CN103887835A - Charger - Google Patents

Abstract

The invention relates to a charger which is used for charging a battery. The charger comprises a fixation block, a plurality of light receivers, a base and a plurality of light emitters. The fixation block is used for fixing the battery. The plurality of light receivers are arranged on the fixation block. The battery is in electric connection with the plurality of light receivers. The base comprises a bearing surface which is used for bearing the fixation block. The plurality of light emitters are arranged on the base facing the plurality of light receivers and are corresponding to the plurality of light receivers. The plurality of light emitters are in electric connection with an external power source and are used for converting the electric energy from the external power source into optical energy to emit light. The plurality of light receivers are used for receiving the light emitted by the plurality of light emitters, and converting the received light into electric energy. The battery is used for receiving and storing the electric energy from the plurality of light receivers. Therefore, electromagnetic waves are not produced in the battery charging process and human health is not harmed.

Description

Charger

Technical field

The present invention relates to charger, relate in particular to a kind of Photoinduction type charger.

Background technology

The charger of present electronic installation (such as mobile phone) is all generally to adopt the mode that charging plug is inserted in the charging inlet of electronic installation to charge, inconvenience very.For addressing the above problem, there is human hair to understand and utilize the mode of electromagnetic induction to charge, the mode of above-mentioned electromagnetic induction does not need charging plug to be connected on electronic installation, but the electromagnetic wave producing in charging process can work the mischief to health.

Summary of the invention

In view of this, be necessary to provide a kind of charger of being detrimental to health avoided.

A kind of charger, for charging to a battery.This charger comprises a fixed block, multiple optical receiver, a pedestal and multiple optical transmitting set.This fixed block is used for fixing this battery.The plurality of optical receiver is arranged on this fixed block.This battery is electrically connected with the plurality of optical receiver.This pedestal comprises a loading end, for carrying this fixed block.The plurality of optical transmitting set is arranged on this pedestal and corresponding with the plurality of optical receiver towards the plurality of optical receiver.The plurality of optical transmitting set is electrically connected with an external power supply, for converting luminous energy to emission of light from the electric energy of this external power supply.The plurality of optical receiver converts electric energy to for receiving the light of the plurality of optical transmitting set transmitting the light receiving.This battery is for receiving and store the electric energy from the plurality of optical receiver.

Compared with prior art, charger of the present invention, utilizes multiple optical transmitting sets and the multiple optical receiver transmission luminous energy that matches, and become power storage in this battery transform light energy, therefore in charging process, can not generate electromagnetic waves, thereby can not work the mischief to health.

Accompanying drawing explanation

Fig. 1 is the structural representation of the charger that provides of preferred embodiments of the present invention.

Fig. 2 is the schematic diagram of another angle of the fixed block of the charger of Fig. 1.

Fig. 3 is the functional block diagram of the sensor of the charger of Fig. 1.

Main element symbol description

Charger	100
		Battery	200
Anodal	201
		Negative pole	202
Fixed block	10
		First surface	101
Second surface	102
		Storage tank	103
The first positioning component	104
		The first groove	110
Electrode	121
		The first transparency cover	13
Optical receiver	20
		Pedestal	40
Loading end	41
		The second positioning component	410
The second groove	401
		The second transparency cover	402
Sensor	50
		Sensing module	51
Memory module	52
		Comparison module	53
Power line	60
		Plug	61
Optical transmitting set	80
		Controller	90

Following embodiment further illustrates the present invention in connection with above-mentioned accompanying drawing.

Embodiment

Refer to Fig. 1 and Fig. 2, a kind of charger 100 providing for embodiment of the present invention, for charging to a battery 200.This charger 100 comprises a fixed block 10, multiple optical receiver 20, pedestal 40, sensor 50, power line 60, plug 61, multiple optical transmitting set 80 and a controller 90.

The housing shape structure that this fixed block 10 is hollow, it comprises first surface 101 and the second surface 102 of opposing setting.This first surface 101 is offered a storage tank 103, for accommodating this battery 200.The size of the size of this storage tank 103 and this battery 200 matches.This battery 200 comprises positive pole 201 and negative pole 202.The sidewall of this storage tank 103 arranges two electrodes 121.One end of these two electrodes 121 is plugged in respectively in this positive pole 201 and negative pole 202, so that this battery 200 is fixed in this storage tank 103.

This second surface 102 is offered first groove 110.The plurality of optical receiver 20 is contained in the first groove 110, and is array-like and arranges.The plurality of optical receiver 20 is electrically connected with the other end of these two electrodes 121, makes to be placed on this storage tank 103 when interior when this battery 200, and the plurality of optical receiver 20 is electrically connected with this battery 200.These the first groove 110 upper covers are established first transparency cover 13, to seal this first groove 110, prevent that the introduced contaminantses such as dust from polluting this optical receiver 20, also can prevent that the plurality of optical receiver 20 from being damaged by external force collision simultaneously.The plurality of optical receiver 20 can be solar panel or photodiode.

First positioning component 104 is also set on this second surface 102.

The housing shape structure that this pedestal 40 is hollow, and comprise a loading end 41, for carrying this fixed block 10.This sensor 50 is contained in this pedestal 40, and exposes from this loading end 41.

Whether this sensor 50 has been put on this loading end 41 for this fixed block 10 of sensing and this battery 200.In the present embodiment, this sensor 50 is pressure sensor, and this sensor 50 is arranged on this loading end 41.As shown in Figure 3, this sensor 50 comprises a sensing module 51, memory module 52 and a comparison module 53.This sensing module 51 is installed with the force value on himself surface for sensing.In this memory module 52, store a scheduled pressure value, this scheduled pressure value is the pressure sum of this fixed block 10 and this battery 200.This comparison module 53 is for pressure and this scheduled pressure value that relatively this sensing module 51 senses, in the time that the force value sensing is more than or equal to this scheduled pressure value, show that this fixed block 10 and this battery 200 have been put on loading end 41, otherwise, in the time that the force value sensing is less than this scheduled pressure value, show that this fixed block 10 and this battery 200 are not put on this loading end 41.

On this loading end 41, offer second groove 401.The plurality of optical transmitting set 80 is contained in this second groove 401, and is array-like and arranges.Second positioning component 410 is also set on this loading end 41.This second positioning component 410 matches with this first positioning component 104, makes the plurality of optical transmitting set 80 and the corresponding setting one by one of the plurality of optical receiver 20.In the present embodiment, this first positioning component 104 is two location holes, and this second positioning component 410 is two reference columns.Certainly, the structure of this first positioning component 104 and this second positioning component 410 is not limited to present embodiment.The plurality of optical transmitting set 80 can be vertical resonance surface laser diode or light-emitting diode etc.

These the second groove 401 upper covers are established second transparency cover 402, to seal this second groove 401, prevent that the introduced contaminantses such as dust from polluting this optical transmitting set 80, also can prevent that the plurality of optical transmitting set 80 from being damaged by external force collision simultaneously.

One end of this power line 60 is contained in this pedestal 40, and the other end stretches out from this pedestal 40, and is electrically connected with this plug 61.The plurality of optical receiver 20 is electrically connected with an external power supply (not shown) by this power line 60 and this plug 61.

This controller 90 is contained in this pedestal 40, and is electrically connected with this sensor 50 and the plurality of optical receiver 20, for according to the sensing result of this sensor 50, controls being switched on or switched off of the plurality of optical receiver 20 and this power line 60.Concrete, in the time that this sensor 50 senses this fixed block 10 and this battery 200 and is placed on this pedestal 40, control the plurality of optical receiver 20 and be electrically connected with this power line 60; And in the time that this sensor 50 senses this fixed block 10 and this battery 200 and is not placed on this pedestal 40, control the plurality of optical receiver 20 and disconnect with this power line 60.

The course of work of this charger 100 is as follows: this optical transmitting set 80 converts the electric energy from this external power supply to luminous energy, and launch light, this optical receiver 20 receives the light that this optical transmitting set 80 is launched, to obtain luminous energy, and obtained transform light energy is become to electric energy, to be stored in this battery 200.

Compared with prior art, charger 100 of the present invention, utilize multiple optical transmitting sets 80 and the multiple optical receiver 20 transmission luminous energy that matches, and become power storage in this battery 200 transform light energy, therefore in charging process, can not generate electromagnetic waves, thereby can not work the mischief to health.

In other embodiments, this fixed block 10 also can be electronic installation (such as mobile phone) itself, or is embedded in this electronic installation, and this second surface 102 can be arranged in side, the back side and the bottom surface of this electronic installation.

Be understandable that, for the person of ordinary skill of the art, can make other various corresponding changes and distortion by technical conceive according to the present invention, and all these change the protection range that all should belong to the claims in the present invention with distortion.

Claims (10)

1. a charger, for a battery is charged, this charger comprises a fixed block, multiple optical receiver, a pedestal and multiple optical transmitting set, this fixed block is used for fixing this battery, the plurality of optical receiver is arranged on this fixed block, and this battery is electrically connected with the plurality of optical receiver; This pedestal comprises a loading end, for carrying this fixed block; The plurality of optical transmitting set is arranged on this pedestal and corresponding with the plurality of optical receiver towards the plurality of optical receiver; The plurality of optical transmitting set is electrically connected with an external power supply, for converting luminous energy to emission of light from the electric energy of this external power supply; For receiving the plurality of optical transmitting set, the light of launching the light receiving convert electric energy to the plurality of optical receiver; This battery is for receiving and store the electric energy from the plurality of optical receiver.

2. charger as claimed in claim 1, it is characterized in that, this charger also comprises a sensor, a power line and a controller, and this sensor and this controller are all contained in this pedestal, one end of this power line is contained in this pedestal, and the other end stretches out from this pedestal; Whether this sensor has been placed on this loading end for this fixed block of sensing and this battery; The plurality of optical transmitting set is electrically connected with this external power supply by this power line; This controller is electrically connected with this sensor and the plurality of optical transmitting set and for controlling the break-make of the plurality of optical transmitting set and this power line, make, in the time that this sensor senses this fixed block and this battery and has been placed on this loading end, to control the plurality of optical transmitting set and be electrically connected with this power line.

3. charger as claimed in claim 2, is characterized in that, this sensor is pressure sensor, and this sensor exposes from this loading end; This sensor comprises a sensing module, a memory module and a comparison module; This sensing module is installed with the force value on himself surface for sensing; In this memory module, store a scheduled pressure value, this scheduled pressure value is the pressure sum of this fixed block and this battery; This comparison module is used for this force value and this scheduled pressure value that relatively this sensing module senses, in the time that this force value sensing is more than or equal to this scheduled pressure value, show that this fixed block and this battery have been put on this loading end, otherwise, in the time that this force value sensing is less than this scheduled pressure value, show that this fixed block and this battery are not put on this loading end.

4. charger as claimed in claim 1, is characterized in that, this fixed block comprises a first surface away from this pedestal, and this first surface is offered a storage tank for accommodating this battery, and the size of this storage tank and the size of this battery match; This battery comprises positive pole and negative pole, offers two electrodes corresponding with this positive pole, this negative pole in this storage tank; One end of these two electrodes is plugged in respectively in this positive pole, this negative pole; The other end of these two electrodes is all electrically connected with the plurality of optical receiver.

5. charger as claimed in claim 4, is characterized in that, this fixed block comprise one with the second surface of the opposing setting of this first surface, this second surface arranges towards this pedestal; This second surface is offered first groove, and the plurality of optical receiver is contained in this first groove, and this first groove upper cover is established first transparency cover, to seal this first groove.

6. charger as claimed in claim 5, is characterized in that, this loading end is offered second groove, and the plurality of optical transmitting set is contained in this second groove, and this second groove upper cover is established second transparency cover, to seal this second groove.

7. charger as claimed in claim 5, it is characterized in that, this second surface arranges first positioning component, this loading end arranges second positioning component, this second positioning component matches with this first positioning component, to guarantee the plurality of optical receiver and the corresponding setting one by one of the plurality of optical transmitting set.

8. charger as claimed in claim 1, is characterized in that, the plurality of optical receiver and the plurality of optical transmitting set are all array-like and arrange.

9. charger as claimed in claim 1, is characterized in that, this fixed block is an electronic installation itself or is embedded an electronic installation inside.

10. charger as claimed in claim 1, is characterized in that, the plurality of optical transmitting set is vertical resonance surface laser diode or light-emitting diode; The plurality of optical receiver is solar panel or photodiode.

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