable short circuit between any of the junctions where the circuit board 16 and the first contact areas 20b (and the second contact areas 22b) are connected and another place that should not be electrically connected to said places. In addition, according to the above configuration, the first waterproof gasket 60 (and, if necessary, the second waterproof gasket 62) is placed between the circuit board 16, on the one hand, and the first inner mounting surfaces 52a and the first outer mounting surfaces 56a, on the other hand. , (and, if necessary, the second inner mounting surfaces 54a and the second outer mounting surfaces 58a, on the other hand). Therefore, it is possible to further improve the adhesive performance of the first waterproof pad 60 (and, if necessary, the second waterproof pad 62).

[0060] In one or more embodiments of the present invention, the first contact areas 20b (and, if necessary, the second contact areas 22b) are (electrically) connected to the cells 12 of the battery.

[0061] In such embodiments, in the case where any of the junctions at which the circuit board 16 and the first terminal portions 20b (and the second terminal portions 22b) connected to the battery cells 12 are respectively connected are undesirably short-circuited (electrically shorted) (hypothetically) to another location, (i.e., to a location with which the junction should not be in electrical contact), a strong electric current may flow and may damage the battery cells 12 and/or the circuit board 16. Therefore, it is necessary to reliably prevent short circuits. short circuit between the cells 12 of the battery. According to the above configuration, it is possible to reliably prevent any of the connection points at which the circuit board 16 and the first terminal sections 20b (and the second terminal sections 22b) connections must not be electrically connected.

[0062] In one or more embodiments of the present invention, the battery pack 10 may optionally further comprise a cell holder 14 that fits within the housing 18 and secures the battery cells 12. On the element holder 14, first inner mounting surfaces 52a and first outer mounting surfaces 56a (and second inner mounting surfaces 54a and second outer mounting surfaces 58a) may be formed.

[0063] By adopting such a configuration in which the first inner mounting surfaces 52a and the first outer mounting surfaces 56a (and the second inner mounting surfaces 54a and the second outer mounting surfaces 58a) are formed on the cell holder 14 that fixes the battery cells 12, and in which the circuit board 16 is mounted on the first inner mounting surfaces 52a and the first outer mounting surfaces 56a (and the second inner mounting surfaces 54a and the second outer mounting surfaces 58a), the battery pack 10 can be made more compact. According to the aforementioned configuration, such a battery pack 10 makes it possible to prevent any of the connection points at which the circuit board 16 and the first contact sections 20b (and the second contact sections 22b) are respectively connected from being undesirably short-circuited to another location with which the connection points are not must be electrically connected.

[0064] In one or more embodiments of the present invention, the first waterproof gasket 60 (and, if necessary, the second waterproof gasket 62) is attached (glued) to the circuit board 16.

[0065] In accordance with the above configuration, the circuit board 16 is installed on the first inner mounting surfaces 52a and the first outer mounting surfaces 56a (and, if necessary, the second inner mounting surfaces 54a and the second outer mounting surfaces 58a), with the first waterproof gasket 60 ( and, optionally, a second waterproof gasket 62) attached to the circuit board 16. Therefore, the first waterproof gasket 60 (and, if necessary, the second waterproof gasket 62) can be placed between the circuit board 16, on the one hand, and the first internal mounting surfaces. 52a and first outer mounting surfaces 56a on the other hand (and, if necessary, second inner mounting surfaces 54a and second outer mounting surfaces 58a on the other hand). Therefore, the first watertight gasket 60 (and, if necessary, the second watertight gasket 62) can be easily aligned with the junctions at which the circuit board 16 and the first contact areas 20b (and the second contact areas 22b) are respectively connected.

[0066] In one or more embodiments of the present invention, a plurality of first contact areas 20b (and, if necessary, second contact areas 22b) can be provided (representative, non-limiting examples of "first terminal" and "second terminal" in accordance with the principles of the present invention ) and each separately connected to the circuit board 16. The first watertight gasket 60 (and the second watertight gasket 62) is preferably shaped to continuously and completely surround (surround) the perimeters of the plurality of first contact areas 20b (and second contact areas 22b).

[0067] According to the above configuration, each junction at which the circuit board 16 and the plurality of first contact portions 20b are respectively connected can be protected by one waterproof gasket. Likewise, each junction at which the circuit board 16 and the plurality of second contact portions 20b are respectively connected can be protected by one watertight seal. Accordingly, the number of parts of the battery pack 10 can be reduced.

[0068] In one or more embodiments of the present invention, the first notches 42 (and, if necessary, the second notches 44) (representative, non-limiting examples of "notch" in accordance with the principles of the present invention) can be preferably formed along the edge (or edges) circuit board 16 between the junctions at which the circuit board 16 and a plurality of first contact sections 20b (and, if necessary, second contact sections 22b) are respectively connected.

[0069] According to the above configuration, it is possible to reliably prevent the occurrence of an undesirable short circuit between the junctions at which the circuit board 16 and the plurality of first terminal sections 20b (and, if necessary, second terminal sections 22b) are respectively connected.

[0070] In one or more embodiments of the present invention, the battery pack 10 may further comprise coatings 50 located on the surface of the circuit board 16 on the side opposite the surface on which the first waterproof gasket 60 (and, if necessary, the second waterproof gasket 62) is provided. ). These coatings 50 can cover (seal) the junctions at which the circuit board 16 and the first contact areas 20b (and, if necessary, the second contact areas 22b) are respectively connected.

[0071] In the above configuration, on one surface of the circuit board 16, the junctions at which the circuit board 16 and the first contact areas 20b (and the second contact areas 22b) are respectively connected are protected by the first waterproof gasket 60 (and the second waterproof gasket 62). On the other surface of the circuit board 16, the connection points at which the circuit board 16 and the first contact areas 20b (and the second contact areas 22b) are respectively connected are protected by the covers 50. Accordingly, it is possible to reliably prevent the occurrence of an undesirable short circuit between any of the connection points in which the circuit board 16 and the first contact sections 20b (and, if necessary, the second contact sections 22b) are connected, to another place with which there should be no electrical contact.

[0072] In one or more embodiments of the present invention, the first waterproof pad 60 (and the second waterproof pad 62) may be composed of at least one resilient (compressible) material selected from the group consisting of rubber, elastomer, foam, and sponges.

[0073] According to the above configuration, the first waterproof liner 60 (and the second waterproof liner 62) can be manufactured from a material that is easily produced and easily molded, and hence the manufacturing cost of the battery pack can be reduced.

LIST OF POSITIONS

[0074]

10 Battery pack

12 Battery cell

12a First end

12b Second end

14 Element holder

16 Circuit board

16a First side edge

16b Second side edge

16c First through hole

16d Second through hole

18 Corps

18a Gripping structure

18b Hole

20 First lead plate

20a First main section

20b First contact area

20c First extension

22 Second lead plate

22a Second main section

22b Second contact area

22c Second extension

24 External connection terminal

26 First holder main body

28 Second holder main body

30 First holder cover

32 Second holder cover

34 First outer waterproof seal

36 First inner waterproof lining

38 Second inner waterproof pad

40 Second inner waterproof pad

42 First cut

44 Second cut

50 Coating

52 First support

52a First inner mounting surface

54 Second support piece

54a Second inner mounting surface

56 First support shelf

56a First external mounting surface

58 Second support shelf

58a Second outer mounting surface

60 First waterproof seal

62 Second waterproof pad.

Claims (25)

1. Battery pack (10) containing: body (18); one or more cells (12) of the battery placed inside the case; one or more mounting surfaces (52a, 54a, 56a, 58a) located inside the case; a circuit board (16) placed inside the housing and mounted on one or more mounting surfaces; one or more terminals (20b, 22b) electrically connected to the circuit board and located inside the case; and one or more resilient spacers (60, 62) surrounding the perimeter(s) of the terminal(s) and placed between the circuit board and one or more mounting surfaces. 2. Battery pack (10) according to claim 1, wherein one or more leads (20, 22) are electrically connected to one or more battery cells (12). 3. The battery pack (10) according to claim 1 or 2, further comprising a cell holder (14), which is placed inside the housing (18) and fixes one or more battery cells (12); wherein one or more mounting surfaces (52a, 54a, 56a, 58a) are formed on the element holder. 4. Battery pack (10) according to any one of paragraphs. 1-3, in which one or more elastic pads (60, 62) are attached to the circuit board (16). 5. Battery pack (10) according to any one of paragraphs. 1-4, wherein the terminals (20, 22) comprise a first terminal (20b, 22b) which is connected to the circuit board (16) and a second terminal (20b, 22b) which is connected to the circuit board separately from the first terminal; and one or more resilient spacers (60, 62) are a single resilient spacer having a shape that continuously and completely surrounds the perimeters of both the first lead and the second lead. 6. The battery pack (10) according to claim 5, wherein the circuit board (16) has a cutout (42, 44) between the junction at which the first terminal (20, 22) and the circuit board are connected, and the junction at which the second pin (20, 22) and the circuit board are connected. 7. Battery pack (10) according to any one of paragraphs. 1-6, further comprising one or more coatings (50) provided on the first surface of the circuit board (16), which is opposite the second surface of the circuit board, on which the elastic gasket(s) (60, 62) is provided , while the cover(s) cover(s) the place(s) of connection(s) in which(s) are connected circuit board and output(s) (20, 22). 8. Battery pack (10) according to any one of paragraphs. 1-7, in which the elastic(s) pad(s) (60, 62) consist(s) of at least one material selected from the group consisting of rubber, elastomer, foam and sponge. 9. Battery pack (10) according to any one of paragraphs. 1-8, in which the elastic(s) gasket(s) (60, 62) is characterized(are) compressible in the thickness direction of the elastic(their) gasket(s) by at least 3%. 10. Battery pack (10) according to any one of paragraphs. 1-9, in which the elastic(s) gasket(s) (60, 62) are characterized by elastic recovery after compression in the thickness direction of the elastic gasket(s) by at least 40%. 11. Battery pack (10) according to any one of paragraphs. 1-10, in which the elastic pad(s) (60, 62) has(s) a thickness of 0.3-4 mm. 12. Battery pack (10) according to any one of paragraphs. 1-11, in which: elastic(s) gasket(s) (60, 62) contains(at) the first elastic gasket (60) and the second elastic gasket (62), terminal(s) (20b, 22b) contains(at) a plurality of first contact areas (20b) and a plurality of second contact areas (22b), the first resilient spacer (60) has a plurality of first through holes (60a) through which the first contact areas (20b) respectively pass, and the second resilient spacer (62) has a plurality of second through holes (62a) through which the second contact areas (22b) respectively pass. 13. Battery pack (10) according to claim 12, in which the first contact sections (20b) each respectively have electrical connections with the first ends (12a) of the battery cells (12) through the first main section (20a) and the first curved extension section (20c); the second contact sections (22b) are respectively electrically connected to the second ends (12b) of the battery cells (12) via the second main section (22a) and the second curved extension section (22c). 14. Battery pack (10) according to claim 13, further comprising a first waterproof gasket (36) covering the first main areas (20a) and a second waterproof gasket (38) covering the second main areas (22a). 15. Battery pack (10) according to any one of paragraphs. 1-14, in which the gripping structures (18a) for engagement with the power tool and the external connection terminals (24) for electrical connection with the power tool are located on the outer surface of the housing (18).

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