CN106016641A - Adapter device of constant-temperature controller - Google Patents

Abstract

The invention discloses an adapter device of a constant-temperature controller. The adapter device comprises an alternating current sampling circuit, an infrared learning circuit, an infrared emission circuit and a single-chip microcomputer control circuit, wherein the alternating current sampling circuit acquires alternating current control signals output by the constant-temperature controller; the infrared learning circuit receives infrared remote control signals emitted by an infrared remote controller corresponding to controlled equipment; the single-chip microcomputer control circuit firstly receives the infrared remote control signals and then performs data processing and storage and matches the infrared remote control signals with the alternating current control signals of the constant-temperature controller in a one-to-one correspondence manner; after receiving an alternating current control signal output by the constant-temperature controller, the single-chip microcomputer control circuit calls corresponding infrared remote control signal data in a matching manner in real time, and transmits the corresponding infrared remote control signal through the infrared emission circuit. The adapter device disclosed by the invention can effectively connect the Nest constant-temperature controller to a domestic air conditioning system, so that a user can effectively and intelligently control the domestic air conditioning system through the Nest constant-temperature controller, to realize control signal connection between the constant-temperature controller and the infrared remotely controlled equipment.

Description

A kind of adaptive device of radiator valve

Technical field

The present invention relates to a kind of electrical equipment, particularly relate to a kind of electrical equipment relevant to radiator valve.

Background technology

Radiator valve (Thermostat) be also wind blower coil tube temperature controller, is the control parts of central air-conditioning, in all uses All there is use in the place of central air-conditioning.Current Nest company is proposed a NestLearning Thermostat that is called and (is called for short " Nest ") radiator valve, be a Intelligent constant-temperature controller, it can automatically control heating installation, ventilation and air regulation set Standby (such as air-conditioning, electric heater etc.), allow the constant temperature set at you of indoor temperature.

Nest is built-in polytype sensor, can indoor temperature, humidity, light and the constant temperature control of continual monitoring Whether the environmental change around device processed, have people's (whether having movement), and decide whether to open with this during such as it may determine that room Temperature control equipment, and can learn and remember daily work and rest custom and the temperature hobby of user, algorithm can be utilized to automatically generate one The individual plan of establishment, as long as your living habit does not change, you are no longer needed for manually arranging Nest radiator valve；With Family is referred to as the most intelligent and the most beautiful radiator valve, and therefore this radiator valve is fast-selling in American-European countries, uses It is profuse in praise by family.

But, this radiator valve at home because of air-conditioning majority is fluorine machine system rather than the most general water machine system, at Nest On interface between radiator valve and air conditioner completely different, so this perfect Nest radiator valve of intelligence is the most temporary Shi Wufa uses.But due to this product design, performance high-end, though a lot of domestic user yearn for very much can only hope and Step.

Summary of the invention

The technical problem to be solved is to provide the adaptive device of a kind of uniqueness, it is possible to by Nest radiator valve effectively It is connected to domestic air conditioning system so that user can pass through the air-conditioning system that Nest radiator valve Based Intelligent Control is domestic effectively System, it is achieved radiator valve docks with the control signal of infrared remote control controlled plant.

In order to solve this technical problem, the technical solution used in the present invention is as follows:

The adaptive device of a kind of radiator valve, including alternating current sampling circuit, infrared learning circuit, infrared transmitting circuit and monolithic Machine control circuit；

Described alternating current sampling circuit, is connected with the control signal outfan of described single chip machine controlling circuit and radiator valve respectively, Gather the AC controling signal of described radiator valve output, export to described single chip machine controlling circuit；

Described infrared learning circuit, is connected with described single chip machine controlling circuit, can receive described controlled plant correspondence IR remote controller The infrared remote-controlled signal sent, exports to described single chip machine controlling circuit；

Described single chip machine controlling circuit, first receives the laggard line number of infrared remote-controlled signal that controlled plant correspondence IR remote controller sends According to processing and storing；Then the AC controling signal of described radiator valve output is received, with described infrared remote-controlled signal one by one Matching processing；Then, when receiving the AC controling signal of described radiator valve output, coupling transfers correspondence in real time Infrared remote-controlled signal data, send corresponding infrared remote-controlled signal by described infrared transmitting circuit to described controlled plant；

Described infrared transmitting circuit, is connected with described single chip machine controlling circuit, is sent out described infrared remote-controlled signal.

More preferably, the concrete structure of described alternating current sampling circuit is: two signal input parts of optocoupler Q1 connect described radiator valve Control signal outfan a end, b end, series resistor R1 between the signal input part of wherein said a end and described optocoupler Q1, One end of optocoupler Q1 signal cathode output end connecting resistance R2, resistance R2 another termination outfan c, outfan c and described monolithic Machine control circuit connects, and the control signal to the described radiator valve of described single chip machine controlling circuit output collection supplies at single-chip microcomputer Reason, resistance R3 mono-terminates low-tension supply VDD, it is provided that signal pull-up level, resistance R3 another termination signal output part c, electric capacity C1 mono-terminates signal output part c, and the electric capacity c1 other end is connected on the cathode output end of optocoupler Q1, and the cathode output end of optocoupler Q1 connects Power supply ground.

The concrete structure of described infrared learning circuit is: the power positive end of infrared receiving terminal M1 and power supply ground end between and connect electricity Solve electric capacity C2 and ceramic disc capacitor C3, infrared receiving terminal M1 data termination ceramic disc capacitor C4 one end, another termination of ceramic disc capacitor C4 Power supply ground, the other end e point of the data terminal series resistor R5, resistance R5 of infrared receiving terminal M1 connects single chip circuit.Infrared When learning circuit is operated in learning state, infrared learning circuit receives the infrared remote-controlled signal of IR remote controller, inputs single-chip microcomputer control Processing of circuit processed, carries out infrared remote-controlled signal data storage and analysis.

The concrete structure of described infrared transmitting circuit is: this infrared transmitting circuit includes a driving audion Q2, described single-chip microcomputer Circuit output signal is to the d point of infrared transmitting circuit, and d point is the base stage driving audion Q2, drives the colelctor electrode of audion Q2 Ground connection, drives the negative electrode that the emitter stage of audion Q2 connects infrared diode D1, and the anode of infrared diode D1 connects resistance R4, The other end of resistance R4 is connected with positive source VDD.When single chip circuit 3 output comprises the control ripple of infrared control signal data During shape, form certain infrared control signal launching power by infrared transmitting circuit 4, control controlled plant.

The present invention combines alternating current sampling circuit, single chip machine controlling circuit, infrared transmitting circuit and infrared learning circuit dexterously, It is achieved thereby that the control signal of distinct for interface Nest radiator valve and Domestic Air-condition system is docked so that domestic Air conditioning system can be efficiently used Nest radiator valve.

Because Nest radiator valve output control signal be exchange 24V, so we with alternating current sampling circuit sample, The control signal of discriminatory analysis radiator valve output.

In using, we first open the IR remote controller that infrared controlled plant is corresponding, send infrared remote-controlled signal, and open this The infrared learning circuit of bright adaptive device, receives infrared remote-controlled signal that described IR remote controller sends to described Single-chip Controlling electricity Road exports；Described single chip machine controlling circuit processes by analysis by the AC controling signal of radiator valve and described infrared remote control Signal mates one by one, stores；Then, when normally working, at the AC controling signal receiving the output of described radiator valve Time, coupling transfers the infrared remote-controlled signal data of correspondence in real time, by described infrared transmitting circuit to described controlled plant Send corresponding infrared remote-controlled signal；Thus achieved dexterously by Nest radiator valve because of control by the adaptive device of the present invention Completely different and the inapplicable controlled plant of native interface processed.

Accompanying drawing explanation

For the above-mentioned purpose of the present invention, feature and advantage can be become apparent, below in conjunction with accompanying drawing, the present invention is embodied as Mode elaborates, wherein:

Fig. 1 is the structural representation of the adaptive device of radiator valve of the present invention；

Fig. 2 is the structural representation of alternating current sampling circuit；

Fig. 3 is the structural representation of infrared transmitting circuit；

Fig. 4 is the structural representation of infrared learning circuit.

In figure:

1, radiator valve 2, alternating current sampling circuit 3, single chip machine controlling circuit

4, infrared transmitting circuit 5, infrared learning circuit

Detailed description of the invention

Below in conjunction with drawings and Examples, the present invention is described in further detail:

Fig. 1 shows the adaptive device of a kind of radiator valve, can realize the control of radiator valve 1 and infrared remote control controlled plant Signal processed docks, including alternating current sampling circuit 2, infrared learning circuit 5, infrared transmitting circuit 4 and single chip machine controlling circuit 3；

Described alternating current sampling circuit 2, the control signal outfan with described single chip machine controlling circuit 3 and radiator valve 1 connects respectively Connect, gather the AC controling signal of described radiator valve 1 output, export to described single chip machine controlling circuit 3；

Fig. 2 shows that the one of alternating current sampling circuit 2 is embodied as structure, and two signal input parts of optocoupler Q1 connect described constant temperature The control signal outfan a end of controller 1 (Nest radiator valve), b end, wherein said a end is with described optocoupler Q1's Series resistor R1 between signal input part, one end of optocoupler Q1 signal cathode output end connecting resistance R2, another termination of resistance R2 is defeated Going out to hold c (AC controling signal outfan), outfan c is connected with described single chip machine controlling circuit 3, to described Single-chip Controlling The control signal of the described radiator valve 1 that circuit 3 output gathers processes for single-chip microcomputer, and resistance R3 mono-terminates low-tension supply VDD, Signal pull-up level, resistance R3 another termination signal output part c, electric capacity c1 mono-is provided to terminate signal output part c, electric capacity c1 The other end is connected on the cathode output end of optocoupler Q1, and the cathode output end of optocoupler Q1 connects power supply ground.

Certainly, above-mentioned alternating current sampling circuit 2 can also use other version existing, as long as can complete from radiator valve Control signal outfan gather AC controling signal, export to described single chip machine controlling circuit 3.

Described infrared learning circuit 5, is connected with described single chip machine controlling circuit 3, can receive described controlled plant correspondence infrared remote control The infrared remote-controlled signal that device sends, exports to described single chip machine controlling circuit 3.

Fig. 4 shows the concrete structure of the infrared learning circuit 5 of a kind of embodiment, the power positive end of infrared receiving terminal M1 and Power supply ground end between and meet electrochemical capacitor C2 and ceramic disc capacitor C3, infrared receiving terminal M1 data terminal 3 meets ceramic disc capacitor C4 mono- End, another termination power ground of ceramic disc capacitor C4, another of the data terminal 3 series resistor R5, resistance R5 of infrared receiving terminal M1 End e point connects single chip circuit.When infrared learning circuit 5 is operated in learning state, infrared learning circuit 5 receives infrared remote control The infrared remote-controlled signal of device, input single chip machine controlling circuit 3 processes, and carries out infrared remote-controlled signal data storage and analysis.

Certainly, above-mentioned infrared learning circuit 5 can also use other version existing, as long as can complete to receive infrared remote control The infrared remote-controlled signal that device sends, exports to described single chip machine controlling circuit 3.

Described single chip machine controlling circuit 3, first receives the infrared remote-controlled signal that described controlled plant correspondence IR remote controller sends laggard Row data process and store；Then the AC controling signal of described radiator valve 1 output is received, with described infrared remote control letter Number carry out one_to_one corresponding matching treatment；Then, in work, at the AC controling signal receiving the output of described radiator valve 1 Time, coupling transfers the infrared remote-controlled signal data of correspondence in real time, controlled is set to described by described infrared transmitting circuit 4 Preparation send the infrared remote-controlled signal of correspondence；

Described infrared transmitting circuit 4, is connected with described single chip machine controlling circuit 3, is sent out described infrared remote-controlled signal.

Fig. 3 shows the concrete structure of the infrared transmitting circuit 4 of a kind of embodiment, and this infrared transmitting circuit 4 includes a driving Audion Q2, single chip circuit 3 exports 38KHz carrier signal (comprising infrared control signal data) to infrared transmitting circuit 4 D point, d point be drive audion Q2 base stage, drive audion Q2 grounded collector, drive audion Q2 transmitting Pole connects the negative electrode of infrared diode D1, and the anode of infrared diode D1 connects resistance R4, and the other end of resistance R4 is with power supply just Pole VDD is connected.When single chip circuit 3 output comprises the control waveform of infrared control signal data, by infrared transmitting circuit 4 Form certain infrared control signal launching power, control controlled plant.

So infrared transmitting circuit 4 just can be when Nest radiator valve 1 opens control, infrared remote control letter correspondence learnt Number carry out launching output, thus complete the operation of the infrared controlled plant the most incompatible with Nest radiator valve is controlled.

Certainly, above-mentioned infrared transmitting circuit 4 can also use other version existing, as long as can complete to receive from single-chip microcomputer The infrared control signal data of circuit 3 output, are sent out the infrared remote-controlled signal of correspondence.

The above, the only detailed description of the invention of the present invention, but protection scope of the present invention is not limited thereto, and any familiar Those skilled in the art, in the technical scope that the invention discloses, can readily occur in change or replace, should contain at this Within the protection domain of invention.Therefore, protection scope of the present invention should described be as the criterion with scope of the claims.

Claims (5)

1. the adaptive device of a radiator valve, it is characterised in that: include alternating current sampling circuit, infrared learning circuit, infrared emission Circuit and single chip machine controlling circuit；

Described alternating current sampling circuit, is connected with the control signal outfan of described single chip machine controlling circuit and radiator valve respectively, Gather the AC controling signal of described radiator valve output, export to described single chip machine controlling circuit；

Described infrared learning circuit, is connected with described single chip machine controlling circuit, can receive described controlled plant correspondence infrared remote control The infrared remote-controlled signal that device sends, exports to described single chip machine controlling circuit；

Described single chip machine controlling circuit, is carried out after first receiving the infrared remote-controlled signal that controlled plant correspondence IR remote controller sends Data process and store；Then the AC controling signal of described radiator valve output is received, with described infrared remote-controlled signal One_to_one corresponding matching treatment；Then, when receiving the AC controling signal of described radiator valve output, tune is mated in real time Take the infrared remote-controlled signal data of correspondence, send the infrared of correspondence by described infrared transmitting circuit to described controlled plant Remote signal；

Described infrared transmitting circuit, is connected with described single chip machine controlling circuit, is sent out described infrared remote-controlled signal.

The adaptive device of radiator valve the most according to claim 1, it is characterised in that: the concrete knot of described alternating current sampling circuit Structure is: two signal input parts of optocoupler Q1 meet the control signal outfan a end of described radiator valve, b end, Qi Zhongsuo State series resistor R1 between the signal input part of a end and described optocoupler Q1, optocoupler Q1 signal cathode output end connecting resistance R2 One end, resistance R2 another termination outfan c, outfan c be connected with described single chip machine controlling circuit, to described single-chip microcomputer The control signal of the described radiator valve that control circuit output gathers processes for single-chip microcomputer, and resistance R3 mono-terminates low-tension supply VDD, it is provided that signal pull-up level, resistance R3 another termination signal output part c, electric capacity c1 mono-terminate signal output part c, The electric capacity c1 other end is connected on the cathode output end of optocoupler Q1, and the cathode output end of optocoupler Q1 connects power supply ground.

The adaptive device of radiator valve the most according to claim 1 and 2, it is characterised in that: described infrared learning circuit Concrete structure is: the power positive end of infrared receiving terminal M1 and power supply ground end between and meet electrochemical capacitor C2 and ceramic disc capacitor C3, Infrared receiving terminal M1 data termination ceramic disc capacitor C4 one end, another termination power ground of ceramic disc capacitor C4, infrared receiving terminal M1 The other end e point of data terminal series resistor R5, resistance R5 connect single chip circuit.

The adaptive device of radiator valve the most according to claim 1 and 2, it is characterised in that: described infrared transmitting circuit Concrete structure is: this infrared transmitting circuit includes a driving audion Q2, and described single chip circuit outputs signal to infrared emission The d point of circuit, d point is the base stage driving audion Q2, drives the grounded collector of audion Q2, drives audion Q2 Emitter stage connect the negative electrode of infrared diode D1, the anode of infrared diode D1 connects another of resistance R4, resistance R4 End is connected with positive source VDD.

The adaptive device of radiator valve the most according to claim 3, it is characterised in that: described infrared transmitting circuit concrete Structure is: this infrared transmitting circuit includes a driving audion Q2, and described single chip circuit outputs signal to infrared transmitting circuit D point, d point be drive audion Q2 base stage, drive audion Q2 grounded collector, drive audion Q2 send out Emitter-base bandgap grading connects the negative electrode of infrared diode D1, and the anode of infrared diode D1 connects resistance R4, the other end of resistance R4 with Positive source VDD is connected.