CN104864604A - Energy-saving, sanitary and full-automatic domestic hot water supply system - Google Patents

Energy-saving, sanitary and full-automatic domestic hot water supply system Download PDF

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Publication number
CN104864604A
CN104864604A CN201410684982.0A CN201410684982A CN104864604A CN 104864604 A CN104864604 A CN 104864604A CN 201410684982 A CN201410684982 A CN 201410684982A CN 104864604 A CN104864604 A CN 104864604A
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China
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water
pipe
hot water
water tank
hot
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不公告发明人
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Qingdao Tongchuang Energy Saving Environmental Protection Engineering Co Ltd
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Qingdao Tongchuang Energy Saving Environmental Protection Engineering Co Ltd
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Priority to CN201410684982.0A priority Critical patent/CN104864604A/en
Publication of CN104864604A publication Critical patent/CN104864604A/en
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B10/00Integration of renewable energy sources in buildings
    • Y02B10/20Solar thermal
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/40Solar thermal energy, e.g. solar towers
    • Y02E10/44Heat exchange systems

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  • Heat-Pump Type And Storage Water Heaters (AREA)

Abstract

The invention discloses an energy-saving, sanitary and full-automatic domestic hot water supply system. The system mainly comprises a solar heat collector, a heat collection water tank, a heat storage water tank, a solar control box, a variable-frequency booster pump, a hot water disinfector, a plate heat exchanger, a control cabinet and a water pipe network, wherein a water replenishing pipe is connected onto the heat collection water tank for water incoming, a solenoid valve I and an electronic water treatment device are mounted on the water replenishing pipe, the water replenishing pipe extends into the lower part of the heat collection water tank for water injection, a communicating pipe is also arranged at the upper part of the heat collection water tank to be connected with the heat storage water tank, a hot water outgoing pipe is arranged for outgoing water of the heat storage water tank to be connected with the plate heat exchanger, and a hot water supply pipe is arranged for outgoing water of the plate heat exchanger to be connected with the water pipe network. The system has the benefits as follows: domestic hot water is produced by the aid of solar energy, meanwhile, the plate heat exchanger is arranged for compensation type auxiliary heating, the system has the advantages that the system is energy-saving, safe, economical, environment-friendly, good in usage effect and the like, the hot water is sanitary, the operating pressure is stable, the system is controlled full automatically, and an unattended operation function can be realized.

Description

The full-automatic supply system of one way of life heating water and saving energy health
Technical field
The present invention relates to health hot water preparing technical field, specifically the full-automatic supply system of one way of life heating water and saving energy health.
Background technology
Along with the development of society and improving constantly of people's living standard, the requirement of people to domestic hot-water supply is more and more higher.Relative national standards proposes: domestic hot-water's water quality should meet the requirement of existing national Drinking Water water standard, but hot water supply system has different characteristics from cold water water supply system, the water supply water temperature of hot water supply system is generally at 55 DEG C ~ 60 DEG C, return water temperature is at 45 DEG C, some hot water water temperature is in the duct at 35 DEG C ~ 40 DEG C, and when hot water water temperature is lower than 55 DEG C, then not easily kill the various bacteriums grown in warm water, especially Legionella and so on pathogenic bacteria.Therefore, set up domestic hot-water's water disinfection and ensure that technology is the important measures ensureing people's health.
Summary of the invention
The object of the present invention is to provide a kind of full-automatic supply system of domestic hot-water's energy-saving clean utilizing solar energy.
The technical solution adopted for the present invention to solve the technical problems is: the full-automatic supply system of one way of life heating water and saving energy health is primarily of solar thermal collector, heat collection water tank, heat storage water tank, solar control case, pressurized frequency change pump, hot-water sterilization function sterilizer, plate type heat exchanger, switch board and forming with grid, solar thermal collector, heat collection water tank, heat storage water tank and solar control case are separately positioned on the roof of building, pressurized frequency change pump, hot-water sterilization function sterilizer, plate type heat exchanger and switch board are separately positioned on heat exchange station, be laid with between heat exchange station and described roof and use grid.
Described solar thermal collector water inlet is connected with solar energy circulation pipe, solar thermal collector water outlet is connected with solar energy return pipe, solar energy circulation pipe is connected with heat collection water tank more respectively with solar energy return pipe, solar energy circulation pipe is equipped with solar energy circulating pump, temperature sensor one was provided with before solar thermal collector water outlet connects solar energy return pipe, level sensor one and temperature sensor two is provided with in heat collection water tank, heat collection water tank is also connected to filling pipe water inlet, filling pipe is equipped with magnetic valve one, filling pipe is equipped with electronic hydrotreater after magnetic valve one, and filling pipe stretches into the bottom water filling of heat collection water tank, also be provided with on heat collection water tank top and be connected with heat storage water tank communicating pipe, level sensor two and temperature sensor four is provided with in heat storage water tank, heat storage water tank water outlet is connected with hot water outlet pipe, hot water outlet pipe is connected with described plate type heat exchanger again, plate type heat exchanger water outlet is connected with hot water feeding pipe, hot water feeding pipe is connected again with grid, circulation is formed by hot water return pipe access set boiler with grid backwater, and hot water return pipe stretches to heat collection water tank bottom, hot water outlet pipe is equipped with pressurized frequency change pump, hot water outlet pipe was equiped with filter two respectively before pressurized frequency change pump, temperature sensor five and pressure sensor one, hot water outlet pipe is equipped with magnetic valve four after pressurized frequency change pump, hot water outlet pipe is connected with the secondary import of plate type heat exchanger after magnetic valve four, the secondary outlet of plate type heat exchanger is connected with hot water feeding pipe, hot water feeding pipe is equiped with hot-water sterilization function sterilizer in turn along water (flow) direction, temperature sensor six, pressure sensor two and expansion drum, an import of plate type heat exchanger is connected with auxiliary thermal source feed pipe and auxiliary thermal source return pipe respectively with once exporting, and on auxiliary thermal source feed pipe, temperature-sensing valve is housed, walk around plate type heat exchanger between hot water outlet pipe with hot water feeding pipe, to be provided with bypass pipe to be connected, and after one end of bypass pipe is connected to pressurized frequency change pump, on hot water outlet pipe before magnetic valve four, the other end of bypass pipe is connected on the hot water feeding pipe before hot-water sterilization function sterilizer, bypass pipe is also equipped with magnetic valve three.
Described hot water return pipe was equipped with filter one before access set boiler, and hot water return pipe is equipped with magnetic valve two after filter one, and hot water return pipe is provided with temperature sensor three before magnetic valve two, after filter one.
Described temperature sensor one, level sensor one, temperature sensor two, solar energy circulating pump, electronic hydrotreater, magnetic valve one, magnetic valve two, temperature sensor three, level sensor two and temperature sensor four are connected with the wiring of solar control case respectively, and are equiped with GPRS transceiver module in solar control case; Described temperature sensor five, pressure sensor one, pressurized frequency change pump, magnetic valve three, magnetic valve four, pressure sensor two, temperature sensor six, hot-water sterilization function sterilizer are connected with switch board wiring respectively with temperature-sensing valve, are equiped with GPRS wireless terminal in switch board.
Described GPRS transceiver module and GPRS wireless terminal are respectively used to send in real time with GPRS wireless mode and receive relevant data signal, conveniently realize wireless remote monitoring, monitoring.
Described hot-water sterilization function sterilizer comprises the one in silver ion sterilizer, copper ion sterilizer, ultraviolet light catalyzing titanium dioxide sterilizer, is mainly used in the bacteriums such as the Legionella that disinfection with hot water and killing grows in the hot water.
Operation principle of the present invention is, solar thermal collector directly heats heat collection water tank, solar energy is converted to heat energy by solar thermal collector, solar energy heating actuator temperature raises, temperature sensor one detects solar energy heating actuator temperature, temperature sensor two detected set boiler temperature, when solar energy heating actuator temperature higher than heat collection water tank temperature systemic presupposition open pump temperature approach and following time, solar energy circulating pump starts forced circulation, solar energy heating actuator temperature reduces, heat collection water tank temperature raises, until solar energy heating actuator temperature compared with heat collection water tank temperature within the termination of pumping temperature approach of systemic presupposition time, solar energy circulating pump is out of service, so repeatedly, realize solar thermal collector of the present invention directly to heat heat collection water tank, when temperature sensor two detects the leaving water temperature value of heat collection water tank temperature higher than systemic presupposition, the magnetic valve one being contained in filling pipe is opened, electronic hydrotreater obtains electric operation, filling pipe starts the bottom water filling to heat collection water tank, heat collection water tank water level rises, and the hot water on heat collection water tank top will enter heat storage water tank by communicating pipe, when temperature sensor two detects the heating water temperature value of heat collection water tank temperature lower than systemic presupposition, magnetic valve one cuts out, electronic hydrotreater dead electricity is shut down, filling pipe cuts off and stops moisturizing, be contained in the level sensor one detected set hotwell level in heat collection water tank, when the anhydrous water level point of heat collection water tank water level lower than systemic presupposition, solar energy circulating pump automatic shutdown protection, and report to the police, until heat collection water tank water level rezime to systemic presupposition have water water level point and above time, solar energy circulating pump is automatically restored to normal condition, described heat storage water tank is used for the hot water to preparing with grid supply solar energy, simultaneously pressurized frequency change pump is fetched water pressurization, constant voltage in heat storage water tank, and compensate formula auxiliary heating, constant temperature by plate type heat exchanger, then sterilizing process is carried out through hot-water sterilization function sterilizer, again by hot water feeding pipe to providing 24 hours of pressure stability, hygienic quality and temperature constant uninterrupted domestic hot-waters with grid, guarantee the security provisions of domestic hot-water.The level sensor two be contained in heat storage water tank detects heat storage water tank water level; when the low water level point of heat storage water tank water level lower than systemic presupposition; magnetic valve one is automatically opened water filling and is made heat collection water tank water level increase; and heat collection water tank by communicating pipe to heat storage water tank moisturizing; heat storage water tank water level rises; when heat storage water tank water level rise to systemic presupposition high water level point and above time; magnetic valve one cuts out; heat storage water tank moisturizing terminates, and electronic water place device will open with magnetic valve one and electric operation and close with magnetic valve one and dead electricity shut down.Described pressurized frequency change pump carries out freq uency conversion supercharging relative to the pressure sensor two be contained on hot water feeding pipe, voltage stabilizing controls, and make hot water feeding pipe's pressure maintain in the water outlet constant voltage value of systemic presupposition, be contained in pressure sensor one on hot water outlet pipe for the protection of pressurized frequency change pump at low voltage closing, temperature sensor five detection be contained on hot water outlet pipe enters the hot water temperature before plate type heat exchanger, when the leaving water temperature value of the hot water temperature before plate type heat exchanger lower than systemic presupposition being detected, magnetic valve four is opened, magnetic valve three cuts out, plate type heat exchanger will put into operation, the temperature-sensing valve be contained on auxiliary thermal source feed pipe regulates its aperture adaptively relative to the leaving water temperature value of temperature sensor six pairs of systemic presuppositions, hot water feeding pipe's temperature is made to maintain in the leaving water temperature value of systemic presupposition, temperature sensor six detects hot water feeding pipe's temperature, when the leaving water temperature value of hot water feeding pipe's temperature higher than systemic presupposition being detected, magnetic valve three is opened, magnetic valve four cuts out, plate type heat exchanger stops heating, now temperature-sensing valve will cut out and cut off thermal source feed pipe automatically, the temperature sensor three be contained on hot water return pipe detects hot water return pipe temperature, when the guarantee temperature value of hot water return pipe temperature lower than systemic presupposition being detected, magnetic valve two is opened and is formed circulation, hot water return pipe temperature raises, when the energy-saving warm angle value of hot water return pipe temperature higher than systemic presupposition being detected, magnetic valve two cuts out, so repeatedly, realize hot water circuit of the present invention and energy-conservation, water-saving result, the guarantee temperature value of described systemic presupposition is preferably lower than the leaving water temperature value 4 DEG C ~ 8 DEG C of systemic presupposition, the energy-saving warm angle value of described systemic presupposition is preferably lower than the leaving water temperature value 2 DEG C ~ 4 DEG C of systemic presupposition.
The invention has the beneficial effects as follows, the present invention utilizes solar energy to prepare domestic hot-water, plate type heat exchanger is set simultaneously and compensates formula auxiliary heating, there is the advantages such as energy-conservation, safety, economy, environmental protection and result of use be good, and hot water hygienic quality, operation pressure stabilization, Automatic Control can realize unattended function.
Accompanying drawing explanation
Accompanying drawing 1 is structural representation of the present invention.
In figure, 1, solar thermal collector, 2, temperature sensor one, 3, solar energy return pipe, 4, heat collection water tank, 5, level sensor one, 6, temperature sensor two, 7, solar energy circulating pump, 8, solar energy circulation pipe, 9, solar control case, 10, GPRS transceiver module, 11, electronic hydrotreater, 12, magnetic valve one, 13, filling pipe, 14, communicating pipe, 15, magnetic valve two, 16, temperature sensor three, 17, filter one, 18, hot water return pipe, 19, heat storage water tank, 20, level sensor two, 21, temperature sensor four, 22, hot water outlet pipe, 23, filter two, 24, temperature sensor five, 25, pressure sensor one, 26, pressurized frequency change pump, 27, magnetic valve three, 28, bypass pipe, 29, magnetic valve four, 30, hot water feeding pipe, 31, pressure sensor two, 32, temperature sensor six, 33, expansion drum, 34, hot-water sterilization function sterilizer, 35, switch board, 36, GPRS wireless terminal, 37, plate type heat exchanger, 38, temperature-sensing valve, 39, auxiliary thermal source feed pipe, 40, auxiliary thermal source return pipe, 41, use grid.
Detailed description of the invention
With regard to accompanying drawing 1, the full-automatic supply system of one way of life heating water and saving energy health of the present invention is described in detail below below.
As shown in Figure 1, the full-automatic supply system of one way of life heating water and saving energy health of the present invention is primarily of solar thermal collector 1, heat collection water tank 4, heat storage water tank 19, solar control case 9, pressurized frequency change pump 26, hot-water sterilization function sterilizer 34, plate type heat exchanger 37, switch board 35 and forming with grid 41, solar thermal collector 1, heat collection water tank 4, heat storage water tank 19 and solar control case 9 are separately positioned on the roof of building, pressurized frequency change pump 26, hot-water sterilization function sterilizer 34, plate type heat exchanger 37 and switch board 35 are separately positioned on heat exchange station, be laid with between heat exchange station and described roof with grid 41.
Described solar thermal collector 1 water inlet is connected with solar energy circulation pipe 8, solar thermal collector 1 water outlet is connected with solar energy return pipe 3, solar energy circulation pipe 8 is connected with heat collection water tank 4 more respectively with solar energy return pipe 3, solar energy circulation pipe 8 is equipped with solar energy circulating pump 7, temperature sensor 1 was provided with before solar thermal collector 1 water outlet connects solar energy return pipe 3, level sensor 1 and temperature sensor 26 is provided with in heat collection water tank 4, heat collection water tank 4 is also connected to filling pipe 13 and intakes, filling pipe 13 is equipped with magnetic valve 1, filling pipe 13 is equipped with electronic hydrotreater 11 after magnetic valve 1, and filling pipe 13 stretches into the bottom water filling of heat collection water tank 4, also be provided with on heat collection water tank 4 top and be connected with heat storage water tank 19 communicating pipe 14, level sensor 2 20 and temperature sensor 4 21 is provided with in heat storage water tank 19, heat storage water tank 19 water outlet is connected with hot water outlet pipe 22, hot water outlet pipe 22 is connected with described plate type heat exchanger 37 again, plate type heat exchanger 37 water outlet is connected with hot water feeding pipe 30, hot water feeding pipe 30 is connected again with grid 41, circulation is formed by hot water return pipe 18 access set boiler 19 with grid 41 backwater, and hot water return pipe 18 stretches to heat collection water tank 19 bottom, hot water outlet pipe 22 is equipped with pressurized frequency change pump 26, hot water outlet pipe 22 was equiped with filter 2 23 respectively before pressurized frequency change pump 26, temperature sensor 5 24 and pressure sensor 1, hot water outlet pipe 22 is equipped with magnetic valve 4 29 after pressurized frequency change pump 26, hot water outlet pipe 22 is connected with the secondary import of plate type heat exchanger 37 after magnetic valve 4 29, the secondary outlet of plate type heat exchanger 37 is connected with hot water feeding pipe 30, hot water feeding pipe 30 is equiped with hot-water sterilization function sterilizer 34 in turn along water (flow) direction, temperature sensor 6 32, pressure sensor 2 31 and expansion drum 33, an import of plate type heat exchanger 37 is connected with auxiliary thermal source feed pipe 39 and auxiliary thermal source return pipe 40 respectively with once exporting, and on auxiliary thermal source feed pipe 39, temperature-sensing valve 38 is housed, walk around plate type heat exchanger 37 between hot water outlet pipe 22 with hot water feeding pipe 30, to be provided with bypass pipe 28 to be connected, and after one end of bypass pipe 28 is connected to pressurized frequency change pump 26, on hot water outlet pipe 22 before magnetic valve 4 29, the other end of bypass pipe 28 is connected on the hot water feeding pipe 30 before hot-water sterilization function sterilizer 34, bypass pipe 28 is also equipped with magnetic valve 3 27.
Described hot water return pipe 18 was equipped with filter 1 before access set boiler 19, and hot water return pipe 18 is equipped with magnetic valve 2 15 after filter 1, and hot water return pipe 18 is provided with temperature sensor 3 16 before magnetic valve 2 15, after filter 1.
Described temperature sensor 1, level sensor 1, temperature sensor 26, solar energy circulating pump 7, electronic hydrotreater 11, magnetic valve 1, magnetic valve 2 15, temperature sensor 3 16, level sensor 2 20 and temperature sensor 4 21 are connected with solar control case 9 wiring respectively, and are equiped with GPRS transceiver module 10 in solar control case 9; Described temperature sensor 5 24, pressure sensor 1, pressurized frequency change pump 26, magnetic valve 3 27, magnetic valve 4 29, pressure sensor 2 31, temperature sensor 6 32, hot-water sterilization function sterilizer 34 and temperature-sensing valve 38 are connected with switch board 35 wiring respectively, are equiped with GPRS wireless terminal 36 in switch board 35.
Described GPRS transceiver module 10 and GPRS wireless terminal 36 are respectively used to send in real time with GPRS wireless mode and receive relevant data signal, conveniently realize wireless remote monitoring, monitoring.
Described hot-water sterilization function sterilizer 34 comprises the one in silver ion sterilizer, copper ion sterilizer, ultraviolet light catalyzing titanium dioxide sterilizer, is mainly used in the bacteriums such as the Legionella that disinfection with hot water and killing grows in the hot water.
Operation principle of the present invention is, solar thermal collector 1 directly heats heat collection water tank 4, solar energy is converted to heat energy by solar thermal collector 1, solar thermal collector 1 temperature raises, temperature sensor 1 detects solar thermal collector 1 temperature, temperature sensor 26 detected set boiler 4 temperature, when solar thermal collector 1 temperature higher than heat collection water tank 4 temperature systemic presupposition open pump temperature approach and following time, solar energy circulating pump 7 starts forced circulation, solar thermal collector 1 temperature reduces, heat collection water tank 4 temperature raises, until solar thermal collector 1 temperature compared with heat collection water tank 4 temperature within the termination of pumping temperature approach of systemic presupposition time, solar energy circulating pump 7 is out of service, so repeatedly, realize solar thermal collector 1 of the present invention directly to heat heat collection water tank 4, when temperature sensor 26 detects the leaving water temperature value of heat collection water tank 4 temperature higher than systemic presupposition, the magnetic valve 1 being contained in filling pipe 13 is opened, electronic hydrotreater 11 obtains electric operation, filling pipe 13 starts the bottom water filling to heat collection water tank 4, heat collection water tank 4 water level rises, and the hot water on heat collection water tank 4 top will enter heat storage water tank 19 by communicating pipe 14, when temperature sensor 26 detects the heating water temperature value of heat collection water tank 4 temperature lower than systemic presupposition, magnetic valve 1 cuts out, electronic hydrotreater 11 dead electricity is shut down, filling pipe 13 cuts off and stops moisturizing, be contained in level sensor 1 detected set boiler 4 water level in heat collection water tank 4, when the anhydrous water level point of heat collection water tank 4 water level lower than systemic presupposition, solar energy circulating pump 7 automatic shutdown protection, and report to the police, until heat collection water tank 4 water level rezime to systemic presupposition have water water level point and above time, solar energy circulating pump 7 is automatically restored to normal condition, described heat storage water tank 19 is for the hot water supplied solar energy with grid 41 and prepare, pressurized frequency change pump 26 is from water intaking pressurization, constant voltage in heat storage water tank 19 simultaneously, and compensate formula auxiliary heating, constant temperature by plate type heat exchanger 37, then sterilizing process is carried out through hot-water sterilization function sterilizer 34, again by hot water feeding pipe 30 to providing 24 hours of pressure stability, hygienic quality and temperature constant uninterrupted domestic hot-waters with grid 41, guarantee the security provisions of domestic hot-water.The level sensor 2 20 be contained in heat storage water tank 19 detects heat storage water tank 19 water level, when the low water level point of heat storage water tank 19 water level lower than systemic presupposition, magnetic valve 1 is automatically opened water filling and is made heat collection water tank 4 water level increase, and heat collection water tank 4 passes through communicating pipe 14 to heat storage water tank 19 moisturizing, heat storage water tank 19 water level rises, when heat storage water tank 19 water level rise to systemic presupposition high water level point and above time, magnetic valve 1 cuts out, heat storage water tank 19 moisturizing terminates, and electronic water place device open 11 with magnetic valve 1 and electric operation and with magnetic valve 1 close and dead electricity shut down.Described pressurized frequency change pump 26 carries out freq uency conversion supercharging relative to the pressure sensor 2 31 be contained on hot water feeding pipe 30, voltage stabilizing controls, and make hot water feeding pipe 30 pressure maintain in the water outlet constant voltage value of systemic presupposition, be contained in pressure sensor 1 on hot water outlet pipe 22 for the protection of pressurized frequency change pump 26 at low voltage closing, the temperature sensor 5 24 be contained on hot water outlet pipe 22 detects the hot water temperature before entering plate type heat exchanger 37, when the leaving water temperature value of the hot water temperature before plate type heat exchanger 37 lower than systemic presupposition being detected, magnetic valve 4 29 is opened, magnetic valve 3 27 cuts out, plate type heat exchanger 37 will put into operation, the temperature-sensing valve 38 be contained on auxiliary thermal source feed pipe 39 regulates its aperture adaptively relative to the leaving water temperature value of temperature sensor 6 32 pairs of systemic presuppositions, hot water feeding pipe 30 temperature is made to maintain in the leaving water temperature value of systemic presupposition, temperature sensor 6 32 detects hot water feeding pipe 30 temperature, when the leaving water temperature value of hot water feeding pipe 30 temperature higher than systemic presupposition being detected, magnetic valve 3 27 is opened, magnetic valve 4 29 cuts out, plate type heat exchanger 37 stops heating, now temperature-sensing valve 38 will cut out and cut off thermal source feed pipe 39 automatically, the temperature sensor 3 16 be contained on hot water return pipe 18 detects hot water return pipe 18 temperature, when the guarantee temperature value of hot water return pipe 18 temperature lower than systemic presupposition being detected, magnetic valve 2 15 is opened and is formed circulation, hot water return pipe 18 temperature raises, when the energy-saving warm angle value of hot water return pipe 18 temperature higher than systemic presupposition being detected, magnetic valve 2 15 cuts out, so repeatedly, realize hot water circuit of the present invention and energy-conservation, water-saving result, the guarantee temperature value of described systemic presupposition is preferably lower than the leaving water temperature value 4 DEG C ~ 8 DEG C of systemic presupposition, the energy-saving warm angle value of described systemic presupposition is preferably lower than the leaving water temperature value 2 DEG C ~ 4 DEG C of systemic presupposition.

Claims (6)

1. the full-automatic supply system of one way of life heating water and saving energy health is primarily of solar thermal collector, heat collection water tank, heat storage water tank, solar control case, pressurized frequency change pump, hot-water sterilization function sterilizer, plate type heat exchanger, switch board and forming with grid, solar thermal collector water inlet is connected with solar energy circulation pipe, solar thermal collector water outlet is connected with solar energy return pipe, solar energy circulation pipe is connected with heat collection water tank more respectively with solar energy return pipe, solar energy circulation pipe is equipped with solar energy circulating pump, it is characterized in that, temperature sensor one was provided with before solar thermal collector water outlet connects solar energy return pipe, level sensor one and temperature sensor two is provided with in heat collection water tank, heat collection water tank is also connected to filling pipe water inlet, filling pipe is equipped with magnetic valve one, filling pipe is equipped with electronic hydrotreater after magnetic valve one, and filling pipe stretches into the bottom water filling of heat collection water tank, also be provided with on heat collection water tank top and be connected with heat storage water tank communicating pipe, heat storage water tank water outlet is connected with hot water outlet pipe, hot water outlet pipe is connected with described plate type heat exchanger again, plate type heat exchanger water outlet is connected with hot water feeding pipe, hot water feeding pipe is connected again with grid, circulation is formed by hot water return pipe access set boiler with grid backwater, and hot water return pipe stretches to heat collection water tank bottom.
2. the full-automatic supply system of one way of life heating water and saving energy health according to claim 1, it is characterized in that, hot water outlet pipe is equipped with pressurized frequency change pump, hot water outlet pipe was equiped with filter two respectively before pressurized frequency change pump, temperature sensor five and pressure sensor one, hot water outlet pipe is equipped with magnetic valve four after pressurized frequency change pump, hot water outlet pipe is connected with the secondary import of plate type heat exchanger after magnetic valve four, the secondary outlet of plate type heat exchanger is connected with hot water feeding pipe, hot water feeding pipe is equiped with hot-water sterilization function sterilizer in turn along water (flow) direction, temperature sensor six, pressure sensor two and expansion drum, walk around plate type heat exchanger between hot water outlet pipe with hot water feeding pipe, to be provided with bypass pipe to be connected, and after one end of bypass pipe is connected to pressurized frequency change pump, on hot water outlet pipe before magnetic valve four, the other end of bypass pipe is connected on the hot water feeding pipe before hot-water sterilization function sterilizer, bypass pipe is also equipped with magnetic valve three.
3. the full-automatic supply system of one way of life heating water and saving energy health according to claim 1, it is characterized in that, described hot water return pipe was equipped with filter one before access set boiler, hot water return pipe is equipped with magnetic valve two after filter one, and hot water return pipe is provided with temperature sensor three before magnetic valve two, after filter one.
4. the full-automatic supply system of one way of life heating water and saving energy health according to claim 1, it is characterized in that, solar thermal collector, heat collection water tank, heat storage water tank and solar control case are separately positioned on the roof of building, pressurized frequency change pump, hot-water sterilization function sterilizer, plate type heat exchanger and switch board are separately positioned on heat exchange station, be laid with and use grid between heat exchange station and described roof.
5. the full-automatic supply system of one way of life heating water and saving energy health according to claim 1 or 4, is characterized in that, be equiped with GPRS transceiver module in solar control case, be equiped with GPRS wireless terminal in switch board.
6. the full-automatic supply system of one way of life heating water and saving energy health according to claim 1, is characterized in that, described hot-water sterilization function sterilizer comprises the one in silver ion sterilizer, copper ion sterilizer, ultraviolet light catalyzing titanium dioxide sterilizer.
CN201410684982.0A 2014-11-25 2014-11-25 Energy-saving, sanitary and full-automatic domestic hot water supply system Pending CN104864604A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201410684982.0A CN104864604A (en) 2014-11-25 2014-11-25 Energy-saving, sanitary and full-automatic domestic hot water supply system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201410684982.0A CN104864604A (en) 2014-11-25 2014-11-25 Energy-saving, sanitary and full-automatic domestic hot water supply system

Publications (1)

Publication Number Publication Date
CN104864604A true CN104864604A (en) 2015-08-26

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Application Number Title Priority Date Filing Date
CN201410684982.0A Pending CN104864604A (en) 2014-11-25 2014-11-25 Energy-saving, sanitary and full-automatic domestic hot water supply system

Country Status (1)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109081391A (en) * 2018-08-14 2018-12-25 北京工业大学 A kind of silver ion for building hot water supply system-heating power composite impact disinfection control

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109081391A (en) * 2018-08-14 2018-12-25 北京工业大学 A kind of silver ion for building hot water supply system-heating power composite impact disinfection control
CN109081391B (en) * 2018-08-14 2021-07-16 北京工业大学 Silver ion-thermal force composite impact disinfection control method for building domestic hot water system

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