CN218243477U - Movable monitoring device for river photovoltaic panel - Google Patents

Abstract

The utility model belongs to the technical field of photovoltaic equipment monitoring, in particular to a movable monitoring device for a river photovoltaic panel, which comprises a buoy; the top end of the floating barrel is fixedly connected with a first photovoltaic plate, one side of the floating barrel is provided with a power assembly, the top of the power assembly is provided with an adjusting assembly, the power assembly comprises a first sliding rail, and the first sliding rail is fixedly connected to one side of the floating barrel; through setting up the motor in gag lever post one side, the rotation of accessible motor drives the third gear, driving belt, second gear and transfer line rotate, it is rotatory to drive first gear, first gear and the inside rack toothing of first slide rail, the rotation of accessible motor drives gag lever post and pole setting and moves to one side, the horizontal pole of pole setting one side can be removed in the second slide rail through the pulley, thereby the camera that makes the pole setting top is towards the position of first photovoltaic board all the time, can shoot the inspection to the first photovoltaic board of multiunit, thereby the problem of river photovoltaic board manual inspection of not being convenient for has been solved.

Description

Movable monitoring device for river photovoltaic panel

Technical Field

The utility model relates to a photovoltaic equipment control technical field specifically is a river is movable monitoring device for photovoltaic board.

Background

The photovoltaic board is a plate-shaped device that electricity generation was carried out to practical sunlight, and along with the green energy more and more popular at present, photovoltaic power generation receives the wide application as a green pollution-free novel energy.

The river photovoltaic panel is a photovoltaic panel installed on a river or a water surface, the photovoltaic panel can float on the water surface by arranging the buoys at the bottom of the photovoltaic panel, and the plurality of groups of buoys are combined and fixed, so that the buoys can be stably installed on the water surface.

The existing photovoltaic panel paved in a river is located on the water surface, so that maintenance personnel cannot conveniently inspect the condition of the photovoltaic panel, the damaged photovoltaic panel cannot be inspected and replaced in time, and the economic benefit of the photovoltaic panel is reduced; therefore, a movable monitoring device for a river photovoltaic panel is provided to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In order to compensate the not enough of prior art, solve the problem that exists among the prior art, the utility model provides a river is movable monitoring device for photovoltaic board.

The utility model provides a technical scheme that its technical problem adopted is: the utility model relates to a movable monitoring device for a river photovoltaic panel, which comprises a buoy; the top end of the floating barrel is fixedly connected with a first photovoltaic plate, one side of the floating barrel is provided with a power assembly, and the top of the power assembly is provided with an adjusting assembly;

the power component comprises a first slide rail, a first slide rail fixedly connected to one side of the buoy, a rack is fixedly connected to the bottom of the first slide rail inner wall, a first gear is meshed to the top of the rack, the first gear is arranged on the first slide rail inner wall, a transmission rod is fixedly connected to one side of the first gear, a first slide rail is extended out of one side of the transmission rod, a limiting rod is arranged on one side of the transmission rod, one end of the transmission rod extends into the inner wall of the limiting rod, a second gear is fixedly connected to one end, located on the inner wall of the limiting rod, of the transmission rod, a transmission belt is meshed to one side of the second gear, a third gear is meshed to the top of the inner wall of the transmission belt, a motor is fixedly connected to one side of the third gear, the motor is fixedly connected to the outer wall of the limiting rod, the output end of the motor extends into the inner wall of the limiting rod, the adjusting component comprises a vertical rod, the vertical rod is fixedly connected to the top of the cross rod, and a camera is fixedly connected to the top of the vertical rod.

Preferably, the adjusting part still includes the lug, the lug shape is cylindrical, the lug section is T shape, the lug rigid coupling is at the gag lever post top, the horizontal pole bottom is seted up flutedly, the recess shape agrees with the lug mutually, pole setting one side rigid coupling has the horizontal pole, horizontal pole one side is rotated and is connected with the pulley, flotation pontoon one side top rigid coupling has the second slide rail, the pulley sets up inside the second slide rail, pole setting top rigid coupling has the roof, roof top rigid coupling camera.

Preferably, the top of the vertical rod is fixedly connected with a support, the top of the support is fixedly connected with a second photovoltaic panel, and the support and the second photovoltaic panel are provided with four groups and are circumferentially distributed on the top of the vertical rod.

Preferably, the buoy is square, and the length of the first photovoltaic panel is smaller than that of the buoy.

Preferably, first slide rail and second slide rail are parallel distribution, first slide rail is located the upper portion of second slide rail, the side of the shape laminating flotation pontoon of first slide rail and second slide rail.

Preferably, the rack length is consistent with the first slide rail, the height of the support and the second photovoltaic panel is higher than that of the first photovoltaic panel, and the orientation of the camera is consistent with that of the cross bar.

The utility model discloses an useful part lies in:

1. the utility model discloses a set up the motor in gag lever post one side, the rotation of accessible motor drives the third gear, driving belt and second gear rotate, the second gear drives first gear through the transfer line and rotates, and the rack toothing of first gear and the inside setting of first slide rail, thereby the rotation of accessible motor drives the gag lever post and removes to one side, make the top pole setting follow the removal simultaneously, and the horizontal pole of pole setting one side can remove in the second slide rail through the pulley, thereby make the camera at pole setting top move towards the position of first photovoltaic board all the time, can shoot the inspection to the first photovoltaic board of multiunit, thereby the problem of river photovoltaic board manual inspection of not being convenient for has been solved.

2. The utility model discloses a set up support and second photovoltaic board on the pole setting top, can be for motor and camera additional energy, through setting up four group's pole settings and second pipe with the photovoltaic board, can make the gag lever post rotatory can both receive shining of sunshine to any direction, improve the power supply ability of second photovoltaic board to camera and motor.

Drawings

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

FIG. 1 is a schematic perspective view of a first embodiment;

FIG. 2 is a schematic perspective cross-sectional view illustrating a structure of the first embodiment;

FIG. 3 is an enlarged view of FIG. 2 at A;

FIG. 4 is an enlarged view of FIG. 2 at B;

fig. 5 is a schematic structural view of the protective case of the second embodiment.

In the figure: 1. a float bowl; 2. a first photovoltaic panel; 301. a first slide rail; 302. a rack; 303. a first gear; 304. a transmission rod; 305. a second gear; 306. a limiting rod; 307. a drive belt; 308. a third gear; 309. a motor; 401. a bump; 402. erecting a rod; 403. a groove; 404. a cross bar; 405. a pulley; 406. a second slide rail; 501. a top plate; 502. a camera; 503. a support; 504. a second photovoltaic panel; 6. a protective shell.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Example one

Referring to fig. 1-4, a movable monitoring device for a river photovoltaic panel includes a buoy 1; the top end of the buoy 1 is fixedly connected with a first photovoltaic panel 2, one side of the buoy 1 is provided with a power assembly, and the top of the power assembly is provided with an adjusting assembly;

the power assembly comprises a first slide rail 301, the first slide rail 301 is fixedly connected to one side of the buoy 1, a rack 302 is fixedly connected to the bottom of the inner wall of the first slide rail 301, a first gear 303 is meshed with the top of the rack 302, the first gear 303 is arranged on the inner wall of the first slide rail 301, a transmission rod 304 is fixedly connected to one side of the first gear 303, the first slide rail 301 extends out of one side of the transmission rod 304, a limiting rod 306 is arranged on one side of the transmission rod 304, one end of the transmission rod 304 extends into the inner wall of the limiting rod 306, a second gear 305 is fixedly connected to one end, located on the inner wall of the limiting rod 306, of the transmission rod 304, a transmission belt 307 is meshed to one side of the second gear 305, a third gear 308 is meshed with the top end of the inner wall of the transmission belt 307, a motor 309 is fixedly connected to one side of the third gear 308, the motor 309 is fixedly connected to the outer wall of the limiting rod 306, the output end of the motor 309 extends into the inner wall of the limiting rod 306, the adjustment assembly comprises a vertical rod 402, the 402 is fixedly connected to the top of the vertical rod 404, and a camera 502 is fixedly connected to the top of the vertical rod 402;

during operation, the photovoltaic board of laying in the river now is because be located the surface of water, maintainer is not convenient for inspect the situation of photovoltaic board, consequently can make the photovoltaic board of damage come too late to inspect and change, lead to the economic benefits of photovoltaic board to reduce, for solving the problem that river photovoltaic board is not convenient for manual inspection, through starter motor 309, make motor 309 drive the third gear 308 that is located gag lever post 306 inner wall through the output and rotate, third gear 308 rotates and can drive driving belt 307 and rotate, driving belt 307 rotates and can drive bottom meshing's second gear 305 and rotate, second gear 305 rotates and can drive transfer line 304 and rotate, transfer line 304 rotates and can make the first gear 303 of one end rotate, first gear 303 rotates and can drive gag lever post 306 through rack 302 in first slide rail 301 and move, and move along with the direction of first slide rail 301, 402 at the gag lever post 306 at gag lever post 306 top moves, and camera 502 that the top set up of upright post 402 can adjust the visual angle along with the removal of upright post 402, be convenient for inspect multiunit first photovoltaic board 2.

The adjusting assembly further comprises a convex block 401, the convex block 401 is cylindrical, the cross section of the convex block 401 is T-shaped, the convex block 401 is fixedly connected to the top of the limiting rod 306, a groove 403 is formed in the bottom of the cross rod 404, the shape of the groove 403 is matched with that of the convex block 401, the cross rod 404 is fixedly connected to one side of the upright rod 402, a pulley 405 is rotatably connected to one side of the cross rod 404, a second slide rail 406 is fixedly connected to the top of one side of the buoy 1, the pulley 405 is arranged inside the second slide rail 406, a top plate 501 is fixedly connected to the top of the upright rod 402, and a camera 502 is fixedly connected to the top of the top plate 501;

the during operation, when gag lever post 306 removes, can drive the pole setting 402 synchronous motion at top, and the one end of pole setting 402 one side horizontal pole 404 is provided with pulley 405, and pulley 405 sets up in second slide rail 406, can make the position of pole setting 402 lead, and inject the vertical position of pole setting 402 and gag lever post 306, make pole setting 402 and 1 one side of gag lever post 306 laminating flotation pontoon remove, and adjust the angle of camera 502 when removing, be convenient for camera 502 to inspect multiunit flotation pontoon 1 and first photovoltaic board 2.

A bracket 503 is fixedly connected to the top of the upright 402, a second photovoltaic panel 504 is fixedly connected to the top of the bracket 503, four groups of the brackets 503 and the second photovoltaic panels 504 are arranged, and are circumferentially distributed on the top of the upright 402;

in operation, the second photovoltaic panel 504 arranged on the bracket 503 can supplement electric energy to the motor 309 and the camera 502 by absorbing light energy, and the four groups of brackets 503 and the second photovoltaic panel 504 can receive illumination when the upright 402 moves in four directions of the plurality of groups of buoys 1, so that the power supply capacity of the second photovoltaic panel 504 to the camera 502 and the motor 309 is improved.

The buoy 1 is square, and the length of the first photovoltaic panel 2 is smaller than that of the buoy 1;

during operation, the square flotation pontoon 1 is favorable to the multiunit flotation pontoon 1 to connect, is favorable to the installation of first slide rail 301 and second slide rail 406 simultaneously, and the length of first photovoltaic board 2 is less than the length of flotation pontoon 1 and can avoid hindering gag lever post 306 and pole setting 402 and remove in first slide rail 301 one side.

The first slide rail 301 and the second slide rail 406 are distributed in parallel, the first slide rail 301 is positioned at the upper part of the second slide rail 406, and the shapes of the first slide rail 301 and the second slide rail 406 are fit with the side edge of the buoy 1;

the during operation, first slide rail 301 is parallel distribution with second slide rail 406 and has the synchronous motion that does benefit to gag lever post 306 and pole setting 402, and the side of the shape laminating flotation pontoon 1 of first slide rail 301 and second slide rail 406 can make gag lever post 306 and pole setting 402 laminate flotation pontoon 1 all the time and remove.

The length of the rack 302 is consistent with that of the first sliding rail 301, the height of the bracket 503 and the second photovoltaic panel 504 is higher than that of the first photovoltaic panel 2, and the orientation of the camera 502 is consistent with that of the cross bar 404;

during operation, the length of the rack 302 is consistent with that of the first slide rail 301, so that the first gear 303 can move freely in the first slide rail 301, the height of the bracket 503 and the second photovoltaic panel 504 is higher than that of the first photovoltaic panel 2, so that the upright 402 can be prevented from colliding with the first photovoltaic panel 2 during movement, and the camera 502 faces towards one side of the float 1 along with the direction of the cross bar 404.

Example two

Referring to fig. 5, in a first comparative example, as another embodiment of the present invention, a protective housing 6 is fixed to an outer wall of the motor 309; in operation, the protective casing 6 can prevent the motor 309 from hitting hard objects, and can prevent water on the water surface from splashing into the motor 309 to affect the operation of the motor 309.

The working principle is that in order to solve the problem that the river photovoltaic panel is inconvenient to manually inspect, the square buoy 1 is beneficial to connecting a plurality of groups of buoys 1 and is also beneficial to installing the first slide rail 301 and the second slide rail 406, the shapes of the first slide rail 301 and the second slide rail 406 are fit with the side edge of the buoy 1, so that the limit rod 306 and the upright post 402 can always fit with the buoy 1 to move, the motor 309 drives the third gear 308 positioned on the inner wall of the limit rod 306 to rotate through the output end by starting the motor 309, the third gear 308 rotates to drive the transmission belt 307 to rotate, the transmission belt 307 rotates to drive the second gear 305 meshed with the bottom to rotate, the second gear 305 rotates to drive the transmission rod 304 to rotate, the transmission rod 304 rotates to drive the first gear 303 at one end to rotate, the first gear 303 rotates to drive the limit rod 306 to move through the rack 302 in the first slide rail 301, the photovoltaic panel vertical positioning device moves along with the guide of the first slide rail 301, and simultaneously drives the vertical rod 402 at the top to synchronously move, the length of the first photovoltaic panel 2 is smaller than that of the buoy 1, so that the limiting rod 306 and the vertical rod 402 can be prevented from being prevented from moving on one side of the first slide rail 301, one end of the cross rod 404 on one side of the vertical rod 402 is provided with the pulley 405, the pulley 405 is arranged in the second slide rail 406, the position of the vertical rod 402 can be guided, the vertical positions of the vertical rod 402 and the limiting rod 306 are limited, the vertical rod 402 and the limiting rod 306 are attached to one side of the buoy 1 to move, the angle of the camera 502 is adjusted during moving, the camera 502 faces towards the direction consistent with the cross rod 404, so that the camera 502 always faces towards one side of the buoy 1, and the camera 502 can conveniently inspect a plurality of groups of buoys 1 and first photovoltaic panels 2;

the second photovoltaic panel 504 arranged on the bracket 503 can supplement electric energy for the motor 309 and the camera 502 by absorbing light energy, and the four groups of brackets 503 and the second photovoltaic panel 504 can receive illumination when the upright post 402 moves in four directions of the plurality of groups of buoys 1, so that the power supply capacity of the second photovoltaic panel 504 to the camera 502 and the motor 309 is improved.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention.

Claims (6)

1. The utility model provides a river is movable monitoring device for photovoltaic board which characterized in that: comprises a buoy (1); the top end of the buoy (1) is fixedly connected with a first photovoltaic panel (2), one side of the buoy (1) is provided with a power assembly, and the top of the power assembly is provided with an adjusting assembly;

the power assembly comprises a first slide rail (301), the first slide rail (301) is fixedly connected with one side of the buoy (1), a rack (302) is fixedly connected to the bottom of the inner wall of the first sliding rail (301), a first gear (303) is meshed with the top of the rack (302), the first gear (303) is arranged on the inner wall of the first slide rail (301), one side of the first gear (303) is fixedly connected with a transmission rod (304), one side of the transmission rod (304) extends out of the first slide rail (301), one side of the transmission rod (304) is provided with a limiting rod (306), one end of the transmission rod (304) extends into the inner wall of the limiting rod (306), one end of the transmission rod (304) positioned on the inner wall of the limiting rod (306) is fixedly connected with a second gear (305), a transmission belt (307) is meshed with one side of the second gear (305), the top end of the inner wall of the transmission belt (307) is engaged with a third gear (308), a motor (309) is fixedly connected with one side of the third gear (308), the motor (309) is fixedly connected with the outer wall of the limiting rod (306), the output end of the motor (309) extends into the inner wall of the limiting rod (306), the adjusting component comprises a vertical rod (402), the vertical rod (402) is fixedly connected to the top of the cross rod (404), and a camera (502) is fixedly connected to the top of the vertical rod (402).

2. The movable monitoring device for the river photovoltaic panel as claimed in claim 1, wherein: the adjusting part still includes lug (401), lug (401) shape is cylindrical, lug (401) section is T shape, lug (401) rigid coupling is at gag lever post (306) top, recess (403) have been seted up to horizontal pole (404) bottom, recess (403) shape agrees with mutually with lug (401), pole setting (402) one side rigid coupling has horizontal pole (404), horizontal pole (404) one side is rotated and is connected with pulley (405), flotation pontoon (1) one side top rigid coupling has second slide rail (406), pulley (405) set up inside second slide rail (406), pole setting (402) top rigid coupling has roof (501), roof (501) top rigid coupling camera (502).

3. The movable monitoring device for the river photovoltaic panel as claimed in claim 2, wherein: the top of the vertical rod (402) is fixedly connected with a support (503), the top of the support (503) is fixedly connected with a second photovoltaic panel (504), and the supports (503) and the second photovoltaic panels (504) are arranged in four groups and are circumferentially distributed on the top of the vertical rod (402).

4. The movable monitoring device for river photovoltaic panels as claimed in claim 3, wherein: the shape of the buoy (1) is a cube, and the length of the first photovoltaic panel (2) is smaller than that of the buoy (1).

5. The movable monitoring device for the river photovoltaic panel as claimed in claim 4, wherein: the first slide rail (301) and the second slide rail (406) are distributed in parallel, the first slide rail (301) is located at the upper part of the second slide rail (406), and the shapes of the first slide rail (301) and the second slide rail (406) are fitted with the side edge of the buoy (1).

6. The movable monitoring device for river photovoltaic panels as claimed in claim 5, wherein: the length of the rack (302) is consistent with that of the first sliding rail (301), the height of the bracket (503) and the height of the second photovoltaic panel (504) are higher than that of the first photovoltaic panel (2), and the orientation of the camera (502) is consistent with that of the cross rod (404).

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