JP7303708B2 - adapter - Google Patents

Description

The technology disclosed in this specification relates to an adapter that connects a battery pack and a battery-related device.

Patent Document 1 discloses an adapter that connects a battery pack and a battery-related device. The adapter includes a housing and a circuit board housed inside the housing. The housing has a battery pack opening that faces the battery pack when the battery pack is attached to the adapter.

JP-A-2001-245436

In the adapter as described above, water may enter from the outside of the housing through the battery pack opening. If the water that has entered the housing reaches the circuit board, the adapter may malfunction or break down. The present specification provides a technology capable of suppressing water entering the housing through the battery pack opening from reaching the circuit board in the adapter that connects the battery pack and the battery-related device.

The adapter disclosed in this specification may connect a battery pack and a battery-related device. The adapter may comprise a housing, a circuit board housed inside the housing, and a shielding member housed inside the housing. The housing may include a battery pack opening facing the battery pack when the battery pack is attached to the adapter. The shielding member may be arranged to shield between the battery pack opening and the circuit board.

According to the above configuration, even if water enters the housing from the outside through the battery pack opening, the shielding member functions as a water receiver. Reaching the substrate can be suppressed.

1 is a perspective view showing an adapter 2, a battery pack 4, and a charger 6 according to an embodiment; FIG. 4 is a perspective view showing a state in which a battery pack 4 and a charger 6 are connected using the adapter 2 according to the embodiment; FIG. It is the perspective view which looked at the adapter 2 which concerns on an Example from the back left upper part. Fig. 10 is a perspective view of the adapter 2 according to the embodiment when the terminal cover 22 is open, viewed from the rear left upper side; FIG. 10 is a perspective view of the adapter 2 according to the embodiment, with the upper housing 32 removed, as viewed from the rear left upper side; Fig. 10 is a perspective view of the adapter 2 according to the embodiment, with the upper housing 32 and the terminal base 34 removed, as viewed from the rear left upper side; It is the perspective view which looked at the adapter 2 which concerns on an Example from the back left lower part. Fig. 2 is a vertical cross-sectional view of an adapter 2 according to an embodiment; 4 is a top plan view of the upper housing 32 of the adapter 2 according to the embodiment; FIG. Fig. 3 is a perspective view of the upper housing 32 of the adapter 2 according to the embodiment as seen from the front left lower side; Fig. 3 is a perspective view of the terminal cover 22 of the adapter 2 according to the embodiment as seen from the front left upper side; FIG. 10 is a perspective view of the state in which the terminal cover 22 is attached to the upper housing 32 in the adapter 2 according to the embodiment, viewed from the rear left upper side; 4 is a top plan view of the terminal base 34 of the adapter 2 according to the embodiment; FIG. Fig. 10 is a cross-sectional view of the adapter 2 according to the embodiment in the vicinity of drain passages 90, 92; 4 is a vertical cross-sectional view of the vicinity of a drain passage 90 with the adapter 2 according to the embodiment attached to the charger 6. FIG. 4 is a vertical cross-sectional view of the vicinity of the drain passage 90 with the adapter 2 according to the embodiment placed on the horizontal plane P. FIG. It is the top view which looked at the adapter 2 which concerns on an Example from the downward direction. Fig. 10 is a perspective view of the adapter 2 according to the embodiment, with the lower housing 30 removed, as viewed from the front right lower side; 4 is a longitudinal sectional view of the vicinity of cooling air passages 50 and 108 when the battery pack 4 and charger 6 are connected using the adapter 2 according to the embodiment. FIG.

A representative and non-limiting embodiment of the invention is described in detail below with reference to the drawings. This detailed description is merely intended to provide those skilled in the art with details for implementing a preferred embodiment of the invention, and is not intended to limit the scope of the invention. Also, the additional features and inventions disclosed can be used separately or in conjunction with other features and inventions to provide still improved adapters.

Moreover, any combination of features and steps disclosed in the following detailed description are not required to practice the invention in its broadest sense, but are specifically intended to illustrate representative embodiments of the invention only. is described. Moreover, various features of the representative embodiments below, as well as those that are claimed, are described herein in providing additional and useful embodiments of the invention. They do not have to be combined in the exact order of the examples or in the order listed.

All features set forth in the specification and/or claims, apart from the configuration of the features set forth in the examples and/or claims, are set forth in the disclosure and claims as originally filed. They are intended to be disclosed individually and independently of each other as limitations on the particulars identified. Further, all numerical ranges and groups or populations are intended to disclose intermediate configurations as limitations on the specific subject matter recited in the original disclosure as well as the claims.

In one or more embodiments, an adapter may connect a battery pack and a battery-related device. The adapter may comprise a housing, a circuit board housed inside the housing, and a shielding member housed inside the housing. The housing may include a battery pack opening facing the battery pack when the battery pack is attached to the adapter. The shielding member may be arranged to shield between the battery pack opening and the circuit board.

According to the above configuration, even if water enters the housing from the outside through the battery pack opening, the shielding member functions as a water receiver. Reaching the substrate can be suppressed.

In one or more embodiments, the shielding member may include a first drain passage for draining water that has entered the interior of the housing from the battery pack opening.

According to the above configuration, it is possible to prevent water from entering the housing through the battery pack opening and adhering to the shielding member from accumulating in the shielding member.

In one or more embodiments, the shielding member may have a shape that guides water toward the first drain passage when the adapter is attached to the battery-related device.

According to the above configuration, when the adapter is attached to the battery-related device, the water adhering to the shielding member can be discharged through the first drain passage.

In one or more embodiments, the shielding member may have a shape that guides water toward the first drain passage when the adapter is placed on a horizontal surface.

According to the above configuration, when the adapter is placed on a horizontal surface, the water adhering to the shielding member can be discharged from the first drain passage.

In one or more embodiments, the adapter may be attached to and detached from the battery-related device by sliding it relative to the battery-related device. The first drain passage may be arranged near the front end of the shielding member when the direction in which the adapter is slid when the adapter is attached to the battery-related device is the forward direction. The shape of the shielding member that guides water toward the first drain passage may be a shape that slopes downward in the vertical direction from the rear end to the front end of the shielding member.

According to the above configuration, water adhering to the shielding member can be guided to the first drain passage arranged near the front end of the shielding member.

In one or more embodiments, the adapter may be attached to and detached from the battery-related device by sliding it relative to the battery-related device. The first drain passages may be formed at left and right ends of the shielding member, respectively, when the direction in which the adapter is slid when attached to the battery-related device is the forward direction. The shape of the shielding member that guides water toward the first drain passage may be a shape that slopes downward in the vertical direction from the center in the left-right direction of the shielding member toward the left end and the right end.

According to the above configuration, water adhering to the shielding member can be guided to the first drain passages arranged at the left end and the right end of the shielding member.

In one or more embodiments, the housing may include a second drain passage for discharging water discharged from the first drain passage of the shielding member to the outside of the housing. The dimensions of the second drain passage may be larger than the dimensions of the first drain passage.

According to the above configuration, the water that has entered the housing through the battery pack opening and has adhered to the shielding member can be discharged to the outside of the housing through the first water drain passage and the second water drain passage. can be done. Further, according to the above configuration, water discharged from the shielding member through the first water drain passage can be discharged outside the housing through the second water drain passage without remaining inside the housing. can be done.

In one or more embodiments, the battery-related device may have an inclined surface that is inclined with respect to a horizontal plane on an outer surface that faces the adapter when the adapter is attached to the battery-related device. . The second drain passage may face the inclined surface when the adapter is attached to the battery-related device.

According to the above configuration, the water discharged from the inside of the housing of the adapter through the second water drain passage can flow along the inclined surface of the outer surface of the battery-related equipment, and the water can flow inside the battery-related equipment. can be prevented from entering.

In one or more embodiments, when the direction in which the battery pack opening is positioned with respect to the shielding member is taken as an upward direction, a side plate that protrudes upward is formed on the peripheral edge of the shielding member. may

According to the above configuration, it is possible to prevent water that has entered the housing through the battery pack opening and has adhered to the shielding member from dripping from the periphery of the shielding member.

In one or more embodiments, the adapter may further include battery pack-side connection terminals that connect to connection terminals of the battery pack, and wiring that connects the battery pack-side connection terminals and the circuit board. good. The housing may include a rib extending from above the side plate to below the side plate. The wiring may extend from the battery pack-side connection terminal, below the rib, and above the side plate to reach the circuit board.

According to the above configuration, since the lower end of the rib is positioned lower than the upper end of the side plate, even if water adheres to the wiring and flows along the wiring, the side plate can be removed from below the rib. No water flows upwards. Therefore, even if water that has entered the housing through the battery pack opening adheres to the battery pack side connection terminals and wiring, the water is prevented from traveling along the wiring and reaching the circuit board. be able to.

In one or more embodiments, the adapter is movably supported with respect to the housing, and when the adapter is attached to the battery-related device, the engaged portion of the battery-related device It may have hooks for engagement. The housing may include hook openings to which the hooks are attached. The shielding member may be arranged to shield between the hook opening and the circuit board.

According to the above configuration, even if water enters from the outside of the housing through the opening for the hook, the shielding member functions as a water receiver. can be suppressed from reaching

In one or more embodiments, the housing includes a first housing defining an outer shape of a portion of the adapter attached to the battery-related device, and a portion of the adapter attached to the battery pack. A second housing may be provided that defines the outer shape of the. The first housing may include a first cooling air passage through which cooling air passes. The second housing may have a second cooling air passage communicating with the first cooling air passage and through which the cooling air passes through the second housing. At a location where the first cooling air passage and the second cooling air passage communicate with each other, the first housing and the second housing may overlap in a direction orthogonal to a direction in which the cooling air flows.

According to the above configuration, the first cooling air passage and the second cooling air passage communicate with each other because the first housing and the second housing overlap each other at the location where the first cooling air passage and the second cooling air passage communicate with each other. Water can be prevented from entering the interior of the housing through the part where the

In one or more embodiments, the shielding member may be arranged so as to block a portion where the first cooling air passage and the second cooling air passage communicate with the circuit board.

According to the above configuration, even if water enters from the outside of the housing through the portion where the first cooling air passage and the second cooling air passage communicate with each other, the shielding member serves as a water receiver. Since it functions, it is possible to prevent water that has entered the interior of the housing from reaching the circuit board.

(Example)
Adapter 2 shown in FIG. 1 is used to connect battery pack 4 and charger 6 . The battery pack 4 is, for example, a battery pack used by being attached to an electric power tool such as a screwdriver or a drill, or an electric working machine such as a mower or a blower. The battery pack 4 incorporates, for example, a secondary battery such as a lithium ion battery. The charger 6 is a battery-related device corresponding to the battery pack 4 and used to charge the battery pack 4 . The adapter 2 of this embodiment is configured, for example, to connect an old-model battery pack 4 and an old-model charger 6 to each other, and to connect a new-model battery pack 4 and a new-model charger 6 to each other. In order to connect the old-model battery pack 4 to the new-model charger 6 when the battery pack 4 is installed, the new-model charger 6 and the old-model battery pack 4 are prepared. Alternatively, the adapter 2 of this embodiment may be prepared for the old-model charger 6 and the new-model battery pack 4 in order to connect the new-model battery pack 4 to the old-model charger 6 .

A device mounting portion 8 is provided on the lower surface of the battery pack 4 . A battery pack mounting portion 10 is provided on the upper surface of the charger 6 . A device mounting portion 12 corresponding to the battery pack mounting portion 10 of the charger 6 is provided on the lower surface of the adapter 2 , and a battery pack mounting portion 12 corresponding to the device mounting portion 8 of the battery pack 4 is provided on the upper surface of the adapter 2 . A section 14 is provided. The adapter 2 can be attached to and detached from the charger 6 by sliding the device attachment portion 12 of the adapter 2 onto the battery pack attachment portion 10 of the charger 6 in the front-rear direction. The battery pack 4 can be attached to and detached from the adapter 2 by sliding the device attachment portion 8 of the battery pack 4 onto the battery pack attachment portion 14 of the adapter 2 in the front-rear direction. By attaching the adapter 2 to the charger 6 and attaching the battery pack 4 to the adapter 2, the battery pack 4 is connected to the charger 6 via the adapter 2 as shown in FIG.

As shown in FIGS. 3-8, the adapter 2 includes a housing 20, a terminal cover 22, a terminal block 24, a circuit board 26, a hook 28, and a terminal base 34. As shown in FIGS. The housing 20 has a lower housing 30 and an upper housing 32 . The lower housing 30 defines the outer shape of the lower side of the adapter 2 . A device mounting portion 12 is provided on the lower surface of the lower housing 30 . The upper housing 32 defines the outer shape of the upper side of the adapter 2 . A battery pack mounting portion 14 is provided on the upper surface of the upper housing 32 . The lower housing 30 and the upper housing 32 are fixed together by bolts 36 (see FIG. 17). Circuit board 26 and terminal base 34 are housed within lower housing 30 and upper housing 32 .

As shown in FIGS. 3 and 4, the upper housing 32 includes rails 38 and 40, cover openings 42 (see FIG. 9) and 44, terminal openings 46, engagement grooves 48, and cooling air passages. 50 and hook openings 52 are formed. As shown in FIGS. 3 and 4, the rail 38 is located at the left end of the top surface of the upper housing 32 . The rail 38 includes a support wall 38a projecting upward from the upper surface of the upper housing 32, and a guide rib 38b projecting rightward from the upper end of the support wall 38a. The rail 40 includes a support wall 40a projecting upward from the upper surface of the upper housing 32, and a guide rib 40b projecting leftward from the upper end of the support wall 40a. When the battery pack 4 is attached to the adapter 2, the guide ribs 8a (see FIG. 1) provided on the device attachment portion 8 of the battery pack 4 and the guide ribs 38b and 40b of the adapter 2 are engaged with each other. The battery pack 4 is held by the adapter 2 by engaging the hook 8b (see FIG. 19) provided on the device mounting portion 8 with the engaging groove 48 .

As shown in FIG. 4, the terminal block 24 includes battery pack side connection terminals 24a. The battery pack side connection terminals 24 a protrude outside the upper housing 32 through the terminal openings 46 . As shown in FIG. 8, the terminal block 24 is supported by the terminal base 34 so as to be vertically movable. The terminal block 24 is urged upward with respect to the terminal base 34 by a compression spring 54 . With this configuration, due to manufacturing errors, the connection terminal 8c (see FIG. 19) provided on the device mounting portion 8 of the battery pack 4 and the battery pack side connection terminal 24a of the terminal block 24 may be vertically misaligned. Even if there is a misalignment, the terminal block 24 is movable in the vertical direction. The connection terminal 24a can be reliably connected. As shown in FIG. 8, the battery pack side connection terminal 24a is connected to the circuit board 26 via the wiring 24b.

As shown in FIG. 9, cover opening 42 is positioned adjacent rail 38 . The cover opening 42 has a longitudinal direction in the front-rear direction, a rail portion 42b formed with a terminal cover rail 42a on the right edge, and a passing portion extending to the right of the rail portion 42b at the front end of the rail portion 42b. 42c. A cover opening 44 is positioned adjacent to the rail 40 . The cover opening 44 has a longitudinal direction in the front-rear direction, a rail portion 44b formed with a terminal cover rail 44a at the left edge, and a passage portion extending leftward from the rail portion 44b at the front end of the rail portion 44b. 44c.

As shown in FIGS. 3 and 4, the terminal cover 22 is held by terminal cover rails 42a and 44a so as to be slidable in the front-rear direction. The terminal cover 22 is slidable between a protection position (see FIG. 3) covering the battery pack side connection terminals 24a and an exposure position (see FIG. 4) exposing the battery pack side connection terminals 24a. The terminal cover 22 is urged from the exposed position toward the protected position by the elastic restoring forces of the tension springs 56 and 58 (see FIG. 10). Therefore, when the battery pack 4 is not attached to the adapter 2, the elastic restoring force of the tension springs 56, 58 holds the terminal cover 22 at the protective position. When the battery pack 4 is attached to the adapter 2, the terminal cover 22 is pressed by the battery pack 4, and the terminal cover 22 moves from the protection position to the exposure position.

As shown in FIG. 11, the terminal cover 22 has a cover body 60 and cover hooks 62 and 64 . The cover body 60 and the cover hooks 62, 64 are integrally formed. The cover main body 60 includes a front plate 60a that covers the front of the battery pack side connection terminals 24a, a top plate 60b that covers the top, a left plate 60c that covers the left, and a right plate 60d that covers the right (FIGS. 3 and 4). ) and a partition plate 60e (see FIGS. 3 and 4) arranged between adjacent battery pack side connection terminals 24a. The left plate 60c, the right plate 60d, and the partition plate 60e of the cover main body 60 are arranged along the front-rear direction and the vertical direction. The cover hook 62 is formed integrally with the left plate 60c of the cover main body 60. As shown in FIG. The cover hook 62 has a flat plate portion 62a having a longitudinal direction in the front-rear direction and a short side direction in the vertical direction, an engaging portion 62b bent rightward from the lower end of the flat plate portion 62a, and a lower end of the flat plate portion 62a. and a connecting portion 62d for connecting the flat plate portion 62a to the left plate 60c. The cover hook 64 is integrally formed with the right plate 60 d of the cover main body 60 . The cover hook 64 has a flat plate portion 64a having a longitudinal direction in the front-rear direction and a short side direction in the vertical direction, an engaging portion 64b bent leftward from the lower end of the flat plate portion 64a, and a lower end of the flat plate portion 64a. and a connecting portion 64d for connecting the flat plate portion 64a to the right plate 60d.

As shown in FIG. 12, when attaching the terminal cover 22 to the upper housing 32, the terminal cover 22 is tilted with respect to the upper housing 32 so that the front end faces upward, and the cover hooks 62, 64 are attached to the rear end. It is inserted into the passage portions 42c and 44c of the cover openings 42 and 44 from the side. At this time, the terminal cover 22 is positioned so that the terminal cover rail 42a is arranged between the engaging portion 62b and the connecting portion 62d, and the terminal cover rail 44a is arranged between the engaging portion 64b and the connecting portion 64d. The terminal cover 22 is attached to the upper housing 32 by inserting it into the upper housing 32 while laying it down. When the terminal cover 22 is attached to the upper housing 32 , the terminal cover 22 is held so as to be slidable in the front-rear direction with respect to the upper housing 32 .

As shown in FIG. 10, the inner upper surface of the upper housing 32 is formed with spring mounting posts 66 and 68 protruding downward. The tension springs 56 and 58 have their front ends held by the spring mounting portions 62c and 64c of the cover hooks 62 and 64, respectively, and their rear ends held by the spring mounting posts 66 and 68, respectively. Stopper ribs 66a and 68a are formed on the outer side surfaces of the spring mounting posts 66 and 68, respectively. 5, the terminal base 34 is formed with bosses 70, 72 into which the spring mounting posts 66, 68 are inserted. When the adapter 2 is assembled, the rear ends of the tension springs 56, 58 are clamped by the stopper ribs 66a, 68a and the bosses 70, 72 to fix their vertical positions.

As shown in FIG. 5, the terminal base 34 includes a bottom plate 74 generally formed in a substantially H shape, side plates 76 projecting upward from the outer peripheral edge of the bottom plate 74, and side plates 76 behind the bottom plate 74. A screwing portion 78 (see FIG. 8) provided on the outside, a rectangular tubular wall 80 projecting upward so as to enclose the periphery of the screwing portion 78, and a circuit board 26 and a cooling air passage 50 are interrupted. and a rear guard plate 84 (see FIG. 8) protruding downward to block the space between the circuit board 26 and the hook opening 52. ing.

As shown in FIG. 5, the bottom plate 74 blocks the space between the cover openings 42, 44 and the terminal openings 46 (see FIGS. 3 and 4) of the upper housing 32 and the circuit board 26 (see FIG. 6). are placed. Therefore, even if water enters from the outside of the upper housing 32 through the cover openings 42, 44 and the terminal openings 46, the bottom plate 74 functions as a water receiver, preventing the circuit board 26 from being splashed with water. can be suppressed.

As shown in FIG. 13 , drain passages 86 and 88 are formed in the bottom plate 74 . The drain passage 86 is arranged at the left end near the front end of the bottom plate 74 , and the drain passage 88 is arranged at the right end near the front end of the bottom plate 74 . As shown in FIGS. 6 and 7 , drain passages 90 and 92 are formed in the lower housing 30 corresponding to the drain passages 86 and 88 . Drainage passages 86 , 88 of terminal base 34 communicate with drainage passages 90 , 92 of lower housing 30 . Therefore, water dripping onto the bottom plate 74 of the terminal base 34 can be discharged to the outside of the housing 20 through the drain passages 86, 88 and the drain passages 90, 92. FIG.

As shown in FIG. 14 , the portion of the bottom plate 74 on the left side of the center is inclined downward from above as it goes from right to left with respect to the horizontal plane. Therefore, the water that has dripped onto the left side of the center of the bottom plate 74 flows to the left end of the bottom plate 74 due to gravity and is discharged from the drain passage 86 . A portion of the bottom plate 74 on the right side of the center is inclined downward from the upper side as it goes from the left side to the right side with respect to the horizontal plane P. Therefore, the water that has dripped onto the right side of the center of the bottom plate 74 flows to the right end of the bottom plate 74 due to gravity and is discharged from the drain passage 88 .

As shown in FIG. 15, when the adapter 2 is attached to the charger 6 placed on the horizontal plane P, the bottom plate 74 is inclined downward from the rear toward the front with respect to the horizontal plane P. are doing. Therefore, the water dripping onto the bottom plate 74 flows to the front end of the bottom plate 74 by gravity and is discharged from the drain passages 86 and 88 . When the adapter 2 is attached to the charger 6, the water discharged through the water drain passages 86, 88 and the water drain passages 90, 92 drips onto the inclined surface 6a of the upper surface of the charger 6, thereby charging the battery. It flows along the inclined surface 6a of the container 6 to the side surface 6b of the charger 6 and drops below the charger 6. - 特許庁

Further, as shown in FIG. 16, even when the adapter 2 is placed directly on the horizontal plane P, the bottom plate 74 is inclined from above to below with respect to the horizontal plane P from the rear to the front. ing. Therefore, the water dripping onto the bottom plate 74 flows to the front end of the bottom plate 74 by gravity and is discharged from the drain passages 86 and 88 .

As shown in FIGS. 6 and 8, the circuit board 26 is secured to the lower housing 30 by bolts 94. As shown in FIG. 8, the terminal base 34 is fixed to the lower housing 30 by bolts 96 together with the circuit board 26 at the screwed portion 78. As shown in FIG. In addition, as shown in FIG. 10, fixed ribs 98 and 100 projecting downward are formed on the inner upper surface of the upper housing 32 . The fixed rib 98 contacts the upper surface of the side plate 76 at the rear left end of the terminal base 34 , and the fixed rib 100 contacts the upper surface of the side plate 76 at the rear right end of the terminal base 34 . Further, a pressing rib 99 projecting downward is formed on the inner upper surface of the upper housing 32 . As shown in FIG. 8 , wiring 24 b extending from battery pack side connection terminals 24 a passes below holding rib 99 and then above side plate 76 of terminal base 34 to reach circuit board 26 . With such a configuration, even when water adheres to the wiring 24b, it is possible to prevent water from reaching the circuit board 26 along the wiring 24b.

As shown in FIG. 17, the lower housing 30 is formed with rails 102, 104, a terminal opening 106, a cooling air passage 108, and hook openings 110, 112. As shown in FIG. As shown in FIG. 7 , the rail 102 is arranged on the left side of the terminal opening 106 and on the right side of the drain passage 90 . The rail 102 has a support wall 102a projecting downward from the lower surface of the lower housing 30 and a guide rib 102b projecting leftward from the lower end of the support wall 102a. The rail 104 is arranged on the right side of the terminal opening 106 and on the left side of the drain passage 92 . The rail 104 has a support wall 104a projecting downward from the lower surface of the lower housing 30 and a guide rib 104b projecting rightward from the lower end of the support wall 104a. When the adapter 2 is attached to the charger 6, the guide ribs 102b and 104b of the adapter 2 are engaged with the guide ribs 10a and 10b (see FIG. 1) provided on the battery pack attachment portion 10 of the charger 6, and the adapter The adapter 2 is held by the charger 6 by engaging the hooks 28 of the adapter 2 with the engagement grooves 10 c (see FIG. 1 ) of the charger 6 . In the adapter 2 of this embodiment, the length of the rail 102 in the front-rear direction is longer than the length of the rail 104 in the front-rear direction, and the front end of the rail 102 protrudes further forward than the front end of the rail 104 . The length of rail 104 in the front-rear direction is a length that can be accepted in charger 6 and a length that can be accepted in an electric power tool or an electric working machine to which battery pack 4 can be attached. On the other hand, the length of the rail 102 in the front-to-rear direction is acceptable for the charger 6, but is unacceptable for an electric power tool or an electric working machine to which the battery pack 4 can be attached. The device-side connection terminals 118 of the adapter 2 do not come into contact with the connection terminals of the power tool or the electric working machine. With such a configuration, it is possible to prevent the adapter 2 from being attached to an electric power tool or an electric working machine.

The hook 28 has an operating portion 28a and an engaging portion 28b. The operating portion 28 a has a shape that is recessed toward the inside, and is accessible from the outside of the housing 20 through the hook opening 52 of the upper housing 32 and the hook opening 110 of the lower housing 30 . . The engaging portion 28b has a substantially triangular rear surface extending in the vertical and horizontal directions when viewed from the side. protruding downwards. As shown in FIG. 10, the hook 28 is biased downward against the upper housing 32 by compression springs 114,116. When the adapter 2 is attached to the charger 6, the front surface of the engaging portion 28b is pressed by the charger 6, the hook 28 moves upward with respect to the housing 20, and the engaging portion 28b moves toward the charger. 6, the hook 28 moves downward with respect to the housing 20, and the engaging portion 28b engages with the engaging groove 10c. When the adapter 2 is removed from the charger 6, the hook 28 is moved upward with respect to the housing 20 by placing a finger on the operating portion 28a, whereby the engaging portion 28c is disengaged from the engaging groove 10c. The adapter 2 can be removed in this state.

The rear guard plate 84 of the terminal base 34 is arranged so as to block the space between the circuit board 26 and the hook openings 52, 110, 112. As shown in FIG. Therefore, even if water enters the housing 20 through the hook openings 52 , 110 , 112 , it is possible to prevent the circuit board 26 from being exposed to water.

As shown in FIG. 18, the circuit board 26 is provided with device-side connection terminals 118 . The device-side connection terminals 118 protrude downward from the bottom surface of the circuit board 26 . The device-side connection terminals 118 are arranged corresponding to the terminal openings 106 of the lower housing 30 . When attaching the adapter 2 to the charger 6, the connection terminals 10d (see FIG. 19) provided on the battery pack attachment portion 10 of the charger 6 are pushed out of the lower housing 30 from the terminal openings 106 of the lower housing 30. It gets inside and connects with the device side connection terminal 118 . Various circuit elements mounted on the circuit board 26 are also provided on the lower surface side of the circuit board 26 in the same manner as the device-side connection terminals 118 . Bolts 94 and 96 for fixing the circuit board 26 to the lower housing 30 are arranged at positions sandwiching the device-side connection terminals 118 in the front-rear direction.

As shown in FIG. 8 , the cooling air passage 108 communicates with the cooling air passage 50 of the upper housing 32 . The lower housing 30 and the upper housing 32 are connected by a so-called labyrinth structure at the point where the cooling air passage 50 and the cooling air passage 108 communicate with each other. Upper housings 32 overlap. Therefore, it is possible to prevent water from entering the interior of the housing 20 through the portion where the cooling air passage 50 and the cooling air passage 108 communicate with each other.

The front guard plate 82 of the terminal base 34 is arranged so as to block the circuit board 26 from the portion where the cooling air passage 50 and the cooling air passage 108 communicate with each other. Therefore, even if water enters the interior of the housing 20 from the portion where the cooling air passage 50 and the cooling air passage 108 communicate with each other, it is possible to prevent the circuit board 26 from being splashed with water.

As shown in FIG. 19, the charger 6 has a first air hole 120, a second air hole 122, and a blower . When charging the battery pack 4 , the charger 6 drives the air blower 124 to suck air from the first air holes 120 and discharge the air from the second air holes 122 , thereby charging the battery pack 4 . to cool the battery pack 4. The battery pack 4 has a first air hole 126 , a second air hole 128 and a third air hole 130 . The first air hole 126 and the second air hole 128 are formed in the lower surface of the battery pack 4 (the surface on which the device mounting portion 8 is provided), and the third air hole 130 is formed in the upper surface of the battery pack 4. formed. Battery pack 4 is cooled by cooling air flowing inside when air is sucked from first air hole 126 and air flows from second air hole 128 and third air hole 130 . Alternatively, battery pack 4 is cooled by the cooling air flowing inside when air is blown in from second air hole 128 and air flows out from first air hole 126 and third air hole 130 . For example, when the battery pack 4 is attached to another type of charger 6 without using the adapter 2 , air is sent into the second air hole 128 from the charger 6 to cool the inside of the battery pack 4 . Air flows to cool the inside of the battery pack 4 . The third air hole 130 of the battery pack 4 also functions as a drain hole for discharging water that has entered the inside of the battery pack 4 when the battery pack 4 is placed on the mounting surface with the upper surface facing downward. do.

When the adapter 2 is attached to the charger 6 , the cooling air passage 108 of the lower housing 30 is arranged to face the first air hole 120 of the charger 6 . Also, in a state where the battery pack 4 is attached to the adapter 2 , the cooling air passage 50 of the upper housing 32 is arranged to face the first air hole 126 of the battery pack 4 . Therefore, when the battery pack 4 is charged by the charger 6 , when the air blower 124 is driven to suck air from the first air hole 120 , the battery is Air is sucked from the first air holes 126 of the pack 4 . As a result, the cooling air flows inside the battery pack 4 and the inside of the battery pack 4 is cooled.

Note that the charger 6 may be configured to suck air from the second air hole 122 and send air from the first air hole 120 when the air blower 124 is driven. In this case, when the battery pack 4 is charged by the charger 6 , if the blower 124 is driven to blow air from the first air hole 120 , the battery will be cooled via the cooling air passage 108 and the cooling air passage 50 of the adapter 2 Air is sent into the first air hole 126 of the pack 4 and air is discharged from the second air hole 128 and the third air hole 130 . As a result, the cooling air flows inside the battery pack 4 and the inside of the battery pack 4 is cooled.

In the above embodiment, the battery-related device to which the battery pack 4 is connected via the adapter 2 is the charger 6, but the battery-related device is not limited to this. A battery checker or the like that checks the remaining amount of power or soundness of the pack 4 may be used.

As noted above, in one or more embodiments, adapter 2 connects battery pack 4 and charger 6 (an example of a battery-related device). The adapter 2 includes a housing 20 , a circuit board 26 housed inside the housing 20 , and a terminal base 34 (an example of a shielding member) housed inside the housing 20 . The housing 20 includes cover openings 42 and 44 and terminal openings 46 (an example of a battery pack opening) that face the battery pack 4 when the battery pack 4 is attached to the adapter 2 . The terminal base 34 is arranged so as to block the cover openings 42 , 44 , the terminal opening 46 and the circuit board 26 .

According to the above configuration, even if water enters from the outside of the housing 20 through the cover openings 42, 44 and the terminal openings 46, the terminal base 34 functions as a water receiver. Water entering the housing 20 can be prevented from reaching the circuit board 26 .

In one or more embodiments, the terminal base 34 includes drainage passages 86, 88 (first water passages) for draining water that has entered the interior of the housing 20 through the cover openings 42, 44 and the terminal openings 46. Example of a passage) is provided.

According to the above configuration, water entering the housing 20 through the cover openings 42 and 44 and the terminal opening 46 and adhering to the terminal base 34 can be prevented from accumulating in the terminal base 34. can.

In one or more embodiments, terminal base 34 is shaped to direct water toward drain passages 86 and 88 when adapter 2 is attached to charger 6 .

According to the above configuration, water adhering to the terminal base 34 can be discharged from the drain passages 86 and 88 when the adapter 2 is attached to the charger 6 .

In one or more embodiments, the terminal base 34 may have a shape that guides water toward the drain passages 86, 88 when the adapter 2 is placed on a horizontal surface.

According to the above configuration, water adhering to the terminal base 34 can be discharged from the drain passages 86 and 88 when the adapter 2 is placed on a horizontal surface.

In one or more embodiments, adapter 2 is attached and detached from charger 6 by sliding it relative to charger 6 . The drain passages 86 and 88 are arranged near the front end of the terminal base 34 when the direction in which the adapter 2 is slid when attached to the charger 6 is the forward direction. The shape that guides water toward the drain passages 86 and 88 of the terminal base 34 is a shape that slopes downward in the vertical direction from the rear end to the front end of the terminal base 34 .

According to the above configuration, water adhering to the terminal base 34 can be guided to the drain passages 86 and 88 arranged near the front end of the terminal base 34 .

In one or more embodiments, adapter 2 is attached and detached from charger 6 by sliding it relative to charger 6 . Drainage passages 86 and 88 are formed at the left end and right end of the terminal base 34, respectively, when the direction in which the adapter 2 is slid when attached to the charger 6 is the forward direction. The shape of the terminal base 34 that guides water toward the drain passages 86 and 88 is a shape that slopes downward in the vertical direction from the center in the left-right direction of the terminal base 34 toward the left end and right end.

According to the above configuration, water adhering to the terminal base 34 can be guided to the drain passages 86 and 88 arranged at the left and right ends of the terminal base 34 .

In one or more embodiments, the housing 20 includes drain passages 90, 92 (second drain passages) that drain water discharged from the drain passages 86, 88 of the terminal base 34 to the exterior of the housing 20. example). The dimensions of the drainage passages 90, 92 are greater than the dimensions of the drainage passages 86, 88.

According to the above construction, the water that has entered the interior of the housing 20 through the cover openings 42, 44 and the terminal openings 46 and has adhered to the terminal base 34 is drained through the drain passages 86, 88 and the drain passages 90, 92. can be discharged to the outside of the housing 20 through the . In addition, according to the above configuration, the water discharged from the terminal base 34 through the drain passages 86, 88 does not remain inside the housing 20, and the water drains out of the housing 20 through the drain passages 90, 92. Can be discharged to the outside.

In one or more embodiments, the charger 6 has an outer surface facing the adapter 2 when the adapter 2 is attached to the charger 6 with an inclined surface 6a inclined with respect to the horizontal plane. When the adapter 2 is attached to the charger 6, the drain passages 90, 92 face the inclined surface 6a.

According to the above configuration, the water discharged from the inside of the housing 20 of the adapter 2 through the water drain passages 90 and 92 can flow along the inclined surface 6a of the outer surface of the charger 6. can prevent water from entering the interior of the

In one or more embodiments, when the direction in which the cover openings 42, 44 and the terminal opening 46 are located with respect to the terminal base 34 is the upward direction, the terminal base 34 protrudes upward from the peripheral edge of the terminal base 34. A side plate 76 is formed.

According to the above configuration, the water entering the housing 20 through the cover openings 42 and 44 and the terminal opening 46 and adhering to the terminal base 34 is prevented from dripping from the peripheral edge of the terminal base 34. can do.

In one or more embodiments, the adapter 2 further includes battery pack side connection terminals 24a that connect to the connection terminals 8c of the battery pack 4, and wiring 24b that connects the battery pack side connection terminals 24a and the circuit board 26. ing. The housing 20 includes pressing ribs 99 (an example of ribs) that extend from above the side plate 76 to below the side plate 76 . The wiring 24 b extends from the battery pack side connection terminal 24 a to the circuit board 26 by passing below the pressing rib 99 and above the side plate 76 .

According to the above configuration, since the lower end of the pressing rib 99 is positioned lower than the upper end of the side plate 76, even if water adheres to the wiring 24b and flows along the wiring 24b, it will not be possible to press down the rib. Water does not flow from below the ribs 99 to above the side plate 76 . Therefore, even if water that enters the housing 20 through the cover openings 42, 44 and the terminal opening 46 adheres to the battery pack side connection terminals 24a and the wiring 24b, the water will not reach the wiring 24b. It is possible to suppress the transmission and reaching the circuit board 26 .

In one or more embodiments, the adapter 2 is movably supported with respect to the housing 20 such that when the adapter 2 is attached to the charger 6, the engagement groove 10c of the charger 6 is engaged. It is provided with a hook 28 that engages with an example of a joint). Housing 20 includes hook openings 52, 110, 112 in which hooks 28 are mounted. The terminal base 34 is arranged to block between the hook openings 52 , 110 , 112 and the circuit board 26 .

According to the above configuration, even if water enters from the outside of the housing 20 through the hook openings 52, 110, 112, the terminal base 34 functions as a water receiver. It is possible to prevent water that has entered inside from reaching the circuit board 26 .

In one or more embodiments, the housing 20 includes a lower housing 30 (example of a first housing) that defines the outer shape of the portion of the adapter 2 attached to the charger 6, and a battery pack of the adapter 2. 4 is provided with an upper housing 32 (an example of a second housing) that defines the outer shape of the portion on the side to which 4 is attached. The lower housing 30 includes a cooling air passage 108 (an example of a first cooling air passage) through which cooling air passes through the lower housing 30 . The upper housing 32 communicates with the cooling air passage 108 and includes a cooling air passage 50 (an example of a second cooling air passage) through which the cooling air passes through the upper housing 32 . The lower housing 30 and the upper housing 32 overlap each other in a direction perpendicular to the direction in which the cooling air flows at the point where the cooling air passage 108 and the cooling air passage 50 communicate with each other.

According to the above configuration, since the lower housing 30 and the upper housing 32 overlap each other at the portion where the cooling air passage 108 and the cooling air passage 50 communicate, the portion where the cooling air passage 108 and the cooling air passage 50 communicate Entry of water into the interior of the housing 20 can be suppressed.

In one or more embodiments, terminal base 34 is positioned to block circuit board 26 from where cooling air passages 108 and 50 communicate.

According to the above configuration, the terminal base 34 functions as a water receiver even if water enters from the outside of the housing 20 into the inside through the portion where the cooling air passage 108 and the cooling air passage 50 communicate with each other. Therefore, it is possible to prevent water that has entered the housing 20 from reaching the circuit board 26 .

2 : Adapter 4 : Battery pack 6 : Charger 6a : Inclined surface 6b : Side surface 8 : Equipment mounting portion 8a : Guide rib 8b : Hook 8c : Connection terminal 10 : Battery pack mounting portion 10a : Guide rib 10b : Guide rib 10c : Engagement groove 10d: connection terminal 12: device attachment portion 14: battery pack attachment portion 20: housing 22: terminal cover 24: terminal block 24a: battery pack side connection terminal 24b: wiring 26: circuit board 28: hook 28a: operation portion 28b: engagement Joint portion 28c : Engaging portion 30 : Lower housing 32 : Upper housing 34 : Terminal base 36 : Bolt 38 : Rail 38a : Support wall 38b : Guide rib 40 : Rail 40a : Support wall 40b : Guide rib 42 : Cover opening 42a : Terminal cover rail 42b : Rail portion 42c : Passing portion 44 : Cover opening 44a : Terminal cover rail 44b : Rail portion 44c : Passing portion 46 : Terminal opening 48 : Engagement groove 50 : Cooling air passage 52 : Hook opening 54 : Compression spring 56 : Extension spring 58 : Extension spring 60 : Cover main body 60a : Front plate 60b : Upper plate 60c : Left plate 60d : Right plate 60e : Partition plate 62 : Cover hook 62a : Flat plate portion 62b : Engagement portion 62c : Spring mounting portion 62d: Connecting portion 64: Cover hook 64a: Flat plate portion 64b: Engaging portion 64c: Spring mounting portion 64d: Connecting portion 66: Spring mounting column 66a: Stopper rib 68: Spring mounting column 68a: Stopper rib 70: Boss 72: Boss 74 : Bottom plate 76 : Side plate 78 : Screwed portion 80 : Rectangular tubular wall 82 : Front guard plate 84 : Rear guard plate 86 : Drain passage 88 : Drain passage 90 : Drain passage 92 : Drain passage 94 : Bolt 96: bolt 98: fixed rib 99: pressing rib 100: fixed rib 102: rail 102a: support wall 102b: guide rib 104: rail 104a: support wall 104b: guide rib 106: terminal opening 108: cooling air passage 110: hook opening 112 : Hook opening 114 : Compression spring 116 : Compression spring 118 : Device side connection terminal 120 : First air hole 122 : Second air hole 124 : Blower 126 : First air hole 128 : Second air hole 130 : Third air hole air hole

Claims (15)

An adapter for connecting a battery pack and a battery-related device,
a housing;
a circuit board housed inside the housing;
comprising a shielding member housed inside the housing;
the housing includes a battery pack opening that faces the battery pack when the battery pack is attached to the adapter;
the battery pack opening communicates the inside and the outside of the housing,
the shielding member is arranged to block between the battery pack opening and the circuit board;
The adapter, wherein the shield member at least partially overlaps with each of the circuit board and the battery pack opening when the adapter is placed on a horizontal surface and the adapter is viewed toward the horizontal surface. 2. The adapter according to claim 1, wherein said shielding member comprises a first drain passage for discharging water that has entered inside said housing from said battery pack opening. 3. The adapter according to claim 2, wherein said shielding member has a shape that guides water toward said first drain passage when said adapter is attached to said battery-related device. 4. The adapter according to claim 2, wherein said shielding member has a shape that guides water toward said first drain passage when said adapter is placed on said horizontal surface. The adapter is attached to and detached from the battery-related device by sliding it with respect to the battery-related device,
When the direction in which the adapter is slid when the adapter is attached to the battery-related device is the forward direction, the first drain passage is arranged near the front end of the shielding member,
5. The adapter according to claim 3, wherein the shape of said shielding member for guiding water toward said first drain passage is a shape inclined downward in the vertical direction from the rear end to the front end of said shielding member. The adapter is attached to and detached from the battery-related device by sliding it with respect to the battery-related device,
When the direction in which the adapter is slid when the adapter is attached to the battery-related device is the forward direction, the first drain passages are formed at the left end and the right end of the shielding member, respectively,
4. A shape of said shielding member that guides water toward said first drain passage is a shape slanted downward in the vertical direction from the center in the left-right direction of said shielding member toward left and right ends. The adapter of any one of paragraphs 5 to 5. The housing includes a second water drain passage for discharging water discharged from the first water drain passage of the shielding member to the outside of the housing,
7. An adapter as claimed in any one of claims 2 to 6, wherein the dimensions of the second drainage passage are greater than the dimensions of the first drainage passage. The battery-related device has an outer surface that faces the adapter when the adapter is attached to the battery-related device, and has an inclined surface that is inclined with respect to the horizontal plane,
8. The adapter according to claim 7 , wherein said second drain passage faces said inclined surface when said adapter is attached to said battery-related device. 9. The shielding member according to any one of claims 1 to 8, wherein a side plate projecting upward is formed on a peripheral edge of the shielding member when the direction in which the battery pack opening is positioned with respect to the shielding member is taken as an upward direction. Paragraph adapter. a battery pack side connection terminal connected to the connection terminal of the battery pack;
further comprising a wiring for connecting the battery pack side connection terminal and the circuit board,
the housing includes a rib extending from above the side plate to below the side plate;
10. The adapter according to claim 9, wherein said wiring extends from said battery pack side connection terminal, below said rib, above said side plate, and reaches said circuit board. a hook movably supported with respect to the housing and engaged with an engaged portion of the battery-related device when the adapter is attached to the battery-related device;
the housing comprises a hook opening to which the hook is attached;
11. The adapter according to any one of claims 1 to 10, wherein said shielding member is arranged to block between said hook opening and said circuit board. the housing is
a first housing defining an outer shape of a portion of the adapter attached to the battery-related device;
a second housing that defines an outer shape of a portion of the adapter on the side to which the battery pack is attached;
the first housing includes a first cooling air passage through which the cooling air passes, and
the second housing includes a second cooling air passage communicating with the first cooling air passage and through which the cooling air passes through the second housing;
2. The first housing and the second housing overlap each other in a direction orthogonal to a direction in which the cooling air flows at a portion where the first cooling air passage and the second cooling air passage communicate with each other. 11. The adapter of any one of paragraphs 11 to 11. 13. The adapter according to claim 12, wherein said shielding member is arranged so as to shield a portion where said first cooling air passage and said second cooling air passage communicate with said circuit board. An adapter for connecting a battery pack and a battery-related device,
a housing;
a circuit board housed inside the housing;
a shielding member housed inside the housing;
a hook movably supported by the housing and engaged with the engaged portion of the battery-related device when the adapter is attached to the battery-related device;
the housing includes a battery pack opening that faces the battery pack when the battery pack is attached to the adapter;
the shielding member is arranged to block between the battery pack opening and the circuit board;
the housing comprises a hook opening to which the hook is attached;
The adapter, wherein the shielding member is arranged to shield between the hook opening and the circuit board. An adapter for connecting a battery pack and a battery-related device,
a housing;
a circuit board housed inside the housing;
comprising a shielding member housed inside the housing;
the housing includes a battery pack opening that faces the battery pack when the battery pack is attached to the adapter;
the shielding member is arranged to block between the battery pack opening and the circuit board;
The housing is
a first housing defining an outer shape of a portion of the adapter attached to the battery-related device;
a second housing that defines an outer shape of a portion of the adapter on the side to which the battery pack is attached;
the first housing includes a first cooling air passage through which the cooling air passes, and
the second housing includes a second cooling air passage communicating with the first cooling air passage and through which the cooling air passes through the second housing;
The adapter, wherein the shielding member is arranged so as to shield a portion where the first cooling air passage and the second cooling air passage communicate with the circuit board.

Images