CN103117488B

CN103117488B - Intelligent power-saving system

Info

Publication number: CN103117488B
Application number: CN201310069970.2A
Authority: CN
Inventors: 张懿; 傅松寅
Original assignee: NINGBO JUHUAI ELECTRONIC TECHNOLOGY Co Ltd
Current assignee: NINGBO JUHUAI ELECTRONIC TECHNOLOGY Co Ltd
Priority date: 2013-01-30
Filing date: 2013-03-05
Publication date: 2015-05-20
Anticipated expiration: 2033-03-05
Also published as: CN203218626U; CN103117488A

Abstract

The invention discloses an intelligent power-saving system which comprises a control device and at least one power supply device. The control device comprises a first power line input port, a first system processing module, a first storage module, a first power line carrier communication module and a power supply module group configuration module. The first power line carrier communication module is connected with the first power line input port. The power supply device comprises a second power line input port, a second system processing module, a second storage module, a second power line carrier communication module and at least one socket. The sockets are provided with power supply module group selection modules and power supply control modules, and the power supply control modules and the second power line carrier communication module are connected with the second power line input port. The intelligent power-saving system has the advantages that by the aid of the power line carrier communication module, the control device and the power supply device can access to a mains supply power system used commonly at present conveniently, communication is achieved by the aid of the mains supply power system, so that the intelligent power saving system is formed.

Description

A kind of intelligent power saving apparatus

Technical field

The present invention relates to a kind of battery saving arrangement, especially relate to a kind of Intelligent power saving system.

Background technology

Along with the rise of intelligent appliance industry and the continuous lifting to electrical equipment green, safety, energy-conserving and environment-protective standard, intelligent electrical apparatus control appliance continues to bring out.As the cutting point that intelligent electrical apparatus is important, intelligent electric power supply control system and module are also arisen at the historic moment, and this direction research and development of products mainly concentrates on intelligent switch and smart jack.This type systematic, respectively from induced intelligent and control mode intelligent direction, is optimized the switch of existing civil power electric power system deploy and socket.

The electric power supply control system of induced intelligent type, be mainly reflected in the real-time monitoring to power supply environment, and the change realized when monitoring environment changes current powering mode, this type systematic is mainly through adding various kinds of sensors, perception power utilization environment, and environmental parameter and the standard preset are compared rear corresponding adjustment is carried out to electric power supply pattern.Common are electric leakage, electric current, the switch of the Intellisenses such as voltage transfinites, power controls, ambient temperature and humidity and socket.

The electric power supply control system of intelligent control type, is mainly reflected in and realizes the intellectuality of electric power supply pattern in time, space, mode.In time, having of commonly using is limited in the power supply of electrical equipment in the specific time period by the mode of timing; Spatially, mainly by expanding control range to the selection of control signal transmission means, usual way is that system is divided into control section and controlled components, controlled components is connected with the supply module of electrical equipment, the break-make of energy control apparatus and power supply, control signal, by the various wireless mode such as cable network or radio frequency, infrared and network, is sent to controlled components, thus completes the Long-distance Control to electric operation by control section; In mode, mainly based on aforementioned intelligent method, according to user's actual need, certain tissue and planning are carried out to electric power supply mode, be equivalent to the integrated of system.Occur all kinds of integrated control system more and more in current Smart Home field, intelligent switch and smart jack are representatives wherein.

Current add intelligent perception module smart jack and intelligent switch the most common, but due to controls local restriction and can not the property monitored, make this series products just than the socket of routine and the many component environment monitoring function of switch.But, vary because power utilization environment also exists, this series products has very large market, and this year, along with to the understanding of electric appliance standby power consumption and the lifting of awareness of saving energy, has occurred a kind of appliance socket with master/slave control function.This kind of socket is divided into master-slave equipment socket, after device shutdown on main socket, the power consumption of electrical equipment declines rapidly, and the intelligent electric saving manager chip in socket made the judgement that electrical equipment is in holding state in 30 seconds, then auto-breaking, thus close from the equipment appliance outlet.This product is widely applied in the energy-saving scheme of powering at host computer and peripheral hardware.But this control mode still can only be applied on the electric equipment in subrange, even if expanded the control set to some equipment by socket, but single master-slave control mode, still can not meet the flexible and senior management to equipment.Along with the rise of Smart Home industry, the Internet of Things concept with Distant supervision and control is implanted to rapidly in the process of equipment research and development.This series products adds the module of wired or wireless communication respectively in control section and controlled components, and this makes no longer to be confined to certain scope to the control of equipment, and has greatly expanded the distance controlled.And by introducing microprocessor, and the Internet technology of maturation breaches original restriction to control mode and control range completely.But use the cost of this type systematic to need often additionally to add or transform existing appliance chamber communication network, and equipment cost is higher, therefore in popularization, there is no small obstacle.For saving the cost of scrap build, industry constantly pursues the equipment scheme of various low cost, seek more cheap communication solution simultaneously, there is a kind of communication plan based on power line carrier at present, this scheme does not need increase or transform current communication network, directly with ready-made electric power networks transmission of control signals.There is this series products at present, but this series products is also in the pilot scale stage at present, although current supply network can be used easily, but still need user to transform existing socket or terminal block, simultaneously the communication topological structure of control section and controlled components is still in simple one to one or based on the control model of the one-to-many to code.

Summary of the invention

Technical problem to be solved by this invention is to provide one not to be needed to transform existing socket or terminal block, can access the intelligent power saving apparatus of current general civil power electric power system easily.

The present invention solves the problems of the technologies described above adopted technical scheme: a kind of intelligent power saving apparatus, comprise a control device and at least one electric supply installation, described control device comprises the first power line input port, the first system processing module, first memory module, first Power Line Carrier Communication Module and powering mode packet configuration module, the first described Power Line Carrier Communication Module is connected with the first described power line input port, described powering mode packet configuration module is connected with described the first system processing module respectively with the first described Power Line Carrier Communication Module, the first described memory module is connected with described the first system processing module, described electric supply installation comprises the second power line input port, second system processing module, second memory module, second Power Line Carrier Communication Module and at least one socket, the supporting powering mode that is provided with of described socket divides group selection module and power control module, described power control module is all connected with the second described power line input port with the second described Power Line Carrier Communication Module, described socket is connected with described power control module, described powering mode divides group selection module to be connected with described second system processing module respectively with the second described Power Line Carrier Communication Module, described power control module divides group selection module to be connected with described second system processing module by described powering mode, the second described memory module is connected with described second system processing module, for saved system configuration and operational factor, when whole system is run, control signal is generated after the state that arranges of the powering mode packet configuration module described in described the first system processing module reads, and control signal is transported to the first described Power Line Carrier Communication Module, and send into power line by the first described power line input port, the second described Power Line Carrier Communication Module receives the configuration signal in power line by the second described power line input port, and send to described second system processing module, described second system processing module resolves control signal, and mate with control signal after the powering mode described in reading divides the selection mode of group selection module, and according to current matching result, the operating state of respective socket is controlled by power control module.

Described control device is provided with the first housing, the back side of the first described housing is provided with the first biphase plug of being connected with the first described power line input port or/and the first 3-phase plug, described powering mode packet configuration module installation has grouping switching push button, break-make control button and addressing keyboard, and described grouping switching push button, break-make control button and addressing keyboard are arranged on the front of the first described housing.

Described electric supply installation is provided with the second housing, the back side of the second described housing is provided with the second biphase plug of being connected with the second described power line input port or/and the second 3-phase plug, and described socket is arranged on the front of the second described housing or/and side.

The back side of the second described housing is provided with the second biphase plug and the second 3-phase plug that are connected with the second described power line input port, and the pin on the second described biphase plug and the second described 3-phase plug is collapsible pin.

Described control device is provided with the first system power module, and described electric supply installation is provided with second system power module.

Described the first system processing module forms by having the low-power consumption first microprocessor of data processing function and peripheral circuit and auxiliary clock circuit thereof, the first described memory module is by having certain memory space and repeatedly the first storage chip of erase function and auxiliary circuit are formed, the input pin of the first described storage chip and output pin are connected with the P5.5/SMCLK pin of described first microprocessor and P5.6/ACLK pin respectively, described powering mode packet configuration module comprises a grouping commutation circuit be connected with the general purpose I/O port of described first microprocessor, on-off control circuit and keyboard matrix circuit, described control device realizes the accurate control to electric supply installation by keyboard matrix circuit, or realize controlling the grouping of electric supply installation by grouping commutation circuit, in the socket of the electric supply installation described in the first described biphase plug or the first 3-phase plug being inserted before running, user is by described keyboard matrix circuit Input Address code, described electric supply installation receiver address code is also preserved, during operation, select certain one-address code by described keyboard matrix circuit or select a certain gear by grouping commutation circuit, described first microprocessor is according to address code or grouping gear and in conjunction with on-off control circuit generation particular address control command or grouping control command, the multiple logic association that first microprocessor can realize between each grouping according to user's setting when realizing grouping and controlling in addition controls.The first described Power Line Carrier Communication Module comprises the first power communication transceiving chip and the first coupling coil that have and utilize power line to carry out communication function, the first described coupling coil one input is connected with the zero line of power line, another input of the first described coupling coil is connected with the live wire of power line by an electric capacity, the coupled end of the first described coupling coil is connected with the input of the first described power communication transceiving chip, the described output of the first power communication transceiving chip is connected with P3.6/UTXD1 and the P3.7/URXD1 pin of described first microprocessor.

Described second system processing module forms by having low-power consumption second microprocessor of data processing function and peripheral circuit thereof and auxiliary clock circuit and reset circuit, described reset circuit is connected with the RST pin of the second described microprocessor, the second described memory module is by having certain memory space and repeatedly the second storage chip of erase function and auxiliary circuit are formed, the input pin of the second described storage chip and output pin are connected with the P1.4/SMCLK pin of the second described microprocessor and P1.3/TA2 pin respectively, described power control module comprises relay, the live wire end of described socket is connected with the live wire of power line by described relay, described powering mode divides group selection module to comprise a gear toggle switch and multiple triode, each described triode controls the break-make of each road relay control signal of driving switch, the grounded emitter of described triode, the base stage of described triode is connected with the general purpose I/O port of the second described microprocessor by resistance, each road input of described gear toggle switch is connected with the collector electrode of described triode, the output of described gear toggle switch is connected with the control coil of described relay, during operation, the second described microprocessor sends make-and-break signal by general purpose I/O port to each road triode according to instruction and in conjunction with the range state of current toggle switch, thus control the folding of each road relay control coil, the second described Power Line Carrier Communication Module comprises the second power communication transceiving chip and the second coupling coil that have and utilize power line to carry out communication function, the second described coupling coil one input is connected with the zero line of power line, another input of the second described coupling coil is connected with the live wire of power line by the second electric capacity, the coupled end of the second described coupling coil is connected with the input of the second described power communication transceiving chip, the output of the second described power communication transceiving chip is connected with P3.6/UTXD1 and the P3.7/URXD1 pin of the second described microprocessor.

Described gear toggle switch comprises often opens gear, normally closed gear and at least two mode and gears.

Linked switch is provided with between multiple described gear toggle switch.

Described electric supply installation is provided with system peripheral interface module.

Compared with prior art, the invention has the advantages that and utilize Power Line Carrier Communication Module to make control device and electric supply installation can access current general civil power electric power system easily, and utilize civil power electric power system to communicate, form intelligent power saving apparatus; And powering mode packet configuration module as required arbitrarily or the powering mode that arranges in electric supply installation of dividing into groups, can be applicable to some larger places with different electricity consumption facility; And the housing of the plug be connected with power line input port is provided with overleaf by one, then without the need to transforming existing socket or terminal block, as long as device of the present invention is inserted existing socket by the plug being arranged on back side of shell, and socket corresponding on the housing of electricity consumption facility insertion electric supply installation just can be realized the object of intelligent energy-saving; Two-phase and 3-phase plug are set simultaneously, and pin is arranged to collapsible pin, then can be applied in different fields of employment on different sockets; And between multiple gear toggle switches in electric supply installation, linked switch is set, then can when needs by linked switch by interrelated for the multiple sockets on a device, the powering mode that now only need arrange a driving switch all sockets that just can make to be mutually related are arranged on identical powering mode; Electric supply installation arranges system peripheral interface module and can be connected with wired or wireless network, thus other smart machines or remote terminal can control intrasystem electric supply installation, thus realizes the seamless link with other Internet of Things.

Accompanying drawing explanation

Fig. 1 is topological structure schematic diagram of the present invention;

Fig. 2 is the circuit structure block diagram of control device of the present invention;

Fig. 3 is the circuit theory diagrams of control device of the present invention;

Fig. 4 is the circuit theory diagrams of the first system processing module of the present invention and the first memory module;

Fig. 5 is the circuit theory diagrams of the present invention first Power Line Carrier Communication Module;

Fig. 6 is the circuit theory diagrams of powering mode packet configuration module of the present invention;

Fig. 7 is the contour structures schematic diagram at the control device back side of the present invention;

Fig. 8 is the contour structures schematic diagram in control device front of the present invention;

Fig. 9 is the circuit structure block diagram of electric supply installation of the present invention;

Figure 10 is the circuit theory diagrams of second system processing module of the present invention and the second memory module;

Figure 11 is the circuit theory diagrams of the present invention second Power Line Carrier Communication Module;

Figure 12 is the circuit theory diagrams of power control module of the present invention;

Figure 13 is the circuit theory diagrams that powering mode of the present invention divides group selection module;

Figure 14 is the circuit theory diagrams of present system power module;

Figure 15 is the contour structures schematic diagram at the embodiment of the present invention two back side;

Figure 16 is the contour structures schematic diagram in the embodiment of the present invention three front.

Embodiment

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

Embodiment one: as shown in the figure, a kind of intelligent power saving apparatus, comprise a control device 1 and multiple electric supply installation 2, control device 1 comprises the first power line input port IN1, the first system processing module 11, first memory module 12, first Power Line Carrier Communication Module 13, powering mode packet configuration module 14 and the first system power module 15, powering mode packet configuration module 14 is provided with addressing keyboard 141, grouping switching push button 143 and break-make control button 144, the first system processing module 11 is that msp430f149 has the low-power consumption first microprocessor U11 of data processing function and peripheral circuit and auxiliary clock circuit thereof and forms by model, first memory module 12 is that AT24C02 has certain memory space and repeatedly the first storage chip U12 of erase function and auxiliary circuit are formed by model, the input pin of the first storage chip U12 and output pin are connected with the P5.5/SMCLK pin of first microprocessor U11 and P5.6/ACLK pin respectively, powering mode packet configuration module 14 comprises a keyboard matrix circuit 141 be connected with the general purpose I/O port of first microprocessor U11, and be provided with addressing keyboard 142, during operation, keyboard matrix circuit 141 is made to send powering mode configuration-direct to first microprocessor U11 by operation addressing keyboard 142, it is that LME2980 has the first power communication transceiving chip U13 and the first coupling coil L13 that utilize power line to carry out communication function that first Power Line Carrier Communication Module 13 comprises model, first coupling coil L13 mono-input is connected with the zero line N of power line, another input of first coupling coil L13 is connected with the live wire L of power line by the first electric capacity C1, the coupled end of the first coupling coil L13 is connected with the input of the first power communication transceiving chip U13, the output of the first power communication transceiving chip U13 is connected with P3.6/UTXD1 and the P3.7/URXD1 pin of first microprocessor U11, control device 1 is provided with the first housing 16, the back side of the first housing 16 is provided with the first biphase plug 17 and the first 3-phase plug 18 be connected with the first power line input port IN1, powering mode packet configuration module 14 is provided with addressing keyboard 19, addressing keyboard 19 is arranged on the front of the first housing 16.

Electric supply installation 2 comprises the second power line input port IN2, second system processing module 21, second memory module 22, second Power Line Carrier Communication Module 23, multiple two-phase socket and three-phase socket 24 and the second system power module 25 for powering to modules, the supporting powering mode that is provided with of each socket 24 divides group selection module 26 and power control module 27, second system processing module 21 is that msp430f149 low-power consumption second microprocessor U21 and peripheral circuit thereof and auxiliary clock circuit 211 and reset circuit 212 form by the model with data processing function, reset circuit 212 is connected with the RST pin of the second microprocessor U21, power control module 27 comprises relay J Y, the live wire end of socket 24 is connected with the live wire L of power line by relay J Y, powering mode divides group selection module 26 to comprise a gear toggle switch 261 and four triode T, gear toggle switch 261 comprises often opens gear, normally closed gear and four mode and gears, each triode T controls the break-make of each road of driving switch 261 relay J Y control signal, the grounded emitter of triode T, the base stage of triode T is connected with the general purpose I/O port of the second microprocessor U21 by resistance R, each road input of gear toggle switch 261 is connected with the collector electrode of triode T respectively, the output of gear toggle switch 261 is connected with the control coil of relay J Y, during operation, second microprocessor U21 sends make-and-break signal by general purpose I/O port to each road triode T according to instruction and in conjunction with the range state of current toggle switch 261, thus control the folding of each road relay J Y control coil, second Power Line Carrier Communication Module 23 comprises having and utilizes power line to carry out the model of communication function for LME2980 power communication transceiving chip U23 and the second coupling coil L23, second coupling coil L23 mono-input is connected with the zero line N of power line, another input of second coupling coil L23 is connected with the live wire L of power line by a second electric capacity C2, the coupled end of the second coupling coil L23 is connected with the input of the second power communication transceiving chip U23, the output of the second power communication transceiving chip U23 is connected with P3.6/UTXD1 and the P3.7/URXD1 pin of the second microprocessor U21, second power communication transceiving chip U23 is connected with the second microprocessor U21 and is integrated with signal transmitting and receiving function, signal can be carried out modulation /demodulation on power line, during transmission signal, the second power communication transceiving chip U23 receives the second microprocessor U21 data-signal, this signal is carried out FSK modulation, form modulation signal, get on being transferred to power circuit by the second coupling coil L23 after power amplification.During Received signal strength, the second power communication transceiving chip U23 starts monitoring, by the signal on power line after the second coupling coil L23 transformation, carry out certain filter shape again, finally demodulation is carried out to signal and obtain actual data signal, submit to the second microprocessor U21.Second memory module 22 is that the second storage chip U22 of AT24C02 and auxiliary circuit are formed by the model with certain memory space and repeatedly erase function, and the input pin of the second storage chip U22 and output pin are connected with the P1.4/SMCLK pin of the second microprocessor U21 and P1.3/TA2 pin respectively.

When whole system is run, the first system processing module 11 reads the state that arranges of powering mode packet configuration module 14 and then generates after configuration signal, configuration signal is transported to the first Power Line Carrier Communication Module 13, and send into power line by the first power line input port IN1, second Power Line Carrier Communication Module 23 receives the configuration signal in power line by the second power line input port IN2, second system processing module 21 reads and resolves configuration signal, second system processing module 21 reads the selection mode that powering mode divides group selection module 26 afterwards, and send to power control module 27 to control the operating state of respective socket 24 in conjunction with configuration signal generation power supplying control signal according to current selection mode simultaneously.

Embodiment two: other structures are identical with embodiment one, difference is that electric supply installation 2 is provided with the second housing 28, the back side of the second housing 28 is provided with the second biphase plug 29 and the second 3-phase plug 20 be connected with the second power line input port IN2, pin on second biphase plug 29 and the second 3-phase plug 20 is collapsible pin, and two-phase socket and three-phase socket 24 are arranged on the front of the second housing 28.

Embodiment three: other structures are identical with embodiment one or embodiment two, difference is to be provided with linked switch 12 between multiple gear toggle switch 261.

Embodiment four: other structures are identical with the above embodiments, difference is that control device 1 is provided with system peripheral interface module 10.

Embodiment five: other structures are identical with the above embodiments, difference is that control device 1 is provided with system peripheral interface module 10.

Claims

1. an intelligent power saving apparatus, it is characterized in that comprising a control device and at least one electric supply installation, described control device comprises the first power line input port, the first system processing module, first memory module, first Power Line Carrier Communication Module and powering mode packet configuration module, the first described Power Line Carrier Communication Module is connected with the first described power line input port, described powering mode packet configuration module is connected with described the first system processing module respectively with the first described Power Line Carrier Communication Module, the first described memory module is connected with described the first system processing module, described electric supply installation comprises the second power line input port, second system processing module, second memory module, second Power Line Carrier Communication Module and at least one socket, the supporting powering mode that is provided with of described socket divides group selection module and power control module, described power control module is all connected with the second described power line input port with the second described Power Line Carrier Communication Module, described socket is connected with described power control module, described powering mode divides group selection module to be connected with described second system processing module respectively with the second described Power Line Carrier Communication Module, described power control module divides group selection module to be connected with described second system processing module by described powering mode, the second described memory module is connected with described second system processing module, for saved system configuration and operational factor, when whole system is run, control signal is generated after the state that arranges of the powering mode packet configuration module described in described the first system processing module reads, and control signal is transported to the first described Power Line Carrier Communication Module, and send into power line by the first described power line input port, the second described Power Line Carrier Communication Module receives the configuration signal in power line by the second described power line input port, and send to described second system processing module, described second system processing module resolves control signal, and mate with control signal after the powering mode described in reading divides the selection mode of group selection module, and according to current matching result, the operating state of respective socket is controlled by power control module.

2. a kind of intelligent power saving apparatus as claimed in claim 1, it is characterized in that described control device is provided with the first housing, the back side of the first described housing is provided with the first biphase plug of being connected with the first described power line input port or/and the first 3-phase plug, described powering mode packet configuration module installation has grouping switching push button, break-make control button and addressing keyboard, and described grouping switching push button, break-make control button and addressing keyboard are arranged on the front of the first described housing.

3. a kind of intelligent power saving apparatus as claimed in claim 1, it is characterized in that described electric supply installation is provided with the second housing, the back side of the second described housing is provided with the second biphase plug of being connected with the second described power line input port or/and the second 3-phase plug, and described socket is arranged on the front of the second described housing or/and side.

4. a kind of intelligent power saving apparatus as claimed in claim 3, it is characterized in that the back side of the second described housing is provided with the second biphase plug and the second 3-phase plug be connected with the second described power line input port, the pin on the second described biphase plug and the second described 3-phase plug is collapsible pin.

5. a kind of intelligent power saving apparatus as claimed in claim 1, it is characterized in that described control device is provided with the first system power module, described electric supply installation is provided with second system power module.

6. a kind of intelligent power saving apparatus as claimed in claim 2, it is characterized in that described the first system processing module forms by having the low-power consumption first microprocessor of data processing function and peripheral circuit and auxiliary clock circuit thereof, the first described memory module is by having certain memory space and repeatedly the first storage chip of erase function and auxiliary circuit are formed, the input pin of the first described storage chip and output pin are connected with the P5.5/SMCLK pin of described first microprocessor and P5.6/ACLK pin respectively, described powering mode packet configuration module comprises a grouping commutation circuit be connected with the general purpose I/O port of described first microprocessor, on-off control circuit and keyboard matrix circuit, described control device realizes the accurate control to electric supply installation by keyboard matrix circuit, or realize controlling the grouping of electric supply installation by grouping commutation circuit, in the socket of the electric supply installation described in the first described biphase plug or the first 3-phase plug being inserted before running, user is by described keyboard matrix circuit Input Address code, described electric supply installation receiver address code is also preserved, during operation, select certain one-address code by described keyboard matrix circuit or select a certain gear by grouping commutation circuit, described first microprocessor is according to address code or grouping gear and in conjunction with on-off control circuit generation particular address control command or grouping control command, the multiple logic association that first microprocessor can realize between each grouping according to user's setting when realizing grouping and controlling in addition controls, the first described Power Line Carrier Communication Module comprises the first power communication transceiving chip and the first coupling coil that have and utilize power line to carry out communication function, the first described coupling coil one input is connected with the zero line of power line, another input of the first described coupling coil is connected with the live wire of power line by the first electric capacity, the coupled end of the first described coupling coil is connected with the input of the first described power communication transceiving chip, the described output of the first power communication transceiving chip is connected with P3.6/UTXD1 and the P3.7/URXD1 pin of described first microprocessor.

7. a kind of intelligent power saving apparatus as claimed in claim 1, it is characterized in that described second system processing module forms by having low-power consumption second microprocessor of data processing function and peripheral circuit thereof and auxiliary clock circuit and reset circuit, described reset circuit is connected with the RST pin of the second described microprocessor, the second described memory module is by having certain memory space and repeatedly the second storage chip of erase function and auxiliary circuit are formed, the input pin of the second described storage chip and output pin are connected with the P1.4/SMCLK pin of the second described microprocessor and P1.3/TA2 pin respectively, described power control module comprises relay, the live wire end of described socket is connected with the live wire of power line by described relay, described powering mode divides group selection module to comprise a gear toggle switch and multiple triode, each described triode controls the break-make of each road relay control signal of driving switch, the grounded emitter of described triode, the base stage of described triode is connected with the general purpose I/O port of the second described microprocessor by resistance, each road input of described gear toggle switch is connected with the collector electrode of described triode, the output of described gear toggle switch is connected with the control coil of described relay, during operation, the second described microprocessor sends make-and-break signal by general purpose I/O port to each road triode according to instruction and in conjunction with the range state of current toggle switch, thus control the folding of each road relay control coil, the second described Power Line Carrier Communication Module comprises the second power communication transceiving chip and the second coupling coil that have and utilize power line to carry out communication function, the second described coupling coil one input is connected with the zero line of power line, another input of the second described coupling coil is connected with the live wire of power line by the second electric capacity, the coupled end of the second described coupling coil is connected with the input of the second described power communication transceiving chip, the output of the second described power communication transceiving chip is connected with P3.6/UTXD1 and the P3.7/URXD1 pin of the second described microprocessor.

8. a kind of intelligent power saving apparatus as claimed in claim 7, is characterized in that described gear toggle switch comprises and often opens gear, normally closed gear and at least two mode and gears.

9. a kind of intelligent power saving apparatus as claimed in claim 7, is characterized in that being provided with linked switch between multiple described gear toggle switch.

10. a kind of intelligent power saving apparatus as claimed in claim 1, is characterized in that described electric supply installation is provided with system peripheral interface module.