CN103900141B - Energy mix long-distance intelligent control heating system - Google Patents

Energy mix long-distance intelligent control heating system Download PDF

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Publication number
CN103900141B
CN103900141B CN201210572428.4A CN201210572428A CN103900141B CN 103900141 B CN103900141 B CN 103900141B CN 201210572428 A CN201210572428 A CN 201210572428A CN 103900141 B CN103900141 B CN 103900141B
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assembly
heating
heat
energy
solar
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CN103900141A (en
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陈建亮
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Fuzhou Aquapower Electric Water Heater Co Ltd
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Fuzhou Aquapower Electric Water Heater Co Ltd
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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
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B30/00Energy efficient heating, ventilation or air conditioning [HVAC]

Abstract

The invention discloses a kind of energy mix long-distance intelligent control heating system, solar heat-collection plate assembly, heating loop assembly, air energy thermal pump assembly and the burnt gas wall hanging furnace assembly with the control terminal of control assembly wireless connections and electrically connected including attemperater assembly, control assembly with control assembly;Attemperater assembly includes inner water tank, it is disposed with the heating coil that the solar energy coil pipe being connected with solar heat-collection plate assembly is connected with heating loop assembly and the air energy coil pipe being connected with air energy thermal pump assembly inside inner water tank from top to bottom, is further provided with the burnt gas wall hanging furnace coil pipe being connected with burnt gas wall hanging furnace assembly;On solar heat-collection plate assembly, attemperater assembly upper and lower be respectively provided with electrical connection control assembly temperature sensor.The present invention uses solar energy, air energy heat pump and combustion gas mixing energy complementation to use, and improves energy utilization rate, and realizes intelligent wireless control, uses more convenient.

Description

Energy mix long-distance intelligent control heating system
Technical field
The present invention relates to heating system, particularly relate to a kind of energy mix long-distance intelligent control heat supply heating System.
Background technology
Traditional storage-type hot water apparatus is general all by single source heat supply, such as: electric energy, combustion gas, solar energy, Air source, water source, geothermal source etc..Owing to being limited by single source, it may appear that following defect: 1, when When device breaks down, often heat supply heating will be interrupted, it is impossible to ensures to use requirement normally;2, easy Limited by use condition, such as: electric heater is held quantitative limitation by electric wire, the use safety problem of combustion gas, Solar energy is in overcast and rainy use etc.;Hot water apparatus will be used and produce certain restriction;3, meet not Many heating requirements, if desired for while heating, heating and the place of supplying hot water;4, single heat Source heating does not meets the environmental protection and energy saving requirement of country's promotion;5, the controlling party that the most traditional unit uses Formula is all unit band line control machine, so can only meet user's operation face to face, although have a timing function, but not Can solve well, when user is in outside, to want the requirement allowing unit heat in advance and house being heated.
Summary of the invention
For solving above-mentioned technical problem, the present invention provides a kind of energy mix long-distance intelligent control heat supply heating system System.
The technical solution used in the present invention is: provide a kind of energy mix long-distance intelligent control heating system, Including attemperater assembly, solar heat-collection plate assembly, heating loop assembly, air energy thermal pump assembly, combustion Gas wall-hung boiler assembly, control assembly, control terminal;Described attemperater assembly includes inner water tank, water Case inner bag bottom is provided with water inlet pipe, and top is provided with outlet pipe, inside inner water tank in outlet pipe and water inlet pipe it Between be disposed with solar energy coil pipe, heating coil and air energy coil pipe from top to bottom, in addition in inner water tank It is additionally provided with burnt gas wall hanging furnace coil pipe;Described solar energy coil pipe connects described solar heat-collection plate assembly, described confession Warming plate pipe connects described heating loop assembly, and described air energy coil pipe connects described air energy thermal pump assembly, institute State burnt gas wall hanging furnace coil pipe and connect described burnt gas wall hanging furnace assembly;It is provided with on described solar heat-collection plate assembly First temperature sensor, described attemperater assembly upper and lower is respectively equipped with the second temperature sensor and Three-temperature sensor;Described solar heat-collection plate assembly, heating loop assembly, air energy thermal pump assembly, combustion Gas wall-hung boiler assembly and first all electrically connects described control assembly to three-temperature sensor;Described control Terminal is connected by wireless network with described control assembly.
Wherein, described control assembly includes controller housing, is positioned at the controller mainboard of controller housing And wireless communication module;Described wireless communication module includes that 3G communication module MCU, respectively connection 3G lead to The 3G module of news communication module MCU and 485 communicating circuits, the antenna being connected with 3G module respectively and SIM Card;Described 485 communicating circuits connect described controller mainboard.
Wherein, described solar heat-collection plate assembly includes solar thermal collector and the first circulating pump;The described sun The working medium circulation pipeline for heat-transfer working medium flowing, described working medium circulation pipeline and described guarantor can be provided with in heat collector Solar energy coil pipe in reservoir assembly is connected by pipeline, and arranges described first circulation on connecting line Pump;Described first circulating pump electrically connects described control assembly.
Wherein, described solar heat-collection plate assembly also includes expansion drum, described expansion drum and described solar energy collection Hot device connects.
Wherein, the heat-transfer working medium in described working medium circulation pipeline is freezing liquid.
Wherein, described heating loop assembly includes the second circulating pump, grounding heat coil tube or radiator, for detecting 4th temperature sensor of indoor temperature;Described grounding heat coil tube or radiator with in described attemperater assembly Heating coil is connected by pipeline, and arranges described second circulating pump on connecting line;Described second circulation Pump and described 4th temperature sensor electrically connect described control assembly.
Wherein, described burnt gas wall hanging furnace assembly includes burnt gas wall hanging furnace, the second heat-transfer working medium;Described combustion gas wall Hang stove and include combustor, heat exchanger, water pump and electric control module;Described heat exchanger is positioned at described combustion Burning indoor, heat exchanger is connected and composed by pipeline with the burnt gas wall hanging furnace coil pipe in described attemperater assembly For the closed circuit of described second heat-transfer working medium flowing, described water pump is arranged on this closed circuit;Described water Pump electrically connects described electric control module, and electric control module electrically connects described control assembly.
Wherein, described electric control module includes for the blower fan of described exhaust combustion chamber, in burning Room is to start the blast switch of described water pump during negative pressure state, for controlling entrance combustor after starting mode of pump The gas ratio valve of interior gas quantity, for detecting flue gas and controlling cut-out gas ratio valve in abnormal cases Flue gas inductive switch;Described blast switch electrically connects described water pump and gas ratio valve, and the sensing of described flue gas is opened Close and electrically connect described gas ratio valve.
Wherein, described inner water tank is enamel or stainless steel;Tank shell it is socketed with outside inner water tank, Insulation foam material it is filled with between tank shell and inner water tank.
Wherein, at described water inlet pipe, relief valve is installed.
The invention has the beneficial effects as follows: in the heating system of the present invention, be provided with solar source, sky Water in water tank is heated by gas energy source heat pump heat and burnt gas wall hanging furnace thermal source, and according to solar source With its position of temperature feature appropriate design of air energy heat pump thermal source, and burnt gas wall hanging furnace thermal source can be according to water The concrete structure flexible design of case, additionally control assembly is also wirelessly connected with control terminal, uses this system At least have the advantage that 1, when one group of thermal source unit breaks down, do not interfere with normal heating Demand;2, this Hybrid Heating system complementation uses, and can reduce the operating load of air energy heat pump, improves machine The service life of group, it is possible to the effectively consumption of reduction gas energy, and take the mode of zone heating, The utilization rate of the energy and the efficiency of unit can be improved;3, the energy-conserving and environment-protective requirement of country's promotion is met, as far as possible Use the Unit Combination that energy utilization rate is high;4, the remote intelligent control to this heating system can be realized System so that more convenient operation and the hommization to this system.
Accompanying drawing explanation
Fig. 1 is the structural representation of one embodiment of the invention;
Fig. 2 is the structural representation of attemperater assembly in the present invention;
Fig. 3 is the structural representation of solar thermal collector in the present invention;
Fig. 4 is the structural representation of air energy thermal pump assembly in the present invention;
Fig. 5 is the structural representation of burnt gas wall hanging furnace assembly in the present invention;
Fig. 6 is the structural representation of wireless communication module in the present invention.
Label declaration:
1, attemperater assembly;11, water inlet tube head;12, burnt gas wall hanging furnace coil pipe;13, the 3rd temperature passes Sensor;14, heating coil;15, the second temperature sensor;16, water outlet tube head;17, tank upper cover; 18, inner water tank;19, solar energy coil pipe;101, insulation foam material;102, magnesium rod;103, air energy dish Pipe;104, tank shell;105, water tank lower cover;106, water tank footing;
2, solar heat-collection plate assembly;21, solar thermal collector;22, expansion drum;23, air bleeding valve; 24, circulating pump;25, the first temperature sensor;210/214, collection distributive pipe;211, aluminum alloy frame; 212, absorber;213, frame and base plate heat-preservation cotton;215, zinc-plated base plate;216, safety glass;217、 Working medium circulation pipeline;
3, heating loop assembly;31, grounding heat coil tube;32, circulating pump;33, pipeline;34, the 4th temperature Sensor;
4, air energy thermal pump assembly;41, compressor;43, filter;44, throttling arrangement;45, evaporation Device;46, motor;47, fan;48, electric-controlled plate;
5, burnt gas wall hanging furnace assembly;501, water inlet;503, shell structure;504, heat exchanger; 505, blast switch;506, blower fan;507, air vent;508, combustor;509, expansion drum; 510, water pump;511, gas ratio valve;512, outlet;513, air inlet;
6, control assembly;61, wireless communication module;610,3G module;612,3G communication module MCU;613, antenna;614,485 communicating circuit;615, SIM;616, power module;
7, inlet pipeline;8, water end is used;9, terminal is controlled;10, wireless network.
Detailed description of the invention
By describing the technology contents of the present invention, structural feature in detail, being realized purpose and effect, below in conjunction with Embodiment also coordinates accompanying drawing to be explained in detail.
Referring to Fig. 1, in present embodiment, described energy mix long-distance intelligent control heating system is main Including attemperater assembly 1, solar heat-collection plate assembly 2, heating loop assembly 3, air energy thermal pump assembly 4, burnt gas wall hanging furnace assembly 5, control assembly 6, inlet pipeline 7 and with water end 8, control terminal 9, Wireless network 10.
As in figure 2 it is shown, attemperater assembly 1 includes by inner water tank 18, tank shell 104, water tank The housing that lid 17, water tank lower cover 105 and water tank footing 106 are constituted, wherein tank shell 104 is socketed on water Outside case inner bag 18, and between the two be filled with insulation foam material 101 be incubated with feed-tank inner bag 18.In water tank Gallbladder 18 is enamel or stainless steel, it is possible to high pressure resistant and corrosion.In order to prevent incrustation scale from corroding inner water tank 18, Being further fixedly arranged on magnesium rod 102 on inner water tank 18, it is internal that magnesium rod 102 stretches to inner water tank 18, passes through Principle of cathodic protection prevents inner water tank from corroding, and reaches the effect extending water tank service life.Inner water tank 18 Bottom is provided with into water tube head 11, and top is provided with water outlet tube head 16, and water outlet tube head 16 connects use water end 8, uses Water end 8 includes that gondola water faucet, the fire hose are first-class, and water inlet tube head 11 connects inlet pipeline 7.Owing to attemperater is Press-bearing water tank, is provided with relief valve on inlet pipeline 7, plays pressure release effect, prevents heating water tanks process Middle hypertonia.
Inner water tank 18 is internal to be disposed with too between water outlet tube head 16 and water inlet tube head 11 from top to bottom Sun energy coil pipe 19, heating coil 14 and air energy coil pipe 103, additionally, bottom also sets in inner water tank 18 There is burnt gas wall hanging furnace coil pipe 12.Wherein, solar energy coil pipe 19 connects solar heat-collection plate assembly 2 composition circulation Path, by the water in the recycle heat heating water tank inner bag 18 of solar energy.Heating coil 14 connects heating ring Road assembly 3, is provided heat to be rooms to heating loop assembly 3 by the water in inner water tank 18.Air Air energy thermal pump assembly 4 composition path for refrigeration working medium circulation can be connected, by refrigeration working medium by coil pipe 103 The heat of transformation is the water heating of inner water tank 18.Burnt gas wall hanging furnace coil pipe 12 connects burnt gas wall hanging furnace assembly 5 structure Become peripheral passage, the water heating that the heat utilizing fuel gas buring to produce is inner water tank 18.According to inner water tank The layering rule of water temperature in 18, required for heating, heating coil 14 is positioned in the middle part of inner water tank 18, The temperature of this regional water is about 45 degree, just meets the requirement of heating.And due to solar heat-collection plate assembly 2 The Temperature of Working that can be provided by circulation is higher, is had on the upper strata that solar energy coil pipe 19 is arranged on inner water tank 18 It is beneficial to ensure the total leaving water temperature of water tank.And in order to improve the operational efficiency of air energy thermal pump assembly 4 and alleviate it Operating load, is positioned over inner water tank 18 bottom by air energy coil pipe 103, and this region water temperature is relative to top Water temperature is low.The temperature that burnt gas wall hanging furnace assembly 5 provides is higher, and burnt gas wall hanging furnace coil pipe 12 both can be such as this The bottom standby heat source as air energy coil pipe 103 of inner water tank 18 it is positioned over shown in embodiment, it is possible to To be positioned over the top of inner water tank 18 to ensure leaving water temperature, it is also possible to directly run through whole tank height to Water in water tank uniformly heats, in a word its can to combine the practical structures of attemperater assembly as required reasonable Design.Wherein solar energy coil pipe 19, heating coil 14 and burnt gas wall hanging furnace coil pipe 12 material can be stainless Steel pipe or fin steel pipe, air energy coil pipe 103 circulates for fluorine, and its material is copper pipe or gapless stainless steel tube.
Be provided with the first temperature sensor 25 on solar heat-collection plate assembly 2, attemperater assembly 1 top and Bottom is respectively equipped with the second temperature sensor 15 and three-temperature sensor 13.Solar heat-collection plate assembly 2, Heating loop assembly 3, air energy thermal pump assembly 4, burnt gas wall hanging furnace assembly 5 and each temperature sensor 25, 15,13 control assembly 6 is all electrically connected.During work, each temperature sensor provides to control assembly 6 and gathers Temperature value so that control assembly 6 is to solar heat-collection plate assembly 2, heating loop assembly 3, air energy thermal Pump assembly 4, burnt gas wall hanging furnace assembly 5 are controlled.
Control terminal 9 to be connected by wireless network 10 with control assembly 6.Wherein, control assembly 6 wraps Include controller housing, the controller mainboard being positioned at controller housing and wireless communication module;Refering to Fig. 6, nothing Line communication module 61 includes 3G communication module MCU612, respectively connection 3G communication communication module MCU612 3G module 610 and 485 communicating circuit 614, the antenna 613 and SIM that is connected with 3G module 610 respectively Card 615;485 communicating circuits 614 are the communicating circuit using RS485/232 communications protocol, and it connects control Device mainboard processed;It addition, power module 616 is powered for 3G communication module MCU612 and 3G module 610. This wireless communication module 61 can use the wireless networks such as GPRS, 3G, 4G 10 to carry out with controlling terminal 9 Communication.Wireless communication module 61 receives after the information of control terminal 9, raw after decoding chip decodes Become corresponding instruction, then communicated with corresponding unit by controller mainboard so that it is electric-controlled plate is held The corresponding control action of row.Controlling terminal 9 can be that 3G mobile, panel computer etc. can connect wireless network Equipment, have the PC of radio transmission-receiving function or other can connect the control device of wireless network.
From the point of view of user angle, control assembly achieves following functions: 1, can be by manual directly behaviour Make the mode of button, control the start and stop of machine;2, control terminal can be used, by logging in WEB The operation software installed in browser or mobile device, remotely controls this heating system.
This system combined operation principle is: solar source, air energy heat pump thermal source and heat source gas can separate Water tank is heated, it is also possible to heat according to use condition complementation;If required relatively with coolant-temperature gage Height, when required time is shorter, can start each thermal source and heat water tank simultaneously.According to optimum use Condition, selects the heat source being suitable for, such as: when having sunlight when, can directly use solar energy Water in water tank is heated by collecting plate assembly, and the water in water tank is then preheated by air energy thermal pump assembly, Now air energy thermal pump assembly make auxiliary heating use, and if now air energy heat pump cannot open for some reason, Then burnt gas wall hanging furnace assembly can substitute for air energy thermal pump assembly as auxiliary heat source;Time overcast and rainy, also Can be using burnt gas wall hanging furnace assembly as main heat source, using air energy thermal pump assembly as auxiliary thermal source.Utilize control Solar heat-collection plate assembly, air energy thermal pump assembly and burnt gas wall hanging furnace assembly are controlled by device assembly processed respectively System.When user goes out, user can by mobile phone or other can realize the equipment of function of surfing the Net, step on Record web browser or the operation software being arranged in equipment for surfing the net, carried out remotely this heating system Control.Such as: when shining upon, air energy thermal pump assembly can be pre-actuated the water in water tank is entered Row heating, at this moment temperature can arrange relatively low, because solar heat-collection plate assembly can also be utilized water tank Water heats, if run into overcast and rainy or evening, can directly utilize air energy thermal pump assembly Or the water in water tank is heated by burnt gas wall hanging furnace assembly;If need room is heated simultaneously, can In the way of using remotely control, it is remotely operated, embody the hommization requirement of product system design.
In the heating system of the present invention, it is provided with solar source, air energy heat pump thermal source and combustion gas wall Hang stove thermal source the water in water tank is heated, and according to solar source and the temperature of air energy heat pump thermal source Its position of degree feature appropriate design, and burnt gas wall hanging furnace thermal source can according to the concrete structure flexible design of water tank, Additionally control assembly is also wirelessly connected with control terminal, use this system at least to have the advantage that 1, When one group of thermal source unit breaks down, do not interfere with normal heating demand;2, this Hybrid Heating system Complementary use, can reduce the operating load of air energy heat pump, improves the service life of unit, it is possible to have Effect reduces the consumption of gas energy, and takes the mode of zone heating, can improve the energy utilization rate and The efficiency of unit;3, meet the energy-conserving and environment-protective requirement of country's promotion, use the unit that energy utilization rate is high as far as possible Combination;4, the remote intelligent to this heating system can be realized control so that the operation to this system More convenient and hommization.
The structure of each thermal source and heating loop assembly is introduced below in conjunction with accompanying drawing another.
Referring initially to Fig. 3, and please in combination with Fig. 1, solar heat-collection plate assembly 2 includes solar thermal collector 21, expansion drum 22, circulating pump 24 and air bleeding valve 23;Expansion drum 22 and air bleeding valve 23 are all connected with solar energy Heat collector 21.Solar thermal collector 21 include aluminum alloy frame 211, zinc-plated base plate 215, safety glass 216, Frame and base plate heat-preservation cotton 213, absorber 212, collection distributive pipe 210/214, working medium circulation pipeline 217 etc., Working medium circulation pipeline 217 is by collection distributive pipe 210/214 and the solar energy coil pipe 19 in attemperater assembly 1 Connection, wherein circulating pump 24 is disposed therein on the pipeline that a collection distributive pipe is connected with solar energy coil pipe 19. Solar heat-collection plate assembly 2 operation principle is: sunlight passes through safety glass 216, is coated with high selective absorbing The absorber 212 of layer absorbs solar radiation and is converted into heat energy, by the working medium circulation in solar thermal collector 21 Heat-transfer working medium heating in pipeline 217 makes its temperature gradually rise.When solar thermal collector 21 top working medium temperature Degree T1(gathered by the first temperature sensor 25) with water tank bottom water temperature T 2(by three-temperature sensor 13 Gather) temperature difference when reaching certain value (being usually set to 3 DEG C-5 DEG C), control assembly 6 controls circulating pump 24 start automatically, are recycled to by heat-transfer working medium in solar energy coil pipe 19 heating water tank of attemperater assembly 1 Water in gallbladder 18.When water tank upper water temperature T 3(is gathered by the second temperature sensor 15) reach setting value ( As be 50 DEG C-60 DEG C) time, forced circulation pump 24 is automatically stopped work.Wherein, heat-transfer working medium is freezing liquid, To solve antifreeze problem in winter.
Referring still to Fig. 1, heating loop assembly 3 includes that grounding heat coil tube 31(can also be for radiator), circulation Pump 32, the 4th temperature sensor 34, pipeline 33 etc.;Grounding heat coil tube 31 is by pipeline 33 and heating coil 14 connect and compose peripheral passage, and circulating pump 32 is arranged on connecting line.4th temperature sensor 34 and following Ring pump 32 electrically connects control assembly 6, and the 4th temperature sensor 34 gathers indoor temperature, when total at controller Become time heating mode is set on 6, circulating pump 32 according to the temperature difference of actual indoor temperature Yu set temperature, Select to start and close, thus house is heated.
Referring again to Fig. 4, air energy thermal pump assembly 4 include compressor 41, vaporizer 45, throttling arrangement 44, Fan 47, motor 46, electric-controlled plate 48 etc..Wherein compressor 41, vaporizer 45, throttling arrangement 44 lead to Cross copper pipe road to connect, be connected by connecting tube with the air energy coil pipe 103 in water tank, form one for refrigeration work The closed loop that matter (also referred to as coolant) circulates, its operation principle is: compressor 41 start and compress from The cryogenic gas of vaporizer 45, discharges the gas of High Temperature High Pressure, in water tank from compressor 41 air vent Air energy coil pipe 103 after, high temperature refrigerant carries out heat exchange with water about in air energy coil pipe 103, Coolant after heat release becomes the liquid of the middle temperature of high pressure, and afterwards through throttling arrangement 44, coolant becomes low temperature The liquid of low pressure, hence into vaporizer 45, carries out forced heat-exchanging by fan 47 and motor 46 to it, Make coolant quickly absorb from the heat in air, absorb the coolant after heat and become the gas of low-temp low-pressure, Final gas is sucked back by compressor 41, thus completes a cycle of operation, and the water in water tank is through coolant Constantly circulate and then constantly heated.Filter 43 is arranged at throttling arrangement 44 before for coolant Filter.
Described burnt gas wall hanging furnace assembly 5 includes burnt gas wall hanging furnace and heat-transfer working medium;Refering to Fig. 5, burnt gas wall hanging furnace Including shell structure 503, it is provided with combustor 508 in shell structure 503, in combustor 508, is provided with heat exchange Device 504, shell structure 503 is provided with water inlet 501 and outlet 512 communicatively with this heat exchanger 504, Water pump 510 it is provided with heat exchanger 504, water inlet 501 and going out on the pipeline that wherein outlet 512 is connected The mouth of a river 512 is for connecting the burnt gas wall hanging furnace coil pipe 12 in attemperater assembly 1, so that heat exchanger 504 Constituting the closed circuit for heat-transfer working medium flowing with burnt gas wall hanging furnace coil pipe 12, water pump 510 then provides heat transfer The power of Working fluid flow.During work, combustion gas enters combustor 508 burning through air inlet 513 and produces heat, Adding the heat-transfer working medium in heat-heat exchanger 504, water pump 510 makes heat-transfer working medium cycle through fuel wall hanging stone or metal plate for standing a stove on as a precaution against fire Pipe 12 and water in heating water tank inner bag 18.Heat-transfer working medium can be freezing liquid or water.
Water pump 510 is controlled to start by the electric control module of burnt gas wall hanging furnace, and wherein electric control module includes For to the blower fan 506 of combustor 508 aerofluxus, for starting described water when combustor 508 is for negative pressure state The blast switch 505 of pump 510, it is arranged at air inlet 513 and controls to enter combustion after starting at water pump 510 Burn the gas ratio valve 511 of gas quantity in room 508, be used for detecting flue gas and controlling in abnormal cases to cut off to fire The flue gas inductive switch (not shown) of gas proportioning valve 511;Blast switch 505 electrically connects water pump 510 He Gas ratio valve 511, flue gas inductive switch electrical connection gas ratio valve 511.Operation principle is: when combustion gas wall The when of hanging furnace igniting switch entrance duty, blower fan 506 first starts makes formation negative pressure in combustor 508 Poor, water pump 510 is issued in 505 instructions of blast switch, and after water pump 510 starts, the current on water pump 510 leave Closing and high-voltage discharger (making fuel gas buring for igniting) is issued in instruction, after it starts, gas proportion is issued in instruction Valve 511, gas ratio valve 511 starts to start.Gas ratio valve 511 and blast switch 505 and flue gas sense Inductive switch is chain control, and combustor 508 has certain negative pressure, gas ratio valve 511 just can work, When flue gas inductive switch continue for some time (such as 5 seconds) can't detect air vent 507 have waste gas to discharge time, It is switched off gas ratio valve 511 and stops supply, thus ensure to use combustion gas safely.
Owing in burnt gas wall hanging furnace, variations in temperature is relatively big, for compensating pressure change, the housing knot of burnt gas wall hanging furnace Being additionally provided with expansion drum 509 in structure 503, expansion drum 509 is positioned at outside combustor 508.
The foregoing is only embodiments of the invention, not thereby limit the scope of the claims of the present invention, every profit The equivalent structure made by description of the invention and accompanying drawing content or equivalence flow process conversion, or directly or indirectly transport It is used in other relevant technical fields, is the most in like manner included in the scope of patent protection of the present invention.

Claims (10)

1. an energy mix long-distance intelligent control heating system, it is characterised in that include attemperater Assembly, solar heat-collection plate assembly, heating loop assembly, air energy thermal pump assembly, burnt gas wall hanging furnace assembly, Control assembly, control terminal;
Described attemperater assembly includes that inner water tank, inner water tank bottom are provided with water inlet pipe, and top is provided with out Water pipe, be disposed with from top to bottom between outlet pipe and water inlet pipe inside inner water tank solar energy coil pipe, Heating coil and air energy coil pipe, be additionally provided with burnt gas wall hanging furnace coil pipe in addition in inner water tank;Described solar energy Coil pipe connects described solar heat-collection plate assembly, and described heating coil connects described heating loop assembly, described Air energy coil pipe connects described air energy thermal pump assembly, and described burnt gas wall hanging furnace coil pipe connects described fuel wall hanging Stove assembly;
The first temperature sensor, described attemperater assembly top it is provided with on described solar heat-collection plate assembly It is respectively equipped with the second temperature sensor and three-temperature sensor with bottom;
Described solar heat-collection plate assembly, heating loop assembly, air energy thermal pump assembly, burnt gas wall hanging furnace are total One-tenth and first all electrically connects described control assembly to three-temperature sensor;Described control terminal is with described Control assembly is connected by wireless network.
Energy mix long-distance intelligent control heating system the most according to claim 1, its feature exists Controller housing, the controller mainboard being positioned at controller housing and wireless is included in: described control assembly Communication module;Described wireless communication module includes 3G communication module MCU, respectively connection 3G communication communication The 3G module of module MCU and 485 communicating circuits, the antenna being connected with 3G module respectively and SIM; Described 485 communicating circuits connect described controller mainboard.
Energy mix long-distance intelligent control heating system the most according to claim 1, its feature exists In: described solar heat-collection plate assembly includes solar thermal collector and the first circulating pump;Described solar energy heating The working medium circulation pipeline for heat-transfer working medium flowing, described working medium circulation pipeline and described attemperater it is provided with in device Solar energy coil pipe in assembly is connected by pipeline, and arranges described first circulating pump on connecting line;Institute State the first circulating pump and electrically connect described control assembly.
Energy mix long-distance intelligent control heating system the most according to claim 3, its feature exists In: described solar heat-collection plate assembly also includes expansion drum, and described expansion drum is with described solar thermal collector even Connect.
Energy mix long-distance intelligent control heating system the most according to claim 3, its feature exists In: the heat-transfer working medium in described working medium circulation pipeline is freezing liquid.
Energy mix long-distance intelligent control heating system the most according to claim 1, its feature exists In: described heating loop assembly includes the second circulating pump, grounding heat coil tube or radiator, for detecting Indoor Temperature 4th temperature sensor of degree;Described grounding heat coil tube or radiator with in described attemperater assembly for warming plate Pipe is connected by pipeline, and arranges described second circulating pump on connecting line;Described second circulating pump and institute State the 4th temperature sensor and electrically connect described control assembly.
Energy mix long-distance intelligent control heating system the most according to claim 1, its feature exists In: described burnt gas wall hanging furnace assembly includes burnt gas wall hanging furnace, the second heat-transfer working medium;Described burnt gas wall hanging furnace bag Include combustor, heat exchanger, water pump and electric control module;Described heat exchanger is positioned at described combustor, Burnt gas wall hanging furnace coil pipe in heat exchanger and described attemperater assembly connects and composes confession described the by pipeline The closed circuit of two heat-transfer working medium flowings, described water pump is arranged on this closed circuit;Described water pump electrically connects Described electric control module, electric control module electrically connects described control assembly.
Energy mix long-distance intelligent control heating system the most according to claim 7, its feature exists Include for the blower fan of described exhaust combustion chamber, for being negative at combustor in: described electric control module The blast switch of described water pump is started, for controlling entrance burning indoor fuel gas after starting mode of pump during pressure condition Amount gas ratio valve, for detect flue gas and in abnormal cases control cut-out gas ratio valve flue gas sense Inductive switch;Described blast switch electrically connects described water pump and gas ratio valve, and described flue gas inductive switch is electrically connected Connect described gas ratio valve.
9. according to the energy mix long-distance intelligent control heating system described in any one of claim 1-8, It is characterized in that: described inner water tank is enamel or stainless steel;Tank shell it is socketed with outside inner water tank, Insulation foam material it is filled with between tank shell and inner water tank.
10. according to the energy mix long-distance intelligent control heating system described in any one of claim 1-8, It is characterized in that: at described water inlet pipe, relief valve is installed.
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CN106225054A (en) * 2016-08-31 2016-12-14 江华九恒新能源有限公司 A kind of multiple-energy-source integrated energy-saving control system and method
CN107314433A (en) * 2017-05-25 2017-11-03 皖西学院 A kind of changeable floor heating heater of use for laboratory multiple-energy-source
CN110425630B (en) * 2019-08-07 2021-06-01 临沂智慧新能源科技有限公司 Large-temperature-difference mobile heat storage vehicle and heat supply control method thereof

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