CN203466609U - Charging device and portable electronic apparatus therewith - Google Patents

Abstract

The utility model provides a charging device which is used for charging a battery of a portable electronic apparatus. The device comprises a mechanical energy collection module and an electric energy conversion module. The mechanical energy collection module is used for collecting and storing the mechanical energy of the portable electronic apparatus when the portable electronic apparatus generates mechanical motion. The electric energy conversion module comprises two magnetic elements and a coil. The polarities of two poles, which are oppositely arranged, of the two magnetic elements are opposite. The coil is disposed between the two elements and used for moving relative to the magnetic elements under the driving of the mechanical energy collection module, so as to cut magnetic lines for generating an induced current, thereby charging the battery. The charging device can charge the battery without an external power supply. The utility model also provides the portable electronic apparatus with the charging device.

Description

Charging device and there is the portable electron device of this charging device

Technical field

The utility model relates to a kind of charging device and has the portable electron device of this charging device, relates in particular to a kind of charging device that mechanical energy charges and portable electron device with this charging device of utilizing.

Background technology

Along with the progress of Information technology, all kinds of portable electron devices such as mobile phone, personal digital aid (PDA) (PDA), game machine competitively emerge in large numbers, and make consumer can enjoy all facilities that high-tech brings whenever and wherever possible to the full.These portable electron devices dispose battery conventionally, and the battery configuring has certain stand-by time and air time, and battery electric quantity can exhaust in use for some time, need can reuse after charging.Existing portable electron device mainly charges as the mode of the USB interface of computer by being connected to socket or other electronic installations, and these modes all need external existing power supply to charge to battery, uses inconvenience.

Utility model content

For the problems referred to above, be necessary to provide a kind of and just can realize the charging device to battery charging without external power supply.

In addition, be necessary to provide a kind of portable electron device with above-mentioned charging device.

A kind of charging device, for the battery of portable electron device is charged, comprise mechanical energy collection module and electric energy conversion module, the mechanical energy of this portable electron device is collected and stored to described mechanical energy collection module, for when portable electron device produces mechanical movement; This electric energy conversion module comprises two magnetic elements and coil, the two poles of the earth polarity that two magnetic elements are oppositely arranged is contrary, described coil is arranged between two magnetic elements, for this magnetic element motion relatively under the driving of described mechanical energy collection module, with cutting magnetic line, produce induced current, and then to described battery charging.

Preferably, described mechanical energy collection module comprises automatic remontoir and clockwork spring, and this automatic remontoir, in order to when portable electron device produces mechanical movement, tightens this clockwork spring, and then described mechanical energy is stored on described clockwork spring.

Preferably, described electric energy conversion module also comprises Connection Element, and one end of described Connection Element is connected to this clockwork spring, and the other end is connected to described coil, and described Connection Element in order to drive this coil to rotate relative to two magnetic elements when described clockwork spring discharges elasticity energy.

Preferably, described magnetic element is magnet.

Preferably, described charging device also comprises an auxiliary circuit, and this auxiliary circuit connects this coil and battery, in order to induced current rectification that coil is produced, boost, export described battery to after voltage stabilizing.

A kind of portable electron device, it comprises battery and charging device, this charging device comprises mechanical energy collection module and electric energy conversion module, and the mechanical energy of this portable electron device is collected and stored to described mechanical energy collection module, for when portable electron device produces mechanical movement; This electric energy conversion module comprises two magnetic elements and coil, the two poles of the earth polarity that two magnetic elements are oppositely arranged is contrary, described coil is arranged between two magnetic elements, for this magnetic element motion relatively under the driving of described mechanical energy collection module, with cutting magnetic line, produce induced current, and then to described battery charging.

Preferably, described mechanical energy collection module comprises automatic remontoir and clockwork spring, and this automatic remontoir, in order to when portable electron device produces mechanical movement, tightens this clockwork spring, and then described mechanical energy is stored on clockwork spring.

Preferably, described electric energy conversion module also comprises Connection Element, and one end of described Connection Element is connected to this clockwork spring, and the other end is connected to described coil, and described Connection Element in order to drive this coil to rotate relative to two magnetic elements when described clockwork spring discharges elasticity energy.

Preferably, described magnetic element is magnet.

Preferably, described charging device also comprises an auxiliary circuit, and this auxiliary circuit is arranged between coil and battery, in order to induced current rectification that coil is produced, boost, export described battery to after voltage stabilizing.

Above-mentioned charging device only needs user to rock portable electron device, to utilize this mechanical energy collection module, collect the mechanical energy that this portable electron device produces in motion, and the release that utilizes this mechanical energy drives this coil to rotate, make its cutting magnetic line produce induced current, and then battery is charged.Whole charging process is without external power supply, therefore can use whenever and wherever possible, and then facilitate for user.

Accompanying drawing explanation

Fig. 1 is the functional block diagram of the portable electron device with charging device of the utility model preferred embodiments.

Main element symbol description

Portable electron device	100
		Charging device	10
Mechanical energy collection module	11
		Automatic remontoir	111
Clockwork spring	113
		Electric energy conversion module	13
Magnetic element	131
		Coil	133
Connection Element	135
		Auxiliary circuit	15
Battery	20

Following embodiment further illustrates the utility model in connection with above-mentioned accompanying drawing.

Embodiment

Refer to Fig. 1, the utility model preferred embodiments provides a kind of portable electron device 100, and it can be mobile phone, personal digital assistant (Personal Digital Assistant, PDA) etc.This portable electron device 100 comprises charging device 10 and battery 20.This charging device 10 is electrically connected with this battery 20, for this battery 20 is charged.

This charging device 10 comprises mechanical energy collection module 11, electric energy conversion module 13 and auxiliary circuit 15.This mechanical energy collection module 11 can be arranged at this portable electron device 100 inside, for various Machine Movement Process such as moving, rock in portable electron device 100 generations, collects and store the mechanical energy of this portable electron device 100.In the present embodiment, this mechanical energy collection module 11 comprises automatic remontoir 111 and clockwork spring 113.This automatic remontoir 111 can be comprised of elements such as existing weight, reverse wheel, drive, automatic wheels, during in order to mechanical movements such as moving, rock when portable electron device 100 generations, tighten this clockwork spring 113, and then mechanical energy is stored on clockwork spring 113.

This electric energy conversion module 13 is converted to electric energy in order to the mechanical energy that this mechanical energy collection module 11 is collected.This electric energy conversion module 13 comprises two magnetic elements 131, coil 133 and Connection Element 135.This two magnetic element 131 is bar magnet, and the two poles of the earth polarity that it is oppositely arranged is contrary.This coil 133 can be integrated mutually with motor coil or the loudspeaker coil of portable electron device 100 inside.In the present embodiment, this coil 133 is motor coil.This coil 133 is arranged between two magnetic elements 131.In the present embodiment, this Connection Element 135 is motor drive shaft, its one end is connected to this coil 133, the other end is connected to this clockwork spring 113, while discharging its elasticity energy with the described clockwork spring 113 of box lunch, drive this coil 133 to rotate relative to two magnetic elements 131, and then cutting magnetic line, produce thus induced current, and export auxiliary circuit 15 to.

This auxiliary circuit 15 is electrically connected with this coil 133 and battery 20, for the induced current producing on coil 133 is carried out to rectification, boost, this battery 20 charged after the processing such as voltage stabilizing.

While using 10 pairs of batteries 20 of charging device to charge, first this portable electron device 100 by movement, the various mechanical movements such as rock and trigger this automatic remontoir 111, so that this clockwork spring 113 is tightened, and then mechanical energy is stored in clockwork spring 113.Then this clockwork spring tightening 113 discharges its elasticity energy, to drive this coil 133 rotations by this Connection Element 135, makes to produce relative rotation between this coil 133 and this magnetic element 131, and these coil 133 cutting magnetic lines produce induced current.This induced current charges through 15 pairs of these batteries 20 of auxiliary circuit.

Be appreciated that user can increase according to demand the quantity of this clockwork spring 113 or improve the coefficient of elasticity of this clockwork spring 113, so that the more mechanical energy of this clockwork spring 113 storage.

Obviously, 10 of above-mentioned charging devices need user to rock portable electron device 100, to utilize this mechanical energy collection module 11, collect the mechanical energy that this portable electron device 100 produces in motion, and the release that utilizes this mechanical energy drives this coil 133 to rotate, make its cutting magnetic line produce induced current, and then to battery 20 chargings.Whole charging process is without external power supply, therefore can use whenever and wherever possible, and then facilitate for user.

Claims (10)

1. a charging device, for the battery of portable electron device is charged, comprise mechanical energy collection module and electric energy conversion module, the mechanical energy of this portable electron device is collected and stored to described mechanical energy collection module, for when portable electron device produces mechanical movement; It is characterized in that: this electric energy conversion module comprises two magnetic elements and coil, the two poles of the earth polarity that two magnetic elements are oppositely arranged is contrary, described coil is arranged between two magnetic elements, for this magnetic element motion relatively under the driving of described mechanical energy collection module, with cutting magnetic line, produce induced current, and then to described battery charging.

2. charging device as claimed in claim 1, it is characterized in that: described mechanical energy collection module comprises automatic remontoir and clockwork spring, this automatic remontoir, in order to when portable electron device produces mechanical movement, tightens this clockwork spring, and then described mechanical energy is stored on described clockwork spring.

3. charging device as claimed in claim 2, it is characterized in that: described electric energy conversion module also comprises Connection Element, one end of described Connection Element is connected to this clockwork spring, the other end is connected to described coil, and described Connection Element in order to drive this coil to rotate relative to two magnetic elements when described clockwork spring discharges elasticity energy.

4. charging device as claimed in claim 1, is characterized in that: described magnetic element is magnet.

5. charging device as claimed in claim 1, is characterized in that: described charging device also comprises an auxiliary circuit, and this auxiliary circuit connects this coil and battery, in order to induced current rectification that coil is produced, boost, export described battery to after voltage stabilizing.

6. a portable electron device, it comprises battery and charging device, this charging device comprises mechanical energy collection module and electric energy conversion module, and the mechanical energy of this portable electron device is collected and stored to described mechanical energy collection module, for when portable electron device produces mechanical movement; It is characterized in that: this electric energy conversion module comprises two magnetic elements and coil, the two poles of the earth polarity that two magnetic elements are oppositely arranged is contrary, described coil is arranged between two magnetic elements, for this magnetic element motion relatively under the driving of described mechanical energy collection module, with cutting magnetic line, produce induced current, and then to described battery charging.

7. portable electron device as claimed in claim 6, it is characterized in that: described mechanical energy collection module comprises automatic remontoir and clockwork spring, this automatic remontoir, in order to when portable electron device produces mechanical movement, tightens this clockwork spring, and then described mechanical energy is stored on clockwork spring.

8. portable electron device as claimed in claim 7, it is characterized in that: described electric energy conversion module also comprises Connection Element, one end of described Connection Element is connected to this clockwork spring, the other end is connected to described coil, and described Connection Element in order to drive this coil to rotate relative to two magnetic elements when described clockwork spring discharges elasticity energy.

9. portable electron device as claimed in claim 6, is characterized in that: described magnetic element is magnet.

10. portable electron device as claimed in claim 6, it is characterized in that: described charging device also comprises an auxiliary circuit, this auxiliary circuit is arranged between coil and battery, in order to induced current rectification that coil is produced, boost, export described battery to after voltage stabilizing.

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