CN117478036A

CN117478036A - Tower type photovoltaic power generation equipment and complete equipment thereof

Info

Publication number: CN117478036A
Application number: CN202311426098.2A
Authority: CN
Inventors: 王小飞
Original assignee: Guizhou Zhonglian New Energy Technology Co ltd
Current assignee: Jiangshan Power Supply Co of State Grid Zhejiang Electric Power Co Ltd
Priority date: 2023-10-31
Filing date: 2023-10-31
Publication date: 2024-01-30

Abstract

The invention relates to the technical field of photovoltaic power generation equipment, and discloses tower type photovoltaic power generation equipment and a complete set of device thereof, wherein the tower type photovoltaic power generation equipment comprises a transmission frame, a top plate, a second installation sleeve, a support plate and a first installation sleeve, a plurality of first electric push rods are hinged to the outer surface of the first installation sleeve, a plurality of first installation frames are hinged to the outer surface of the support plate, and the output ends of the plurality of first electric push rods are respectively hinged to the lower ends of the plurality of first installation frames; a plurality of second installation frames are hinged to the outer surface of the second installation sleeve, and a first photovoltaic panel is embedded at the lower ends of the second installation frames; a plurality of power generation frames are hinged on the outer side surface of the top plate, and are matched with the transmission frames; the lower end of the top plate is hinged with a plurality of second electric push rods, and the output ends of the second electric push rods are respectively hinged with the upper ends of the second mounting frames; the photovoltaic panel has the advantages of less occupation of horizontal space, high vertical space utilization rate, convenience in arrangement, higher power generation efficiency, capability of protecting the photovoltaic panel and the like.

Description

Tower type photovoltaic power generation equipment and complete equipment thereof

Technical Field

The invention relates to the technical field of photovoltaic power generation equipment, in particular to tower type photovoltaic power generation equipment and complete equipment thereof.

Background

Solar energy is inexhaustible renewable energy for human beings, has the advantages of sufficient cleanliness, absolute safety, relative universality, long service life, maintenance-free property, resource sufficiency, potential economy and the like, and has important roles in long-term energy strategy. However, the existing photovoltaic power generation device generally needs to occupy larger ground space, the horizontal space occupies more space, but the vertical space occupies less space, so that the layout limitation of the photovoltaic power generation device is larger, and the space utilization rate is low.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the invention provides tower type photovoltaic power generation equipment and complete equipment thereof, which have the advantages of less occupation of horizontal space, high vertical space utilization rate, convenience in arrangement, higher power generation efficiency, capability of protecting a photovoltaic panel and the like, and can effectively solve the problems in the background art.

(II) technical scheme

In order to achieve the above purpose, the present invention provides the following technical solutions: the tower type photovoltaic power generation equipment comprises a stand column, wherein the lower end of the stand column is arranged in an open mode, a transmission frame is arranged above the stand column, a motor is fixedly connected to the upper inner wall surface of the stand column, the output end of the motor upwards penetrates through the stand column and extends to the upper side of the stand column, a stud is fixedly connected to the output end of the motor, threads of the stud are embedded at the lower end of the transmission frame, a first installation sleeve and a second installation sleeve are fixedly sleeved on the stand column, the second installation sleeve is arranged above the first installation sleeve, a supporting plate is fixedly connected to the upper end of the first installation sleeve, the supporting plate is sleeved on the stand column, a plurality of first electric push rods are hinged to the outer surface of the first installation sleeve, a plurality of first installation frames are hinged to the outer surface of the supporting plate, reflecting plates are embedded at the upper ends of the plurality of first installation frames, and the output ends of the plurality of first electric push rods are respectively hinged to the lower ends of the plurality of the first installation frames; a plurality of second installation frames are hinged to the outer surface of the second installation sleeve, and a first photovoltaic panel is embedded at the lower ends of the second installation frames; the first photovoltaic plates are respectively matched with the reflecting plates; the upper end of the upright post is fixedly connected with a top plate, the top plate is sleeved on an output shaft of the motor at intervals, a plurality of power generation frames are hinged to the outer side face of the top plate, and the power generation frames extend into the transmission frames and are matched with the transmission frames; the lower extreme at the roof articulates there is a plurality of No. two electric putter, and a plurality of No. two electric putter's output is articulated with the upper end of a plurality of No. two mounting brackets respectively.

Preferably, the transmission frame comprises a cover plate, a boss is convexly arranged in the middle of the lower end of the cover plate, a stud is embedded in the lower end of the boss in a threaded manner, the upper end of the stud upwards penetrates through the boss and the cover plate and extends to the upper part of the cover plate, a plurality of groups of guide frames are fixedly connected to the lower end of the cover plate, and the groups of guide frames are distributed in an annular array with the boss as the center; each group of guide frames consists of two U-shaped frames which are arranged in parallel, and the opening ends of the U-shaped frames are abutted with the outer side faces of the bosses.

Preferably, the power generation frame comprises a third mounting frame, a connecting seat and a swinging rod are fixedly connected to one end, facing the top plate, of the third mounting frame, the connecting seat is hinged to the outer side face of the top plate, a guide shaft is embedded into one end, far away from the third mounting frame, of the swinging rod, and a second photovoltaic panel is embedded into the upper end of the third mounting frame.

Preferably, the swing rod is arranged between the two U-shaped frames which are arranged in parallel, the guide shaft is arranged in the two U-shaped frames which are arranged in parallel in a sliding mode, and the third mounting frame swings to the vertical position around the joint of the third mounting frame and the top plate when the guide shaft slides to the arc-shaped part of the U-shaped frame.

Preferably, the number of the power generation frames, the first installation frames and the second installation frames is consistent, and the plurality of power generation frames, the plurality of first installation frames and the plurality of second installation frames are distributed in an annular array by taking the upright posts as the centers.

Preferably, the second mounting frame is arranged below the third mounting frame, the length of the reflecting plate is greater than that of the first photovoltaic plate, and the length of the first mounting frame is greater than that of the third mounting frame.

The complete device comprises a shield and a base, wherein the shield is fixed at the upper end of a cover plate and covers a stud, the base is fixed at the lower end of a stand column, and the diameter of the base is larger than that of the stand column.

Compared with the prior art, the invention provides the tower type photovoltaic power generation equipment and the complete equipment thereof, which have the following beneficial effects:

1. this power generation facility, through a plurality of photovoltaic boards of stand vertical installation and No. two photovoltaic boards, and make No. one photovoltaic board set up in No. two photovoltaic boards's below for No. one photovoltaic board and No. two photovoltaic boards are vertical setting, thereby have reduced the occupation of horizontal space, have increased the utilization ratio to vertical space, be convenient for install more and use.

2. According to the power generation equipment, the plurality of second photovoltaic panels are distributed in the annular array by taking the upright posts as the centers, and the light receiving surfaces of each second photovoltaic panel are inclined upwards, so that one or more second photovoltaic panels receive sunlight in the east-to-west movement process of the sun, and the power generation efficiency is improved.

3. This power generation facility, through setting up a plurality of reflector panels, every reflector panel corresponds a photovoltaic board, and the reflector panel is used for the reflection of light, gives a photovoltaic board with sunlight reflection for a photovoltaic board that is located No. two photovoltaic boards below also can generate electricity, and has one or more reflector panels reflection sunlight all the time in the sun moves the in-process from east to west, makes one or more photovoltaic boards receive sunlight all the time, thereby has further promoted generating efficiency, and can promote the compact structure of whole equipment.

4. This power generation facility, through setting up a mounting bracket, no. two mounting brackets and No. three mounting brackets, a photovoltaic board is installed to the mounting bracket, no. two photovoltaic boards of No. three mounting brackets installation, a mounting bracket and No. two mounting brackets can be respectively at the effect of No. one electric putter and No. two electric putter down swing, no. three mounting brackets can reciprocate the in-process at the transmission frame, therefore, when protecting a photovoltaic board, no. two photovoltaic boards, can make No. two mounting brackets up-swing to vertical position, make No. three mounting brackets down-swing to vertical position, make No. three mounting brackets keep off the outside of establishing No. two mounting brackets, then, make No. one mounting bracket up-swing to vertical position, make No. one mounting bracket keep off and establish in the outside of No. three mounting brackets, thereby photovoltaic board, no. two photovoltaic boards and reflector panel's result of use and life have been promoted a photovoltaic board, no. two photovoltaic boards and reflector panel.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of a portion of the structure of the present invention;

FIG. 3 is a schematic view of the internal structure of the present invention;

FIG. 4 is a schematic diagram of a transmission frame according to the present invention;

fig. 5 is a schematic structural view of a first power generation rack according to the present invention.

Wherein: 1. a column; 2. a first mounting sleeve; 3. a second mounting sleeve; 4. a top plate; 5. a support plate; 6. a transmission frame; 7. a power generation rack; 8. a first electric push rod; 9. a first mounting rack; 91. a light reflecting plate; 10. a second mounting rack; 101. a photovoltaic panel number one; 11. a second electric push rod; 12. a motor; 13. a stud; 14. a shield; 15. a base; 61. a cover plate; 62. a boss; 63. a guide frame; 71. a third mounting rack; 72. a connecting seat; 73. swing rod; 74. a guide shaft; 711. and a second photovoltaic panel.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-5, a tower type photovoltaic power generation device comprises a stand column 1, wherein the lower end of the stand column 1 is arranged in an open mode, a transmission frame 6 is arranged above the stand column 1, a motor 12 is fixedly connected to the upper inner wall surface of the stand column 1, the output end of the motor 12 penetrates through the stand column 1 upwards and extends to the upper side of the stand column 1, a stud 13 is fixedly connected to the output end of the motor 12, and the stud 13 is in threaded embedding with the lower end of the transmission frame 6. The upper end fixedly connected with roof 4 at stand 1, the output shaft of motor 12 is located to roof 4 spacer sleeve, and fixed cover is equipped with installation cover 2 and No. two installation cover 3 on stand 1, and No. two installation cover 3 set up in the top of installation cover 2, and the upper end fixedly connected with backup pad 5 of installation cover 2, backup pad 5 cover are located stand 1.

A plurality of first electric push rods 8 are hinged to the outer surface of the first mounting sleeve 2, a plurality of first mounting frames 9 are hinged to the outer surface of the supporting plate 5, and the output ends of the first electric push rods 8 are hinged to the lower ends of the first mounting frames 9 respectively. A plurality of second mounting frames 10 are hinged to the outer surface of the second mounting sleeve 3, a plurality of second electric push rods 11 are hinged to the lower end of the top plate 4, and the output ends of the second electric push rods 11 are hinged to the upper ends of the second mounting frames 10 respectively. A plurality of power generation frames 7 are hinged on the outer side face of the top plate 4, and the power generation frames 7 extend into the transmission frame 6 and are matched with the transmission frame 6.

The motor 12 drives the stud 13 to rotate, so as to push the transmission frame 6 to move up and down, so that the power generation frame 7 swings up and down on the top plate 4, and the power generation frame 7 can swing down to a vertical position. The first electric push rod 8 pushes the first mounting frame 9 to swing up and down, and the first mounting frame 9 can swing up to a vertical position. The second electric push rod 11 pushes the second mounting frame 10 to swing up and down, and the second mounting frame 10 can swing up to a vertical position. When the power generation frame 7, the first installation frame 9 and the second installation frame 10 are all in vertical positions, the second installation frame 10 is arranged on the inner side of the power generation frame 7, the first photovoltaic panel 101 faces the power generation frame 7, the first installation frame 9 is arranged on the outer side of the power generation frame 7, and the reflecting plate 91 faces the power generation frame 7.

The upper ends of the first installation racks 9 are embedded with the reflecting plates 91, the lower ends of the second installation racks 10 are embedded with the first photovoltaic plates 101, the light receiving surfaces of the first photovoltaic plates 101 face upwards, the first photovoltaic plates 101 are respectively matched with the reflecting plates 91, and the reflecting plates 91 reflect sunlight to the light receiving surfaces of the first photovoltaic plates 101, so that the first photovoltaic plates 101 receive light to generate electricity.

As a further explanation of the above technical solution, the transmission frame 6 includes a cover plate 61, a boss 62 is protruding in the middle of the lower end of the cover plate 61, a stud 13 is screwed into the lower end of the boss 62, the upper end of the stud 13 penetrates the boss 62 and the cover plate 61 upwards and extends to the upper side of the cover plate 61, and the stud 13 drives the cover plate 61 and the boss 62 to move up and down in the rotation process. A plurality of groups of guide frames 63 are fixedly connected to the lower end of the cover plate 61, and the plurality of groups of guide frames 63 are distributed in an annular array with the boss 62 as the center; each group of guide frames 63 is composed of two parallel U-shaped frames, and the opening ends of the U-shaped frames are abutted with the outer side faces of the bosses 62.

The power generation frame 7 comprises a third mounting frame 71, a connecting seat 72 and a swinging rod 73 are fixedly connected to one end, facing the top plate 4, of the third mounting frame 71, the connecting seat 72 is hinged to the outer side face of the top plate 4, a guide shaft 74 is embedded into one end, far away from the third mounting frame 71, of the swinging rod 73, and a second photovoltaic panel 711 is embedded into the upper end of the third mounting frame 71. The light receiving surface of the second photovoltaic panel 711 is inclined upward, and the second photovoltaic panel 711 directly receives sunlight to generate power. The swing link 73 is arranged between the two parallel U-shaped frames, the guide shaft 74 is slidably arranged in the two parallel U-shaped frames, and the third mounting frame 71 is swung down to the vertical position around the joint of the third mounting frame 71 and the top plate 4 when the guide shaft 74 slides to the arc-shaped part of the U-shaped frame.

When the motor 12 drives the stud 13 to rotate and pushes the boss 62, the cover plate 61 and the guide frame 63 to move upwards, the guide shaft 74 moves in the U-shaped frame to the arc-shaped part of the U-shaped frame, so that the connecting seat 72 swings downwards around the joint of the connecting seat 72 and the top plate 4, the swing rod 73 swings towards the side far away from the top plate 4, the third mounting frame 71 swings downwards, and when the boss 62 moves upwards to the limit position, the third mounting frame 71 swings downwards to the vertical position. When the motor 12 drives the stud 13 to rotate and pushes the boss 62, the cover plate 61 and the guide frame 63 to move downwards, the guide shaft 74 moves in the U-shaped frame towards the opening of the U-shaped frame, the swing rod 73 swings towards the side close to the top plate 4, and the third mounting frame 71 swings upwards, so that the second photovoltaic panel 711 receives sunlight in an inclined state.

It should be noted that, the number of the power generation frames 7, the number of the installation frames 9 and the number of the installation frames 10 are consistent, and the plurality of power generation frames 7, the plurality of the number of the installation frames 9 and the plurality of the number of the installation frames 10 are distributed in an annular array with the upright posts 1 as the center, so that the plurality of the number of the photovoltaic panels 101 and the plurality of the number of the photovoltaic panels 711 are distributed in an annular array with the upright posts 1 as the center, one or more of the number of the photovoltaic panels 711 always receives sunlight in the east-west movement process of the sun, one or more of the reflectors 91 always reflects sunlight, and one or more of the number of the photovoltaic panels 101 always receives sunlight, thereby improving the power generation efficiency.

It should be noted that, the second mounting frame 10 is disposed below the third mounting frame 71, the length of the light reflecting plate 91 is greater than the length of the first photovoltaic panel 101, and the length of the first mounting frame 9 is greater than the length of the third mounting frame 71.

The complete equipment comprises a shield 14 and a base 15, wherein the shield 14 is fixed at the upper end of a cover plate 61 and covers the stud 13 to waterproof and protect the stud 13, and the service life and the use effect of the stud 13 are ensured. The base 15 is fixed at the lower end of the upright 1, and the base 15 can be fixed on the ground through bolts and nuts, so that the whole power generation equipment can be conveniently installed on the ground. The diameter of the base 15 is larger than that of the upright 1 so as to enlarge the contact area with the ground and ensure the installation stability.

When the tower type photovoltaic power generation equipment and the complete equipment thereof are used, the whole equipment is fixed on the ground through the base 15, the first installation frame 9 is pulled by the first electric push rod 8, the first installation frame 9 swings downwards to be unfolded, then the stud 13 is driven by the motor 12 to rotate, the cover plate 61, the boss 62 and the guide frame 63 are pulled to move downwards, the guide shaft 74 moves towards the opening of the U-shaped frame in the U-shaped frame, the third installation frame 71 swings upwards to be unfolded, the second installation frame 10 is pushed to swing downwards through the second electric push rod 11, and the second installation frame 10 swings downwards to be unfolded. After the first mounting frame 9, the second mounting frame 10 and the third mounting frame 71 are unfolded, according to the mounting positions and the running track of the sun, the unfolding angles of the first mounting frame 9, the second mounting frame 10 and the third mounting frame 71 are adjusted, so that the plurality of second photovoltaic panels 711 can receive sunlight maximally, and the plurality of reflecting plates 91 can reflect sunlight to the plurality of first photovoltaic panels 101 maximally.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. Tower photovoltaic power generation equipment, including stand (1), its characterized in that: the light reflecting plate comprises a vertical column (1), wherein the lower end of the vertical column (1) is arranged in an open mode, a transmission frame (6) is arranged above the vertical column (1), a motor (12) is fixedly connected to the upper inner wall surface of the vertical column (1), the output end of the motor (12) upwards penetrates through the vertical column (1) and extends to the upper side of the vertical column (1), a stud (13) is fixedly connected to the output end of the motor (12), the stud (13) is embedded in the lower end of the transmission frame (6) in a threaded mode, a first installation sleeve (2) and a second installation sleeve (3) are fixedly sleeved on the vertical column (1), the second installation sleeve (3) is arranged above the first installation sleeve (2), a supporting plate (5) is fixedly connected to the upper end of the first installation sleeve (2), a plurality of first electric push rods (8) are hinged to the outer surface of the supporting plate (5), a plurality of first installation sleeves (9) are hinged to the outer surface of the first installation sleeve (2), and a plurality of first reflection plates (9) are hinged to the upper ends of the first installation sleeves (9), and a plurality of reflection plates (91) are hinged to the lower ends of the first installation sleeves and the second installation sleeve (9 respectively; a plurality of second installation frames (10) are hinged to the outer surface of the second installation sleeve (3), and a first photovoltaic panel (101) is embedded at the lower ends of the second installation frames (10); the first photovoltaic panels (101) are respectively matched with the light reflecting plates (91); the upper end of the upright post (1) is fixedly connected with a top plate (4), the top plate (4) is sleeved on an output shaft of a motor (12) at intervals, a plurality of power generation frames (7) are hinged to the outer side face of the top plate (4), and the power generation frames (7) extend into the transmission frame (6) and are matched with the transmission frame (6); the lower extreme of roof (4) articulates has a plurality of No. two electric putter (11), and a plurality of No. two electric putter (11) output respectively with the upper end of a plurality of No. two mounting brackets (10) articulates.

2. A tower type photovoltaic power generation apparatus according to claim 1, wherein: the transmission frame (6) comprises a cover plate (61), a boss (62) is convexly arranged in the middle of the lower end of the cover plate (61), the stud (13) is in threaded embedding with the lower end of the boss (62), the upper end of the stud (13) upwards penetrates through the boss (62) and the cover plate (61) and extends to the upper part of the cover plate (61), a plurality of groups of guide frames (63) are fixedly connected with the lower end of the cover plate (61), and the groups of guide frames (63) are distributed in an annular array with the boss (62) as the center; each group of guide frames (63) consists of two U-shaped frames which are arranged in parallel, and the opening ends of the U-shaped frames are abutted with the outer side faces of the bosses (62).

3. A tower type photovoltaic power generation apparatus according to claim 2, wherein: the power generation frame (7) comprises a third mounting frame (71), a connecting seat (72) and a swinging rod (73) are fixedly connected to one end, facing the top plate (4), of the third mounting frame (71), the connecting seat (72) is hinged to the outer side face of the top plate (4), a guide shaft (74) is embedded in one end, far away from the third mounting frame (71), of the swinging rod (73), and a second photovoltaic panel (711) is embedded in the upper end of the third mounting frame (71).

4. A tower type photovoltaic power plant according to claim 3, characterized in that: the swing rod (73) is arranged between two U-shaped frames which are arranged in parallel, the guide shaft (74) is arranged in the two U-shaped frames which are arranged in parallel in a sliding mode, and the third mounting frame (71) is arranged at the vertical position around the joint of the third mounting frame (71) and the top plate (4) when the guide shaft (74) slides to the arc-shaped part of the U-shaped frames.

5. A tower type photovoltaic power generation apparatus according to claim 4, wherein: the number of the power generation frames (7), the first installation frames (9) and the second installation frames (10) is identical, and the plurality of power generation frames (7), the plurality of first installation frames (9) and the plurality of second installation frames (10) are distributed in an annular array by taking the upright post (1) as the center.

6. A tower type photovoltaic power generation apparatus according to claim 5, wherein: the second mounting frame (10) is arranged below the third mounting frame (71), the length of the reflecting plate (91) is larger than that of the first photovoltaic plate (101), and the length of the first mounting frame (9) is larger than that of the third mounting frame (71).

7. A kit for a tower photovoltaic power plant according to any of claims 1-6, characterized in that: comprises a shield (14) and a base (15).

8. The kit as claimed in claim 7, wherein: the shield (14) is fixed at the upper end of the cover plate (61) and covers the stud (13).

9. The kit as claimed in claim 8, wherein: the base (15) is fixed at the lower end of the upright post (1), and the diameter of the base (15) is larger than that of the upright post (1).