CN103375836B - Solar energy and condensing gas wall hanging stove combined heating system and intelligent control method - Google Patents

Abstract

The invention belongs to heating equipment technical field, disclose a kind of solar energy and condensing gas wall hanging stove combined heating system and intelligent control method, said system, primarily of solar thermal collector, hot water storage tank, burnt gas wall hanging furnace, heat exchanger, domestic hot-water supply system, heating hot water supply system and heating intelligence control system composition, additionally provides a kind of intelligent control method controlling said system simultaneously.This solar energy and condensing gas wall hanging stove combined heating system have environmental protection, energy-conservation, free of contamination feature, and achieve automatic intelligent control and Long-distance Control by heating intelligence control system, make it convenient to use.

Description

Solar energy and condensing gas wall hanging stove combined heating system and intelligent control method

Technical field:

The present invention relates to heating system, particularly a kind of solar energy and condensing gas wall hanging stove combined heating system and intelligent control method.

Background technology:

Along with developing rapidly of national economy, development strategy new industry, Promoting Industrial structural adjustment, particularly wants propulsion energy-saving emission reduction work, carries out low-carbon economy, accelerates the construction of energy-conserving and environment-protective key project, becomes the Bi Youzhi road of Chinese Economy Development.At northern wide geographic area, heat supply in winter energy consumption accounts for more than 20% of social total energy consumption.Solar energy is as a kind of green energy resource of clean environment firendly, every square metre of annual alternative standard coal 150 kilograms of solar thermal collector, be equivalent to economize on electricity 417 degree, the emissions 170 kilograms such as carbon dioxide, sulfur dioxide, dust can be reduced, therefore widely popularize at northern area the outstanding advantage that solar heating not only has low energy consumption, no pollution, the contradiction of energy shortage and environmental pollution can also be solved.

At present, solar energy heating system is on the market made up of roof solar collecting system, hold over system, electric heating system, tracing system, control system and cooling system etc., because the unreasonable of its structure causes existing solar energy heating system to have following deficiency: one, traditional heat dissipation of terminal systems most adopts radiator and ground hot coil, the heating temperature that this heat radiation terminal needs at least will reach more than 60 DEG C, just can have good heating effect; And there is no automatic temperature control function and timing function, water temperature is low, and Indoor Thermal does not get up, hot can't stand that water temperature is high.Two, the hot water of solar thermal collection system institute thermal-arrest, first wants the water in heat storage cistern system, when the water temperature in hot water storage tank reaches heating temperature, could utilize solar-heating, greatly reduce the utilization rate of solar energy.Three, when daytime solar energy heat-collecting temperature do not reach heating temperature, or when the moon avenges weather continuously, heating needs to start the electric heating system be inserted on hot water storage tank, the power of electric heating tube is very large, need the electric energy of at substantial, the operating cost of electric heating tube at least will account for more than 80% of whole heating cost, so not energy-conservation.Four, outdoor heat supplying pipeline needs electrical heating to carry out antifreeze as tracing system, also needs the electric energy of at substantial.Although five, control system can realize automatic control, solar-heating can not be made full use of according to the change Optimal Parameters of weather and temperature.So this solar energy heat distribution system does not obtain real application in northern frore area.

Summary of the invention:

In view of this, be necessary to provide one to raise the efficiency, economize energy, flexibility is strong and control simple solar energy and condensing gas wall hanging stove combined heating system.This system is primarily of solar thermal collector, hot water storage tank, burnt gas wall hanging furnace, heat exchanger, domestic hot-water supply system, heating hot water supply system and heating intelligence control system composition.

Solar energy and condensing gas wall hanging stove united heat intelligence control system also comprise intelligent controller, the first temperature sensor be arranged in solar thermal collector, the second temperature sensor being arranged on indoor, the three-temperature sensor be arranged in hot water storage tank, the reception remote control signal receiver being arranged on intelligent controller and remote input commander equipment.

Solar thermal collector, heat exchanger are communicated with by circulating water pipe with hot water storage tank, and the circulating water pipe leading to solar thermal collector from hot water storage tank installs solar thermal collector circulating pump and magnetic valve.

Burnt gas wall hanging furnace adopts tandem to be connected with heat exchanger.

The control end of intelligent controller is connected with the controller signals of solar thermal collector circulating pump, magnetic valve and burnt gas wall hanging furnace respectively, intelligent controller is also connected with power supply through AC/DC converter, simultaneously, intelligent controller also installs a reception remote control signal receiver, in conjunction with utilizing Internet information technique, realize Long-distance Control intelligent controller, thus reach the object of Long-distance Control solar energy and condensing gas wall hanging stove united heat intelligence control system.

Above-mentioned reception remote control signal receiver has the receiver module receiving network signal, thus is convenient to the instruction of the control indoor temperature receiving the transmission of remote input commander equipment.

Above-mentioned remote input commander equipment is specially remote computer, also can be communication tool.

There is a need to provide a kind of solar energy and condensing gas wall hanging stove united heat intelligent control method, the method is applied in the solar energy and condensing gas wall hanging stove united heat intelligence control system comprising solar thermal collector, hot water storage tank, burnt gas wall hanging furnace, heat exchanger, domestic hot-water supply system, heating hot water supply system and heating intelligence control system, and the method comprises the following steps:

A: the control method of heating mode;

A1: solar water container temperature sensor detects that in solar thermal collector, the temperature of water is transferred to Based Intelligent Control, judge that the temperature detected is greater than the maximum in the preset temperature interval of heating temperature by intelligent controller, indoor temperature transmitter detects that indoor temperature is transferred to intelligent controller, intelligent controller judges by contrast the maximum being greater than the preset temperature interval of heating temperature, controller transfer instruction is to solar energy circulating pump, magnetic valve, wall-hung boiler and wall-hung boiler circulating pump, make solar energy circulation pump, closed electromagnetic valve, wall-hung boiler switch cuts out, wall-hung boiler pump operating cycle,

A2: solar water container temperature sensor detects that in solar thermal collector, the temperature of water is transferred to Based Intelligent Control, judge that the temperature detected is greater than the maximum in the preset temperature interval of heating temperature by intelligent controller, indoor temperature transmitter detects that indoor temperature is transferred to intelligent controller, the temperature that obtains is detected in the interval range in preset temperature interval by intelligent controller discriminatory analysis, controller transfer instruction is to solar energy circulating pump, magnetic valve, wall-hung boiler and wall-hung boiler circulating pump, solar energy circulating pump and magnetic valve are opened, wall-hung boiler is closed, wall-hung boiler pump operating cycle,

A3: solar water container temperature sensor detects that in solar thermal collector, the temperature of water is transferred to Based Intelligent Control, judge that the temperature detected is greater than the preset temperature interval of heating temperature by intelligent controller, indoor temperature transmitter detects that indoor temperature is transferred to intelligent controller, the minimum of a value that the temperature obtained is less than the interval in preset temperature interval is detected by intelligent controller discriminatory analysis, controller transfer instruction is to solar energy circulating pump, magnetic valve, wall-hung boiler and wall-hung boiler circulating pump, solar energy circulating pump is opened, magnetic valve is opened, solar energy pump operating cycle, wall-hung boiler switch cuts out, wall-hung boiler pump operating cycle,

A4: solar water container temperature sensor detects that in solar thermal collector, the temperature of water is transferred to Based Intelligent Control, the temperature that obtains is detected in the interval range in preset temperature interval by intelligent controller discriminatory analysis, indoor temperature transmitter detects that indoor temperature is transferred to intelligent controller, the maximum that the temperature obtained is greater than the preset temperature interval of heating temperature is detected by intelligent controller discriminatory analysis, controller transfer instruction is to solar energy circulating pump, magnetic valve, wall-hung boiler and wall-hung boiler circulating pump, solar energy circulation pump, closed electromagnetic valve, wall-hung boiler switch cuts out, wall-hung boiler pump operating cycle,

A5: solar water container temperature sensor detects that in solar thermal collector, the temperature of water is transferred to Based Intelligent Control, the temperature that obtains is detected in the interval range in preset temperature interval by intelligent controller discriminatory analysis, indoor temperature transmitter detects that indoor temperature is transferred to intelligent controller, the temperature that obtains is detected in the interval range in preset temperature interval by intelligent controller discriminatory analysis, controller transfer instruction is to solar energy circulating pump, magnetic valve, wall-hung boiler and wall-hung boiler circulating pump, make solar energy circulation pump, closed electromagnetic valve, wall-hung boiler is closed, wall-hung boiler pump operating cycle,

A6: solar water container temperature sensor detects that in solar thermal collector, the temperature of water is transferred to Based Intelligent Control, the temperature that obtains is detected in the interval range in preset temperature interval by intelligent controller discriminatory analysis, indoor temperature transmitter detects that indoor temperature is transferred to intelligent controller, the minimum of a value that the temperature obtained is less than preset temperature interval is detected by intelligent controller discriminatory analysis, controller transfer instruction is to solar energy circulating pump, magnetic valve, wall-hung boiler and wall-hung boiler circulating pump, solar energy circulating pump is opened, magnetic valve is opened, solar energy pump operating cycle, wall-hung boiler switch cuts out, wall-hung boiler pump operating cycle,

A7: solar water container temperature sensor detects that in solar thermal collector, the temperature of water is transferred to Based Intelligent Control, the minimum of a value that the temperature obtained is less than preset temperature interval is detected by intelligent controller discriminatory analysis, indoor temperature transmitter detects that indoor temperature is transferred to intelligent controller, the maximum that the temperature obtained is greater than preset temperature interval is detected by intelligent controller discriminatory analysis, controller transfer instruction is to solar energy circulating pump, magnetic valve, wall-hung boiler and wall-hung boiler circulating pump, make solar energy circulation pump, closed electromagnetic valve, wall-hung boiler switch cuts out, wall-hung boiler pump operating cycle,

A8: solar water container temperature sensor detects that in solar thermal collector, the temperature of water is transferred to Based Intelligent Control, the minimum of a value that the temperature obtained is less than preset temperature interval is detected by intelligent controller discriminatory analysis, indoor temperature transmitter detects that indoor temperature is transferred to intelligent controller, the temperature that obtains is detected in preset temperature interval range by intelligent controller discriminatory analysis, controller transfer instruction is to solar energy circulating pump, magnetic valve, wall-hung boiler and wall-hung boiler circulating pump, make solar energy circulation pump, closed electromagnetic valve, wall-hung boiler switch cuts out, wall-hung boiler pump operating cycle,

A9: solar water container temperature sensor detects that in solar thermal collector, the temperature of water is transferred to Based Intelligent Control, the minimum of a value that the temperature obtained is less than preset temperature interval is detected by intelligent controller discriminatory analysis, indoor temperature transmitter detects that indoor temperature is transferred to intelligent controller, the minimum of a value that the temperature obtained is less than preset temperature interval is detected by intelligent controller discriminatory analysis, controller transfer instruction is to solar energy circulating pump, magnetic valve, wall-hung boiler and wall-hung boiler circulating pump, make solar energy circulation pump, closed electromagnetic valve, wall-hung boiler switch open, wall-hung boiler water pump operation,

B: the control method of bathroom pattern;

B1: close at wall-hung boiler, in bathroom mode switching signal situation, intelligent controller receives the signal that bathroom pattern is opened, now, transfer instruction makes triple valve open, in heating mode situation, intelligent controller receives the signal that heating mode is opened, now, triple valve is closed, thus ensures that bathroom mode prioritization is run;

B2: when wall-hung boiler is opened, cuts off all controllers and controls wall-hung boiler associated control signal (namely cut off all controllers and control wall-hung boiler circulating pump and triple valve), itself controlled by wall-hung boiler system.

The invention provides a kind of heating system utilizing regenerative resource to warm oneself, adopt solar thermal collector and burnt gas wall hanging furnace to combine heating, utilize solar energy regenerative resource to replace non-regeneration energy heating, there is environmental protection, energy-conservation, free of contamination feature.In the hot water input hot water storage tank that solar thermal collector produces, can provide have a bath, wash dish, the domestic water such as to cook, but also can heating of house be provided.When the hot water temperature that winter or low, the solar thermal collector of temperature at night produce is inadequate, can also combustion heater be started, ensure the lasting heating of winter and indoor round the clock.Intelligent controller is by the temperature signal of hot water storage tank temperature sensor, indoor temperature transmitter, solar thermal collector temperature sensor feedback, intelligent controller sends the instruction starting or stoping solar thermal collector circulating pump, magnetic valve, whether the controller simultaneously feeding back to burnt gas wall hanging furnace starts or stops work, further by utilizing Internet technology to send the instruction of adjustment temperature to remote control signal receiver, realize Long-distance Control intelligent controller, thus reach the object of Long-distance Control.

Accompanying drawing illustrates:

Accompanying drawing 1 is the solar energy of a better embodiment and the structural representation of condensing gas wall hanging stove combined heating system.

Detailed description of the invention:

By reference to the accompanying drawings, the present invention will be further described, and solar energy and condensing gas wall hanging stove combined heating system form primarily of solar thermal collector, hot water storage tank, burnt gas wall hanging furnace, heat exchanger, domestic hot-water supply system, heating hot water supply system and the intelligence control system that heats.

Solar energy and condensing gas wall hanging stove united heat intelligence control system also comprise intelligent controller, the first temperature sensor be arranged in solar thermal collector, the second temperature sensor being arranged on indoor, the three-temperature sensor be arranged in hot water storage tank, the reception remote control signal receiver being arranged on intelligent controller and remote input commander equipment.

Solar thermal collector, heat exchanger are communicated with by circulating water pipe with hot water storage tank, and the circulating water pipe leading to solar thermal collector from hot water storage tank installs solar thermal collector circulating pump and magnetic valve.

Burnt gas wall hanging furnace is connected with heat exchanger tandem.

Solar water container temperature sensor is installed in solar thermal collector, in house, indoor temperature transmitter is installed, water tank temperature sensor is installed in hot water storage tank, above-mentioned three temperature sensors are connected with intelligent controller through signal transmission line, the control end of intelligent controller respectively with solar thermal collector circulating pump, magnetic valve is connected with the controller signals of burnt gas wall hanging furnace, intelligent controller is also connected with power supply through DC-AC converter, simultaneously, intelligent controller is also installed one and is accepted remote control signal receiver, utilize Internet technology, realize Long-distance Control intelligent controller, thus reach the object of Long-distance Control solar energy and condensing gas wall hanging stove combined heating system.

There is a need to provide a kind of Based Intelligent Control to operate the intelligent control method of solar energy and condensing gas wall hanging stove combined heating system, first, solar thermal collector and burnt gas wall hanging furnace unlatching or close by intelligence control system that interval temperature and indoor temperature with detecting water in the solar thermal collector that obtains contrasts the signal instruction after judging and decide according to setting heating temperature.One preferred embodiment illustrates: controller setting heating temperature interval is 45-60 DEG C, further illustrate: said system comprises domestic hot-water supply system and heating hot water supply system, domestic hot-water supply system is the same with the control method of heating hot water supply system, heating mode and bathroom pattern etc. can be divided into, its reduced parameter is different with temperature range, heating mode, bathroom pattern, only there is one in the two same time, its intelligent control method comprises step:

A: the control method of heating mode.

A1: solar water container temperature sensor detects that in solar thermal collector, the temperature of water is transferred to intelligent controller, judge that the temperature detected is greater than 60 DEG C by intelligent controller, indoor temperature transmitter detects that indoor temperature is transferred to intelligent controller, intelligent controller is greater than 60 DEG C by contrast judgement, controller transfer instruction, to solar energy circulating pump, magnetic valve, wall-hung boiler and wall-hung boiler circulating pump, makes the closedown of solar energy circulation pump, closed electromagnetic valve, wall-hung boiler switch, wall-hung boiler pump operating cycle.

A2: solar water container temperature sensor detects that in solar thermal collector, the temperature of water is transferred to Based Intelligent Control, judge that the temperature detected is greater than 60 DEG C by intelligent controller, indoor temperature transmitter detects that indoor temperature is transferred to intelligent controller, the temperature that obtains is detected in the interval range of 45-60 DEG C by intelligent controller discriminatory analysis, controller transfer instruction, to solar energy circulating pump, magnetic valve, wall-hung boiler and wall-hung boiler circulating pump, makes that solar energy circulating pump and magnetic valve are opened, wall-hung boiler is closed, wall-hung boiler pump operating cycle;

A3: solar water container temperature sensor detects that in solar thermal collector, the temperature of water is transferred to Based Intelligent Control, judge that the temperature detected is greater than 60 DEG C by intelligent controller, indoor temperature transmitter detects that indoor temperature is transferred to intelligent controller, detect by intelligent controller discriminatory analysis the temperature obtained and be less than 45 DEG C, controller transfer instruction, to solar energy circulating pump, magnetic valve, wall-hung boiler and wall-hung boiler circulating pump, makes the unlatching of solar energy circulating pump, magnetic valve unlatching, the closedown of solar energy pump operating cycle, wall-hung boiler switch, wall-hung boiler pump operating cycle;

A4: solar water container temperature sensor detects that in solar thermal collector, the temperature of water is transferred to Based Intelligent Control, the temperature that obtains is detected within the scope of 45-60 DEG C by intelligent controller discriminatory analysis, indoor temperature transmitter detects that indoor temperature is transferred to intelligent controller, detect by intelligent controller discriminatory analysis the temperature obtained and be greater than 60 DEG C, controller transfer instruction is to solar energy circulating pump, magnetic valve, wall-hung boiler and wall-hung boiler circulating pump, solar energy circulation pump, closed electromagnetic valve, wall-hung boiler switch cuts out, wall-hung boiler pump operating cycle;

A5: solar water container temperature sensor detects that in solar thermal collector, the temperature of water is transferred to Based Intelligent Control, the temperature that obtains is detected within the scope of 45-60 DEG C by intelligent controller discriminatory analysis, indoor temperature transmitter detects that indoor temperature is transferred to intelligent controller, the temperature that obtains is detected within the scope of 45-60 DEG C by intelligent controller discriminatory analysis, controller transfer instruction, to solar energy circulating pump, magnetic valve, wall-hung boiler and wall-hung boiler circulating pump, makes the closedown of solar energy circulation pump, closed electromagnetic valve, wall-hung boiler, wall-hung boiler pump operating cycle;

A6: solar water container temperature sensor detects that in solar thermal collector, the temperature of water is transferred to Based Intelligent Control, the temperature that obtains is detected within the scope of 45-60 DEG C by intelligent controller discriminatory analysis, indoor temperature transmitter detects that indoor temperature is transferred to intelligent controller, detect by intelligent controller discriminatory analysis the temperature obtained and be less than 45 DEG C, controller transfer instruction is to solar energy circulating pump, magnetic valve, wall-hung boiler and wall-hung boiler circulating pump, solar energy circulating pump is opened, magnetic valve is opened, solar energy pump operating cycle, wall-hung boiler switch cuts out, wall-hung boiler pump operating cycle,

A7: solar water container temperature sensor detects that in solar thermal collector, the temperature of water is transferred to Based Intelligent Control, detect by intelligent controller discriminatory analysis the temperature obtained and be less than 45 DEG C, indoor temperature transmitter detects that indoor temperature is transferred to intelligent controller, detect by intelligent controller discriminatory analysis the temperature obtained and be greater than 60 DEG C, controller transfer instruction, to solar energy circulating pump, magnetic valve, wall-hung boiler and wall-hung boiler circulating pump, makes the closedown of solar energy circulation pump, closed electromagnetic valve, wall-hung boiler switch, wall-hung boiler pump operating cycle;

A8: solar water container temperature sensor detects that in solar thermal collector, the temperature of water is transferred to Based Intelligent Control, detect by intelligent controller discriminatory analysis the temperature obtained and be less than 45 DEG C, indoor temperature transmitter detects that indoor temperature is transferred to intelligent controller, the temperature that obtains is detected within the scope of 45-60 DEG C by intelligent controller discriminatory analysis, controller transfer instruction, to solar energy circulating pump, magnetic valve, wall-hung boiler and wall-hung boiler circulating pump, makes the closedown of solar energy circulation pump, closed electromagnetic valve, wall-hung boiler switch, wall-hung boiler pump operating cycle;

A9: solar water container temperature sensor detects that in solar thermal collector, the temperature of water is transferred to Based Intelligent Control, detect by intelligent controller discriminatory analysis the temperature obtained and be less than 45 DEG C, indoor temperature transmitter detects that indoor temperature is transferred to intelligent controller, detect by intelligent controller discriminatory analysis the temperature obtained and be less than 45 DEG C, controller transfer instruction, to solar energy circulating pump, magnetic valve, wall-hung boiler and wall-hung boiler circulating pump, makes solar energy circulation pump, closed electromagnetic valve, wall-hung boiler switch open, wall-hung boiler water pump operation;

B: the control method of bathroom pattern;

B1: close at wall-hung boiler, in bathroom mode switching signal situation, intelligent controller receives the signal that bathroom pattern is opened, now, transfer instruction makes triple valve open, in heating mode situation, intelligent controller receives the signal that heating mode is opened, now, triple valve is closed, thus ensures that bathroom mode prioritization is run;

B2: when wall-hung boiler is opened, cuts off all controllers and controls wall-hung boiler associated control signal (namely cut off all controllers and control wall-hung boiler circulating pump and triple valve), itself controlled by wall-hung boiler system.

The invention provides a kind of heating system utilizing regenerative resource to warm oneself, adopt solar thermal collector and burnt gas wall hanging furnace to combine heating, utilize solar energy regenerative resource to replace non-regeneration energy heating, there is environmental protection, energy-conservation, free of contamination feature.In the hot water input hot water storage tank that solar thermal collector produces, can provide have a bath, wash dish, the domestic water such as to cook, but also can heating of house be provided.When the hot water temperature that winter or low, the solar thermal collector of temperature at night produce is inadequate, can also combustion heater be started, ensure the lasting heating of winter and indoor round the clock.Intelligent controller is by the temperature signal of hot water storage tank temperature sensor, indoor temperature transmitter, solar thermal collector temperature sensor feedback, intelligent controller sends the instruction starting or stoping solar thermal collector circulating pump, magnetic valve, whether the controller simultaneously feeding back to burnt gas wall hanging furnace starts or stops work, further by utilizing Internet technology to send the instruction of adjustment temperature to remote control signal receiver, realize Long-distance Control intelligent controller, thus reach the object of Long-distance Control.

Claims (4)

1. a solar energy and condensing gas wall hanging stove combined heating system, comprise solar thermal collector, hot water storage tank, burnt gas wall hanging furnace, heat exchanger, domestic hot-water supply system, heating hot water supply system and heating intelligence control system, it is characterized in that: solar energy and condensing gas wall hanging stove united heat intelligence control system also comprise intelligent controller, be arranged on the first temperature sensor in solar thermal collector, be arranged on the second indoor temperature sensor, be arranged on the three-temperature sensor in hot water storage tank, be arranged on reception remote control signal receiver and the remote input commander equipment of intelligent controller,

Solar thermal collector, heat exchanger are communicated with by circulating water pipe with hot water storage tank, and the circulating water pipe leading to solar thermal collector from hot water storage tank installs solar thermal collector circulating pump and magnetic valve;

Burnt gas wall hanging furnace adopts tandem to be connected with heat exchanger;

The control end of intelligent controller is connected with the controller signals of solar thermal collector circulating pump, magnetic valve and burnt gas wall hanging furnace respectively, intelligent controller is also connected with power supply through AC/DC converter, simultaneously, intelligent controller also installs a reception remote control signal receiver, in conjunction with utilizing Internet information technique, realize Long-distance Control intelligent controller, thus reach the object of Long-distance Control solar energy and condensing gas wall hanging stove united heat intelligence control system.

2. solar energy as claimed in claim 1 and condensing gas wall hanging stove combined heating system, it is characterized in that: receive remote control signal receiver and there is the receiver module receiving network signal, thus be convenient to the instruction of the control indoor temperature receiving the transmission of remote input commander equipment.

3. solar energy as claimed in claim 1 and condensing gas wall hanging stove combined heating system, is characterized in that: remote input commander equipment is specially remote computer.

4. a kind of intelligent control method of solar energy as claimed in claim 1 and condensing gas wall hanging stove combined heating system, the method is applied in the solar energy and condensing gas wall hanging stove united heat intelligence control system comprising solar thermal collector, hot water storage tank, burnt gas wall hanging furnace, heat exchanger, domestic hot-water supply system, heating hot water supply system and heating intelligence control system, it is characterized in that: the method comprises the following steps:

A: the control method of heating mode;

A1: solar water container temperature sensor detects that in solar thermal collector, the temperature of water is transferred to Based Intelligent Control, judge that the temperature detected is greater than the maximum in the preset temperature interval of heating temperature by intelligent controller, indoor temperature transmitter detects that indoor temperature is transferred to intelligent controller, intelligent controller judges by contrast the maximum being greater than the preset temperature interval of heating temperature, controller transfer instruction is to solar energy circulating pump, magnetic valve, wall-hung boiler and wall-hung boiler circulating pump, make solar energy circulation pump, closed electromagnetic valve, wall-hung boiler switch cuts out, wall-hung boiler pump operating cycle,

A2: solar water container temperature sensor detects that in solar thermal collector, the temperature of water is transferred to Based Intelligent Control, judge that the temperature detected is greater than the maximum in the preset temperature interval of heating temperature by intelligent controller, indoor temperature transmitter detects that indoor temperature is transferred to intelligent controller, the temperature that obtains is detected in the interval range in preset temperature interval by intelligent controller discriminatory analysis, controller transfer instruction is to solar energy circulating pump, magnetic valve, wall-hung boiler and wall-hung boiler circulating pump, solar energy circulating pump and magnetic valve are opened, wall-hung boiler is closed, wall-hung boiler pump operating cycle,

A3: solar water container temperature sensor detects that in solar thermal collector, the temperature of water is transferred to Based Intelligent Control, judge that the temperature detected is greater than the preset temperature interval of heating temperature by intelligent controller, indoor temperature transmitter detects that indoor temperature is transferred to intelligent controller, the minimum of a value that the temperature obtained is less than the interval in preset temperature interval is detected by intelligent controller discriminatory analysis, controller transfer instruction is to solar energy circulating pump, magnetic valve, wall-hung boiler and wall-hung boiler circulating pump, solar energy circulating pump is opened, magnetic valve is opened, solar energy pump operating cycle, wall-hung boiler switch cuts out, wall-hung boiler pump operating cycle,

A4: solar water container temperature sensor detects that in solar thermal collector, the temperature of water is transferred to Based Intelligent Control, the temperature that obtains is detected in the interval range in preset temperature interval by intelligent controller discriminatory analysis, indoor temperature transmitter detects that indoor temperature is transferred to intelligent controller, the maximum that the temperature obtained is greater than the preset temperature interval of heating temperature is detected by intelligent controller discriminatory analysis, controller transfer instruction is to solar energy circulating pump, magnetic valve, wall-hung boiler and wall-hung boiler circulating pump, solar energy circulation pump, closed electromagnetic valve, wall-hung boiler switch cuts out, wall-hung boiler pump operating cycle,

A5: solar water container temperature sensor detects that in solar thermal collector, the temperature of water is transferred to Based Intelligent Control, the temperature that obtains is detected in the interval range in preset temperature interval by intelligent controller discriminatory analysis, indoor temperature transmitter detects that indoor temperature is transferred to intelligent controller, the temperature that obtains is detected in the interval range in preset temperature interval by intelligent controller discriminatory analysis, controller transfer instruction is to solar energy circulating pump, magnetic valve, wall-hung boiler and wall-hung boiler circulating pump, make solar energy circulation pump, closed electromagnetic valve, wall-hung boiler is closed, wall-hung boiler pump operating cycle,

A6: solar water container temperature sensor detects that in solar thermal collector, the temperature of water is transferred to Based Intelligent Control, the temperature that obtains is detected in the interval range in preset temperature interval by intelligent controller discriminatory analysis, indoor temperature transmitter detects that indoor temperature is transferred to intelligent controller, the minimum of a value that the temperature obtained is less than preset temperature interval is detected by intelligent controller discriminatory analysis, controller transfer instruction is to solar energy circulating pump, magnetic valve, wall-hung boiler and wall-hung boiler circulating pump, solar energy circulating pump is opened, magnetic valve is opened, solar energy pump operating cycle, wall-hung boiler switch cuts out, wall-hung boiler pump operating cycle,

A7: solar water container temperature sensor detects that in solar thermal collector, the temperature of water is transferred to Based Intelligent Control, the minimum of a value that the temperature obtained is less than preset temperature interval is detected by intelligent controller discriminatory analysis, indoor temperature transmitter detects that indoor temperature is transferred to intelligent controller, the maximum that the temperature obtained is greater than preset temperature interval is detected by intelligent controller discriminatory analysis, controller transfer instruction is to solar energy circulating pump, magnetic valve, wall-hung boiler and wall-hung boiler circulating pump, make solar energy circulation pump, closed electromagnetic valve, wall-hung boiler switch cuts out, wall-hung boiler pump operating cycle,

A8: solar water container temperature sensor detects that in solar thermal collector, the temperature of water is transferred to Based Intelligent Control, the minimum of a value that the temperature obtained is less than preset temperature interval is detected by intelligent controller discriminatory analysis, indoor temperature transmitter detects that indoor temperature is transferred to intelligent controller, the temperature that obtains is detected in preset temperature interval range by intelligent controller discriminatory analysis, controller transfer instruction is to solar energy circulating pump, magnetic valve, wall-hung boiler and wall-hung boiler circulating pump, make solar energy circulation pump, closed electromagnetic valve, wall-hung boiler switch cuts out, wall-hung boiler pump operating cycle,

A9: solar water container temperature sensor detects that in solar thermal collector, the temperature of water is transferred to Based Intelligent Control, the minimum of a value that the temperature obtained is less than preset temperature interval is detected by intelligent controller discriminatory analysis, indoor temperature transmitter detects that indoor temperature is transferred to intelligent controller, the minimum of a value that the temperature obtained is less than preset temperature interval is detected by intelligent controller discriminatory analysis, controller transfer instruction is to solar energy circulating pump, magnetic valve, wall-hung boiler and wall-hung boiler circulating pump, make solar energy circulation pump, closed electromagnetic valve, wall-hung boiler switch open, wall-hung boiler water pump operation,

B: the control method of bathroom pattern;

B1: close at wall-hung boiler, in bathroom mode switching signal situation, intelligent controller receives the signal that bathroom pattern is opened, now, transfer instruction makes triple valve open, in heating mode situation, intelligent controller receives the signal that heating mode is opened, now, triple valve is closed, thus ensures that bathroom mode prioritization is run;

B2: when wall-hung boiler is opened, cuts off all controllers and controls wall-hung boiler associated control signal, itself controlled by wall-hung boiler system.