JP2013034290A - Charging adapter - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a charging adapter for increasing use time of a portable electronic apparatus by reducing labor for charging.SOLUTION: A charging adapter 10 comprises: a rechargeable battery part 12 having a rechargeable battery 13; and a power transmission part 14 having a power transmission coil 49 for transmitting power stored in the rechargeable battery 13 to a portable electronic apparatus 16. The power transmission part 14 comprises a first charging terminal 48; and the rechargeable battery part 12 comprises a second charging terminal 61. The rechargeable battery part 12 and the power transmission part 14 are configured as separated bodies. The rechargeable battery part 12 and the power transmission coil 49 are made to be electrically connected through the first charging terminal 48 and the second charging terminal 61.

Description

  The present invention relates to a charging adapter that employs a non-contact charging method capable of non-contact power transmission from a rechargeable battery unit to a rechargeable battery provided in a portable electronic device such as a smart device using electromagnetic induction.

  In recent years, smart devices such as smart phones having various functions in addition to voice call functions and tablet terminals having various functions and capable of intuitively performing handwriting input using a touch panel or the like have rapidly spread. ing. In a smart device, a user's favorite function can be added by adding an application.

  A contactless charging method is known as a method for charging a rechargeable battery (battery pack) mounted on a portable electronic device such as a smart device (see, for example, Patent Document 1).

JP 2010-098661 A

  However, in the technique described in Patent Document 1, contactless charging is performed between the main body charger and the relay charger, and the portable electronic device and the relay charger including the built-in battery are connected at the connector terminal during charging. It is necessary to connect via a connector terminal, and devices used via a connector terminal, such as headphones, cannot be used when charging.

  Furthermore, smart devices are often equipped with various functions, which increases power consumption. Therefore, the usable time of the smart device is increased by making it possible to carry a large capacity battery pack as an auxiliary battery of the smart device. However, as a result of further enhancement of the functionality of smart devices, power may still be insufficient.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a charging adapter that can reduce the time for charging and increase the usage time of the portable electronic device. .

  The charging adapter of the present invention includes a rechargeable battery unit including a rechargeable battery, and a power transmission unit including a power transmission coil that transmits power charged in the rechargeable battery to a portable electronic device.

  According to this configuration, the power charged in the rechargeable battery of the rechargeable battery unit can be transmitted in a non-contact state to the rechargeable battery of the portable electronic device via the power transmission coil of the power transmission unit using the electromagnetic induction effect. Therefore, by providing the power transmission unit with the power transmission coil and adopting the non-contact charging method, it is possible to reduce time and effort for charging the rechargeable battery of the portable electronic device. Furthermore, the usage time of the portable electronic device can be increased by transmitting power to the rechargeable battery of the portable electronic device.

  In the charging adapter of the present invention, the power transmission unit includes a first charging terminal, the rechargeable battery unit includes a second charging terminal, and the rechargeable battery unit and the power transmission unit are configured separately. The rechargeable battery unit and the power transmission coil are electrically connected via the first charging terminal and the second charging terminal.

  According to this configuration, a variety of storage battery units can be attached to the same power transmission unit without replacing the power transmission unit. Moreover, it can attach to a power transmission part of many kinds, without replacing | exchanging a storage battery part. Therefore, even when applied to different portable electronic devices, it is not necessary to replace the storage battery unit by using a power transmission unit suitable for different portable electronic devices.

  Moreover, the charging adapter of the present invention includes a power control unit that performs power control for transmitting power to the portable electronic device by the power transmission coil. In the rechargeable battery unit, the rechargeable battery, the second charging terminal, It is inserted between.

  According to this configuration, by providing the rechargeable battery unit with the power control unit, the configuration of the power transmission unit can be simplified.

  In the charging adapter of the present invention, the power transmission unit includes a position restriction unit that accommodates the portable electronic device and restricts the position, and the power transmission coil is position-regulated by the position restriction unit. It faces the power receiving coil of the portable electronic device.

  According to this configuration, the power transmission coil and the power reception coil are easily held at the optimum positions simply by accommodating the portable electronic device in the power transmission unit, and power can be efficiently transmitted from the power transmission coil to the power reception coil.

  The charging adapter of the present invention has an opening at a position where the power transmission unit faces an external terminal of the portable electronic device in a state where the position of the portable electronic device is restricted.

  According to this configuration, the external terminal of the mobile electronic device can be exposed to the outside through the opening in a state where the mobile electronic device is housed in the power transmission unit. Therefore, it can be used by inserting a USB terminal or the like into the external terminal from the outside of the power transmission unit through the opening.

  In the charging adapter of the present invention, the rechargeable battery unit includes an external power supply terminal electrically connected to an external power supply, and the external power supply terminal is electrically connected to the rechargeable battery.

  According to this configuration, by electrically connecting an external power supply to the external power supply terminal, the rechargeable battery of the charging adapter can be charged using the external power supply, and further, the rechargeable battery of the portable electronic device can also be charged.

  ADVANTAGE OF THE INVENTION According to this invention, the effort for charging the rechargeable battery of a portable electronic device can be reduced, and the usage time of a portable electronic device can be increased.

The perspective view which shows an example of the state which accommodated the portable electronic device in the charge adapter in embodiment of this invention The perspective view which shows the state which looked at the charging adapter of FIG. 1 from the back side The perspective view which shows the state which decomposed | disassembled the charge adapter and portable electronic device of FIG. The perspective view which shows the state which looked at the portable electronic device of FIG. 3 from upper direction The perspective view which shows the state which looked at the portable electronic device of FIG. 3 from the back surface side II sectional view of FIG. II-II sectional view of FIG. The perspective view which shows the modification of the rechargeable battery part in embodiment of this invention

  Hereinafter, a charging adapter according to an embodiment of the present invention will be described with reference to the drawings.

  As shown in FIG. 1 and FIG. 2, the charging adapter 10 according to the embodiment of the present invention is smart in the rechargeable battery unit 12 including a rechargeable battery 13 such as a battery pack (see FIG. 3) and the power charged in the rechargeable battery 13. And a power transmission unit 14 capable of transmitting power to a portable electronic device 16 such as a device.

  As shown in FIG. 3, in the charging adapter 10, the rechargeable battery unit 12 includes the rechargeable battery unit 12 and the power transmission unit 14, and the rechargeable battery unit 12 is detachably attached to the back surface 14 </ b> A of the power transmission unit 14.

  Furthermore, the charging adapter 10 is formed such that the power transmission unit 14 can accommodate the portable electronic device 16. This charging adapter 10 is a device that realizes a primary function in non-contact charging with the electronic device 16.

  The portable electronic device 16 includes a substantially rectangular housing 21, a display unit 22 provided on the surface 21 </ b> A of the housing 21, an operation unit 23 provided below the display unit 22, and upper and lower sides of the housing 21. This is a portable terminal provided with a receiving unit 24 and a transmitting unit 25 provided in the vicinity. Further, as shown in FIG. 4, the portable electronic device 16 has an external terminal 27 formed on the upper end portion 21 </ b> B of the housing 21.

  In addition, as shown in FIGS. 5 and 6, the mobile electronic device 16 includes a rechargeable battery housing portion 28 provided on the back surface 21 </ b> C side of the housing 21, a battery cover 29 that opens and closes the rechargeable battery housing portion 28, and It has.

  A rechargeable battery 32 such as a battery pack is accommodated in the rechargeable battery accommodating portion 28, and a power receiving coil 34 as a secondary antenna is interposed between the rechargeable battery 32 and the battery cover 29 of the rechargeable battery accommodating portion 28. The power receiving coil 34 is electrically connected to the rechargeable battery 32. The portable electronic device 16 is a device that realizes a so-called secondary function.

  The portable electronic device 16 can be used in a state of being accommodated in the power transmission unit 14 (shown by an imaginary line in FIG. 4). As shown in FIG. 3, the power transmission unit 14 is a cover formed in a frame shape so as to accommodate the portable electronic device 16. Specifically, the power transmission unit 14 includes a bottom 42 formed in a substantially rectangular shape, and a peripheral wall 43 provided on the left long side 42A, the right long side 42B, and the lower side 42C of the bottom 42.

Thereby, the accommodation space 44 is formed by the bottom 42 and the peripheral wall 43 of the power transmission unit 14.
Further, the peripheral wall 43 is not formed on the upper side 42 </ b> D of the power transmission unit 14, thereby having an opening 46 at the upper end of the power transmission unit 14. The portable electronic device 16 is accommodated in the accommodation space 44 through the opening 46.

  Further, in the state where the portable electronic device 16 is accommodated in the accommodation space 44, the position of the portable electronic device 16 is regulated at a predetermined position by the bottom portion 42 and the peripheral wall 43 of the power transmission unit 14. As described above, the bottom portion 42 and the peripheral wall 43 of the power transmission unit 14 have a protective function for protecting the portable electronic device 16 and a function of the position restricting unit 41 that restricts the position of the portable electronic device 16.

  As shown in FIG. 4, in the state where the position of the portable electronic device 16 is restricted by the position restricting portion 41, the upper end portion 21 </ b> B of the housing 21 is disposed in the opening portion 46, and the opening portion 46 is connected to the external terminal 27 of the upper end portion 21 </ b> B. Are facing each other.

  Therefore, in the state where the portable electronic device 16 is accommodated in the power transmission unit 14, the external terminal 27 of the portable electronic device 16 can be exposed to the outside through the opening 46. Accordingly, an external device having the USB terminal 45 can be inserted into the external terminal 27 from the outside of the power transmission unit 14 through the opening 46 and used.

  As shown in FIG. 3, the power transmission unit 14 includes a pair of first charging terminals 48 provided on the upper part 42 </ b> E of the bottom part 42 and a power transmission coil 49 as a primary antenna provided on the lower part 42 </ b> F of the bottom part 42. And a cable or board pattern 51 that electrically connects the power transmission coil 49 and the first charging terminal 48.

  As shown in FIG. 7, the power transmission coil 49 is provided to face the power receiving coil 34 of the portable electronic device 16 in a state where the position of the portable electronic device 16 is regulated by the position regulating unit 41. Therefore, in a state where the portable electronic device 16 is housed in the power transmission unit 14, a state with good power transmission efficiency can be easily created. Thereby, the power transmission coil 49 and the power reception coil 34 can be easily held at the optimum positions simply by accommodating the portable electronic device 16 in the power transmission unit 14 (that is, the charging adapter 10). It can transmit electricity well.

  In this way, by holding the power transmission coil 49 and the power receiving coil 34 at the optimum positions, electric power can be transmitted from the rechargeable battery unit 12 to the portable electronic device 16 in a non-contact manner using an electromagnetic induction action. Therefore, since it is not necessary to use the external terminal 27 during power transmission to the mobile electronic device 16, the external terminal 27 can be used even during power transmission of the mobile electronic device 16.

As shown in FIG. 3, in the rechargeable battery unit 12, the power control unit 52 is configured such that the rechargeable battery 13 and the second charging terminal 61 are electrically connected by a cable or board pattern (not shown). It is provided in the middle. Therefore, the power control unit 52 is interposed between the rechargeable battery 13 and the charging terminal 61. In this way, by providing the power control unit 52 in the charging adapter 10, the configuration of the power transmission unit 14 can be simplified.
In addition, by inserting the power control unit 52 between the rechargeable battery 13 of the rechargeable battery unit 12 and the second charging terminal 61, the power control unit 52 realizes a primary-side function and supplies power to the portable electronic device 16. Can transmit power.

  The power control unit 52 is a part that performs power control for transmitting power to the rechargeable battery 32 of the portable electronic device 16 by the power transmission coil 49. For example, the power control unit 52 has a function of identifying whether or not the portable electronic device 16 accommodated in the power transmission unit 14 is a portable electronic device that may be charged.

  In this way, by interposing the power control unit 52 between the rechargeable battery 13 and the power transmission coil 49, the power control unit 52 realizes a primary function such as the power transmission coil 49 and the like to the portable electronic device 16. Power can be transmitted to the contact.

  Furthermore, the power transmission unit 14 includes an upper locking recess 54 provided on the upper side 42 </ b> D of the bottom 42 and a lower locking recess 55 provided on the lower side 42 </ b> C of the bottom 42. The rechargeable battery unit 12 is detachably attached to the upper locking recess 54 and the lower locking recess 55.

  As shown in FIG. 3, the rechargeable battery unit 12 is formed in a substantially rectangular shape, and includes an upper locking portion 57 formed on the upper side 12B of the back surface 12A and a movable subordinate formed on the lower side 12C of the back surface 12A. And a stop portion 58. Further, the rechargeable battery unit 12 includes a pair of second charging terminals 61 at the upper end 12D.

  As shown in FIG. 7, the upper locking portion 57 of the rechargeable battery unit 12 is locked to the upper locking recess 54 of the power transmission unit 14, and the lower locking portion 58 of the rechargeable battery unit 12 is locked to the lower locking recess 55 of the power transmission unit 14. The rechargeable battery unit 12 is detachably attached to the back surface 14 </ b> A of the power transmission unit 14. In this state, the pair of second charging terminals 61 are electrically connected to the pair of first charging terminals 48.

  Therefore, the rechargeable battery 13 and the power transmission coil 49 are electrically connected via the second charging terminal 61 and the first charging terminal 48. Thereby, the electric power charged in the rechargeable battery 13 of the rechargeable battery unit 12 is transmitted to the power transmission coil 49, and the electric power transmitted to the power transmission coil 49 is electromagnetically induced to the rechargeable battery 32 of the portable electronic device 16 via the power receiving coil 34. Can be used for non-contact power transmission.

  As described above, the charging adapter 10 includes the rechargeable battery unit 12 and the power transmission unit 14, and transmits power from the power transmission coil 49 of the power transmission unit 14 to the mobile electronic device 16 in a non-contact manner, thereby charging the mobile electronic device 16. Time and effort for charging the battery 32 can be reduced. Further, the power usage time of the portable electronic device 16 can be increased by transmitting power to the rechargeable battery 32 of the portable electronic device 16.

  Furthermore, by making the power transmission unit 14 and the rechargeable battery unit 12 separate, it is possible to attach various types of storage battery units 12 to the same power transmission unit 14 without replacing the power transmission unit 14. In addition, the same storage battery unit 12 can be attached to a variety of power transmission units 14 without replacing the storage battery unit 12. Therefore, even when the model of the portable electronic device 16 is different, it is not necessary to replace the storage battery unit 12 according to the portable electronic device, and they can be used in common.

(Modification)
Next, a modification of the rechargeable battery unit 12 will be described with reference to FIG. In addition, in the rechargeable battery unit 80 of the modified example, the same or similar components as those of the rechargeable battery unit 12 are denoted by the same reference numerals, and detailed description thereof is omitted.

  As shown in FIG. 8, the rechargeable battery unit 80 according to the second modified example includes an external power supply terminal 82 in the rechargeable battery unit 12, and the other configuration is the same as that of the rechargeable battery unit 12. The external power supply terminal 82 is electrically connected to the rechargeable battery 13 (see FIG. 3).

  This external power supply terminal 82 is a terminal into which an insertion terminal 84 electrically connected to an external power supply can be inserted. Thereby, by electrically connecting an external power supply to the external power supply terminal 82, the rechargeable battery 13 of the rechargeable battery unit 80 can be charged using the external power supply, and the rechargeable battery 32 of the portable electronic device 16 (see FIG. 3). ) Can also be charged using contactless charging.

  Note that the charging adapter according to the present invention is not limited to the above-described embodiment, and can be changed or improved as appropriate.

  For example, in the embodiment, the mobile electronic device 16 is exemplified as a mobile terminal, but the present invention is not limited to this, and the mobile electronic device 16 may be used as another device.

  In the embodiment, the example in which the external terminal 27 is provided on the upper end portion 21 </ b> B of the mobile electronic device 16 has been described. However, the present invention is not limited thereto, and the external terminal 27 may be provided in another part of the mobile electronic device 16. is there. However, it is necessary to form an opening in the power transmission unit 14 so as to face the external terminal 27.

  Furthermore, the shape and configuration of the charging adapter, the rechargeable battery unit, the rechargeable battery, the power transmission unit, the portable electronic device, the power receiving coil, the position regulating unit, the opening, and the power transmission coil used in the embodiments are not limited to those illustrated. It can be changed as appropriate.

  INDUSTRIAL APPLICABILITY The present invention is useful for a charging adapter that can reduce the time for charging and increase the usage time of the portable electronic device.

DESCRIPTION OF SYMBOLS 10 Charging adapter 12,80 Rechargeable battery part 13,32 Rechargeable battery 14 Power transmission part 16 Portable electronic device 27 External terminal 34 Power receiving coil 41 Position control part 46 Opening part 48 First charging terminal 49 Power transmission coil 52 Power control part 61 2nd Charging terminal 82 External power supply terminal

Claims (6)

A rechargeable battery unit comprising a rechargeable battery;
A power transmission unit including a power transmission coil for transmitting the power charged in the rechargeable battery to the portable electronic device;
Charging adapter with The charging adapter according to claim 1, further comprising:
The power transmission unit includes a first charging terminal,
The rechargeable battery unit includes a second charging terminal,
The rechargeable battery unit and the power transmission unit are configured separately,
The rechargeable battery unit and the power transmission coil are charging adapters that are electrically connected via the first charging terminal and the second charging terminal. The charging adapter according to claim 1, further comprising:
A power control unit that performs power control for transmitting power to the portable electronic device by the power transmission coil;
The power control unit is a charge adapter inserted in the rechargeable battery unit between the rechargeable battery and the second charging terminal. The charge adapter according to any one of claims 1 to 3,
The power transmission unit includes a position restriction unit that accommodates the portable electronic device and performs position restriction.
The power transmission coil is a charging adapter facing the power receiving coil of the portable electronic device in a state where the position of the portable electronic device is regulated by the position regulating unit. The charging adapter according to claim 4,
The power transmission unit is a charging adapter having an opening at a position facing an external terminal of the portable electronic device in a state where the position of the portable electronic device is regulated. The charging adapter according to any one of claims 2 to 5,
The rechargeable battery unit includes an external power supply terminal electrically connected to an external power supply,
The external power supply terminal is a charging adapter electrically connected to the rechargeable battery.

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