CN201348727Y - Two-way radio energy monitoring system - Google Patents

Abstract

The utility model relates to the technical field of electric energy monitoring system, in particular to a two-way radio energy monitoring system, which comprises a two-way radio energy monitoring device and a two-way radio energy monitoring switching device, wherein, the two-way radio energy monitoring device includes a first wireless two-way module for receiving current signals from the two-way radio energy monitoring switching device or sending control signals to the two-way radio energy monitoring switching device, the two-way radio energy monitoring switching device includes a second wireless two-way module for receiving control signals from the two-way radio energy monitoring device or send current signals generated by electric apparatus to the two-way radio energy monitoring device, and the two-way radio energy monitoring device and the two-way radio energy monitoring switching device are connected in a two-way wireless manner with the second wireless two-way module through the first wireless two-way module. The utility model can realize the two-way transmission, the two-way control and the remote control of signals between the two-way radio energy monitoring device and the two-way radio energy monitoring switching device.

Description

Bidirectional radio energy monitoring system

Technical field:

The utility model relates to the electric energy monitoring system technical field, relates in particular to a kind of bidirectional radio energy monitoring system.

Background technology:

Electric energy is a kind of important energy, has obtained using widely in industrial and agricultural production and daily life.In the today of being becoming tight energy day, energy-conservationly become an important subject, people have adopted multiple mode to control the loss of electric energy, comprise the conveying from power supply, arrive the energy-efficient performance of electrical equipment itself etc., various power save modes have all played certain energy-saving effect.

Uni-directional wireless electric energy supervisory system is a kind of emerging energy-saving monitoring system, it is mainly by the use that forms a complete set of of uni-directional wireless electric energy supervising device and uni-directional wireless electric energy monitor switching bay, uni-directional wireless electric energy supervising device generally comprises first microprocessor, display module, key-press module and wireless unidirectional receiver module, uni-directional wireless electric energy monitor switching bay generally comprises second microprocessor, the induction by current module, ON-OFF control circuit, the wireless unidirectional sending module, uni-directional wireless electric energy monitor switching bay be connected on the socket of electrical equipment correspondence and by the induction by current module senses to corresponding current signal, after the processing of this current signal through second microprocessor, be transferred into the wireless unidirectional sending module, and be transmitted to the wireless unidirectional receiver module of uni-directional wireless electric energy supervising device by the wireless unidirectional sending module, after passing through the processing of first microprocessor again, be transferred into display module, and export external display screen to, thereby show the power of electrical equipment by display module, electrical energy parameter such as power consumption and real-time time.Between the uni-directional wireless electric energy supervising device of this uni-directional wireless electric energy supervisory system and the uni-directional wireless electric energy monitor switching bay, can only the one-way transmission signal, can not realize two-way operation control and Long-distance Control, cause and use inconvenient and significant limitation is arranged.

The utility model content:

The purpose of this utility model is at the deficiencies in the prior art, and a kind of bidirectional radio energy monitoring system is provided, and this bidirectional radio energy monitoring system can be realized the transmitted in both directions of signal and two-way control and Long-distance Control.

For achieving the above object, the utility model is achieved through the following technical solutions: it comprises bidirectional radio energy supervising device and bidirectional radio energy monitor switching bay; Described bidirectional radio energy supervising device comprises first microprocessor, display module, first key-press module, the input end of described display module is connected with the display driver output terminal of first microprocessor, and the output terminal of first key-press module detects input end with the button of first microprocessor and is connected; Described bidirectional radio energy monitor switching bay comprises second microprocessor, the induction by current module, ON-OFF control circuit, the output terminal of described induction by current module is connected with the current detecting input end of second microprocessor, the input end of ON-OFF control circuit is connected with the control output end of second microprocessor, described bidirectional radio energy supervising device comprises also and is used to receive from the current signal of bidirectional radio energy monitor switching bay or transmits control signal to the first wireless two-way module of bidirectional radio energy monitor switching bay that the first wireless two-way module is connected with first microprocessor; Described bidirectional radio energy monitor switching bay comprises also and is used to receive the second wireless two-way module of giving the bidirectional radio energy supervising device from the current signal of the control signal of bidirectional radio energy supervising device or emission electrical equipment that the second wireless two-way module is connected with second microprocessor; Described bidirectional radio energy supervising device carries out double-direction radio by the first wireless two-way module with the second wireless two-way module with the bidirectional radio energy monitor switching bay and is connected.

The described first wireless two-way module is made up of rf chip U1_1, crystal oscillator Y1_1, antenna J1_1, capacitor C 1_1, C1_2, C1_4, C1_5 and inductance L 1_1, L1_2, L1_3, the end of crystal oscillator Y1_1 is connected other end ground connection with the 9th pin of rf chip U1_1; The end of capacitor C 1_5 is connected other end ground connection with the 15th pin of rf chip U1_1; Inductance L 1_1 is connected between the 12nd pin and the 13rd pin of rf chip U1_1, and inductance L 1_2 is connected between the 12nd pin and the 14th pin of rf chip U1_1; The end of capacitor C 1_1 is connected other end ground connection with the 13rd pin of rf chip U1_1; The end of capacitor C 1_4 is connected with the 12nd pin of rf chip U1_1, and the other end is connected with the end of inductance L 1_3, and the other end of inductance L 1_3 is connected with the 13rd pin of rf chip U1_1; The end of capacitor C 1_2 is connected with the intersection point of inductance L 1_3 and C1_4, and the other end is connected with antenna J1_1; The 11st pin of rf chip U1_1 is a grounding leg, is connected with ground, and the 14th pin of rf chip U1_1 is a supply pin, is used to import power supply, and the 1st～8,10,16 pin of rf chip U1_1 all are connected with first microprocessor.

The rf chip U1_1 that the described first wireless two-way module adopts is IA4421.

Described bidirectional radio energy supervising device further comprises the clock/calendar module, and the clock/calendar module is connected with first microprocessor, is used to be provided with clock and calendar.

Described bidirectional radio energy supervising device further comprises first power module, first power module is made up of first power supply input circuit, first mu balanced circuit, the input end of first power supply input circuit is connected with external power supply, the output terminal of first power supply input circuit is connected with the input end of first mu balanced circuit, and the output terminal of first mu balanced circuit is connected with the power input of first microprocessor, display module, first key-press module, the first wireless two-way module, clock/calendar module respectively.

The described second wireless two-way module is made up of rf chip U2_1, crystal oscillator Y2_1, antenna J2_1, capacitor C 2_1, C2_2, C2_4, C2_5 and inductance L 2_1, L2_2, L2_3, the end of crystal oscillator Y2_1 is connected other end ground connection with the 9th pin of rf chip U2_1; The end of capacitor C 2_5 is connected other end ground connection with the 15th pin of rf chip U2_1; Inductance L 2_1 is connected between the 12nd pin and the 13rd pin of rf chip U2_1, and inductance L 2_2 is connected between the 12nd pin and the 14th pin of rf chip U2_1; The end of capacitor C 2_1 is connected other end ground connection with the 13rd pin of rf chip U2_1; The end of capacitor C 2_4 is connected with the 12nd pin of rf chip U2_1, and the other end is connected with the end of inductance L 2_3, and the other end of inductance L 2_3 is connected with the 13rd pin of rf chip U2_1; The end of capacitor C 2_2 is connected with the intersection point of inductance L 2_3 and C2_4, and the other end is connected with antenna J2_1; The 11st pin of rf chip U2_1 is a grounding leg, is connected with ground, and the 14th pin of rf chip U2_1 is a supply pin, is used to import power supply, and the 1st～8,10,16 pin of rf chip U2_1 all are connected with second microprocessor.

The rf chip U2_1 that the described second wireless two-way module adopts is IA4421.

Described bidirectional radio energy monitor switching bay further comprises second key-press module, indicating circuit, and the output terminal of second key-press module detects input end with the button of second microprocessor and is connected; The input end of indicating circuit is connected with the state output end of second microprocessor.

Described bidirectional radio energy monitor switching bay further comprises the second source module, the second source module comprises the second source input circuit, rectification circuit, second mu balanced circuit, the input end of second source input circuit is connected with external power supply, the output terminal of second source input circuit respectively with the ac power input end of ON-OFF control circuit, the input end of rectification circuit connects, the output terminal of rectification circuit respectively with the ac power input end of ON-OFF control circuit, the input end of second mu balanced circuit connects, the output terminal of second mu balanced circuit respectively with second microprocessor, the induction by current module, the second wireless two-way module, second key-press module, the dc supply input of indicating circuit connects.

Described second source module further comprises voltage detecting circuit, the input end of voltage detecting circuit is connected with the output terminal of second source input circuit, the output terminal of voltage detecting circuit is connected with the voltage detecting input end of second microprocessor, is used to detect the supply voltage of input.

The utility model beneficial effect is: bidirectional radio energy monitoring system described in the utility model comprises bidirectional radio energy supervising device and bidirectional radio energy monitor switching bay, and the first wireless two-way module of bidirectional radio energy supervising device can receive from the current signal of bidirectional radio energy monitor switching bay or transmit control signal to the bidirectional radio energy monitor switching bay; The second wireless two-way module of bidirectional radio energy monitor switching bay can receive from the current signal of the control signal of bidirectional radio energy supervising device or emission electrical equipment and give the bidirectional radio energy supervising device.As can be seen from the above technical solutions, the first wireless two-way module of the present utility model and the second wireless two-way module match each other, can realize the transmitted in both directions of signal, therefore, the utility model can be realized signal transmitted in both directions between bidirectional radio energy supervising device and the bidirectional radio energy monitor switching bay and two-way control and Long-distance Control, it can be by the electricity consumption situation of many electrical equipment of bidirectional radio energy monitor switching bay monitoring, and the electricity consumption situation that the user can send over according to the bidirectional radio energy monitor switching bay, operate button in first key-press module and control the ON-OFF control circuit of bidirectional radio energy monitor switching bay, to cut off or to connect the power supply of electrical equipment, play the effect of reminding economize on electricity and rational utilization of electricity.

Description of drawings:

Fig. 1 is the connection diagram of the utility model bidirectional radio energy supervising device, bidirectional radio energy monitor switching bay and electrical equipment;

Fig. 2 is the theory diagram of the utility model bidirectional radio energy supervising device;

Fig. 3 is the theory diagram of the utility model bidirectional radio energy monitor switching bay;

Fig. 4 is the circuit theory diagrams of the utility model first wireless two-way module;

Fig. 5 is the circuit theory diagrams of the utility model clock/calendar module and first power module;

Fig. 6 is the circuit theory diagrams of the utility model first microprocessor;

Fig. 7 is the circuit theory diagrams of the utility model display module and first key-press module;

Fig. 8 is the circuit theory diagrams of the utility model second wireless two-way module;

Fig. 9 is the circuit theory diagrams of the utility model second microprocessor, induction by current module, second key-press module, indicating circuit;

Figure 10 is the circuit theory diagrams of the utility model second source module, ON-OFF control circuit.

Embodiment:

Below in conjunction with accompanying drawing the utility model is further described: please refer to Fig. 1 to Fig. 3, bidirectional radio energy monitoring system, it comprises bidirectional radio energy supervising device 1 and bidirectional radio energy monitor switching bay 2, and bidirectional radio energy monitor switching bay 2 is connected on the socket of electrical equipment 3 correspondences; Bidirectional radio energy supervising device 1 comprises that the first wireless two-way module, 16, the first wireless two-way modules 16 can receive from the current signal of bidirectional radio energy monitor switching bay 2 or transmit control signal to bidirectional radio energy monitor switching bay 2; Bidirectional radio energy monitor switching bay 2 comprises that the second wireless two-way module, 24, the second wireless two-way modules 24 can receive from the current signal of the control signal of bidirectional radio energy supervising device 1 or emission electrical equipment 3 and gives bidirectional radio energy supervising device 1; The first wireless two-way module 16 and the second wireless two-way module 24 match each other, can realize the transmitted in both directions of signal, therefore, the utility model can be realized signal transmitted in both directions between bidirectional radio energy supervising device 1 and the bidirectional radio energy monitor switching bay 2 and two-way control and Long-distance Control, it can be by the electricity consumption situation of bidirectional radio energy monitor switching bay 2 monitoring circuits 3, and the electricity consumption situation that bidirectional radio energy supervising device 1 can send over according to bidirectional radio energy monitor switching bay 2, oppositely control bidirectional radio energy monitor switching bay 2, thereby cut off or connect the power supply of electrical equipment 3, play the effect of reminding economize on electricity and rational utilization of electricity.

Bidirectional radio energy supervising device 1 of the present utility model comprises first microprocessor 11, display module 13, first key-press module 14, the input end of described display module 13 is connected with the display driver output terminal of first microprocessor 11, make first microprocessor 11 to drive external display screen, to show the electrical energy parameters such as power, power consumption and real-time time of electrical equipment 3 by display module 13; The output terminal of first key-press module 14 detects input end with the button of first microprocessor 11 and is connected, and makes the operator can pass through first key-press module, 14 input control signals, with control bidirectional radio energy monitor switching bay 2.

Bidirectional radio energy supervising device 1 of the present utility model further comprises clock/calendar module 15, first power module 12, and clock/calendar module 15 is connected with first microprocessor 11, is used to be provided with clock and calendar; First power module 12 is by first power supply input circuit 121, first mu balanced circuit 122 is formed, the input end of first power supply input circuit 121 is connected with external power supply, the output terminal of first power supply input circuit 121 is connected with the input end of first mu balanced circuit 122, the output terminal of first mu balanced circuit 122 respectively with first microprocessor 11, display module 13, first key-press module 14, the first wireless two-way module 16, the power input of clock/calendar module 15 connects, and is used to first microprocessor 11, display module 13, first key-press module 14, the first wireless two-way module 16, clock/calendar module 15 provides working power.

Bidirectional radio energy monitor switching bay 2 of the present utility model comprises second microprocessor 21, induction by current module 25, ON-OFF control circuit 23, the output terminal of described induction by current module 25 is connected with the current detecting input end of second microprocessor 21, make second microprocessor 21 to measure the electric current of electrical equipment 3 electricity consumptions by induction by current module 25, the input end of ON-OFF control circuit 23 is connected with the control output end of second microprocessor 21, makes that second microprocessor 21 can be by the cut-out or the connection of ON-OFF control circuit 23 control apparatuses 3 power supplys.

Bidirectional radio energy monitor switching bay 2 of the present utility model comprises that further the output terminal of second key-press module 26, indicating circuit 27, the second key-press modules 26 detects input end with the button of second microprocessor 21 and is connected; The input end of indicating circuit 27 is connected with the state output end of second microprocessor 21, make the operator can pass through second key-press module, 26 input control signals, and control signal is exported to ON-OFF control circuit 23 and indicating circuit 27, thereby the indicating status of the duty of gauge tap control circuit 23 and indicating circuit 27 by second microprocessor 21.

Bidirectional radio energy monitor switching bay 2 of the present utility model further comprises second source module 22, second source module 22 comprises second source input circuit 221, rectification circuit 222, second mu balanced circuit 223, the input end of second source input circuit 221 is connected with external power supply, the output terminal of second source input circuit 221 respectively with the ac power input end of ON-OFF control circuit 23, the input end of rectification circuit 222 connects, the output terminal of ON-OFF control circuit 23 then is used for the power input of connecting circuit 3, the output terminal of rectification circuit 222 respectively with the ac power input end of ON-OFF control circuit 23, the input end of second mu balanced circuit 223 connects, when ON-OFF control circuit 23 is connected, electrical equipment 3 energized, when ON-OFF control circuit 23 disconnects, electrical equipment 3 deenergizations; The output terminal of second mu balanced circuit 223 is connected with the dc supply input of second microprocessor 21, induction by current module 25, the second wireless two-way module 24, second key-press module 26, indicating circuit 27 respectively, is used to second microprocessor 21, induction by current module 25, the second wireless two-way module 24, second key-press module 26, indicating circuit 27 that working power is provided; Described second source module 22 further comprises voltage detecting circuit 224; the input end of voltage detecting circuit 224 is connected with the output terminal of second source input circuit 221; the output terminal of voltage detecting circuit 224 is connected with the voltage detecting input end of second microprocessor 21; be used to detect the supply voltage of input; make whether second microprocessor 21 can detect supply voltage by voltage detecting circuit 224 normal, thereby make the utility model realize functions such as overvoltage protection, under-voltage protection and overload protection.

Please refer to Fig. 4 to Figure 10, be physical circuit figure of the present utility model.The first wireless two-way module 16 of the present utility model is made up of rf chip U1_1, crystal oscillator Y1_1, antenna J1_1, capacitor C 1_1, C1_2, C1_4, C1_5 and inductance L 1_1, L1_2, L1_3, the end of crystal oscillator Y1_1 is connected other end ground connection with the 9th pin of rf chip U1_1; The end of capacitor C 1_5 is connected other end ground connection with the 15th pin of rf chip U1_1; Inductance L 1_1 is connected between the 12nd pin and the 13rd pin of rf chip U1_1, and inductance L 1_2 is connected between the 12nd pin and the 14th pin of rf chip U1_1; The end of capacitor C 1_1 is connected other end ground connection with the 13rd pin of rf chip U1_1; The end of capacitor C 1_4 is connected with the 12nd pin of rf chip U1_1, and the other end is connected with the end of inductance L 1_3, and the other end of inductance L 1_3 is connected with the 13rd pin of rf chip U1_1; The end of capacitor C 1_2 is connected with the intersection point of inductance L 1_3 and C1_4, and the other end is connected with antenna J1_1; The 11st pin of rf chip U1_1 is a grounding leg, is connected with ground, and the 14th pin of rf chip U1_1 is a supply pin, is used to import power supply, and the 1st～8,10,16 pin of rf chip U1_1 all are connected with first microprocessor 11.Wherein, antenna J1_1 can receive the signal from the second wireless two-way module 24, and is input among the rf chip U1_1, exports to first microprocessor 11 by rf chip U1_1 again; When first microprocessor 11 output control signals are given rf chip U1_1, rf chip U1_1 the control signal encoding process after, export to antenna J1_1 again, antenna J1_1 can send to control signal the second wireless two-way module 24.

Clock/calendar module 15 of the present utility model is made up of clock chip U1_5, crystal oscillator Y1_2, reserve battery BT1_1, resistance R 1_1, R1_2, R1_3, capacitor C 1_17, C1_20 and diode D1_1, D1_21, Y1_2 is connected between the 1st pin and the 2nd pin of U1_5, C1_17 is connected between the 1st pin and the 4th pin of U1_5, the 4th pin ground connection of U1_5; The end of R1_2 is connected with the 6th pin of U1_5 (SCL pin), another termination power (VCC1), and the end of R1_3 is connected another termination power with the 5th pin of U1_5 (SDA pin); The end of C1_20 is connected with the 8th pin of U1_5, other end ground connection, and the negative pole of D1_1 is connected with the 8th pin of U1_5, and positive pole is connected with power supply; The negative pole of D1_21 is connected with the 8th pin of U1_5, and positive pole is connected with the positive pole of BT1_1; The end of R1_1 is connected with the 8th pin of U1_5, and the other end is connected with the positive pole of BT1_1, the minus earth of BT1_1; The 3rd pin (INT) of U1_5 is connected with first microprocessor 11.Owing to be provided with reserve battery BT1_1, when the power input of clock calendaring module 15 did not have the power supply input, described reserve battery BT1_1 can keep clock/calendar module 15 operate as normal.

First power module 12 of the present utility model is made up of first power supply input circuit 121, first mu balanced circuit 122, first power supply input circuit 121 is made up of supply socket J1_3, capacitor C 1_13, C1_18, capacitor C 1_13, C1_18 all are connected in parallel between the 1st pin and the 2nd pin of supply socket J1_3, the 2nd pin ground connection of J1_3; First mu balanced circuit 122 is made up of power supply voltage stabilizing chip U1_2, capacitor C 1_14, C1_19, the 1st pin of U1_2 is connected with the 1st pin of supply socket J1_3, the 2nd pin ground connection of U1_2, capacitor C 1_14, C1_19 all are connected in parallel between the 2nd pin and the 3rd pin of U1_2, the 3rd pin of U1_2 is the output terminal of first power module 12, is used to first microprocessor 11, display module 13, first key-press module 14, the first wireless two-way module 16, clock/calendar module 15 that working power is provided.

The second wireless two-way module 24 of the present utility model is made up of rf chip U2_1, crystal oscillator Y2_1, antenna J2_1, capacitor C 2_1, C2_2, C2_4, C2_5 and inductance L 2_1, L2_2, L2_3, the end of crystal oscillator Y2_1 is connected other end ground connection with the 9th pin of rf chip U2_1; The end of capacitor C 2_5 is connected other end ground connection with the 15th pin of rf chip U2_1; Inductance L 2_1 is connected between the 12nd pin and the 13rd pin of rf chip U2_1, and inductance L 2_2 is connected between the 12nd pin and the 14th pin of rf chip U2_1; The end of capacitor C 2_1 is connected other end ground connection with the 13rd pin of rf chip U2_1; The end of capacitor C 2_4 is connected with the 12nd pin of rf chip U2_1, and the other end is connected with the end of inductance L 2_3, and the other end of inductance L 2_3 is connected with the 13rd pin of rf chip U2_1; The end of capacitor C 2_2 is connected with the intersection point of inductance L 2_3 and C2_4, and the other end is connected with antenna J2_1; The 11st pin of rf chip U2_1 is a grounding leg, is connected with ground, and the 14th pin of rf chip U2_1 is a supply pin, is used to import power supply, and the 1st～8,10,16 pin of rf chip U2_1 all are connected with second microprocessor 21.Wherein, when the current signal of second microprocessor, 21 output electrical equipment 3 is given rf chip U2_1, rf chip U2_1 exports to antenna J2_1 after this signal encoding is handled again, and antenna J2_1 can send to the current signal of electrical equipment 3 the first wireless two-way module 16; Antenna J2_1 can also receive the control signal from the first wireless two-way module 16, and be input among the rf chip U2_1, export to second microprocessor 21 by rf chip U2_1 again, second microprocessor 21 is again according to this control signal gauge tap control circuit 23, thus the power supply of cut-out or connection electrical equipment 3.

The model of the rf chip U2_1 that the rf chip U1_1 that the utility model first wireless two-way module 16 adopts and the second wireless two-way module 24 adopt is IA4421, the characteristics of this chip be peripheral components seldom, possess automatic frequency control, can guarantee that transceiver adjusts to the frequency of input signal automatically, it is operated in the 433/868/915MHz frequency range that need not to apply for the registration of.

Second microprocessor 21 of the present utility model adopts single-chip microcomputer, and its model is PIC16F687; Described indicating circuit 27 is made up of light emitting diode D2_9 and resistance R 2_10, the end of R2_10 is connected with the output terminal of second mu balanced circuit 223, the other end is connected with the positive pole of D2_9, the negative pole of D2_9 is connected with second microprocessor 21, second microprocessor 21 can be given indicating circuit 27 by the output control signal, thereby the duty of control light emitting diode D2_9 display circuit, certainly, described indicating circuit 27 also can adopt display device such as LCD display, is not limited to adopt light emitting diode.

ON-OFF control circuit 23 of the present utility model is by relay J 2_2, triode Q2_1, diode D2_1 and resistance R 2_1, R2_13 forms, the 1st pin of J2_2 is connected with the output terminal of second source input circuit 221, the 2nd pin of J2_2 is public pin, the 3rd pin of J2_2 is the output terminal of ON-OFF control circuit 23, the power input that is used for connecting circuit 3, the 4th pin of J2_2 is connected with the output terminal of rectification circuit 222, the 5th pin of J2_2 is connected with the collector of Q2_1, the grounded emitter of Q2_1, R2_13 is connected between the emitter and base stage of Q2_1, the negative pole of D2_1 is connected with the 4th pin of J2_2, the positive pole of D2_1 is connected with the 5th pin of J2_2, the base stage of Q2_1 is connected with the end of R2_1, the other end of R2_1 is connected with second microprocessor 21, make second microprocessor 21 can export control signal, the closed or disconnection of pilot relay J2_2, thereby the power supply of cut-out or connection electrical equipment 3.

The above only is preferred embodiment of the present utility model, so all equivalences of doing according to the described structure of the utility model patent claim, feature and principle change or modify, is included in the utility model patent claim.

Claims (10)

1, bidirectional radio energy monitoring system, it comprises bidirectional radio energy supervising device and bidirectional radio energy monitor switching bay; Described bidirectional radio energy supervising device comprises first microprocessor, display module, first key-press module, the input end of described display module is connected with the display driver output terminal of first microprocessor, and the output terminal of first key-press module detects input end with the button of first microprocessor and is connected; Described bidirectional radio energy monitor switching bay comprises second microprocessor, the induction by current module, ON-OFF control circuit, the output terminal of described induction by current module is connected with the current detecting input end of second microprocessor, the input end of ON-OFF control circuit is connected with the control output end of second microprocessor, it is characterized in that: described bidirectional radio energy supervising device comprises also and is used to receive from the current signal of bidirectional radio energy monitor switching bay or transmits control signal to the first wireless two-way module of bidirectional radio energy monitor switching bay that the first wireless two-way module is connected with first microprocessor; Described bidirectional radio energy monitor switching bay comprises also and is used to receive the second wireless two-way module of giving the bidirectional radio energy supervising device from the current signal of the control signal of bidirectional radio energy supervising device or emission electrical equipment that the second wireless two-way module is connected with second microprocessor; Described bidirectional radio energy supervising device carries out double-direction radio by the first wireless two-way module with the second wireless two-way module with the bidirectional radio energy monitor switching bay and is connected.

2, bidirectional radio energy monitoring system according to claim 1, it is characterized in that: the described first wireless two-way module is made up of rf chip U1_1, crystal oscillator Y1_1, antenna J1_1, capacitor C 1_1, C1_2, C1_4, C1_5 and inductance L 1_1, L1_2, L1_3, the end of crystal oscillator Y1_1 is connected other end ground connection with the 9th pin of rf chip U1_1; The end of capacitor C 1_5 is connected other end ground connection with the 15th pin of rf chip U1_1; Inductance L 1_1 is connected between the 12nd pin and the 13rd pin of rf chip U1_1, and inductance L 1_2 is connected between the 12nd pin and the 14th pin of rf chip U1_1; The end of capacitor C 1_1 is connected other end ground connection with the 13rd pin of rf chip U1_1; The end of capacitor C 1_4 is connected with the 12nd pin of rf chip U1_1, and the other end is connected with the end of inductance L 1_3, and the other end of inductance L 1_3 is connected with the 13rd pin of rf chip U1_1; The end of capacitor C 1_2 is connected with the intersection point of inductance L 1_3 and C1_4, and the other end is connected with antenna J1_1; The 11st pin of rf chip U1_1 is a grounding leg, is connected with ground, and the 14th pin of rf chip U1_1 is a supply pin, is used to import power supply, and the 1st～8,10,16 pin of rf chip U1_1 all are connected with first microprocessor.

3, bidirectional radio energy monitoring system according to claim 2 is characterized in that: the rf chip U1_1 that the described first wireless two-way module adopts is IA4421.

4, bidirectional radio energy monitoring system according to claim 1 is characterized in that: described bidirectional radio energy supervising device further comprises the clock/calendar module, and the clock/calendar module is connected with first microprocessor, is used to be provided with clock and calendar.

5, bidirectional radio energy monitoring system according to claim 4, it is characterized in that: described bidirectional radio energy supervising device further comprises first power module, first power module is by first power supply input circuit, first mu balanced circuit is formed, the input end of first power supply input circuit is connected with external power supply, the output terminal of first power supply input circuit is connected with the input end of first mu balanced circuit, the output terminal of first mu balanced circuit respectively with first microprocessor, display module, first key-press module, the first wireless two-way module, the power input of clock/calendar module connects.

6, bidirectional radio energy monitoring system according to claim 1, it is characterized in that: the described second wireless two-way module is made up of rf chip U2_1, crystal oscillator Y2_1, antenna J2_1, capacitor C 2_1, C2_2, C2_4, C2_5 and inductance L 2_1, L2_2, L2_3, the end of crystal oscillator Y2_1 is connected other end ground connection with the 9th pin of rf chip U2_1; The end of capacitor C 2_5 is connected other end ground connection with the 15th pin of rf chip U2_1; Inductance L 2_1 is connected between the 12nd pin and the 13rd pin of rf chip U2_1, and inductance L 2_2 is connected between the 12nd pin and the 14th pin of rf chip U2_1; The end of capacitor C 2_1 is connected other end ground connection with the 13rd pin of rf chip U2_1; The end of capacitor C 2_4 is connected with the 12nd pin of rf chip U2_1, and the other end is connected with the end of inductance L 2_3, and the other end of inductance L 2_3 is connected with the 13rd pin of rf chip U2_1; The end of capacitor C 2_2 is connected with the intersection point of inductance L 2_3 and C2_4, and the other end is connected with antenna J2_1; The 11st pin of rf chip U2_1 is a grounding leg, is connected with ground, and the 14th pin of rf chip U2_1 is a supply pin, is used to import power supply, and the 1st～8,10,16 pin of rf chip U2_1 all are connected with second microprocessor.

7, bidirectional radio energy monitoring system according to claim 6 is characterized in that: the rf chip U2_1 that the described second wireless two-way module adopts is IA4421.

8, bidirectional radio energy monitoring system according to claim 1, it is characterized in that: described bidirectional radio energy monitor switching bay further comprises second key-press module, indicating circuit, and the output terminal of second key-press module detects input end with the button of second microprocessor and is connected; The input end of indicating circuit is connected with the state output end of second microprocessor.

9, bidirectional radio energy monitoring system according to claim 8, it is characterized in that: described bidirectional radio energy monitor switching bay further comprises the second source module, the second source module comprises the second source input circuit, rectification circuit, second mu balanced circuit, the input end of second source input circuit is connected with external power supply, the output terminal of second source input circuit respectively with the ac power input end of ON-OFF control circuit, the input end of rectification circuit connects, the output terminal of rectification circuit respectively with the ac power input end of ON-OFF control circuit, the input end of second mu balanced circuit connects, the output terminal of second mu balanced circuit respectively with second microprocessor, the induction by current module, the second wireless two-way module, second key-press module, the dc supply input of indicating circuit connects.

10, bidirectional radio energy monitoring system according to claim 9, it is characterized in that: described second source module further comprises voltage detecting circuit, the input end of voltage detecting circuit is connected with the output terminal of second source input circuit, the output terminal of voltage detecting circuit is connected with the voltage detecting input end of second microprocessor, is used to detect the supply voltage of input.

Images