CN205141787U - Intelligence multiple socket -outlet with wireless function of charging of paying stage by stage - Google Patents

Abstract

The utility model discloses an intelligence multiple socket -outlet with wireless function of charging of paying stage by stage, including base and a plurality of cascading socket, the base includes switching power supply, radio communication unit, wireless charging unit, charged state detecting element, expense calculating unit and main control unit. When rechargeable devices's residual capacity is less than or equals first threshold value, one use first power to be its wireless charging in predetermineeing the time quantum, this is quick charging phase, the little second power of the first power of utilization ratio carries out wireless charging up to being full of to rechargeable devices after having accomplished quick charging phase, this is the trickle charge stage, through dividing the charging process into stage of filling and trickle charge stage soon, can improve the speed of charging promptly, can protect the battery again, high in degree of intelligenc, and practice thrift power consumption, additionally, can also charge to charging service.

Description

There is the intelligent multiposition socket of paying wireless charging function stage by stage

Technical field

The utility model relates to auxiliary power supply, more particularly, relates to a kind of intelligent multiposition socket with paying wireless charging function stage by stage.

Background technology

Along with the development of science and technology, during increasing electrical equipment enters into and produces and live, for production and life bring great convenience.In the various environment (such as family) making electrical appliance, the access port of power supply is very limited, cannot meet the electricity consumption requirement of numerous electrical equipment.And intelligent multiposition socket is as a kind of auxiliary power supply, when taking a plant-grid connection mouth, the socket of multiple access power supply can be provided for electrical equipment, so just solve the problem of plant-grid connection mouth deficiency well, therefore intelligent multiposition socket also becomes requisite instrument in daily production and life.

Traditional intelligent multiposition socket by wired mode for electrical equipment provides auxiliary power supply, because charging socket is limited, can only can only provide auxiliary power supply for minority electrical equipment.

Therefore, need a kind of intelligent multiposition socket that wireless charging can be provided, and can the wireless charging service provided be charged accordingly.

Utility model content

The utility model can only be provided auxiliary power supply for existing intelligent multiposition socket and cannot charge to electric service defect by wired mode, provides a kind of intelligent multiposition socket with paying wireless charging function stage by stage.

The utility model solves the technical scheme that its technical problem adopts: provide a kind of intelligent multiposition socket with paying wireless charging function stage by stage, comprise base and multiple for providing the cascade socket of the confession electrical outlet of external connection electrical apparatus, described base comprises:

For the civil power of access is converted to direct current, thus provide the Switching Power Supply of working power for described base and multiple described cascade socket;

For receiving the wireless communication unit of the charge request comprising dump energy information;

The wireless charging unit of wireless charging is carried out for the charging equipment for being less than or equal to predeterminable range with the distance of described intelligent multiposition socket;

Be connected with described wireless charging unit, for detecting the charged state detecting unit of the charged state of charging equipment;

For calculating the expense computing unit of charging expense according to charging interval and charge power;

Respectively with described wireless communication unit, described wireless charging unit, described charged state detecting unit, described expense computing unit and each cascade socket connect, for controlling described cascade socket access civil power or disconnecting with civil power, also within first charging interval of presetting, the first power is used to carry out wireless charging for charging equipment for controlling described wireless charging unit when dump energy is less than or equal to first threshold in the charge request received, and after reaching described first charging interval, control described wireless charging unit use the second power being less than described first power carry out wireless charging for charging equipment and start timing, and at the end of the charged state detected is for charging, stop timing stopping wireless charging to obtain for the second charging interval and to control described wireless charging unit, when being also greater than described first threshold for the dump energy in the charge request received, controlling described wireless charging unit uses described second power carry out wireless charging for charging equipment and start timing, and at the end of the charged state detected is for charging, stop timing stopping wireless charging to obtain for the 3rd charging interval and to control described wireless charging unit, also for controlling described expense computing unit according to described first power, described second power, described first charging interval and described second charging interval calculate charging expense, or according to described second power and described 3rd charging interval charging charging expense, and charging cost information is sent to by described wireless communication unit the master controller that paying apparatus realizes charge.

Preferably, described charged state detecting unit comprises:

Be connected with described wireless charging unit, for detecting the current detection module of the electric current of described wireless charging unit;

Be connected with described current detection module, for the comparison module of electric current compared with charge threshold that will detect.

Preferably, described wireless charging unit comprises:

Be connected with described master controller, for generation of the oscillating circuit of pulse signal with certain frequency;

Be connected with described oscillating circuit, for the first amplifying circuit amplified described pulse signal; And

The transmitting coil be connected with described first amplifying circuit.

Preferably, described current detection module comprises:

Be connected with described transmitting coil, for detecting the current detection circuit of the electric current of described transmitting coil;

Be connected with described current detection circuit, for the second amplifying circuit that the electric current detected is carried out amplifying;

Be connected with described second amplifying circuit, for carrying out the current rectifying and wave filtering circuit of rectifying and wave-filtering to the electric current after amplification.

Preferably, described intelligent multiposition socket also comprises and being connected with described oscillating circuit, for the reset key of the described oscillating circuit that resets.

Preferably, described cascade socket also comprises relay and relay-operated controller, and described relay-operated controller controls described relay according to the control signal that described master controller produces to be made for electrical outlet access civil power or disconnects with civil power.

Preferably, described cascade socket also comprises and being connected with described relay-operated controller, is used to indicate the first indicating member of the on off operating mode of relay.

Preferably, described cascade socket also comprises and being connected with described relay-operated controller, for controlling the hardware switch for electrical outlet break-make.

Preferably, described intelligent multiposition socket also comprises and being connected with described master controller, is used to indicate the second indicating member of charged state.

Preferably, described master controller is connected by communication serial port with described relay-operated controller.

The intelligent multiposition socket with wireless charging function stage by stage of the present utility model has following beneficial effect: when the dump energy of the charging equipment of asking charging is less than or equal to first threshold, it is its wireless charging that main controller controls wireless charging unit uses the first power in a preset time period, this is the quick charge stage, after completing the quick charge stage, main controller controls wireless charging unit uses second power less than the first power to carry out wireless charging until be full of electricity to charging equipment, this is the trickle charge stage, when being full of electricity, main controller controls wireless charging unit stops providing wireless charging, by charging process being divided into stage of filling soon and trickle charge stage, namely charging rate can be improved, battery can be protected again, intelligence degree is high, and saves energy consumption, charging expense can also be calculated in addition, and charging expense is sent to paying apparatus realization charge.

Accompanying drawing explanation

Fig. 1 is the structural representation with intelligent multiposition socket first embodiment of progressive payment wireless charging function of the present utility model;

Fig. 2 is the structural representation with wireless charging unit in intelligent multiposition socket first embodiment of paying wireless charging function stage by stage of the present utility model;

Fig. 3 is the structural representation with charged state detecting unit in intelligent multiposition socket first embodiment of paying wireless charging function stage by stage of the present utility model;

Fig. 4 is the structural representation with current detection module in intelligent multiposition socket first embodiment of paying wireless charging function stage by stage of the present utility model.

Embodiment

Below in conjunction with accompanying drawing and embodiment, explanation is further explained to the utility model.

Fig. 1 is the structural representation with intelligent multiposition socket 100 first embodiment of paying wireless charging function stage by stage of the present utility model, as shown in Figure 1, in the present embodiment, intelligent multiposition socket 100 multiple cascade sockets 20 of comprising base 10 and being connected with base 10.

Wherein, each cascade socket comprises the confession electrical outlet (not shown in figure 1) of external power consumption equipment, relay 21 and relay-operated controller 22.Relay-operated controller 22 can identify the on off operating mode of relay 21, and it is closed or disconnect to carry out control relay 21 according to the break-make instruction received, when relay 21 closes, access is for the power consumption equipment access civil power of electrical outlet, and when relay 21 disconnects, access supplies the power consumption equipment of electrical outlet and civil power to disconnect.

Base 10 comprises Switching Power Supply 11, wireless communication unit 12, wireless charging unit 13, charged state detecting unit 14, expense computing unit 15 and master controller 16.

Intelligence is after multiposition socket 100 accesses civil power, and the 220V alternating current of civil power is converted to direct current by Switching Power Supply 11, thus provides working power for each assembly in base 10 and multiple cascade socket 20.

Wireless communication unit 12 comprises WIFI module, and for receiving the charge request of charging equipment, charge request comprises dump energy information.

Wireless charging unit 13 carries out wireless charging for the charging equipment for being less than or equal to predeterminable range with the distance of intelligent multiposition socket 100.

Fig. 2 is the structural representation with wireless charging unit 13 in intelligent multiposition socket 100 first embodiment of paying wireless charging function stage by stage of the present utility model, as shown in Figure 2, in the present embodiment, wireless charging unit 13 comprises oscillating circuit 131, first amplifying circuit 132 and transmitting coil 133.Oscillating circuit 131 is connected with master controller 16, and the first amplifying circuit 132 is connected with oscillating circuit 131, and transmitting coil 133 is connected with the first amplifying circuit 132.

Wherein, oscillating circuit 131 comprises pulse generator, can produce the pulse signal with certain frequency.Such as, produce the pulse signal of a 36.7K, wireless charging efficiency is better.First amplifying circuit 132 outputs to transmitting coil 133 after being amplified by the pulse signal that oscillating circuit 131 exports, and makes transmitting coil 133 produce magnetic field within the specific limits.When charging equipment is close to transmitting coil 133, until when being in predeterminable range with the distance of transmitting coil 133, to produce induced current in the receiving coil of charging equipment, induced current is through full-wave rectification and voltage stabilizing thus the charging voltage be converted to required for charging equipment (load) and electric current are battery charging.

Fig. 3 is the structural representation with charged state detecting unit 14 in intelligent multiposition socket 100 first embodiment of paying wireless charging function stage by stage of the present utility model, as shown in Figure 3, in the present embodiment, charged state detecting unit 14 comprises current detection module 141 and comparison module 142.Wherein, current detection module 141 is connected with wireless charging unit 13 and comparison module 142 respectively, for detecting the electric current of wireless charging unit 13.Comparison module 142 compares with the charge threshold preset for the electric current detected by current detection module 141, and comparative result exports master controller 16.

Fig. 4 is the structural representation with current detection module 141 in intelligent multiposition socket 100 first embodiment of paying wireless charging function stage by stage of the present utility model, as shown in Figure 4, in the present embodiment, current detection module 141 comprises current detection circuit 1411, second amplifying circuit 1412 and current rectifying and wave filtering circuit 1413.

Current detection circuit 1411 is connected with transmitting coil 133, for detecting the electric current of transmitting coil 133.The electric current of transmitting coil 133 can change along with the increase of inductive load.

Second amplifying circuit 1412 is connected with current detection circuit 1411, and the current conversion for detecting is voltage, and is carried out by the voltage changed into amplifying rear output rectifier and filter 1413.

Current rectifying and wave filtering circuit 1413 is connected with the second amplifying circuit 1412, after carrying out rectifying and wave-filtering to the voltage signal after amplification, export comparison module 142.

Voltage U 0 corresponding with charge threshold for voltage U 1 after amplification compares by comparison module 142, and comparative result is exported master controller 16.If comparative result is U1 be greater than or equal to U0, then represent underfill electricity, if comparative result is U1 when being less than U0, then represent that idling carries or is full of electricity.

Master controller 16 is connected with wireless communication unit 12, wireless charging unit 13, charged state detecting unit 14, expense computing unit 15 and each cascade socket 20 respectively.In the present embodiment, master controller 16 is connected by communication serial port with relay-operated controller 22, and master controller 16 accesses civil power for controlling cascade socket 20 or disconnects with civil power.In addition, master controller 16 is also for comparing with first threshold when dump energy in the charge request received, and control wireless charging unit 13 when dump energy is less than or equal to first threshold within first charging interval of presetting, use the first power to carry out wireless charging for charging equipment, when reaching for the first charging interval, master controller 16 controls wireless charging unit 13 and uses the second power being less than the first power carry out wireless charging for charging equipment and start timing.When the comparative result display that comparison module 142 exports is full of electricity, (charged state is charging end) master controller 16 stops timing to obtain for the second charging interval, and control wireless charging unit 13 and stop wireless charging, then regulate expenditure computing unit 15 is according to the first power, second power, first charging interval and the second charging interval calculate the expense (charging power * second charging interval in expense=the first power * first charging interval+the second) that charging expense calculates this charging, by wireless communication unit 12, the charging cost information calculated is sent to paying apparatus again, paying apparatus completes payment (financial settlement system and beneficiary bank and paying party bank realize charging and paying as prior art) according to the charging cost information received by financial settlement system.But when the dump energy in asking is greater than first threshold, master controller 16 controls wireless charging unit 13 and uses the second power carry out wireless charging for charging equipment and start timing, and at the comparative result that comparison module 142 exports for stopping timing when being full of electricity, thus obtained for the 3rd charging interval, and control wireless charging unit 13 and stop wireless charging, and regulate expenditure computing unit 15 is according to the second power and the 3rd charging interval charging charging expense (charging expense=the second power * the 3rd charging interval), again charging cost information is sent to paying apparatus by wireless communication unit 12 and realizes charge.

Have in intelligent multiposition socket 100 first embodiment of paying wireless charging function stage by stage of the present utility model, when the dump energy of the charging equipment of asking charging is less than or equal to first threshold, master controller 16 controls wireless charging unit 13 and uses the first power to be its wireless charging in a preset time period, this is the quick charge stage, after completing the quick charge stage master controller 16 control wireless charging unit 13 use second power less than the first power wireless charging is carried out until be full of electricity to charging equipment, this is the trickle charge stage, when being full of electricity, master controller 16 controls wireless charging unit 13 stopping and providing wireless charging, by charging process being divided into stage of filling soon and trickle charge stage, namely charging rate can be improved, battery can be protected again, intelligence degree is high, and saves energy consumption, charging expense can also be calculated in addition, and charging expense is sent to paying apparatus realization charge.

Have in intelligent multiposition socket 100 second embodiment of paying wireless charging function stage by stage of the present utility model, be with the difference of the first embodiment, in the present embodiment, intelligent multiposition socket also comprises reset key.Reset key is connected with oscillating circuit 131, for the oscillating circuit 131 that resets.The charging equipment that oscillating circuit 131 after reset reenters in predeterminable range provides wireless charging.

Cascade socket 20 also comprises the first indicating member and hardware switch.First indicating member is connected with relay-operated controller 22, is used to indicate the on off operating mode of relay 21.Hardware switch is connected with relay-operated controller 22, for controlling the break-make for electrical outlet.

Intelligence multiposition socket 100 also comprises the second indicating member, and the second indicating member is connected with master controller 16, is used to indicate charged state.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., within the right that all should be included in utility model.

Claims (10)

1. one kind has the intelligent multiposition socket of paying wireless charging function stage by stage, comprise base (10) and multiple for providing the cascade socket (20) of the confession electrical outlet of external connection electrical apparatus, it is characterized in that, described base (10) comprising:

For the civil power of access is converted to direct current, thus it is the Switching Power Supply (11) that described base (10) and multiple described cascade socket (20) provide working power;

For receiving the wireless communication unit (12) of the charge request comprising dump energy information;

The wireless charging unit (13) of wireless charging is carried out for the charging equipment for being less than or equal to predeterminable range with the distance of described intelligent multiposition socket;

Be connected with described wireless charging unit (13), for detecting the charged state detecting unit (14) of the charged state of charging equipment;

For calculating the expense computing unit (15) of charging expense according to charging interval and charge power;

Respectively with described wireless communication unit (12), described wireless charging unit (13), described charged state detecting unit (14), described expense computing unit (15) and each cascade socket (20) connect, for controlling described cascade socket (20) access civil power or disconnecting with civil power, also within first charging interval of presetting, the first power is used to carry out wireless charging for charging equipment for controlling described wireless charging unit (13) when dump energy is less than or equal to first threshold in the charge request received, and after reaching described first charging interval, control the second power that the use of described wireless charging unit (13) is less than described first power carry out wireless charging for charging equipment and start timing, and at the end of the charged state detected is for charging, stop timing stopping wireless charging to obtain for the second charging interval and to control described wireless charging unit (13), when being also greater than described first threshold for the dump energy in the charge request received, controlling described wireless charging unit (13) uses described second power carry out wireless charging for charging equipment and start timing, and at the end of the charged state detected is for charging, stop timing stopping wireless charging to obtain for the 3rd charging interval and to control described wireless charging unit (13), also for controlling described expense computing unit (15) according to described first power, described second power, described first charging interval and described second charging interval calculate charging expense, or according to described second power and described 3rd charging interval charging charging expense, and the cost information that will charge is sent to by described wireless communication unit (12) master controller (16) that paying apparatus realizes charge.

2. the intelligent multiposition socket with paying wireless charging function stage by stage according to claim 1, is characterized in that, described charged state detecting unit (14) comprising:

Be connected with described wireless charging unit (13), for detecting the current detection module (141) of the electric current of described wireless charging unit (13);

Be connected with described current detection module (141), for the comparison module of electric current compared with charge threshold (142) that will detect.

3. the intelligent multiposition socket with paying wireless charging function stage by stage according to claim 2, is characterized in that, described wireless charging unit (13) comprising:

Be connected with described master controller (16), for generation of the oscillating circuit (131) of pulse signal with certain frequency;

Be connected with described oscillating circuit (131), for the first amplifying circuit (132) amplified described pulse signal; And

The transmitting coil (133) be connected with described first amplifying circuit (132).

4. the intelligent multiposition socket with paying wireless charging function stage by stage according to claim 3, is characterized in that, described current detection module (141) comprising:

Be connected with described transmitting coil (133), for detecting the current detection circuit (1411) of the electric current of described transmitting coil (133);

Be connected with described current detection circuit (1411), for the second amplifying circuit (1412) that the electric current detected is carried out amplifying;

Be connected with described second amplifying circuit (1412), for carrying out the current rectifying and wave filtering circuit (1413) of rectifying and wave-filtering to the electric current after amplification.

5. the intelligent multiposition socket with paying wireless charging function stage by stage according to claim 3, it is characterized in that, described intelligent multiposition socket also comprises and being connected with described oscillating circuit (131), for the reset key of described oscillating circuit (131) that reset.

6. the intelligent multiposition socket with paying wireless charging function stage by stage according to claim 5, it is characterized in that, described cascade socket (20) also comprises relay (21) and relay-operated controller (22), and described relay-operated controller (22) controls described relay (21) according to the control signal that described master controller (16) produces to be made for electrical outlet access civil power or disconnects with civil power.

7. the intelligent multiposition socket with paying wireless charging function stage by stage according to claim 6, it is characterized in that, described cascade socket (20) also comprises and being connected with described relay-operated controller (22), is used to indicate the first indicating member of the on off operating mode of relay (21).

8. the intelligent multiposition socket with paying wireless charging function stage by stage according to claim 7, it is characterized in that, described cascade socket (20) also comprises and being connected with described relay-operated controller (22), for controlling the hardware switch for electrical outlet break-make.

9. the intelligent multiposition socket with paying wireless charging function stage by stage according to claim 6, is characterized in that, described intelligent multiposition socket also comprises and being connected with described master controller (16), is used to indicate the second indicating member of charged state.

10. the intelligent multiposition socket with paying wireless charging function stage by stage according to claim 9, is characterized in that, described master controller (16) is connected by communication serial port with described relay-operated controller (22).