CN220599693U - Supporting mechanism for operation and maintenance of high place of photovoltaic power station - Google Patents

Abstract

The utility model relates to the technical field of operation and maintenance of photovoltaic power stations, in particular to a supporting mechanism for operation and maintenance of a high place of a photovoltaic power station. The technical proposal comprises: the device comprises a base, a supporting plate and a ladder rod, wherein an adjusting component for adjusting the angle of the ladder rod is arranged between the supporting plate and the ladder rod; the upper surface of the supporting plate is provided with two groups of first hinging seats, and the first hinging seats are hinged with the ladder stand rod; install the head rod between the climbing pole, adjusting part includes first articulated pole, second articulated pole and first pneumatic cylinder, and backup pad upper surface installs the third hinge seat. The angle of the climbing rod can be adjusted through the adjusting component, so that the climbing rod is convenient to adapt to different working requirements and site conditions; through the connected mode of articulated connection and pneumatic cylinder, the angle between backup pad and the cat ladder pole can be adjusted in a flexible way, has improved supporting mechanism's stability and security.

Description

Supporting mechanism for operation and maintenance of high place of photovoltaic power station

Technical Field

The utility model relates to the technical field of photovoltaic power stations, in particular to a supporting mechanism for operation and maintenance at a high position of a photovoltaic power station.

Background

Photovoltaic power plants are devices that utilize solar energy to convert light energy into electrical energy. In the high-rise operation and maintenance of photovoltaic power plants, a support mechanism is required to support and maintain the equipment. The prior art has some problems, such as incapability of adjusting the angle of the climbing rod in the maintenance process, inconvenient operation and the like.

In this regard, a supporting mechanism for operation and maintenance of a high place of a photovoltaic power station is disclosed in Chinese patent publication No. CN210032535U, which solves the defects that the photovoltaic panel is easy to generate hidden cracks due to the fact that the photovoltaic panel is easy to tread in the operation and maintenance process of the existing photovoltaic panel, and comprises a vertical frame, wherein one side of the vertical frame is provided with a reinforcing rod.

Although maintenance frame can be realized turning over around the guide bar through one side welded lifting lever, at maintenance frame's inside welding footboard for operating personnel accessible footboard climbs the eminence and maintains, but maintenance frame angle adjustment is inconvenient, because the angle of photovoltaic board is different needs to adjust maintenance frame's angle be convenient for better work of workman, if the angle can't adjust, can reduce maintenance frame's convenience of use.

Disclosure of Invention

The utility model aims to solve the problems in the background art and provides a supporting mechanism for high-altitude operation and maintenance of a photovoltaic power station.

The technical scheme of the utility model is as follows: the supporting mechanism for the high-altitude operation and maintenance of the photovoltaic power station comprises a base, a supporting plate and a ladder climbing rod, wherein an adjusting component for adjusting the angle of the ladder climbing rod is arranged between the supporting plate and the ladder climbing rod; two groups of first hinging seats are arranged on the upper surface of the supporting plate and are hinged with the ladder stand rod;

a first connecting rod is arranged between the ladder stand rods, the adjusting component comprises a first hinging rod, a second hinging rod and a first hydraulic cylinder, a third hinging seat is arranged on the upper surface of the supporting plate, a second hinging seat is arranged on one side wall of the first connecting rod, the second hinging rod is hinged on the side face of the second hinging seat, a first hinging rod is hinged on the side face of the third hinging seat, the first hinging rod is connected with the second hinging rod through the first hydraulic cylinder, the angle of the climbing rod is driven to deflect through the expansion and contraction of the first hydraulic cylinder and the second hydraulic cylinder, at the moment, the climbing rod rotates along the first hinging seat, after the angle of the climbing rod and the photovoltaic plate is regulated, a worker holds a handle, steps on a friction pad, maintains the photovoltaic plate through an operation groove, and can regulate the angle of the climbing rod through the regulating assembly, so that the climbing rod is convenient to adapt to different working requirements and site conditions; through the connected mode of articulated connection and pneumatic cylinder, the angle between backup pad and the cat ladder pole can be adjusted in a flexible way, has improved supporting mechanism's stability and security.

Preferably, the two groups of ladder stand poles are hinged with a fourth hinging pole on the side face, the upper surface of the supporting plate is hinged with two groups of third hinging poles, and a second hydraulic cylinder is connected between the third hinging poles and the fourth hinging poles.

Preferably, the side of the ladder stand rod is connected with a plurality of second connecting rods, the second connecting rods are matched with the first connecting rods in position, friction pads are arranged on the sides of the first connecting rods and the second connecting rods, and the second connecting rods and the friction pads are introduced, so that the stability and the anti-sliding capacity of the ladder stand rod can be improved.

Preferably, the side surfaces of the first connecting rod and the second connecting rod are provided with mounting seats, handles are arranged on the upper surfaces of the mounting seats, and the mounting seats and the handles are arranged so that the use and control of operators are facilitated.

Preferably, two groups of limit sliding grooves are formed in the side face of the supporting plate, two groups of additional plates are arranged on the side face of the supporting plate, a plurality of positioning threaded bolts are mounted on the upper surface of each additional plate, limit sliding blocks which are in sliding fit with the limit sliding grooves are mounted on the side face of each additional plate, and the design of the limit sliding grooves, the additional plates and the positioning threaded bolts can provide additional supporting and fixing effects, so that the stability of the supporting mechanism is enhanced.

Preferably, the surface mounting has a plurality of installation poles on the base, and installation pole one end is connected with the photovoltaic board, and the setting of installation pole makes the photovoltaic board conveniently install on the base, has improved photovoltaic power plant's efficiency and maintainability.

Preferably, an operation groove is arranged between the first connecting rod and the second connecting rod and is matched with the position of the photovoltaic panel, and the operation groove is arranged to facilitate interaction between an operator and the photovoltaic panel in the working process.

Compared with the prior art, the utility model has the following beneficial technical effects:

the angle of the climbing rod can be adjusted through the adjusting component, so that the climbing rod is convenient to adapt to different working requirements and site conditions; the angle between the supporting plate and the ladder stand rod can be flexibly adjusted by the connection mode of the hinged connection and the hydraulic cylinder, so that the stability and the safety of the supporting mechanism are improved; the second connecting rod and the friction pad are introduced, so that the stability and the anti-sliding capability of the climbing rod can be improved; the installation seat and the handle are convenient for the use and control of operators; the design of the limiting chute, the additional plate and the positioning threaded bolt can provide additional supporting and fixing effects, so that the stability of the supporting mechanism is enhanced; the photovoltaic panel can be conveniently installed on the base by the installation rod, so that the efficiency and maintainability of the photovoltaic power station are improved; the arrangement of the operation groove can facilitate interaction between operators and the photovoltaic panel in the working process.

Drawings

FIG. 1 is a schematic view of a first three-dimensional structure of the present utility model;

FIG. 2 is a schematic top view of the present utility model;

FIG. 3 is a schematic view of the cross-sectional structure of the portion A-A in FIG. 2;

FIG. 4 is a schematic view of a partial enlarged structure at C in FIG. 3;

FIG. 5 is a left side view of the present utility model;

FIG. 6 is a schematic view of a partially enlarged structure at D in FIG. 5;

fig. 7 is a schematic diagram of a second three-dimensional structure of the present utility model.

Reference numerals: 1. a support plate; 2. an additional plate; 3. positioning a threaded bolt; 4. limiting sliding grooves; 5. a first hinge base; 6. a limit sliding block; 7. climbing a ladder bar; 8. a second connecting rod; 9. a first connecting rod; 10. a friction pad; 11. a mounting base; 12. a handle; 13. a photovoltaic panel; 14. a base; 15. a first hinge lever; 16. a first hydraulic cylinder; 17. a second hinge lever; 18. the second hinge seat; 19. a third hinge base; 20. an operation groove; 21. a mounting rod; 22. a third articulation bar; 23. a second hydraulic cylinder; 24. and a fourth hinge lever.

Detailed Description

The technical scheme of the utility model is further described below with reference to the attached drawings and specific embodiments.

Examples

As shown in fig. 1-7, the supporting mechanism for high-altitude operation and maintenance of the photovoltaic power station provided by the utility model comprises a base 14, a supporting plate 1 and a ladder rod 7, wherein an adjusting component for adjusting the angle of the ladder rod 7 is arranged between the supporting plate 1 and the ladder rod 7; two groups of first hinging seats 5 are arranged on the upper surface of the supporting plate 1, and the first hinging seats 5 are hinged with the ladder stand rod 7; the first connecting rod 9 is arranged between the climbing rods 7, the adjusting component comprises a first hinging rod 15, a second hinging rod 17 and a first hydraulic cylinder 16, a third hinging seat 19 is arranged on the upper surface of the supporting plate 1, a second hinging seat 18 is arranged on one side wall of the first hinging rod 9, the second hinging rod 17 is hinged to the side surface of the second hinging seat 18, the first hinging rod 15 is hinged to the side surface of the third hinging seat 19, the first hinging rod 15 is connected with the second hinging rod 17 through the first hydraulic cylinder 16, the angle of the climbing rod 7 is driven to deflect through the expansion and contraction of the first hydraulic cylinder 16 and the second hydraulic cylinder 23, at the moment, the climbing rod 7 rotates along the first hinging seat 5, after the angle of the climbing rod 7 and the photovoltaic plate 13 is adjusted, a worker holds the handle 12 and steps on the friction pad 10, the photovoltaic plate is maintained through the operating groove 20, and the angle of the climbing rod 7 can be adjusted through the adjusting component, so that the climbing rod 7 can be conveniently adapted to different working requirements and site conditions; through the connected mode of articulated connection and pneumatic cylinder, the angle between backup pad 1 and cat ladder pole 7 can be nimble the adjustment, has improved supporting mechanism's stability and security.

The side surfaces of the two groups of ladder bars 7 are hinged with fourth hinging bars 24, the upper surface of the supporting plate 1 is hinged with two groups of third hinging bars 22, and a second hydraulic cylinder 23 is connected between the third hinging bars 22 and the fourth hinging bars 24. The side of the climbing pole 7 is connected with a plurality of second connecting rods 8, the positions of the second connecting rods 8 and the positions of the first connecting rods 9 are matched, friction pads 10 are arranged on the sides of the first connecting rods 9 and the second connecting rods 8, and the second connecting rods 8 and the friction pads 10 are introduced, so that the stability and the anti-sliding capacity of the climbing pole can be improved.

The side surfaces of the first connecting rod 9 and the second connecting rod 8 are provided with the mounting seat 11, the upper surface of the mounting seat 11 is provided with the handle 12, and the mounting seat 11 and the handle 12 are convenient for the use and control of operators. Two sets of limit sliding grooves 4 are formed in the side face of the supporting plate 1, two sets of additional plates 2 are arranged on the side face of the supporting plate 1, a plurality of positioning threaded bolts 3 are mounted on the upper surface of each additional plate 2, limit sliding blocks 6 which are in sliding fit with the limit sliding grooves 4 are mounted on the side face of each additional plate 2, and the design of the limit sliding grooves 4, the additional plates 2 and the positioning threaded bolts 3 can provide additional supporting and fixing effects, so that the stability of the supporting mechanism is enhanced. The surface mounting has a plurality of installation poles 21 on the base 14, and installation pole 21 one end is connected with photovoltaic board 13, and installation pole 21's setting makes photovoltaic board 13 conveniently install on base 14, has improved photovoltaic power plant's efficiency and maintainability. An operation groove 20 is arranged between the first connecting rod 9 and the second connecting rod 8, the operation groove 20 is matched with the position of the photovoltaic panel 13, and the operation groove 20 is arranged to facilitate interaction between an operator and the photovoltaic panel 13 in the working process.

In this embodiment, during the use, inject spacing slider 6 spacing spout 4, fix the location screw bolt 3 subaerial, flexible drive climbing pole 7 angle through first pneumatic cylinder 16 and second pneumatic cylinder 23 takes place to deflect, climbing pole 7 rotates along first articulated seat 5 this moment, after adjusting climbing pole 7 and the angle of photovoltaic board 13, the workman holds up handle 12, steps on friction pad 10, maintains the photovoltaic board through operating groove 20, when not using, dismantle the location screw bolt 3 after with spacing slider 6 take out, pull down additional board 2, remove climbing pole 7.

The above-described embodiment is only one preferred embodiment of the present utility model, and many alternative modifications and combinations of the above-described embodiments can be made by those skilled in the art based on the technical solutions of the present utility model and the related teachings of the above-described embodiments.

Claims (7)

1. The utility model provides a photovoltaic power plant eminence operation and maintenance is with supporting mechanism, includes base (14), backup pad (1) and cat ladder pole (7), its characterized in that: an adjusting component for adjusting the angle of the climbing rod (7) is arranged between the supporting plate (1) and the climbing rod (7); two groups of first hinging seats (5) are arranged on the upper surface of the supporting plate (1), and the first hinging seats (5) are hinged with the ladder stand rod (7);

install head rod (9) between cat ladder pole (7), adjusting part includes first articulated pole (15), second articulated pole (17) and first pneumatic cylinder (16), and backup pad (1) upper surface installs third articulated seat (19), and second articulated seat (18) are installed to head rod (9) a lateral wall, and second articulated seat (18) side articulates has second articulated pole (17), and third articulated seat (19) side articulates has first articulated pole (15), is connected through first pneumatic cylinder (16) between first articulated pole (15) and the second articulated pole (17).

2. The supporting mechanism for high-altitude operation and maintenance of a photovoltaic power station according to claim 1, wherein two groups of ladder stand rods (7) are hinged with a fourth hinging rod (24) on the side face, two groups of third hinging rods (22) are hinged on the upper surface of the supporting plate (1), and a second hydraulic cylinder (23) is connected between the third hinging rods (22) and the fourth hinging rods (24).

3. The supporting mechanism for high-altitude operation and maintenance of a photovoltaic power station according to claim 1, wherein a plurality of second connecting rods (8) are connected to the side surfaces of the ladder stand rods (7), the second connecting rods (8) are matched with the first connecting rods (9), and friction pads (10) are arranged on the side surfaces of the first connecting rods (9) and the second connecting rods (8).

4. A supporting mechanism for high-altitude operation and maintenance of a photovoltaic power station according to claim 3, wherein the side surfaces of the first connecting rod (9) and the second connecting rod (8) are provided with mounting seats (11), and handles (12) are mounted on the upper surfaces of the mounting seats (11).

5. The supporting mechanism for high-altitude operation and maintenance of a photovoltaic power station according to claim 1, wherein two groups of limiting sliding grooves (4) are formed in the side face of the supporting plate (1), two groups of additional plates (2) are arranged on the side face of the supporting plate (1), a plurality of positioning threaded bolts (3) are mounted on the upper surface of each additional plate (2), and limiting sliding blocks (6) in sliding fit with the limiting sliding grooves (4) are mounted on the side face of each additional plate (2).

6. The supporting mechanism for high-altitude operation and maintenance of a photovoltaic power station according to claim 1, wherein a plurality of mounting rods (21) are mounted on the upper surface of the base (14), and one end of each mounting rod (21) is connected with a photovoltaic panel (13).

7. The supporting mechanism for high-altitude operation and maintenance of a photovoltaic power station according to claim 6, wherein an operation groove (20) is arranged between the first connecting rod (9) and the second connecting rod (8), and the operation groove (20) is adapted to the position of the photovoltaic panel (13).