CN114045998A

CN114045998A - Solar energy-saving roof of green building

Info

Publication number: CN114045998A
Application number: CN202111344861.8A
Authority: CN
Inventors: 彭东萍
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-11-15
Filing date: 2021-11-15
Publication date: 2022-02-15

Abstract

The invention discloses a solar energy-saving roof of a green building, which relates to the related field of green buildings, and comprises a fan component arranged on a right roof and a photovoltaic power generation component arranged on a left roof, wherein the fan component can combine photovoltaic panels into fan blades, the photovoltaic power generation component can utilize solar energy to generate power, the device can switch forms according to different weather conditions, when the device is in a sunny day, the device utilizes solar energy in a static state of the original solar panel to generate power, when the device meets the weather of strong wind at night or in cloudy days, the device is switched into a wind energy power generation form, and light sheets originally hidden under the solar photovoltaic panels are combined to form fan blades of the fan, at the moment, the device utilizes wind energy to generate power and can clean and wipe the surfaces of the photovoltaic panels while the sheets rotate, the device can repeatedly utilize the device to realize all-weather power generation.

Description

Solar energy-saving roof of green building

Technical Field

The invention relates to the related field of green buildings, in particular to a solar energy-saving roof of a green building

Background

The solar photovoltaic panel installed on the roof is in a fixed static state after being installed, power generation can be carried out only in the daytime, the solar photovoltaic panel enters a dormant state at night, power generation time is limited, and weather influence is large.

Disclosure of Invention

The invention aims to solve the technical problem of providing a solar energy-saving roof of a green building, and solves the problem that the conventional solar photovoltaic panel arranged on the roof is greatly influenced by weather and cannot generate electricity in all weather.

The invention is realized by the following technical scheme.

The solar energy-saving roof of the green building comprises a fan component arranged on a right side roof and a photovoltaic power generation component arranged on a left side roof, wherein the fan component can combine photovoltaic panels into fan blades, and the photovoltaic power generation component can generate power by utilizing solar energy;

preferably, the fan subassembly includes the blade fixed block, be equipped with six outside step shaft spouts of opening in the blade fixed block, two of step shaft spouts are a set of, and are organized the step shaft spout is located the coplanar, and is organized the step shaft spout is central symmetry.

Preferably, a chute magnet is fixedly connected to the tail end of the end wall of one side of the chute of the stepped shaft.

Preferably, photovoltaic power generation subassembly includes photovoltaic board bearing piece, photovoltaic board bearing piece is fixed on left side roof surface, photovoltaic board bearing piece up end fixed connection is equipped with solar panel, photovoltaic board bearing piece downside is equipped with the light sheet metal of placing on the left side roof, light sheet metal left side with photovoltaic board bearing piece butt, the terminal surface is covered with long pappus brush under the light sheet metal, photovoltaic board bearing piece downside right-hand member face fixed connection is equipped with bearing piece magnet, light sheet metal left end face fixed connection is equipped with terminal magnet.

Preferably, the light sheet right-hand member face fixed connection is equipped with two and uses solar panel is front and back symmetrical arrangement's ladder axle as the center.

Preferably, the stepped shaft is composed of a stepped shaft, and a shaft diameter of a side away from the lightweight sheet is larger than an inner shaft diameter.

Preferably, the fan assembly comprises a fixed long block fixed on the roof surface on the right side, a sliding groove with an upward opening is formed in the fixed long block, and a fan sliding block extending to the upper side of the fixed long block is arranged in the sliding groove in a sliding fit connection mode.

Preferably, fan sliding block slant upper left side extends, be equipped with opening slant upper left spring chamber in the fan sliding block, wall fixed connection is equipped with the fan electro-magnet under the spring chamber, fan electro-magnet up end fixed connection is equipped with the fan spring, fixed connection be equipped with on the fan spring with the fan sliding block that spring chamber sliding fit connects, the fan sliding block is the iron material, fixed connection is equipped with the generator in the fan sliding block, the blade fixed block is installed at the generator up end.

Preferably, the fixed long block rear end wall with be equipped with long spring between the fan sliding block rear end face fixed connection, fan sliding block rear end face fixed connection is equipped with the stay cord.

Preferably, a motor is fixedly connected in the wall body on the lower side of the roof, a wire wheel cavity is formed in the upper side of the motor, a motor shaft extending into the wire wheel cavity is fixedly connected to the upper end face of the motor, a wire wheel located in the wire wheel cavity is fixedly connected to the motor shaft, and the pull rope extends into the wire wheel cavity and is fixedly connected with the wire wheel.

The invention has the beneficial effects that:

the device is installed on the roof, can carry out the switching of form to the weather condition of difference, when fine day, the device utilizes solar energy with the quiescent condition of original solar panel electricity generation to generate electricity, when running into evening or when cloudy strong wind weather, the device will switch over into wind energy electricity generation form, will originally hide the flabellum that forms the fan at the light sheet metal of solar photovoltaic board below combination, the device will utilize wind energy to generate electricity this moment, and can clean wiping photovoltaic board surface when the sheet metal is rotatory, the device carries out reuse with self and has realized all-weather electricity generation.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of the embodiment of the present invention at A in FIG. 1;

FIG. 3 is an enlarged schematic view of the embodiment of the present invention at B in FIG. 1;

FIG. 4 is a schematic structural diagram at C-C in FIG. 3 according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of the structure at D-D in FIG. 3 according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of the structure at E-E in FIG. 4 according to an embodiment of the present invention;

FIG. 7 is a schematic structural diagram at F-F in FIG. 4 according to an embodiment of the present invention;

FIG. 8 is a schematic view of a fan assembly in an embodiment of the present invention;

FIG. 9 is a schematic view of a fan assembly according to an embodiment of the present invention after assembly;

figure 10 is a schematic view of a fan assembly of an embodiment of the present invention with one lightweight sheet rotationally secured.

FIG. 11 is a schematic view of the operating condition of the fan assembly according to the embodiment of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-11, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The solar energy-saving roof of the green building, which is described in conjunction with the attached drawings 1-11, comprises a fan component arranged on the roof on the right side and a photovoltaic power generation component arranged on the roof on the left side, wherein the fan component can combine photovoltaic panels into fan blades, and the photovoltaic power generation component can generate power by using solar energy;

beneficially, the fan subassembly includes blade fixed block 60, be equipped with six outside step shaft spouts 61 of opening in the blade fixed block 60, step shaft spout 61 two are a set of, with organizing step shaft spout 61 is located the coplanar, with organizing step shaft spout 61 is central symmetry.

Advantageously, a chute magnet 62 is fixedly connected to the end wall of one side of the stepped shaft chute 61.

Beneficially, the photovoltaic power generation assembly includes photovoltaic board bearing block 70, photovoltaic board bearing block 70 is fixed on the left side roof surface, photovoltaic board bearing block 70 up end fixed connection is equipped with solar panel 50, photovoltaic board bearing block 70 downside is equipped with the light sheet metal 89 of placing on the left side roof, light sheet metal 89 left side with photovoltaic board bearing block 70 butt, the terminal surface is covered with long pappus brush under the light sheet metal 89, photovoltaic board bearing block 70 downside right-hand member face fixed connection is equipped with bearing block magnet 71, light sheet metal 89 left end face fixed connection is equipped with terminal magnet 79.

Advantageously, the right end face of the light thin plate 89 is fixedly connected with two stepped shafts 51 which are symmetrically arranged in front and back with the solar panel 50 as the center.

Advantageously, the stepped shaft 51 consists of a stepped shaft, and the shaft diameter on the side remote from the lightweight sheet 89 is greater than the shaft diameter on the inside.

Advantageously, the fan assembly comprises a fixed long block 20 fixed on the roof surface on the right side, a sliding groove 21 with an upward opening is arranged in the fixed long block 20, and a fan sliding block 30 extending to the upper side of the fixed long block 20 is arranged in the sliding groove 21 in a sliding fit connection mode.

Beneficially, fan sliding block 30 slant upper left side extends, be equipped with the spring chamber 31 that the opening inclines upper left side in the fan sliding block 30, terminal wall fixed connection is equipped with fan electro-magnet 32 under the spring chamber 31, fan electro-magnet 32 up end fixed connection is equipped with fan spring 33, fixed connection is equipped with on the fan spring 33 with the fan sliding block 34 that spring chamber 31 sliding fit connects, fan sliding block 34 is the iron material, fixed connection is equipped with generator 35 in the fan sliding block 34, the up end at generator 35 is installed to blade fixed block 60.

Beneficially, the rear end wall of the fixed long block 20 and the rear end face of the fan sliding block 30 are fixedly connected to each other by a long spring 22, and the rear end face of the fan sliding block 30 is fixedly connected to each other by a pull rope 42.

Beneficially, a motor 40 is fixedly connected in the wall body located at the lower side of the roof, a reel cavity 43 is arranged at the upper side of the motor 40, a motor shaft 41 extending into the reel cavity 43 is fixedly connected at the upper end face of the motor 40, a reel 44 located in the reel cavity 43 is fixedly connected on the motor shaft 41, and the pull rope 42 extends into the reel cavity 43 and is fixedly connected with the reel 44.

In the initial state, three solar panels 50 are equidistantly placed on the roof on the left side, the left side of each solar panel 50 is abutted against the right side of the motor 40, and the solar panels 50 generate electricity by using solar energy;

when at night or in cloudy days, the device can be switched to a wind power generation mode:

when the fan electromagnet 32 is started, the fan electromagnet 32 generates magnetism to attract the fan sliding block 34 to slide downwards against the elasticity of the fan spring 33, and when the fan sliding block is in a balanced state, the center position of the blade fixing block 60 is just positioned on the extension line of the stepped shaft 51;

starting the bearing block magnet 71, wherein the bearing block magnet 71 generates magnetism opposite to the left end face of the tail end magnet 79, the tail end magnet 79 pushes the light thin plate 89 to slide obliquely and rightwards along the left roof under the action of the repulsive force of the bearing block magnet 71 until the stepped shaft 51 enters the stepped shaft sliding groove 61, and the stepped shaft 51 cannot deflect due to the abutting of the roof surface even though the stepped shaft 51 is attracted by the magnetic force of the sliding groove magnet 62 at the moment;

when the stepped shaft 51 of the first light thin plate 89 enters the stepped shaft sliding groove 61, the generator 35 is started to drive the blade fixing block 60 to rotate by one hundred twenty degrees, and at the moment, the light thin plate 89 leaving the roof surface is subjected to magnetic force of the sliding groove magnets 62 on the two sides to deflect left and right in an angle until the front and rear stepped shafts 51 are contacted with the sliding groove magnets 62;

starting the motor 40, wherein the motor 40 drives the reel 44 to rotate through the motor shaft 41, the reel 44 tightens the pull rope 42, the fan sliding block 30 positioned in the chute 21 overcomes the elastic force of the long spring 22 to slide backwards under the pulling force of the pull rope 42, and when the fan sliding block 30 slides to be positioned on the same plane with the next light thin plate 89, the motor 40 stops;

the device repeats the steps of assembling the light sheets 89, after the three light sheets 89 are assembled, the fan electromagnet 32 is closed, the fan sliding block 34 slides upwards again under the left and right elasticity of the fan spring 33, the light sheets 89 do not interfere with the roof, the light sheets 89 are positioned above the solar panel 50, the device drives the blade fixing block 60 to generate electricity through the light sheets 89 by means of wind energy, and the surface of the solar panel 50 can be cleaned and wiped through a brush when the light sheets 89 pass over the solar panel 50;

when the device is reset, the fan electromagnet 32 and the generator 35 are started simultaneously, the blade fixing block 60 makes the light thin plate 89 be positioned at the lower side surface of the photovoltaic panel supporting block 70 under the action of the fan electromagnet 32, and simultaneously, the blade fixing block is driven to cut into the lower side of the photovoltaic panel supporting block 70 under the rotation of the blade fixing block 60, when the first light thin plate 89 is aligned with the left roof, the chute magnet 62 is wound with a coil, the coil wound on the chute magnet 62 can counteract the magnetic field generated by the blade fixing block 60 when being electrified, at the moment, the coil of the chute magnet 62 is started, the light thin plate 89 is restored to be in a balanced state with the left roof under the action of gravity and is restored along the lower roof, then the motor 40 reverses to release the coil, the fan sliding block 30 slides forwards under the action of the long spring 22, after the fan sliding block 30 slides forwards to the installation position of the light thin plate 89, the blade fixing block 60 rotates one hundred twenty degrees again and repeats the releasing action of the light thin plates 89, and three light thin plates 89 are released in sequence.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. A solar energy-saving roof of a green building comprises a fan component arranged on a right roof and a photovoltaic power generation component arranged on a left roof, wherein the fan component can combine photovoltaic panels into fan blades, and the photovoltaic power generation component can generate power by utilizing solar energy;

the fan subassembly includes blade fixed block (60), be equipped with six outside step shaft spout (61) of opening in blade fixed block (60), two are a set of, with organizing step shaft spout (61) are located the coplanar, with organizing step shaft spout (61) are central symmetry.

2. The solar energy-saving roof of the green building, which is characterized in that: the tail end of one side end wall of the stepped shaft sliding groove (61) is fixedly connected with a sliding groove magnet (62).

3. The solar energy-saving roof of the green building, which is characterized in that: photovoltaic power generation subassembly includes photovoltaic board bearing block (70), photovoltaic board bearing block (70) are fixed on left side roof surface, photovoltaic board bearing block (70) up end fixed connection is equipped with solar panel (50), photovoltaic board bearing block (70) downside is equipped with light sheet metal (89) of placing on the roof of left side, light sheet metal (89) left side with photovoltaic board bearing block (70) butt, the terminal surface is covered with long pappus brush under light sheet metal (89), photovoltaic board bearing block (70) downside right-hand member face fixed connection is equipped with bearing piece magnet (71), light sheet metal (89) left end face fixed connection is equipped with terminal magnet (79).

4. The solar energy-saving roof of the green building, which is characterized in that: the right end face of the light thin plate (89) is fixedly connected with two stepped shafts (51) which are symmetrically arranged front and back by taking the solar panel (50) as a center.

5. The solar energy-saving roof of the green building, which is characterized in that: the stepped shaft (51) is composed of stepped shafts, and the shaft diameter of one side far away from the light thin plate (89) is larger than the shaft diameter of the inner side.

6. The solar energy-saving roof of the green building, which is characterized in that: the fan assembly comprises a fixed long block (20) fixed on the roof surface on the right side, a sliding groove (21) with an upward opening is formed in the fixed long block (20), and a fan sliding block (30) extending to the upper side of the fixed long block (20) is arranged in the sliding groove (21) in a sliding fit connection mode.

7. The solar energy-saving roof of the green building, which is characterized in that: fan sliding block (30) slant upper left side extends, be equipped with spring chamber (31) that the opening is ascending to the left to one side in fan sliding block (30), end wall fixed connection is equipped with fan electro-magnet (32) under spring chamber (31), fan electro-magnet (32) up end fixed connection is equipped with fan spring (33), fan spring (33) go up fixed connection be equipped with fan sliding block (34) that spring chamber (31) sliding fit connects, fan sliding block (34) are the iron material, fan sliding block (34) internal fixation is equipped with generator (35), install at generator (35) up end blade fixed block (60).

8. The solar energy-saving roof of the green building, which is characterized in that: the fan is characterized in that a long spring (22) is fixedly connected between the rear end wall of the fixed long block (20) and the rear end face of the fan sliding block (30), and a pull rope (42) is fixedly connected with the rear end face of the fan sliding block (30).

9. The solar energy-saving roof of the green building, which is characterized in that: be located the wall body internal fixed connection of roof downside and be equipped with motor (40), motor (40) upside is equipped with reel chamber (43), motor (40) up end fixed connection be equipped with extend to motor shaft (41) in reel chamber (43), fixed connection is equipped with on motor shaft (41) and is located reel (44) in reel chamber (43), stay cord (42) extend to in reel chamber (43) and with reel (44) fixed connection.