JP5687508B2 - Battery pack, battery charger and electronic equipment - Google Patents

Description

  The present invention relates to a battery pack, a battery charger for filling the battery pack, and an electronic device including the battery pack.

  In recent years, for example, in an izakaya or restaurant, an order entry system has been introduced in which an employee or a user operates an order input terminal to input an order. As a power source for the terminal, a rechargeable battery pack that is detachably attached to the terminal body is generally used. The battery pack can be charged by removing it from the terminal body and inserting it into the battery charger. After the charging is completed, the battery pack is removed from the battery charger and attached to the terminal body to use the order entry terminal. A terminal equipped with such a battery pack is provided with a lock mechanism that locks the battery pack and the main body of the terminal. With this lock mechanism, the battery pack attached to the main body of the terminal is restricted (locked). ) Or allowed (unlocked).

  As a lock switch for operating the lock mechanism described above, a push switch elastically supported via a spring member is conventionally known. This push switch is held in the locked position by the urging force of the spring member. In the battery pack having such a push switch, the lock is released by depressing the push switch, and the battery pack can be detached from the terminal body.

Further, as a lock switch other than the push switch described above, a slide switch that is slidable between a lock position and a lock release position as described in, for example, Patent Document 1 below is known. In this slide switch, the battery pack attached to the terminal body is restricted from being placed in the lock position, and the battery pack attached to the terminal body can be removed by sliding it to the unlock position. Permissible.
Conventionally, there has also been proposed a slide switch that performs on / off control of the power supply circuit of the terminal body by the above-described slide switch switching operation. In the terminal having the slide switch, when the slide switch is in the locked position, the power circuit is turned on, and the terminal can be operated. When the slide switch is slid to the unlock position, the power supply circuit is controlled to be turned off, and at the same time, a suspend process (power-off process) is performed.

Japanese Patent Laid-Open No. 10-32623

  However, in the technology using the conventional slide switch that controls the power supply circuit on / off, the slide switch is slid to the unlock position to control the power supply circuit to turn off and the suspend process is started and the lock is released. This causes a problem that the time during which the suspend process can be performed is short. Accordingly, for example, in a large-capacity terminal that requires a data storage time of 1 second or more, there is a risk that the battery pack may be removed before the data storage is completed, and there may be a problem such as data corruption.

  The present invention has been made in consideration of the above-described conventional problems, and an object thereof is to provide a battery pack and an electronic device that can reliably store data during suspend processing, and is further suitable for the battery pack. It aims to provide a battery charger.

  The battery pack according to the present invention is a battery pack that is detachably attached to the electronic device main body, and has a first locked portion that can be engaged with the locking portion of the electronic device main body. And an on / off switching of the power circuit of the electronic device main body, and a lock switch for switching the lock on the electronic device main body, and an engaging portion engageable with an on / off control switch of the power circuit of the electronic device main body. The lock switch is provided with a second locked portion that is locked to the power switch at a power-on position to restrict the unlocking operation of the lock switch. It is characterized by being.

  With such a feature, the battery pack is mounted on the electronic device body, and the first locked portion of the lock switch is engaged with the locking portion of the electronic device body, so that the battery pack is attached to the electronic device body. The battery pack is locked and the removal of the battery pack is restricted. When the power switch is set to the power-on position, the power circuit of the electronic device main body is turned on. At this time, since the second locked portion of the lock switch is locked to the power switch, the unlocking operation of the lock switch is restricted. When the power switch is set to the power off position, the power circuit of the electronic device main body is turned off. At this time, since the power switch is disengaged from the second locked portion of the lock switch, the lock switch can be unlocked. Therefore, when removing the battery pack from the electronic device main body, first, the power switch is set to the power off position, and then the lock switch is unlocked to release the lock on the electronic device main body. The battery pack can be removed.

  The battery pack according to the present invention is a push switch in which the lock switch is elastically supported by a first spring member, and the power switch engages the lock switch to release the lock switch. A slide switch that is slidable between a power-on position to be regulated and a power-off position that allows the unlocking operation of the lock switch to be released from the lock switch, and the power switch is elastic in a pressing direction of the lock switch. It is preferably supported via a deformable second spring member.

  Thus, when the battery pack is mounted on the electronic device body, even if the power switch (slide switch) is in the power-on position and the second locked portion of the lock switch (push switch) is locked to the power switch. When the second spring member is elastically deformed, the lock switch is pressed together with the power switch, and the first locked portion of the lock switch is engaged with the locking portion of the electronic device main body. That is, the battery pack can be attached to the electronic device body even when the power switch is in the power-on position.

  A battery charger according to the present invention is a battery charger for charging the battery pack described above, and is provided with a slot accommodating portion into which the battery pack can be inserted, and the battery pack is inserted into an inner wall surface of the slot accommodating portion. A switch guide portion that engages with the power switch at the power-off position and guides the power switch to the power-on position in accordance with the operation is provided.

  Due to this feature, if the power switch is in the power-off position when the battery pack is inserted into the slot accommodating portion of the battery charger, the switch guide portion is engaged with the power switch, and the power switch is turned on by the switch guide portion. It is pushed and slides to the power-on position. Thereby, the power switch of the battery pack extracted from the slot accommodating portion of the battery charger is always arranged at the power-on position.

An electronic device according to the present invention includes the above-described battery pack and an electronic device main body having a battery mounting portion on which the battery pack is mounted.
With such a feature, the battery pack can be detached from the electronic device main body by performing the unlocking operation of the lock switch after the power switch is set to the power-off position.

  According to the battery pack and the electronic device of the present invention, when the battery pack is detached from the electronic device body, the lock switch is unlocked after the power switch is set to the power-off position. As a result, the time from when the suspend process is started until the battery pack is unlocked until the battery pack is detached from the main body of the electronic device is lengthened, and sufficient time is secured for storing data during the suspend process. Therefore, it is possible to prevent a problem that the battery pack is removed before the data storage is completed, and it is possible to reliably perform the data storage during the suspend process.

  Further, according to the battery charger according to the present invention, the power switch of the battery pack extracted from the slot accommodating portion of the battery charger can be always arranged at the power-on position. Since the battery pack with the power switch placed at the power-on position can be mounted on the electronic device body as it is, the electronic device can be connected without switching the power switch after the battery pack is mounted on the electronic device body. Equipment can be used.

It is a top view of the spread state of the electronic device (handy terminal) for demonstrating embodiment of this invention. It is a top view of the back surface side of the electronic device (handy terminal) for describing embodiment of this invention. It is a perspective view of the battery pack for demonstrating embodiment of this invention. It is a top view of the battery pack for demonstrating embodiment of this invention. It is a disassembled perspective view of the battery pack for demonstrating embodiment of this invention. It is a fracture view of the back side of electronic equipment (handy terminal) for explaining an embodiment of the invention. It is sectional drawing between AA shown in FIG. It is sectional drawing between BB shown in FIG. It is sectional drawing between CC shown in FIG. It is a fracture view of the back side of electronic equipment (handy terminal) for explaining an embodiment of the invention. It is sectional drawing between AA shown in FIG. It is sectional drawing between BB shown in FIG. It is a perspective view of the battery charger for demonstrating embodiment of this invention. It is a side view of the front side of the battery charger for demonstrating embodiment of this invention. It is sectional drawing between AA shown in FIG. It is sectional drawing between AA shown in FIG.

  Hereinafter, embodiments of a battery pack, a battery charger, and an electronic device according to the present invention will be described with reference to the drawings.

[Electronics]
First, an embodiment of an electronic device according to the present invention will be described.
A handy terminal 1 shown in FIG. 1 is an example of an electronic device according to the present invention, and functions as an order input terminal constituting an order data management system installed in a restaurant such as a pub or a restaurant. Each employee carries this handy terminal 1 and inputs the order data to the handy terminal 1 when receiving an order, and the input order data is directed to, for example, a wireless control unit constituting the order data management system. Wireless transmission is possible.

  The handy terminal 1 is a thin terminal formed in a rectangular shape in plan view as shown in FIG. 2, and includes a terminal body 2 (electronic device body) and a battery pack that supplies power to the terminal body 2. 3 are provided.

As shown in FIG. 1, the terminal body 2 includes a body portion 20 having a touch panel display 24 provided on the front surface side, a lid portion 21 connected to the body portion 20 via a hinge portion 22, It has. A plurality of input buttons 25 are juxtaposed on the inner surface of the lid portion 21.
The handy terminal 1 having the above-described configuration is excellent in portability because the lid portion 21 can be closed and folded when not in use, and the lid portion 21 can be opened about 180 degrees with respect to the main body portion 20 when used. So input operability is excellent.

  Further, as shown in FIG. 2, a battery mounting portion 23 to which the battery pack 3 is mounted is formed on the back surface of the main body portion 20 of the terminal main body 2. The battery mounting portion 23 is a recess formed on the back surface of the main body portion 20, and the exterior surface of the battery pack 3 mounted on the battery mounting portion 23 and the back surface of the main body portion 20 are formed flush with each other. Yes. In addition, one side (Y2 direction) part of the battery mounting part 23 is opened so that the battery pack 3 can be inserted, and the inner peripheral surface of the battery mounting part 23 is formed in a substantially U shape in plan view. Yes. The battery pack 3 is inserted into the battery mounting portion 23 by sliding in a direction along the back surface of the main body 20 from one side of the terminal main body 2, and the slide insertion direction (Y1 direction shown in FIG. 2). ) In the opposite direction (Y2 direction shown in FIG. 2), and can be detached from the battery mounting portion 23.

[battery pack]
Next, an embodiment of a battery pack according to the present invention will be described.
The battery pack 3 shown in FIG. 3 is a rechargeable battery pack that is detachably attached to the terminal body 2 shown in FIG. On the side end surface of the tip portion of the battery pack 3 in the slide insertion direction (Y1 direction), two concave terminal accommodating portions 35 opened at the side end surface are disposed with a gap therebetween. Connection terminals 36 and 36 are disposed inside the terminal accommodating portions 35 and 35, respectively.

Further, as shown in FIGS. 3 and 4, the battery pack 3 includes a push switch 4 that is pressed and a slide switch 5 that is slid. These two switches 4 and 5 are disposed between the pair of connection terminals 36 and 36 described above. That is, the push switch 4 and the slide switch 5 are arranged in a direction (X1-X2 direction) orthogonal to the slide direction (Y1-Y2 direction) of the battery pack 3 at the tip end portion in the slide insertion direction (Y1 direction) of the battery pack 3. They are arranged side by side.
Hereinafter, for convenience of explanation, the slide insertion direction (Y1 direction) of the battery pack 3 is referred to as “front”, and the opposite direction (Y2 direction) is referred to as “rear”. Further, the exterior surface direction (Z1 direction) of the battery pack 3 is “up”, and the opposite direction (Z2 direction) is “down”. Furthermore, a plane direction (X1-X2 direction) orthogonal to the front-rear direction is defined as a “width direction”.

  As shown in FIGS. 5 to 8, the push switch 4 is a lock switch that switches the lock of the battery pack 3 with respect to the terminal body 2, and can be engaged with the locking portion 26 of the terminal body 2. It has a hook-shaped claw portion 41 (first locked portion). More specifically, the push switch 4 is a switch that releases a lock on the terminal body 2 by pressing and pressing a pressing surface 40a described later, and is elastically supported by a coil spring 43 (first spring member). The locking position (the position where the tip 44 of the claw 41 is locked to the locking portion 26) is held.

  As a schematic configuration of the push switch 4, a cylindrical button portion 40 extending in the vertical direction (Z1-Z2 direction), a claw portion 41 protruding from the lower end portion of the button portion 40 toward the front side, and a button portion And a flange portion 42 (second locked portion) protruding from the lower end portion of 40 toward the slide switch 5 side (X2 direction).

The button portion 40 is a rectangular tube-shaped top portion having a pressing surface 40a formed on the upper end surface, and is formed in a switch opening 31 formed in the cover 30 on the upper side (exterior surface side) of the battery pack 3. It is inserted so that it can descend.
The claw portion 41 is a convex rib hook having a substantially L-shaped cross-section in which the front end portion 44 is bent upward. Thus, the sliding movement of the battery pack 3 toward the rear side is restricted. In addition, an inclined surface 45 that is inclined obliquely upward from the front end surface of the claw portion 41 toward the rear side is formed at the distal end portion 44 of the claw portion 41. Further, as shown in FIG. 8, the locking portion 26 of the terminal body 2 described above is formed with an inclined surface 28 inclined obliquely upward from the wall surface on the rear side of the locking portion 26 toward the front side. ing.

The flange portion 42 is a flat convex portion, and is locked from above with respect to a slide switch 5 (the upper surface of the frame portion 50) at a power-on position, which will be described later. Operation (push-down operation) is restricted.
The coil spring 43 is a spring member that is elastically deformed in the vertical direction, and is interposed between the button portion 40 and the cover 33 on the lower side (inner surface side) of the battery pack 3.

  As shown in FIGS. 5 to 7 and 9, the slide switch 5 is a power switch for switching on and off the power circuit of the terminal body 2, and is connected to the on / off control switch 27 of the power circuit of the terminal body 2. It has the protrusion part 52 (engagement part) which can be engaged. More specifically, the slide switch 5 is engaged with the on / off control switch 27 of the power supply circuit of the terminal body 2 to turn on the power supply circuit, and the slide switch 5 is off from the on / off control switch 27 to turn off the power supply circuit. The switch is slidable between the power-off position and the power-off position, and is slidable in the width direction.

  As a schematic configuration of the slide switch 5, a box-shaped frame portion 50 whose bottom surface is open, a knob portion 51 erected on the top surface of the frame portion 50, and a projection portion 52 that projects from the front surface of the frame portion 50, , Is provided.

The frame portion 50 is formed in a rectangular shape that is long in the width direction, and is housed inside the covers 30 and 33 of the battery pack 3 so as to be movable in the width direction.
The knob 51 is a substantially cylindrical pin extending in the vertical direction. The knob 51 is disposed at the center of the frame 50 in the longitudinal direction (X1-X2 direction) and is attached to the upper cover 30 of the battery pack 3. It is inserted through the formed switch opening 32. The switch opening 32 is a long hole extending in the width direction (X1-X2 direction) and allows the knob portion 51 to move in the width direction. Note that the two switch openings 31 and 32 described above are respectively formed inside recesses 34 formed in the cover 30.

  The protruding portion 52 is a convex portion that protrudes forward from the longitudinal center portion of the front surface of the frame portion 50 and has an inclined surface 53 that is inclined with respect to the front-rear direction. More specifically, the protrusion 52 is formed in a substantially right triangle shape in plan view. The tip of the protrusion 52 abuts on the on / off control switch 27 of the power supply circuit of the terminal body 2 in a state where the slide switch 5 is arranged close to the push switch 4 side (X1 direction). 27 is pushed forward, whereby the power supply circuit of the terminal body 2 is turned on. That is, in the slide switch 5 described above, the position on the push switch 4 side (X1 direction) is the power-on position, and the position on the opposite side (X2 direction) to the push switch 4 side is the power-off position (shown in FIG. 10). is there.

  As shown in FIG. 9, the above-described on / off control switch 27 includes a shaft 27a that is movable in the front-rear direction, a coil spring 27b that urges the shaft 27a toward the rear side, and a front end surface of the shaft 27a. A rotatable lever 27c in contact therewith. The protruding portion 52 is in contact with the rear end surface of the convex curved surface (spherical surface) of the shaft 27a, whereby the shaft 27a is pushed forward while resisting the urging force of the coil spring 27b. The lever 27c is pushed by the shaft 27a, and the power supply circuit is turned on. On the other hand, as shown in FIG. 10, when the projection 52 is detached from the rear end of the shaft 27a, the shaft 27a is moved rearward by the biasing force of the coil spring 27b, and the lever is moved by the movement of the shaft 27a. 27c rotates to turn off the power supply circuit.

  As shown in FIGS. 5 and 7, the slide switch 5 described above is supported via a leaf spring 54 (second spring member) that can be elastically deformed in the push-down direction (vertical direction) of the push switch 4. . The leaf spring 54 is a trapezoidal (buffet-shaped) leaf spring, and is interposed between the frame portion 50 and the lower cover 33 of the battery pack 3. The leaf spring 54 can slide while sliding on the surface of the cover 33 as the slide switch 5 slides. The leaf spring 54 is a harder spring than the coil spring 43 of the push switch 4 described above, and the spring constant of the leaf spring 54 is larger than the spring constant of the coil spring 43.

  As shown in FIG. 8, the battery pack 3 having the above-described configuration is such that the tip 44 of the claw portion 41 of the push switch 4 is engaged with the terminal body 2 when the battery pack 3 is mounted on the battery mounting portion 23 of the terminal body 2. The battery pack 3 is locked to the terminal 26 and locked to the terminal body 2. Accordingly, the battery pack 3 is restricted from being detached from the terminal body 2. When the slide switch 5 is in the power-on position, as shown in FIGS. 6 and 9, the tip of the projection 52 presses the on / off control switch 27 of the power circuit of the terminal body 2 forward, and the terminal The power supply circuit of the machine body 2 is turned on. At this time, as shown in FIG. 7, the flange portion 42 of the push switch 4 is locked to the upper surface of the frame portion 50 of the slide switch 5, and the downward movement of the push switch 4 is restricted. Even if the button unit 40 is pressed, the push switch 4 is not lowered, and the unlocking operation (pressing operation) is not performed.

Next, a method for detaching the battery pack 3 from the terminal body 2 will be described.
First, as shown in FIG. 10, the slide switch 5 is slid from the power-on position to the power-off position. As a result, the tip of the protrusion 52 is disengaged from the on / off control switch 27 of the power supply circuit of the terminal body 2 and the power supply circuit of the terminal body 2 is turned off. At this time, as shown in FIG. 11, the slide switch 5 moves away from the push switch 4 and the frame portion 50 of the slide switch 5 is detached from the flange portion 42 of the push switch 4, so that the push switch 4 is pushed down. It becomes possible.

  Next, the button part 40 (pressing surface 40a) of the push switch 4 is pressed to resist the biasing force of the coil spring 43, and the push switch 4 is pushed down, and the battery pack 3 is slid rearward. When the push switch 4 is pushed down as described above, the tip 44 of the claw portion 41 is disengaged from the engaging portion 26 of the terminal body 2 and the lock of the battery pack 3 to the terminal body 2 is released as shown in FIG. Is done. Thereby, the battery pack 3 can be slid rearward. Then, as described above, the battery pack 3 is slid rearward in the unlocked state, whereby the battery pack 3 is pulled out of the battery mounting portion 23 of the terminal body 2 and is removed from the terminal body 2. Removed.

A method for mounting the battery pack 3 on the terminal body 2 will be described.
First, as shown in FIG. 2, the battery pack 3 is slid and inserted from the rear side (Y2 direction) of the battery mounting part 23 of the terminal body 2 toward the front side (Y1 direction). And when the front-end | tip part 44 of the nail | claw part 41 of the push switch 4 contact | abutted to the latching | locking part 26 of the terminal body 2, the battery pack 3 is pushed ahead. At this time, when the inclined surface 45 formed on the distal end portion 44 of the claw portion 41 slides on the inclined surface 28 formed on the locking portion 26, the push switch 4 is lowered and the distal end portion 44 of the claw portion 41 is moved. Gets over the locking part 26 of the terminal body 2. As a result, the tip 44 of the claw portion 41 is locked to the locking portion 26 of the terminal main body 2, and the battery pack 3 is locked to the terminal main body 2.

  When the slide switch 5 is in the power-off position as shown in FIG. 10 when the battery pack 3 is slid, the slide switch 5 is slid from the power-off position to the power-on position. At this time, the inclined surface 53 of the protrusion 52 slides on the convex curved rear end surface of the shaft 27a of the on / off control switch 27, so that the rear end surface of the shaft 27a is pressed by the inclined surface 53 of the protrusion 52, The shaft 27a moves forward. As a result, the lever 27c is pressed and rotated by the front end surface of the shaft 27a, and the power supply circuit is turned on. Further, when the slide switch 5 slides to the power-on position, the end of the frame portion 50 of the slide switch 5 enters below the flange portion 42 of the push switch 4, and the flange portion 42 is engaged with the upper surface of the frame portion 50. Stopped. As a result, the push-down operation of the push switch 4 is restricted.

  Further, when the slide switch 5 is in the power-on position as shown in FIG. 6 when the battery pack 3 is slid, the flange portion 42 is locked on the upper surface of the frame portion 50. When the battery pack 3 is pushed forward and the inclined surface 45 of the claw portion 41 slides on the inclined surface 28 of the locking portion 26, the leaf spring 54 that supports the slide switch 5 is elastically deformed and the slide switch 5. , The push switch 4 is lowered together with the slide switch 5 so that the tip 44 of the claw portion 41 gets over the engaging portion 26 of the terminal body 2. As a result, the tip 44 of the claw portion 41 is locked to the locking portion 26 of the terminal body 2, and the battery pack 3 is locked to the terminal body 2.

  According to the battery pack 3 described above, when the battery pack 3 is detached from the terminal body 2, the push switch 4 is unlocked after the slide switch 5 is set to the power-off position. Thus, after the suspend process is started, the time until the battery pack 3 is unlocked and the battery pack 3 is detached from the terminal body 2 becomes long, and a sufficient time for storing data during the suspend process is secured. . Therefore, it is possible to prevent a problem that the battery pack 3 is removed before the data storage is completed, and it is possible to reliably perform the data storage during the suspend process.

  Further, since the slide switch 5 is supported by a leaf spring 54 that can be elastically deformed in the pressing direction, it is pushed even if the battery pack 3 is pushed into the battery mounting portion 23 of the terminal body 2 while the slide switch 5 is in the power-on position. The battery pack 3 can be attached to the terminal body 2 without damaging the switch 4 or the slide switch 5. That is, when the user attaches the battery pack 3 to the terminal body 2, it is not necessary to check whether the slide switch 5 is in the power-on position or the power-off position or to switch the slide switch 5. It is very convenient. Further, after the battery pack 3 is charged by a battery charger 100 described later, the battery pack 3 can be mounted on the terminal body 2 as it is without checking the position of the slide switch 5 required for the suspend process of the handy terminal 1.

[Battery charger]
Next, an embodiment of a battery charger according to the present invention will be described.
A battery charger 100 shown in FIG. 13 is a charger for charging the battery pack 3 described above. As shown in FIGS. 13 and 14, the battery charger 100 is provided with a plurality of slot accommodating portions 101 that can accommodate the battery pack 3. The slot accommodating portion 101 is a socket (hole) having a rectangular shape in a sectional view into which the battery pack 3 is slid and inserted, and an end wall surface 103 (an inner side located on the opposite side of the insertion slot 102) of the slot accommodating portion 101. On the wall surface, connection terminals 105 and 105 that are electrically connected to the pair of connection terminals 36 and 36 of the battery pack 3 are provided.

  Further, as shown in FIGS. 14 and 15, one side wall surface 104 of the slot accommodating portion 101 (of the inner wall surface formed from the insertion port 102 to the end wall surface 103 faces the exterior surface of the battery pack 3. On the inner wall surface, a switch guide portion 110 is provided so as to engage with the slide switch 5 and guide the switching operation of the slide switch 5 in accordance with the insertion operation of the battery pack 3.

  More specifically, the switch guide portion 110 is a guide portion that engages with the slide switch 5 at the power-off position and guides the slide switch 5 to the power-on position, and extends along the slide insertion direction of the battery pack 3. It is a convex rib. The switch guide portion 110 is disposed at an intermediate portion in the height direction of the side wall surface 104 (corresponding to the width direction of the battery pack 3) and is disposed close to the end wall surface 103 side. That is, the switch guide portion 110 extends from the end portion of the side wall surface 104 on the end wall surface 103 side toward the insertion port 102 side. An inclined surface 111 that guides the slide switch 5 at the power-off position to the power-on position is formed at the end of the switch guide portion 110 on the insertion port 102 side. The inclined surface 111 is inclined downward from the near side to the far side in the slide insertion direction, and is formed at a position corresponding to the knob portion 51 of the slide switch 5 at the power-off position.

Next, a method for filling the battery pack 3 using the battery charger 100 having the above-described configuration will be described.
First, the battery pack 3 is inserted inside the slot accommodating portion 101 of the battery charger 100. More specifically, the battery pack 3 is slid and inserted along the side wall surface 104 from the insertion port 102 of the slot accommodating portion 101 with the side end surface on which the connection terminals 36 and 36 are disposed being the front end side. Then, the battery pack 3 is inserted up to the end wall surface 103 of the slot accommodating portion 101, and the connection terminals 36 and 36 of the battery pack 3 are brought into contact with the connection terminals 105 and 105 of the battery charger 100. As a result, the connection terminals 36 and 105 are electrically connected to each other, and electricity is supplied to the battery pack 3 through the connection terminals 36 and 105.

  As described above, when the slide switch 5 of the battery pack 3 that is slid into the slot accommodating portion 101 is in the power-off position, the battery pack 3 is slid into the slot accommodating portion 101 as shown in FIG. Sometimes the inclined surface 111 of the switch guide portion 110 abuts on the knob portion 51 of the slide switch 5. Thereafter, when the battery pack 3 is pushed in the slide insertion direction as it is, the knob portion 51 is pushed downward (on the power-on position side) while sliding on the inclined surface 111. As a result, the slide switch 5 slides from the power-off position to the power-on position.

  According to the battery charger 100 described above, the slide switch 5 of the battery pack 3 extracted from the slot accommodating portion 101 is always arranged at the power-on position. In addition, as described above, the battery pack 3 can be mounted on the battery mounting portion 23 of the terminal body 2 while the slide switch 5 is disposed at the power-on position. Therefore, after the charging of the battery pack 3 by the battery charger 100 is completed, the battery pack 3 extracted from the slot accommodating portion 101 is directly attached to the battery attachment portion 23 of the terminal body 2 so that the slide switch 5 can be switched. The handy terminal 1 can be used immediately without performing it.

The embodiments of the battery pack, the battery charger, and the electronic device according to the present invention have been described above. However, the present invention is not limited to the above-described embodiments, and can be appropriately changed without departing from the scope of the present invention. is there.
For example, in the above-described embodiment, the push switch 4 is supported by the coil spring 43 and the slide switch 5 is supported by the leaf spring 54. However, the present invention is a spring member that supports the push switch 4 and the slide switch 5. Can be appropriately changed. For example, the push switch 4 may be supported by a leaf spring, or the slide switch 5 may be supported by a coil spring.

  In the above-described embodiment, the slide switch 5 is supported by the leaf spring 54 and can be displaced in the vertical direction. However, in the present invention, the spring member that supports the slide switch 5 may be omitted. Is possible. However, in this case, since the battery switch 3 cannot be attached to the terminal body 2 with the slide switch 5 in the power-on position, the slide switch 5 is turned off before the battery pack 3 is attached to the terminal body 2. Must be in position. In this case, a switch other than the push switch can be used as the lock switch, and a switch other than the slide switch can be used as the power switch. For example, the lock switch may be a slide switch, and the power switch may be a push switch.

  In the above-described embodiment, the handy terminal 1 is described as an example of the electronic device. However, the electronic device according to the present invention is not limited to the handy terminal 1 and can be attached to and detached from the terminal body. Any electronic device having a battery pack attached to the device may be used.

  Further, in the above-described embodiment, the battery charger 100 in which a plurality of slot accommodating portions 101 are arranged in parallel is described, but the present invention is not limited to a battery charger having a plurality of slot accommodating portions, A battery charger in which only one slot accommodating portion is formed may be used.

  In addition, in the range which does not deviate from the main point of this invention, it is possible to replace suitably the component in above-mentioned embodiment with a well-known component, and you may combine the above-mentioned modification suitably.

1 Handy terminal (electronic equipment)
2 Terminal body (electronic equipment body)
3 Battery pack 4 Push switch (lock switch)
5 Slide switch (Power switch)
23 Battery mounting part 26 Locking part 27 On-off control switch 41 Claw part (first locked part)
42 Flange (second locked part)
43 Coil spring (first spring member)
52 Protruding part (engaging part)
54 Leaf spring (second spring member)
100 Battery Charger 101 Slot Housing 104 Side Wall Surface (Inner Wall Surface)
110 Switch guide section

Claims (4)

A battery pack that is detachably attached to the electronic device body,
A lock switch having a first locked portion that can be engaged with the locking portion of the electronic device main body, and for switching the lock on the electronic device main body;
A power switch that has an engaging portion that can be engaged with an on / off control switch of a power circuit of the electronic device body, and that performs on / off switching of the power circuit of the electronic device body;
Is provided,
One of the lock switch and the power switch is a push switch, the other is a slide switch,
The battery pack, wherein the lock switch is provided with a second locked portion that is locked to the power switch at a power-on position and restricts the unlocking operation of the lock switch. The battery pack according to claim 1,
The lock switch is a push switch elastically supported by a first spring member,
The power switch is located between a power-on position that locks the lock switch and restricts the unlocking operation of the lock switch, and a power-off position that allows the lock switch to be unlocked after being released from the lock switch. It is a slide switch that can slide,
The battery pack, wherein the power switch is supported via a second spring member that can be elastically deformed in a pressing direction of the lock switch. A battery charger for charging the battery pack according to claim 2,
A slot accommodating portion into which the battery pack can be inserted;
A switch guide portion is provided on the inner wall surface of the slot accommodating portion so as to engage with the power switch at the power-off position and guide the power switch to the power-on position when the battery pack is inserted. A battery charger characterized by An electronic device comprising: the battery pack according to claim 1; and an electronic device main body having a battery mounting portion on which the battery pack is mounted.

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