CN101771187B - Wireless control energy-saving device - Google Patents

Abstract

The invention provides a wireless control energy-saving device. The device comprises an energy-saving control socket and a wireless power supply detection controller, wherein the energy-saving control socket is provided with a main socket, at least one controlled socket and an accommodating groove used for accommodating the wireless power supply detection controller; the wireless power supply detection controller is connected to the external host computer so as to detect working conditions of the external host computer; when the external host computer is powered on, the wireless power supply detection controller controls the controlled socket of the energy-saving control socket to be turned on, or when the external host computer is powered off, the wireless power supply detection controller controls the controlled socket of the energy-saving control socket to be turned off, and the wireless power supply detection controller controls the sockets of the energy-saving control socket to realize the function of wireless master/slave linkage.

Description

Wireless control energy-saving device

Technical field

The present invention relates to a kind of wireless control energy-saving device, particularly a kind of wireless communication technique that utilizes is by the wireless control energy-saving device of remote wireless control.

Background technology

In recent years the common people are for the convenience that makes electrical appliance, fail safe and saving pay attention to day by day, therefore the use for extended line also increases year by year, present elongation line socket on the market has many kinds, includes single switch control extended line, individual switches control extended line and wireless remote control mode and controls extended line etc.

Please refer to Fig. 1, be single switch control extended line schematic appearance.Single switch control extended line 1 (be called for short and connect the control formula) has a plug 10, extended line 12 and a body 14, wherein, is provided with a plurality of sockets 142 and at body 14 and switches switch 144.Sockets 142 all on the body 14 all are controlled by diverter switch 144, when diverter switch 144 is opened (turn on), alternating electromotive force is imported by plug 10, and delivers to each socket 142 through extended line 12 and the diverter switch 144 of conducting, uses with the electric device that various kinds is provided.But for the user, use single switch control extended line 1 can't reach fail safe and the energy savings of use.

So, develop a kind of wireless remote control mode on the market and control extended line, please refer to Fig. 2, for the wireless remote control mode is controlled the extended line schematic appearance.The wireless remote control mode is controlled extended line 3 and is provided with a receiver 30, the control signal S1 that this receiver 30 is launched in order to receiving remote.Then, the socket 32 on the extended line 3 is controlled by a control signal S1 and conducts electricity or non-conductive.So, extended line 3 can be controlled the electrical equipment of whether powering on the socket 32.Yet whether aforesaid extended line 3 only can be controlled and power to electrical equipment, but can't reach the flowing mode of doing of controlled in wireless master-slave mode interlock socket, and not reach energy-conservation function.

Therefore, so Taiwan patent M304817 patent discloses a kind of power socket control device of tool serial control bus, this device detects the operating state of electronic installation by serial control bus, and comes conducting or cut off power supply on the power socket control device of tool serial control bus according to the operating state of electronic installation.

Yet, the Taiwan patent utilize for M304817 number serial control bus in wired (wire) mode as the detecting of electronic installation operating state, so will cause the restriction in the use.Although, mention that in its specification available wireless (wireless) mode reaches identical purpose, in its specification, but lack the relevant technology contents that reaches the wireless transmission purpose, and the personnel that are familiar with this field can't be understood and tool with enforcement.In addition, M304817 number employed serial control bus of Taiwan patent only can be as the transmission of electronic installation working state signal, and it also can't be as the ON/OFF control of socket on the power socket control device.

Summary of the invention

In view of this, the invention provides a kind of wireless control energy-saving device, it has integrated an energy-saving control socket and a wireless electric power detecting controller.Energy-saving control socket has baseplug (Master) and at least one controlled soket (Slave), the electric power detecting controller that this is wireless utilizes this energy-saving control socket of wireless communication technique Long-distance Control, makes it that action of master/slave formula interlock socket (master/slave outlet) is provided.

Energy-saving control socket of the present invention, communication is connected in wireless electric power detecting controller, the electric power detecting controller that this is wireless is exported a wireless control signal according to start or the shutdown of an extraneous main frame, and this energy-saving control socket includes a housing, a communication module and a microprocessor.Wherein, housing is provided with baseplug and this at least one controlled soket, and this at least one controlled soket is in order at least one peripheral device of pegging graft, and this housing also is provided with a storage tank, in order to accommodating this wireless electric power detecting controller.Communication module is arranged in the housing, and it receives a wireless control signal from wireless electric power detecting controller.Microprocessor is arranged in the housing, and microprocessor is coupled to communication module and this at least one controlled soket, and it is powered or simultaneously outage in order to this at least one controlled soket of control simultaneously according to wireless control signal; Wherein, the electric power detecting controller that this is wireless includes signal transmission connectivity port, one electric power detecting unit and a communication processing unit, this electric power detecting unit is coupled between this signal transmission connectivity port and this communication processing unit, this signal transmission connectivity port provides this wireless electric power detecting controller to be connected in this external world's main frame, whether this electric power detecting device is detected this external world's main frame via this signal transmission connectivity port and is started shooting, and export a detection signal, this communication processing unit is exported this wireless control signal to this energy-saving control socket according to this detection signal.

Wireless electric power detecting controller of the present invention, communication is connected in energy-saving control socket, and it includes a signal transmission connectivity port, an electric power detecting unit and a communication processing unit.Wherein, signal transmission connectivity port provides wireless electric power detecting controller to be connected in an extraneous main frame.Whether the electric power detecting unit is coupled to signal transmission connectivity port, detect extraneous main frame via signal transmission connectivity port and start shooting, and export a detection signal.Communication processing unit is coupled to the electric power detecting unit, receives detection signal, and exports this wireless control signal to this energy-saving control socket according to detection signal.

Wherein, when extraneous main frame start, communication processing unit is exported this wireless control signal to this energy-saving control socket, at this moment according to detection signal, microprocessor in the energy-saving control socket is powered in order to this at least one controlled soket of control simultaneously according to this wireless control signal.Opposite, when extraneous main frame shutdown, communication processing unit is exported this wireless control signal to this energy-saving control socket according to detection signal, at this moment, microprocessor in the energy-saving control socket is according to this wireless control signal, cut off the power supply simultaneously in order to this at least one controlled soket of control, to reach the action of master/slave formula interlock socket (master/slave outlet).

The present invention also provides a kind of wireless control energy-saving device, comprising:

One wireless electric power detecting controller comprises:

One signal transmission connectivity port provides this wireless electric power detecting controller to be connected in an extraneous main frame;

One electric power detecting unit is coupled to this signal transmission connectivity port, and whether this electric power detecting device is detected this external world's main frame via this signal transmission connectivity port and started shooting, and exports a detection signal;

One communication processing unit is coupled to this electric power detecting unit, and this communication processing unit receives this detection signal, and exports a wireless control signal according to this detection signal;

One energy-saving control socket, communication are connected in this wireless electric power detecting controller, comprising:

One housing is provided with a baseplug and at least one controlled soket, and this housing also is provided with a storage tank, in order to accommodating this wireless electric power detecting controller;

One communication module is arranged in this housing, receives this wireless control signal; And

One microprocessor is arranged in this housing, and this microprocessor is coupled to this communication module and this at least one controlled soket, according to this wireless control signal, powers simultaneously or simultaneously outage in order to this at least one controlled soket of control.

So, wireless control energy-saving device provided by the invention can solve the problems such as convenience, fail safe and saving, simultaneously, can also reach green energy resource (Standby Power) code requirement.

Above general introduction and ensuing detailed description are all exemplary in nature, are in order to further specify protection scope of the present invention.And about other purpose of the present invention and advantage, will be set forth in follow-up explanation and accompanying drawing.

Description of drawings

Fig. 1 is single switch control extended line schematic appearance;

Fig. 2 is that the wireless remote control mode is controlled the extended line schematic appearance;

Fig. 3 is schematic appearance of the present invention;

Fig. 4 is the circuit box schematic diagram of energy-saving control socket of the present invention;

Fig. 5 is the circuit box schematic diagram of wireless electric power detecting controller of the present invention; And

Fig. 6 is Another Application schematic diagram of the present invention.

[main element description of reference numerals]:

Known:

Single switch control extended line 1

Plug 10

Extended line 12

Body 14

Socket 142

Diverter switch 144

The wireless remote control mode is controlled extended line 3

Receiver 30

Socket 32

Control signal S1

The present invention:

Wireless control energy-saving device 4

Energy-saving control socket 40

Controlled soket 400

Housing 401

Baseplug 402

Storage tank 403

Communication module 404

Microprocessor 405

Power supply changeover device 406

Charhing unit 407

Signal transmission interface port 408

Wireless control signal S2

Alternating electromotive force AC

Direct current power DC

Charging power VC

Wireless electric power detecting controller 42

Signal transmission connectivity port 420

Energy switch unit 421

Electric power detecting unit 422

Indicating member 423

Communication processing unit 424

Operating unit 425

Detection signal SD

Power for operation VDD

Low electric power signal S4

Extraneous main frame 5

Loudspeaker 6

Printer 7

Scanning machine 8

Embodiment

With reference to figure 3, be schematic appearance of the present invention.Wireless control energy-saving device 4 of the present invention includes an energy-saving control socket 40 and a wireless electric power detecting controller 42.Wherein, energy-saving control socket 40 is provided with a storage tank 403, and storage tank 403 is in order to accommodating wireless electric power detecting controller 42.Wireless electric power detecting controller 42 can by mode or other similar mode of plug, be contained in the energy-saving control socket 40 or with energy-saving control socket 40 and separate.When wireless electric power detecting controller 42 is contained in energy-saving control socket 40, energy-saving control socket 40 can charge to wireless electric power detecting controller 42, and, because wireless electric power detecting controller 42 has the power supply that detects energy-saving control socket 40, so wireless electric power detecting controller 42 can directly be controlled the controlled soket 400 on the energy-saving control socket 40.

In addition, when wireless electric power detecting controller 42 separated with energy-saving control socket 40, wireless electric power detecting controller 42 can be placed in the accommodating device 9, and with the controlled soket 400 on the wireless mode control energy-saving control socket 40.Simultaneously, the wireless electric power detecting controller 42 that separates with energy-saving control socket 40 also can be plugged into an extraneous main frame 5, and for example, mobile computer is in order to detect the operating state of this external world's main frame 5.Wherein, the power supply of extraneous main frame 5 comes from the baseplug 402 on the energy-saving control socket 40, and this baseplug 402 is Fixed power-supply socket (always on outlet).

When extraneous main frame 5 start, the wireless electric power detecting controller 42 that is plugged on extraneous main frame 5 can detect the power supply of extraneous main frame 5, therefore can transmit represent the start situation a wireless control signal S2 to energy-saving control socket 40, with controlled soket 400 energisings on the control energy-saving control socket 40, and then provide the computer peripheral apparatus that is plugged on the controlled soket 400, electricity consumptions such as loudspeaker 6, printer 7 and scanning machine 8.Opposite, when extraneous main frame 5 shutdown, wireless electric power detecting controller 42 can detect extraneous main frame 5 powered-downs, therefore can transmit represent the shutdown situation wireless control signal S2 to energy-saving control socket 40, with controlled soket 400 outages on the control energy-saving control socket 40, and then cut-out is plugged in the computer peripheral apparatus on the controlled soket 400, electricity consumptions such as loudspeaker 6, printer 7 and scanning machine 8.

So, when the shutdown of the extraneous main frame 5 on the baseplug 402 that is plugged in energy-saving control socket 40, the computer peripheral device that is plugged on the controlled soket 400 of energy-saving control socket 40 also can and then stop electricity consumption.Therefore, wireless control energy-saving device 4 of the present invention can be used by wireless electric power detecting controller 42 and the collocation of energy-saving control socket 40, and then reaches the action of master/slave formula interlock socket (master/slave outlet).

In addition, extraneous main frame 5 is if there is the equipment (as: mobile computer) of built-in battery, then extraneous main frame 5 can be without the baseplug 402 on the energy-saving control socket 40, and whether wireless electric power detecting controller 42 still can have operative scenario to come equipment on the controlled soket 400 of wireless control energy-saving control socket 40 by detecting extraneous main frame 5.

Cooperate Fig. 3, please refer to Fig. 4.Fig. 4 is the circuit box schematic diagram of energy-saving control socket of the present invention.Energy-saving control socket 40 can be connected in wireless electric power detecting controller 42 by wireless communication mode, and energy-saving control socket 40 comprises a housing 401, is provided with baseplug 402 and at least one controlled soket 400 on it.Simultaneously, also comprise a communication module 404 and a microprocessor 405 in the housing 401, wherein this communication module 404 is in order to receive wireless control signal S2 from wireless electric power detecting controller 42.And this microprocessor 405 is coupled to this communication module 404 and this at least one controlled soket 400, according to this wireless control signal S2, powers simultaneously or simultaneously outage in order to this at least one controlled soket 400 of control.Aforesaid communication module 404 can be a radio frequency communication module, a bluetooth communication module or an infrared-ray communication module.

Again with reference to figure 3 and Fig. 4.In the housing 401 of energy-saving control socket 40, also comprise a power supply changeover device 406, a charhing unit 407 and a signal transmission interface port 408.Power supply changeover device 406 is coupled to microprocessor 405 and charhing unit 407, and it converts an alternating electromotive force AC to a direct current electric power DC, and direct current power DC is delivered to microprocessor 405 and charhing unit 407.Charhing unit 407 receives direct current power DC, and according to direct current power DC, in order to export a charging power VC to the signal transmission interface port 408 that is coupled to charhing unit 407.Aforesaid charging power VC meets the electricity consumption agreement of USB interface, or other interface electricity consumption agreement of the tool identical functions such as RS-232 interface, RS-485, RS-422 and IEEE-1394 interface, and the wireless electric power detecting controller 42 that is contained in energy-saving control socket 40 charged.

Cooperate Fig. 3, please refer to Fig. 5.Fig. 5 is the circuit box schematic diagram of wireless electric power detecting controller of the present invention.Wireless electric power detecting controller 42 can be connected in energy-saving control socket 40 by wireless communication mode, and wireless electric power detecting controller 42 includes a signal transmission connectivity port 420, an electric power detecting unit 422 and a communication processing unit 424.Aforesaid communication processing unit 424 can be a radio frequency communication processing unit, a bluetooth communication processing unit or an infrared-ray communication processing unit.

Wherein, the signal transmission interface port (do not indicate) of signal transmission connectivity port 420 in order to provide wireless electric power detecting controller 42 can be connected to extraneous main frame 5.Electric power detecting unit 422 is coupled to signal transmission connectivity port 420, it is via the operating state of the extraneous main frame 5 of signal transmission connectivity port 420 detectings, for example start or shutdown, and, operating state according to the extraneous main frame 5 of detect, and then exporting a detection signal SD, detection signal SD comprises the signal of a representative start and the signal of a representative shutdown.Communication processing unit 424 is coupled to electric power detecting unit 422, receives detection signal SD, and according to detection signal SD output wireless control signal S2.

Again with reference to figure 3 and Fig. 5.Wireless electric power detecting controller 42 also comprises an energy switch unit 421, an indicating member 423, an operating unit 425 and signal transmission connectivity port 420.Wherein, energy switch unit 421 is coupled to signal transmission connectivity port 420 and communication processing unit 424, receive charging power VC via signal transmission connectivity port 420, and, energy switch unit 421 is according to detection signal SD, select output this charging power VC and a battery electric power (not indicating), use to supply with communication processing unit 424 as a power for operation VDD.Aforesaid charging power VC meets the electricity consumption agreement of USB interface, or other interface electricity consumption agreement of the tool identical functions such as RS-232 interface, RS-485, RS-422 and IEEE-1394 interface, can transmit the signal transmission interface port 408 (with reference to Fig. 4) that connectivity port 420 is couple to extraneous main frame 5 or energy-saving control socket 40 by signal, and obtain from extraneous main frame 5 or energy-saving control socket 40.

In addition, when the energy switch unit 421 of wireless electric power detecting controller 42 presented low electric power, communication processing unit 424 hanged down electric power signal S4 to indicating member 423 according to excessively low power for operation VDD and export one.423 bases of indicating member are hanged down electric power signal S4 and then luminous, are in the state of low electric power to indicate wireless electric power detecting controller 42.Aforesaid indicating member 423 can be LED or the identical element of other function.

Again with reference to figure 3 and Fig. 5.Operating unit 425 is coupled to communication processing unit 424, this operating unit 425 can be exported one first control command, one second control command or a timing coutrol instruction to communication processing unit 424, in order to set the mode of operation of communication processing unit 424, include a socket control model, a master-slave mode socket control model, a manual control model and a socket timing controlled pattern.

Communication processing unit 424 is carried out the socket control model according to the first control command, and when communication processing unit 424 was carried out the socket control model, output wireless control signal S2 was with the controlled soket 400 of control energy-saving control socket 40.In addition, communication processing unit 424 is carried out master/slave formula socket control model or manual control model according to the second control command.When communication processing unit 424 is carried out master/slave formula socket control model, wireless electric power detecting controller 42 can be along with the shutdown of extraneous main frame 5, and automatically export wireless control signal S2 with controlled soket 400 outages on the control energy-saving control socket 40, and, along with the start of extraneous main frame 5, and automatically export wireless control signal S2 with controlled soket 400 energisings on the control energy-saving control socket 40.In addition, when communication processing unit 424 according to the second control command when carrying out manual control model, 42 need of the electric power detecting controller that this is wireless are by manual mode, output wireless control signal S2 is with the controlled soket 400 on the control energy-saving control socket 40.

Simultaneously, communication processing unit 424 is carried out a socket timing controlled pattern according to timing coutrol instruction.When communication processing unit 424 is carried out socket timing controlled pattern, wireless electric power detecting controller 42 can be along with the shutdown of extraneous main frame 5, and behind a setting-up time, automatically export wireless control signal S2, with controlled soket 400 outages on the control energy-saving control socket 40.

In addition, please refer to Fig. 6.Fig. 6 is Another Application schematic diagram of the present invention.Wireless electric power detecting controller 42a can be seated among the accommodating device 9a, and control a plurality of energy-saving control socket 40a, 40b with wireless mode ... controlled soket on the 40n (not indicating), reach the purpose of expansion, and the action that reaches the master/slave formula interlock socket (master/slave outlet) more than 1 pair.

Simultaneously, wireless electric power detecting controller 42a also can be plugged into an extraneous main frame 5a, and for example, mobile computer is in order to detect the operating state of the main frame 5a of this external world.When extraneous main frame 5a start, the wireless electric power detecting controller 42a that is plugged on extraneous main frame 5a can detect the power supply of extraneous main frame 5a, and then control energy-saving control socket 40a, 40b ... controlled soket energising on the 40n.Opposite, when extraneous main frame 5a shutdown, wireless electric power detecting controller 42a can detect extraneous main frame 5a powered-down, therefore can control the controlled soket outage on the energy-saving control socket 40a.

So, wireless electric power detecting controller 42a of the present invention can control a plurality of energy-saving control socket 40a, 40b by the remote control mode more than 1 pair ... opening or closing of the upper controlled soket of 40n, and, can reach the action of the master/slave formula interlock socket (master/slave outlet) of many groups.In sum, wireless control energy-saving device of the present invention is integrated an energy-saving control socket and a wireless electric power detecting controller, wherein wireless electric power detecting controller is in order to detecting the working condition of an extraneous main frame, and utilizes wireless communication mode to repay to energy-saving control socket.So, when the start of extraneous main frame, wireless electric power detecting controller can export representative be the wireless control signal of start situation to energy-saving control socket, switch on simultaneously with the controlled soket on the control energy-saving control socket.Opposite, when extraneous main frame shutdown, the controlled soket that wireless electric power detecting controller is then controlled on the energy-saving control socket cuts off the power supply simultaneously, and then reaches the action of master/slave formula interlock socket (master/slave outlet).

So, wireless control energy-saving device provided by the invention can solve the problems such as convenience, fail safe and saving, simultaneously, can also reach green energy resource (Standby Power) code requirement.

The above only be the specific embodiment of the best of the present invention, but feature of the present invention is not limited to this, any those of ordinary skill in the field of the invention, can think easily and variation or modification, all can be encompassed in the scope of patent protection of this case.

Claims (10)

1. an energy-saving control socket is characterized in that, communication is connected in a wireless electric power detecting controller, and the electric power detecting controller that this is wireless is exported a wireless control signal according to start or the shutdown of an extraneous main frame, and this energy-saving control socket comprises:

One housing is provided with a baseplug and at least one controlled soket, and this at least one controlled soket is in order at least one peripheral device of pegging graft, and this housing also is provided with a storage tank, in order to accommodating this wireless electric power detecting controller;

One communication module is arranged in this housing, in order to receive this wireless control signal; And

One microprocessor is arranged in this housing, and this microprocessor is coupled to this communication module and this at least one controlled soket;

Wherein, when this external world's main frame was started shooting, this microprocessor was controlled this at least one controlled soket and is powered simultaneously to this at least one peripheral device according to this wireless control signal; When this external world's main frame shut down, this microprocessor was controlled this at least one controlled soket and is cut off the power supply simultaneously according to this wireless control signal;

Wherein, the electric power detecting controller that this is wireless includes signal transmission connectivity port, one electric power detecting unit and a communication processing unit, this electric power detecting unit is coupled between this signal transmission connectivity port and this communication processing unit, this signal transmission connectivity port provides this wireless electric power detecting controller to be connected in this external world's main frame, whether this electric power detecting device is detected this external world's main frame via this signal transmission connectivity port and is started shooting, and export a detection signal, this communication processing unit is exported this wireless control signal to this energy-saving control socket according to this detection signal.

2. energy-saving control socket as claimed in claim 1, it is characterized in that, also comprise a power supply changeover device, a charhing unit and a signal transmission interface port, this power supply changeover device is coupled to this microprocessor, converts an alternating electromotive force to a direct current electric power, and this direct current power is delivered to this microprocessor, this charhing unit is coupled to this power supply changeover device, receives this direct current power, and exports a charging power, this signal transmission interface port is coupled to this charhing unit, receives this charging power.

3. a wireless electric power detecting controller is characterized in that communication is connected in an energy-saving control socket, and the electric power detecting controller that this is wireless comprises:

One signal transmission connectivity port provides this wireless electric power detecting controller to be connected in an extraneous main frame;

One electric power detecting unit is coupled to this signal transmission connectivity port, and whether this electric power detecting device is detected this external world's main frame via this signal transmission connectivity port and started shooting, and exports a detection signal; And

One communication processing unit is coupled to this electric power detecting unit, and this communication processing unit receives this detection signal, and exports a wireless control signal to this energy-saving control socket according to this detection signal.

4. wireless electric power detecting controller as claimed in claim 3, it is characterized in that, also comprise an energy switch unit, this energy switch unit is coupled to this signal transmission connectivity port and this communication processing unit, this energy switch unit receives a charging power via this signal transmission connectivity port, and according to this detection signal, select this charging power of output and a battery electric power, use to supply with this communication processing unit as a power for operation.

5. wireless electric power detecting controller as claimed in claim 4, it is characterized in that, this communication processing unit also couples an indicating member and an operating unit, this communication processing unit output one low electric power signal is given this indicating member, this communication processing unit receives one first control command from this operating unit, and control this energy-saving control socket according to this first control command, this communication processing unit receives one second control command from this operating unit, and control the transmission of this wireless control signal according to this second control command, this communication processing unit receives a timing coutrol instruction from this operating unit, and controls this energy-saving control socket according to this timing coutrol instruction.

6. a wireless control energy-saving device is characterized in that, comprising:

One wireless electric power detecting controller comprises:

One signal transmission connectivity port provides this wireless electric power detecting controller to be connected in an extraneous main frame;

One electric power detecting unit is coupled to this signal transmission connectivity port, and whether this electric power detecting device is detected this external world's main frame via this signal transmission connectivity port and started shooting, and exports a detection signal; And

One communication processing unit is coupled to this electric power detecting unit, and this communication processing unit receives this detection signal, and exports a wireless control signal according to this detection signal; And

One energy-saving control socket, communication are connected in this wireless electric power detecting controller, and this energy-saving control socket comprises:

One housing is provided with a baseplug and at least one controlled soket, and this housing also is provided with a storage tank, in order to accommodating this wireless electric power detecting controller;

One communication module is arranged in this housing, receives this wireless control signal; And

One microprocessor is arranged in this housing, and this microprocessor is coupled to this communication module and this at least one controlled soket, according to this wireless control signal, powers simultaneously or simultaneously outage in order to this at least one controlled soket of control.

7. wireless control energy-saving device as claimed in claim 6 is characterized in that, this energy-saving control socket also comprises:

One power supply changeover device is coupled to this microprocessor, converts an alternating electromotive force to a direct current electric power, and this direct current power is delivered to this microprocessor;

One charhing unit is coupled to this power supply changeover device, receives this direct current power, and exports a charging power; And

One signal transmission interface port is coupled to this charhing unit, receives this charging power.

8. wireless control energy-saving device as claimed in claim 7, it is characterized in that, this signal transmission interface port of this energy-saving control socket is coupled to this signal transmission connectivity port of this wireless electric power detecting controller, and this energy-saving control socket is to this wireless electric power detecting controller charging.

9. wireless control energy-saving device as claimed in claim 8, it is characterized in that, the electric power detecting controller that this is wireless also comprises an energy switch unit, this energy switch unit is coupled to this signal transmission connectivity port and this communication processing unit, this energy switch unit receives this charging power via this signal transmission connectivity port, and according to this detection signal, select this charging power of output and a battery electric power, use to supply with this communication processing unit as a power for operation.

10. wireless control energy-saving device as claimed in claim 9, it is characterized in that, this communication processing unit also couples an indicating member and an operating unit, this communication processing unit output one low electric power signal is given this indicating member, this communication processing unit receives one first control command from this operating unit, and control this at least one controlled soket of this energy-saving control socket according to this first control command, this communication processing unit receives one second control command from this operating unit, and control the transmission of this wireless control signal according to this second control command, this communication processing unit receives a timing coutrol instruction from this operating unit, and controls this at least one controlled soket of this energy-saving control socket according to this timing coutrol instruction.

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