JP2001025177A - Electronic apparatus driven by battery - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an electronic apparatus which can be driven continuously with a battery, by enabling the battery to be replaced safely and surely even while working of the apparatus, in an electronic apparatus which uses a plurality of batteries capable of mounting and removal as power sources. SOLUTION: In a battery-driven electronic apparatus, batteries 101 and 102 are capable of individual replacement by causing a lock mechanism 105 to slide vertically. The lock mechanism 105 is further arranged, so that the shifting can be limited by fixing mechanisms 116 and 117. In a condition with the battery 2 is stored, the fixing mechanism 116 is released, and when the battery 102 is taken away by sliding the lock mechanism 105, a battery mounting detection switch 118 detects the battery being removed, and locks the lock mechanism 116. Thereupon, the lock mechanism 105 cannot slide, and the battery 101 can be removed.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to an electronic apparatus having a detachable battery as a power source.

[0002]

2. Description of the Related Art In a conventional electronic device using a detachable battery as a power source, when replacing a battery, the user must turn off the device or switch off an external power source such as an AC adapter. It is performed in a connected state. Also, if you remove the battery while the device is operating, detect that the battery has been removed, and before removing the battery from the device,
2. Description of the Related Art Data is automatically turned off while retaining data. In a device having a plurality of batteries, there is a case where the batteries can be operated continuously by exchanging one by one.

[0003]

However, when replacing the battery after turning off the power of the apparatus, the operation must be interrupted. In addition, any method requires the user to consciously replace the battery, and if the battery is not removed according to the procedure, a problem such as erasing data previously input to the device occurs. Further, even when the power of the device is automatically turned off upon detecting that the battery is removed, the process of turning off the power before the battery is removed may not be in time.

[0004] The present invention solves the above-mentioned problems, and enables the battery to be safely replaced even during operation of the device.
Alternatively, an object of the present invention is to protect device data and the like by preventing a battery from being removed.

[0005]

SUMMARY OF THE INVENTION The present invention solves the above-mentioned problems. In an electronic apparatus having a plurality of individually drivable and detachable batteries or battery packs as a main power supply, the drive power supply can be changed to an arbitrary battery. Means for switching, means for preventing the battery from being removed from the device, means for detecting which battery is locked, and means for releasing the battery lock in conjunction with mounting of the battery, wherein the battery The locking means is characterized in that all batteries are not unlocked together and at least one battery cannot be unlocked.

Further, the present invention provides an electronic apparatus having a plurality of individually drivable and detachable batteries as a main power supply, means for switching a drive power supply to an arbitrary battery, locking means for the battery, Means for detecting whether or not the battery is locked, means for detecting whether or not each battery is mounted, and means for controlling release of the battery lock,
The battery lock means is characterized in that all batteries are not unlocked together and at least one battery cannot be unlocked.

Further, there is provided a means for detecting each battery capacity, and the battery lock means is released only for a removable battery.

Further, when the power of the device is turned off, all the battery lock means are released.

Further, the apparatus can be driven by an external power supply such as an AC adapter, and has means for switching the driving power supply of the apparatus to the external power supply when the external power supply is provided. The means is released.

[0010]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below in detail based on embodiments.

FIG. 1 is a diagram showing an embodiment relating to a battery lock in the case where the number of batteries is two in the battery-driven electronic device according to the first aspect of the present invention. FIG. 1 (a-1) shows a state in which two batteries are normally stored, and 101 and 102.
Reference numeral denotes a battery as a power source, which is housed in the battery storage unit 103 and supplies power to the electronic device through the input terminal 104. At this time, the lock mechanism 105 prevents both batteries from being removed. The lock mechanism 105 can be slid up and down.
By using 06 and 107, it is possible to detect which side the user has slid. FIG. 1 (a-2) is the same as FIG. 1 (a-1).
FIG. 5 is a side view of the battery storage unit 103. Below the individual batteries in the battery storage unit 103, there is a lock fixing mechanism 108 for suppressing the movement of the lock mechanism 105. When the batteries are stored, the lock fixing mechanism 108 The lock mechanism 105 has been released.
Can slide freely. Battery compartment 10
The bottom surface of 3 has a hole through which the protrusion of the lock fixing mechanism 108 can pass. When removing the lower battery 102 from this state, for example, as shown in FIG. 1 (b-1), the lock mechanism 105 is slid upward and the battery is slid rightward to remove it from the input terminal. . At this time, the switch 106 is turned on by the lock mechanism, and it is possible to detect that only the upper battery 101 is locked. FIG. 1B-2 is a side view of this state, in which the lock fixing mechanism 108 is still released. Finally, when the lower battery 102 is removed from the battery housing as shown in FIG. 1 (c-1), the lock fixing mechanism 108 at the lower part of the battery 102 is moved by the spring 109 as shown in FIG. 1 (c-2). Go up. Then, the lock mechanism 105 cannot be slid by the lock fixing mechanism 108, and the upper battery 101 remains locked. The lock fixing mechanism 108 is released by mounting the battery 2 again, and the lock mechanism 10 is released.
5 becomes slidable, so that the upper battery 101 can be replaced by the same procedure, and when the battery 101 is replaced, the battery 102 remains locked.

In this procedure, if the device uses the battery 102 as the driving power source, the driving power source is switched to the battery 1 before the battery 102 is removed. FIG. 2 shows the switching of the driving battery. Based on the states of the switches 106 and 107 that are turned on and off by the movement of the lock mechanism, the drive battery switching control unit 113 determines which battery is locked as follows. When both switches 106 and 107 are off, both batteries are locked, switch 1
06 is on, the battery 101 is locked and the battery 1
When 02 is the unlocked state and the switch 107 is on, the battery 101 is in the unlocked state and the battery 102 is in the locked state. In the case of the structure shown in FIG. 1, the switches 106 and 107 are not both turned on. The switching control unit 113 switches the battery supplied to the power supply circuit 112 by controlling the power supply switches 110 and 111 based on this determination. In the case of FIG. 1B, since the switch 106 is turned on, the power supply switch 110 is turned on and the power supply switch 111 is turned off in order to set the driving battery to 101. When the battery 101 is replaced, the reverse is true.

FIG. 3 shows an embodiment of a battery-driven electronic device according to the second aspect of the present invention. In the above embodiment, when one battery is removed, the drive power is switched to the other battery. However, if the battery to be switched has no remaining capacity, the device cannot be driven even if the drive battery is switched. Therefore, in order to indicate which battery should be replaced, LEDs 114 and 1 indicating the remaining capacity of each battery in addition to FIG.
15 is attached. The LED is turned on when the battery capacity is exhausted. In FIG.
Since 14 is lit, it indicates that the battery 101 can be replaced. If you have any chance to both LED lights, both can not be replaced either because there is no battery capacity, when both are non-lighting conversely, so that may be exchanged either. Regarding the remaining capacity of the battery, the battery voltage can be measured, and the remaining capacity can be detected based on information from the battery.

FIG. 4 is a diagram showing an embodiment relating to a battery lock in the case where there are two batteries in the battery-driven electronic device according to the third aspect of the present invention. In FIG. 4, the basic operation is the same as in FIG. 1, but in FIG.
An electrically controllable fixing mechanism 116 is used instead of the fixing mechanism 108 for fixing the fixing member 5. When the battery 102 is stored, the fixing mechanism 116 is released, and when the battery 102 is removed by sliding the lock mechanism 105, the battery mounting detection switch 118
Lock removal mechanism 1
16 is locked. Then, similarly to FIG. 1, the lock mechanism 105 cannot slide, and the battery 101 cannot be removed.

FIG. 5 is a block diagram of a control section for fixing / releasing the battery lock. In FIG. 5, the battery control unit 12
0 detects the states of the lock mechanism detection switches 106 and 107 and the battery attachment detection switches 118 and 119, and detects the power supply switches 110 and 111 and the battery lock fixing mechanism 1
16 and 117 are controlled.

FIG. 6 is a flowchart showing the operation of the battery control unit 120 when the battery 102 is removed as shown in FIG. Lock mechanism 10 for removing battery 102
5, the switch 106 is turned on, and the battery control unit 120 detects that the battery 101 is in a locked state (step 201), immediately turns on the power supply switch 110, turns off 111, and switches the driving power supply to the battery. 10
1 (step 202). When the battery 102 is removed, the battery mounting detection switch 118 is turned off (step 203), and the battery control unit 120 locks the battery 101 by locking the lock fixing mechanism 116 (step 204). When a new battery is mounted and the battery mounting detection switch 118 is turned on (step 205), the lock of the lock fixing mechanism 116 is released (step 206).

Also in this embodiment, the capacity of each battery may be measured to indicate which battery should be replaced as shown in FIG.

FIG. 7 is a view showing an embodiment relating to a battery lock when two batteries are used in the battery-driven electronic device according to the fifth aspect of the present invention. The structure itself is exactly the same as that of FIG. The control method of the fixing mechanisms 116 and 117 is different. The control unit is the same as the block diagram shown in FIG.
FIG. 7A is a diagram when the remaining capacity of the battery 101 is not present, and the lock fixing mechanism 117 is already locked before the lock mechanism 105 is slid. Therefore, the lock mechanism 105 can slide only downward, and only the battery 101 can be removed. This is because the battery 101 has no remaining capacity and the battery 102 must not be removed.
05 is restricted. Similarly, the lock fixing mechanism is controlled as shown in Table 1 according to the remaining capacity of the battery.

[0019]

[Table 1]

If both batteries 101 and 102 have the remaining capacity, either of the batteries may be removed, and both lock fixing mechanisms 116 and 117 are released. If the battery 102 has no remaining capacity, the battery 101 must not be removed, so the battery 101 is locked (the lock fixing mechanism 116 is locked). If the battery 101 has no remaining capacity, the battery 102 must not be removed, so the battery 102 is locked (the lock fixing mechanism 117 is locked). If there is no remaining capacity in both batteries 101 and 102, both batteries are locked because neither battery must be removed. If there is no remaining capacity in one of the batteries as shown in Table 1, the other battery is locked, so it is clear which of the batteries can be removed and the battery with more remaining capacity is removed by mistake. It won't. If both batteries have remaining capacity,
The control according to the flowchart shown in FIG. 6 is performed.

In this embodiment, if there is no remaining capacity, both batteries are locked, and neither can be replaced. Accordingly, when the control unit is actually configured as shown in FIG. 8 and the remaining battery capacity is exhausted, the battery control unit 120 turns off the power of the device by the control signal 121 and releases both battery locks. Alternatively, when the user of the device turns off the power, both battery locks are released.

The battery-operated electronic device can also be operated by an external power supply such as an AC adapter, and when the AC adapter is connected as shown in FIG. It is no problem to remove the battery anytime. Therefore, even in such a case, control is performed to release the battery lock regardless of the battery capacity.

[0023]

According to the battery-powered electronic device of the present invention described above, at least one of the batteries can be removed and attached only when the battery is connected. Replacement is possible, and it is possible to extend the time for continuous battery operation. Also, by notifying the user of the device which battery should be replaced or controlling to lock the battery that should not be replaced, it is possible to replace the battery reliably and safely even during operation. . Further, even when all the batteries have no capacity, the battery lock can be released while the power of the device is turned off or operating with an external power source such as an AC adapter, so that the exchangeability of the batteries can be further improved.

[Brief description of the drawings]

FIG. 1 is a view showing one embodiment of a battery lock structure of a battery-driven electronic device of the present invention.

FIG. 2 is a block diagram showing an embodiment of a battery lock control unit according to the present invention.

FIG. 3 is a diagram of one embodiment showing which battery should be replaced in the present invention.

FIG. 4 is a view showing one embodiment of a battery lock structure of the battery-driven electronic device of the present invention.

FIG. 5 is a block diagram showing an embodiment of a battery lock control unit according to the present invention.

FIG. 6 is a flowchart showing an embodiment of a battery lock control method according to the present invention.

FIG. 7 is a view showing one embodiment of a battery lock structure of the battery-driven electronic device of the present invention.

FIG. 8 is a block diagram showing an embodiment of a battery lock control unit according to the present invention.

[Explanation of symbols]

 101: Battery 1 102: Battery 2 103: Battery storage unit 104: Battery input terminal 105: Battery lock mechanism 106: Battery lock detection switch 1 107: Battery lock detection switch 2 108: Battery lock fixing mechanism 109: Spring 110: Power supply Switch 1 111: Power supply switch 2 112: Power supply circuit section 113: Driving battery switching control section 114: Remaining capacity display section 1 115: Remaining capacity display section 2 116: Battery lock fixing mechanism 1 117: Battery lock fixing mechanism 2 118: Battery attachment detection switch 2 119: Battery attachment detection switch 1 120: Battery control unit 121: Power supply circuit control signal

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) H02J 7/00 G06F 1/00 331A 302 333C 7/34 341L

Claims (7)

[Claims] An electronic device having a plurality of individually drivable and detachable batteries or battery packs (hereinafter simply referred to as batteries) as a main power source, means for switching a driving battery to an arbitrary battery, and a device for switching the battery to a device Means for preventing the battery from being removed from the battery (hereinafter referred to as battery lock means), means for detecting which battery is locked, and means for releasing the battery lock in conjunction with mounting of the battery. The battery-driven electronic device, wherein the lock means does not release locks of all the batteries together and at least one battery cannot be unlocked. 2. An electronic apparatus according to claim 1, further comprising means for detecting each battery capacity, and means for indicating the remaining capacity of each battery or which battery should be replaced. Electronics. 3. An electronic device having a plurality of individually drivable and detachable batteries as a main power supply, means for switching a drive battery to an arbitrary battery, locking means for the battery,
Means for detecting which batteries are locked, means for detecting whether or not each battery is mounted, and means for controlling release of the battery lock, wherein the battery lock means locks all batteries. Are not released together, and at least one battery cannot be unlocked. 4. An electronic apparatus according to claim 3, further comprising means for detecting each battery capacity, and means for indicating the remaining capacity of each battery or which battery should be replaced. Electronics. 5. The battery-driven electronic device according to claim 3, further comprising means for detecting the respective battery capacities, wherein said battery lock means is released only for a removable battery. 6. The electronic device according to claim 3, wherein when the power of the device is turned off,
A battery-driven electronic device wherein all battery lock means are released. 7. An electronic device according to claim 3, wherein said electronic device can be driven by an external power source such as an AC adapter, and means for switching the driving power source of the device to the external power source when the external power source is supplied. A battery-driven electronic device comprising: a battery-operated electronic device, wherein all battery lock means are unlocked when operating with an external power supply.