JP2009176487A - Battery pack - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To make a top cover or a bottom cover hardly come off a pack body. <P>SOLUTION: The battery pack is provided with a pack body 11 with its outer shape of top and bottom symmetry and bilateral line symmetry, a top cover 14 with a terminal part 12 and fitted to a front face 11c of the pack body 11, a bottom cover 15 fitted to a rear face 11d of the pack body 11, and a label 24 stuck all over a top face 11a, a rear face 11d, and a lower face 11b, with a part positioned at the rear face 11d of the pack body 11 formed in a narrow width that positioned at the upper and lower faces 11a, 11b. The bottom cover 15 has a concave part 22 for label sticking formed, with one side in a width direction made as an engaged part 23 for a lock member 112 of a battery mounting part 111 to be engaged with, and a display part 25a indicating an insertion direction in the battery mounting part 111 is formed at a part of the label 24 located at the rear face 11d the pack body 11. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a battery pack attached to various electronic devices such as a digital still camera, a digital video camera, and a portable information processing apparatus.

  A battery pack mounted on various electronic devices such as a digital still camera, a digital video camera, and a portable information processing device, as shown in Patent Document 1 below, There is a type in which a top cover provided with a terminal portion is attached on the front side and a bottom cover is attached on the back side. In this type of battery pack, the top cover and the bottom cover are fixed to the pack body by heat welding or the like. Thereafter, labels are attached to the upper and lower surfaces of the pack body. In this type of battery pack, the label is attached around the cell battery or on the upper and lower surfaces without involving the top cover or the bottom cover.

  However, in this type of battery pack, for example, there may be a case where the heat-welding area cannot be sufficiently secured due to variations in the heat-welding process and restrictions on the outer dimensions of the pack body. As a result, the predetermined strength cannot be secured, and the top cover and the bottom cover may be detached from the pack body.

  In addition, the battery pack and the like of Patent Document 1 are symmetrical with respect to the top and bottom and the left and right, and even if the user accidentally attaches the front and back to the battery attachment portion of the electronic device, The battery pack can be easily taken out from the mounting portion. However, in this type of battery pack, there is no character information on the back of the pack body, which may cause erroneous insertion.

JP 2005-166644 A

  An object of this invention is to provide the battery pack which can make a top cover and a bottom cover hard to remove | deviate with respect to a pack main body in view of the above subjects.

  It is another object of the present invention to provide a battery pack that can prevent erroneous mounting on a battery mounting portion even when the outer shape of the pack body is line-symmetrical vertically and horizontally.

  In the battery pack according to the present invention, the outer shape viewed from the front which is the terminal arrangement surface is substantially symmetrical in the vertical and horizontal directions, and includes a pack body in which battery cells are incorporated, a terminal portion, and the above A top cover provided on the front surface of the pack body, a bottom cover provided on the back surface of the pack body, and a portion located on the back surface of the pack body that is affixed across the top surface, back surface, and bottom surface of the pack body, And a label formed narrower than portions located on the upper and lower surfaces of the pack body. The bottom cover has a concave portion for label affixing at a central portion in the width direction, and is an engaged portion to which a lock member is engaged when one side in the width direction is mounted on the battery mounting portion. A display portion is formed on a portion of the label located on the back surface of the pack body to indicate a direction when the label is inserted into the battery mounting portion.

  According to the present invention, since the label is affixed over the top surface, the back surface, and the bottom surface of the pack body from above the top cover and the bottom cover, the top cover and the bottom cover are affixed. It can prevent coming off from the main body. Further, since the label is also attached to the back surface of the pack body, a display portion can be formed on the portion of the label located on the back surface of the pack body to indicate the direction when the label is inserted into the battery mounting portion. Incorrect mounting on the mounting portion can be prevented.

  Hereinafter, a battery pack to which the present invention is applied will be described with reference to the drawings.

  As shown in FIG. 1, a battery pack 10 to which the present invention is applied is mounted on a digital still camera 100 that is an electronic device. This digital still camera 100 has a thin camera body 101 having a substantially rectangular shape, and a lens unit 102 in which a plurality of lens groups such as a zoom lens and a condenser lens are incorporated is provided on a front surface 101a. In addition, the camera body 101 is provided with a release button 103 that is pressed when an object is imaged at one corner of the upper surface 101b. Further, on the upper surface 101 b side of the front surface 101 a of the camera body 101, a light emitting unit 104 that emits light when flash photography is provided, and a finder window 105 is provided adjacent to the light emitting unit 104. An attachment portion 106 for attaching a tripod or the like is provided on the lower surface 101c of the camera body 101 at a substantially central portion in the width direction.

  The lower surface 101c of the camera body 101 is provided with a battery insertion port 107 having a substantially rectangular shape for accommodating the battery pack 10 and having substantially the same size and the same shape as the front surface of the battery pack 10, and this battery insertion port. A battery lid 108 for opening and closing 107 is provided. Further, a card insertion slot 109 into which a memory card 110 serving as an external storage device is inserted is formed adjacent to the battery insertion slot 107 in an area closed by the battery lid 108. Further, the camera body 101 is provided with a battery mounting portion 111 that is continuous with the battery insertion port 107. Further, in the vicinity of the battery insertion port 107, a lock member 112 for holding the battery pack 10 attached to the battery attachment portion 111 in the attachment position is provided. When the battery pack 10 is mounted on the battery mounting portion 111, the lock member 112 engages with the corner portion on the back surface 11d of the battery pack 10 that is biased in the discharging direction by the spring pressure of the electrical contact or the discharging spring, It is prevented from falling off from the battery mounting portion 111. Specifically, the lock member 112 is pivotally attached in the vicinity of the battery insertion port 107, and the battery attached to the battery attachment unit 111 with the tip portion facing the battery insertion port 107. By being engaged with the back corner portion of the pack 10, it is held in the mounting position.

  In order to remove the battery pack 10 from the battery mounting portion 111, the lock member 112 is retracted from the battery insertion port 107, and the engagement state between the rear corner portion of the battery pack 10 and the lock member 112 is released. That's fine. Thus, the battery pack 10 is discharged so as to protrude from the battery insertion port 107 by the urging force of the discharge spring.

  For example, a lithium ion polymer secondary battery is used for the battery pack 10 that is inserted from the battery insertion port 107 and is attached to the battery attachment portion 111 and supplies power to the camera body 101. Specifically, as shown in FIGS. 2 and 3, the battery pack 10 includes a pack body 11 in which battery cells 29 of lithium ion polymer secondary batteries are built. The pack body 11 is generally rectangular and flat, and the upper surface 11a and the lower surface 11b, the front surface 11c and the back surface 11d are formed flat, and both side surfaces 11e and 11f are formed as arcuate surfaces that bulge outward. Has been. That is, the pack body 11 has a thickness that is substantially the same from the front surface 11c to the back surface 11d, and is a center line in the width direction when viewed from the front surface 11c side that is a terminal arrangement surface on which the terminal portion 12 is provided. It is axisymmetric with respect to P1 and is also symmetrical with respect to the center line P2 in the thickness direction. Further, the front surface 11c of the pack main body 11 is an insertion end to the battery insertion port 107 of the digital still camera 100, and the terminal portion 12 is provided on the front surface 11c. The terminal portion 12 is pressed and electrically connected to an electrical contact portion formed on the bottom surface of the battery mounting portion 111. Therefore, even if the battery pack 10 is inserted into the battery insertion port 107 with the upper surface 11a and the lower surface 11b reversed, that is, with the front and back reversed, for example, the battery pack 10 can be easily removed from the battery mounting portion 111.

  In the present invention, the pack body 11 has a thickness that is substantially the same from the front surface 11c to the back surface 11d, and is viewed in the width direction when viewed from the front surface 11c side that is a terminal arrangement surface on which the terminal portion 12 is provided. It is necessary to be symmetrical with respect to the center line P1 and symmetrical with respect to the center line P2 in the thickness direction. It does not prevent the provision of small concave portions, convex portions, grooves and the like for various purposes such as discrimination. Further, the present invention can be inserted at least upside down with respect to the battery mounting portion, and in addition, may have an outer shape that can be inserted upside down.

  Specifically, as shown in FIG. 4, the pack main body 11 has a can main body 13 that is generally rectangular and has a flat cylindrical shape. The can body 13 is provided with a resin layer such as nylon on the surface of a metal material such as aluminum so that the surface is electrically insulated and the surface is protected. A resin layer having excellent bendability is provided so that the top cover 14 and the bottom cover 15 that close the front side opening 13a and the back side opening 13b of the can body 13 can be heat-welded. The can body 13 has a battery cell 29 of a lithium polymer secondary battery loaded therein, and a positive lead terminal 16 and a negative lead terminal 17 are led out from the front side opening 13a side.

  In the front side opening 13a from which the positive lead terminal 16 and the negative lead terminal 17 are led out, the wiring board 18 is incorporated in the holder 19, and the holder 19 in which this base is incorporated is inserted from the front side opening 13a. The top cover 14 is attached from above. Here, the wiring board 18 is a rigid printed wiring board having substantially the same shape and size as the front opening 13a, and a plurality of electronic components are mounted on one surface on the holder 19 side. Specifically, the wiring board 18 includes a protection element 18a in which a protection circuit for the battery cell 29 is formed, an authentication element 18b in which an authentication circuit for performing authentication with the digital still camera 100 is formed, and charging control. An FET element (Field Effect Transistor) 18c is mounted. The wiring board is provided with a plus tab 18d and a minus tab 18e. The plus lead terminal 16 led out from the battery cell 29 is fixed to the plus tab 18d by a welding method such as resistance welding. In addition, the minus tab 18e has a PTC (Positive Temperature Coefficient) 18f which substantially increases the electric resistance when the temperature of the battery cell 29 becomes higher than the set temperature and substantially blocks the current flowing through the battery cell 29. The negative lead terminal 17 is fixed by a welding method such as resistance welding.

  As described above, the wiring board 18 on which the electronic component is mounted and the negative lead terminal 17 is fixed via the positive lead terminal 16 and the PTC 18f is one side of the holder 19, that is, the side opposite to the battery cell 29. It is positioned and attached to the surface. The holder 19 is formed so as to be fitted into the front side opening 13a of the can body 13, and the wiring board 18 fixes the plus lead terminal 16 and the minus lead terminal 17 to one long side. A notch 19a is formed for wrapping around one of the surfaces. The holder 19 is formed of a resin material such as polypropylene, for example, and after being assembled to the top cover 14, the holder 19 is fitted into the front-side opening 13 a of the can body 13 and attached together with the top cover 14 by thermal welding.

  As shown in FIGS. 5A and 5B, on the other surface of the wiring board 18, that is, the surface on the top cover 14 side, a plus terminal 12a, a minus terminal 12b, and a control terminal 12c that become the terminal portion 12 are provided. A total of four terminals of the temperature detection terminal 12d are formed. Specifically, these four terminals 12a to 12d are provided in a row on the center line P2 in the thickness direction, and the plus terminals 12a in order from the end to one side with respect to the center line P1 in the width direction. The temperature detection terminal 12d and the minus terminal 12b are provided at equal intervals, and the control terminal 12c is provided on the other side with respect to the center line P1 in the width direction. The control terminal 12c is provided at a position that is different from the positive terminal 12a and the negative terminal 12b with respect to the center line P1 in the width direction, and the temperature detection terminal 12d and the control terminal 12c have a center line in the width direction. It is provided at a position symmetrical with respect to P1. Further, the control terminal 12c is provided with the minus terminal 12b on the innermost side and the plus terminal 12a is provided on the outer side with the temperature detection terminal 12d interposed therebetween, so that the control terminal 12c is farthest from the plus terminal 12a. 12a is not electrically connected.

  In the present invention, the positions of the temperature detection terminal 12d and the control terminal 12c may be reversed.

  On the other surface of the wiring board 18 provided with such terminals 12a to 12d, the above-described top cover 14 is attached as shown in FIGS. The top cover 14 is formed so as to be fitted and closed in the front side opening 13 a of the can body 13, and constitutes the front surface 11 c of the pack body 11. The top cover 14 is formed of a resin material such as polypropylene, for example, and is fitted to the front side opening 13a of the can body 13 and then attached by thermal welding.

  As shown in FIGS. 2, 4 to 6, the top cover 14 has terminal openings 14a, 14b, which allow the plus terminal 12a, the minus terminal 12b, the control terminal 12c, and the temperature detection terminal 12d to face the outside. 14c and 14d are formed. Specifically, the terminal opening 14a faces the plus terminal 12a to the outside, the terminal opening 14b faces the minus terminal 12b to the outside, and the terminal opening 14c The terminal 12c faces the outside, and the terminal opening 14d faces the temperature detection terminal 12d. Each of the terminal openings 14a to 14d is opened in a substantially rectangular shape, and the terminals 12a to 12d are exposed to the outside. Further, as shown in FIG. 6, the bottom surface of the battery mounting portion 111 of the digital still camera 100 is provided. The taper portion 14e is formed so as to incline downward toward the inside so that the electrical contacts provided in the terminal can enter and be easily pressed against the terminals 12a to 12d.

  Further, as shown in FIG. 5, the gap 21a between the terminal opening 14b for the minus terminal 12b and the terminal opening 14c for the control terminal 12c has a terminal opening 14a for the plus terminal 12a. It is wider than the gap 21b between the terminal opening 14d for the temperature detection terminal 12d and the gap 21c between the terminal opening 14d for the temperature detection terminal 12d and the terminal opening 14b for the minus terminal 12b. When the battery is mounted on the battery mounting portion 111 of the digital still camera 100, the contact portion is a contact portion with which the discharge spring contacts.

  On the other hand, as shown in FIGS. 3 and 4, the back side opening 13 b of the can body 13 is closed by the bottom cover 15. The bottom cover 15 is made of, for example, a resin material such as polypropylene, and is fitted to the back side opening 13b of the can body 13 and then attached by thermal welding. The bottom cover 15 has a label sticking recess 22 formed in the center in the width direction. Further, the bottom cover 15 is an engaged portion 23 to which the lock member 112 is engaged when one end is attached to the battery attachment portion 111.

  As shown in FIGS. 2 to 4, a label 24 is attached to the pack body 11 having the top cover 14 and the bottom cover 15 attached to the can body 13 so as to cover the upper surface 11a, the rear surface 11d, and the lower surface 11b. It is done. The label 24 is, for example, a resin sheet such as polyethylene terephthalate provided with an adhesive layer, and the surface opposite to the adhesive layer is a printing surface. This label is formed so that the area corresponding to the back surface 11d of the pack body 11 is narrower than the other areas and substantially coincides with the width of the label sticking recess 22. When the label 24 is affixed across the upper surface 11a, the back surface 11d, and the lower surface 11b of the pack body 11, the bottom cover 15 that is thermally welded to the can body 13 is pressed against the can body 13. Thus, the bottom cover 15 can be prevented from falling off from the can body 13.

  In addition, the portion of the back surface 11d of the pack body 11 to which the label 24 is attached does not swell from the surroundings. Therefore, the size in the length direction can be shortened, contributing to downsizing, and the battery. It is possible to prevent the device from being caught and drowned during the attaching / detaching operation to the mounting unit 111 or the attaching / detaching operation to the charging device. Moreover, since the back surface 11d of the pack body 11 is provided with the label sticking concave portion 22, the portion to which the label 24 is stuck and the surrounding portion are substantially flush with each other, so that the touch feeling can be improved.

  Further, since the label 24 is narrow on the back surface 11 d of the pack body 11, the area on both sides of the label 24 can be increased, and the lock member 112 when the battery 24 is mounted on the battery mounting portion 111. The engaged portion 23 to be engaged can be made sufficiently large.

  Here, the print display of the label 24 will be described with reference to FIGS. 2 and 3. First, the direction of insertion into the battery insertion port 107 of the digital still camera 100 is indicated by Δ on the back of the pack body 11. The direction display part 25a which shows is formed. As shown in FIG. 1, the orientation display portion 25 a is aligned with the orientation display portion 25 b on the device side indicated by Δ in the vicinity of the battery insertion port 107, so that the correct orientation, that is, the front and back are not mistaken. The battery pack 10 can be inserted into the battery insertion port 107.

  Further, on the upper surface 11a of the pack body 11, an insertion direction display portion 26 indicating the insertion direction when inserted into the battery insertion port 107 of the digital still camera 100 is formed with a Δ mark, and the front surface 11c on which the terminal portion 12 is formed. Is inserted, and the battery pack 10 can be inserted into the battery insertion port 107 in the correct direction. The insertion direction indicator 26 is further formed on the front surface 11c side of the upper surface 11a so that the front surface 11c serving as an insertion end can be visually confirmed.

  Further, on the back surface 11 d of the pack body 11, a function display unit 27 that displays terminal functions corresponding to the arrangement of the terminals of the terminal unit 12 is formed. That is, according to the arrangement of the terminals, a + mark, a T mark, a-mark, and a C mark that indicate the functions of the plus terminal 12a, the temperature detection terminal 12d, the minus terminal 12b, and the control terminal 12c are formed from one side. And the C mark are separated from each other. Thereby, the user can confirm the function of the terminal.

  The pack body 11 is provided with the orientation display unit 25a and the function display unit 27 on the back surface 11d that is most noticeable to the user when the battery is inserted into the battery insertion port 107, thereby improving the operability so that the insertion operation is not mistaken. I try to plan.

  Further, on the lower surface 11b of the pack body 11 and on the front surface 11a side, a function display unit 28 for displaying the functions of the terminals corresponding to the arrangement of the terminals of the terminal unit 12 is formed. That is, according to the arrangement of the terminals, a + mark, a T mark, a-mark, and a C mark that indicate the functions of the plus terminal 12a, the temperature detection terminal 12d, the minus terminal 12b, and the control terminal 12c are formed from one side. And the C mark are separated from each other. Thereby, the user can confirm the function of the terminal.

  Note that the display mode of the display units 25a, 25b, 26, 27, and 28 is not limited to the Δ mark, the + mark, and the like.

  By the way, as indicated by reference numeral 20 in FIG. 7, the top cover 14 and the bottom cover 15 have a front surface 11c so as to slightly protrude from the front surface 11c and the back surface 11d of the pack body 11 after the label 24 is attached. And slightly larger than the back surface 11d. As a result, when the battery pack 10 is attached to or detached from the battery mounting portion 111, the printed surface of the label 24 is not easily rubbed against the inner surface of the battery mounting portion 111 or the label 24 is swollen. Can be prevented.

  Next, the circuit configuration of the battery pack 10 configured as described above will be described with reference to FIG. In this battery pack 10, the positive lead terminal 16 of the battery cell 29 and the positive terminal 12a of the wiring board 18 are connected in series, and the negative lead terminal 17 of the battery cell 29 and the negative terminal 12b of the wiring board 18 are connected to the PTC 18f. Are connected in series. Further, between the PTC 18f and the minus terminal 12b of the wiring board 18, FETs Q1 and Q2 formed by the FET element 18c are connected.

  The protective circuit 31 formed by the protective element 18a mounted on the wiring board 18 has a positive power supply terminal connected between the positive terminal 12a and the positive lead terminal 16 of the battery cell 29, and a PTC 18f and FET. A negative power supply terminal is connected between Q1 and between the negative terminal 12b and the FET Q2. The protection circuit 31 has a control terminal connected to the gates of the FETs Q1 and Q2. The protection circuit 31 monitors the voltage between the terminals, and inhibits charging by turning off the FETs Q1 and Q2 when overcharge or overdischarge occurs.

  The authentication circuit 32 formed by the authentication element 18b mounted on the wiring board 18 has a control terminal connected to the control terminal 12c of the wiring board 18 and a negative power supply terminal connected to the negative terminal 12b. Further, a thermistor 33, which is a temperature detection element, is connected between the temperature detection terminal 12d and the minus terminal 12b of the wiring board 18 so that a temperature signal can be output from the temperature detection terminal 12d to the charging device. .

  In such a circuit, since the authentication circuit 32 is driven by a signal from the digital still camera 100 side, the power of the battery cell 29 is consumed by the standby power source when the battery pack 10 is not used. Can be prevented. Further, in this circuit, since the temperature detection is performed by the thermistor 33 which is a separate element from the protection element 18a in which the protection circuit 31 is configured, the cost of the protection element 18a can be reduced.

  Next, a method for assembling the battery pack 10 configured as described above will be described with reference to FIG. First, in step S1, the PTC 18f is incorporated in the jig, and in step S2, the wiring board 18 on which electronic components such as the protection element 18a, the authentication element 18b, the FET element 18c, and the thermistor 33 are mounted is incorporated in the jig. In step S3, the battery body 29 is loaded, and the pack body 11 composed of the can body 13 with the lead terminals 16 and 17 cut to a predetermined length is assembled into the jig. Thereafter, in step S4, the plus lead terminal 16 led out from the battery cell 29 is resistance-welded to the plus tab 18d of the wiring board 18, and the battery cell is placed on the minus tab 18e of the wiring board 18. The negative lead terminal 17 led out from 29 is resistance-welded. In step S5, the lead terminals 16 and 17 subjected to resistance welding are folded into a predetermined shape.

  In step S6, the wiring board 18 is incorporated in the holder 19, and in step S7, the holder 19 is incorporated in the top cover 14, and in step S8, the holder 19 and the top cover 14 are subjected to impulse welder welding. Is incorporated into the front side opening 13a. Here, as shown in FIG. 4, the top cover 14 and the holder 19 insert protrusions 19 c formed on both sides of the back surface of the top cover 14 into the through holes 19 b formed on both sides of the holder 10. Attach 19c by impulse weld welding. The recesses 18 g formed on both sides of the wiring board 18 engage with the protrusions 19 c of the top cover 14 between the top cover 14 and the holder 19, and are positioned with respect to the top cover 14 and the holder 19. In step S9, the bottom cover 15 is incorporated in the back side opening 13b of the can body 13, and the top cover 14 and the bottom cover 15 are thermally welded to the can body 13 in step S10.

  Thereafter, in step S11, the rod printed label 24 is supplied, and the upper surface 11a and the rear surface of the pack body 11 in which the front side opening 13a and the rear side opening 13b are closed by the top cover 14 and the bottom cover 15. 11d and pasted over the lower surface 11b.

  Next, a method for mounting the battery pack 10 assembled as described above to the battery mounting portion 111 of the digital still camera 100 will be described with reference to FIGS. 1, 10, and 11. As shown in FIGS. 1 and 11A, the battery pack 10 has a Δ mark on the orientation display portion 25a formed on the back surface 11d of the pack body 11 and an orientation display portion 25b formed in the vicinity of the battery insertion port 107. And is inserted into the battery insertion port 107 in accordance with the direction indicated by the insertion direction display portion 26 formed on the upper surface 11a of the pack body 11, and attachment to the battery attachment portion 111 is started.

  Here, the battery pack 10 is formed so that the pack body 11 is symmetrical with respect to the center line P1 in the width direction and symmetrical with respect to the center line P2 in the thickness direction. 107 and the battery mounting portion 111 are formed. For example, if the front and back are inserted into the battery insertion port 107 without following the display of the orientation display portion 25a, the battery mounting portion 111 is mounted as it is. become. In view of this, the battery pack 10 is configured such that the orientation display portion 25a is formed on the back surface 11d that is most noticeable to the user during the insertion operation, and the insertion direction display portion 26 is formed on the top surface 11a that is conspicuous in appearance. The insertion is prevented.

  Here, the battery mounting part 111 to which the battery pack 10 is mounted will be described with reference to FIG. FIG. 10 shows an electrical contact portion 121 that is provided on the bottom surface of the battery mounting portion 111 and is electrically connected when the battery pack 10 is mounted. In the electrical contact portion 121 provided in the battery mounting portion 111 of the digital still camera 100, a plus contact 122, a minus contact 123, and a control contact 124 are provided from one side corresponding to the arrangement of the terminals of the terminal portion 12. These contacts 122 to 124 are formed, for example, by bending a conductive leaf spring into a substantially square shape. The positive contact 122 is pressed against the positive terminal 12a of the terminal portion 12 of the battery pack 10, the negative contact 123 is pressed against the negative terminal 12b of the battery pack 10, and the control contact 124 is connected to the control terminal 12c of the battery pack 10. Will be pressed. This electric contact portion 121 is used when electric power is supplied from the battery pack 10 to the digital still camera 100. Therefore, a temperature detection contact is provided in a portion corresponding to the temperature detection terminal 12d that is not required for discharging. It is not done. Therefore, the positive contact 122 and the negative contact 123 are separated without a temperature detection contact. In addition, the part shown with the virtual line in FIG. 10 has shown the part corresponding to the temperature detection terminal 12d.

  Further, the negative contact 123 and the control contact 124 are also separated from each other, and a discharge spring 125 for discharging the battery pack 10 from the battery mounting portion 111 is disposed in this region. The discharge spring 125 is, for example, a coil spring, contacts the contact portion that is the gap portion 21 a of the battery pack 10, and biases the battery pack 10 in the discharge direction from the battery mounting portion 111.

  As shown in FIG. 11B, when the battery pack 10 is mounted on the battery mounting portion 111, the positive contact 122 is pressed against the positive terminal 12a of the terminal portion 12 of the battery pack 10, and the negative contact 123 is connected to the battery. The minus terminal 12b of the pack 10 is press-contacted, and the control contact 124 is press-contacted with the control terminal 12c of the battery pack 10. As a result, the battery pack 10 can supply power to the digital still camera 100, and a control signal from the digital still camera 100 is input to the authentication circuit 32 from the control terminal 12c. Authentication processing can be performed with the digital still camera 100. For example, when the digital still camera 100 authenticates that the attached battery pack 10 is a regular battery pack 10, the digital still camera 100 performs a process of turning on the FET element 18c and starting power supply. Note that the battery pack 10 has a stopper portion 126 formed at a corner portion of the front surface 11c of the pack body 11 on the insertion end side at a bottom corner portion provided with the electric contact portion 121 of the battery mounting portion 111 and one step higher than the bottom surface. It will be inserted until it hits. The stopper part 126 prevents the battery pack 10 from entering the battery mounting part 111 and damaging the electrical contact part 121.

  The battery pack 10 is inserted into the battery mounting portion 111 and locked by the lock member 112 in a state where the discharge spring 125 is compressed, and the lock member 112 is unlocked. The battery is discharged so as to protrude from the battery insertion port 107 by the urging force of the discharge spring 125.

  By the way, the battery pack 10 is formed so that the pack body 11 is axisymmetric with respect to the center line P1 in the width direction and is also symmetrical with respect to the center line P2 in the thickness direction. Since the battery mounting part 111 is formed, for example, it may be inserted into the battery insertion port 107 with the front and back reversed without following the display of the direction display part 25a. In such a case, as shown in FIG. 11C, the positive contact 122 and the negative contact 123 of the electric contact portion 121 on the battery mounting portion 111 side are in relation to the center line P1 in the width direction of the front surface 11c of the pack body 11. Thus, the control contact 124 contacts the temperature detection terminal 12d on one side with respect to the center line P1 in the width direction of the front surface 11c of the pack body 11. You will be in touch. This is because the control terminal 12 c is provided at a position that is not symmetrical with the plus terminal 12 a and the minus terminal 12 b with respect to the center line P 1 in the width direction of the pack body 11, and the control terminal 12 c and the temperature detection terminal 12 d are provided on the pack body 11. This is because it is symmetrical with respect to the center line P1 in the width direction.

  Therefore, even when the battery pack 10 has been inserted into the battery insertion port 107 upside down, the corner of the back surface 11d of the pack body 11 on the insertion end side of the battery pack 10 is electrically connected to the battery mounting portion 111. The contact portion 121 is inserted into the bottom corner portion until it abuts against a stopper portion 126 formed one step higher than the bottom surface. Therefore, even when the battery pack 10 is inserted into the battery insertion port 107 upside down, the stopper portion 126 is inserted into the battery mounting portion 111 so that the electric contact portion 121, in particular, It is possible to prevent the positive contact 122 and the negative contact 123 that are not electrically connected to the terminal portion 12 of the battery pack 10 from being excessively bent and damaged. And since the plus terminal 12a and the minus terminal 12b of the battery pack 10 do not contact any contact of the electrical contact part 121 of the battery mounting part 111, the battery voltage is not applied to the non-regular contact, It is possible to prevent the digital still camera 100 from malfunctioning and to prevent foreign matter from contacting and fouling. In this case, the temperature detection terminal 12d of the battery pack 10 is in contact with the control contact 124 of the battery mounting portion 111. However, the battery pack 10 is applied with a voltage from the control contact 124 to the temperature detection terminal 12d. In the digital still camera 100, no voltage is applied to the control contact 124 from the temperature detection terminal 12d. Therefore, the battery pack 10 and the digital still camera 100 can prevent failure even when the battery pack 10 is inserted into the battery mounting portion 111 upside down.

  Further, when the battery pack 10 is inserted into the battery insertion port 107 upside down, the discharge spring 125 of the battery mounting portion 111 partially or entirely overlaps the negative terminal 12 b of the battery pack 10. Even in such a case, since the tip of the discharge spring 125 is larger than the terminal opening 14b of the minus terminal 12b, the discharge spring 125 can contact the opening end of the terminal opening 14b and directly contact the minus terminal 12b. It is possible to prevent the negative terminal 12b from being damaged. Further, even if the discharge spring 125 may come into contact with the negative terminal 12b, electricity does not flow, so that it is possible to prevent the battery pack 10 and the digital still camera 100 from malfunctioning.

The discharge spring 125 may have a tip portion smaller than the terminal opening 14b of the minus terminal 12b. Even in this case, since electricity does not flow between the minus terminal 12b and the discharge spring 125, it is possible to prevent the battery pack 10 and the digital still camera 100 from being damaged. Further, the position where the discharge spring 125 is provided may be provided at a position where the battery pack 10 contacts the gap portion 21a as a contact portion even when the battery pack 10 is inserted into the battery insertion port 107 in the reverse direction. The battery pack 10 is charged by a charging device different from the digital still camera 100 as shown in FIG. In this charging device 130, a battery mounting portion 132 is provided in the device main body 131. The battery mounting portion 132 has substantially the same opening area as the upper surface 11 a and the lower surface 11 b of the pack body 11 of the battery pack 10, and is formed to have substantially the same depth as the thickness of the pack body 11. The battery mounting portion 132 is formed with a notch 133 for facilitating the mounting of the battery pack 10 on the battery mounting portion 132 or for easily removing the battery pack 10 from the battery mounting portion 132.

  The battery mounting portion 132 is provided with an electrical contact portion 134 on the back surface facing the terminal portion 12 provided on the front surface 11c of the battery pack 10 to be mounted. The electrical contact portion 134 is provided with a positive contact 135, a temperature detection contact 136, and a negative contact 137 from one side corresponding to the arrangement of the terminals 12 of the battery pack 10. These contact points 135 to 137 are formed, for example, by bending a conductive leaf spring into a substantially square shape. The positive contact 135 is in pressure contact with the positive terminal 12a of the terminal portion 12 of the battery pack 10, the temperature detection contact 136 is in pressure contact with the temperature detection terminal 12d of the battery pack 10, and the negative contact 123 is negative in the battery pack 10. The terminal 12b is pressed. Since the electric contact portion 134 is used when charging the battery pack 10, unlike the case of the digital still camera 100, a portion corresponding to the control terminal 12 c that is not required for charging is used for control. There are no contacts. That is, the electrical contact portion 134 is provided on one side with respect to the center line P1 in the width direction of the front surface 11c of the battery pack 10.

  When the battery pack 10 is mounted on the battery mounting portion 132 of the charging device 130, the user refers to the function display portion 27 and the insertion direction display portion 26 formed on the back surface 11 d of the battery pack 10, For example, it is possible to prevent the battery pack 10 from being attached to the battery mounting portion 132 in the reverse direction.

  As shown in FIG. 13A, when the battery pack 10 is attached to the battery attachment portion 132 of the charging device 130, the positive contact 135 is brought into pressure contact with the positive terminal 12a of the terminal portion 12 of the battery pack 10 to detect the temperature. The contact 136 is in pressure contact with the temperature detection terminal 12d of the battery pack 10, and the negative contact 137 is in pressure contact with the negative terminal 12b of the battery pack 10. Thereby, the charging device 130 can perform charging by applying a charging voltage to the battery pack 10. At this time, the charging device 130 can detect the temperature signal from the thermistor 33 because the temperature detection contact 136 is in contact with the temperature detection terminal 12d of the battery pack 10, and performs charging according to this temperature signal. It will be. The battery pack 10 has a stopper portion 138 formed at a corner portion of the front surface 11c of the pack body 11 on the insertion end side at a rear corner portion provided with the electric contact portion 134 of the battery mounting portion 132 and one step higher than the rear surface. It will be inserted until it hits. The stopper portion 138 prevents the battery pack 10 from entering the battery mounting portion 132 and damaging the electrical contact portion 134.

  When the battery pack 10 is mounted upside down with respect to the battery mounting portion 132 of the charging device 130, as shown in FIG. 13B, the battery pack 10 is mounted on the back surface 11d of the pack body 11 on the insertion end side. This corner portion is inserted into the rear corner portion of the battery mounting portion 132 provided with the electrical contact portion 134 until it hits a stopper portion 138 formed one step higher than the bottom surface. Therefore, even when the battery pack 10 is inserted into the battery mounting portion 132 upside down, the stopper portion 138 is inserted into the battery mounting portion 132 so that the electric contact portion 134, in particular, It is possible to prevent the positive contact 135 and the negative contact 137 that are not electrically connected to the terminal portion 12 of the battery pack 10 from being excessively bent and damaged. The positive contact 135 and the negative contact 137 of the electric contact portion 134 on the battery mounting portion 132 side are in a region where the terminal on the other side is not provided with respect to the center line P1 in the width direction of the front surface 11c of the pack body 11. The temperature detection contact 136 comes into contact with the control terminal 12c on the other side with respect to the center line P1 in the width direction of the front surface 11c of the pack body 11. This is because the control terminal 12 c is provided at a position that is not symmetrical with the plus terminal 12 a and the minus terminal 12 b with respect to the center line P 1 in the width direction of the pack body 11, and the control terminal 12 c and the temperature detection terminal 12 d are provided on the pack body 11. This is because it is symmetrical with respect to the center line P1 in the width direction.

  Therefore, even when the battery pack 10 is mounted on the battery mounting portion 132 of the charging device 130 upside down, the positive terminal 12a and the negative terminal 12b of the battery pack 10 are connected to the battery mounting portion 132 of the charging device 130. Since it does not come into contact with any contact of the electrical contact portion 134, it is possible to prevent a charging voltage from being applied to a non-regular contact, to prevent a failure of the battery pack 10 and to prevent foreign matter from coming into contact. For this reason, it is possible to prevent fouling. In this case, the control terminal 12c of the battery pack 10 is in contact with the temperature detection contact 136 of the battery mounting portion 132 of the charging device 130. However, the battery pack 10 is supplied with a voltage from the temperature detection contact 136 to the control terminal 12c. Is not applied, and failure of the authentication circuit 32 connected to the control terminal 12c can be prevented.

  Although the case where the battery pack 10 is charged by a dedicated charging device has been described here, the battery pack 10 may be further charged by the digital still camera 100. In this case, the digital still camera 100 may be provided with a charging circuit, and a temperature detection contact may be provided between the plus contact 122 and the minus contact 123 in the electrical contact portion 121.

  According to the battery pack 10 configured as described above, the pack body 11 is formed symmetrically with respect to the center line P1 in the width direction and symmetrical with respect to the center line P2 in the thickness direction. Even when the digital still camera 100 is mistakenly attached to the battery mounting portion 111, it can be easily taken out. On the other hand, the battery pack 10 is formed such that the orientation display portion 25a is formed on the back surface 11d that is most noticeable to the user during the insertion operation, and the insertion direction display portion 26 is formed on the top surface 11a that is conspicuous in appearance. The wrong insertion is prevented.

  Even when the battery pack 10 is inserted into the battery mounting portion 111 of the digital still camera 100 upside down, as shown in FIG. 11C, the positive terminal 12a of the battery pack 10 is inserted. Since the negative terminal 12b does not contact any contact of the electrical contact portion 121 of the battery mounting portion 111, the battery voltage is not applied to the non-regular contact, and the digital still camera 100 is prevented from being damaged. In addition, it is possible to prevent foreign matters from coming into contact with and fouling. In this case, the temperature detection terminal 12d of the battery pack 10 is in contact with the control contact 124 of the battery mounting portion 111. However, the battery pack 10 is applied with a voltage from the control contact 124 to the temperature detection terminal 12d. In the digital still camera 100, no voltage is applied to the control contact 124 from the temperature detection terminal 12d. Therefore, the battery pack 10 and the digital still camera 100 are prevented from malfunctioning even when the battery pack 10 is inserted into the battery mounting portion 111 upside down.

  Further, when the battery pack 10 is inserted into the battery mounting portion 111 of the digital still camera 100 upside down, the discharge spring 125 of the battery mounting portion 111 partially or entirely overlaps the negative terminal 12 b of the battery pack 10. However, even in such a case, the discharge spring 125 can abut against the opening end of the terminal opening 14b and prevent the negative terminal 12b from being damaged. Further, even if the discharge spring 125 may come into contact with the negative terminal 12b, electricity does not flow, so that it is possible to prevent the battery pack 10 and the digital still camera 100 from malfunctioning.

  Further, when the battery pack 10 is mounted on the battery mounting portion 132 of the charging device 130, the user refers to the function display portion 27 formed on the back surface 11d of the battery pack 10 and the insertion direction display portion 26 formed on the top surface 11a. Can perform a mounting operation on the battery mounting unit 132, and can prevent the battery pack 10 from being mounted on the battery mounting unit 132 upside down, for example. Further, as shown in FIG. 13B, even when the battery pack 10 is mounted on the battery mounting portion 132 of the charging device 130 upside down, the plus terminal 12a and the minus terminal 12b of the battery pack 10 are installed. Is not in contact with any contact of the electrical contact part 134 of the battery mounting part 132 of the charging device 130, so that it is possible to prevent the charging voltage from being applied to the non-regular contact and to prevent the battery pack 10 from being broken. In addition, since foreign matter does not come into contact, it can be prevented from being soiled. In this case, the control terminal 12c of the battery pack 10 is in contact with the temperature detection contact 136 of the battery mounting portion 132 of the charging device 130. However, the battery pack 10 is supplied with a voltage from the temperature detection contact 136 to the control terminal 12c. Is not applied, and failure of the authentication circuit 32 connected to the control terminal 12c can be prevented.

  Further, in the battery pack 10, as shown in FIGS. 2 to 4, the label 24 is attached to the upper surface 11 a, the rear surface 11 d, and the lower surface 11 b of the pack body 11, so that the can body 13 is heated. The welded bottom cover 15 is pressed against the can main body 13, and the bottom cover 15 can be prevented from falling off from the can main body 13. In addition, since the battery pack 10 has the label 24 attached to the back surface 11d, the degree of freedom in designing the back surface 11d is increased, and the function display unit 27 and the like can be provided.

  The electronic device to which the battery pack 10 to which the present invention is applied is not limited to the digital still camera 100 described above, but may be a digital video camera, a portable phone, a PDA (Personal Digital (Data)). Assistants). Also, the type of battery is not limited to the lithium ion polymer secondary battery.

It is a perspective view which shows the state with which the battery pack to which this invention was applied is mounted | worn with a digital still camera. It is the perspective view which looked at the battery pack to which this invention was applied from the front upper side. It is the perspective view which looked at the battery pack to which this invention was applied from the back lower side. 1 is an exploded perspective view of a battery pack to which the present invention is applied. (A) is the front view which looked at the battery pack to which this invention was applied from the front, (B) is a top view of a wiring board. It is sectional drawing of a terminal part. It is a side view of a battery pack to which the present invention is applied. It is a circuit diagram of a battery pack to which the present invention is applied. It is an assembly process figure of the battery pack to which this invention was applied. It is a perspective view which shows the electrical contact part provided in the battery mounting part in which the battery pack to which this invention was applied is mounted | worn. It is sectional drawing which shows the state in which the battery pack to which this invention was applied is mounted | worn in the battery mounting part of a digital still camera, (A) shows the state in which a battery pack is inserted in a battery mounting part, (B) Indicates a state in which the battery pack is correctly mounted on the battery mounting portion, and (C) indicates a state in which the battery pack is mounted on the battery mounting portion upside down. It is a perspective view of the charging device which charges the battery pack to which this invention was applied. It is sectional drawing which shows the state with which the battery pack to which this invention was applied is mounted | worn with the battery mounting part of a charging device, (A) shows the state with which the battery pack was correctly mounted | worn with the battery mounting part of the charging device, (B) shows a state in which the battery pack is mounted on the battery mounting portion of the charging device upside down.

Explanation of symbols

10 battery pack, 11 pack body, 11a top surface, 11b bottom surface, 11c front surface, 11d back surface, 11e, 11f side surface, 12 terminal portion, 12a plus terminal, 12b minus terminal, 12c control terminal, 12d temperature detection terminal, 13 can body, 13a Front side opening, 13b Rear side opening, 14 Top cover, 14a Terminal opening, 14b Terminal opening, 14c Terminal opening, 14d Terminal opening, 14e Taper, 15 Bottom cover, 16 plus Lead terminal, 17 negative lead terminal, 18 wiring board, 18a protection element, 18b authentication element, 18c FET element, 18d plus tab, 18e minus tab, 18f PTC, 19 holder, 19a notch, 21a gap ( Abutting part), 21b gap part, 21c gap part, 22 labeling Attached concave part, 23 engaged part, 24 label, 25a, 25b direction display part, 26 insertion direction display part, 27, 28 function display part, 29 battery cell, 31 protection circuit, 32 authentication circuit, 33 thermistor, 100 digital Still camera, 101 Camera body, 101a Front surface, 101b Upper surface, 101c Lower surface, 102 Lens portion, 103 Release button, 104 Light emitting portion, 105 Window portion, 106 Mounting portion, 107 Battery insertion port, 108 Battery cover, 109 Card insertion port, 110 memory card, 111 battery mounting portion, 112 lock member, 121 electrical contact portion, 122 positive contact, 123 negative contact, 124 control contact, 125 discharge spring, 130 charging device, 131 device main body, 132 battery mounting portion, 133 notch 134 Contact points 135 Positive contact, 136 Temperature detection contact, 137 Negative contact

Claims (5)

A pack body in which the outer shape viewed from the front surface which is the terminal arrangement surface is substantially symmetrical in the vertical and horizontal directions, and the battery cell is built inside,
A top cover provided with a terminal portion and provided on the front surface of the pack body,
A bottom cover provided on the back of the pack body,
A portion that is affixed across the upper surface, the back surface, and the lower surface of the pack body, and that the portion located on the back surface of the pack body includes a label formed narrower than the portion located on the upper and lower surfaces of the pack body;
The bottom cover has a concave portion for label affixing at a central portion in the width direction, and is an engaged portion to which a lock member is engaged when one side in the width direction is mounted on the battery mounting portion. ,
The battery pack in which the display part which shows the direction at the time of inserting in a battery mounting part is formed in the part located in the back surface of the said pack main body of the said label.   2. The battery pack according to claim 1, wherein a portion of the label located on an upper surface of the pack body is provided with a display portion indicating an insertion direction into the battery mounting portion. The terminal portion has a plus terminal, a minus terminal, a control terminal, and a temperature detection terminal,
The portion of the label located on the back surface of the pack body is provided with a display portion indicating the function of each terminal corresponding to the arrangement of each terminal of the terminal portion. Battery pack.   On the lower side of the pack body of the label and on the front side adjacent to the terminal portion, a corresponding display portion indicating the function of each terminal is provided corresponding to the arrangement of the terminals of the terminal portion. The battery pack according to claim 3. The pack body has the front surface closed by a top cover, the back surface facing the front surface closed by a bottom cover,
The battery pack according to claim 1, wherein the top cover and the bottom cover are slightly larger than a surface of the pack body to which the top cover and the bottom cover are attached.

Images