CN219458968U - Photovoltaic power plant operation maintenance device - Google Patents

Abstract

The utility model discloses an operation and maintenance device for a photovoltaic power station, which comprises a solar panel, an upper beam rod, a maintenance lifting device, a bottom beam rod, a supporting rod and a telescopic electric box, wherein the maintenance lifting device is arranged at the position below the solar panel.

Description

Photovoltaic power plant operation maintenance device

Technical Field

The utility model relates to the field related to photovoltaic power generation, in particular to an operation and maintenance device for a photovoltaic power station.

Background

The solar panel is one of important equipment of the photovoltaic power station, is mainly placed outdoors to absorb and convert the light energy, but is also often influenced by weather or environment, so that the solar panel can generate certain damage, and at the moment, the solar panel needs to be inspected and maintained;

however, the existing technical means for overhauling the solar panel is generally to overhaul the solar panel by adopting manual overhaul, and the solar panel in the photovoltaic power station is in a large-scale sheet structure, when overhauling, staff is far smaller than the solar panel in terms of height and size, and some places needing overhauling are too high or have more remote positions, so that the staff needs to use more tools, such as: the ladder is carried with the user to climb to the position to be overhauled, so that the overhauling work is difficult, and even potential safety hazards occur;

there is an urgent need to redesign an operation and maintenance device for a photovoltaic power station to solve the above problems.

Disclosure of Invention

Therefore, in order to solve the defects, the utility model provides an operation and maintenance device for a photovoltaic power station.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a photovoltaic power plant fortune maintenance overhauls device, includes solar panel, upper beam pole, overhauls elevating gear, end beam pole, bracing piece, flexible electronic box, upper beam pole bolted connection is in solar panel upper end bottom position, flexible electronic box activity block is in the bracing piece top, flexible electronic box sets up in solar panel below, end beam pole bolted connection is in solar panel below bottom position, overhauls elevating gear and sets up in solar panel below position, overhauls elevating gear includes base, fixed plate, first support, second support, place board, stop gear, fixed plate bolted connection is on the base top, first support and second support activity block are in the fixed plate top, stop gear sets up in second support inside position, place board cooperation upper beam pole and end beam pole and solar panel looks block, place board below activity block has first support and second support.

Preferably, the first support and the second support are at least provided with two positions and are respectively arranged at the bottom positions of the two ends of the solar panel, and the first support and the second support are movably clamped between the fixed plate and the placing plate.

Preferably, the first support includes protection seat frame, extension pole, main shaft, auxiliary pushing device, roating seat, protection seat frame fixed connection fixed plate top, auxiliary pushing device activity block is inside protection seat frame, extension pole bottom activity block is between protection seat frame and auxiliary pushing device, main shaft activity block is in extension pole middle section position, roating seat activity block is in extension pole top position, extension pole cooperation roating seat is connected in the board below of placing.

Preferably, the auxiliary pushing device comprises a combining rod, a rotating mechanism, a rotating shaft, a sleeve body, a piston, a connecting rod, a sealing ring and an auxiliary shaft, wherein the rotating mechanism is movably clamped inside the protective seat frame, the rotating mechanism is arranged below the structural rod, the combining rod is matched with the rotating shaft to be connected with the sleeve body, the connecting rod is matched with the piston to be movably clamped inside the sleeve body, the sealing ring is nested inside the connecting sleeve body, and the connecting rod is matched with the auxiliary shaft to be connected with the second bracket.

Preferably, the auxiliary pushing device is provided with at least two parts, wherein the rotating mechanism of one auxiliary pushing device is arranged at the side of the first bracket, and the other auxiliary pushing device is arranged at the side of the second bracket and is in an up-down symmetrical structure.

Preferably, the rotating mechanism comprises a gear shaft, a shaft sleeve and a latch, wherein the latch is arranged inside the shaft sleeve and is meshed with the gear shaft, and the gear shaft is movably clamped inside the protection seat frame.

Preferably, the limiting mechanism comprises a supporting rod, an inner sleeve, a shaft core and a limiting groove, wherein the supporting rod and the second bracket are of an integrated structure, the inner sleeve is arranged inside the supporting rod, the shaft core is movably clamped inside the inner sleeve, and the limiting groove is formed inside the inner sleeve.

Preferably, the limiting groove is internally provided with at least six clamping holes, and the shaft core is connected with the main shaft of the first bracket and is clamped in the limiting groove.

The utility model has the beneficial effects that:

according to the utility model, when equipment maintenance is required, the first bracket is matched with the second bracket to be lifted up in an upward rotation manner on the fixed plate, so that the first bracket can leave a horizontal plane of the fixed plate, the second bracket can move downwards, meanwhile, the placing plate can be lifted up by the first bracket, the second bracket moves downwards to drive the solar panel to move downwards, and finally, the solar panel is in a horizontal state, thereby completing the placing work, and avoiding the problems of high solar panel height and remote position and difficult maintenance in the maintenance process.

Drawings

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

FIG. 2 is a schematic diagram of the structure of the maintenance lifting device after shrinkage;

FIG. 3 is a schematic view of the structure of the maintenance lifting device after being unfolded;

FIG. 4 is a schematic side elevational view of a first bracket of the present utility model;

FIG. 5 is a schematic cross-sectional view of the auxiliary pushing device of the present utility model;

FIG. 6 is a schematic view of a partial cross-sectional structure of the rotary mechanism of the present utility model;

fig. 7 is a schematic view of a partially cut-away structure of the spacing mechanism of the present utility model.

Wherein: the solar energy power generation device comprises a solar energy plate-1, an upper beam rod-2, an overhaul lifting device-3, a bottom beam rod-4, a supporting rod-5, a telescopic electric box-6, a base-31, a fixed plate-32, a first support-33, a second support-34, a placing plate-35, a limiting mechanism-36, a protective seat frame-331, an extending rod-332, a main shaft-333, an auxiliary pushing device-334, a rotating seat-335, a combining rod-3341, a rotating mechanism-3342, a rotating shaft-3343, a sleeve body-3344, a piston-3345, a connecting rod-3346, a sealing ring-3347, an auxiliary shaft-3348, a gear shaft-a 1, a shaft sleeve-a 2, a clamping tooth-a 3, a supporting rod-341, a inner sleeve-342, a shaft core-343 and a limiting groove-344.

Detailed Description

In order to further explain the technical scheme of the utility model, the following is explained in detail through specific examples.

Referring to fig. 1-3, the utility model provides an operation and maintenance device for a photovoltaic power station, which comprises a solar panel 1, an upper beam 2, an maintenance lifting device 3, a bottom beam 4, a support rod 5 and a telescopic electric box 6;

the upper beam rod 2 is connected with the bottom of the upper end of the solar panel 1 through bolts, the telescopic electric box 6 is movably clamped above the supporting rod 5, the telescopic electric box 6 is arranged below the solar panel 1, the bottom beam rod 4 is connected with the bottom of the lower side of the solar panel 1 through bolts, and the overhaul lifting device 3 is arranged below the solar panel 1;

the overhaul lifting device 3 comprises a base 31, a fixed plate 32, a first bracket 33, a second bracket 34, a placing plate 35 and a limiting mechanism 36, wherein the fixed plate 32 is connected to the top end of the base 31 through bolts, the first bracket 33 and the second bracket 34 are movably clamped above the fixed plate 32, the limiting mechanism 36 is arranged at the inner position of the second bracket 34, a bolt is arranged above the placing plate 35, and the placing plate 35 can be matched with the upper beam rod 2 to be clamped with the bottom beam rod 4 and the solar panel 1;

in this embodiment, a first bracket 33 and a second bracket 34 are movably clamped below a placement plate 35, the first bracket 33 and the second bracket 34 are arranged at two positions, the first bracket 33 and the second bracket 34 are movably clamped between a fixed plate 32 and the placement plate 35, when equipment maintenance is required, a moving wheel and supporting legs are arranged below a base 31 of a maintenance lifting device 3, the supporting legs are longer than the distance between the moving wheel, a piston adopted by the moving wheel is in telescopic connection, when the equipment is required to be supported, the moving wheel is contracted upwards by driving of the equipment, the equipment can be placed below a solar panel 1 under the cooperation of the moving wheel and the supporting legs, the placement plate 35 is clamped below the solar panel 1, the first bracket 33 of the maintenance lifting device 3 is matched with the second bracket 34 to be lifted in an upward rotating manner on the fixed plate 32, the first bracket 33 can leave the horizontal plane of the fixed plate 32, the second bracket 34 can be moved downwards, and the placement plate 35 can be lifted upwards due to the upward movement of the first bracket 33, the second bracket 34 moves downwards to drive the solar panel 1 to move downwards, and finally the solar panel 1 is placed horizontally, so that the solar panel is placed horizontally.

Referring to fig. 4, in the present embodiment, the first bracket 33 includes a protection seat frame 331, an extension rod 332, a main shaft 333, an auxiliary pushing device 334, and a rotating seat 335, wherein the protection seat frame 331 is fixedly connected above the fixing plate 32, the auxiliary pushing device 334 is movably clamped inside the protection seat frame 331, and the bottom of the extension rod 332 is movably clamped between the protection seat frame 331 and the auxiliary pushing device 334;

in this embodiment, the main shaft 333 is movably clamped at the middle position of the extension rod 332, the rotating base 335 is movably clamped at the uppermost position of the extension rod 332, the extension rod 332 is connected under the placement plate 35 in cooperation with the rotating base 335, when the extension rod is required to be swung to the horizontal position, the auxiliary pushing device 334 of the first bracket 33 will push the second bracket 34 upwards at first, and the extension rod 332 of the first bracket 33 will rotate in cooperation with the rotating base 335, and simultaneously the main shaft 333 will move upwards at the limiting mechanism 36 of the second bracket 34, and the first bracket 33 and the second bracket 34 will operate together to swing the placement plate 35 to the horizontal position.

Referring to fig. 5, in the embodiment, the auxiliary pushing device 334 includes a connecting rod 3341, a rotating mechanism 3342, a rotating shaft 3343, a sleeve 3344, a piston 3345, a connecting rod 3346, a sealing ring 3347, and an auxiliary shaft 3348, wherein the rotating mechanism 3342 is movably engaged in the protective seat frame 331, and the rotating mechanism 3342 is disposed below the structural rod;

in this embodiment, the connecting rod 3341 is connected with the sleeve body 3344 by matching with the rotating shaft 3343, the connecting rod 3346 is movably clamped in the sleeve body 3344 by matching with the piston 3345, the sealing ring 3347 is nested in the sleeve body 3344, the connecting rod 3346 is connected with the second bracket 34 by matching with the auxiliary shaft 3348, the auxiliary pushing device 334 is provided with two parts, one part of the rotating mechanism 3342 of the auxiliary pushing device 334 is arranged on the side of the first bracket 33, and the other part of the rotating mechanism 3342 is arranged on the side of the second bracket 34 and is in an up-down symmetrical structure;

when pushing, the rotating mechanism 3342 rotates, the connecting rod 3346 at the upper end of the connecting rod 3341 cooperates with the sleeve 3344 to move the piston in the sleeve 3344, and finally the second bracket 34 is pulled back, and the auxiliary pushing device 334 of the second bracket 34 pushes the other side to separate the first bracket 33 from the second bracket 34, so that the distance between the two brackets is reduced to form a crossed state.

Referring to fig. 6, in this embodiment, the rotating mechanism 3342 includes a gear shaft a1, a shaft sleeve a2, and a latch a3, where the latch a3 is disposed inside the shaft sleeve a2, the latch a3 is engaged with the gear shaft a1, the gear shaft a1 is movably engaged inside the protective seat frame 331, and when rotating, the rotation of the gear shaft a1 is engaged with the latch a3, so that the shaft sleeve a2 outside the latch a3 drives the coupling rod 3341 to rotate, thereby completing the rotating operation.

Referring to fig. 7, in the present embodiment, the limiting mechanism 36 includes a supporting rod 341, an inner sleeve 342, a shaft core 343, and a limiting groove 344, the supporting rod 341 and the second bracket 34 are in an integrated structure, the inner sleeve 342 is disposed inside the supporting rod 341, the shaft core 343 is movably clamped inside the inner sleeve 342, the inner sleeve 342 is internally provided with the limiting groove 344, six clamping holes are disposed inside the limiting groove 344, the shaft core 343 is connected with the main shaft 333 of the first bracket 33, and is clamped inside the limiting groove 344, so that the height and the distance can be better adjusted, and the shaft core 343 can be clamped at a desired position.

The working principle is as follows:

when the solar panel 1 needs to be swung to the horizontal position for maintenance, the first bracket 33 in the maintenance lifting device 2 is matched with the second bracket 34 to push the first bracket and the second bracket to incline the angle of the placing plate 35 towards the solar panel 1, wherein a moving wheel and supporting legs are arranged below the base 31 of the maintenance lifting device 3, equipment can be placed below the solar panel 1 under the matching of the moving wheel and the supporting legs, the placing plate 35 is positioned below the solar panel 1, and then the placing plate 35 is clamped behind the solar panel 1 through a bolt above the placing plate 35 to fix the placing plate, and at the moment, the upper and lower fixing of the telescopic electric box 6 for supporting the solar panel 1 is unlocked, so that the up-down telescopic operation can be assisted;

secondly, the rotating mechanism 3342 inside the auxiliary pushing device 334 of the first bracket 33 rotates, and when the rotating mechanism rotates, the gear shaft a1 in the rotating mechanism 3342 rotates to be meshed with the latch a3, so that the shaft sleeve a2 outside the latch a3 drives the combining rod 3341 to rotate;

meanwhile, the connecting rod 3346 at the upper end of the combining rod 3341 is matched with the sleeve body 3344, the second bracket 34 is pulled back by piston movement in the sleeve body 3344, the auxiliary pushing device 334 of the second bracket 34 pushes the other side at the same time, the first bracket 33 and the second bracket 34 are separated, the distance between the first bracket and the second bracket is reduced, and the supporting leg below the fixing seat 31 can support the solar panel 1;

at this time, the extension rod 332 of the first bracket 33 will rotate in cooperation with the rotating seat 335, and meanwhile, the spindle 333 will slide upwards in cooperation with the shaft core 343 in the inner sleeve 342 of the limiting mechanism 36 of the second bracket 34, wherein six clamping holes are provided in the limiting groove 344 of the inner sleeve 342, so that the height and distance can be better adjusted, and the shaft core 343 can be clamped at a desired position;

the first bracket 33 and the second bracket 34 rotate upwards on the fixed plate 32, so that the first bracket 33 can leave the horizontal plane of the fixed plate 32, the second bracket 34 can move downwards and is close to the horizontal plane of the fixed plate 32, and as the solar panel 1 is clamped above the placing plate 35, the placing plate 35 can be lifted upwards by the first bracket 33, the second bracket 34 moves downwards to drive the solar panel 1 to move downwards, finally the solar panel 1 is placed in a horizontal state, and finally the first bracket 33 and the second bracket 34 are arranged at two positions and are respectively arranged at the bottom positions of the two ends of the solar panel 1, so that better movement work can be further carried out on the solar panel 1;

after the overhaul is finished, the first bracket 33 is matched with the auxiliary pushing device 334 of the second support 34 to be pressed down, and the second bracket 34 is matched with the auxiliary pushing device 334 of the first bracket 33 to be lifted up, so that the solar panel 1 placed above the placing plate 35 is subjected to angle before reduction, the telescopic electric box 6 is fixed and can work with normal conveying and conveying, the overhaul lifting device 3 is retrieved to complete the placing work, and the problems that the solar panel 1 is too high in height and the position is remote and difficult to overhaul in the overhaul process are avoided.

The foregoing is merely a preferred example of the present utility model, and the present utility model is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present utility model has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (8)

1. The utility model provides a photovoltaic power plant fortune maintenance device, includes solar panel (1), upper beam pole (2), sill bar (4), bracing piece (5), flexible electric box (6), upper beam pole (2) bolted connection is in solar panel (1) upper end bottom position, flexible electric box (6) activity block is in bracing piece (5) top, flexible electric box (6) set up in solar panel (1) below, sill bar (4) bolted connection is in solar panel (1) below bottom position;

the method is characterized in that: still including overhauling elevating gear (3), overhaul elevating gear (3) setting in solar panel (1) below position, overhaul elevating gear (3) including base (31), fixed plate (32), first support (33), second support (34), place board (35), stop gear (36), fixed plate (32) bolted connection is on base (31) top, first support (33) and second support (34) activity block are in fixed plate (32) top, stop gear (36) set up in second support (34) internal position, place board (35) cooperation upper beam pole (2) and sill beam pole (4) and solar panel (1) looks block, place board (35) below activity block has first support (33) and second support (34).

2. The photovoltaic power plant operation and maintenance device according to claim 1, wherein: the first support (33) and the second support (34) are at least arranged at two positions and are respectively arranged at the bottom positions of two ends of the solar panel (1), and the first support (33) and the second support (34) are movably clamped between the fixed plate (32) and the placing plate (35).

3. The photovoltaic power plant operation and maintenance device according to claim 1, wherein: the first support (33) comprises a protection seat frame (331), an extension rod (332), a main shaft (333), an auxiliary pushing device (334) and a rotating seat (335), wherein the protection seat frame (331) is fixedly connected with the upper side of the fixed plate (32), the auxiliary pushing device (334) is movably clamped inside the protection seat frame (331), the bottom of the extension rod (332) is movably clamped between the protection seat frame (331) and the auxiliary pushing device (334), the main shaft (333) is movably clamped at the middle section of the extension rod (332), the rotating seat (335) is movably clamped at the uppermost position of the extension rod (332), and the extension rod (332) is matched with the rotating seat (335) to be connected below the placement plate (35).

4. A photovoltaic power plant operation and maintenance device according to claim 3, characterized in that: auxiliary pushing device (334) is including joining pole (3341), rotary mechanism (3342), rotation axis (3343), cover body (3344), piston (3345), connecting rod (3346), sealing washer (3347), auxiliary shaft (3348), rotary mechanism (3342) activity block is inside protective bracket (331), rotary mechanism (3342) sets up in the structural bar below, joining pole (3341) cooperation rotation axis (3343) are connected with cover body (3344), connecting rod (3346) cooperation piston (3345) activity block is inside cover body (3344), inside sealing washer (3347) nested connecting sleeve body (3344), connecting rod (3346) cooperation auxiliary shaft (3348) are connected with second support (34).

5. The photovoltaic power plant operation and maintenance device according to claim 4, wherein: the auxiliary pushing device (334) is at least provided with two parts, wherein a rotating mechanism (3342) of one auxiliary pushing device (334) is arranged on the side of the first bracket (33), and the other auxiliary pushing device is arranged on the side of the second bracket (34) and is in an up-down symmetrical structure.

6. The photovoltaic power plant operation and maintenance device according to claim 4, wherein: the rotating mechanism (3342) comprises a gear shaft (a 1), a shaft sleeve (a 2) and a latch (a 3), wherein the latch (a 3) is arranged inside the shaft sleeve (a 2), the latch (a 3) is meshed with the gear shaft (a 1), and the gear shaft (a 1) is movably clamped inside the protective seat frame (331).

7. The photovoltaic power plant operation and maintenance device according to claim 1, wherein: the limiting mechanism (36) comprises a supporting rod (341), an inner sleeve (342), a shaft core (343) and a limiting groove (344), wherein the supporting rod (341) and the second bracket (34) are of an integrated structure, the inner sleeve (342) is arranged inside the supporting rod (341), the shaft core (343) is movably clamped inside the inner sleeve (342), and the limiting groove (344) is formed inside the inner sleeve (342).

8. The photovoltaic power plant operation and maintenance device according to claim 7, wherein: the limiting groove (344) is internally provided with at least six clamping holes, and the shaft core (343) is connected with the main shaft (333) of the first bracket (33) and is clamped in the limiting groove (344).