CN201748536U - Solar energy heating device - Google Patents

Abstract

The utility model relates to the technical field of heating equipment, especially relates to a solar energy heating device including a solar energy heater, a radiator, a first heat reservoir, a second heat reservoir and a house; the solar energy heater is fixed on the roof of the house, a ball float water inlet device is fixed in the solar energy heater, the radiator is fixed in the house, the first heat reservoir with the top level lower than the bottom level of the radiator is fixed below the radiator in the house, the second heat reservoir, with the volume larger than the volume of the first heat reservoir and the top level lower than the top level of the first heat reservoir, is fixed below the first heat reservoir in the house. The solar energy heating device is reasonable and compact in structure as well as convenient in use, and can meet the need of family heating and hot water use in different weather conditions by introducing the steam in the solar energy heater to heat in different heat reservoirs and supplying heat to the radiator, therefore, the heat exchange rate is greatly improved on the basis of low cost.

Description

Solar energy heating device

Technical field

The utility model relates to the heating equipment technical field, is a kind of solar energy heating device.

Background technology

Solar energy has dual mode for dim device, i.e. passive type solar energy heating system and active solar heating system.Though the former equipment is simple, required expense is few, and the thermal efficiency is low; Though latter's thermal efficiency height, device technology content and requirement of material quality height, required expense is many, and consumes more electric energy.

Summary of the invention

The utility model provides a kind of solar energy heating device, has overcome the deficiency of above-mentioned prior art, and it can effectively solve the existing problem that the solar energy heating system thermal efficiency is low, price is high, energy resource consumption is high.

The technical solution of the utility model realizes by following measure: a kind of solar energy heating device comprises solar heater, radiator, first thermal storage device, second thermal storage device and house; On the roof in house, be installed with solar heater, in solar heater, be installed with float-ball type water inlet device, in the house, be installed with radiator, be installed with the top absolute altitude in the house below radiator and be lower than first thermal storage device of radiator bottom absolute altitude, be installed with volume in the house below first thermal storage device and be lower than second thermal storage device of the first thermal storage device top absolute altitude greater than first thermal storage device and top absolute altitude, the steam port that goes out that is higher than the interior liquid level of solar heater is arranged on the solar heater, be installed with out steam pipe between the steam port going out advancing of the steam port and the first thermal storage device lower end, the delivery port at the first thermal storage device top is connected with the water inlet of radiator and the water inlet at the second thermal storage device top respectively by the hot water inlet pipe and first threeway, and the delivery port of radiator is connected with the water inlet of the first thermal storage device lower end and the water inlet of the second thermal storage device lower end respectively by the return pipe and second threeway; Be installed with at the second thermal storage device top and lead to outdoor blast pipe.

Be further optimization and/or improvements below to above-mentioned utility model technical scheme:

Can be installed with the 3rd thermal storage device in the house of above-mentioned radiator top, in the 3rd thermal storage device, be installed with float-ball type water inlet device, the gas outlet at the second thermal storage device top is connected by the air inlet of escape pipe with the 3rd thermal storage device lower end, be installed with at the 3rd thermal storage device top and lead to outdoor blast pipe, be installed with hot-water line in the 3rd thermal storage device bottom.

Above-mentionedly go out between steam pipe and the 3rd thermal storage device to be installed with tube connector, on tube connector, be installed with two-way switch.

The bottom of above-mentioned the 3rd thermal storage device can be installed with electric heater.

Can be installed with dividing plate in the 3rd thermal storage device between the air inlet of the blast pipe of above-mentioned the 3rd thermal storage device and the 3rd thermal storage device, the upper end of dividing plate is fixedly mounted on the 3rd thermal storage device top inner wall, between the bottom of the bottom of dividing plate and the 3rd thermal storage device spacing is arranged.

The bottom of above-mentioned first thermal storage device can be installed with electric heater.

Can be installed with temperature detect switch (TDS) on the above-mentioned radiator.

Can be installed with dividing plate in second thermal storage device between the water inlet at the above-mentioned escape pipe and the second thermal storage device top, the upper end of dividing plate is fixedly mounted on the second thermal storage device top inner wall, between the bottom of the bottom of dividing plate and second thermal storage device spacing is arranged.

The utility model reasonable and compact in structure, easy to use, enter into that different thermal storage devices heats and to radiator heating by the steam in the solar heater, can satisfy Home Heating and, therefore on the low basis of cost, greatly improve heat exchange efficiency in different weather with the demand of hot water.

Description of drawings

Accompanying drawing 1 is the main TV structure schematic diagram of the utility model most preferred embodiment.

Coding in the accompanying drawing is respectively: 1 is solar heater, and 2 is radiator, and 3 is first thermal storage device, and 4 is second thermal storage device, 5 is the roof, and 6 are float-ball type water inlet device, and 7 for going out steam pipe, and 8 is the hot water inlet pipe, 9 is first threeway, and 10 is return pipe, and 11 is second threeway, 12 is the 3rd thermal storage device, and 13 is escape pipe, and 14 is blast pipe, 15 is hot-water line, and 16 is tube connector, and 17 is two-way switch, 18 is electric heater, and 19 is dividing plate, and 20 is temperature detect switch (TDS).

The specific embodiment

The utility model is not subjected to the restriction of following embodiment, can determine concrete embodiment according to the technical solution of the utility model and actual conditions.

Below in conjunction with embodiment and accompanying drawing the utility model is further described:

As shown in Figure 1, this solar energy heating device comprises solar heater 1, radiator 2, first thermal storage device 3, second thermal storage device 4 and the house; On the roof 5 in house, be installed with solar heater 1, in solar heater 1, be installed with float-ball type water inlet device 6, in the house, be installed with radiator 2, be installed with the top absolute altitude in the house below radiator 2 and be lower than first thermal storage device 3 of radiator 2 bottom absolute altitudes, be installed with volume in the house below first thermal storage device 3 and be lower than second thermal storage device 4 of first thermal storage device, 3 top absolute altitudes greater than first thermal storage device 3 and top absolute altitude, the steam port that goes out that is higher than the interior liquid level of solar heater is arranged on the solar heater 1, going out steam port and advancing of first thermal storage device, 3 lower ends is installed with out steam pipe 7 between the steam port, the delivery port at first thermal storage device, 3 tops is connected with the water inlet of radiator 2 and the water inlet at second thermal storage device, 4 tops respectively by the hot water inlet pipe 8 and first threeway 9, and the delivery port of radiator 2 is connected with the water inlet of first thermal storage device, 3 lower ends and the water inlet of second thermal storage device, 4 lower ends respectively by the return pipe 10 and second threeway 11; Be installed with at second thermal storage device, 4 tops and lead to outdoor blast pipe, like this, can heat the water in first thermal storage device 3, second thermal storage device 4 respectively and make water circulation in the radiator 2 by steam.

Can according to actual needs above-mentioned solar energy heating device be made further optimization and/or improvements:

As shown in Figure 1, be installed with the 3rd thermal storage device 12 in the house of radiator 2 tops, in the 3rd thermal storage device 12, be installed with float-ball type water inlet device 6, the gas outlet at second thermal storage device, 4 tops is connected by the air inlet of escape pipe 13 with the 3rd thermal storage device 12 lower ends, be installed with at the 3rd thermal storage device 12 tops and lead to outdoor blast pipe 14, be installed with hot-water line 15 in the 3rd thermal storage device 12 bottoms, like this, unnecessary steam can enter in the 3rd thermal storage device 12 by escape pipe 13 cold water in the 3rd thermal storage device 12 is heated, and unnecessary steam is discharged to the outside by blast pipe 14.

As shown in Figure 1, go out between steam pipe 7 and the 3rd thermal storage device 12 to be installed with tube connector 16, on tube connector 16, be installed with two-way switch 17, like this, just can open the switch that two-way switch 17 leads to tube connector 16 1 sides in summer, make the water in direct heating the 3rd thermal storage device 12 of steam.

As shown in Figure 1, the bottom of the 3rd thermal storage device 12 is installed with electric heater 18, when running into cloudy day or sleet sky, can heat by 18 pairs of water of electric heater.

As shown in Figure 1, be installed with dividing plate 19 in the 3rd thermal storage device 12 between the blast pipe 14 of the 3rd thermal storage device 12 and the air inlet of the 3rd thermal storage device 12, the upper end of dividing plate 19 is fixedly mounted on the 3rd thermal storage device 12 top inner wall, between the bottom of the bottom of dividing plate 19 and the 3rd thermal storage device 12 spacing is arranged, the condensation of steam is convenient in such setting.

As shown in Figure 1, the bottom of first thermal storage device 3 is installed with electric heater 18.

As shown in Figure 1, be installed with temperature detect switch (TDS) 20 on the radiator 2, like this, can control and enter into heat in the radiator 2.

As shown in Figure 1, be installed with dividing plate 19 in second thermal storage device 4 between the water inlet at escape pipe 13 and second thermal storage device, 4 tops, the upper end of dividing plate 19 is fixedly mounted on second thermal storage device, 4 top inner wall, between the bottom of the bottom of dividing plate 19 and second thermal storage device 4 spacing is arranged, the condensation of steam is convenient in such setting.

Above technical characterictic has constituted most preferred embodiment of the present utility model, and it has stronger adaptability and best implementation result, can increase and decrease non-essential technical characterictic according to actual needs, satisfies the demand of different situations.

The use of the utility model most preferred embodiment: when fine: the boiling of being heated of the water in the solar heater 1, steam connects 3 heating of first thermal storage device by going out steam pipe 7, hot water circulates automatically, get dim by radiator 2 heat radiations, temperature detect switch (TDS) 20 is according to room temperature control radiator 2 hot-water line hot water flows, and residue heat energy is stored in second thermal storage device 4 and the 3rd thermal storage device 12 by the vapor transmission branch; Night and cloudy day: hot water circulates automatically between second thermal storage device 4 and the radiator 2, gets dim by radiator 2 heat radiations; Continuously during the cloudy day: temperature reduce in second thermal storage device 4, when the hot water circuit heat supply is not enough, use the water of electric heater 18 heating first thermal storage device 3, and according to room temperature control, the 3rd thermal storage device 12 uses electric heater 18 heating when cloudy day continuously by temperature detect switch (TDS) 20.Used some days, and open the radiator air bleeding valve and discharge from the little air that dissolves in the running water.

Claims (10)

1. a solar energy heating device is characterized in that comprising solar heater, radiator, first thermal storage device, second thermal storage device and house; On the roof in house, be installed with solar heater, in solar heater, be installed with float-ball type water inlet device, in the house, be installed with radiator, be installed with the top absolute altitude in the house below radiator and be lower than first thermal storage device of radiator bottom absolute altitude, be installed with volume in the house below first thermal storage device and be lower than second thermal storage device of the first thermal storage device top absolute altitude greater than first thermal storage device and top absolute altitude, the steam port that goes out that is higher than the interior liquid level of solar heater is arranged on the solar heater, be installed with out steam pipe between the steam port going out advancing of the steam port and the first thermal storage device lower end, the delivery port at the first thermal storage device top is connected with the water inlet of radiator and the water inlet at the second thermal storage device top respectively by the hot water inlet pipe and first threeway, and the delivery port of radiator is connected with the water inlet of the first thermal storage device lower end and the water inlet of the second thermal storage device lower end respectively by the return pipe and second threeway; Be installed with at the second thermal storage device top and lead to outdoor blast pipe.

2. solar energy heating device according to claim 1, it is characterized in that being installed with the 3rd thermal storage device in the house of radiator top, in the 3rd thermal storage device, be installed with float-ball type water inlet device, the gas outlet at the second thermal storage device top is connected by the air inlet of escape pipe with the 3rd thermal storage device lower end, be installed with at the 3rd thermal storage device top and lead to outdoor blast pipe, be installed with hot-water line in the 3rd thermal storage device bottom.

3. solar energy heating device according to claim 2 is characterized in that being installed with tube connector between steam pipe and the 3rd thermal storage device, is installed with two-way switch on tube connector.

4. solar energy heating device according to claim 3 is characterized in that the bottom of the 3rd thermal storage device is installed with electric heater.

5. solar energy heating device according to claim 4, it is characterized in that being installed with dividing plate in the 3rd thermal storage device between the air inlet of the blast pipe of the 3rd thermal storage device and the 3rd thermal storage device, the upper end of dividing plate is fixedly mounted on the 3rd thermal storage device top inner wall, between the bottom of the bottom of dividing plate and the 3rd thermal storage device spacing is arranged.

6. according to claim 1 or 2 or 3 or 4 or 5 described solar energy heating devices, it is characterized in that the bottom of first thermal storage device is installed with electric heater.

7. according to claim 1 or 2 or 3 or 4 or 5 described solar energy heating devices, it is characterized in that being installed with on the radiator temperature detect switch (TDS).

8. solar energy heating device according to claim 6 is characterized in that being installed with on the radiator temperature detect switch (TDS).

9. according to claim 2 or 3 or 4 or 5 described solar energy heating devices, it is characterized in that being installed with dividing plate in second thermal storage device between the water inlet at the escape pipe and the second thermal storage device top, the upper end of dividing plate is fixedly mounted on the second thermal storage device top inner wall, between the bottom of the bottom of dividing plate and second thermal storage device spacing is arranged.

10. solar energy heating device according to claim 8, it is characterized in that being installed with dividing plate in second thermal storage device between the water inlet at the escape pipe and the second thermal storage device top, the upper end of dividing plate is fixedly mounted on the second thermal storage device top inner wall, between the bottom of the bottom of dividing plate and second thermal storage device spacing is arranged.

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