CN109827221A - A kind of modularized combination type Intelligent heating system based on a variety of clean energy resourcies - Google Patents

Abstract

The present invention is a kind of modularized combination type Intelligent heating system based on a variety of clean energy resourcies, it includes heat network system and heat user, its main feature is that: it further include heat source integration module complementation heating system and the wisdom control system that source-net-lotus is coordinated.The heat source integration module complementation heating system includes heat source integration module, diurnal storage water tank and First Heat Exchanger, the modularized combination type Intelligent heating system based on a variety of clean energy resourcies can be according to local resources condition, weather condition selection heat source module combination, short term thermal load variations trend is predicted according to for hot season weather forecast, and then the wisdom control system coordinated using source-net-lotus carries out intelligent adjusting to heat supply network and heat source, to realize the clean energy resource heat supply of minimal heat loss.It is particularly suitable for the domain types heat supplies such as public building, enterprise campus, the residential area that town and country central heating network can not cover.

Description

A kind of modularized combination type Intelligent heating system based on a variety of clean energy resourcies

Technical field

The invention belongs to central heating, are a kind of modularized combination type Intelligent heating systems based on a variety of clean energy resourcies.

Background technique

Winter northern area coal heating causes haze to aggravate, and abandonment abandoning light is serious, and the advantage of renewable and clean energy resource becomes It obtains more significant.Solar energy heating heat supply can inexpensive be people's heat supply and provide domestic hot-water, but individually use solar energy There are loads to be difficult to ensure for heating system, influenced by weather condition variation, the problem greatly such as poor continuity；Solar cross-season heat accumulation Heat supply process can efficiently use summer solar energy resources abundant, but its heat storage is unstable, technology not yet full maturity, Available energy is relatively unstable when Winter heat supply.

Although air source heat pump can utmostly save electric energy, environmentally protective, service life is high, is fluctuated by outside air temperature Influence extremely unstable and inconsistent there are the calorific requirement of the heating load and heating season weakness of gas motion；Water resource heat pump is because of water Resource area difference is restricted its large scale application；Biomass boiler heat supply was not only environmentally protective but also economical, Er Qiesheng Substance is renewable energy, and heat supply restriction condition is few, flexible form, but biomass energy utilization there are resource provisioning abilities not The problems such as foot, resource dispersion, raw material compiling costs is high.

From the above problem as can be seen that several energy heat supply process will receive own resource situation when being used alone It influences, and once breaks down without substitution heat source, cause heating system safety in operation and stability poor, so proposing The idea of various energy resources system modular combination, realizes various energy resources coupling in the single insufficient situation of energy heat supply, The public building that can not be covered for town and country central heating network, enterprise campus, residential area provide stablize abundance life it is hot, Based on these problems, we have developed a kind of energy moduleizations to combine wisdom heating system.

Summary of the invention

The technical problems to be solved by the present invention are: the shortcomings that overcoming the prior art, provides a kind of with a variety of renewable The Intelligent heating system of energy complementation feature, by solar cross-season heat accumulation, water resource and air resource heat pump and biomass boiler are organic It combines, economical and effective intelligently heats to heat user.

The scheme that the present invention solves technical problem is: a kind of modularized combination type intelligent heat supply based on a variety of clean energy resourcies System, it includes heat network system and heat user, it is characterized in that: further including heat source integration module complementation heating system and source-net-lotus The wisdom control system of coordination, the heat source integration module complementation heating system include heat source integration module, diurnal storage water tank And First Heat Exchanger, the accumulation of heat import connection of the hot water outlet of the heat source integration module and the diurnal storage water tank, hot water Import and the accumulation of heat of diurnal storage water tank, which export, to be connected, in the accumulation of heat of the hot water inlet and diurnal storage water tank of heat source integration module First circulation is arranged between outlet to pump, the diurnal storage water tank take heat outlet by the heat supply of heat network system and heat user to Water connection takes hot import to connect by the heat supply return water of heat network system and heat user, the wisdom control that the source-net-lotus is coordinated System is electrically connected with the shut-off valve of heat source integration module and circulating pump respectively, the wisdom control system that source-net-lotus is coordinated respectively with Diurnal storage water tank, heat source integration module cross-season heat-storage water tank connected with heat user signal.

The heat source integration module includes cross-season heat-storage water tank, main feed water pipe, main water return tube, first circulation pump, the sun Energy heating unit, water source heat supplying loop, air-source heat supplying loop and biomass boiler heat supplying loop, the cross-season heat-storage water tank It is connect by the main feed water pipe as heat source integration module hot water outlet with the accumulation of heat import of diurnal storage water tank, by as heat The accumulation of heat of the main water return tube and diurnal storage water tank of source integration module hot water inlet, which exports, to be connected, and first is arranged on main water return tube The first shut-off valve is arranged in circulating pump on main feed water pipe, on main water return tube, between first circulation pump and cross-season heat-storage water tank Second shut-off valve is set, and cross-season heat-storage water tank, main feed water pipe, diurnal storage water tank, first circulation pump and main water return tube are constituted Cross-season heat-storage water tank heat supplying loop；The solar-heating unit is connect with cross-season heat-storage water tank, by solar energy conversion For thermal energy storage in cross-season heat-storage water tank, solar-heating unit and cross-season heat-storage water tank heat supplying loop collectively form the sun It can heat supplying loop；The thermal energy of cross-season heat-storage water tank is passed through heat exchange several times by the water source heat supplying loop, is converted to water source The hot water of heat supplying loop is heat user heat supply；Air can be passed through heat exchange several times by the air-source heat supplying loop, be converted to The hot water of air-source heat supplying loop is heat user heat supply；The thermal energy that the biomass boiler heat supplying loop generates biomass combustion The hot water for being converted to biomass boiler heat supplying loop is heat user heat supply.

The structure of the solar-heating unit is: it include solar thermal collector, the second heat exchanger, second circulation pump and Third circulating pump, the outlet of the solar thermal collector is connected to the heat donor passage entrance of second heat exchanger, entrance and The heat donor passage outlet of two heat exchangers pumps, solar energy collection in the heat donor passage outlet setting second circulation of the second heat exchanger Hot device, the second heat exchanger heat donor passage and second circulation pump constitute solar heat exchange cycles circuit；Second heat exchanger takes heat Channel outlet is connect with the accumulation of heat entrance of cross-season heat-storage water tank by third shut-off valve, passage of heat entrance is taken to pass through the 4th cut-off The accumulation of heat of valve and cross-season heat-storage water tank, which exports, to be connected, and takes passage of heat inlet that third circulating pump is arranged in the second heat exchanger, Second heat exchanger takes the passage of heat, cross-season heat-storage water tank and third circulating pump to constitute across season heat exchange circulation circuit, solar energy The thermal energy that heat collector obtains is by solar heat exchange cycles circuit and across season heat exchange circulation circuit in the second heat exchanger Heat exchange is stored in cross-season heat-storage water tank after increasing temperature.

The water source heat supplying loop includes water source heat exchanger, heat pump and third heat exchanger, the heat supply of the water source heat exchanger Feeder connection and main feed water pipe are connected between the first shut-off valve and cross-season heat-storage water tank by triple valve, heat donor passage exports It is connect with main water return tube, at water source, the 5th shut-off valve is arranged in the heat donor passage inlet of heat exchanger, and the heat supply of water source heat exchanger is logical Road, main water return tube, cross-season heat-storage water tank and main feed water pipe form cross-season heat-storage water tank and the first heat of water source heat exchanger is handed over Change circulation loop；The heat supply for taking passage of heat outlet to connect with heat pump and passing through heat pump and third heat exchanger of water source heat exchanger is logical The connection of road entrance, water source heat exchanger take passage of heat entrance to connect by the outlet of the heat donor passage of the 6th shut-off valve and third heat exchanger It connects, the heat donor passage for taking the passage of heat, heat pump, third heat exchanger of water source heat exchanger forms water source heat exchanger and third heat exchanger Second heat exchange circulation circuit；Third heat exchanger takes passage of heat outlet to connect and lead to main feed water pipe by the 7th shut-off valve Main feed water pipe is crossed to connect with the accumulation of heat import of diurnal storage water tank, interface between the first shut-off valve and diurnal storage water tank, Third heat exchanger takes passage of heat entrance to connect with main water return tube by the 8th shut-off valve and passes through main water return tube and first circulation The accumulation of heat of pump and diurnal storage water tank exports connection, and interface is located between the second shut-off valve and first circulation pump, forms third and changes The thermal energy of the third heat exchange loop of hot device and diurnal storage water tank, cross-season heat-storage water tank is returned by the first heat exchange circulation The successively heat exchange on road, the second heat exchange circulation circuit, third heat exchange loop is converted to the hot water of water source heat supplying loop as heat User's heat supply.

The air-source heat supplying loop includes air source heat exchanger, and the heat donor passage of the air source heat exchanger and the external world are even Logical, air source heat exchanger takes the passage of heat to export the heat donor passage entrance that heat pump Yu third heat exchanger are connect and passed through with heat pump Connection, air source heat exchanger take passage of heat entrance to connect by the outlet of the heat donor passage of the 9th shut-off valve and third heat exchanger, The heat donor passage for taking the passage of heat, heat pump and third heat exchanger of air source heat exchanger forms air source heat exchanger and third heat exchanger The 4th heat exchange circulation circuit, the 4th heat exchange circulation circuit and the heat exchange of third heat exchange loop are converted to air-source confession The hot water of hot loop is heat user heat supply.

The biomass boiler heat supplying loop includes biomass boiler and the 4th heat exchanger, the heat supply of the biomass boiler Outlet connect with the heat donor passage entrance of the 4th heat exchanger, the heat donor passage of heat supply entrance and the 4th heat exchanger exports connection, institute That states the 4th heat exchanger takes passage of heat outlet to connect by the tenth shut-off valve with main feed water pipe and store by main feed water pipe with short-term The accumulation of heat import of boiler connects, and for interface between the first shut-off valve and diurnal storage water tank, the 4th heat exchanger takes heat logical Road entrance connect with main water return tube by the 11st shut-off valve and passes through main water return tube and first circulation pump and diurnal storage water tank Accumulation of heat export connection, interface is located between the second shut-off valve and first circulation pump, and is converted to biomass boiler heat supplying loop Hot water is heat user heat supply.

Phase-transition heat-storage body, internal filled composite are respectively set in the cross-season heat-storage water tank and diurnal storage water tank Phase-change material.

Temperature sensor is respectively set in the cross-season heat-storage water tank and diurnal storage water tank.

The wisdom control system and the first shut-off valve~the 11st shut-off valve, triple valve, first that the source-net-lotus is coordinated Circulating pump~third circulating pump, First Heat Exchanger~the 4th heat exchanger and solar thermal collector electrical connection, what source-net-lotus was coordinated Respectively arranged temperature sensor and heat user are believed in wisdom control system and cross-season heat-storage water tank and diurnal storage water tank Number connection.

The solar thermal collector is vacuum tube solar heating element.

The course of work of the invention is:

1 when sunny and cross-season heat-storage water tank heat supplying loop not heat supply, opens third shut-off valve and the 4th cut-off The solar energy collected is passed through solar heat exchange cycles by valve, starting second circulation pump and third circulating pump, solar thermal collector Circuit and across season heat exchange circulation circuit are stored in cross-season heat-storage water after the heat exchange of the second heat exchanger, raising temperature Case, when cross-season heat-storing water tank temperature reach assigned temperature when, close third shut-off valve, the 4th shut-off valve, second circulation pump and Third circulating pump.

2 when heat meets heat demand in cross-season heat-storing water tank, heat supplying loop of cutting off the water supply, air-source heat supplying loop With biomass boiler heat supplying loop, the left and right access of the first shut-off valve, the second shut-off valve and triple valve is opened, closes the 5th cut-off Valve~the 11st shut-off valve, starting first circulation pump, can open solar-heating circuit is heat user heat supply；

3 when heat is unsatisfactory for heat demand in cross-season heat-storing water tank, while opening cross-season heat-storage water tank heat supply and returning Road, air-source heat supplying loop and water source heat supplying loop, process are: when outdoor temperature is higher, opening the 5th shut-off valve~9th The left access of shut-off valve and triple valve closes the first shut-off valve, the second shut-off valve, the tenth shut-off valve and the 11st shut-off valve, Start air source heat exchanger, third heat exchanger and first circulation pump, closes water source heat exchanger, solar-heating circuit can be opened It is heat user heat supply with air-source heat supplying loop；When outdoor temperature is lower, the 5th shut-off valve~the 8th shut-off valve and threeway are opened The left access of valve closes the first shut-off valve, the second shut-off valve, the 9th shut-off valve~the 11st shut-off valve, the heat exchange of starting water source Device, third heat exchanger and first circulation pump, close air source heat exchanger, can open solar-heating circuit and water source heat supply is returned Road is heat user heat supply；

4 when needing peak regulation, opens the tenth shut-off valve and the 11st shut-off valve, close the first shut-off valve, the second shut-off valve, 5th shut-off valve~the 9th shut-off valve, starting biomass boiler, the 4th heat exchanger and first circulation pump, can open biomass pot Furnace heat supplying loop is user's heat supply；

5 when various energy resources module complementary operation, and the wisdom control system that source-net-lotus is coordinated is according to cross-season heat-storage water The signal of the signal of respectively arranged temperature sensor transmission and heat user transmission, passes through control in case and diurnal storage water tank The direction switching and aperture, first circulation pump~third circulating pump of first shut-off valve~the 11st shut-off valve aperture, triple valve Starting or closing, First Heat Exchanger~the 4th heat exchanger starting or closing, open each heating cycle of heat source integration module Circuit, to meet the variation of user's thermic load.

The beneficial effects of the present invention are: the use of non-renewable energy is avoided, and in the case where meeting user's heat demand, section Energy, environmental protection, meanwhile, wisdom control system can predict thermic load variation according to user's thermic load and environmental factor, and to heat Source carries out module starting configuration, and it is optimal to reach Technical Economy.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the modularized combination type Intelligent heating system of the invention based on a variety of clean energy resourcies.

In figure, 1 solar thermal collector, 2 second heat exchangers, 3 cross-season heat-storage water tanks, 4 water source heat exchangers, 5 air-sources are changed Hot device, 6 heat pumps, 7 third heat exchangers, 8 biomass boilers, 9 the 4th heat exchangers, 10 diurnal storage water tanks, 11 First Heat Exchangers, 12 Heat user, 13 second circulations pump, 14 third circulating pumps, 15 first circulations pump, V1 third shut-off valve, the 4th shut-off valve of V2, V3 the Five shut-off valves, the first shut-off valve of V4, the second shut-off valve of V5, the 6th shut-off valve of V6, the 9th shut-off valve of V7, the 7th shut-off valve of V8, V9 8th shut-off valve, the tenth shut-off valve of V10, the 11st shut-off valve of V11.

Specific embodiment

Present invention will be further explained below with reference to the attached drawings and examples.

Referring to Fig. 1, embodiment 1, a kind of modularized combination type intelligent heat supply system based on a variety of clean energy resourcies of the present embodiment System, it includes heat network system and heat user, further includes heat source integration module complementation heating system and the wisdom that source-net-lotus is coordinated Control system, the heat source integration module complementation heating system include that heat source integration module, diurnal storage water tank 10 and first change The accumulation of heat import connection of hot device 15, the hot water outlet of the heat source integration module and the diurnal storage water tank 10, hot water inlet Accumulation of heat with diurnal storage water tank 10, which exports, to be connected, in the accumulation of heat of the hot water inlet and diurnal storage water tank 10 of heat source integration module First circulation is set between outlet and pumps 15, the confession for taking heat outlet to pass through heat network system and heat user of the diurnal storage water tank 10 Hot water supply connection takes hot import to connect by the heat supply return water of heat network system and heat user, the wisdom that the source-net-lotus is coordinated Control system is electrically connected with the shut-off valve of heat source integration module and circulating pump respectively, the wisdom control system that source-net-lotus is coordinated point It is not connect with diurnal storage water tank 10, the cross-season heat-storage water tank 3 of heat source integration module and heat user signal.

The heat source integration module include cross-season heat-storage water tank 3, main feed water pipe, main water return tube, first circulation pump 15, too Positive energy heating unit, water source heat supplying loop, air-source heat supplying loop and biomass boiler heat supplying loop, the cross-season heat-storage water Case 3 is connect with the accumulation of heat import of diurnal storage water tank 10 by the main feed water pipe as heat source integration module hot water outlet, is passed through The accumulation of heat of main water return tube and diurnal storage water tank 10 as heat source integration module hot water inlet, which exports, to be connected, on main water return tube Be arranged first circulation pump 15, the first shut-off valve V4 is set on main feed water pipe, on main water return tube, first circulation pump 15 with across season Second shut-off valve V5, cross-season heat-storage water tank 3, main feed water pipe, diurnal storage water tank 10, first are set between section hot water storage tank 3 Circulating pump 15 and main water return tube constitute cross-season heat-storage water tank heat supplying loop；The solar-heating unit and cross-season heat-storage water Case 3 connects, by the thermal energy storage of solar energy conversion in cross-season heat-storage water tank 3, solar-heating unit and cross-season heat-storage Water tank heat supplying loop collectively forms solar-heating circuit；The water source heat supplying loop passes through the thermal energy of cross-season heat-storage water tank 3 After heat exchange several times, the hot water for being converted to water source heat supplying loop is heat user heat supply；The air-source heat supplying loop is by air Heat exchange several times can be passed through, the hot water for being converted to air-source heat supplying loop is heat user heat supply；The biomass boiler heat supply The hot water that the thermal energy that biomass combustion generates is converted to biomass boiler heat supplying loop is heat user heat supply by circuit.

The structure of the solar-heating unit is: it includes solar thermal collector 1, the second heat exchanger 2, second circulation pump 13 and third circulating pump 14, the outlet of the solar thermal collector 1 is connected to the heat donor passage entrance of second heat exchanger 2, The heat donor passage outlet of entrance and the second heat exchanger 2 is pumped in the heat donor passage outlet setting second circulation of the second heat exchanger 2 13, solar thermal collector 1, the heat donor passage of the second heat exchanger 2 and second circulation pump 13 constitute solar heat exchange cycles circuit； Second heat exchanger 2 takes passage of heat outlet to connect with the accumulation of heat entrance of cross-season heat-storage water tank 3 by third shut-off valve V1, take heat Feeder connection is exported by the accumulation of heat of the 4th shut-off valve V2 and cross-season heat-storage water tank 3 and is connected, and takes heat logical in the second heat exchanger 2 Third circulating pump 14 is arranged in road inlet, and the second heat exchanger 2 takes the passage of heat, cross-season heat-storage water tank 3 and third circulating pump 14 Constitute across season heat exchange circulation circuit, the thermal energy that solar thermal collector 1 obtains by solar heat exchange cycles circuit with across Season heat exchange circulation circuit is stored in cross-season heat-storage water tank 3 after the heat exchange of the second heat exchanger 2, raising temperature.

The water source heat supplying loop includes water source heat exchanger 4, heat pump 6 and third heat exchanger 7, the water source heat exchanger 4 Heat donor passage entrance and main feed water pipe are connected between the first shut-off valve V4 and cross-season heat-storage water tank 3, are supplied by triple valve 16 Passage of heat outlet is connect with main water return tube, and at water source, the 5th shut-off valve V3 is arranged in the heat donor passage inlet of heat exchanger 4, and water source changes Heat donor passage, main water return tube, cross-season heat-storage water tank 3 and the main feed water pipe of hot device 4 form cross-season heat-storage water tank 3 and change with water source First heat exchange circulation circuit of hot device 4；Water source heat exchanger 4 take the passage of heat export connect with heat pump 6 and passes through heat pump 6 and The heat donor passage entrance of third heat exchanger 7 connects, and water source heat exchanger 4 takes passage of heat entrance to pass through the 6th shut-off valve V6 and third The heat donor passage of heat exchanger 7 exports connection, the heat donor passage shape for taking the passage of heat, heat pump 6, third heat exchanger 7 of water source heat exchanger 4 At the second heat exchange circulation circuit of water source heat exchanger 4 and third heat exchanger 7；Third heat exchanger 7 takes passage of heat outlet to pass through 7th shut-off valve V8 connect with main feed water pipe and is connect by main feed water pipe with the accumulation of heat import of diurnal storage water tank 10, interface Between the first shut-off valve V4 and diurnal storage water tank 10, third heat exchanger 7 takes passage of heat entrance to pass through with main water return tube 8th shut-off valve V9 connects and passes through main water return tube and first circulation pump 15 and the accumulation of heat outlet of diurnal storage water tank 10 connects, Interface is located between the second shut-off valve V5 and first circulation pump 15, forms the third of third heat exchanger 7 and diurnal storage water tank 10 The thermal energy in heat exchange circulation circuit, cross-season heat-storage water tank 3 is returned by the first heat exchange circulation circuit, the second heat exchange circulation The successively heat exchange on road, third heat exchange circulation circuit, the hot water for being converted to water source heat supplying loop is heat user heat supply.

The air-source heat supplying loop includes air source heat exchanger 5, the heat donor passage of the air source heat exchanger 5 and the external world Connection, air source heat exchanger 5 take passage of heat outlet to connect with heat pump 6 and are led to by the heat supply of heat pump 6 and third heat exchanger 7 The connection of road entrance, air source heat exchanger 5 take heat donor passage of the passage of heat entrance by the 9th shut-off valve V7 and third heat exchanger 7 The heat donor passage for taking the passage of heat, heat pump 6 and third heat exchanger 7 of outlet connection, air source heat exchanger 5 forms air source heat exchanger 5 with the 4th heat exchange circulation circuit of third heat exchanger 7, the 4th heat exchange circulation circuit and the heat exchange of third heat exchange loop, The hot water for being converted to air-source heat supplying loop is heat user heat supply.

The biomass boiler heat supplying loop includes biomass boiler 8 and the 4th heat exchanger 9, the biomass boiler 8 Heat supply outlet connect with the heat donor passage entrance of the 4th heat exchanger 9, the heat donor passage of heat supply entrance and the 4th heat exchanger 9 exports company It connects, the 4th heat exchanger 9 takes passage of heat outlet to connect with main feed water pipe and by the tenth shut-off valve V10 by main water supply Pipe is connect with the accumulation of heat import of diurnal storage water tank 10, and interface is between the first shut-off valve V4 and diurnal storage water tank 10, and the Four heat exchangers 9 take passage of heat entrance to connect with main water return tube by the 11st shut-off valve V11 and pass through main water return tube and first The accumulation of heat of circulating pump 15 and diurnal storage water tank 10 exports connection, interface is located at the second shut-off valve V5 and first circulation pump 15 it Between, the hot water for being converted to biomass boiler heat supplying loop is heat user heat supply.

Phase-transition heat-storage body is respectively set in the cross-season heat-storage water tank 3 and diurnal storage water tank 10, fills in vivo Composite phase-change material.

Temperature sensor is respectively set in the cross-season heat-storage water tank 3 and diurnal storage water tank 10.

The wisdom control system and the first shut-off valve V11 of shut-off valve V4~the 11st, triple valve that the source-net-lotus is coordinated 16, first circulation pumps 15~third circulating pump 14, First Heat Exchanger 15~the 4th heat exchanger 9, heat pump 6 and solar thermal collector 1 It is electrically connected, is set respectively in the wisdom control system and cross-season heat-storage water tank 3 and diurnal storage water tank 10 that source-net-lotus is coordinated The temperature sensor set is connected with heat user signal.

The present embodiment is manufactured using the prior art, the wisdom control system, the first shut-off valve of shut-off valve V4~the 11st V11, triple valve 16, first circulation pump 15~third circulating pump 14, heat pump 6, temperature sensor and solar thermal collector 1 are existing There is the commercial product of technology

The present embodiment is used for heat accumulation, in sunny and cross-season heat-storage water tank heat supplying loop not heat supply, opens third Shut-off valve V1 and the 4th shut-off valve V2, starting second circulation pump 13 and third circulating pump 14, solar thermal collector 1 will be collected too Sun can heat exchange, raising in the second heat exchanger 2 by solar heat exchange cycles circuit and across season heat exchange circulation circuit It is stored in cross-season heat-storage water tank 3 after temperature, when cross-season heat-storing water tank temperature reaches assigned temperature, closes third shut-off valve V1, the 4th shut-off valve V2, second circulation pump 13 and third circulating pump 14.

Embodiment 2, the present embodiment is substantially the same manner as Example 1, the difference is that: use solar-heating circuit for heat User's heat supply, process are: when heat meets heat demand in cross-season heat-storing water tank, heat supplying loop of cutting off the water supply, air Source heat supplying loop and biomass boiler heat supplying loop open the left and right of the first shut-off valve V4, the second shut-off valve V5 and triple valve 16 Access, closes the 5th shut-off valve V11 of shut-off valve V3~the 11st, and starting first circulation pump 15 can open solar-heating circuit For heat user heat supply.

Embodiment 3, the present embodiment is substantially the same manner as Example 1, the difference is that: due to hot in cross-season heat-storing water tank Amount is unsatisfactory for heat demand, while opening cross-season heat-storage water tank heat supplying loop, air-source heat supplying loop and water source heat supplying loop, Its process is: when outdoor temperature is higher, opening the left access of the 5th shut-off valve V7 of shut-off valve V3~the 9th and triple valve 16, closes Close the first shut-off valve V4, the second shut-off valve V5, the tenth shut-off valve V10 and the 11st shut-off valve V11, starting air source heat exchanger 5, Third heat exchanger 7 and first circulation pump 15, close water source heat exchanger 4, can open solar-heating circuit and air-source heat supply Circuit is heat user heat supply；When outdoor temperature is lower, a left side of the 5th shut-off valve V3~the 8th shut-off valve V9 and triple valve 16 is opened Middle access, closes the first shut-off valve V4, the second shut-off valve V5, the 9th shut-off valve V11 of shut-off valve V7~the 11st, and starting water source changes Hot device 4, third heat exchanger 7 and first circulation pump 15, close air source heat exchanger 5, can open solar-heating circuit and water Source heat supplying loop is heat user heat supply；

Embodiment 4, the present embodiment is substantially the same manner as Example 1, the difference is that: open biomass boiler heat supplying loop For needing peak regulation, process is: opening the tenth shut-off valve V10 and the 11st shut-off valve V11, closes the first shut-off valve V4, the Two shut-off valve V5, the 5th shut-off valve V7 of shut-off valve V3~the 9th, starting biomass boiler 8, the 4th heat exchanger 9 and first circulation pump 15, can open biomass boiler heat supplying loop is user's heat supply；

Embodiment 5, the present embodiment is substantially the same manner as Example 1, the difference is that: it is transported using the complementation of various energy resources module Row, process is: the wisdom control system that source-net-lotus is coordinated is according to equal in cross-season heat-storage water tank 3 and diurnal storage water tank 10 The signal of respectively arranged temperature sensor transmission and the signal of heat user transmission, by controlling the first shut-off valve V4~the 11st The aperture of shut-off valve V11, the direction switching of triple valve 16 and aperture, the starting of first circulation pump 15~third circulating pump 14 or pass It closes, First Heat Exchanger 15~the 4th heat exchanger 9 starting or closing, each heating cycle circuit of heat source integration module intercouples It is open-minded, it is randomly generated solar energy, electric energy, biomass energy, and by its heat input into diurnal storage water tank 10, to meet user Thermic load variation.

Place is not described in detail by the present invention, is the well-known technique of those skilled in the art of the present technique.Above-described embodiment is only used simultaneously To illustrate technical solution of the present invention rather than limit, for the ordinary skill in the art, technical solution of the present invention It can make improvements or replace, these are all within the scope of protection of the present invention.Therefore, the protection model of the invention patent Enclosing should be determined by the appended claims.

Claims (9)

1. a kind of modularized combination type Intelligent heating system based on a variety of clean energy resourcies, it includes heat network system and heat user, It is characterized in that: further including heat source integration module complementation heating system and the wisdom control system that source-net-lotus is coordinated, the heat source Integration module complementation heating system includes heat source integration module, diurnal storage water tank and First Heat Exchanger, and the heat source integrates mould The hot water outlet of block and the accumulation of heat import connection of the diurnal storage water tank, the accumulation of heat outlet of hot water inlet and diurnal storage water tank Connection, setting first circulation pumps between the accumulation of heat outlet of the hot water inlet and diurnal storage water tank of heat source integration module, described Diurnal storage water tank takes heat outlet to connect by the heat supply water supply of heat network system and heat user, hot import is taken to pass through heat network system It is connect with the heat supply return water of heat user, the wisdom control system cut-off with heat source integration module respectively that the source-net-lotus is coordinated Valve and circulating pump electrical connection, the wisdom control system that source-net-lotus is coordinated respectively with diurnal storage water tank, heat source integration module Cross-season heat-storage water tank is connected with heat user signal.

2. as described in claim 1 based on the modularized combination type Intelligent heating system of a variety of clean energy resourcies, it is characterized in that: institute State heat source integration module include cross-season heat-storage water tank, main feed water pipe, main water return tube, first circulation pump, solar-heating unit, Water source heat supplying loop, air-source heat supplying loop and biomass boiler heat supplying loop, the cross-season heat-storage water tank pass through as heat The main feed water pipe of source integration module hot water outlet is connect, by as heat source integration module with the accumulation of heat import of diurnal storage water tank The accumulation of heat of the main water return tube and diurnal storage water tank of hot water inlet, which exports, to be connected, and first circulation is arranged on main water return tube and pumps, First shut-off valve is set on main feed water pipe, is arranged second on main water return tube, between first circulation pump and cross-season heat-storage water tank Shut-off valve, cross-season heat-storage water tank, main feed water pipe, diurnal storage water tank, first circulation pump and main water return tube constitute across season storage Boiler heat supplying loop；The solar-heating unit is connect with cross-season heat-storage water tank, the thermal energy storage that solar energy is converted In cross-season heat-storage water tank, solar-heating unit and cross-season heat-storage water tank heat supplying loop collectively form solar-heating and return Road；The thermal energy of cross-season heat-storage water tank is passed through heat exchange several times by the water source heat supplying loop, is converted to water source heat supplying loop Hot water be heat user heat supply；Air can be passed through heat exchange several times by the air-source heat supplying loop, be converted to air-source confession The hot water of hot loop is heat user heat supply；The biomass boiler heat supplying loop makes a living the thermal energy conversion that biomass combustion generates The hot water in substance boiler heat supplying circuit is heat user heat supply.

3. as claimed in claim 2 based on the modularized combination type Intelligent heating system of a variety of clean energy resourcies, it is characterized in that: institute The structure for stating solar-heating unit is: it includes solar thermal collector, the second heat exchanger, second circulation pump and third circulation Pump, the outlet of the solar thermal collector is connected to the heat donor passage entrance of second heat exchanger, entrance and the second heat exchanger Heat donor passage outlet, the second heat exchanger heat donor passage outlet setting second circulation pump, solar thermal collector, second Heat exchanger heat donor passage and second circulation pump constitute solar heat exchange cycles circuit；Second heat exchanger takes passage of heat outlet logical Third shut-off valve is crossed to connect with the accumulation of heat entrance of cross-season heat-storage water tank, take passage of heat entrance by the 4th shut-off valve and across season The accumulation of heat of hot water storage tank exports connection, takes passage of heat inlet that third circulating pump, the second heat exchanger is arranged in the second heat exchanger The passage of heat, cross-season heat-storage water tank and third circulating pump is taken to constitute across season heat exchange circulation circuit, solar thermal collector obtains Thermal energy by solar heat exchange cycles circuit and across season heat exchange circulation circuit the second heat exchanger heat exchange, increase Cross-season heat-storage water tank is stored in after temperature.

4. as claimed in claim 2 based on the modularized combination type Intelligent heating system of a variety of clean energy resourcies, it is characterized in that: institute Stating water source heat supplying loop includes water source heat exchanger, heat pump and third heat exchanger, the heat donor passage entrance of the water source heat exchanger with Main feed water pipe is connected between the first shut-off valve and cross-season heat-storage water tank by triple valve, heat donor passage exports and main water return tube Connection, at water source, the 5th shut-off valve, the heat donor passage of water source heat exchanger, main return water is arranged in the heat donor passage inlet of heat exchanger Pipe, cross-season heat-storage water tank and main feed water pipe form cross-season heat-storage water tank and the first heat exchange circulation of water source heat exchanger returns Road；The heat donor passage entrance for taking passage of heat outlet to connect with heat pump and passing through heat pump and third heat exchanger of water source heat exchanger connects It connects, water source heat exchanger takes passage of heat entrance to connect by the outlet of the heat donor passage of the 6th shut-off valve and third heat exchanger, water source The heat donor passage for taking the passage of heat, heat pump, third heat exchanger of heat exchanger forms the second heat of water source heat exchanger and third heat exchanger Exchange cycles circuit；Third heat exchanger take the passage of heat outlet connect by the 7th shut-off valve with main feed water pipe and pass through lead to Water pipe is connect with the accumulation of heat import of diurnal storage water tank, and interface between the first shut-off valve and diurnal storage water tank, change by third Hot device takes passage of heat entrance to connect with main water return tube by the 8th shut-off valve and passes through main water return tube and first circulation pump and short The accumulation of heat of phase hot water storage tank exports connection, and interface is located between the second shut-off valve and first circulation pump, formed third heat exchanger and The thermal energy of the third heat exchange loop of diurnal storage water tank, cross-season heat-storage water tank passes through the first heat exchange circulation circuit, second The successively heat exchange in heat exchange circulation circuit, third heat exchange loop is converted to the hot water of water source heat supplying loop as heat user confession Heat.

5. as claimed in claim 2 based on the modularized combination type Intelligent heating system of a variety of clean energy resourcies, it is characterized in that: institute Stating air-source heat supplying loop includes air source heat exchanger, and the heat donor passage of the air source heat exchanger is in communication with the outside, air-source Heat exchanger takes passage of heat outlet to connect with heat pump and pass through heat pump and connect with the heat donor passage entrance of third heat exchanger, air Source heat exchanger takes passage of heat entrance to connect by the outlet of the heat donor passage of the 9th shut-off valve and third heat exchanger, air-source heat exchange The heat donor passage for taking the passage of heat, heat pump and third heat exchanger of device forms air source heat exchanger and the 4th heat of third heat exchanger is handed over Circulation loop, the 4th heat exchange circulation circuit and the heat exchange of third heat exchange loop are changed, the heat of air-source heat supplying loop is converted to Water is heat user heat supply.

6. as claimed in claim 2 based on the modularized combination type Intelligent heating system of a variety of clean energy resourcies, it is characterized in that: institute Stating biomass boiler heat supplying loop includes biomass boiler and the 4th heat exchanger, the heat supply outlet and the 4th of the biomass boiler The heat donor passage entrance connection of heat exchanger, the heat donor passage of heat supply entrance and the 4th heat exchanger are exported and are connected, and the described 4th exchanges heat The storage for taking passage of heat outlet to connect by the tenth shut-off valve with main feed water pipe and to pass through main feed water pipe and diurnal storage water tank of device Hot import connection, for interface between the first shut-off valve and diurnal storage water tank, the 4th heat exchanger takes passage of heat entrance to pass through 11st shut-off valve connect with main water return tube and passes through main water return tube and the accumulation of heat of first circulation pump and diurnal storage water tank exports Connection, interface are located between the second shut-off valve and first circulation pump, are converted to the hot water of biomass boiler heat supplying loop and use for heat Family heat supply.

7. as described in claim 1 based on the modularized combination type Intelligent heating system of a variety of clean energy resourcies, it is characterized in that: Phase-transition heat-storage body, internal filled composite phase-change material are respectively set in the cross-season heat-storage water tank and diurnal storage water tank.

8. as described in claim 1 based on the modularized combination type Intelligent heating system of a variety of clean energy resourcies, it is characterized in that: Temperature sensor is respectively set in the cross-season heat-storage water tank and diurnal storage water tank.

9. as described in claim 1 based on the modularized combination type Intelligent heating system of a variety of clean energy resourcies, it is characterized in that: institute State the wisdom control system and 11 shut-off valve of the first shut-off valve~the, triple valve, first circulation pump~that source-net-lotus is coordinated Three circulating pumps, First Heat Exchanger~the 4th heat exchanger, heat pump and solar thermal collector electrical connection, the wisdom control that source-net-lotus is coordinated System processed is connect with respectively arranged temperature sensor in cross-season heat-storage water tank and diurnal storage water tank and heat user signal.