CN203052807U - Hybrid-energy remote-intelligent-control heating system - Google Patents
Hybrid-energy remote-intelligent-control heating system Download PDFInfo
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- CN203052807U CN203052807U CN2012207280781U CN201220728078U CN203052807U CN 203052807 U CN203052807 U CN 203052807U CN 2012207280781 U CN2012207280781 U CN 2012207280781U CN 201220728078 U CN201220728078 U CN 201220728078U CN 203052807 U CN203052807 U CN 203052807U
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- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B30/00—Energy efficient heating, ventilation or air conditioning [HVAC]
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Abstract
The utility model discloses a hybrid-energy remote-intelligent-control heating system. The hybrid-energy remote-intelligent-control heating system comprises a heat-preservation water tank assembly, a gas wall-mounted stove assembly, a heating loop assembly, an air-energy heat pump assembly, a controller assembly and a control terminal; the heat-preservation water tank assembly comprises a water-tank inner container, and a gas wall-mounted stove coil, a heating coil and an air-energy coil are successively installed inside the water-tank inner container from top to bottom, wherein the gas wall-mounted stove coil is connected with the gas wall-mounted stove assembly, the heating coil is connected with the heating loop assembly, and the air-energy coil is connected with the air-energy heat pump assembly; the gas wall-mounted stove assembly, the heating loop assembly, the air-energy heat pump assembly and temperature sensors are all in electric connection with the controller assembly; and the control terminal is connected with the controller assembly through a wireless network. According to the hybrid-energy remote-intelligent-control heating system, hybrid energy of a gas wall-mounted stove and an air-energy heat pump is used in a mutually-complemented mode, the energy utilization rate is improved, wireless intelligent control is realized, and using is more convenient.
Description
Technical field
The utility model relates to the heat supply heating system, relates in particular to a kind of energy mix long-distance intelligent control heat supply heating system.
Background technology
Traditional storage-type hot water apparatus is generally all by single energy heat supply, as: electric energy, combustion gas, solar energy, air source, water source, geothermal source etc.Owing to be subjected to the restriction of the single energy, following defective can occur: 1, when device breaks down, often the heat supply heating will be interrupted, and can't guarantee normal instructions for use; 2, be subjected to the restriction of service condition easily, as: electric heater is subjected to the restriction of electric wire capacity, the use safety problem of combustion gas, and solar energy is in overcast and rainy use etc.; The capital produces certain restriction to the use of hot water apparatus; 3, do not satisfy many-sided heating heat supply requirement, as the place of needs heating simultaneously, heating and heat supply water; 4, single energy heating heat supply does not meet the environmental protection and energy saving requirement that country advocates; 5, the control mode of at present traditional unit employing all is unit band line control machine, can only satisfy user's operation face to face like this, though timing function is arranged, can not solve well as the user and be in when outside, the requirement of wanting to allow unit heat in advance and the house being heated.
The utility model content
For solving the problems of the technologies described above, the utility model provides a kind of energy mix long-distance intelligent control heat supply heating system.
The technical solution adopted in the utility model is: a kind of energy mix long-distance intelligent control heat supply heating system is provided, comprises attemperater assembly, burnt gas wall hanging furnace assembly, heating loop assembly, air energy heat pump assembly, control assembly, control terminal; Described attemperater assembly comprises inner water tank, and inner water tank bottom and top are respectively equipped with water inlet pipe and outlet pipe, and inner water tank inside is disposed with burnt gas wall hanging furnace coil pipe, heating coil and air energy coil pipe from top to bottom between water inlet pipe and outlet pipe; Described burnt gas wall hanging furnace coil pipe connects described burnt gas wall hanging furnace assembly, and described heating coil connects described heating loop assembly, and described air can connect the air energy heat pump assembly by coil pipe; Described burnt gas wall hanging furnace assembly, heating loop assembly and air energy heat pump assembly all are electrically connected described control assembly; Described control terminal is connected by wireless network with described control assembly.
Wherein, described control assembly comprises controller housing, is positioned at controller mainboard and the wireless communication module of controller housing; The 3G module that described wireless communication module comprises 3G communication module MCU, connect 3G communication module MCU respectively and 485 communicating circuits, the antenna and the SIM that are connected with the 3G module respectively; Described 485 communicating circuits connect described controller mainboard.
Wherein, described burnt gas wall hanging furnace assembly comprises burnt gas wall hanging furnace, heat-transfer working medium; Described burnt gas wall hanging furnace comprises combustion chamber, heat exchanger, water pump and electrical control module; Described heat exchanger is positioned at described combustion chamber, and the burnt gas wall hanging furnace coil pipe in heat exchanger and the described attemperater assembly connects and composes the closed circuit that flows for described heat-transfer working medium by pipeline, and described water pump is arranged on this closed circuit; Described water pump is electrically connected described electrical control module, and the electrical control module is electrically connected described control assembly.
Wherein, described electrical control module comprise the blast switch that starts described water pump for the blower fan of giving described exhaust combustion chamber, when being used in the combustion chamber for negative pressure state, be used for gas ratio valve that behind starting mode of pump control enters gas quantity in the combustion chamber, for detection of flue gas and under abnormal conditions control cut off the flue gas inductive switch of gas ratio valve; Described blast switch is electrically connected described water pump and gas ratio valve, and described flue gas inductive switch is electrically connected described gas ratio valve.
Wherein, also be provided with expansion drum in the described burnt gas wall hanging furnace, described expansion drum is positioned at outside the described combustion chamber.
Wherein, described heating loop assembly comprise circulating pump, floor heating coil pipe or radiator, for detection of the temperature sensor of indoor temperature; Described floor heating coil pipe or radiator are connected by pipeline with heating coil in the described attemperater assembly, and described circulating pump is set on connecting line; Described circulating pump and described temperature sensor are electrically connected described control assembly.
Wherein, described inner water tank is enamel or stainless steel; Inner water tank is socketed with tank shell outward, is filled with insulation bubble material between tank shell and the inner water tank.
Wherein, described water inlet pipe place is equipped with safety valve.
Wherein, described burnt gas wall hanging furnace coil pipe and heating coil are stainless steel tube or fin steel pipe, and described air can coil pipe be siphunculus or gapless stainless steel tube.
The beneficial effects of the utility model are: in heat supply heating system of the present utility model, be provided with the burnt gas wall hanging furnace thermal source and the air energy heat pump thermal source heats the water in the water tank, and its position of temperature feature appropriate design at two thermals source, control assembly also is wirelessly connected with control terminal in addition, adopt this system to have following advantage at least: 1, when one group of thermal source unit breaks down, can not influence normal heating heat demand; 2, this Hybrid Heating system is complementary uses, and can reduce the operating load of air energy heat pump, improves the service life of unit, and takes the mode of segmentation heating, can improve the efficiency of rate of energy and unit; 3, meet the energy-conserving and environment-protective requirement that country advocates, use the high unit combination of energy utilization rate as far as possible; 4, can realize the remote intelligent of this heat supply heating system is controlled feasible more convenient operation and hommization to this system.
Description of drawings
Fig. 1 is the structural representation of the utility model one embodiment;
Fig. 2 is the structural representation of attemperater assembly in the utility model;
Fig. 3 is the structural representation of burnt gas wall hanging furnace assembly in the utility model;
Fig. 4 is the structural representation of air energy heat pump assembly in the utility model;
Fig. 5 is the structural representation of wireless communication module in the utility model.
Label declaration:
1, attemperater assembly; 11, water inlet tube head; 12, air energy coil pipe; 13, three-temperature sensor; 14, heating coil; 15, second temperature sensor; 16, water outlet tube head; 17, tank upper cover; 18, inner water tank; 19, burnt gas wall hanging furnace coil pipe; 101, insulation bubble material; 102, magnesium rod; 103, tank shell; 104, water tank lower cover; 105, water tank footing;
2, burnt gas wall hanging furnace assembly; 201, water inlet; 203, shell structure; 204, heat exchanger; 205, blast switch; 206, blower fan; 207, exhaust outlet; 208, combustion chamber; 209, expansion drum; 210, water pump; 211, gas ratio valve; 212, delivery port; 213, air inlet;
3, heating loop assembly; 31, floor heating coil pipe; 32, circulating pump; 33, pipeline; 34, the 4th temperature sensor;
4, air energy heat pump assembly; 41, compressor; 43, filter; 44, throttling arrangement; 45, evaporimeter; 46, motor; 47, fan; 48, automatically controlled plate;
5, control assembly; 51, wireless communication module; 510,3G module; 512,3G communication module MCU; 513, antenna; 514,485 communicating circuits; 515, SIM; 516, power module;
6, inlet pipeline; 7, water end; 8, control terminal; 9, wireless network.
The specific embodiment
By describing technology contents of the present utility model, structural feature in detail, realized purpose and effect, give explanation below in conjunction with embodiment and conjunction with figs. are detailed.
See also Fig. 1, in the present embodiment, described energy mix long-distance intelligent control heat supply heating system mainly comprises attemperater assembly 1, burnt gas wall hanging furnace assembly 2, heating loop assembly 3, air energy heat pump assembly 4, control assembly 5, inlet pipeline 6 and water end 7, control terminal 8, wireless network 9.
As shown in Figure 2, attemperater assembly 1 comprises the housing that is made of inner water tank 18, tank shell 103, tank upper cover 17, water tank lower cover 104 and water tank footing 105, wherein tank shell 103 is socketed on outside the inner water tank 18, and is filled with insulation bubble material 101 between the two with 18 insulations of feed-tank inner bag.Inner water tank 18 is enamel or stainless steel, can high pressure resistant and corrosion.In order to prevent incrustation scale corrosion inner water tank 18, also be set with magnesium rod 102 on the inner water tank 18, magnesium rod 102 stretches to inner water tank 18 inside, prevents the inner water tank corrosion by principle of cathodic protection, reaches to prolong the water tank effect in service life.Inner water tank 18 bottoms are provided with into water tube head 11, and top is provided with water outlet tube head 16, and water outlet tube head 16 connects water ends 7, and water end 7 comprises that gondola water faucet, the fire hose are first-class, and water inlet tube head 11 connects inlet pipelines 6.Because attemperater is press-bearing water tank, at inlet pipeline 6 safety valve is installed, and plays the pressure release effect, prevents hypertonia in the water tank heating process.
Burnt gas wall hanging furnace assembly 2, heating loop assembly 3, air energy heat pump assembly 4 all are electrically connected control assembly 5.Control terminal 8 is connected by wireless network 9 with control assembly 5.Wherein, control assembly 5 comprises controller housing, is positioned at controller mainboard and the wireless communication module of controller housing; Consult Fig. 5, wireless communication module 51 comprises 3G communication module MCU512, connects the 3G module 510 and 485 communicating circuits 514, the antenna 513 that is connected with 3G module 510 respectively and SIM 515 of 3G communication module MCU512 respectively; 485 communicating circuits 514 are the communicating circuit that adopts the RS485/232 communications protocol, and it connects the controller mainboard; In addition, power module 516 is 3G communication module MCU512 and 510 power supplies of 3G module.This wireless communication module 51 can use wireless networks such as GPRS, 3G, 4G 9 and control terminal 8 to communicate.Wireless communication module 51 generates corresponding instruction through decoding chip decoding back after receiving information from control terminal 8, communicates with corresponding unit by the controller mainboard then, makes its automatically controlled plate carry out corresponding control action.Control terminal 8 can be that the equipment that can connect wireless network such as 3G mobile, panel computer, the PC that radio transmission-receiving function is arranged or other can connect the control device of wireless network.
From user's angle, control assembly 5 has been realized following function: 1, can be by the mode of manual direct control button, and the start and stop of control machine; 2, can use control terminal, the function software by installing in login WEB browser or the mobile device carries out Long-distance Control to this heat supply heating system.
This system combined operation principle is: when outside air temperature is lower, using air energy heat pump is not very economical, at this moment, burnt gas wall hanging furnace can directly heat the water in the water tank by the burnt gas wall hanging furnace coil pipe, the air energy heat pump assembly then carries out preheating to the water in the water tank, and this moment, the air energy heat pump assembly was done auxiliary heating use.Burnt gas wall hanging furnace assembly and air energy heat pump assembly are controlled respectively to utilize control assembly.Allow and air energy heat pump assembly trouble-free the time at temperature in addition, can use burnt gas wall hanging furnace assembly and air energy heat pump assembly that the water in the water tank is heated simultaneously, can shorten the stand-by period of water so greatly.When the user went out, the user can realize the equipment of function of surfing the Net by mobile phone or other, and login WEB browser or be installed in function software in the equipment for surfing the net carries out Long-distance Control to this heat supply heating system.For example: by long-distance intelligent control burnt gas wall hanging furnace assembly and air energy heat pump assembly, make it simultaneously the water in the water tank to be heated, and can set whether need heating, after water temperature reaches heating temperature, then the house is heated in advance.Adopt the mode of Long-distance Control that this system is carried out operated from a distance, embodied the hommization requirement of product systems designs.
In heat supply heating system of the present utility model, be provided with the burnt gas wall hanging furnace thermal source and the air energy heat pump thermal source heats the water in the water tank, and its position of temperature feature appropriate design at two thermals source, control assembly also is wirelessly connected with control terminal in addition, adopt this system to have following advantage at least: 1, when one group of thermal source unit breaks down, can not influence normal heating heat demand; 2, this Hybrid Heating system is complementary uses, and can reduce the operating load of air energy heat pump, improves the service life of unit, and takes the mode of segmentation heating, can improve the efficiency of rate of energy and unit; 3, meet the energy-conserving and environment-protective requirement that country advocates, use the high unit combination of energy utilization rate as far as possible; 4, can realize the remote intelligent of this heat supply heating system is controlled feasible more convenient operation and hommization to this system.
Introduce the structure of each thermal source and heating loop assembly more one by one below in conjunction with accompanying drawing.
Described burnt gas wall hanging furnace assembly 2 comprises burnt gas wall hanging furnace and heat-transfer working medium; Consult Fig. 3, burnt gas wall hanging furnace comprises shell structure 203, be provided with combustion chamber 208 in the shell structure 203, be provided with heat exchanger 204 in the combustion chamber 208, be provided with water inlet 201 and delivery port 212 communicatively with this heat exchanger 204 on the shell structure 203, wherein the pipeline that is connected with heat exchanger 204 of delivery port 212 is provided with water pump 210, water inlet 201 and delivery port 212 is used for being connected the burnt gas wall hanging furnace coil pipe 19 of attemperater assembly 1, thereby make heat exchanger 204 and burnt gas wall hanging furnace coil pipe 19 constitute the closed circuit that flows for heat-transfer working medium, the power that water pump 210 then provides heat-transfer working medium to flow.During work, combustion gas enters combustion chamber 208 burning through air inlet 213 and produces heats, and the heat-transfer working medium in the reheat heat exchanger 204, water pump 210 make heat-transfer working medium cycle through burnt gas wall hanging furnace coil pipe 19 and water in the heating water tank inner bag 18.Heat-transfer working medium can be freezing liquid or water.
Because variations in temperature is bigger in the burnt gas wall hanging furnace, for compensatory pressure changes, also be provided with expansion drum 209 in the shell structure 203 of burnt gas wall hanging furnace, expansion drum 209 is positioned at outside the combustion chamber 208.
Still consult Fig. 1, heating loop assembly 3 comprises that floor heating coil pipe 31(also can be radiator), circulating pump 32, temperature sensor 34, pipeline 33 etc.; Floor heating coil pipe 31 connects and composes the peripheral passage by pipeline 33 and heating coil 14, and circulating pump 32 is arranged on the connecting line.Temperature sensor 34 and circulating pump 32 are electrically connected control assembly 5, temperature sensor 34 is gathered indoor temperature, and when when control assembly 5 arranges heating mode, circulating pump 32 is according to the temperature difference of actual indoor temperature with the temperature that sets, select to start and close, thereby the house is heated.
Consult Fig. 4 again, air energy heat pump assembly 4 comprises compressor 41, evaporimeter 45, throttling arrangement 44, fan 47, motor 46, automatically controlled plate 48 etc.Wherein compressor 41, evaporimeter 45, throttling arrangement 44 connects by the copper pipe road, can coil pipe 12 be connected by tube connector with air in the water tank, form a closed loop for refrigeration working medium (being also referred to as refrigerant) circulation, its operation principle is: compressor 41 starts and compresses the cryogenic gas of flash-pot 45, discharge the gas of HTHP from compressor 41 exhaust outlets, behind the energy of the air in water tank coil pipe 12, high temperature refrigerant can carry out heat exchange with its water on every side in the coil pipe 12 at air, become the liquid of temperature in the high pressure through the refrigerant after the heat release, pass through throttling arrangement 44 afterwards, refrigerant becomes the liquid of low-temp low-pressure, thereby enter evaporimeter 45, by fan 47 and motor 46 it is carried out forced heat-exchanging, make the refrigerant fast Absorption from airborne heat, the refrigerant behind the absorption heat becomes the gas of low-temp low-pressure, and final gas is sucked back by compressor 41, thereby finish a working cycles, the water in the water tank constantly circulates by refrigerant exactly and then constantly obtains heating.Filter 43 is used for refrigerant is filtered before being arranged at throttling arrangement 44.
The above only is embodiment of the present utility model; be not so limit claim of the present utility model; every equivalent structure or equivalent flow process conversion that utilizes the utility model specification and accompanying drawing content to do; or directly or indirectly be used in other relevant technical fields, all in like manner be included in the scope of patent protection of the present utility model.
Claims (9)
1. an energy mix long-distance intelligent control heat supply heating system is characterized in that, comprises attemperater assembly, burnt gas wall hanging furnace assembly, heating loop assembly, air energy heat pump assembly, control assembly, control terminal;
Described attemperater assembly comprises inner water tank, and inner water tank bottom and top are respectively equipped with water inlet pipe and outlet pipe, and inner water tank inside is disposed with burnt gas wall hanging furnace coil pipe, heating coil and air energy coil pipe from top to bottom between water inlet pipe and outlet pipe; Described burnt gas wall hanging furnace coil pipe connects described burnt gas wall hanging furnace assembly, and described heating coil connects described heating loop assembly, and described air can connect the air energy heat pump assembly by coil pipe;
Described burnt gas wall hanging furnace assembly, heating loop assembly and air energy heat pump assembly all are electrically connected described control assembly; Described control terminal is connected by wireless network with described control assembly.
2. energy mix long-distance intelligent according to claim 1 is controlled the heat supply heating system, and it is characterized in that: described control assembly comprises controller housing, is positioned at controller mainboard and the wireless communication module of controller housing; The 3G module that described wireless communication module comprises 3G communication module MCU, connect 3G communication module MCU respectively and 485 communicating circuits, the antenna and the SIM that are connected with the 3G module respectively; Described 485 communicating circuits connect described controller mainboard.
3. energy mix long-distance intelligent according to claim 1 is controlled the heat supply heating system, and it is characterized in that: described burnt gas wall hanging furnace assembly comprises burnt gas wall hanging furnace, heat-transfer working medium; Described burnt gas wall hanging furnace comprises combustion chamber, heat exchanger, water pump and electrical control module; Described heat exchanger is positioned at described combustion chamber, and the burnt gas wall hanging furnace coil pipe in heat exchanger and the described attemperater assembly connects and composes the closed circuit that flows for described heat-transfer working medium by pipeline, and described water pump is arranged on this closed circuit; Described water pump is electrically connected described electrical control module, and the electrical control module is electrically connected described control assembly.
4. energy mix long-distance intelligent according to claim 3 control heat supply heating system is characterized in that: described electrical control module comprises the blast switch that starts described water pump for the blower fan of giving described exhaust combustion chamber, when being used in the combustion chamber for negative pressure state, be used for gas ratio valve that behind starting mode of pump control enters gas quantity in the combustion chamber, for detection of flue gas and under abnormal conditions control cut off the flue gas inductive switch of gas ratio valve; Described blast switch is electrically connected described water pump and gas ratio valve, and described flue gas inductive switch is electrically connected described gas ratio valve.
5. energy mix long-distance intelligent according to claim 3 is controlled the heat supply heating system, and it is characterized in that: also be provided with expansion drum in the described burnt gas wall hanging furnace, described expansion drum is positioned at outside the described combustion chamber.
6. energy mix long-distance intelligent according to claim 1 control heat supply heating system is characterized in that: described heating loop assembly comprises circulating pump, floor heating coil pipe or radiator, for detection of the temperature sensor of indoor temperature; Described floor heating coil pipe or radiator are connected by pipeline with heating coil in the described attemperater assembly, and described circulating pump is set on connecting line; Described circulating pump and described temperature sensor are electrically connected described control assembly.
7. according to each described energy mix long-distance intelligent control heat supply heating system of claim 1-6, it is characterized in that: described inner water tank is enamel or stainless steel; Inner water tank is socketed with tank shell outward, is filled with insulation bubble material between tank shell and the inner water tank.
8. according to each described energy mix long-distance intelligent control heat supply heating system of claim 1-6, it is characterized in that: described water inlet pipe place is equipped with safety valve.
9. according to each described energy mix long-distance intelligent control heat supply heating system of claim 1-6, it is characterized in that: described burnt gas wall hanging furnace coil pipe and heating coil are stainless steel tube or fin steel pipe, and described air can coil pipe be siphunculus or gapless stainless steel tube.
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CN2012207280781U CN203052807U (en) | 2012-12-25 | 2012-12-25 | Hybrid-energy remote-intelligent-control heating system |
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CN2012207280781U CN203052807U (en) | 2012-12-25 | 2012-12-25 | Hybrid-energy remote-intelligent-control heating system |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110553388A (en) * | 2018-06-04 | 2019-12-10 | 简道宝 | Gasification heating machine |
CN111795420A (en) * | 2020-06-03 | 2020-10-20 | 优艾特仪表科技成都有限公司 | Gas-electric hybrid heating control system and control method thereof |
-
2012
- 2012-12-25 CN CN2012207280781U patent/CN203052807U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110553388A (en) * | 2018-06-04 | 2019-12-10 | 简道宝 | Gasification heating machine |
CN111795420A (en) * | 2020-06-03 | 2020-10-20 | 优艾特仪表科技成都有限公司 | Gas-electric hybrid heating control system and control method thereof |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20130710 Termination date: 20161225 |
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CF01 | Termination of patent right due to non-payment of annual fee |