CN115142622B - Energy-saving roof structure for green building based on solar power generation - Google Patents

Abstract

The invention discloses an energy-saving roof structure for a green building based on solar power generation, which aims to solve the technical problems of high manufacturing cost and limited heat radiation capacity of a solar roof adopting a double-heat metal material. The energy-saving roof structure comprises roof wing plates which are arranged in bilateral symmetry, a roof top plate which is horizontally and fixedly connected between the upper ends of the roof wing plates, supports symmetrically arranged at two ends of the roof top plate, and a solar panel which is horizontally arranged above the roof wing plates. According to the energy-saving roof structure, the motor controlled by the timer is used for driving the solar panel to turn over and turn to the direction under different illumination angles in different time of the day, so that the photoelectric energy module on the surface of the solar panel can absorb light energy to the greatest extent, the light energy utilization rate is fully improved, the through holes on the roof on the light-facing side are opened by the solar panel in the turning process, indoor and outdoor air is communicated, and indoor heat dissipation and ventilation are accelerated.

Description

Energy-saving roof structure for green building based on solar power generation

Technical Field

The invention belongs to the field of green buildings, and particularly relates to an energy-saving roof structure for a green building based on solar power generation.

Background

The solar energy power generation system fully utilizes solar energy to generate power in the building, reduces the energy consumption of the building, and is an effective way for saving energy of the building. In recent years, the support strength of solar photovoltaic buildings is continuously enhanced in the aspects of policies and resources in the country, the solar photovoltaic buildings represent a rapidly developed situation, and the photovoltaic and the buildings are combined to realize the integration of the photovoltaic buildings, so that the solar power generation can be realized, the energy is saved, the environment is protected, and a large amount of land resources can be saved.

The invention of China with the prior bulletin number of CN105220838B discloses a solar roof capable of automatically switching on and off for heat dissipation, which comprises the following components: the solar energy roof module comprises a first solar energy roof module, a second solar energy roof module, a first spandrel girder, a second spandrel girder, a third spandrel girder and bolts, wherein the first solar energy roof module and the second solar energy roof module are composed of a photovoltaic cell and a thermal bimetallic strip, the photovoltaic cell is adhered to the surface of the thermal bimetallic strip, the upper end of the first solar energy roof module is fixed on the first spandrel girder through bolts, the lower end of the first solar energy roof module is lapped on the upper end of the second solar energy roof module, the upper end of the second solar energy roof module is fixed on the second spandrel girder through bolts, the lower end of the second solar energy roof module is lapped on the third spandrel girder, and the first solar energy roof module and the second solar energy roof module are arranged on a southward roof of a building. The roof can automatically ventilate and dissipate heat in summer, is sealed and insulated in winter, and has good application prospect. The patent document mainly uses the characteristic of thermal deformation to achieve the ventilation and heat dissipation functions through special roofing metal materials, but the thermal expansion metal has high manufacturing cost, is not suitable for being used on a large-area roof, and has the advantages that the expansion bending degree of the metal is greatly influenced by temperature change, and the heat dissipation effect is not obvious.

Therefore, aiming at the situation that the mode of using the double-heat metal material on the solar roof is high in manufacturing cost and limited in heat dissipation capacity, the novel solar roof is developed, and the air environment inside and outside the house is communicated by utilizing the overturning of the solar panel, so that the ventilation and heat dissipation purposes are effectively achieved.

Disclosure of Invention

(1) Technical problem to be solved

Aiming at the defects of the prior art, the invention aims to provide an energy-saving roof structure for a green building based on solar power generation, which aims to solve the technical problems of high manufacturing cost and limited heat dissipation capacity of a mode of using a bi-thermal metal material on a solar roof.

(2) Technical proposal

In order to solve the technical problems, the invention provides an energy-saving roof structure for a green building based on solar power generation, which comprises left and right symmetrically arranged roof wing plates, a roof top plate horizontally and fixedly connected between the upper ends of the roof wing plates, support seats symmetrically arranged at the two ends of the roof top plate, and a solar panel horizontally arranged above the roof wing plates, wherein a building indoor cross beam is horizontally connected between the bottom ends of the roof wing plates, three groups of glass windows are equidistantly arranged on the surfaces of the roof wing plates, a motor controlled by a timer is arranged on one side of the support seats, a balance plate is arranged in the middle of the solar panel, photoelectric energy modules are distributed on the surfaces of the solar panel, movable shafts are fixedly connected at the two ends of the balance plate, the movable shafts are connected with output shafts of the motor, sliding grooves communicated with a building room are axially formed in the middle of the roof top plate, sliding grooves are movably connected with sliding strips, assembly clamping blocks are horizontally arranged at the bottom ends of the sliding strips, one ends of the sliding strips are inserted into a building wall body, rubber piece is arranged on the surfaces of the wing plates, a rubber piece is arranged on the inner side of the sliding strips, and a rubber piece is arranged on the inner side of the rubber piece, and is arranged on the inner side of the rubber piece and is communicated with the inner side of the building.

When the energy-saving roof structure for the green building based on solar power generation is used, the roof structure formed by the roof wing plates and the roof top plate is hung to the top surface of the building through the hoisting machine, then an installer climbs the roof top plate, screws the screw rod by hand to enable the limiting block and the sliding strip connected with the limiting block to move reversely along the sliding groove, so that the assembling clamping block is horizontally inserted into two side walls of the building, roof assembly is completed at the moment, the motor drives the balance plate to overturn towards one side of a solar illumination angle through the rotary output shaft in the morning, the solar panel faces the light incident angle, the bottom of the solar panel faces one side of illumination and abuts against the gasket, the flexible material of the solar panel is used for preventing the solar panel from being extruded and damaged by contact with the surface of the rigid roof, the solar panel forms a shielding effect on the glass window, strong light is prevented from directly penetrating into the building through the glass window, meanwhile, the LED lamp at the lower end of the side of the solar panel faces the glass window on the side of the building, the photoelectric module receives light and is converted into the LED lamp at the side of the electric energy to control the side, the glass window emits soft light to provide illumination through the indoor through the window, the solar panel overturn in the process, the through pipe is inserted into the rubber through hole downwards, the rubber part is opened towards the indoor side of the air guide plate and the indoor side of the building, the air cooling hole is opened towards the indoor side of the building, the indoor side is gradually, the air is cooled down along with the air, the air ventilation mode is achieved, and the indoor ventilation mode is achieved, and the ventilation mode is achieved along with the indoor ventilation mode is achieved, and the ventilation mode is achieved.

Preferably, the surface of the roof wing plate is provided with a pad made of foam material parallel to the solar panel, and the pad is arranged below the solar panel. When the solar panel is turned from a horizontal state to one side of the roof wing plate, the end part of the solar panel is abutted against the gasket, and the gasket is used for preventing the solar panel from being influenced by wind force or structural vibration and the roof wing plate from being damaged in rigidity due to collision.

Preferably, the top end of the sliding strip is fixedly connected with a limiting block, the limiting block is arranged on the upper side of the roof top plate, one side, back to the limiting block, of the limiting block is fixedly connected with an organ type protective cover, and the protective cover is arranged above the sliding groove. The stopper plays vertical limiting action to the assembly fixture block of below, makes it keep horizontal migration, and the accurate hole inslot of reserving on the building wall that inserts.

Preferably, a fixed block is fixedly arranged at the upper end of the roof top plate, the fixed block is arranged between the limiting blocks, and the protective cover is fixedly arranged between the limiting blocks and the fixed block. In the moving process of the limiting block, the protective cover is gradually pulled open to shield the upper portion of the sliding groove, and dust and the like are prevented from entering a room.

Preferably, the inner side of the fixed block is in threaded connection with a screw rod screwing hand, and the top end of the screw rod screwing hand is movably connected to the inner side of the limiting block. After climbing the roof, an installer manually screws the screw rod to screw the screw rod, and the screw rod is moved axially through the screw rod to control the limiting blocks to approach or separate from each other, so that the assembly fixture blocks horizontally enter and exit from the wall surface of the building, and the roof and the building are assembled or disassembled.

Preferably, the solar panel lower extreme left and right sides symmetry is installed the fixed plate, the draw-in groove has been seted up to the fixed plate inboard, draw-in groove inboard sliding connection has the curtain. When the solar panel is turned over to be parallel to the side roof wing plate, the glue curtain further plays a role in shielding the top end of the cavity between the solar panel and the side roof side plate, so that the light entering is reduced, and the shading effect on the side roof is enhanced.

Preferably, the LED lamps are installed at the lower end of the solar panel at equal intervals, the LED lamps are connected with the photoelectric energy module through cables, and the LED lamps are arranged above the glass window. When solar panel shelters from one side roofing pterygoid lamina, most sunlight can't get into through the glass window, and indoor light is dim, plays auxiliary lighting effect through the LED lamp this moment.

Preferably, a hollow through pipe is arranged at the lower end of the solar panel, the through pipe is arranged above the through hole, and a diversion hole is formed in the surface of the through pipe. When the solar panel is turned to one side of the sun irradiation angle, the side building has a large irradiation range, the indoor temperature is higher, the through pipe is inserted into the through hole on the side, and the indoor hot air is led out outwards by the diversion hole.

(3) Advantageous effects

Compared with the prior art, the invention has the beneficial effects that: according to the energy-saving roof structure for the green building based on solar power generation, the motor controlled by the timer is adopted to drive the solar panel to turn over and turn to adjust the direction under different illumination angles in different days, so that the photoelectric energy module on the surface of the roof structure can absorb light energy to the greatest extent, the light energy utilization rate is fully improved, the solar panel in the turning process is utilized to open the through hole on the roof on the light-facing side, the indoor and outdoor air is communicated, the indoor heat dissipation and ventilation are accelerated, the structure is simple, the manufacturing cost is low, the roof structure is horizontally spliced and locked at the top of the building through the assembly fixture block and the wall surface of the building, and the installation and the disassembly are simple and quick.

Drawings

Fig. 1 is a schematic diagram of an assembled structure of an embodiment of an energy-saving roof structure for green building based on solar power generation according to the present invention;

FIG. 2 is a schematic view of another assembled structure of an embodiment of an energy-saving roof structure for green building based on solar power generation according to the present invention;

FIG. 3 is a schematic view of a roof wing plate and a roof top plate of an embodiment of an energy-saving roof structure for green building based on solar power generation;

FIG. 4 is a schematic diagram of the top surface structure of a solar panel of an embodiment of an energy-saving roof structure for green building based on solar power generation according to the present invention;

FIG. 5 is a schematic view of the bottom surface of a solar panel of an embodiment of an energy-saving roof structure for green buildings based on solar power generation according to the present invention;

fig. 6 is a schematic diagram of an assembled fixture block structure of an embodiment of an energy-saving roof structure for a green building based on solar power generation.

The marks in the drawings are: 1. roof wing plates; 2. a roof top plate; 3. a cross beam; 4. a glazing; 5. a support; 6. a motor; 7. a balance plate; 8. a solar panel; 9. a photovoltaic energy module; 10. a movable shaft; 11. a chute; 12. a slide bar; 13. assembling a clamping block; 14. a rubber member; 15. a through hole; 16. a gasket; 17. a limiting block; 18. a protective cover; 19. a fixed block; 20. screw rod screwing; 21. a fixing plate; 22. a clamping groove; 23. a curtain; 24. an LED lamp; 25. a through pipe; 26. and a deflector hole.

Detailed Description

This embodiment is an energy-saving roof structure for green building based on solar energy power generation, its package structure schematic diagram is as shown in fig. 1, another state package structure schematic diagram is as shown in fig. 2, roofing pterygoid lamina 1 and roofing roof 2 structure schematic diagram is as shown in fig. 3, solar panel 8 top surface structure schematic diagram is as shown in fig. 4, solar panel 8 bottom surface structure schematic diagram is as shown in fig. 5, assembly fixture block 13 structure schematic diagram is as shown in fig. 6, this energy-saving roof structure includes the roofing pterygoid lamina 1 of bilateral symmetry setting, horizontal fixed connection is in roofing roof 2 between roofing pterygoid lamina 1 upper end, install the support 5 at roofing roof 2 both ends symmetry, the solar panel 8 of level setting in roofing pterygoid lamina 1 top, horizontal connection is provided with and is set up in building indoor crossbeam 3 between roofing pterygoid lamina 1 bottom, three sets of glass windows 4 are installed to roofing pterygoid lamina 1 surface equidistance, support 5 back to one side installs motor 6 through the time-controlled, be provided with balance plate 7 in the middle of solar panel 8, solar panel 8 surface distribution has photovoltaic module 9, balance plate 7 both ends fixedly connected with loose axle 10, the loose axle 10 is connected with motor output axle 6 looks at roof 2, the inside of a rubber window piece 12 is equipped with in the inside of sliding groove 14, the inside of sliding groove 14 is equipped with in the sliding groove 14, the inside of sliding groove 14 is equipped with the inside a rubber piece 13, the sliding groove 13 is equipped with inside the inside a rubber piece 13, the inside is equipped with the sliding groove 13, 13 is equipped with the inside a sliding groove 13, 13 is equipped with the inside a sliding groove is equipped with the sliding groove 13.

For this embodiment, the motor 6 in this application is controlled by a timer, and the solar angle is changed at different times in the day to adjust the direction of the solar panel 8 to always face to the sun, so that the photovoltaic module 9 fully receives light, and the light energy loss rate is reduced.

Wherein, roofing pterygoid lamina 1 surface is provided with the pad 16 of bubble cotton material that is parallel with solar panel 8, and pad 16 sets up in solar panel 8 below. When the solar panel 8 is turned from the horizontal state to the side of the roof wing plate 1, the end of the solar panel is abutted against the gasket 16, and the gasket 16 is used for preventing the solar panel 8 from being influenced by wind force or structural vibration and the roof wing plate 1 from being impacted to cause rigidity damage.

Simultaneously, slider 12 top fixedly connected with stopper 17, stopper 17 set up in roofing roof 2 upside, stopper 17 back to one side fixedly connected with organ formula protection casing 18, protection casing 18 set up in spout 11 top, roofing roof 2 upper end fixed mounting has fixed block 19, and fixed block 19 sets up between stopper 17, and protection casing 18 fixed mounting is between stopper 17 and fixed block 19, and fixed block 19 inboard threaded connection has lead screw spanner 20, and lead screw spanner 20 top swing joint is in stopper 17 inboard. The stopper 17 plays vertical limiting action to the assembly fixture block 13 of below, makes it keep horizontal migration, and the in-process that the accurate hole inslot reserved on inserting the building wall, stopper 17 removed, protection casing 18 is pulled open gradually, plays the shielding effect to spout 11 upper portion, avoids dust etc. to get into indoor, and the installer climbs behind the roofing roof 2 and twists manual lead screw and twist hand 20, is close to or keeps away from each other through its rotatory axial displacement control stopper 17, makes assembly fixture block 13 follow the horizontal business turn over in the building wall, assembles or dismantles roof and building.

In addition, the left and right sides symmetry of solar panel 8 lower extreme is installed fixed plate 21, and draw-in groove 22 has been seted up to the fixed plate 21 inboard, and draw-in groove 22 inboard sliding connection has a curtain 23, and LED lamp 24 is installed to solar panel 8 lower extreme equidistance, and LED lamp 24 passes through the cable to be connected with photoelectric energy module 9, and LED lamp 24 sets up in glass window 4 top. When the solar panel 8 is turned over to be parallel to the side roof wing plate 1, the glue curtain 23 further plays a role in shielding the top end of the cavity between the solar panel 8 and the side roof wing plate 1, light entering is reduced, the shielding effect on the side roof is enhanced, most sunlight cannot enter through the glass window 4 when the solar panel 8 shields the side roof wing plate 1, indoor light is dim, and an auxiliary lighting effect is achieved through the LED lamp 24.

In addition, a hollow through pipe 25 is arranged at the lower end of the solar panel 8, the through pipe 25 is arranged above the through hole 15, and a diversion hole 26 is formed in the surface of the through pipe 25. When the solar panel 8 is turned to the side of the sun irradiation angle, the side building has a large irradiation range and a high indoor temperature, the through pipe 25 is inserted into the through hole 15 on the side, and the indoor hot air is led out by the diversion hole 26.

When the energy-saving roof structure for the green building based on solar power generation is used, the roof structure formed by the roof wing plates 1 and the roof top plates 2 is hung on the top surface of the building through a hoisting machine, then an installer climbs the roof top plates 2, screws the screws and the screws 20 by hands, the limiting block 17 and the sliding strip 12 connected with the limiting block move reversely along the sliding groove 11, the assembly clamping block 13 is horizontally inserted into two side walls of the building, at the moment, roof assembly is completed, the motor 6 drives the balance plate 7 to overturn towards the sun illumination angle side through rotating the output shaft, the solar panel 8 faces the incident angle of light, at the moment, the bottom of the solar panel 8 facing the illumination side is abutted against the gasket 16, the solar panel 8 is prevented from being extruded and damaged by contact with the rigid roof surface through flexible materials, the solar panel 8 forms a shielding effect on the glass window 4, the strong light is prevented from directly injecting into a building through the glass window 4, meanwhile, the LED lamp 24 at the lower end of the side solar panel 8 is opposite to the glass window 4 on the side roof wing plate 1, the photoelectric energy module 9 receives light and converts the light into electric energy to control the LED lamp 24 at the side to be lightened, the glass window 4 is used for emitting soft light indoors to provide illumination, in the overturning process of the solar panel 8, the through pipe 25 is downwards inserted into the through hole 15, the rubber feeding part 14 is outwards extruded, the hollow structure of the diversion hole 26 and the through pipe 25 is utilized together with indoor and outdoor air to accelerate the heat dissipation and ventilation in the building at the side, the motor 6 gradually enables the solar panel 8 to overturn towards the other side along with the change of the time and the illumination angle until the solar panel 8 is parallel to the roof wing plate 1 at the other side, and the building at the other side is internally illuminated and ventilated and radiated in the same manner as described above.

Claims (7)

1. The energy-saving roof structure for the green building based on solar power generation comprises roof wing plates (1) which are symmetrically arranged left and right, roof top plates (2) which are horizontally and fixedly connected between the upper ends of the roof wing plates (1), supports (5) which are symmetrically arranged at the two ends of the roof top plates (2), and solar panels (8) which are horizontally arranged above the roof wing plates (1); the solar energy building window is characterized in that the bottom ends of the roof wing plates (1) are horizontally connected with a beam (3) in a building, three groups of glass windows (4) are arranged on the surface of the roof wing plates (1) at equal intervals, a motor (6) controlled by a timer is arranged on one back side of each support (5), a balance plate (7) is arranged in the middle of each solar energy plate (8), photoelectric energy modules (9) are distributed on the surface of each solar energy plate (8), movable shafts (10) are fixedly connected to the two ends of each balance plate (7), the movable shafts (10) are connected with output shafts of the motors (6), sliding grooves (11) communicated with the building room are axially formed in the middle of each roof top plate (2), sliding strips (12) are movably connected to the inner sides of the sliding grooves (11), assembly clamping blocks (13) are horizontally arranged on the bottom ends of the sliding strips (12), one back side of each assembly clamping block (13) is inserted into the building wall, rubber pieces (14) with inward elastic shrinkage inwards are arranged on the surface of each roof wing plate (1), the rubber pieces (14) are arranged on the glass windows (4), and the inner sides of the glass windows (4) are communicated with through holes (15) at equal intervals.

The solar panel (8) lower extreme is installed hollow siphunculus (25), siphunculus (25) set up in through-hole (15) top, siphunculus (25) surface has seted up water conservancy diversion hole (26).

2. The green building energy-saving roof structure based on solar power generation according to claim 1, wherein a foam pad (16) parallel to the solar panel (8) is arranged on the surface of the roof wing plate (1), and the pad (16) is arranged below the solar panel (8).

3. The green building energy-saving roof structure based on solar power generation according to claim 1, wherein a limiting block (17) is fixedly connected to the top end of the sliding bar (12), the limiting block (17) is arranged on the upper side of the roof top plate (2), an organ type protective cover (18) is fixedly connected to one back side of the limiting block (17), and the protective cover (18) is arranged above the sliding groove (11).

4. The green building energy-saving roof structure based on solar power generation according to claim 3, wherein a fixing block (19) is fixedly arranged at the upper end of the roof plate (2), the fixing block (19) is arranged between the limiting blocks (17), and the protective cover (18) is fixedly arranged between the limiting blocks (17) and the fixing block (19).

5. The solar power generation-based energy-saving roof structure for green buildings according to claim 4, wherein a screw rod screwing hand (20) is connected to the inner side of the fixed block (19) in a threaded mode, and the top end of the screw rod screwing hand (20) is movably connected to the inner side of the limiting block (17).

6. The green building energy-saving roof structure based on solar power generation according to claim 1, wherein the solar panel (8) is symmetrically provided with a fixing plate (21) on the left and right sides of the lower end, a clamping groove (22) is formed in the inner side of the fixing plate (21), and a rubber curtain (23) is connected to the inner side of the clamping groove (22) in a sliding mode.

7. The green building energy-saving roof structure based on solar power generation according to claim 1, wherein the lower end of the solar panel (8) is provided with LED lamps (24) at equal intervals, the LED lamps (24) are connected with the photovoltaic energy module (9) through cables, and the LED lamps (24) are arranged above the glass window (4).

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