CN201569058U - Solar-energy auxiliary heating device - Google Patents

Abstract

The utility model relates to a solar-energy auxiliary heating device, which is composed of a heat power converter, an accumulated temperature controller, a boiler, a radiating fin and a connecting pipe, wherein the heat power converter is composed of a box body, a temperature sensor, a spiral coil and a solar heat collecting plate; and the connecting pipe is composed of a daily water heating part and a boiler auxiliary heating part. The boiler auxiliary heating part is composed of another spiral coil in the heat power converter, a pressure reducing nonreturn valve, a pressure pump, a temperature sensor and a solenoid valve, and the solenoid valve, a electromagnetic control valve, the pressure pump and the temperature sensor are communicated with the output end of the accumulated temperature controller. The solar-energy auxiliary heating device uses solar heat conversion to heat backwater temperature to enhance heating backwater temperature for auxiliary heating. By parameter setting, the solar-energy auxiliary heating device realizes three working modes of solar system independently working, solar system being in auxiliary work and solar system stopping work. The solar-energy auxiliary heating device saves boiler burning fuel, is beneficial to environmental protection and can supply warm water used in life.

Description

The solar energy auxiliary warming

Technical field:

The utility model relates to conversion of solar energy heat energy auxiliary warming.

Background technology:

The direct utilization that is mostly heat energy known, that boiler is heated and adopted, in heat energy fuel environment in short supply, utilizing other energy to be converted into heat energy is the key subjects of being badly in need of solving and meeting human survival at present.Because traditional idea, occupation mode and custom; use coal, oil or now just under study for action utilize the new technology of living beings such as rubbish, plant, rice husk, stalk as fuel; all having a same masty problem, is exactly the protection problem of environment.The utilization of these materials, though widened the approach that acts as a fuel, the flue dust that discharge the burning back becomes a new problem that needs to be resolved hurrily again.Moreover in concrete application process, also need the support of a large amount of human and material resources, need concentrate these materials, be processed into flammable raw material, need through a lot of operations and process.Equally, electric energy commonly used at present transforms, and its deficiency is also arranged, and the one, what the generation of electric energy was leaned on is exactly fuel commonly used, has just purified end product; The 2nd, the great development of industry, the shortage of electric weight, power saving is still the scope of promotion; The 3rd, price is higher, and is many with the financial burden that can increase the user.

Summary of the invention:

Utilize original fuel or deficiency that progressively improved fuel manifested in order to overcome, the utility model provides a kind of solar energy auxiliary warming.Utilize solar energy to transfer the heat energy technology to, the heat supplement that existing boiler is assisted, or alternative fully.Save original fuel, reduce soot emissions, can promote to utilize simultaneously the progress of heliotechnics to industrialized utilization.

The utility model realizes that the technical scheme of its technical purpose is by heat converter, the accumulated temperature controller, boiler, fin, connecting line constitutes, heat converter is by casing, temperature inductor, spiral coil, solar heat-collection plate is formed, casing is square, the casing upper surface has a cold water pipe interface that communicates with casing and a hot-water line interface and a spilling water valve, casing has the temperature inductor mouth on one side, the relative dual-side of casing has waterpipe jointing up and down respectively, box house has two groups of spiral coils, all relative with the casing dual-side of the two ends of every group of spiral coil divides the connection of joining of other waterpipe jointing up and down, cold water pipe upper end in the casing is connected with the cold water pipe interface of upper surface, the lower end suspends near bottom half, the cold water pipe interface of casing upper surface is connected with solar heat-collection plate water inlet end pipeline, the hot-water line interface of casing upper surface holds pipeline to be connected with the solar heat-collection plate hot water effluent, the casing water injection pipe is connected with a side return pipe valve, valve control is arranged, accumulated temperature controller input is connected with the temperature inductor and the fin return water temperature inductor of solar heat-collection plate heat detector and heat converter, the outlet pipe port and the return pipe port of boiler are connected with magnetic valve respectively, boiler discharging tube port magnetic valve is connected with the force (forcing) pump pipeline, pipeline is connected between force (forcing) pump and fin, boiler blow-down water pipe port magnetic valve is connected with fin water return outlet pipeline, between boiler discharging tube and boiler blow-down water pipe pipeline connection is arranged, between its pipeline by-pass valve control is arranged, connecting line is by warm washing water's part, the auxiliary heating part of boiler is formed, warm washing water's part is by one group of spiral coil in the heat converter, pipeline is formed, two waterpipe jointings up and down of spiral coil and the online water of daily life water pipe and backwater are connected, the auxiliary heating part of boiler is by another group spiral coil in the heat converter, reverse valve reduces pressure, force (forcing) pump, temperature inductor, magnetic valve is formed, the two ends up and down of spiral coil and casing side waterpipe jointing is up and down connected, heat converter side upper water interface tube and the reverse valve pipeline connection of decompression, the return pipe pipeline of reverse valve and fin and boiler room of reducing pressure is connected, heat converter side bottom waterpipe jointing and force (forcing) pump pipeline connection, force (forcing) pump and magnetic valve are connected, temperature inductor is communicated with magnetic valve, magnetic valve is communicated with the fin backwater, in the middle of the water return pipeline that heat converter side upper water interface tube and heat converter side bottom waterpipe jointing are connected with the fin backwater, be connected with a solenoid electric valve, magnetic valve, solenoid electric valve, force (forcing) pump, temperature inductor all is communicated with the accumulated temperature controller output end.

The beneficial effects of the utility model are: by solar heat conversion heating backwater water temperature, improve the auxiliary heating of heating water return temperature, by the parameter setting, three kinds of mode of operations such as realize that solar energy system works alone, solar energy system back work, solar energy system quit work.Save boiler combustion fuel, be beneficial to environmental protection, and can solve the warm water that uses in the life.

Description of drawings:

Fig. 1. be the utility model front view.

The specific embodiment:

The utility model is by heat converter, the accumulated temperature controller, boiler, fin, connecting line constitutes, heat converter is by casing 20, temperature inductor 4, spiral coil 19,21, solar heat-collection plate 1 is formed, casing 20 is square, casing 20 upper surfaces have a cold water pipe interface 25 that communicates with casing and a hot-water line interface 26 and a spilling water valve 3, casing 20 has the temperature inductor mouth on one side, casing 20 relative dual-sides have waterpipe jointing up and down respectively, there are two groups of spiral coils 19 casing 20 inside, 21, every group of spiral coil 19,21 two ends is all divided the connection of joining of other waterpipe jointing up and down with casing 20 relative dual-sides, cold water pipe upper end in the casing 20 is connected with cold water pipe interface 25 interfaces of upper surface, the lower end suspends near casing 20 bottoms, the cold water pipe interface 25 of casing 20 upper surfaces is connected with solar heat-collection plate 1 water inlet end pipeline 28, hot-water line interface 26 interfaces of casing 20 upper surfaces hold pipeline 27 to be connected with solar heat-collection plate 1 hot water effluent, casing 20 water injection pipes 23 are connected with a side return pipe valve 24, valve 22 controls are arranged, casing 20 parts of heat converter and solar heat-collection plate 1 part can be made basic water supply (heat) working cell of standard, the user can increase the working cell as required, satisfy different heat demand, accumulated temperature controller 5 inputs are connected with the temperature inductor 4 and the fin return water temperature inductor 14 of solar heat-collection plate heat detector 2 and heat converter, the outlet pipe port and the return pipe port of boiler 9 are connected with magnetic valve 8 respectively, 10, boiler 9 outlet pipe port magnetic valves 8 are connected with force (forcing) pump 7 pipelines, 6 pipelines of force (forcing) pump 7 and fin are connected, boiler 9 return pipe port magnetic valves 10 are connected with fin 6 water return outlet pipelines, between boiler 9 outlet pipes and boiler blow-down water pipe pipeline connection is arranged, solenoid electric valve 11 is arranged between its pipeline, connecting line is by warm washing water's part, the auxiliary heating part of boiler is formed, warm washing water's part is by one group of spiral coil 21 in the heat converter, pipeline is formed, two waterpipe jointings up and down of spiral coil 21 and the online water of daily life water pipe and backwater are connected, the auxiliary heating part of boiler is by another group spiral coil 19 in the heat converter, reverse valve 18 reduces pressure, force (forcing) pump 17, temperature inductor 14, magnetic valve 15,16,13 form, the two ends up and down of spiral coil 19 and casing 20 sides waterpipe jointing is up and down connected, heat converter side upper water interface tube and reverse valve 18 pipeline connections of decompression, the return pipe pipeline of 9 in reverse valve 18 and fin 6 and boiler of reducing pressure is connected, heat converter side bottom waterpipe jointing and force (forcing) pump 17 pipeline connections, force (forcing) pump 17 and magnetic valve 15,16 connect, temperature inductor 14 is communicated with magnetic valve 13, magnetic valve 13 is communicated with fin 6 backwater, in the middle of the water return pipeline that heat converter side upper water interface tube and heat converter side bottom waterpipe jointing are connected with fin 6 backwater, be connected with a solenoid electric valve 12, each magnetic valve 15,16,10,8, solenoid electric valve 11,12, force (forcing) pump 7,17, temperature inductor 4,14 all are communicated with accumulated temperature controller 5 outputs.

During use, water circulation between solar heat-collection plate 1 and heat converter, water in the heating heat converter, when the coolant-temperature gage in the heat converter is higher than fin 6 return water temperatures, accumulated temperature controller 5 is connected magnetic valve 13, open force (forcing) pump 17, close magnetic valve 12, the backwater of fin 6 after the heat converter temperature raising back into boiler 9; When the coolant-temperature gage in the heat converter was lower than fin 6 return water temperatures, accumulated temperature controller 14 cut out magnetic valve 13, closed force (forcing) pump 17, connected magnetic valve 12, and the backwater of fin 6 is directly back into boiler 9; When the coolant-temperature gage in the heat converter can supply the direct serviceability temperature of fin, accumulated temperature controller 5 is connected magnetic valve 13, open force (forcing) pump 17, close magnetic valve 12, close the outlet pipe port magnetic valve 8 and the return pipe port magnetic valve 10 of boiler simultaneously, open the by-pass valve control 11 between boiler discharging tube and boiler blow-down water pipe, directly use the water heating circulation of heat converter.

Claims (4)

1. the solar energy auxiliary warming is by heat converter, the accumulated temperature controller, boiler, fin, connecting line constitutes, it is characterized in that: heat converter is by casing, temperature inductor, spiral coil, solar heat-collection plate is formed, casing is square, the casing upper surface has a cold water pipe interface that communicates with casing and a hot-water line interface and a spilling water valve, casing has the temperature inductor mouth on one side, the relative dual-side of casing has waterpipe jointing up and down respectively, box house has two groups of spiral coils, all relative with the casing dual-side of the two ends of every group of spiral coil divides the connection of joining of other waterpipe jointing up and down, cold water pipe upper end in the casing is connected with the cold water pipe interface of upper surface, the lower end suspends near bottom half, the cold water pipe interface of casing upper surface is connected with solar heat-collection plate water inlet end pipeline, the hot-water line interface of casing upper surface holds pipeline to be connected with the solar heat-collection plate hot water effluent, the casing water injection pipe is connected with a side return pipe valve, and valve control is arranged.

2. solar energy auxiliary warming according to claim 1, it is characterized in that: accumulated temperature controller input is connected with the temperature inductor and the fin return water temperature inductor of solar heat-collection plate heat detector and heat converter, and magnetic valve, solenoid electric valve, force (forcing) pump, temperature inductor all are communicated with the accumulated temperature controller output end.

3. solar energy auxiliary warming according to claim 1, it is characterized in that: the outlet pipe port and the return pipe port of boiler are connected with magnetic valve respectively, boiler discharging tube port magnetic valve is connected with the force (forcing) pump pipeline, pipeline is connected between force (forcing) pump and fin, boiler blow-down water pipe port magnetic valve is connected with fin water return outlet pipeline, between boiler discharging tube and boiler blow-down water pipe pipeline connection is arranged, between its pipeline by-pass valve control is arranged.

4. solar energy auxiliary warming according to claim 1, it is characterized in that: connecting line is by warm washing water's part, the auxiliary heating part of boiler is formed, warm washing water's part is by one group of spiral coil in the heat converter, pipeline is formed, two waterpipe jointings up and down of spiral coil and the online water of daily life water pipe and backwater are connected, the auxiliary heating part of boiler is by another group spiral coil in the heat converter, reverse valve reduces pressure, force (forcing) pump, temperature inductor, magnetic valve is formed, the two ends up and down of spiral coil and casing side waterpipe jointing is up and down connected, heat converter side upper water interface tube and the reverse valve pipeline connection of decompression, the return pipe pipeline of reverse valve and fin and boiler room of reducing pressure is connected, heat converter side bottom waterpipe jointing and force (forcing) pump pipeline connection, force (forcing) pump and magnetic valve are connected, temperature inductor is communicated with magnetic valve, magnetic valve is communicated with the fin backwater, is connected with a solenoid electric valve in the middle of the water return pipeline that heat converter side upper water interface tube and heat converter side bottom waterpipe jointing are connected with the fin backwater.

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