CN215167336U - Natural tile type solar roof with electricity generation, heat supply, ventilation and air exchange functions - Google Patents

Abstract

The utility model relates to a natural tile type solar roof with it is multi-functional to generate electricity, heat supply ventilation belongs to solar energy building energy saving technical field. The roof comprises a gable wall and a sunny side, and comprises a solar roof, a water circulation mechanism and an air circulation mechanism; the solar roof comprises an aluminum bottom plate and a plurality of photovoltaic cell mechanisms; an air flow channel is formed between the photovoltaic cell mechanism and the aluminum bottom plate; the water circulation mechanism comprises an upper water collecting pipe, a lower water collecting pipe, a plurality of ribbed pipes, a water tank and a water pump; the air circulation mechanism comprises an air flow channel, a heat preservation air header, a first air pipe and a second air pipe. In the heating season, a photovoltaic power generation-hot air mode is realized, and a water circulation mechanism is closed; the flexible thin film battery generates electricity and supplies power to the first fan and the second fan, so that indoor heating is actively realized; in non-heating seasons, a photovoltaic power generation-hot water-ventilation mode is realized, a water circulation mechanism works, a flexible film battery generates power, supplies power to a water pump, actively realizes hot water supply, and passively realizes indoor ventilation.

Description

Natural tile type solar roof with electricity generation, heat supply, ventilation and air exchange functions

Technical Field

The utility model belongs to the technical field of solar energy building integration and building energy conservation, concretely relates to natural tile type solar roof with it is multi-functional to generate electricity, heat supply ventilation.

Background

The Chinese character 'Pingbaidaiwa matou wall' is a real photo of a Hui-style dwelling. As an outstanding representative of regional buildings, the hui-style dwellings are numerous and widely distributed, are miniature images of regional history, society and culture, and have wide influence on China and even the world. At present, the Hui style dwelling houses still have two problems, on one hand, along with the improvement of the requirement of modern people on thermal comfort, a large amount of lighting, heating, ventilation, air conditioning and other equipment are used in the buildings, and the energy consumption of the buildings is continuously increased. Secondly, the bridgewall is used as a east-west gable wall and widely applied to the middle of Hui-style residents, and the problem of 'insolation' in summer is prominent, so that indoor overheating is caused. On the other hand, poor ventilation caused by closing the door and window to reduce energy consumption can cause health problems. Moreover, the rainy climate makes the equipment and the room easy to breed bacteria and viruses, and the poor ventilation creates conditions for the propagation of germs.

The integrated application of solar energy in Hui style residences can greatly reduce building energy consumption and improve indoor environment. However, the most used water heaters are only traditional independent vacuum tube water heaters which are generally attached to roofs and are not coordinated with the environment, the building appearance is seriously damaged, and the water heaters have single functions and can only obtain some domestic hot water. With the continuous development of solar energy technology, some new technologies, new materials and new devices are produced, and especially the BIPV/T comprehensive utilization technology not only improves the solar energy utilization efficiency, but also has multiple functions, thereby further realizing the annual efficient utilization of solar energy.

SUMMERY OF THE UTILITY MODEL

In order to utilize solar energy realization in the function of heating season electricity generation, initiative heat supply air high-efficiently, non-heating season electricity generation, initiative heat supply water, passive ventilation's function, the utility model provides a natural tile type solar roof with electricity generation heat supply ventilation is multi-functional.

A natural tile type solar roof with power generation, heat supply, ventilation and air exchange functions comprises gable walls on two sides and a roof with a sunny surface, wherein the roof with the sunny surface comprises a solar roof, a water circulation mechanism and an air circulation mechanism;

the solar roof comprises an aluminum bottom plate 7 and a plurality of photovoltaic cell mechanisms; the aluminum bottom plate 7 is a rectangular plate and is in an inclined plane shape; the bottom surface of the aluminum bottom plate 7 is provided with a heat-preservation waterproof layer 8; the photovoltaic cell mechanism comprises a flexible thin film cell 1 and a metal heat absorption plate 3 which are fixedly adhered together; a plurality of photovoltaic cell mechanisms are uniformly distributed on the aluminum bottom plate 7, and an air flow channel 6 is formed in a space between each photovoltaic cell mechanism and the aluminum bottom plate 7;

the water circulation mechanism comprises an upper water collecting pipe 13, a lower water collecting pipe 12, a plurality of ribbed pipes 4, a water tank 14 and a water pump 15; one end of the upper water collecting pipe 13 is communicated with a water inlet of a water tank 14, and the other end of the upper water collecting pipe 13 is closed; one end of the lower water collecting pipe 12 is communicated with a water outlet of the water tank 14, and the other end of the lower water collecting pipe 12 is closed; the water pump 15 is connected in series with the lower water collecting pipe 12 adjacent to the water tank 14; a plurality of ribbed pipes 4 are uniformly distributed and communicated between the upper water collecting pipe 13 and the lower water collecting pipe 12;

the air circulation mechanism comprises a plurality of air flow channels 6, a heat preservation air header 9, a first air pipe 10 and a second air pipe 11; the heat-preservation air header 9 is used as a roof ridge; the first air duct 10 and the second air duct 11 are vertical; two ends of the heat preservation air collection box 9 are respectively communicated with the upper part of the first air pipe 10 and the upper part of the second air pipe 11; the upper port of the first air duct 10 is a first vent 18, and one side of the lower part of the first air duct 10 is provided with a third vent 20; the upper port of the second air duct 11 is a second ventilation opening 19, and a fourth ventilation opening 21 is formed in one side of the lower part of the second air duct 11; a first fan 16 is arranged in the first air pipe 10, and a second fan 17 is arranged in the second air pipe 11; one end of each of the air flow channels 6 is communicated with a heat preservation air header 9, and the other end of each of the air flow channels 6 is an air inlet 5;

one side edge of the aluminum bottom plate 7 is a roof edge and is parallel to the heat-preservation air collection box 9; the other side edge of the corresponding aluminum bottom plate 7 is a eave edge;

the upper water collecting pipe 13 is positioned in the heat-preservation air collecting box 9, the lower water collecting pipe 12 is positioned on the aluminum bottom plate 7 and is parallel to the edge of the eave, and the plurality of ribbed pipes 4 are respectively positioned in the corresponding air flow channels 6; the air inlets 5 of the air flow channels 6 are respectively positioned at the eave edge of the aluminum bottom plate 7;

in the heating season, a photovoltaic power generation-hot air mode is realized, and a water circulation mechanism is closed; the flexible thin film battery 1 generates electricity and supplies power to the first fan 16 and the second fan 17, and indoor heating is actively realized;

in non-heating seasons, a photovoltaic power generation-hot water-ventilation mode is realized, the water circulation mechanism works, the flexible film battery 1 generates power, supplies power to the water pump 15, actively realizes hot water supply, meanwhile, the indoor temperature changes along with the intensity of solar irradiation, and the air circulation mechanism passively realizes indoor ventilation.

The specific technical scheme is as follows:

the flexible thin film battery 1 is a copper indium gallium selenide CIGS thin film solar battery.

The photovoltaic cell mechanism is in the shape of a Daisy-blue tile on a Huipai building.

The flexible thin film battery 1 and the metal heat absorbing plate 3 are fixedly connected through the adhesive layer 2.

The metal heat absorbing plate 3 is an aluminum plate, the ribbed tubes 4 are copper tubes, and the ribbed tubes 4 are connected with the metal heat absorbing plate 3 in a welding mode and located at the highest position in the tile-shaped cross section.

The water pump 15 is a direct-current water pump.

The first air duct 10 and the second air duct 11 are respectively arranged at non-bearing structures in the gable walls at the two sides.

The gable wall is a horse head wall, and the distance between the air flow channel 6 adjacent to the horse head wall and the horse head wall is 0.5 m.

The heights of the first air pipe 10 and the second air pipe 11 are the same, and the upper end opening of the first air pipe 10 and the upper end opening of the second air pipe 11 are higher than the heat preservation air header 9.

The heat-insulating air header 9 is a rectangular pipe with a rectangular cross section.

The beneficial technical effects of the utility model are embodied in the following aspects:

1. the utility model discloses with solar photovoltaic power generation, heating/hot water, ventilation technique combines the emblem to send the local-style dwelling houses roof to carry out the integrated design, this kind of natural tile type roof is through the switching of control water pump, the fan, air runner and each vent, operation photovoltaic power generation-hot air mode in the heating season, to indoor initiative heating air in the time of system's photovoltaic cell electricity generation promptly, operation photovoltaic power generation-hot water-ventilation mode in non-heating season, produce hot water in the time of system's photovoltaic cell electricity generation promptly, and to indoor passive ventilation, in the transition season, different mode of working of nimble switching, the annual utilization ratio of solar energy has been improved. Because the building is obliquely arranged on the roof facing the sun, and the solar facility is parallel to the roof, the scheme can receive the most solar radiation, and the solar conversion rate is highest, so that the new Hui style dwelling houses roof is the best position for integrating solar energy and the building.

2. Aiming at the distinguished representatives of regional buildings, namely Hui-style residences, the system integrates the flexible thin film battery 1 and the roofs of the new Hui-style residences, and in a heating season, the flexible thin film battery 1 supplies power to the first fan 16 and the second fan 17 to realize that the system actively supplies heat air to the indoor space; in non-heating seasons, the flexible film battery 1 supplies power to the water pump 15, and the system can actively supply hot water to the building; meanwhile, the indoor temperature changes with the intensity of solar irradiation, and the rate of heat supply or ventilation of the system changes with the magnitude of photovoltaic power, so that the indoor environment requirement is met; in addition, the height of the gable walls at the two sides and the sizes of the first ventilation opening 18 and the second ventilation opening 19 are adjusted, so that the chimney effect is enhanced, indoor passive ventilation is realized, the building energy consumption is reduced, and healthy and comfortable indoor air is created. The system not only keeps the important characteristics of the natural tile, but also realizes the multifunction of the solar roof, and can provide a new idea for realizing the large-scale application of solar buildings and creating healthy and comfortable indoor environment.

3. In the transition season, can be according to the building user demand, when flexible film battery 1 electricity generation, realize different mode switch through the switching of each vent of tuber pipe, fan in adjusting water pump 15 and both sides gable, realize in a flexible way to indoor heat supply air and preparation life hot water and strengthen indoor ventilation's multiple functions. The solar energy heat-collecting system has remarkable effects of flexibly and effectively utilizing solar energy, reducing building energy consumption and improving indoor environment.

To sum up, a natural tile type solar roof with electricity generation heat supply ventilation is multi-functional, fine market spreading value has.

Drawings

Fig. 1 is an appearance schematic diagram of the present invention.

Fig. 2 is a schematic view of a water circulation mechanism.

Fig. 3 is a schematic view of an air circulation mechanism.

FIG. 4 is a schematic view of a structure of two side gable walls.

Fig. 5 is a schematic cross-sectional view of the air flow channel at a in fig. 1.

FIG. 6 is a graph showing the annual power generation capacity of a natural tile type solar roof in the Tunxi region of Huangshan city.

Fig. 7 is a graph of ventilation times for the vent of fig. 7.

Fig. 8 is a graph of vent outlet temperature.

Sequence numbers in FIGS. 1-5: the heat-insulation air-conditioning system comprises a flexible thin-film battery 1, an adhesive layer 2, a metal heat-absorbing plate 3, ribbed pipes 4, an air inlet 5, an air flow channel 6, an aluminum bottom plate 7, a heat-insulation waterproof layer 8, a heat-insulation air collection box 9, a first air pipe 10, a second air pipe 11, a lower water collection pipe 12, an upper water collection pipe 13, a water tank 14, a water pump 15, a first fan 16, a second fan 17, a first ventilation opening 18, a second ventilation opening 19, a third ventilation opening 20 and a fourth ventilation opening 21.

Detailed Description

The invention will now be further described by way of example with reference to the accompanying drawings.

Example 1

Referring to fig. 1, the natural tile type solar roof with the functions of power generation, heat supply, ventilation and air exchange comprises gable walls on two sides and a roof with a sunny side, wherein the roof with the sunny side comprises a solar roof, a water circulation mechanism and an air circulation mechanism.

Referring to fig. 3, the solar roof comprises an aluminum bottom plate 7 and a plurality of photovoltaic cell mechanisms; the aluminum bottom plate 7 is a rectangular plate and is in an inclined plane shape. Referring to fig. 5, a heat-insulating waterproof layer 8 is installed on the bottom surface of the aluminum bottom plate 7; the photovoltaic cell mechanism comprises a flexible thin film cell 1 and a metal heat absorption plate 3 which are adhered together through an adhesion layer 2, wherein the flexible thin film cell 1 is a Copper Indium Gallium Selenide (CIGS) thin film solar cell, and the metal heat absorption plate 3 is an aluminum plate. The photovoltaic cell mechanism is in the shape of a Daisy-blue tile on a Hui-style building, a plurality of photovoltaic cell mechanisms are uniformly distributed on the aluminum bottom plate 7, and an air flow channel 6 is formed in the space between the photovoltaic cell mechanisms and the aluminum bottom plate 7.

Referring to fig. 2, the water circulation mechanism includes an upper header 13, a lower header 12, a plurality of ribbed pipes 4, a water tank 14, and a water pump 15. One end of the upper water collecting pipe 13 is communicated with a water inlet of a water tank 14, and the other end of the upper water collecting pipe 13 is closed; one end of the lower water collecting pipe 12 is communicated with the water outlet of the water tank 14, and the other end of the lower water collecting pipe 12 is closed. The water pump 15 is connected in series with the lower water collecting pipe 12 adjacent to the water tank 14; the plurality of ribbed pipes 4 are uniformly communicated between the upper water collecting pipe 13 and the lower water collecting pipe 12. Referring to fig. 5, the ribbed tube 4 is a copper tube, and the ribbed tube 4 is welded to the metal heat absorbing plate 3 and is located at the highest position in the tile-shaped cross section. The water pump 15 is a direct current water pump.

Referring to fig. 3, the air circulation mechanism includes a plurality of air flow passages 6, a warm air header 9, a first air duct 10, and a second air duct 11. Referring to fig. 4, the heat-insulating air header 9 is a rectangular pipe with a rectangular cross section, and serves as a roof ridge; the first air duct 10 and the second air duct 11 are vertical; two ends of the heat preservation air collection box 9 are respectively communicated with the upper part of the first air pipe 10 and the upper part of the second air pipe 11; the upper port of the first air duct 10 is a first vent 18, and one side of the lower part of the first air duct 10 is provided with a third vent 20; the upper port of the second air duct 11 is a second ventilation opening 19, and a fourth ventilation opening 21 is formed in one side of the lower part of the second air duct 11; a first fan 16 is arranged in the first air pipe 10, and a second fan 17 is arranged in the second air pipe 11; one end of each of the air flow channels 6 is communicated with a heat preservation air header 9, and the other end of each of the air flow channels 6 is an air inlet 5. The first air pipe 10 and the second air pipe 11 are respectively installed at non-bearing structures in the gable walls at the two sides, the first air pipe 10 and the second air pipe 11 are the same in height, and the upper end opening of the first air pipe 10 and the upper end opening of the second air pipe 11 are both higher than the heat preservation air collection box 9. The gable wall is a horse head wall, and the distance between the air flow channel 6 adjacent to the horse head wall and the horse head wall is 0.5 m.

Referring to fig. 2, one side of the aluminum bottom plate 7 is a roof side, and is parallel to the heat-insulating air header 9; the other side edge of the corresponding aluminum bottom plate 7 is an eave edge.

Referring to fig. 2, an upper water collecting pipe 13 is positioned in the heat-insulating air collecting tank 9, a lower water collecting pipe 12 is positioned on the aluminum bottom plate 7 and is parallel to the eave edge, and a plurality of ribbed pipes 4 are respectively positioned in the corresponding air flow channels 6; the air inlets 5 of the air channels 6 are respectively positioned at the eave edge of the aluminum bottom plate 7.

The working principle of the utility model is explained in detail as follows:

in the heating season, a photovoltaic power generation-hot air mode is operated, the water tank 14 is emptied, the water pump 15 is turned off, and water circulation is turned off. The flexible film battery 1 generates electricity, the first fan 16 and the second fan 17 work, the first ventilation opening 18 and the second ventilation opening 19 are closed, the third ventilation opening 20 and the fourth ventilation opening 21 are opened, outdoor cold air enters the air flow channel 6 from the air inlet 5 under the driving of the fans and is heated by the metal heat absorbing plate 3, hot air enters the heat preservation air header 9 to be collected, then enters the first air pipe 10 and the second air pipe 11 respectively, and enters the room through the third ventilation opening 20 and the fourth ventilation opening 21, and active heating air is achieved.

In non-heating seasons, a photovoltaic power generation-hot water-ventilation mode is operated, the first fan 16 and the second fan 17 are turned off, and the fans stop working. The flexible film battery 1 generates electricity, the water pump 15 works, cold water enters the plurality of ribbed pipes 4 from the lower water collecting pipe 12 under the driving of the water pump and is heated by the metal heat absorbing plates 3, and hot water is conveyed into the water tank 14 from the upper water collecting pipe 13, so that active hot water supply is realized. Meanwhile, a first ventilation opening 18, a second ventilation opening 19, a third ventilation opening 20 and a fourth ventilation opening 21 are opened, outdoor cold air enters an air flow channel 6 from an air inlet 5 under the action of natural convection and is heated by a metal heat absorbing plate 3, hot air enters a heat preservation air header 9 to be collected, and is exhausted outdoors through the first ventilation opening 18 and the second ventilation opening 19, so that the temperatures of the metal heat absorbing plate 3 and the flexible film battery 1 are reduced, and the power generation efficiency of the system is improved; and under the suction action of the chimney effect, indoor air is introduced into the first air duct 10 and the second air duct 11 through the third air vent 20 and the fourth air vent 21 and then is exhausted out of the room through the first air vent 18 and the second air vent 19, so that indoor passive ventilation is realized.

In the transition season, can be according to the building user demand, when flexible film battery 1 generated electricity, realize different mode switches through the switching of each vent, the fan of adjusting water pump 15 and both sides gable interior tuber pipe, realize indoor heat supply air and preparation life hot water in a flexible way and strengthen indoor ventilation's multiple functions.

Example 2

The actual building area of the structure according to example 1 was 83m² The building is located in the Tunxi district of Mount Huangshan city, Anhui, 118.33 degrees E, 29.72 degrees N, and is a double-layer independent house with double-slope roof and a brick-concrete structure. The width of the residential surface is 8.1m, the depth is 5.2m, the layer height is 3.3m, the slope of the roof is 30 degrees, and the east-west gable adopts a horse-head gable slightly higher than the roof and is 7.2 meters high. The building is adopted on the sunny roof. The total annual generating capacity of the natural tile type solar roof with the functions of generating electricity, supplying heat, ventilating and ventilating is 3348.68 kW.h, and the generating capacity is the highest in 7 months in the figure 6.

The size of the first air pipe 10 in the horsehead wall is 80cm wide by 680cm high by 20cm thick, the size of the third air vent 20 is 70cm wide by 30cm, and the ventilation times of the air pipes are measured and calculated through Energyplus software. According to the design standard JGJ134-2010 of residential building energy conservation in hot summer and cold winter areas, the indoor design temperature of heating in winter is 18 ℃, the air exchange frequency is 1.0 time/h, the indoor temperature of air-conditioning refrigeration in summer is 26 ℃, and the air exchange frequency is 1.0 time/h. Referring to fig. 7, the simulation results show that the number of room ventilation times is maintained between 1 and 4 times/h, and the number of room ventilation times is obviously increased.

The size of the first air duct 10 in the horsehead wall is 80cm wide by 680cm high by 20cm thick, the size of the first vent 18 is 80cm wide by 20cm, and the outlet temperature of the vent is measured by the Energyplus software. Referring to fig. 8, it can be seen that the outlet temperature of the air duct is high, which can reach about 80 ℃ at most in summer, and the "chimney effect" of the air duct on the air flow channel 5 is strong, which can enhance the air velocity of the air flow channel 5, and reduce the temperature of the photovoltaic cell mechanism to increase the power generation efficiency thereof.

It will be understood by those skilled in the art that the foregoing is only a preferred embodiment of the present invention, and is not intended to limit the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a natural tile type solar roof with it is multi-functional to generate electricity heat supply ventilation, includes the gable of both sides and the roof of sunny side, its characterized in that: the roof of the sunny side comprises a solar roof, a water circulation mechanism and an air circulation mechanism;

the solar roof comprises an aluminum bottom plate (7) and a plurality of photovoltaic cell mechanisms; the aluminum bottom plate (7) is a rectangular plate and is in an inclined plane shape; the bottom surface of the aluminum bottom plate (7) is provided with a heat-insulating waterproof layer (8); the photovoltaic cell mechanism comprises a flexible thin film cell (1) and a metal heat absorption plate (3) which are fixedly adhered together; a plurality of photovoltaic cell mechanisms are uniformly distributed on the aluminum bottom plate (7), and an air flow channel (6) is formed in a space between each photovoltaic cell mechanism and the aluminum bottom plate (7);

the water circulation mechanism comprises an upper water collecting pipe (13), a lower water collecting pipe (12), a plurality of ribbed pipes (4), a water tank (14) and a water pump (15); one end of the upper water collecting pipe (13) is communicated with a water inlet of the water tank (14), and the other end of the upper water collecting pipe (13) is closed; one end of the lower water collecting pipe (12) is communicated with a water outlet of the water tank (14), and the other end of the lower water collecting pipe (12) is closed; the water pump (15) is connected in series with the lower water collecting pipe (12) adjacent to the water tank (14); a plurality of ribbed pipes (4) are uniformly distributed and communicated between the upper water collecting pipe (13) and the lower water collecting pipe (12);

the air circulation mechanism comprises a plurality of air flow channels (6), a heat-preservation air header (9), a first air pipe (10) and a second air pipe (11); the heat-preservation air collection box (9) is used as a roof ridge; the first air pipe (10) and the second air pipe (11) are vertical; two ends of the heat preservation air collection box (9) are respectively communicated with the upper part of the first air pipe (10) and the upper part of the second air pipe (11); the upper port of the first air pipe (10) is a first ventilation opening (18), and a third ventilation opening (20) is formed in one side of the lower part of the first air pipe (10); the upper port of the second air pipe (11) is a second ventilation opening (19), and a fourth ventilation opening (21) is formed in one side of the lower part of the second air pipe (11); a first fan (16) is arranged in the first air pipe (10), and a second fan (17) is arranged in the second air pipe (11); one end of each of the air flow channels (6) is communicated with a heat-preservation air header (9), and the other end of each of the air flow channels (6) is provided with an air inlet (5);

one side edge of the aluminum bottom plate (7) is a roof edge and is parallel to the heat-preservation air collection box (9); the other side edge of the corresponding aluminum bottom plate (7) is an eave edge;

the upper water collecting pipe (13) is positioned in the heat-preservation air collecting box (9), the lower water collecting pipe (12) is positioned on the aluminum bottom plate (7) and is parallel to the edge of an eave, and the plurality of ribbed pipes (4) are respectively positioned in the corresponding air flow channels (6); the air inlets (5) of the air flow channels (6) are respectively positioned at the eave edge of the aluminum bottom plate (7);

in the heating season, a photovoltaic power generation-hot air mode is realized, and a water circulation mechanism is closed; the flexible thin film battery (1) generates electricity and supplies power to the first fan (16) and the second fan (17) to actively realize indoor heating;

in non-heating seasons, a photovoltaic power generation-hot water-ventilation mode is realized, the water circulation mechanism works, the flexible film battery (1) generates power, supplies power to the water pump (15), actively realizes hot water supply, meanwhile, the indoor temperature changes along with the intensity of solar irradiation, and the air circulation mechanism passively realizes indoor ventilation.

2. The natural tile type solar roof with the functions of power generation, heat supply, ventilation and air exchange of claim 1 is characterized in that: the flexible thin film battery (1) is a Copper Indium Gallium Selenide (CIGS) thin film solar battery.

3. The natural tile type solar roof with the functions of power generation, heat supply, ventilation and air exchange of claim 1 is characterized in that: the photovoltaic cell mechanism is in the shape of a Daisy-blue tile on a Huipai building.

4. The natural tile type solar roof with the functions of power generation, heat supply, ventilation and air exchange of claim 1 is characterized in that: the flexible thin film battery (1) and the metal heat absorption plate (3) are fixedly connected through the sticking layer (2).

5. The natural tile type solar roof with the functions of power generation, heat supply, ventilation and air exchange of claim 1 is characterized in that: the metal heat absorbing plate (3) is an aluminum plate, the ribbed tubes (4) are copper tubes, and the ribbed tubes (4) are connected with the metal heat absorbing plate (3) in a welding mode and located at the highest position in the tile-shaped cross section.

6. The natural tile type solar roof with the functions of power generation, heat supply, ventilation and air exchange of claim 1 is characterized in that: the water pump (15) is a direct-current water pump.

7. The natural tile type solar roof with the functions of power generation, heat supply, ventilation and air exchange of claim 1 is characterized in that: the first air pipe (10) and the second air pipe (11) are respectively arranged at non-bearing structures in the gable walls at the two sides.

8. The natural tile type solar roof with the functions of power generation, heat supply, ventilation and air exchange of claim 1 is characterized in that: the gable wall is a horse head wall, and the distance between the air flow channel (6) adjacent to the horse head wall and the horse head wall is 0.5-0.6 m.

9. The natural tile type solar roof with the functions of power generation, heat supply, ventilation and air exchange of claim 1 is characterized in that: the height of the first air pipe (10) is the same as that of the second air pipe (11), and the upper port of the first air pipe (10) and the upper port of the second air pipe (11) are higher than that of the heat preservation air header (9).

10. The natural tile type solar roof with the functions of power generation, heat supply, ventilation and air exchange of claim 1 is characterized in that: the heat preservation air header (9) is a rectangular pipe with a rectangular cross section.

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