CN202083021U - Solar energy, heat pump and wall-mounted gas boiler combined heating device - Google Patents

Solar energy, heat pump and wall-mounted gas boiler combined heating device Download PDF

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Publication number
CN202083021U
CN202083021U CN 201120170983 CN201120170983U CN202083021U CN 202083021 U CN202083021 U CN 202083021U CN 201120170983 CN201120170983 CN 201120170983 CN 201120170983 U CN201120170983 U CN 201120170983U CN 202083021 U CN202083021 U CN 202083021U
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CN
China
Prior art keywords
circuit
heat pump
solar energy
master controller
burnt gas
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CN 201120170983
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Chinese (zh)
Inventor
叶远璋
梁友高
左有辉
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广东万和新电气股份有限公司
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Priority to CN 201120170983 priority Critical patent/CN202083021U/en
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Publication of CN202083021U publication Critical patent/CN202083021U/en

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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B10/00Integration of renewable energy sources in buildings
    • Y02B10/20Solar thermal
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B10/00Integration of renewable energy sources in buildings
    • Y02B10/70Hybrid systems, e.g. uninterruptible or back-up power supplies integrating renewable energies
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/40Solar thermal energy, e.g. solar towers
    • Y02E10/44Heat exchange systems

Abstract

The utility model discloses a solar energy, heat pump and wall-mounted gas boiler combined heating device which comprises a solar heating unit, a water storage tank, a heat pump heating unit and a wall-mounted gas boiler, and also comprises a main controller and an operation panel. A heat exchange coil pipe respectively connected with the solar heating unit, the heat pump heating unit and the wall-mounted gas boiler is arranged in the water storage tank; and the main controller is electrically connected with a main control board of the solar heating unit, a main control board of the heat pump heating unit, a main control board of the wall-mounted gas boiler and the operation panel. The device can effectively overcome the inconvenience that is brought to users for using water and caused by that only when both solar energy and the heat pump can not meet the heating condition, the wall-mounted gas boiler can be started for quickly heating, and the default that after water in a water tank directly contacts with the parts in heating devices, water scale is generated to reduce the service life of each heating device and the water tank, is convenient for users to comfortably use hot water, and effectively increases the service life of each heating device and the water tank.

Description

Solar energy and heat pump and burnt gas wall hanging furnace combination heating plant
Technical field
The utility model relates to the heating plant of a kind of solar energy, heat pump, the use of burnt gas wall hanging furnace multi-energy complementation.
Background technology
Existing heating plant has solar water heater, Teat pump boiler, gas heater, burnt gas wall hanging furnace and electric heater etc., but enhancing along with people's energy-saving and environmental protection consciousness, there is certain defective in the hot water apparatus of these single energy, combustion gas, heat pump assisted solar heating plant have appearred in recent years in succession, the operation principle of existing combustion gas, heat pump assisted solar heating plant: with solar energy is main thermal source, water temperature reaches a certain temperature value startup solar energy in the solar thermal collector if detect, and assists heating otherwise start heat pump.This control can cause the frequent starting of heat pump, thereby can produce heat pump power consumption phenomenon.When solar energy and heat pump do not satisfy heating condition simultaneously, just start combustion gas and assist heating and have only, work as the user like this and make water in a large number, and solar energy and heat pump can satisfy heating condition, at this moment the gas-operated thermal bath facility that has the Fast Heating function is not as starting, the phenomenon that the heat supply deficiency will occur causes the user can not cosily use hot water; The assisted heating device of this heating plant is to export after getting back to water tank after directly water tank centre halfback unboiled water being heated simultaneously, make in the water tank health water with can produce the incrustation scale phenomenon after parts in the assisted heating device contact, thereby reduced the service life of each heater and water tank, for overcoming these defectives, solar energy and heat pump and burnt gas wall hanging furnace combination heating plant are studied.
Summary of the invention
Technical problem to be solved in the utility model is that a kind of solar energy and heat pump and burnt gas wall hanging furnace combination heating plant will be provided, only can overcome effectively all can not to satisfy and to start burnt gas wall hanging furnace under the heating condition and carry out the inconvenience that Fast Heating brings for user's water at solar energy and heat pump, and the water in the water tank directly with in the heater can generation incrustation scale phenomenon reduce the defective in the service life of each heater and water tank behind the parts, makes things convenient for the user cosily to use hot water.
The technical scheme that its technical problem that solves the utility model adopts is: it comprises the solar energy heating unit, storage tank, heat pump unit and burnt gas wall hanging furnace, described solar energy heating unit comprises solar thermal collector, the solar energy air bleeding valve, the solar energy circulating pump, the solar thermal collector water inlet pipe, the solar thermal collector outlet pipe, benefit/leakage fluid dram and solar energy heating unit master control borad, described solar energy circulating pump, benefit/leakage fluid dram is positioned on the solar thermal collector water inlet pipe, described solar energy air bleeding valve is positioned on the solar thermal collector outlet pipe, described heat pump unit comprises heat pump unit master control borad, compressor, evaporimeter, choke valve, described compressor, evaporimeter, choke valve links to each other by pipeline, it is characterized in that it also comprises master controller and guidance panel, be provided with the solar heat-exchange coil pipe in the described storage tank, heat pump heat exchange coil and burnt gas wall hanging furnace heat exchange coil, one end of described heat pump heat exchange coil links to each other with the port of export of compressor, the other end links to each other with the choke valve inlet, one end of described burnt gas wall hanging furnace heat exchange coil links to each other with the hot water outlet of burnt gas wall hanging furnace, the other end links to each other with the heating water inlet of burnt gas wall hanging furnace, one end of described solar heat-exchange coil pipe links to each other with the solar thermal collector outlet pipe, the other end links to each other with the solar thermal collector water inlet pipe, described master controller and solar energy heating unit master control borad, heat pump unit master control borad, burnt gas wall hanging furnace master control borad and guidance panel electrically connect, control signal and water temperature contrast signal and water status signal control solar energy heating unit that described master controller sends over according to guidance panel, the opening and closing of heat pump unit and burnt gas wall hanging furnace, described water temperature contrast signal are that the temperature of water temperature in the storage tank and solar energy heating unit output or setting value are compared the control signal that the back produces.
Described master controller comprises the master controller single chip circuit, the solar energy circulatory mediator temperature sensing circuit that electrically connects with the master controller single chip circuit, ambient temperature detection circuit, the master controller telecommunication circuit, master controller power supply and filter circuit, the master controller reset circuit of SCM, master controller single-chip microcomputer clock circuit, storage tank coolant-temperature gage testing circuit, health discharge testing circuit, circuit is selected in the heating unit combination, the heating unit working control circuit, described ambient temperature detection circuit is used to detect outdoor environment temperature and controls heat pump work according to environment temperature, what described health discharge testing circuit was used to detect the user sends to the heating unit working control circuit with water state and according to the water status signal, described master controller telecommunication circuit is used for and guidance panel exchange message and data, described heating unit working control circuit is used for the control signal control heat pump unit according to the master controller single chip circuit, burnt gas wall hanging furnace, the duty of solar energy circulating pump, the combination of described heating unit select circuit to be used for sending to the master controller single chip circuit by the corresponding different heating unit work in combination pattern of the opening and closing state that different switches are set and with signal.
The utility model is compared the beneficial effect that is produced with prior art: because the utility model has adopted and has been provided with and the solar energy heating unit, the heat pump unit, the three coil pipe storage tanks that burnt gas wall hanging furnace links to each other, and master controller and guidance panel, solar energy heating unit master control borad, heat pump unit master control borad, the burnt gas wall hanging furnace master control borad electrically connects, can make water in a large number and solar energy and heat pump start burnt gas wall hanging furnace can both satisfy heating condition the time water in the storage tank is carried out Fast Heating the user, thereby be convenient to the user and cosily use hot water, carry out heat exchange by health water in three coil pipes and the water tank simultaneously, each heater all is the loop heating system of an enclosed, make the recirculated water of each heater and the health water in the water tank finish isolation, improved the service life of each heater and water tank effectively.
Description of drawings: Fig. 1 is a structural representation of the present utility model.
Fig. 2 is the circuit theory diagrams of master controller 10 among Fig. 1.
Fig. 3 is the circuit theory diagrams of guidance panel 12 among Fig. 1.
Fig. 4 is that circuit 36 circuit diagrams are selected in the heating unit combination among Fig. 2.
Fig. 5 is heating unit working control circuit 37 and master controller power supply and filter circuit 29 circuit diagrams among Fig. 2.
Fig. 6 is master controller single chip circuit 38 circuit diagrams among Fig. 2.
The specific embodiment: referring to accompanying drawing 1, present embodiment comprises solar energy heating unit 1, heat pump unit 2, burnt gas wall hanging furnace 3, storage tank 11, master controller 10 and guidance panel 12, solar energy heating unit 1 comprises solar thermal collector 4, solar thermal collector water inlet pipe 5, solar thermal collector outlet pipe 9, solar energy air bleeding valve 7, solar energy water circulating pump 8, benefit/leakage fluid dram and solar energy heating unit master control borad, solar energy water circulating pump 8, benefit/leakage fluid dram is positioned on the solar thermal collector water inlet pipe 5, air bleeding valve 7 is positioned on the solar thermal collector outlet pipe 9, also be provided with Pressure gauge on the solar thermal collector water inlet pipe 5, safety relief valve, expansion drum 6, also be provided with solar energy circulating pump 8 and safety relief valve on the solar thermal collector outlet pipe 9, the port of export of solar thermal collector 4 links to each other with solar heat-exchange coil pipe water inlet end in the storage tank 11 by solar thermal collector outlet pipe 9, and the arrival end of solar thermal collector 4 links to each other with solar heat-exchange coil pipe water side in the storage tank 11 by solar thermal collector water inlet pipe 5; Heat pump unit 2 comprises compressor, evaporimeter, choke valve and heat pump unit master control borad, compressor, evaporimeter, choke valve link to each other with heat pump heat exchange coil in the storage tank 11 by pipeline, simultaneously also can increase a condenser, also be provided with expansion drum 6 on the water inlet pipe of heat pump unit 2 at compressor outlet; The hot water outlet of burnt gas wall hanging furnace 3 links to each other with burnt gas wall hanging furnace heat exchange coil in the storage tank 11 by pipeline with the heating water inlet, the heating water return pipe of burnt gas wall hanging furnace 3 is circumscribed with the heating cooling system (as fin) of user side, the outlet pipe of solar energy heating unit 1 is provided with solar energy temperature sensor 13 and solar energy water flow detector 14, the outlet pipe of heat pump unit 2 is provided with heat pump temperature sensor 15 and heat pump water flow detector 16, the outlet pipe of burnt gas wall hanging furnace 3 is provided with burnt gas wall hanging furnace temperature sensor 17 and burnt gas wall hanging furnace discharge checkout gear 18, the cold water inlet place of storage tank 11 is provided with discharge checkout gear 19 simultaneously, be respectively equipped with storage tank top layer water temperature sensor 20 and storage tank bottom water temperature degree sensor 50 in the storage tank 11, the distance between storage tank top layer water temperature sensor 20 and storage tank 11 tops with the ratio of whole storage tank 11 height is: 1/8~1/4; Distance between storage tank bottom water temperature degree sensor 50 and storage tank 11 bottoms with the ratio of whole storage tank 11 height is: 1/3~1/2.The discharge checkout gear can be discharge switch or water flow sensor, solar energy heating unit master control borad, heat pump unit master control borad, burnt gas wall hanging furnace master control are pulled, solar energy temperature sensor 13, solar energy water flow detector 14, heat pump temperature sensor 15, heat pump water flow detector 16, burnt gas wall hanging furnace temperature sensor 17, burnt gas wall hanging furnace discharge checkout gear 18 and guidance panel 12 electrically connect with master controller 10, and guidance panel 12 is installed in the indoor place of being convenient to operate.
Referring to accompanying drawing 2, master controller 10 comprises master controller single chip circuit 38 in the present embodiment, the solar energy circulatory mediator temperature sensing circuit 23 that electrically connects with master controller single chip circuit 38, solar energy circulatory mediator flow detection circuit 24, heat pump cyclic medium temperature sensing circuit 25, heat pump cyclic medium flow detection circuit 26, ambient temperature detection circuit 27, master controller telecommunication circuit 28, master controller power supply and filter circuit 29, master controller reset circuit of SCM 30, master controller single-chip microcomputer clock circuit 31, storage tank coolant-temperature gage testing circuit 32, burnt gas wall hanging furnace temperature sensing circuit 33, burnt gas wall hanging furnace flow detection circuit 34, health discharge testing circuit 35, circuit 36 is selected in the heating unit combination, heating unit working control circuit 37.
Referring to accompanying drawing 4, the heating unit combination selects circuit 36 to comprise resistance R 5, R6, R7, R8, R9, R10, DIP switch SW 1, capacitor C 16, the end of described resistance R 5, R6, R7, R8 links to each other with power vd D in master controller power supply and the filter circuit 29, the other end and DIP switch SW 1 electrically connect, the other end of DIP switch SW 1 and resistance R 9, R10 and capacitor C 16 electrically connect, the other end ground connection of resistance R 9 and capacitor C 16, the 19th pin of the other end of resistance R 10 and master controller single chip circuit 38 electrically connects.This circuit is mainly used in by the corresponding different respectively heating unit compound mode of the opening and closing that different switches are set (as any two combination and three unit combination modes), thereby corresponding output voltage values difference, and this signal of telecommunication sent to master controller single chip circuit 38.
Referring to accompanying drawing 5, heating unit working control circuit 37 comprises relay J 1, J2, J3, J4, single-chip microcomputer IC2, capacitor C 12, described relay J 1, J2, J3, coil one end of J4 links to each other with power supply VPP in master controller power supply and the filter circuit 29, the other end respectively with the 10th of single-chip microcomputer IC2,12,13,14 pin electrically connect, the tip side of described relay J 3 and burnt gas wall hanging furnace master control borad electrically connect, the tip side of described relay J 4 and heat pump master board electrically connect, after connecting with the alternating current input of power supply and filter circuit 29, the tip side of described relay J 1 electrically connects with water tank water-circulating pump 21, after connecting with the alternating current input of master controller power supply and filter circuit 29, the tip side of described relay J 2 electrically connects with solar energy circulating pump 8, one end of described capacitor C 12 links to each other with power supply VPP in master controller power supply and the filter circuit 29, other end ground connection, the 3rd of described single-chip microcomputer IC2,4,5,7 pin respectively with master controller single chip circuit 38 in single-chip microcomputer IC1 the 8th, 10,4,2 pin electrically connect, the 9th pin of described single-chip microcomputer IC2 links to each other with power supply VPP in master controller power supply and the filter circuit 29, the 8th pin ground connection of described single-chip microcomputer IC2.Described single-chip microcomputer IC2 can be formed by a plurality of transistor set, and the model of described single-chip microcomputer IC2 is UN2003.This circuit is mainly used in the duty of controlling heat pump unit 2, burnt gas wall hanging furnace 3, solar energy circulating pump 8 according to the control signal of master controller single chip circuit 38, as when needs burnt gas wall hanging furnace 3 is worked, the 10th pin output high level of single-chip microcomputer IC1 is given the 4th pin of single-chip microcomputer IC2, single-chip microcomputer IC2 is under the 4th pin high level drives, the 13rd pin of IC2 becomes low level, the coil of relay J 1 gets electric, the closing of contact of relay J 1, thus burnt gas wall hanging furnace 3 brings into operation; In the time will closing burnt gas wall hanging furnace 3, the 10th pin output low level of IC1 is closed burnt gas wall hanging furnace 3.
Referring to accompanying drawing 5, master controller power supply and filter circuit 29 are mainly used in and transfer alternating current to dc source VDD and VPP, this circuit is a solar energy circulatory mediator temperature sensing circuit 23, solar energy circulatory mediator flow detection circuit 24, heat pump cyclic medium temperature sensing circuit 25, heat pump cyclic medium flow detection circuit 26, ambient temperature detection circuit 27, master controller telecommunication circuit 28, master controller reset circuit of SCM 30, storage tank coolant-temperature gage testing circuit 32, burnt gas wall hanging furnace temperature sensing circuit 33, burnt gas wall hanging furnace flow detection circuit 34, health discharge testing circuit 35, the heating unit combination selects circuit 36 that power vd D is provided, and provide power supply VPP for heating unit working control circuit 37 and master controller telecommunication circuit 28, power vd D can be 5V, and power supply VPP can be 12V.
Referring to accompanying drawing 6, master controller single chip circuit 38 comprises single-chip microcomputer IC1, capacitor C 10, C11, the power vd D that the end of described capacitor C 10, C11, the power end of single-chip microcomputer IC1 and master controller power supply and filter circuit 29 provide electrically connects, the other end ground connection of capacitor C 10, C11, the model of described single-chip microcomputer IC1 are PIC16F887.This circuit is mainly used in compares and forms control signal detected temperature information.
Solar energy circulatory mediator temperature sensing circuit 23, heat pump cyclic medium temperature sensing circuit 25, ambient temperature detection circuit 27, storage tank coolant-temperature gage testing circuit 32, burnt gas wall hanging furnace temperature sensing circuit 33 are used for transferring detected temperature value to the signal of telecommunication, and solar energy circulatory mediator flow detection circuit 24, heat pump cyclic medium flow detection circuit 26 burnt gas wall hanging furnace flow detection circuit 34, health discharge testing circuit 35 are used for transferring detected streamflow regime to the signal of telecommunication.Wherein storage tank coolant-temperature gage testing circuit 32 is used to detect water tank top layer coolant-temperature gage and water tank bottom water temperature degree.
Master controller telecommunication circuit 28 is mainly used in guidance panel 12 carries out the exchange of data and information.Master controller reset circuit of SCM 30 is mainly used in and guarantees all to bring into operation at a kind of definite state when the master controller single-chip microcomputer powers on.Master controller single-chip microcomputer clock circuit 31 is used for providing work clock to master controller single-chip microcomputer IC1.
Referring to accompanying drawing 3, guidance panel 12 comprise guidance panel single chip circuit 39, power supply cue circuit 49, with warning circuit 40, display driver circuit 41, backlight drive circuit 42, guidance panel real time clock circuit 43, key press detecting circuit 44, guidance panel reset circuit 45, guidance panel single-chip microcomputer clock circuit 46, guidance panel power supply and filter circuit 47, guidance panel telecommunication circuit 48 that guidance panel single chip circuit 39 electrically connects, described guidance panel power supply and filter circuit 47 electrically connect with power supply cue circuit 49.Warning circuit 40 is used for sending alarm when there is fault in system when master controller 10 detects.Display driver circuit 41 is used for the data and the information of display operating panel.
Guidance panel real time clock circuit 43 is used to the heating unit of master controller 10 that reference clock is provided.Guidance panel reset circuit 45 is used to guarantee all bring into operation at a kind of definite state when the guidance panel single-chip microcomputer powers on.Guidance panel single-chip microcomputer clock circuit 46 is used for providing work clock to the guidance panel single-chip microcomputer.Guidance panel power supply and filter circuit 47 are used to that other circuit provides power supply in the guidance panel.Key press detecting circuit 44 is used to detect press key message sent by user and information is sent to master controller 10 to be handled, and key information comprises machine open/close information, heating plant mode of operation information, device sterilization cycle information and user's water adjustment information.Guidance panel telecommunication circuit 48 is used for and master controller 10 swap datas and information.Power supply cue circuit 49 is used for the guidance panel prompting of switching on.
The course of work of present embodiment: after device powers on, the master controller acquiescence is in automatic control mode of operation, solar energy circulatory mediator temperature sensing circuit 23 sends the temperature value in the detected solar energy circulatory mediator to master controller single chip circuit 38, if the temperature of solar energy circulatory mediator is greater than or equal to storage tank bottom water temperature degree or storage tank top layer coolant-temperature gage one setting value (as 5 ℃), then starting solar energy heating unit 1 heats, otherwise solar energy heating unit 1 stops heating, the heating process of solar energy heating unit 1: at first start 8 work of solar energy circulating pump, enter in storage tank 11 heat exchange coils through the outlet pipe of solar thermal collector 4 heated hot water, will turn back in the solar thermal collector 4 after the cold water heating in the storage tank 11 then by solar energy heating unit 1.
When solar energy heating unit 1 can not satisfy demand for heat, if any using health water, and storage tank near-bottom temperature or storage tank top layer temperature are less than or equal to the lower limit temperature of setting, lower limit temperature=38+(user's design temperature-40)/2, then starting heat pump unit 2 heats, otherwise be lower than 0 ℃ or do not use health water and storage tank near-bottom temperature or storage tank top layer temperature stop heating in heat pump unit 2 when being higher than the heat pump lower limit temperature of setting in outdoor temperature, the heating process of heat pump unit 2: flow through water in the storage tank 11 of the HTHP refrigerant that compressor comes out carry out becoming after the heat exchange refrigerant of cryogenic high pressure, flowing through then becomes the refrigerant of low-temp low-pressure behind the choke valve, and flow through again refrigerant that evaporimeter becomes high-temperature low-pressure of the refrigerant of low-temp low-pressure enters compressor and enters circulation heating next time.
When solar energy heating unit 1 and heat pump unit 2 all can not satisfy the heat supply condition, if any using health water, and storage tank near-bottom temperature or storage tank top layer temperature are less than or equal to a setting value (as 2 ℃) of lower limit temperature, then start burnt gas wall hanging furnace 3 and heat, otherwise burnt gas wall hanging furnace stops heating.Burnt gas wall hanging furnace 3 heating processes: the water in the burnt gas wall hanging furnace 3 starting ignition heat cycles pipelines at first, then the water pumps in the burnt gas wall hanging furnace 3 heated hot water is entered by hot water outlet in the heat exchange coil of storage tank 11 with storage tank 11 in cold water carry out heat exchange and handle, enter burnt gas wall hanging furnace 3 by burnt gas wall hanging furnace 3 heating water inlets at last and heat, the heating water delivery port of burnt gas wall hanging furnace 3 links to each other with user's heating system with water inlet.
The user can also be provided with by guidance panel 12 and utilize the combination separately or in twos of solar energy heating unit 1, heat pump unit 2 and burnt gas wall hanging furnace 3 to heat.
In addition, this heating plant also is provided with antifreeze function, when the temperature that detects the solar energy circulatory mediator, heat pump cyclic medium temperature and burnt gas wall hanging furnace circulatory mediator temperature are less than or equal to setting value (as 4 ℃), heat and realize antifreeze function effectively thereby start solar energy heating unit 1, heat pump unit 2 and burnt gas wall hanging furnace 3 respectively.

Claims (10)

1. solar energy and heat pump and burnt gas wall hanging furnace combination heating plant, it comprises solar energy heating unit (1), storage tank (11), heat pump unit (2) and burnt gas wall hanging furnace (3), described solar energy heating unit (1) comprises solar thermal collector (4), solar energy air bleeding valve (7), solar energy circulating pump (8), solar thermal collector water inlet pipe (5), solar thermal collector outlet pipe (9), benefit/leakage fluid dram and solar energy heating unit master control borad, described solar energy circulating pump (8), benefit/leakage fluid dram is positioned on the solar thermal collector water inlet pipe (5), described solar energy air bleeding valve (7) is positioned on the solar thermal collector outlet pipe (9), described heat pump unit (2) comprises heat pump unit master control borad, compressor, evaporimeter, choke valve, described compressor, evaporimeter, choke valve links to each other by pipeline, it is characterized in that it also comprises master controller (10) and guidance panel (12), described storage tank is provided with the solar heat-exchange coil pipe in (11), heat pump heat exchange coil and burnt gas wall hanging furnace heat exchange coil, one end of described heat pump heat exchange coil links to each other with the port of export of compressor, the other end links to each other with the choke valve inlet, one end of described burnt gas wall hanging furnace heat exchange coil links to each other with the hot water outlet of burnt gas wall hanging furnace (3), the other end links to each other with the heating water inlet of burnt gas wall hanging furnace (3), one end of described solar heat-exchange coil pipe links to each other with solar thermal collector outlet pipe (9), the other end links to each other with solar thermal collector water inlet pipe (5), described master controller (10) and solar energy heating unit master control borad, heat pump unit master control borad, burnt gas wall hanging furnace master control borad and guidance panel (12) electrically connect, control signal and water temperature contrast signal and water status signal control solar energy heating unit (1) that described master controller (10) sends over according to guidance panel (12), the opening and closing of heat pump unit (2) and burnt gas wall hanging furnace (3), described water temperature contrast signal are that the temperature of interior water temperature of storage tank (11) and solar energy heating unit (1) output or setting value are compared the control signal that the back produces.
2. solar energy according to claim 1 and heat pump and burnt gas wall hanging furnace combination heating plant, it is characterized in that described master controller (10) comprises master controller single chip circuit (38), the solar energy circulatory mediator temperature sensing circuit (23) that electrically connects with master controller single chip circuit (38), ambient temperature detection circuit (27), master controller telecommunication circuit (28), master controller power supply and filter circuit (29), master controller reset circuit of SCM (30), master controller single-chip microcomputer clock circuit (31), storage tank coolant-temperature gage testing circuit (32), health discharge testing circuit (35), circuit (36) is selected in the heating unit combination, heating unit working control circuit (37), described ambient temperature detection circuit (27) is used to detect outdoor environment temperature and controls heat pump work according to environment temperature, what described health discharge testing circuit (35) was used to detect the user sends to heating unit working control circuit (37) with water state and with the water status signal, described master controller telecommunication circuit (28) is used for and guidance panel (12) exchange message and data, described heating unit working control circuit (37) is used for the control signal control heat pump unit (2) according to master controller single chip circuit (38), burnt gas wall hanging furnace (3), the duty of solar energy circulating pump (8), the combination of described heating unit select circuit (36) to be used for sending to master controller single chip circuit (38) by the corresponding different heating unit work in combination pattern of the opening and closing state that different switches are set and with signal.
3. solar energy according to claim 2 and heat pump and burnt gas wall hanging furnace combination heating plant, it is characterized in that described heating unit combination selection circuit (36) comprises resistance R 5, R6, R7, R8, R9, R10, DIP switch SW 1, capacitor C 16, described resistance R 5, R6, R7, the end of R8 links to each other with power vd D in master controller power supply and the filter circuit (29), the other end and DIP switch SW 1 electrically connect, the other end of DIP switch SW 1 and resistance R 9, R10 and capacitor C 16 electrically connect, the other end ground connection of resistance R 9 and capacitor C 16, the 19th pin of the other end of resistance R 10 and master controller single chip circuit (38) electrically connects.
4. solar energy according to claim 2 and heat pump and burnt gas wall hanging furnace combination heating plant, it is characterized in that described heating unit working control circuit (37) comprises relay J 1, J2, J3, J4, single-chip microcomputer IC2, capacitor C 12, described relay J 1, J2, J3, coil one end of J4 links to each other with power supply VPP in master controller power supply and the filter circuit (29), the other end respectively with the 10th of single-chip microcomputer IC2,12,13,14 pin electrically connect, the tip side of described relay J 3 and burnt gas wall hanging furnace master control borad electrically connect, the tip side of described relay J 4 and heat pump master board electrically connect, after connecting with the alternating current input of power supply and filter circuit (29), the tip side of described relay J 1 electrically connects with water tank water-circulating pump (21), after connecting with the alternating current input of master controller power supply and filter circuit (29), the tip side of described relay J 2 electrically connects with solar energy circulating pump (8), one end of described capacitor C 12 links to each other with power supply VPP in master controller power supply and the filter circuit (29), other end ground connection, the 3rd of described single-chip microcomputer IC2,4,5,7 pin respectively with master controller single chip circuit (38) in single-chip microcomputer IC1 the 8th, 10,4,2 pin electrically connect, the 9th pin of described single-chip microcomputer IC2 links to each other the 8th pin ground connection of described single-chip microcomputer IC2 with master controller power supply and the middle power supply VPP of filter circuit (29).
5. solar energy according to claim 2 and heat pump and burnt gas wall hanging furnace combination heating plant, it is characterized in that described master controller single chip circuit (38) comprises single-chip microcomputer IC1, capacitor C 10, C11, the power vd D that the end of described capacitor C 10, C11, the power end of single-chip microcomputer IC1 and master controller power supply and filter circuit (29) provide electrically connects, the other end ground connection of capacitor C 10, C11.
6. according to each described solar energy of claim 2~5 and heat pump and burnt gas wall hanging furnace combination heating plant, it is characterized in that described master controller (10) also comprises the heat pump cyclic medium temperature sensing circuit (25) that electrically connects with master controller single chip circuit (38), burnt gas wall hanging furnace temperature sensing circuit (33), solar energy circulatory mediator flow detection circuit (24), heat pump cyclic medium flow detection circuit (26), burnt gas wall hanging furnace flow detection circuit (34), described heat pump cyclic medium temperature sensing circuit (25), burnt gas wall hanging furnace temperature sensing circuit (33) is used for detecting the temperature of heat pump and burnt gas wall hanging furnace circulatory mediator, and be lower than that when setting value starts heat pump unit (2) and burnt gas wall hanging furnace (3) carries out antifreeze processing detecting temperature value, described solar energy circulatory mediator flow detection circuit (24), heat pump cyclic medium flow detection circuit (26), burnt gas wall hanging furnace flow detection circuit (34) is used to detect the solar energy circulatory mediator, the flow of heat pump cyclic medium and burnt gas wall hanging furnace circulatory mediator, and do not having to send fault-signal to master controller single-chip microcomputer (38) under the situation of flow.
7. solar energy according to claim 1 and 2 and heat pump and burnt gas wall hanging furnace combination heating plant, it is characterized in that described guidance panel (12) comprises guidance panel single chip circuit (39), power supply cue circuit (49), the warning circuit (40) that electrically connects with guidance panel single chip circuit (39), display driver circuit (41), backlight drive circuit (42), guidance panel real time clock circuit (43), key press detecting circuit (44), guidance panel reset circuit of SCM (45), guidance panel single-chip microcomputer clock circuit (46), guidance panel power supply and filter circuit (47), guidance panel telecommunication circuit (48), described power supply cue circuit (49) electrically connects with guidance panel power supply and filter circuit (47), described warning circuit (40) is used for sending alarm when there is fault in the system of detecting when master controller (10), described display driver circuit (41) is used for the data and the information of display operating panel, described guidance panel real time clock circuit (43) is used to master controller (10) heating unit that reference clock is provided, described key press detecting circuit (44) is used to detect press key message sent by user and information is sent to master controller (10) to be handled, described guidance panel telecommunication circuit (48) is used for and master controller (10) swap data and information, and described power supply cue circuit (49) is used for the guidance panel prompting of switching on.
8. solar energy according to claim 2 and heat pump and burnt gas wall hanging furnace combination heating plant, it is characterized in that it comprises storage tank top layer temperature sensor (20), storage tank near-bottom temperature sensor (50) and storage tank water-circulating pump (21), described storage tank top layer temperature sensor (20) and storage tank near-bottom temperature sensor (50) are located at respectively in the storage tank (11) and are electrically connected with storage tank coolant-temperature gage testing circuit (32) in the master controller (10), and described storage tank water-circulating pump (21) is located on the return pipe of storage tank (11) top layer and bottom and is electrically connected with heating unit working control circuit (37) in the master controller (10).
9. solar energy according to claim 2 and heat pump and burnt gas wall hanging furnace combination heating plant, it is characterized in that it comprises environment temperature sensor and health discharge checkout gear, described environment temperature sensor is installed on outdoor, and electrically connect with ambient temperature detection circuit (27), described health discharge checkout gear is located on the cold water inlet of storage tank (11), and electrically connect with health discharge testing circuit (35), described discharge checkout gear is discharge switch or water flow sensor.
10. solar energy according to claim 6 and heat pump and burnt gas wall hanging furnace combination heating plant, it is characterized in that described solar energy heating unit (1), be respectively equipped with temperature sensor and discharge checkout gear on the hot water outlet pipe of heat pump unit (2) and burnt gas wall hanging furnace (3), described temperature sensor respectively with solar energy circulatory mediator temperature sensing circuit (23), heat pump cyclic medium temperature sensing circuit (25), burnt gas wall hanging furnace temperature sensing circuit (33), described discharge checkout gear respectively with solar energy circulatory mediator flow detection circuit (24), heat pump cyclic medium flow detection circuit (26), burnt gas wall hanging furnace flow detection circuit (34) electrically connects, and described discharge checkout gear is discharge switch or water flow sensor.
CN 201120170983 2011-05-26 2011-05-26 Solar energy, heat pump and wall-mounted gas boiler combined heating device CN202083021U (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102798174A (en) * 2011-05-26 2012-11-28 广东万和新电气股份有限公司 Solar energy, heat pump and gas wall hanging stove combined heat supply device
CN103090456A (en) * 2012-11-29 2013-05-08 海尔集团公司 Multi-energy combination hot water system and multi-energy control switching method
CN109915886A (en) * 2019-01-23 2019-06-21 深圳市合信达控制系统有限公司 A kind of control method of energy-saving heating equipment, system and energy-saving heating equipment

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102798174A (en) * 2011-05-26 2012-11-28 广东万和新电气股份有限公司 Solar energy, heat pump and gas wall hanging stove combined heat supply device
CN102798174B (en) * 2011-05-26 2015-03-25 广东万和新电气股份有限公司 Solar energy, heat pump and gas wall hanging stove combined heat supply device
CN103090456A (en) * 2012-11-29 2013-05-08 海尔集团公司 Multi-energy combination hot water system and multi-energy control switching method
CN103090456B (en) * 2012-11-29 2018-11-23 海尔集团公司 Multiple-energy-source combines hot-water heating system and multiple-energy-source controls switching method
CN109915886A (en) * 2019-01-23 2019-06-21 深圳市合信达控制系统有限公司 A kind of control method of energy-saving heating equipment, system and energy-saving heating equipment

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