JP2006204066A - Portable charger - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To charge by selecting optimum power supply, depending on the charging environment. <P>SOLUTION: An external current input part 101 comprises a plurality of connectors for inputting an arbitrary external current from among a plurality of external power sources, and after the current is accumulated, the external power supply which has been connected can be removed. An electric power detecting part 103 accumulates electric power in a current accumulating part 102 accumulates current. An electric power detecting part 103 detects the electrical energy accumulated inside the current accumulating part 102. A power display part 104 displays the electrical energy detected by the power amount detecting part 103. A power supply part 106 supplies current to a portable equipment 130. A set-detecting part 107 detects whether the portable equipment 130 is set at a prescribed position in a portable charger 100. A charge control part 108 controls at least the starting of the charging, and based on the detection result of the set detecting part 107, controls so as to start charging to the portable equipment 130. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a portable charging device.

  2. Description of the Related Art Conventionally, as a charging device for charging a portable device, a stationary charging device configured to charge power storage means arranged in the charging device using commercial power as a power source is known. In this case, the portable device is set in the stationary charging device and charged from the charging device. For example, in an electric toothbrush, an electric shaver, etc., commercial power is converted into magnetic energy and charged in a power storage means built in the charging device.

  On the other hand, as a portable charging device having portability in the charging device, one that uses a separate electric energy supply device that supplies power to the charging device to charge the portable charging device has been proposed ( For example, Patent Document 1).

  As shown in FIG. 8, the portable charging device is configured to charge the power storage means 802 of the charging device 801 with an electric energy supply device 800 using commercial power as a power source. Therefore, the charging device 801 has portability and can perform a charging operation on the portable device even in a place where there is no commercial power.

  Furthermore, as a power source, a solar battery is used instead of commercial power, and a charging device that stores power in a power storage unit in the charging device by converting light energy into electric energy is known (for example, Patent Document 2). .

According to this portable charging device, by using a solar cell, a charging operation can be performed even in a place where there is no commercial power, and a portable charging device can be obtained.
JP 2003-299255 A JP-A-11-266545

  However, in the portable charging device of Patent Document 1, charging cannot be performed in an environment where commercial power cannot be obtained, and in the environment where sunlight cannot be obtained or difficult to obtain in the portable charging device of Patent Document 2. There is a problem that charging is not possible in any environment, such as being unable to charge.

  This invention is made | formed in view of this point, and it aims at providing the portable charging device which can select and charge the best electric power source according to charging environment.

  The portable charging device of the present invention comprises an external power input means comprising a plurality of connectors for connecting different external power sources, and a power storage means for storing power input via the external power input means, Power supply means for supplying the power stored in the power storage means to the device to be charged, and set detection means for detecting that the device to be charged is set at a predetermined position and charging the device to be charged is possible And charging control means for controlling the start of charging of the device to be charged based on the detection result of the set detection means.

  According to the present invention, the best power source can be selected and charged according to the charging environment.

  Embodiments of the present invention will be described below in detail with reference to the drawings.

(Embodiment 1)
1-4 is a figure for demonstrating the portable charging device 100 which concerns on Embodiment 1 of this invention, FIG. 1 is a block diagram which shows the structure of the portable charging device 100, FIG. FIG. 3 is a diagram for explaining the charging operation of the storage battery of the portable charging device 100, and FIG. 4 shows the operation of the portable charging device 100. FIG.

  First, the configuration of the portable charging device 100 will be described using the block diagram of FIG.

  In FIG. 1, 100 is a portable charging device, and 130 is a portable device that is charged by the portable charging device 100.

  The portable charging device 100 has a plurality of connectors for inputting arbitrary external power among a plurality of external power sources such as a solar cell 141, a commercial power source 142, and an emergency power source 143 operated by a dry cell or a battery. After the power is stored, the external power input unit 101 that can remove the connected external power source, the power storage unit 102 that stores the power input from the external power input unit 101, and the power storage unit 102 An electric energy detector 103 for detecting the accumulated electric energy, an electric energy display unit 104 for displaying the electric energy detected by the electric energy detector 103, and electric energy accumulated in the electric power storage unit 102, The DC current is converted from AC current to AC current, and the DC / AC conversion circuit 105 for supplying to the power supply unit 106 and the AC current converted by the DC / AC conversion circuit 105 are converted into magnetic energy. A power supply unit 106 that converts power into a portable device 130 and supplies power to the portable device 130; a set detection unit 107 that detects whether the portable device 130 is set at a predetermined position in the portable charging device 100; A charge control unit 108 that controls the start of charging is provided. The charging control unit 108 is configured to start charging the mobile device 130 based on the detection result of the set detection unit 107.

  In the above description, charging to the portable device 130 is configured to be performed in a non-contact manner, but the portable charging device 100 and the portable device 130 may be directly connected by a connector to be charged. .

  FIG. 2 is a circuit diagram illustrating an example of the portable charging device 100 according to the first embodiment.

  In FIG. 2, 121 and 122 are connectors of the external power input unit 101 for connecting external power sources, respectively. Electric energy supplied from an external power source connected to the connectors 121 and 122 is stored in the storage battery 123 of the power storage unit 102. A backflow prevention diode 124 is provided so that the electrical energy stored in the storage battery 123 does not flow back to the external power side. The stored power amount of the storage battery 123 is detected by the power amount detection unit 103, and the detected detection information is visually displayed by the lighting state and lighting color of the display lamp 125. With such an operation, power is stored in the portable charging device 100. After power is stored in the portable charging device 100, the portable charging device 100 can be carried by removing the external power source connected to the portable charging device 100 from the connector 121 or 122. Yes.

  Next, the stop of the charging operation will be described with reference to FIG.

  FIG. 3 shows an example of the charging characteristics of the storage battery 123, and the charging power increases as the charging time elapses. However, when the charging voltage reaches a certain voltage (point A), the saturated state is reached and the charging voltage is not charged above the certain voltage. . Accordingly, at this time, the charging operation to the portable charging device 100 is stopped.

  Next, a charging operation for the mobile device 130 will be described.

  When the portable device 130 is set at a predetermined position of the portable charging device 100, it is detected that the set detection unit 107 provided in the portable charging device 100 is set. Then, the set detection unit 107 sets the charging start / stop switch 126 of the charging control unit 108 to a conductive state (on state). When the charging start / stop switch 126 becomes conductive, the electrical energy charged in the storage battery 123 is supplied to the supply coil 127 of the power supply unit 106 via the DC / AC conversion circuit 105, and the portable coil is supplied from the supply coil 127. The rechargeable battery of the mobile device 130 is charged via the 130 power receiving coils.

  The external power source may be external power other than those described above as long as it is configured so that the best power source can be connected as a charging environment.

  Further, the charging stop operation of the mobile device 130 may be configured to stop the charging when the charging current is detected and becomes a constant current, or as shown in FIG. You may comprise so that charge may be stopped by detecting the electric energy stored in a battery.

  Next, the operation of the portable charging device 100 according to the first embodiment will be described in detail with reference to FIGS.

  FIG. 4 is a flowchart showing the operation of portable charging apparatus 100 in the present embodiment.

  First, when an external power source obtained in the environment is connected to the connector 121 or 122 of the portable charging device 100 of the present invention (ST401), the electrical energy supplied from the connected external power source is stored in the storage battery 123. (ST402). In this case, if the voltage of the storage battery 123 is equal to or higher than a certain voltage, charging is not performed. Therefore, if the voltage of the storage battery 123 reaches a predetermined voltage, the accumulation of electric energy stops.

  Next, a charging operation for the mobile device 130 will be described.

  When the set detection unit 107 detects that the mobile device 130 has been set at a predetermined position (ST403), the charging start / stop switch 126 is controlled to a conductive state (ON state) (ST404). When the charging start / stop switch 126 is turned on (on state), the electrical energy stored in the storage battery 123 is supplied to the supply coil 127 via the DC / AC conversion circuit 105, and the electrical energy is applied to the magnetic field. It is converted into energy (ST405), and the rechargeable battery of portable device 130 is charged via supply coil 127 (ST406).

  On the other hand, when the mobile device 130 is not set at the predetermined position of the portable charging device 100 in ST403, the charging start / stop switch 126 remains in the off state (ST407), and the charging operation to the mobile device 130 is performed. Is not started (ST408).

  Further, in these series of operations, the power amount detection unit 103 detects the stored power amount of the storage battery 123 (ST409), and is visually displayed according to the lighting state and lighting color of the display lamp 125 according to the detection information. (ST410).

  As described above, according to the first embodiment, since it is a configuration that can be connected to a plurality of different external power sources, an optimal external power source can be selected according to the charging environment. Since the external power source is disconnected, the portable device can be carried and the portable device can be charged even while being carried.

  In addition, since the power amount detection unit 103 can detect the stored power amount of the power storage unit 102 and the power amount display unit 104 can display the stored power amount according to the detected information, charging of the charging device itself can be completed. The remaining amount can be easily confirmed.

(Embodiment 2)
5 and 6 are diagrams for explaining portable charging device 500 according to Embodiment 2 of the present invention. FIG. 5 is a circuit diagram of portable charging device 500 according to Embodiment 2. FIG. These are the flowcharts which show the operation | movement of the portable charging device 500 of Embodiment 2. FIG.

  In FIG. 5, the same parts as those in FIG. 2 of the first embodiment are denoted by the same reference numerals, and the description thereof is omitted.

  In FIG. 5, 500 is a portable charging device according to the second embodiment, 525 is a charging start / stop switch provided in the portable charging device 500, and this charging start / stop switch 525 operates a switch (not shown). Then, it is configured to be turned on for a predetermined time and turned off when a certain time has elapsed.

  Reference numeral 530 denotes a power receiving coil (power receiving dielectric element) of the portable device 130, and 510 denotes a set detection unit provided in the portable charging device 500.

  The set detection unit 510 detects magnetic field energy generated by the power receiving coil 530 of the portable device 130 when a voltage is induced in the set detection coil 511, rectifies the voltage induced in the set detection coil 511, and starts a charge start / stop switch. A control voltage of 525 is obtained. The set detection unit 510 includes a set detection coil 511, a diode 512 that rectifies the induced voltage of the set detection coil 511, a flywheel diode 513, an inductor 514, and a capacitor 515. Charging is started / stopped by the obtained DC voltage. The switch 525 is configured to be turned on.

  When the charging start / stop switch 525 becomes conductive, the electric energy charged in the storage battery 123 is applied to the supply coil 127 via the DC / AC conversion circuit 105, and the power receiving coil 530 of the portable device 130 is connected from the supply coil 127. Thus, the rechargeable battery of the mobile device 130 is charged.

  FIG. 6 is a flowchart showing an operation of portable charging device 500 in the present embodiment.

  First, when an external power source obtained in the environment is connected to the connector 121 or the connector 122 of the portable charging device 500 of the present invention (ST601), the electric energy supplied from the connected external power source is stored in the storage battery 123. Accumulated (ST602). In this case, if the voltage of the storage battery 123 is equal to or higher than a certain voltage, charging is not performed. Therefore, if the voltage of the storage battery 123 reaches a predetermined voltage, charging stops.

  Next, a charging operation for the mobile device 130 will be described.

  When portable device 130 is set at a predetermined position and a switch (not shown) is operated, charging start / stop switch 525 is turned on for a certain period of time, and power is supplied to portable device 130 via supply coil 127 (ST603). . When set detection unit 510 detects a predetermined voltage via set detection coil 511 (ST604), set detection unit 510 controls charging start / stop switch 525 to be kept on (ST605). The electrical energy stored in the storage battery 123 is supplied to the supply coil 127 via the DC / AC conversion circuit 105 to convert the electrical energy into magnetic field energy (ST606), and the portable device 130 via the supply coil 127. The rechargeable battery is charged (ST607).

  On the other hand, in ST604, when set detection unit 510 does not detect a predetermined voltage, that is, when portable device 130 is not set at a predetermined position of portable charging device 500, charging start / stop switch 525 is in the off state. Returning to (ST608), the charging operation to the portable device 130 is not started (ST609).

  Further, in these series of operations, the power amount detection unit 103 detects the stored power amount of the storage battery 123 (ST610), and is visually displayed by the lighting state and lighting color of the display lamp 125 according to the detection information. (ST611).

  As described above, according to the second embodiment, since it is configured to be connected to a plurality of different external power sources, an optimal external power source can be selected according to the charging environment. By adopting a configuration in which the power source is disconnected, the portable device can be carried and the portable device can be charged even while being carried.

(Embodiment 3)
FIG. 7 is a circuit diagram showing a configuration of portable charging device 700 according to Embodiment 3 of the present invention. The same parts as those in FIG. 5 are denoted by the same reference numerals, and the description thereof is omitted.

  In the portable charging device 700 according to the third embodiment, the stored power amount of the storage battery 123 is detected by the power amount detection unit 103 and visually displayed by the display lamp 125 via the power amount notification unit 701 according to the detection information. The stored power amount is notified, the vibrator 702 is tactilely notified of the stored power amount, and the speaker 703 is audibly notified of the stored power amount.

  Thus, according to the third embodiment, in addition to the effects of the second embodiment, a visual display such as changing the lighting state and lighting color of the display lamp 125, a notification by the vibrator 702, and a speaker. Since the buzzer sound and the melody sound are notified by 703, the stored power state of the storage battery 123 can be recognized even if the portable charging device 700 is stored in a shirt, a pants pocket, a bag, or the like.

  The portable charging device according to the present invention is suitable for use in charging a portable device.

1 is a block diagram showing a configuration of a portable charging device according to Embodiment 1 of the present invention. 1 is a circuit diagram showing a detailed configuration of a portable charging device according to Embodiment 1 of the present invention. The figure for demonstrating the charging operation of the storage battery of the portable charging device which concerns on Embodiment 1 of this invention. Flow chart for explaining the operation of the portable charging device according to the first embodiment of the present invention. Circuit diagram showing a configuration of a portable charging device according to a second embodiment of the present invention Flow chart for explaining the operation of the portable charging device according to the second embodiment of the present invention. Circuit diagram showing a configuration of a portable charging device according to a third embodiment of the present invention The figure which shows the structure of the conventional charging device

Explanation of symbols

DESCRIPTION OF SYMBOLS 100 Portable charging device 101 External power input part 102 Electric power storage part 103 Electric energy detection part 104 Electric energy display part 105 DC / AC exchange circuit 106 Electric power supply part 107 Set detection part 108 Charging control part

Claims (3)

External power input means comprising a plurality of connectors for connecting different external power sources,
Power storage means for storing the power input via the external power input means;
Power supply means for supplying the power stored in the power storage means to the device to be charged;
A set detection means for detecting that the device to be charged is set at a predetermined position and charging the device to be charged is possible;
Based on the detection result of the set detection means, charge control means for controlling the start of charging to the device to be charged;
A portable charging device comprising:   The set detection means detects the magnetic field energy generated by the power receiving dielectric element provided in the device to be charged when the device to be charged is set at a predetermined position, thereby charging the device to be charged. The portable charging device according to claim 1, wherein the portable charging device is detected as being possible. A power amount detecting means for detecting the amount of power stored in the power storage means;
A power amount notification means for notifying the power amount detected by the power amount detection means so that it can be sensed by at least one of visual, tactile and auditory senses;
The portable charging device according to claim 1 or 2, further comprising:

Images