CN115833719B

CN115833719B - TPO/PVC flexible roof non-penetrating type photovoltaic support system

Info

Publication number: CN115833719B
Application number: CN202211231522.3A
Authority: CN
Inventors: 朱旭丽; 陈美玲; 朱少华
Original assignee: Ruibo New Energy Group Co ltd
Current assignee: Ruibo New Energy Group Co ltd
Priority date: 2022-10-09
Filing date: 2022-10-09
Publication date: 2023-11-14
Anticipated expiration: 2042-10-09
Also published as: CN115833719A

Abstract

The invention belongs to the technical field of photovoltaic brackets, in particular to a TPO/PVC flexible roof non-penetrating type photovoltaic bracket system, which is provided with a bracket horizontal limiting mechanism and a telescopic design, so that the invention has the innovative points of rapid positioning, stable clamping, easy disassembly and slip prevention, and can support and assist in mounting various photovoltaic assemblies with different sizes through the design of a stretching rod, a front telescopic rod, a rear telescopic rod and a horizontal stretching rod.

Description

TPO/PVC flexible roof non-penetrating type photovoltaic support system

Technical Field

The invention relates to the technical field of photovoltaic brackets, in particular to a TPO/PVC flexible roof non-penetrating photovoltaic bracket system.

Background

Before the photovoltaic module is put into operation, a support is required to be fixedly arranged on a roof or a ground for receiving the light source so as to start working.

Application number: the photovoltaic support that CN202220000815.X set up can be with photovoltaic module fixed mounting, but because influence such as outside wind-force, dust, lead to this support to appear skew, impaired condition after long-time use, lead to the support to need carry out comparatively loaded down with trivial details change work of step.

The TPO/PVC flexible roof surface is limited to be softer, and when the support is installed, the position deviation is generated during installation due to the softer surface, so that the photovoltaic module cannot fully receive the irradiation of the light source during subsequent use.

Disclosure of Invention

The invention aims to provide a TPO/PVC flexible roof non-penetrating photovoltaic support system, which is used for overcoming the defects in the prior art.

The invention relates to a TPO/PVC flexible roof non-penetrating photovoltaic support system, which comprises a plurality of groups of racks, wherein a top elastic plate is fixedly arranged on the upper end face of each rack, a photovoltaic module is fixedly arranged on the upper end face of each top elastic plate, two left and right fixing frames are symmetrically and fixedly arranged on the left and right end faces of each rack, two special supports are fixedly arranged on the left and right sides of each rack, two aluminum rails are fixedly arranged on the lower end face of each photovoltaic module, the lower end faces of the aluminum rails are fixedly connected with the upper end faces of the special supports, stretching limiting frames are fixedly arranged on the upper end faces of the special supports, two front and rear stretching frames are symmetrically and fixedly arranged on the front and rear end faces of each rack, a telescopic moving block capable of moving forwards and backwards is arranged on the lower side of each front and rear stretching frame, a front and rear telescopic cavity is arranged in each front and rear stretching frame, a horizontal extending cavity is arranged in each left and right fixing frame, a stretching limiting cavity is arranged in each stretching limiting frame, a front and rear telescopic rod capable of moving leftwards and rightwards is arranged in each front and rear telescopic cavity, a limiting block is rotatably arranged on one side of each front and rear telescopic rod, and a limiting block is rotatably arranged in each front and rear telescopic rod, and is provided with a limiting block capable of moving.

As a further technical scheme of the invention, the stretching rod is fixedly provided with an upper limit plate and a lower limit plate which are far away from the end face of one side of the stand, the upper and lower limit plates are symmetrically and fixedly provided with two infrared receivers at the upper and lower positions of one side of the stand, the outer circle surface of the stretching limit frame is symmetrically and fixedly provided with two infrared range finders at the upper and lower positions of one side of the stretching limit frame far away from the aluminum rail, infrared rays are emitted by the infrared range finders and received by the infrared receivers, and the function of detecting the distance can be achieved.

According to the technical scheme, an electromagnetic moving cavity with an upward opening is arranged in the upper limiting plate and the lower limiting plate, a left limiting plate and a right limiting plate capable of moving up and down are arranged in the electromagnetic moving cavity, an elastic limiting block is fixedly arranged on one side end face of the left limiting plate and the right limiting plate, which is close to the photovoltaic assembly, the elastic limiting block is made of elastic materials, a moving electromagnetic block is fixedly arranged on the lower end face of the left limiting plate and the right limiting plate, a fixed electromagnetic block is fixedly arranged on the lower wall of the electromagnetic moving cavity, an electromagnetic spring is fixedly connected between the upper end face of the fixed electromagnetic block and the lower end face of the moving electromagnetic block, and the moving electromagnetic block and the fixed electromagnetic block are magnetic after being electrified.

As a further technical scheme of the invention, the upper wall and the lower wall of the stretching limiting cavity are vertically symmetrical and are communicated with each other to form two gear cavities, a gear rotating rod is rotationally arranged in each gear cavity, a movable gear is fixedly arranged on the outer circular surface of each gear rotating rod, racks are fixedly arranged on the upper end surface and the lower end surface of each stretching rod and meshed with the movable gears, a gear motor is fixedly arranged on the rear wall of each gear cavity, and the rear end surface of each gear rotating rod is in power connection with the corresponding gear motor.

As a further technical scheme of the invention, two extending motors are fixedly arranged in the machine frame, a horizontal extending rod capable of moving left and right is arranged in the horizontal extending cavity, a magnetic connecting frame is fixedly arranged on one side end face of the aluminum rail, which is close to the horizontal extending rod, the one side end face of the magnetic connecting frame, which is close to the horizontal extending rod, is connected with the one side end face of the horizontal extending rod, which is far away from the machine frame, through magnetic force, a horizontal rotating rod is rotationally arranged in the horizontal extending cavity, the outer circular surface of the horizontal rotating rod is in threaded connection with the one side end face of the horizontal extending rod, which is close to the machine frame, and the one side end face of the horizontal rotating rod, which is close to the machine frame, is in power connection with the extending motors.

As a further technical scheme of the invention, the lower side of the front and rear stretching frame is rotatably provided with a telescopic rotating shaft, the front end surface and the rear end surface of the frame are internally and fixedly provided with sliding motors, the outer circular surfaces of the telescopic rotating shaft are in threaded connection with the telescopic moving blocks, the front and rear telescopic rods are fixedly provided with tail communicating blocks close to one side end surface of the frame, the lower end surface of each tail communicating block is fixedly connected with the upper end surface of each telescopic moving block, and the end surface of each telescopic rotating shaft close to one side of the frame is in power connection with the sliding motor.

As a further technical scheme of the invention, a limit motor is fixedly arranged in the front and rear telescopic rods, a front and rear rotary rod is fixedly arranged on the end face of one side of the limit rotary block, which is close to the frame, a front and rear limit plate is fixedly arranged on the upper end face of the limit rotary block, the front and rear limit plates are made of elastic materials, and the end face of one side of the front and rear rotary rod, which is close to the frame, is in power connection with the limit motor.

As a further technical scheme of the invention, an optical detector is fixedly arranged on one side wall of the front and rear telescopic cavities, which is close to the rack, the optical detector can play a role in detecting distance, a control panel is fixedly arranged on the left end face of the rack, the control panel can play a role in controlling all motors to start, and a TP0 film is fixedly arranged on the lower end face of the special support.

The beneficial effects of the invention are as follows:

1. the distance measuring mechanism of the photovoltaic support provided by the invention can perform horizontal positioning work according to the external dimension of the photovoltaic module to be installed, so that the position of the photovoltaic module is ensured not to deviate during installation, and the working efficiency and the working life of the photovoltaic module are improved.

2. The detachable design provided by the invention can rapidly detach and replace the positioning mechanism after the bracket is required to be replaced or the installation is completed, so that the situation that the position of the photovoltaic module is not deviated in the use process is ensured, the workload of a worker when the bracket is replaced is greatly reduced, and the working cost of the photovoltaic module is further reduced.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a bottom view of the present invention;

FIG. 3 is a schematic view of the overall structure of a TPO/PVC flexible roofing non-penetrating photovoltaic support system of the present invention;

FIG. 4 is a schematic illustration of A-A of FIG. 3 in accordance with the present invention;

FIG. 5 is an enlarged partial schematic view of the control panel assembly of FIG. 3 in accordance with the present invention;

FIG. 6 is an enlarged partial schematic view of the tension limiter assembly of FIG. 3 in accordance with the present invention;

FIG. 7 is an enlarged partial schematic view of the present invention at the moving gear member of FIG. 6;

FIG. 8 is a schematic view of the present invention at the horizontal extender member of FIG. 3;

FIG. 9 is an enlarged partial schematic view of the horizontal turning bar of FIG. 3 in accordance with the present invention;

fig. 10 is an enlarged partial schematic view of the gear cavity member of fig. 6 in accordance with the present invention.

In the figure:

11. a frame; 12. left and right limiting plates; 13. an upper and a lower limiting plates; 14. a stretching rod; 15. stretching the limiting frame; 16. a special support; 17. an aluminum rail; 18. a magnetic force connecting frame; 19. a horizontal extension rod; 20. a horizontally extending cavity; 21. a horizontal rotating rod; 22. an extension motor; 23. a control panel; 24. a photovoltaic module; 25. front and rear limiting plates; 26. a limit rotating block; 27. a front-rear rotating lever; 28. a limit motor; 29. a front-rear telescopic rod; 30. a tail communicating block; 31. a telescopic moving block; 32. a telescopic rotating shaft; 33. a slip motor; 34. an optical detector; 35. a TP0 film; 36. left and right fixing frames; 37. front and rear telescopic chambers; 38. an elastic limiting block; 39. moving the electromagnetic block; 40. an electromagnetic moving cavity; 41. an electromagnetic spring; 42. fixing an electromagnetic block; 43. an infrared receiver; 44. a gear cavity; 45. a moving gear; 46. a rack; 47. an infrared range finder; 48. a gear motor; 49. a gear rotating lever; 50. stretching the limiting cavity; 51. a top elastic plate; 52. and stretching the frame forwards and backwards.

Detailed Description

Referring to fig. 1-10, a TPO/PVC flexible roof non-penetrating photovoltaic support system according to an embodiment of the present invention includes a plurality of groups of racks 11, top elastic plates 51 are fixedly disposed on the upper end surfaces of the racks 11, photovoltaic modules 24 are fixedly disposed on the upper end surfaces of the top elastic plates 51, two left and right fixing frames 36 are symmetrically disposed on the left and right end surfaces of the racks 11, two special supports 16 are fixedly disposed on the left and right sides of the racks 11, two aluminum rails 17 are fixedly disposed on the lower end surfaces of the photovoltaic modules 24, the lower end surfaces of the aluminum rails 17 are fixedly connected with the upper end surfaces of the special supports 16, stretching limiting frames 15 are fixedly disposed on the upper end surfaces of the special supports 16, two front and rear stretching frames 52 are symmetrically disposed on the front and rear end surfaces of the racks 11, telescopic moving blocks 31 capable of moving front and rear are disposed on the lower sides of the front and rear stretching frames 52, front and rear telescopic cavities 37 are disposed in the front and rear stretching limiting frames 36, two stretching limiting cavities 50 are disposed in the left and right fixing frames 36, two aluminum rails 17 are fixedly disposed on the lower sides of the racks 15, the stretching limiting frames 17 are fixedly disposed on the front and rear telescopic blocks 29 capable of moving front and rear telescopic blocks 29 are disposed in the front and rear telescopic blocks capable of moving front and rear telescopic blocks 29, and the telescopic rods 29 are disposed in the front and the telescopic limiting frames 29 are disposed in the front and moving front and rear telescopic frames 29.

The stretching rod 14 is far away from the end face of one side of the frame 11 and is fixedly provided with an upper limit plate 13 and a lower limit plate 13, the upper limit plate 13 and the lower limit plate 13 are close to the end face of one side of the frame 11 and are symmetrically and fixedly provided with two infrared receiving instruments 43, the outer circular surface of the stretching limit frame 15 is far away from the upper and lower positions of one side of the aluminum rail 17 and is fixedly provided with two infrared distance measuring instruments 47, infrared rays are emitted through the infrared distance measuring instruments 47 and received by the infrared receiving instruments 43, and the function of detecting distance can be played.

The electromagnetic limiting plate 13 is internally provided with an electromagnetic moving cavity 40 with an upward opening, the electromagnetic moving cavity 40 is internally provided with a left limiting plate 12 and a right limiting plate 12 which can move up and down, the end faces of one side of the left limiting plate 12 and the right limiting plate 12, which are close to the photovoltaic component 24, are fixedly provided with an elastic limiting block 38, the elastic limiting block 38 is made of elastic materials, the lower end faces of the left limiting plate 12 and the right limiting plate 12 are fixedly provided with a moving electromagnetic block 39, the lower wall of the electromagnetic moving cavity 40 is fixedly provided with a fixed electromagnetic block 42, an electromagnetic spring 41 is fixedly connected between the upper end face of the fixed electromagnetic block 42 and the lower end face of the moving electromagnetic block 39, and the moving electromagnetic block 39 and the fixed electromagnetic block 42 are magnetized after being electrified.

The stretching limiting cavity 50 is provided with two gear cavities 44 in a vertically symmetrical and communicated mode, a gear rotating rod 49 is rotationally arranged in the gear cavities 44, a movable gear 45 is fixedly arranged on the outer circular surface of the gear rotating rod 49, racks 46 are fixedly arranged on the upper end surface and the lower end surface of the stretching rod 14, the racks 46 are meshed with the movable gear 45, a gear motor 48 is fixedly arranged on the rear wall of the gear cavity 44, the rear end surface of the gear rotating rod 49 is in power connection with the gear motor 48, and the gear motor 48 is started to drive the gear rotating rod 49 to rotate, so that the movable gear 45 is driven to rotate, the racks 46 are driven to move back and forth, and the stretching rod 14 is driven to move back and forth.

The aluminum rail 17 is close to the end face of one side of the horizontal extension rod 19 and is fixedly provided with a magnetic connecting frame 18, the magnetic connecting frame 18 is close to the end face of one side of the horizontal extension rod 19 and is connected with the end face of one side of the horizontal extension rod 19 far away from the frame 11 through magnetic force, the horizontal extension rod 21 is rotationally arranged in the horizontal extension cavity 20, the outer circular surface of the horizontal rotation rod 21 is in threaded connection with the end face of one side of the horizontal extension rod 19 close to the frame 11, the horizontal rotation rod 21 is in power connection with the extension motor 22, and the extension motor 22 starts to drive the horizontal rotation rod 21 to rotate and drives the horizontal extension rod 19 to move left and right through threaded connection.

The lower side of the front and rear stretching frame 52 is rotatably provided with a telescopic rotating shaft 32, front and rear end surfaces of the frame 11 are fixedly provided with a sliding motor 33, an outer circular surface of the telescopic rotating shaft 32 is in threaded connection with the telescopic moving block 31, the front and rear telescopic rods 29 are close to one side end surface of the frame 11 and fixedly provided with tail communicating blocks 30, the lower end surface of each tail communicating block 30 is fixedly connected with the upper end surface of each telescopic moving block 31, the telescopic rotating shaft 32 is close to one side end surface of the frame 11 and is in power connection with the sliding motor 33, the sliding motor 33 is started to drive the telescopic rotating shaft 32 to rotate, and the telescopic moving blocks 31 are driven to move left and right through threaded connection so as to drive the tail communicating blocks 30 to move left and right, so that the front and rear telescopic rods 29 are driven to move left and right.

The front-rear telescopic rod 29 is internally fixed with a limit motor 28, the limit rotating block 26 is close to one side end face of the frame 11 and is fixedly provided with a front-rear rotating rod 27, the upper end face of the limit rotating block 26 is fixedly provided with a front-rear limiting plate 25, the front-rear limiting plate 25 is made of elastic materials, the front-rear rotating rod 27 is close to one side end face of the frame 11 and is in power connection with the limit motor 28, and the limit motor 28 is started to drive the front-rear rotating rod 27 to rotate so as to drive the limit rotating block 26 to rotate so as to drive the front-rear limiting plate 25 to rotate.

The front and rear telescopic cavities 37 are fixedly arranged near one side wall of the frame 11, the optical detector 34 can play a role in detecting distance, the left end face of the frame 11 is fixedly provided with a control panel 23, the control panel 23 can play a role in controlling all motors of the invention to start, the lower end face of the special support 16 is fixedly provided with a TP0 film 35, and the aluminum rail 17.

The invention relates to a TPO/PVC flexible roof non-penetrating photovoltaic support system, which comprises the following working procedures:

before working, the left and right limiting plates 12 are positioned at the uppermost side in the electromagnetic moving cavity 40, the stretching rod 14 is positioned in the stretching limiting cavity 50, the horizontal stretching rod 19 is positioned in the horizontal stretching cavity 20, the telescopic moving block 31 is positioned at the side close to the frame 11, and the special support 16 is fixed to the lower end face of the aluminum rail 17 through bolt installation.

Before working, the frame 11 is placed on a roof to be installed, the extension motor 22 is started according to the size requirement, the extension motor 22 is started to drive the horizontal rotating rod 21 to rotate, the horizontal extending rod 19 is driven to move left and right through threaded connection until the horizontal extending rod 19 extends to a proper position, then the magnetic connecting frame 18 and the horizontal extending rod 19 are mutually contacted and attracted, the installation of the two-side special supports 16 is completed under the assistance of the positioning of the magnetic connecting frame 18, then the gear motor 48 is started to drive the gear rotating rod 49 to rotate, the movable gear 45 is driven to rotate, the rack 46 is driven to move back and forth, the stretching rod 14 is driven to move back and forth, and the extending lengths of the horizontal extending rod 19 and the stretching rod 14 are detected and controlled by the infrared range finder 47 and the infrared receiver 43 according to the size set by the photovoltaic module 24, so that the left and right position determination of the photovoltaic module 24 is completed.

Then, the sliding motor 33 is started to drive the telescopic rotating shaft 32 to rotate, the telescopic moving block 31 is driven to move left and right through threaded connection, the tail communicating block 30 is driven to move left and right, the front and rear telescopic rods 29 are extended to a set size length under the detection action of the optical detector 34, the limit motor 28 is started to drive the front and rear rotating rods 27 to rotate, the limit rotating block 26 is driven to rotate, the front and rear limit plates 25 are driven to rotate to the upper side, and therefore front and rear position determination of the photovoltaic module 24 is completed.

After the position is determined, the photovoltaic module 24 can be mounted on the upper end face of the aluminum rail 17, after the mounting is completed, the fixed electromagnetic block 42 and the movable electromagnetic block 39 are started, the left limiting plate 12 and the right limiting plate 12 are downwards moved into the electromagnetic spring 41, the limiting motor 28 is reversely started, the front limiting plate 25 and the rear limiting plate 25 are not contacted with the photovoltaic module 24 any more, the power supply of the magnetic connecting frame 18 is disconnected, the magnetic force between the magnetic connecting frame 18 and the horizontal extension rod 19 disappears, and meanwhile the gear motor 48, the extension motor 22 and the sliding motor 33 are reversely started, the frame 11 is stretched and contracted, and at the moment, the frame 11 can be dismounted by a worker.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims

1. The utility model provides a TPO/PVC flexible roofing non-penetrating photovoltaic support system, includes frame (11), frame (11) up end is fixed to be equipped with top elastic plate (51), top elastic plate (51) up end is fixed to be equipped with photovoltaic module (24), frame (11) left and right sides both ends face effect symmetry and fixed being equipped with two left and right sides mount (36), frame (11) left and right sides is fixed being equipped with two special support (16), photovoltaic module (24) lower terminal surface is fixed being equipped with two aluminum rails (17), aluminum rail (17) lower terminal surface with special support (16) up end fixed connection, special support (16) up end is fixed being equipped with tensile limit frame (15), frame (11) front and back both ends front and back position symmetry and fixed being equipped with two front and back tensile frame (52), front and back tensile frame (52) downside is equipped with flexible movable block (31) that can reciprocate;

a front telescopic cavity (37) and a rear telescopic cavity (37) are arranged in the front and rear stretching frames (52), a horizontal extending cavity (20) is arranged in the left and right fixing frames (36), a stretching limiting cavity (50) is arranged in the stretching limiting frame (15), a front telescopic rod (29) capable of moving left and right is arranged in the front and rear telescopic cavity (37), a limiting rotating block (26) is arranged on the front telescopic rod (29) far away from one side end surface of the frame (11) in a rotating mode, and a stretching rod (14) capable of moving left and right is arranged in the stretching limiting cavity (50);

an upper limit plate and a lower limit plate (13) are fixedly arranged on the end face of one side of the stretching rod (14) far away from the frame (11), the upper limit plate and the lower limit plate (13) are symmetrically and fixedly arranged at the upper and lower positions of the end face of one side of the frame (11), the outer circular surface of the stretching limit frame (15) is symmetrically and fixedly arranged at the upper and lower positions of one side of the aluminum rail (17);

an electromagnetic moving cavity (40) with an upward opening is arranged in the upper limiting plate (13) and the lower limiting plate (13), a left limiting plate (12) and a right limiting plate (12) which can move up and down are arranged in the electromagnetic moving cavity (40), an elastic limiting block (38) is fixedly arranged on the end face of one side of the left limiting plate (12) close to the photovoltaic module (24), a moving electromagnetic block (39) is fixedly arranged on the lower end face of the left limiting plate (12), a fixed electromagnetic block (42) is fixedly arranged on the lower wall of the electromagnetic moving cavity (40), and an electromagnetic spring (41) is fixedly connected between the upper end face of the fixed electromagnetic block (42) and the lower end face of the moving electromagnetic block (39);

the stretching limiting cavity (50) is vertically symmetrical and is communicated with two gear cavities (44), a gear rotating rod (49) is rotationally arranged in the gear cavities (44), a movable gear (45) is fixedly arranged on the outer circular surface of the gear rotating rod (49), racks (46) are fixedly arranged on the upper end surface and the lower end surface of the stretching rod (14), the racks (46) are meshed with the movable gear (45), a gear motor (48) is fixedly arranged on the rear wall of the gear cavity (44), and the rear end surface of the gear rotating rod (49) is in power connection with the gear motor (48);

two extending motors (22) are fixedly arranged in the frame (11), a horizontal extending rod (19) capable of moving left and right is arranged in the horizontal extending cavity (20), a magnetic connecting frame (18) is fixedly arranged on one side end face of the aluminum rail (17) close to the horizontal extending rod (19), one side end face of the magnetic connecting frame (18) close to the horizontal extending rod (19) is connected with one side end face of the horizontal extending rod (19) far away from the frame (11) through magnetic force, a horizontal rotating rod (21) is rotationally arranged in the horizontal extending cavity (20), the outer circular surface of the horizontal rotating rod (21) is in threaded connection with one side end face of the horizontal extending rod (19) close to the frame (11), and the horizontal rotating rod (21) is in power connection with the extending motor (22) close to one side end face of the frame (11).

The telescopic sliding device is characterized in that a telescopic rotating shaft (32) is rotationally arranged on the lower side of the front and rear stretching frame (52), a sliding motor (33) is fixedly arranged in the front end surface and the rear end surface of the frame (11), the outer circular surface of the telescopic rotating shaft (32) is in threaded connection with the telescopic moving block (31), a tail communicating block (30) is fixedly arranged on the front and rear telescopic rod (29) close to one side end surface of the frame (11), the lower end surface of the tail communicating block (30) is fixedly connected with the upper end surface of the telescopic moving block (31), and the telescopic rotating shaft (32) is close to one side end surface of the frame (11) and is in power connection with the sliding motor (33);

the utility model discloses a motor, including frame (11), telescopic link (29) around, the telescopic link (29) internal fixation is equipped with spacing motor (28), spacing pivoted block (26) are close to frame (11) one side terminal surface is fixed be equipped with around pivoted lever (27), spacing pivoted block (26) up end is fixed around being equipped with limiting plate (25), around pivoted lever (27) be close to frame (11) one side terminal surface power connect in spacing motor (28).

2. A TPO/PVC flexible roofing non-penetrating photovoltaic support system according to claim 1, wherein: the front and rear telescopic cavity (37) is close to one side wall of the frame (11) and is fixedly provided with an optical detector (34), the left end face of the frame (11) is fixedly provided with a control panel (23), and the lower end face of the special support (16) is fixedly provided with a TP0 film (35).