CN2773557Y

CN2773557Y - Solar heater supplier

Info

Publication number: CN2773557Y
Application number: CNU2004200092611U
Authority: CN
Inventors: 夏德有; 李攀
Original assignee: 姜仕刚
Priority date: 2004-08-19
Filing date: 2004-08-19
Publication date: 2006-04-19
Anticipated expiration: 2014-08-19

Abstract

The utility model relates to a solar heat supplier, which comprises a heat collector, a water storage tank, a heat exchanger, a circulating pump, a pipeline penetrated through the heat collector, a pipeline extracted from the heat collector, an electromagnetic valve, an electric auxiliary oil tank, heat conducting mediums, temperature sensors, electric heating devices and a microcomputer control cabinet, wherein one end of the pipeline penetrated through the heat collector is connected with the water storage tank, and the other end is connected with a water supplying pipeline; the electromagnetic valve is positioned between the pipeline penetrated through the heat collector and a running water supplying pipeline; the pipeline extracted from the heat collector is connected with the heat exchanger which is connected with the circulating pump; the circulating pump is connected with the electric auxiliary oil tank which is connected with the heat collector; the heat conducting mediums are contained in the heat collector, the heat exchanger, the circulating pump and the electric auxiliary oil tank; the temperature sensors are respectively positioned in a pipeline of the heat collector, the water storage tank, the electric auxiliary oil tank or /and a room; the temperature sensors, the electric heating devices, the electromagnetic valve or /and the circulating pump are connected with the microcomputer control cabinet; the electric heating devices are positioned in the water storage tank and the electric auxiliary oil tank.

Description

A kind of solar-heating device

Technical field

The utility model relates to a kind of heating plant, particularly relates to a kind of solar-heating device.

Background technology

At home, outer market, because technology in vacuum tube is that Chinese innovation and creation are come out, so walk in the prostatitis in the world in China aspect the solar water (solar water heater), domestic many solar water heater manufacturers have made homemade solar water heater go abroad, thereby the solar water technology of China is more advanced, but China uses less aspect other of solar thermal utilization, such as solar energy housing, solar electrical energy generation, solar heat absorbing coating etc., thereby Chinese heliotechnics is used comprehensive aspect and is lagged far behind Australia, countries such as Germany.Solar energy composite utilizes the higher country of technical merit, solar electrical energy generation, family's heating etc. are used more, heating aspect, house mainly is by the solar heat absorbing coating being coated on the external wall of house wall, absorbing the purpose that sunshine heating wall reaches the house heating by the solar heat absorbing coating.Both used solar water to carry out bathing at home and abroad, again by solar heating, the two combination seldom, even combination, the cost of use is also very high, can't popularize at all.

Summary of the invention

Technical problem to be solved in the utility model is to provide a kind of solar-heating device, and this solar-heating device can be realized using solar energy to provide hot water to carry out bathing simultaneously and use solar energy to warm oneself.

To achieve these goals, the utility model provides a kind of solar-heating device, comprise heat collector, storage tank, heat exchanger, circulating pump, its characteristics are, comprise that also being positioned at heat collector runs through the pipeline of heat collector and pipeline, magnetic valve, electric service tank, heat-conducting medium, temperature sensor, electric heater unit and the microcomputerized control cabinet of drawing from heat collector; Described pipeline one end that runs through heat collector links to each other with storage tank, and the other end links to each other with the running water feedwater piping, and described magnetic valve is between the described pipeline and running water feedwater piping that runs through heat collector; Described heat collector links to each other with described heat exchanger by the pipeline of drawing from heat collector, and described heat exchanger links to each other with described circulating pump, and described circulating pump links to each other with described electric service tank, and described electric service tank links to each other with described heat collector; Comprising heat-conducting medium in described heat collector, heat exchanger, circulating pump and the electric service tank; Described temperature sensor lays respectively in the described pipeline that runs through heat collector, in the described storage tank, in the described electric service tank or/and indoor; Described temperature sensor, electric heater unit, magnetic valve are or/and circulating pump and the electric connection of described microcomputerized control cabinet; Described electric heater unit is positioned at described storage tank or/and described electric service tank.

Described solar-heating device, wherein, described magnetic valve is positioned at the below of described heat collector.

Described solar-heating device, wherein, the described temperature sensor that is installed in the pipeline that runs through heat collector is positioned at the top of heat collector, the delivery port place of pipeline.

Described solar-heating device, wherein, described microcomputerized control cabinet comprises heating control system and bath hot water control system.

Described solar-heating device, wherein, described temperature sensor, electric heater unit and magnetic valve electrically connect with described bath hot water control system respectively; Described temperature sensor, electric heater unit and circulating pump electrically connect with described heating control system respectively.

Described solar-heating device, wherein, one expands bucket between described heat collector and described heat exchanger.

Described solar-heating device, wherein, the described pipeline that runs through heat collector is spiral helicine copper pipeline.

Described solar-heating device, wherein, described heat-conducting medium is a conduction oil.

Described solar-heating device wherein, also comprises manual water supply valve door, and described manual water supply valve door links to each other with described storage tank.

This solar-heating device can be realized the running water in the water back simultaneously and pass through the purpose of the circulation raising indoor temperature of conduction oil, can utilize solar energy to realize heat supply washing bath and heating simultaneously.

Below in conjunction with the drawings and specific embodiments the utility model is described in detail, but not as to qualification of the present utility model.

Description of drawings

Fig. 1 is the fundamental diagram of the solar-heating device shown in the utility model.

Wherein, Reference numeral:

The 1-magnetic valve

The 2-solar thermal collector

The 3-cooling-water temperature sensor

4-expand the bucket

5-electric heater unit one

6-water tank temperature sensor

7-pressure-bearing heat preservation storage water tank

The 8-heat exchanger

The 9-temperature sensor

10-microcomputerized control cabinet

The 11-control system of warming oneself

12-bath hot water control system

13-high temperature circulation pump

The manual water supply valve door of 14-

15-electricity service tank

16-fuel tank temperature sensor

17-electric heater unit two

The 18-helical pipe

The pipeline that 19-draws from heat collector

The specific embodiment

As shown in Figure 1, one copper helical pipe 18 runs through solar thermal collector 2, and helical pipe 18 1 ends link to each other with pressure-bearing heat preservation storage water tank 7, and the other end links to each other with the running water feedwater piping, magnetic valve 1 is between helical pipe 18 and running water feedwater piping, and wherein magnetic valve 1 is positioned at the below of heat collector.One cooling-water temperature sensor 3 is installed in the helical pipe 18, is positioned at the delivery port place of heat collector top, is used to measure the temperature of the water that flows out heat collector.One water tank temperature sensor 6 is installed in pressure-bearing heat preservation storage water tank 7, is used for measuring the water temperature of pressure-bearing heat preservation storage water tank 7, on the pressure-bearing heat preservation storage water tank 7 hot water outlet is arranged.Solar thermal collector 2 links to each other with heat exchanger 8 by the pipeline 19 of drawing from heat collector.One expands bucket 4 between solar thermal collector 2 and heat exchanger 8, in order to the safety of assurance system use.Heat exchanger 8 and high-pressure circulation pump 13 link to each other by pipeline, and high-pressure circulation pump 13 and electric service tank 15 link to each other by pipeline, and electric service tank 15 and solar thermal collector 2 link to each other by pipeline.One fuel tank temperature sensor 16 is installed in electric service tank 15, is used to measure the temperature of conduction oil in the electric service tank 15.

Be placed with the 320# conduction oil in the solar thermal collector 2 casees, conduction oil can circulate in heat collector 2, heat exchanger 8, high temperature circulation pump 13 and electric service tank 15 by pipeline.On sun-drenched daytime, solar thermal collector 2 absorbs sunlight, conduction oil in the heating solar heat-collector 2, thereby the water in helical pipe 18 water backs in the heat-conducting oil heating case, when the water temperature that the cooling-water temperature sensor 3 that is arranged in helical pipe 18 detects pipeline reaches the temperature (about 90 degree) of setting, then opens solenoid valve 1, pressure by running water pushes up the hot water in the helical pipe 18 in the pressure-bearing heat preservation storage water tank 7, when ducted cooling-water temperature sensor 3 detects the requirement that water temperature is lower than setting, then close magnetic valve 1, conduction oil continues the water in the heating helical pipe 18, circulation repeatedly, till the full hot water of storage, hot-water heating system stops circulation in pressure-bearing heat preservation storage water tank 7.After hot water used, system repeated above-mentioned circulation, reached the purpose of the daily bathing of family.When bad weathers such as the moon, rain, mist, snow are used hot water, the user can open the manual water supply valve door 14 that is installed between pressure-bearing heat preservation storage water tank 7 and the water supply pipe and carry out manually going up water, and the electric heater unit 1 that manually boots in the bath hot water control system heats bath water, wherein, electric heater unit 1 is positioned at pressure-bearing heat preservation storage water tank 7.

Warm oneself season in the winter time, being installed on indoor temperature sensor 9 detects room temperature and is higher than 18 ℃ of room temperatures, the control system of then warming oneself 11 does not start, the heating circulatory system is not moved, when temperature sensor 9 detection room temperatures are lower than 15 ℃, then the heating control system 11 of system begins to start, heating control system 11 automatic startup high temperature circulation pumps 13 are recycled to the conduction oil of heat accumulation in the system the indoor heat exchanger 8 by the pipeline 19 of drawing from heat collector 2, by the indoor temperature of heat exchange raising of heat exchanger 8.When temperature sensor 9 detection room temperatures were higher than 18 ℃, heating system stopped circulation automatically.Circulation can reach the purpose of family's heating so repeatedly.When sunlight during when not being very sufficient or at night, start electric service tank 15, add conduction oil in the thermoelectric service tank 15 by being installed in electric heater units 2 17 in the electric service tank 15, reach the purpose that system continues heat supply, system also can with the use that is together in series of family's fuel oil arcola.

Microcomputerized control cabinet 10 comprises heating control system 11 and bath hot water control system 12, wherein pipeline cooling-water temperature sensor 3, electric heater unit 1, water tank temperature sensor 6 and magnetic valve 1 electrically connect with bath hot water control system 12 respectively, and temperature sensor 9, high temperature circulation pump 13, fuel tank temperature sensor 16 and electric heater unit 2 17 electrically connect with heating control system 11 respectively.Microcomputerized control cabinet 10 can use single-chip microcomputer as 8051 or PLC realize control function by control program is set to magnetic valve 1, electric heater unit 1, electric heater unit 2 17, high temperature circulation pump 13 and each temperature sensor.By the operating platform of microcomputerized control cabinet 10, the user can set up a series of parameters such as heating of house start-up temperature, hot water supply temperature on their own simultaneously.Utilize heating control system 11 and bath hot water control system 12 operation conditions of monitoring system at any time, guaranteed the stability and the reliability of whole solar-heating device.

Do not need season of heating in spring, summer, autumn etc., heating control system 11 does not start, and the solar heating circulatory system is not moved, and this solar-heating device only heats running water in the helical pipe 18.When needing heating, this solar-heating device can heat in the helical pipe 18 running water and can be recycled to by the 320# conduction oil again and carry out heat exchange in the heat exchanger 8, reaches the heating purpose that improves indoor temperature.

Certainly; the utility model also can have other various embodiments; under the situation that does not deviate from the utility model spirit and essence thereof; those of ordinary skill in the art work as can make various corresponding changes and distortion according to the utility model, but these corresponding changes and distortion all should belong to the protection domain of the appended claim of the utility model.

Claims

1, a kind of solar-heating device, comprise heat collector, storage tank, heat exchanger, circulating pump, it is characterized in that, comprise that also being positioned at heat collector runs through the pipeline of heat collector and pipeline, magnetic valve, electric service tank, heat-conducting medium, temperature sensor, electric heater unit and the microcomputerized control cabinet of drawing from heat collector; Described pipeline one end that runs through heat collector links to each other with storage tank, and the other end links to each other with the running water feedwater piping; Described magnetic valve is between the described pipeline and running water feedwater piping that runs through heat collector; Described heat collector links to each other with described heat exchanger by the pipeline of drawing from heat collector, and described heat exchanger links to each other with described circulating pump, and described circulating pump links to each other with described electric service tank, and described electric service tank links to each other with described heat collector; Be provided with heat-conducting medium in described heat collector, heat exchanger, circulating pump and the electric service tank; Described temperature sensor lays respectively in the described pipeline that runs through heat collector, in the described storage tank, in the described electric service tank or/and indoor; Described temperature sensor, electric heater unit, magnetic valve and circulating pump electrically connect with described microcomputerized control cabinet respectively; Described electric heater unit is positioned at described storage tank or/and described electric service tank.

2, solar-heating device according to claim 1 is characterized in that, described magnetic valve is positioned at the below of described heat collector.

3, solar-heating device according to claim 1 is characterized in that, the described temperature sensor that is installed in the pipeline that runs through heat collector is positioned at the top of heat collector, the delivery port place of pipeline.

4, solar-heating device according to claim 1 is characterized in that, described microcomputerized control cabinet further comprises heating control system and bath hot water control system.

According to claim 1,4 described solar-heating devices, it is characterized in that 5, described temperature sensor, electric heater unit and magnetic valve electrically connect with described bath hot water control system respectively; Perhaps described temperature sensor, electric heater unit and circulating pump electrically connect with described heating control system respectively.

6, solar-heating device according to claim 1 is characterized in that, comprises that also one expands bucket between described heat collector and described heat exchanger.

7, solar-heating device according to claim 1 is characterized in that, the described pipeline that runs through heat collector is spiral helicine copper pipeline.

8, solar-heating device according to claim 1 is characterized in that, described heat-conducting medium is a conduction oil.

9, solar-heating device according to claim 1 is characterized in that, also comprises manual water supply valve door, and described manual water supply valve door links to each other with described storage tank.