JP2011142733A - Charger - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To charge two or more kinds of substantially rectangular batteries. <P>SOLUTION: A charger includes a body part 10 and a rotation supporting member 12. The body part is provided with a mount 11, which is mounted selectively with a first substantially rectangular battery 100 and a second substantially rectangular battery 110 that is different in any of length, thickness, and terminal contact height from the first battery 100, and charges the first or second mounted battery 100 or 110 via a terminal 102 or 112 provided on a side where the first or second battery 100 or 110 is inserted. In the rotation supporting member, one of facing surfaces is a first support 33 which supports the first battery 100 mounted in a mount 11, and the other one is a second support 34 which supports the second battery 110 mounted in the mount 11. The member is rotatably provided in the mount 11 so as to be in a first state where the first support 33 is exposed or in a second state where the second support 34 is exposed. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a charging device that charges a plurality of types of substantially rectangular batteries having different lengths, thicknesses, or terminal contact heights.

  Various electronic devices such as a digital still camera, a digital video camera, and a portable information device are equipped with a rechargeable battery as a power source. A battery mounted on such various electronic devices is charged by a user using a charging device as necessary.

  The batteries attached to such various electronic devices have different lengths, thicknesses, terminal contact heights, and the like for the various electronic devices. For this reason, each battery needs to be charged using a dedicated charger. Therefore, the user needs to own a plurality of chargers and to use different chargers depending on the battery, which is troublesome.

  Therefore, in the charging device of Patent Document 1, a single battery can charge a plurality of types of batteries. Specifically, in the charging device of Patent Document 1, the first mounting portion in the shape of a recess in which the first battery is mounted on the main body portion, and the second width and length of the first battery are small. A recessed second mounting portion on which the battery is mounted is provided. The first mounting portion is provided with a first terminal member that contacts the terminal portion of the first battery, and the second mounting portion includes a second terminal that contacts the terminal portion of the second battery. A terminal member is provided. That is, the charging device disclosed in Patent Document 1 is provided with a recessed mounting portion and a terminal member for each battery to be mounted, so that a single battery can be charged with a plurality of types.

  However, in the charging device of Patent Document 1, the main body is increased in size in order to secure a space for providing a mounting portion and a terminal member for each battery to be mounted. Furthermore, in the charging device of Patent Document 1, it is not possible to charge batteries having different widths and lengths but different terminal contact heights.

JP-A-11-233158

  The present invention has been proposed in view of such a conventional situation, and charging a plurality of types of substantially rectangular batteries having different lengths, thicknesses, or terminal contact heights in one unit. An object of the present invention is to provide a charging device that performs the above.

  In the charging device according to the present invention, the first battery having a substantially rectangular shape and the second battery having a substantially rectangular shape having different lengths, thicknesses, or terminal contact heights are selectively used. And a main body portion provided with a mounting portion for charging the first and second batteries mounted via terminal members provided on the side where the first and second batteries are inserted, One surface is a first support portion that supports the first battery mounted on the mounting portion, and the other surface is a second support that supports the second battery mounted on the mounting portion. A rotation support member which is a support portion and is rotatably provided on the mounting portion so as to be in a first state in which the first support portion is exposed and in a second state in which the second support portion is exposed. With. The mounting portion is provided with a first receiving portion that supports the first battery on the side opposite to the terminal member, and a second receiving portion that supports the second battery on the terminal member side. When the first battery is mounted, the rotation support member is in the first state where the first support portion is exposed, and the first battery includes the first support portion and the first receiving portion. And is attached to the attachment portion. When the second battery is mounted, the rotation support member is in the second state in which the second support portion is exposed, and the second battery includes the second support portion and the second receiving portion. And is attached to the attachment portion.

  According to the present invention, the rotation support member is rotatably provided on the mounting portion so as to be in the first state where the first support portion is exposed and in the second state where the second support portion is exposed. Therefore, in the first state, the first battery is supported by the first support portion and the first receiving portion of the attachment portion and attached to the attachment portion, and in the second state, the second battery The battery can be mounted on the mounting portion while being supported by the second support portion and the second receiving portion of the mounting portion. Therefore, according to the present invention, it is possible to charge a plurality of types of substantially rectangular batteries having different lengths, thicknesses, or terminal contact heights.

It is a perspective view of each battery which the charging device to which this invention was applied charges. It is a front view of each battery which the charging device to which this invention was applied charges. It is a side view of each battery which the charging device to which this invention was applied charges. It is a perspective view which shows the time of the rotation support member of the charging device to which this invention was applied being a 1st state. It is a perspective view when the rotation support member of the charging device to which this invention is applied is rotating. It is a perspective view which shows the time of the rotation support member of the charging device to which this invention was applied being a 2nd state. It is the perspective view which looked at the rotation support member from one side. It is the perspective view which looked at the rotation support member from the other side. It is sectional drawing which shows the state with which the 1st battery was mounted | worn with the charging device to which this invention was applied. It is sectional drawing which shows the state with which the 2nd battery was mounted | worn with the charging device to which this invention was applied. It is sectional drawing which shows the state with which the 4th battery was mounted | worn with the charging device to which this invention was applied. It is sectional drawing which shows the state with which the 3rd battery was mounted | worn with the charging device to which this invention was applied. It is sectional drawing which shows the modification of the charging device to which this invention was applied.

Hereinafter, a charging device to which the present invention is applied will be described in detail with reference to the drawings. The description will be given in the following order.
DESCRIPTION OF SYMBOLS 1 Configuration of battery 2 Configuration of charging device 3 Operation of charging device 4 Action effect of charging device 5 Modification of charging device

<1 Battery configuration>
As shown in FIGS. 1 to 3, the charging device 1 to which the present invention is applied includes first to fourth power supplies for electronic devices such as digital still cameras, digital video cameras, and portable information devices. The batteries 100, 110, 130, and 120 are mounted. The first to fourth batteries 100, 110, 130, 120 are rechargeable batteries such as lithium ion polymer secondary batteries.

<Configuration of first battery>
Specifically, the first battery 100 includes a battery main body 101 in which a battery cell of a lithium ion polymer secondary battery is built. The battery body 101 is generally rectangular and flat, and the upper surface 101a, the lower surface 101b, the front surface 101c, the back surface 101d, the right side surface 101e, and the left side surface 101f are formed flat. For example, the battery body 101 is formed with a width W of 35 mm, a length L1 of 46 mm, and a thickness T1 of 5.3 mm.

  Further, the front surface 101c of the battery main body 101 is an insertion end to the charging device 1, and a terminal portion 102 is provided on the front surface 101c. The terminal portion 102 is composed of a total of three terminals: a plus terminal 102a, a minus terminal 102b, and a control terminal 102c. These three terminals 102 a to 102 c are each provided in a substantially rectangular shape having a predetermined size, and are exposed to the outside through a terminal opening 103 formed in the battery main body 101. The three terminals 102a to 102c are arranged in a line in the width direction on the right side surface 101e side from the center in the width direction of the front surface 101c. The negative terminals 102b are provided in this order. Further, these three terminals 102a to 102c are provided so that a terminal contact height H1 which is a height from the lower surface 101b to the center of each terminal 102a to 102c is 2.7 mm.

<Configuration of second battery>
The second battery 110 has a battery main body 111 in which a battery cell of a lithium ion polymer secondary battery is built. The battery body 111 is generally rectangular and flat, and the upper surface 111a, the lower surface 111b, the front surface 111c, the back surface 111d, the right side surface 111e, and the left side surface 111f are formed flat. For example, the battery body 111 has a width W of 35 mm, a length L4 of 41.6 mm, and a thickness T4 of 8.3 mm.

  In addition, the front surface 111 c of the battery body 111 is an insertion end to the charging device 1, and the terminal portion 112 is provided on the front surface 111 c. The terminal portion 112 is composed of a total of three terminals including a plus terminal 112a, a minus terminal 112b, and a control terminal 112c. These three terminals 112 a to 112 c are each provided in a substantially rectangular shape having a predetermined size, and are exposed to the outside through a terminal opening 113 formed in the battery main body 111. Further, these three terminals 112a to 112c are provided in a line in the width direction on the right side surface 111e side from the center portion in the width direction of the front surface 111c, and the plus terminal 112a, the control terminal 112c, The negative terminals 112b are provided in this order. Further, the three terminals 112a to 112c are provided such that a terminal contact height H4, which is a height from the lower surface 111b to the center of each of the terminals 112a to 112c, is 5.3 mm.

<Configuration of fourth battery>
The fourth battery 120 has a battery body 121 in which a battery cell of a lithium ion polymer secondary battery is built. The battery body 121 is generally rectangular and flat, and has an upper surface 121a, a lower surface 121b, a front surface 121c, a back surface 121d, a right side surface 121e, and a left side surface 121f. For example, the battery body 121 has a width W of 35 mm, a length L2 of 46 mm, and a thickness T2 of 8.3 mm.

  Further, the front surface 121c of the battery main body 121 is an insertion end to the charging device 1, and a terminal portion 122 is provided on the front surface 121c. The terminal portion 122 is composed of a total of three terminals including a plus terminal 122a, a minus terminal 122b, and a control terminal 122c. These three terminals 122 a to 122 c are each provided in a substantially rectangular shape having a predetermined size, and are exposed to the outside through a terminal opening 123 formed in the battery main body 121. The three terminals 122a to 122c are arranged in a line in the width direction on the right side surface 121e side from the center in the width direction of the front surface 121c, and from the outside to the inside, the plus terminal 122a, the control terminal 122c, The negative terminals 122b are provided in this order. Further, these three terminals 122a to 122c are provided so that a terminal contact height H2 which is a height from the lower surface 121b to the center of each of the terminals 122a to 122c is 2.7 mm.

<Configuration of third battery>
The third battery 130 has a battery main body 131 in which a battery cell of a lithium ion polymer secondary battery is built. The battery body 131 is generally rectangular and flat, the upper surface 131a, the lower surface 131b, the front surface 131c, and the back surface 131d are formed flat, and the right side surface 131e and the left side surface 131f bulge outward. It is formed with an arc surface. For example, the battery body 131 is formed with a width W of 35 mm, a length L3 of 40.3 mm, and a thickness T3 of 4.9 mm.

  In addition, the front surface 131 c of the battery main body 131 is an insertion end to the charging device 1, and a terminal portion 132 is provided on the front surface 131 c. The terminal portion 132 is composed of a total of three terminals including a plus terminal 132a, a minus terminal 132b, and a control terminal 132c. These three terminals 132 a to 132 c are each provided in a substantially rectangular shape having a predetermined size, and are exposed to the outside through a terminal opening 133 formed in the battery main body 131. The three terminals 132a to 132c are arranged in a line in the width direction on the right side 131e side from the center in the width direction of the front surface 131c, and from the outside to the inside, the plus terminal 132a, the control terminal 132c, The negative terminals 132b are provided in this order. Further, the three terminals 132a to 132c are provided so that a terminal contact height H3, which is a height from the lower surface 131b to the center of each of the terminals 132a to 132c, is 2.5 mm.

  That is, these first to fourth batteries 100 to 130 are different in length, thickness or terminal contact height as shown in Table 1 below. And the 1st-4th batteries 100-130 from which any of these length, thickness, or terminal contact height differs are charged using the charging device 1 with which this invention was applied by the user as needed. Is done.

  The first to fourth batteries 100 to 130 are not limited to being provided in the order of the plus terminal, the control terminal, and the minus terminal from the outside to the inside, and are associated with the charging device 1. If so, the order may be different. Further, the first to fourth batteries 100 to 130 are not limited to being arranged in a line in the width direction on the right side from the center in the width direction of the front surface, and correspond to the charging device 1. If attached, you may make it provide in the center part and left side surface side of the width direction. Furthermore, the 1st-4th batteries 100-130 are not limited to consisting of three terminals, a plus terminal, a control terminal, and a minus terminal, If it is matched with the charging device 1, for example, temperature One or more other terminals such as detection terminals may be provided.

<2 Charging device>
The charging apparatus 1 to which the present invention is applied is an apparatus provided with a battery mounting portion 11 for charging the first to fourth batteries 100 to 130 that are selectively mounted, as shown in FIGS. A main body 10 and a rotation support member 12 that is rotatably supported by the battery mounting portion 11 are provided.

  The apparatus main body 10 includes an upper case 13 and a lower case 14. The upper case 13 and the lower case 14 are formed in a substantially rectangular parallelepiped shape, and the first to fourth batteries 100 to 130 are formed on the upper surface 13 a of the upper case 13. There is provided a battery mounting portion 11 on which is selectively mounted. The battery mounting portion 11 is provided in a concave shape having substantially the same opening area as the upper surfaces 101a and 121a and the lower surfaces 101b and 121b of the first and fourth batteries 100 and 120, for example.

  The battery mounting portion 11 provided in such a concave shape has terminal portions 102, 112, 132, 122 provided on the front surfaces 101c, 111c, 131c, 121c of the first to fourth batteries 100-130 to be mounted. The terminal member 15 is provided in the front surface 11c which opposes. The terminal member 15 includes a total of four contacts, that is, a positive contact terminal 15a, a negative contact terminal 15b, a control contact terminal 15c, and a battery detection contact 15d. For example, the terminal member 15 is formed by bending a conductive leaf spring into a substantially square shape. These four terminals 15a to 15d are arranged to face the terminal portions 102, 112, 132, and 122 provided on the front surfaces 101c, 111c, 131c, and 121c of the first to fourth batteries 100 to 130 to be mounted. 11c is arranged in a line in the width direction on the left side 11f side from the center in the width direction. Further, these four terminals 15a to 15d are provided in the order of a positive contact terminal 15a, a control contact terminal 15c, a battery detection contact 15d, and a negative contact terminal 15b from the outside to the inside.

  The positive contact terminal 15a is provided at a position corresponding to the positive terminals 102a, 112a, 132a, 122a of the first to fourth batteries 100 to 130 in common, and the positive terminal 102a of the first to fourth batteries 100 to 130. , 112a, 132a, 122a are pressed together. The control contact terminal 15c is provided at a position corresponding to the control terminals 102c, 112c, 132c, 122c of the first to fourth batteries 100-130 in common, and the control terminals 102c, 112c, 132c and 122c are pressure-contacted. The battery detection contact 15d and the negative contact terminal 15b are provided closer to each other than between the positive contact terminal 15a and the control contact terminal 15c and between the control contact terminal 15c and the battery detection contact 15d. The battery detection contact 15d and the negative contact terminal 15b are provided at positions corresponding to the negative terminals 102b, 112b, 132b, and 122b of the first to fourth batteries 100 to 130 in common. The negative terminals 102b, 112b, 132b, and 122b of the battery are in pressure contact.

  Moreover, in order to make it easy to mount the first to fourth batteries 100 to 130 on the battery mounting portion 11 on the back surface 11d opposite to the front surface 11c provided with the terminal member 15 in the battery mounting portion 11, Or in order to make it easy to remove, the notch part 16 is formed.

  Further, on the back surface 11 d of the battery mounting portion 11, a first receiving portion 17 a that supports the lower surfaces 101 b and 121 b of the first and fourth batteries 100 and 120 at both ends of the notch portion 16, and a second battery 110. And a fourth receiving portion 17b that supports the rear surface 11d of the rim. And the 1st receiving surface of the battery which comprises the 1st receiving part 17a becomes a reference surface at the time of press-contacting the terminal parts 102 and 122 of the 1st and 4th batteries 100 and 120 to the terminal member 15. FIG.

  Furthermore, on the back surface 11d of the battery mounting portion 11, there is a first contact portion 17c that supports the back surfaces 101d and 121d of the first and fourth batteries 100 and 120 supported by the upper first receiving portion 17a. Is formed. The first contact portion 17c has a predetermined width and is formed in a convex shape protruding from the upper surface 13a of the upper case 13 to the upper first receiving portion 17a inside the battery mounting portion 11. Yes. That is, the first contact portion 17c reduces friction when the first and fourth batteries 100, 120 are attached to or removed from the rear surfaces 101d, 121d, and the battery is attached to the battery attachment portion 11. Make it easy and easy to remove.

  Further, a second contact portion 17 d that supports the back surface 131 d of the third battery 130 is formed on the wall surface of the lower fourth receiving portion 17 b. The second contact portion 17d has a predetermined width and is formed in a convex shape protruding from the lower fourth receiving portion 17b to the bottom surface 11b of the battery mounting portion 11 to the inside of the battery mounting portion 11. ing. In other words, the second contact portion 17d reduces friction when the third battery 130 is attached to or removed from the back surface 131d of the third battery 130, and makes it easy to attach the third battery 130 to the battery attachment portion 11. Make it easy to remove.

  Further, a rotation support member 12 is provided on the bottom surface 11 b of the battery mounting portion 11. Specifically, the rotation support member 12 rotates to the back surface 11d side opposite to the front surface 11c side on which the terminal member 15 is provided and the first state in which the terminal member 15 is provided on the front surface 11c side. It is provided on the bottom surface 11b of the battery mounting portion 11 so as to be in the second state of moving. As shown in FIGS. 7 and 8, the rotation support member 12 is integrated with the main body 30 that supports the lower surfaces 101 b, 112 b, 131 b, and 121 b of the first to fourth batteries 100 to 130 and the main body 30. And a support piece 31 that supports the back surface 111 d of the second battery 110.

  The main body 30 is formed in a substantially rectangular thin plate shape, and a rotation shaft 32 is provided on the front end side of the right side surface 30e and the left side surface 30f. The rotation shaft 32 is inserted into a rotation hole 32a, which will be described later, formed in the bottom surface 11b of the battery mounting portion 11. That is, the rotation shaft 32 rotates the rotation support member 12 with respect to the battery mounting portion 11 so as to be in the first state and the second state about the rotation shaft 32. Yes. The main body 30 has a first support portion 33 that supports the lower surfaces 101b, 121b, 131b of the first, fourth, and third batteries 100, 120, 130 on one of the opposing main surfaces. The other main surface serves as a second support portion 34 that supports the lower surface 111 b of the second battery 110.

  As shown in FIG. 7, the first support portion 33 is a surface exposed when the rotation support member 12 is in the first state in which the rotation support member 12 is rotated toward the front surface 11 c of the battery mounting portion 11. Such a first support portion 33 includes a plane support portion 33a that supports the lower surfaces 101b and 121b of the first and fourth batteries 100 and 120, and an inclined support portion 33b that supports the lower surface 131b of the third battery 130. And have. The planar support portion 33a is provided so as to be substantially parallel to the first receiving portion 17a when the rotation support member 12 is in the first state. The planar support surface constituting the planar support portion 33a serves as a reference surface when the terminal portions 102, 122 of the first and fourth batteries 100, 120 are pressed against the terminal member 15. The inclined support part 33b is provided continuously with the flat support part 33a, and is provided so as to have an inclination that gradually becomes thinner toward the distal end side. The inclined support surface constituting the inclined support portion 33 b serves as a reference surface when the terminal portion 132 of the third battery 130 is pressed against the terminal member 15. Further, an insertion direction display portion 35 that indicates an insertion direction when the first, fourth, and third batteries 100, 120, and 130 are inserted into the battery mounting portion 11 is formed in the inclined support portion 33b. The insertion direction display part 35 is an arrow etc., for example. In other words, the insertion direction display unit 35 can visually confirm which of the front surfaces 11c is the insertion end of the first, fourth, and third batteries 100, 120, and 130. The insertion direction display part 35 may be engraved at the time of injection molding, or may be formed by attaching a seal.

  As shown in FIG. 8, the second support portion 34 is a surface exposed when the rotation support member 12 is in the second state in which the rotation support member 12 is rotated toward the back surface 11 d of the battery mounting portion 11. Such a second support portion 34 is provided substantially parallel to the planar support portion 33 a of the first support portion 33. The second support surface constituting the second support portion 34 serves as a reference surface when the terminal portion 112 of the second battery 110 is pressed against the terminal member 15. The second support portion 34 is formed with a second type display portion 36 that indicates the type of battery that can be mounted when the rotation support member 12 is in the second state. That is, the second type display unit 36 can visually confirm the type of battery that can be mounted in the second state. The second type display unit 36 may also be engraved at the time of injection molding or may be formed by attaching a seal.

  The support piece 31 is integrally provided on the left side surface 30 f of the main body 30. The support piece 31 protrudes to the first support portion 33 side and protrudes to the second support portion 34 side, the second support piece 38, the first support piece 37, and the second support piece 37. And a connecting portion 39 for connecting the support piece 38 and the left side surface 30f of the main body portion 30 to each other.

  As shown in FIG. 7, the first support piece 37 is a support piece that is exposed together with the first support portion 33 when the rotation support member 12 is in the first state, and has a substantially L-shaped cross section. ing. The first support piece 37 is formed from the front and right sides of the first, fourth, and third batteries 100, 120, and 130 that are mounted on the battery mounting portion 11 when the rotation support member 12 is in the first state. Support the corner part. That is, the first support piece 37 prevents the first, fourth, and third batteries 100, 120, and 130 from entering the battery mounting portion 11 and damaging the terminal member 15.

  Further, an operation piece 40 is provided at the distal end portion of the first support piece 37 to be picked by a user and to operate the rotation support member 12 from the first state to the second state. The operation piece 40 is provided, for example, so as to be substantially parallel to the planar support portion 33a of the first support portion 33, and is subjected to anti-slip processing such as processing a plurality of grooves.

  As shown in FIG. 8, the second support piece 38 is a support piece that is exposed together with the second support portion 33 when the rotation support member 12 is in the second state, and has a substantially L-shaped cross section. ing. The second support piece 38 supports a corner portion composed of the front surface 111c and the right side surface 111e of the second battery 110 mounted on the battery mounting portion 11 when the rotation support member 12 is in the second state.

  Further, as shown in FIGS. 7 and 8, the support piece 31 is provided with a third support piece 45 protruding from the connecting portion 39 toward the front end side. The third support piece 45 is slid and guided by a guide portion 23 described later when the rotation support member 12 rotates about the rotation shaft 32 to the first state or the second state. .

  Further, the bottom surface 11b of the battery mounting portion 11 has a first storage for storing a part of the rotation support member 12 when the rotation support member 12 is in the first state where the first support portion 33 is exposed. A portion 18 is formed. Further, in the bottom surface 11b of the battery mounting portion 11, the second storage that stores a part of the rotation support member 12 when the rotation support member 12 is in the second state in which the second support portion 34 is exposed. A portion 19 is formed. And the 1st accommodating part 18 and the 2nd accommodating part 19 are provided continuously, and are provided in the concave shape which has the opening area substantially the same as the main-body part 30 of the rotation support member 12, respectively. Further, a rotation hole 32a is formed on the side surface on the boundary between the first storage portion 18 and the second storage portion 19 provided in a concave shape, and the rotation support member 12 of the rotation support member 12 is formed in the rotation hole 32a. A rotating shaft 32 is inserted. Further, the second storage part 19 is formed to be inclined with respect to the first storage part 18. Specifically, the second storage portion 19 has substantially the same inclination as the inclination support portion 33b of the first support portion 33, and the depth of the battery mounting portion 11 gradually increases from the front surface 11c side toward the back surface 11d side. It has a slope that makes it deeper. Further, the second storage portion 19 has such a depth that the second support portion 34 and a second receiving portion 21 described later are flush with each other when the rotation support member 12 is in the second state. . Further, the second storage unit 19 is formed with a first type display unit 20 indicating the types of the first, third, and fourth batteries that can be mounted when the rotation support member 12 is in the first state. Has been. In other words, the second type display unit 20 can visually confirm the type of battery that can be mounted in the first state. The first type display unit 20 may also be engraved at the time of injection molding, or may be formed by attaching a seal.

  Further, on the bottom surface 11b of the battery mounting portion 11, as shown in FIG. 6, when the rotation support member 12 is in the second state, the front surface 11c side of the first storage portion 18 and both side surfaces 11e in the width direction. , 11f is provided with a second receiving portion 21 for supporting the second battery 110. The second receiving portion 21 is provided substantially in parallel with the first storage portion 18 and is lower than the planar support portion 33a of the first support portion 33 of the rotation support member 12 in the first state. It is provided so as to be flush with the second support portion 34 of the rotating support member 12 in the state. And the 2nd receiving surface which comprises the 2nd receiving part 21 becomes a reference surface at the time of press-contacting the terminal part 112 of the 2nd battery 110 to the terminal member 15. FIG. Further, on the bottom surface 11 b of the battery mounting portion 11, the third battery 130 is supported on both side surfaces 11 e and 11 f in the width direction of the second storage portion 19 when the rotation support member 12 is in the first state. A third receiving part 22 is provided. The third receiving portion 22 is provided so as to have an inclination substantially parallel to the second storage portion 19. And the 3rd receiving surface which comprises the 3rd receiving part 22 becomes a reference plane at the time of press-contacting the terminal part 132 of the 3rd battery 130 to the terminal member 15. FIG.

  Further, the right side surface 11e of the battery mounting portion 11 is provided with a guide portion 23 that serves as a guide when the rotation support member 12 rotates to the first state or the second state. The guide portion 23 is a convex portion that protrudes toward the inside of the battery mounting portion 11 and is provided in a substantially semicircular shape. Such a guide portion 23 is configured so that when the rotation support member 12 rotates to the first state or the second state, the third support piece 45 of the rotation support member 12 is slid to support the rotation. It becomes a guide when the member 12 rotates.

  In addition, the corner portion composed of the back surface 11d and the right side surface 11e of the battery mounting portion 11 stores the first support piece 37 of the rotation support member 12 when the rotation support member 12 is in the second state. 3 storage portions 24 are formed. The third storage portion 24 is a recess having an opening area larger than the cross section of the first support piece 37 of the rotation support member 12 and a depth deeper than the protruding amount of the first support piece 37 of the rotation support member 12. is there. Furthermore, a first insertion portion 25 through which the second storage portion 19 and the third storage portion 24 are inserted is formed in a corner portion formed by the back surface 11 d and the right side surface 11 e of the battery mounting portion 11. The first insertion portion 25 is a recess having an opening area larger than that of the connecting portion 39 of the rotation support member 12. That is, when the rotation support member 12 is in the second state, the third storage portion 18 stores the first support piece 37 of the rotation support member 12 inside, and the first insertion portion 25 is The connecting portion 39 of the rotation support member 12 is accommodated.

  In addition, the corner portion composed of the front surface 11c and the right side surface 11e of the battery mounting portion 11 stores the second support piece 38 of the rotation support member 12 when the rotation support member 12 is in the first state. Four storage portions 26 are formed. The fourth storage portion 26 is a recess having an opening area larger than the cross section of the second support piece 38 of the rotation support member 12 and a depth deeper than the protruding amount of the second support piece 38 of the rotation support member 12. is there. Further, a second insertion portion 27 through which the first storage portion 18 and the fourth storage portion 26 are inserted is formed in the corner portion formed of the front surface 11c and the right side surface 11e of the battery mounting portion 11. The second insertion portion 27 is a recess having an opening area larger than that of the connecting portion 39 of the rotation support member 12. That is, when the rotation support member 12 is in the first state, the fourth storage portion 26 stores the second support piece 38 of the rotation support member 12 inside, and the second insertion portion 27 houses the connecting portion 39 of the rotation support member 12.

  Further, a cover portion 13 b is provided on the front surface 11 c of the battery mounting portion 11 so as to cover the terminal member 15. The cover portion 13b is formed with a projecting hole 46 for projecting the operation piece 40 provided at the distal end portion of the first support piece 37 exposed when the rotation support member 12 is in the first state. Yes. The protruding hole 46 is provided at a position corresponding to the operation piece 40 on the right side surface 11e side of the battery mounting portion 11, for example.

<3 Charger operation>
Next, the operation of charging the first to fourth batteries 100 to 130 using the charging device 1 will be described.

(3-1 Attaching the first battery)
First, as shown in FIG. 9, when the first battery 100 is mounted, the charging device 1 places the rotation support member 12 in the first state in which the first support portion 33 is exposed. The charging device 1 is inserted until the first battery 100 is inserted into the battery mounting portion 11 and hits the second support piece 38 with the front surface 101c of the first battery 100 as an insertion end. In the first battery 100, the front surface 101 c side of the lower surface 101 b is supported by the planar support portion 33 a of the first support portion 33 of the rotation support member 12, and the rear surface 101 d side of the lower surface 101 b is the first surface of the battery mounting portion 11. It is supported by the receiving part 17a. Further, the first battery 100 is supported by the first contact portion 17 c provided on the back surface 11 d of the battery mounting portion 11 at the back surface 101 d. Therefore, the first battery 100 is mounted on the battery mounting unit 11. That is, the terminal contact height of the first battery 100 is lower than that of the second battery 110. Therefore, when the first battery 100 is mounted on the battery mounting portion 11, the terminal portion 102 is raised from the bottom surface of the battery mounting portion 11 by the flat support portion 33 a of the first support portion 33 of the rotation support member 12. The terminal member 15 can be electrically connected.

  Further, when the first battery 100 is mounted on the battery mounting portion 11, the positive contact terminal 15a is pressed into contact with the positive terminal 102a, the control contact terminal 15c is pressed into contact with the control terminal 102c, the battery detection contact 15d and the negative contact. The contact terminal 15b is in pressure contact with the negative terminal 102b. Thereby, the charging device 1 can perform charging by applying a charging voltage to the first battery 100.

(3-2 Installation of second battery)
Next, as shown in FIG. 10, when the charging device 1 is attached with the second battery 110, the charging support member 12 is brought into the second state in which the second support portion 34 is exposed. Specifically, in the charging device 1, the operation piece 40 is operated by the user, and the first state in which the first support portion 33 is exposed to the second state in which the second support portion 34 is exposed. Thus, the rotation support member 12 is rotated about the rotation shaft 32. In the charging device 1, when the rotation support member 12 is in the second state, the second battery 110 is inserted into the battery mounting portion 11 with the front surface 111 c of the second battery 110 as an insertion end. . In the second battery 110, the front surface 111 c side of the lower surface 111 b is supported by the second receiving portion 21 of the battery mounting portion 11, and the rear surface 101 d side of the lower surface 101 b is supported by the second support portion 34 of the rotation support member 12. Is done. Further, the second battery 110 is supported by the second support piece 38 at a corner portion including the front surface 11 c and the right side surface 11 e on the insertion end side of the second battery 110. Further, the second battery 110 has a back surface 111d provided on the back surface 11d of the battery mounting portion 11 and is supported by the fourth receiving portion 17b. Therefore, the second battery 110 is mounted on the battery mounting unit 11.

  Further, when the second battery 110 is mounted on the battery mounting portion 11, the positive contact terminal 15a is pressed into contact with the positive terminal 112a, the control contact terminal 15c is pressed into contact with the control terminal 112c, the battery detection contact 15d and the negative contact. The contact terminal 15b is in pressure contact with the minus terminal 112b. Thereby, the charging device 1 can charge the second battery 110 by applying a charging voltage to the second battery 110.

(3-3 Installation of fourth battery)
Next, as illustrated in FIG. 11, when the charging device 1 is mounted with the fourth battery 120, the charging support member 12 is set to the first state in which the first support portion 33 is exposed. Specifically, in the charging device 1, the first support portion 33 is exposed from the second state in which the second support piece 38 is exposed by the user operating the second support piece 38. The rotation support member 12 is rotated about the rotation shaft 32 so as to be in this state. The charging device 1 is inserted until the fourth battery 120 is inserted into the battery mounting portion 11 and hits the second support piece 38 with the front surface 121c of the fourth battery 120 as the insertion end. In the fourth battery 120, the front surface 121 c side of the lower surface 121 b is supported by the planar support portion 33 a of the first support portion 33 of the rotation support member 12, and the rear surface 101 d side of the lower surface 101 b is the first surface of the battery mounting portion 11. It is supported by the receiving part 17a. Further, the fourth battery 120 is supported by a first abutting portion 17 c provided on the rear surface 121 d of the battery mounting portion 11 on the rear surface 121 d. Therefore, the fourth battery 120 is mounted on the battery mounting unit 11. That is, since the fourth battery 120 has the same terminal contact height as that of the first battery 100, the terminal contact height is lower than that of the second battery 110 as in the first battery 100. Therefore, when the fourth battery 120 is mounted on the battery mounting portion 11, the flat support portion 33 a of the first support portion 33 of the rotation support member 12 is used to mount the battery mounting portion 11 in the same manner as the first battery 100. The terminal portion 102 and the terminal member 15 can be electrically connected by raising from the bottom.

  Further, when the fourth battery 120 is mounted on the battery mounting portion 11, the positive contact terminal 15a is pressed into contact with the positive terminal 122a, the control contact terminal 15c is pressed into contact with the control terminal 122c, the battery detection contact 15d and the negative contact. The contact terminal 15b is in pressure contact with the minus terminal 122b. Thereby, the charging device 1 can perform charging by applying a charging voltage to the fourth battery 120.

(3-4 Installation of third battery)
Next, as shown in FIG. 12, when the third battery 130 is attached, the charging device 1 places the rotation support member 12 in the first state in which the first support portion 33 is exposed. . The charging device 1 is inserted until the third battery 130 is inserted into the battery mounting portion 11 and abuts against the second support piece 38 with the front surface 131c of the third battery 130 as an insertion end. In the third battery 130, the front surface 131 c side of the lower surface 131 b is supported by the inclined support portion 33 b of the first support portion 33 of the rotation support member 12, and the rear surface 131 d side of the lower surface 131 b is the third surface of the battery mounting portion 11. Supported by the receiving portion 22. Further, the third battery 130 is supported by a second contact portion 17 d provided on the rear surface 11 d of the battery mounting portion 11 at the rear surface 131 d. Therefore, the third battery 130 is mounted on the battery mounting unit 11. That is, the third battery 130 has a lower terminal contact height than the first, second, and fourth batteries 100, 110, and 120. Therefore, when the first battery 100 is mounted on the battery mounting portion 11, the terminal portion 102 is raised from the bottom surface of the battery mounting portion 11 by the slope support portion 33 b of the first support portion 33 of the rotation support member 12. The terminal member 15 can be electrically connected.

  Further, when the third battery 130 is mounted on the battery mounting portion 11, the positive contact terminal 15a is pressed into contact with the positive terminal 132a, the control contact terminal 15c is pressed into contact with the control terminal 132c, the battery detection contact 15d and the negative contact. The contact terminal 15b is in pressure contact with the minus terminal 132b. Thereby, the charging device 1 can charge the third battery 130 by applying a charging voltage to the third battery 130.

<4 Effects of charging device>
In the charging device 1 to which the present invention is applied, the rotation support member 12 is in the first state in which the first support portion 33 is exposed, and the front surface 101c side of the lower surface 101b of the first battery 100 is disposed on the rotation support member. 12 is supported by the flat support portion 33a of the first support portion 33, the back surface 101d side of the lower surface 101b is supported by the first receiving portion 17a of the battery mounting portion 11, and the first battery 100 is attached to the battery mounting portion 11. Can be attached.

  Furthermore, the charging device 1 to which the present invention is applied supports the first battery 100 with the first contact portion 17c provided on the rear surface 11d of the battery mounting portion 11 so as to ensure the first The battery 100 can be mounted on the battery mounting portion 11.

  Further, in the charging device 1 to which the present invention is applied, the rotation support member 12 is set to the second state where the second support portion 34 is exposed, and the front surface 111c side of the lower surface 111b of the second battery 110 is attached to the battery. The second battery 110 is mounted on the battery mounting portion 11 by being supported by the second receiving portion 21 of the portion 11 and the back surface 101d side of the lower surface 101b being supported by the second support portion 34 of the rotation support member 12. be able to.

  Further, in the charging device 1 to which the present invention is applied, the second support piece 38 supports the corner portion composed of the front surface 11c and the right side surface 11e of the second battery 110 on the insertion end side of the second battery 110. Thus, the first battery 100 can be reliably mounted on the battery mounting portion 11.

  Furthermore, the charging device 1 to which the present invention is applied is configured so that the back surface 111d of the second battery 110 is provided on the back surface 11d of the battery mounting portion 11 and supported by the fourth receiving portion 17b, so that the first The battery 100 can be attached to the battery attachment portion 11.

  Further, the charging device 1 to which the present invention is applied places the rotation support member 12 in the first state where the first support portion 33 is exposed, and rotates the front surface 121c side of the lower surface 121b of the fourth battery 120. The fourth battery 120 is mounted on the battery by supporting the back surface 121d side of the lower surface 121b on the first receiving portion 17a of the battery mounting unit 11 by supporting the flat member 33a of the first support unit 33 of the support member 12 on the back surface 121d side. It can be attached to the part 11.

  Furthermore, the charging device 1 to which the present invention is applied supports the first back surface 121d of the fourth battery 120 by the first contact portion 17c provided on the back surface 11d of the battery mounting portion 11, so that the first The battery 100 can be mounted on the battery mounting portion 11.

  Further, in the charging device 1 to which the present invention is applied, the rotation support member 12 is in the first state where the first support portion 33 is exposed, and the front surface 131c side of the lower surface 131b of the third battery 130 is rotated. The third battery 130 is supported by the inclined support portion 33b of the first support portion 33 of the support member 12, and the back surface 131b side of the lower surface 131b is supported by the third receiving portion 22 of the battery mounting portion 11. The mounting unit 11 can be mounted.

  Further, the charging device 1 to which the present invention is applied supports the third battery 130 by supporting the rear surface 131d by the second contact portion 17d provided on the rear surface 11d of the battery mounting portion 11, thereby ensuring the third The battery 130 can be mounted on the battery mounting portion 11.

<5 Modification of charging device>
The charging device 1 according to the present invention is not limited to forming the first support piece 37 of the support piece 31 of the rotation support member 12 in a substantially L-shaped cross section. You may provide in the rectangular thin plate shape which has.

  Moreover, the charging device 1 which concerns on this invention is good also considering the support piece 31 of the rotation support member 12 as another member, as shown in FIG. For example, in the charging device 1 according to the present invention, the rotation support member 12 includes only the main body portion 30, and the third support portion 31 is rotatably provided on the right side surface 11 e of the battery mounting portion 11 instead of the support piece 31. The support piece 47 may be provided. And the 3rd support piece 47 is accommodated in the notch formed in the right side surface 11e of the battery mounting part 11 when the rotation support member 12 is in a 1st state, and a battery mounting part is in a 2nd state. 11, and supports the back surface 111 d of the second battery 110.

  Furthermore, although the charging device 1 according to the present invention has been described with respect to a battery in which a lithium ion polymer secondary battery is incorporated, the present invention is not limited to this. The charging device 1 according to the present invention may be a solid electrolyte secondary battery or another nonaqueous electrolyte secondary battery.

  Furthermore, the charging device 1 according to the present invention is not limited to charging four types of batteries, the first to fourth batteries 100 to 130, and at least the first and second batteries 100, Any device that can charge 110 can be used.

DESCRIPTION OF SYMBOLS 1 Charging apparatus, 10 apparatus main body, 11 battery mounting part, 12 rotation support member, 15 terminal member, 17a 1st receiving part, 17b 4th receiving part, 17c 1st contact part, 17d 2nd contact Contact portion, 18 first storage portion, 19 second storage portion, 20 first type display portion, 21 second receiving portion, 22 third receiving portion, 23 guide portion, 24 third storage portion, 25 1st insertion part, 26 4th accommodating part, 27 2nd insertion part, 30 main body part, 31 support piece, 32 rotating shaft, 33 1st support part, 33a plane support part, 33b inclined support part , 34 2nd support part, 35 Insertion direction display part, 36 2nd kind display part, 37 1st support piece, 38 2nd support piece, 39 Connection part, 40 Operation piece, 45 3rd support piece 46 Projection hole 47 Third support piece 100 First battery 01 battery body, 102 terminal portion 110 and the second battery, 111 battery body, 112 terminal portion 120 fourth battery, 121 battery body, 122 terminal portion 130 third battery, 131 battery body, 132 terminal portions

Claims (5)

A first battery having a substantially rectangular shape and a second battery having a substantially rectangular shape, each of which has a different length, thickness, or terminal contact height, are selectively mounted. And a main body portion provided with a mounting portion for charging the first battery and the second battery mounted via a terminal member provided on the side where the second battery is inserted, and
One of the opposing surfaces serves as a first support portion that supports the first battery mounted on the mounting portion, and the other surface supports the second battery mounted on the mounting portion. The mounting portion can be rotated so as to be in a first state where the first support portion is exposed and in a second state where the second support portion is exposed. A rotation support member provided in the
The mounting portion is provided with a first receiving portion for supporting the first battery on a side opposite to the terminal member, and a second receiving portion for supporting the second battery on the terminal member side. The charging device provided. The rotation support member has a support piece for supporting a corner portion opposite to an insertion end of the second battery to the mounting portion,
When the rotation support member is in the second state, the support piece is located on the opposite side of the terminal member, and together with the second support portion and the second receiving portion, the second support portion. The charging device according to claim 1, wherein the battery is supported. When the rotation support member is in the first state, the mounting portion can be further mounted with a third battery having a shorter length than the first battery,
The charging device according to claim 2, wherein the mounting portion includes a third receiving portion that supports the third battery on a side opposite to the terminal member.   The charging device according to claim 1, wherein an insertion direction display portion indicating an insertion direction of the first battery is formed on the first support portion.   In the mounting portion, when the rotation support member is in the first state, a type display portion indicating a type of battery that can be mounted is formed in an area adjacent to the first support portion. Item 2. The charging device according to Item 1.

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