CN102035221A - Large-sized wireless power supply device - Google Patents

Abstract

The invention discloses a large-sized wireless power supply device, which comprises a wireless charging unit, a cabinet body, a microcontroller, an operation unit and a transmission unit, wherein the wireless charging unit comprises an induction coil module; alternating current in the induction coil module generates an alternating magnetic field; the microcontroller is connected with the wireless charging unit; the operation unit and the transmission unit are connected to the microcontroller; the induction coil module is arranged in cabinet body; the operation unit receives an operation command; and the microcontroller controls the transmission unit to place a power utilization device to be charged in the cabinet body or controls the transmission unit to take the power utilization device to be charged out of the cabinet body according to the operation command. The cabinet body ensures the safety of a wireless power utilization device; manual wrong taking phenomenon is avoided by ordered automatic picking and placing of the transmission unit; and the large-sized wireless power supply device is suitable for serving a large quantity of persons.

Description

A kind of large-scale wireless power supply

Technical field

The present invention relates to a kind of wireless power supply, relate in particular to a kind of large-scale wireless power supply.

Background technology

At present, along with popularizing of mobile phone, conveniently immediately solving the cell-phone charging problem has become the interested technical problem of this technical field personnel.Now the large-scale cell-phone charging station that occurs on the market is to be cell-phone charging by different charging inlets, and different interfaces exposes to the public place, and the fail safe of mobile phone can not get guaranteeing, if many people wait on side, cell-phone charging station, will cause the scene crowded, image surrounding environment atmosphere.

Development along with technology, engendered and utilized electromagnetic induction, carry out the charger of wireless charging for power device, a plurality of power devices can be placed in surface at wireless charger, power device is not limited to mobile phone, can also be the power device that other can wireless charging, such as digital camera, shaver or the like.But existing wireless charger, the area on its carrying power device surface is limited, chargeable power device limited amount simultaneously just, and a plurality of power devices are placed on the wireless charger, also cause the confusion of identification easily, when fetching power device, get the phenomenon of misusing electric installation, for the user brings inconvenience.

Therefore, there is defective in prior art, needs further improvement and develops.

Summary of the invention

The object of the present invention is to provide a kind of large-scale wireless power supply, the power device for One's name is legion that wireless power supply can be simultaneously orderly is charged, and the phenomenon that power device is got mistake can not take place.

Technical scheme of the present invention is as follows:

A kind of large-scale wireless power supply, comprise the wireless charging unit, described wireless charging unit comprises power supply link block, frequency adjustment module and the induction coil module that connects successively, the electric current of alternation produces alternating magnetic fields in the described induction coil module, wherein, described large-scale wireless power supply also comprises cabinet, the microcontroller that is connected with described wireless charging unit, and be connected operating unit and transmission unit on the described microcontroller;

Described induction coil module is arranged in the cabinet, and described operating unit receives operational order; Described microcontroller is according to operational order, controls the power device that described transmission unit will charge and is placed in the cabinet, perhaps controls described transmission unit the power device of charging is taken out in cabinet.

Compared with prior art, the invention provides a kind of large-scale wireless power supply, the wireless power device that cabinet is set and will charges is automatically put into and taking-up and transmission unit, described cabinet has guaranteed the fail safe of wireless power device, and the phenomenon that the orderly automatic clamping and placing of transmission unit has avoided artificial mistake to take takes place, and makes large-scale wireless power supply of the present invention be suitably for the many crowd's services of quantity.

Description of drawings

Fig. 1 is the functional block diagram of the large-scale wireless power supply of the present invention;

Fig. 2 is the contour structures schematic diagram of the large-scale wireless power supply of the present invention;

Fig. 3 is connected first embodiment schematic diagram for operating unit of the present invention with microcontroller;

Fig. 4 is connected second embodiment schematic diagram for operating unit of the present invention with microcontroller;

The structural representation of depositing folder of Fig. 5 for being provided with in the power device bearing space of the present invention

Fig. 6 is the structural representation of transporting ladder about the large-scale wireless power supply of the present invention;

Fig. 7 is the schematic diagram of the track of setting in the power device bearing space of the present invention.

Embodiment

Below in conjunction with accompanying drawing, preferred embodiment of the present invention is described in further detail.

Large-scale wireless power supply 100 provided by the invention as shown in Figure 1, comprises the wireless charging unit 120, operating unit 130 and the transmission unit 140 that are connected on the microcontroller 110.

Described wireless charging unit 120 under described microcontroller 110 controls, utilizes electromagnetic induction, produces alternating magnetic fields.Described wireless charging unit 120 comprises power supply link block 121, frequency adjustment module 122 and the induction coil module 123 that connects successively, and described induction coil module 123 is connected with described microcontroller 110.Described power supply link block 121 is used for being connected with fixed power source; The current conversion that described frequency adjustment module 122 will receive from described power supply link block 121 is the electric current of the alternation of characteristic frequency, and sends to described induction coil module 123; The electric current of the alternation of characteristic frequency produces the magnetic field that changes with characteristic frequency in the described induction coil module 123.

Large-scale wireless power supply 100 of the present invention comprises cabinet 150, and described cabinet 150 comprises multilayer, every layer of induction coil bearing space and power device bearing space that all comprises stack up and down.The present invention comprises that with described cabinet 150 three layers of charged layer are example, the structure of described large-scale wireless power supply 100 is made a detailed description, as shown in Figure 2.Described cabinet 150 is divided into three layers from top to bottom, ground floor comprises induction coil bearing space 151 and power device bearing space 152, the second layer comprises that induction coil bearing space 153 and power device bearing space comprise induction coil bearing space 155 and power device bearing space 156 for 154, the three layers.Described induction coil module 123 comprise around induction coil, the perhaps induction coil on the wounded core.The a plurality of induction coils of tiling in every layer of induction coil bearing space of the present invention.A plurality of induction coils of every layer are covered with the bottom surface of described power device bearing space.

The end face of cabinet 150 of the present invention is provided with display screen 131, prints outlet 134, power device rest area 144 and transmission board 145, as shown in Figure 2.

Power device is placed on described power device rest area 144, and described power device rest area 144 is connected with described transmission board 145.Under the control of described microcontroller 110, described power device rest area 144 is transferred to the power device of carrying on the described transmission board 145.

Operating unit 130 of the present invention is used for sending the row number application instruction of electrical appliance and taking out instruction etc. to described microcontroller 110.Described operating unit 130 comprises display screen 131, print module 132, instruction input module 133 and prints outlet 134.Described instruction input module 133 comprises that electrical appliance row number instruction submodule, electrical appliance take out instruction submodule etc.

By operation to described display screen 131, the row number application instruction that utilizes described electrical appliance row number instruction submodule to send electrical appliance to described microcontroller 110, described microcontroller 110 will be arranged in numerical order and be applied for that instruction sends to described electrical appliance row number instruction submodule.Described electrical appliance row number instruction submodule can be the power device row number according to the quantity of power device in the described cabinet 150, and the sequence number of determining is sent to described microcontroller 110.Described microcontroller 110 sends to described print module 132 with the sequence number of determining, described print module 132 is sent paper slip after printing finishes from described printing outlet 134, as shown in Figure 3.Can get along well microcontroller 110 of print module 132 of the present invention connects, only connect with described instruction input module 133, described instruction input module 133 sends to described microcontroller 110 with sequence number, send to described print module 132 simultaneously, described print module 132 is directly printed, and the paper slip that prints sent from described printing outlet 134, as shown in Figure 4.

Described microcontroller 110 sends addressing instruction to described transmission unit 140 after receiving the sequence number of power device.Described transmission unit 140 comprises locating module 141, input module 142 and output module 143.The area private situation of 141 pairs every layer induction coil bearing space of described locating module is monitored, concrete comprises: the situation that takies to every layer of induction coil bearing space is monitored, volume according to the power device that will charge, following the highest principle of utilance is that power device is provided with only placement location, and, comprise that the number of plies at power device place and the coordinate of this layer send to described microcontroller 110 with the coordinate data that will place of power device.The position data that described microcontroller 110 is determined according to described locating module 141 is placed on described power device in the corresponding position of described induction coil bearing space.After described microcontroller 110 is received the taking-up instruction of power device, the sequence number of power device is sent to described output module 143.Described output module 143 takes out and is transferred to described power device rest area 144 according to the position data of the power device that will take out with described power device.

Transmission unit 140 of the present invention also comprises transporting ladder 146 up and down, and as shown in Figure 6, described transporting ladder 146 up and down runs through the multilayer power device bearing space of described cabinet 150; Described transmission board 145 can slide up and down in the transporting ladder 146 up and down described, and can be parked in the bottom surface of every layer of described power device bearing space.The operation principle of described transporting ladder 146 up and down and transmission board 145 is similar with elevator, repeats no more here.

The end face of every layer of power device bearing space of the present invention is provided with track 147 and deposits folder 148, as Fig. 5 and shown in Figure 7.Described track 147 is covered with the end face of every layer of power device bearing space, described top of depositing folder 148 is fastened in the described track 147, under the control of described microcontroller 110, the described folder 148 of depositing can slide in described track 147, reaches each position of every layer of power device bearing space.The described folder 148 of depositing can grasp power device under the control of described microcontroller 110.

The present invention is transported to power device by described transporting ladder 146 up and down and transmission board 145 the power device bearing space of certain layer, by described track 147 with deposit folder 148 power device is placed the assigned address of certain layer power device bearing space end face, realize power device putting into automatically and taking out at described cabinet 150.

Every layer of induction coil bearing space 155 of the present invention can comprise a plurality of series inductance coils, every layer of power device bearing space can be placed a plurality of power devices, power device is not piled under the situation of described electric installation bearing space bottom surface, for conserve energy, described large-scale electric supply installation 100 is provided with coil control mould.Described coil control module inductor module and implementation sub-module.Institute's inductor module is responded to the position and the area on the described electric installation bearing space ground that power device places in real time, and the judgement induction coil relative with power device, and the induction coil that departs from power device.The implementation sub-module of described coil control module, will cut off the power supply with the induction coil that power device departs to the induction coil energising relative with power device according to the judged result of described inductor module.Described inductor module also can be judged the induction coil relative with power device according to the coordinate data of the power device of described locating module 141 records, and the induction coil that departs from power device.

Large-scale wireless power supply provided by the invention is placed on the power device rest area of cabinet with power device, guarantees and the fail safe of power device when charging; By the mode that the power device that will charge is arranged in numerical order, determine sequence number for power device, make the fetching process of power device more effective, can entanglement; Large-scale electric supply installation can be provided with definite charge position for power device, and puts into automatically and take out, the maximum area that utilizes the power device bearing space, and the situation that power device is placed confusion can not take place, user-friendly.And large-scale wireless power supply do not limit the kind and the model of power device, can use as long as can utilize electromagnetic induction to carry out the power device of wireless charging, the mobile phone of for example wireless charging, the shaver of wireless charging, the notebook of wireless charging.

Should be understood that above-mentioned statement at preferred embodiment of the present invention is comparatively detailed, can not therefore think the restriction to scope of patent protection of the present invention, scope of patent protection of the present invention should be as the criterion with claims.

Claims (12)

1. large-scale wireless power supply, comprise the wireless charging unit, described wireless charging unit comprises power supply link block, frequency adjustment module and the induction coil module that connects successively, the electric current of alternation produces alternating magnetic fields in the described induction coil module, it is characterized in that, described large-scale wireless power supply also comprises cabinet, the microcontroller that is connected with described wireless charging unit, and be connected operating unit and transmission unit on the described microcontroller;

Described induction coil module is arranged in the cabinet, and described operating unit receives operational order; Described microcontroller is according to operational order, controls the power device that described transmission unit will charge and is placed in the cabinet, perhaps controls described transmission unit the power device of charging is taken out in cabinet.

2. large-scale wireless power supply according to claim 1 is characterized in that described cabinet comprises multilayer, every layer of induction coil bearing space and power device bearing space that all comprises stack up and down.

3. large-scale wireless power supply according to claim 2 is characterized in that, described induction coil module comprise around induction coil, the perhaps induction coil on the wounded core; Described induction coil is tiled in every layer the induction coil bearing space.

4. large-scale wireless power supply according to claim 3 is characterized in that, described induction coil is a plurality of, and described a plurality of induction coils series connection also is covered with the bottom surface of described power device bearing space.

5. large-scale wireless power supply according to claim 4 is characterized in that, described large-scale wireless power supply also comprises coil control mould.Described coil control module comprises inductor module and implementation sub-module;

Institute's inductor module is responded to shared position of power device and area in real time, and the judgement induction coil relative with power device, and the induction coil that departs from power device;

Described implementation sub-module, will cut off the power supply with the induction coil that power device departs to the induction coil energising relative with power device according to the judged result of described inductor module.

6. large-scale wireless power supply according to claim 2 is characterized in that described operating unit comprises display screen, print module, instruction input module.

7. large-scale wireless power supply according to claim 6 is characterized in that, described instruction input module comprises that electrical appliance row number instruction submodule, electrical appliance take out the instruction submodule.

8. large-scale wireless power supply according to claim 6 is characterized in that, described display screen, print module, instruction input module are connected with described microcontroller respectively.

9. large-scale wireless power supply according to claim 2 is characterized in that described transmission unit comprises locating module, input module and output module, and described locating module is measured the coordinate data that power device is arranged in cabinet; Described input module is placed on described power device on the corresponding position of cabinet according to the instruction of described microcontroller; Described output module takes out described power device according to the position data of the power device that will take out.

10. large-scale wireless power supply according to claim 9 is characterized in that, display screen is set on the described cabinet, prints outlet, power device rest area and transmission board; Described power device rest area is used to place the power device that will charge, and power device is transferred on the described transmission board.

11. large-scale wireless power supply according to claim 10 is characterized in that, described transmission unit also comprises transporting ladder up and down, and described transporting ladder up and down runs through the multilayer power device bearing space of described cabinet; Described transmission board slides up and down in the transporting ladder up and down described, is parked in the bottom surface of every layer of described power device bearing space under described microprocessor controls.

12. large-scale wireless power supply according to claim 4 is characterized in that, the end face of every layer of power device bearing space is provided with track and deposits folder;

Described track is covered with the end face of every layer of power device bearing space, and described top of depositing folder is fastened in the described track; Under the control of described microcontroller, described depositing is clipped in slip in the described track, reaches the optional position of every layer of power device bearing space; Described depositing grasped power device under the control that is clipped in described microcontroller.

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