CN216520767U - Synchronous monitoring management system of photovoltaic power generation energy site - Google Patents

Abstract

The utility model discloses a synchronous monitoring and management system of a photovoltaic power generation energy station, which comprises an energy station, a photovoltaic power generation panel, a monitoring runway, a monitoring probe and a management room. According to the synchronous monitoring and management system for the photovoltaic power generation energy station, the driving motor drives the driving gear to rotate through the rotating shaft at the front end, the driving gear drives the driven gear to rotate, the driven gear drives the power wheel to rotate through the rotating shaft while rotating, the bottom end of the power wheel is attached to the outer frame of the runway to move forwards, the top end of the built-in wheel body is attached to the inner extension plate to rotate along with the outer extension plate, the external box body moves forwards in the inner cavity of the runway, the camera body moves along with the power wheel body to monitor and shoot the condition of the photovoltaic power generation plate, and shot information conditions are fed back to the management room.

Description

Synchronous monitoring management system of photovoltaic power generation energy site

Technical Field

The utility model relates to the technical field of photovoltaic power generation, in particular to a synchronous monitoring and management system for photovoltaic power generation energy sites.

Background

A photovoltaic power station management system is important secondary equipment of a photovoltaic project, on one hand, tasks such as box-type transformer electric quantity acquisition, electric quantity protection, non-electric quantity protection, switching quantity acquisition and inverter oil temperature acquisition are carried on the shoulder, on the other hand, information collection such as a field inverter, a gateway metering box and field meteorological equipment needs to be collected, and in the using process of the photovoltaic power station, daily maintenance and supervision on the photovoltaic power station need to be carried out.

However, most of the existing monitoring management adopts a manual patrol record mode to manage and monitor, and although the mode can achieve the purpose of monitoring, a large amount of human resources are consumed, and the management mode of manual patrol is low in efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a synchronous monitoring and management system for photovoltaic power generation energy sites, which can monitor an integral photovoltaic power station in a camera looking-around mode, liberate human resources, improve management efficiency and solve the problems in the prior art.

In order to achieve the purpose, the utility model provides the following technical scheme: a synchronous monitoring and management system for photovoltaic power generation energy stations comprises an energy station, a photovoltaic power generation board, a monitoring runway, monitoring probes and a management room, wherein the photovoltaic power generation board is arranged on the energy station, the monitoring runway is arranged on the outer side of the photovoltaic power generation board, the monitoring probes are arranged on the monitoring runway, and the management room is arranged on the outer side of the monitoring probes;

the monitoring probe comprises a driving box, a camera body, a driven wheel and a protective baffle, wherein the camera body is fixedly mounted at the top end of the driving box, the driven wheel is arranged on each of two sides of the camera body, the driven wheel is movably mounted at the top of the driving box, and the protective baffle is fixedly mounted at the top end of the camera body.

Preferably, the drive case includes external box, division board, driving motor, driving gear, driven gear and power wheel, the inside of external box is equipped with the division board, the both sides of division board all are equipped with driving motor, it has the driving gear to run through in driving motor's the front end pivot, the below of driving gear is equipped with driven gear, driven gear is run through by the pivot, and one side of driven gear is equipped with the power wheel.

Preferably, the driven wheel comprises an extension frame, an internal wheel body and a fixed rotating shaft, the internal wheel body is arranged inside the extension frame, the internal wheel body is penetrated through by the fixed rotating shaft, the fixed rotating shaft is movably connected with the internal wheel body, and two ends of the fixed rotating shaft are fixedly connected with the extension frame.

Preferably, the monitoring runway comprises a runway outer frame, an inner extension plate and a runway inner cavity, the inner side of the runway outer frame is provided with the inner extension plate, the inner extension plate is fixedly connected with the runway outer frame, and the runway inner cavity is formed in the inner side of the inner extension plate.

Preferably, the power wheel is penetrated by the rotating shaft, the power wheel is fixedly connected with the rotating shaft, and the rotating shaft is fixedly arranged on the external box body.

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

according to the synchronous monitoring and management system for the photovoltaic power generation energy station, the driving motor drives the driving gear to rotate through the rotating shaft at the front end, the driving gear drives the driven gear to rotate, the driven gear drives the power wheel to rotate through the rotating shaft while rotating, the bottom end of the power wheel is attached to the outer frame of the runway to move forwards, the top end of the built-in wheel body is attached to the inner extension plate to rotate along with the outer extension plate, the external box body moves forwards in the inner cavity of the runway, the camera body moves along with the power wheel body to monitor and shoot the condition of the photovoltaic power generation plate, and shot information conditions are fed back to the management room.

Drawings

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

FIG. 2 is a schematic view of a monitoring probe according to the present invention;

FIG. 3 is a cross-sectional view of the drive housing of the present invention;

fig. 4 is a schematic structural view of the driven wheel of the present invention.

In the figure: 1. an energy station; 2. a photovoltaic power generation panel; 3. monitoring a runway; 31. a runway outer frame; 32. an inner extension plate; 33. a runway inner cavity; 4. monitoring the probe; 41. a drive box; 411. an external box body; 412. a partition plate; 413. a drive motor; 414. a driving gear; 415. a driven gear; 416. a power wheel; 42. a camera body; 43. a driven wheel; 431. an extension frame; 432. a built-in wheel body; 433. fixing the rotating shaft; 44. a protective baffle; 5. and a management room.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, a synchronous monitoring management system for a photovoltaic power generation energy station comprises an energy station 1, a photovoltaic power generation panel 2, a monitoring runway 3, a monitoring probe 4 and a management room 5, wherein the photovoltaic power generation panel 2 is arranged on the energy station 1, the monitoring runway 3 is arranged on the outer side of the photovoltaic power generation panel 2, the monitoring runway 3 comprises a runway outer frame 31, an inner extension panel 32 and a runway inner cavity 33, the inner side of the runway outer frame 31 is provided with the inner extension panel 32, the inner extension panel 32 is fixedly connected with the runway outer frame 31, the inner side of the inner extension panel 32 is provided with the runway inner cavity 33, the monitoring probe 4 is arranged on the monitoring runway 3, the monitoring probe 4 comprises a driving box 41, a camera body 42, a driven wheel 43 and a protective baffle 44, the driving box 41 comprises an external box 411, a partition plate 412, a driving motor 413, a driving gear 414, a driven gear 415 and a power wheel 416, the partition plate 412 is arranged inside of the external box 411, both sides of the partition plate 412 are provided with driving motors 413, driving gears 414 penetrate through front end rotating shafts of the driving motors 413, driven gears 415 are arranged below the driving gears 414, the driven gears 415 are penetrated through by the rotating shafts, one sides of the driven gears 415 are provided with power wheels 416, the power wheels 416 are penetrated through by the rotating shafts, the power wheels 416 and the rotating shafts are fixedly connected, the rotating shafts are fixedly arranged on the external box 411, the driving motors 413 drive the driving gears 414 to rotate through the front end rotating shafts, the driving gears 414 and the driven gears 415 are engaged with each other, the driving gears 414 drive the driven gears 415 to rotate, the driven gears 415 drive the power wheels 416 to rotate through the rotating shafts while rotating, the bottom ends of the power wheels 416 are attached to the runway outer frame 31 to move forwards, the top ends of the driving boxes 41 are fixedly provided with camera bodies 42, both sides of the camera bodies 42 are provided with driven wheels 43, the driven wheel 43 comprises an extension frame 431, an internal wheel body 432 and a fixed rotating shaft 433, the internal wheel body 432 is arranged in the extension frame 431, the internal wheel body 432 is penetrated through by the fixed rotating shaft 433, the fixed rotating shaft 433 is movably connected with the internal wheel body 432, two ends of the fixed rotating shaft 433 are fixedly connected with the extension frame 431, the driven wheel 43 is movably installed at the top of the driving box 41, a protective baffle 44 is fixedly installed at the top end of the camera body 42, a management room 5 is arranged on the outer side of the monitoring probe 4, the top end of the internal wheel body 432 is attached to the internal extension plate 32 and rotates along with the external wheel body, the external box 411 moves forwards in the runway inner cavity 33, the camera body 42 moves along with the external wheel body to monitor and shoot the condition of the photovoltaic power generation plate 2, and the shot information condition is fed back to the management room 5.

The working principle is as follows: start driving motor 413, driving motor 413 drives driving gear 414 through the pivot of front end and rotates, interlock each other between driving gear 414 and the driven gear 415, driving gear 414 drives driven gear 415 and rotates, driven gear 415 drives power wheel 416 through the pivot and rotates in the pivoted, the bottom laminating of power wheel 416 is at the runway frame 31 forward motion, follow the rotation on extension board 32 including the top laminating of built-in wheel body 432 simultaneously, make external box 411 forward motion in runway inner chamber 33, camera body 42 is followed the motion and is monitored the shooting to photovoltaic power generation board 2's the condition, and feed back the information condition of shooing to in the administrative room 5.

In summary, the following steps: the synchronous monitoring and management system of the photovoltaic power generation energy station of the utility model starts a driving motor 413, the driving motor 413 drives a driving gear 414 to rotate through a rotating shaft at the front end, the driving gear 414 and a driven gear 415 are meshed with each other, the driving gear 414 drives the driven gear 415 to rotate, the driven gear 415 drives a power wheel 416 to rotate through the rotating shaft while rotating, the bottom end of the power wheel 416 is attached to a runway outer frame 31 to move forwards, the top end of an internal wheel body 432 is attached to an internal extension plate 32 to rotate along with the driving gear, so that an external box 411 moves forwards in a runway inner cavity 33, a camera body 42 moves along with the driving gear to monitor and shoot the condition of a photovoltaic power generation plate 2, and the shot information condition is fed back to a management room 5, the structure can monitor the whole photovoltaic power generation station in a camera looking around mode, and liberate human resources, and the management efficiency is improved.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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

Claims (5)

1. The utility model provides a synchronous monitoring management system of photovoltaic power generation energy website, includes energy platform (1), photovoltaic power generation board (2), monitoring runway (3), monitor probe (4) and management room (5), its characterized in that: the energy platform (1) is provided with a photovoltaic power generation board (2), the outer side of the photovoltaic power generation board (2) is provided with a monitoring runway (3), the monitoring runway (3) is provided with a monitoring probe (4), and the outer side of the monitoring probe (4) is provided with a management room (5);

monitoring probe (4) include drive case (41), camera body (42), follow driving wheel (43) and guard flap (44), the top fixed mounting of drive case (41) has camera body (42), the both sides of camera body (42) all are equipped with from driving wheel (43), follow driving wheel (43) movable mounting at the top of drive case (41), the top fixed mounting of camera body (42) has guard flap (44).

2. The system for synchronously monitoring and managing the photovoltaic power generation energy sites according to claim 1, wherein: drive case (41) are including external box (411), division board (412), driving motor (413), driving gear (414), driven gear (415) and power wheel (416), the inside of external box (411) is equipped with division board (412), the both sides of division board (412) all are equipped with driving motor (413), it has driving gear (414) to run through in the front end pivot of driving motor (413), the below of driving gear (414) is equipped with driven gear (415), driven gear (415) are run through by the pivot, and one side of driven gear (415) is equipped with power wheel (416).

3. The system for synchronously monitoring and managing the photovoltaic power generation energy sites according to claim 1, wherein: the driven wheel (43) comprises an extension frame (431), a built-in wheel body (432) and a fixed rotating shaft (433), the built-in wheel body (432) is arranged inside the extension frame (431), the built-in wheel body (432) is penetrated through by the fixed rotating shaft (433), the fixed rotating shaft (433) is movably connected with the built-in wheel body (432), and two ends of the fixed rotating shaft (433) are fixedly connected with the extension frame (431).

4. The system for synchronously monitoring and managing the photovoltaic power generation energy sites according to claim 1, wherein: monitoring runway (3) include runway frame (31), interior extension board (32) and runway inner chamber (33), the inboard of runway frame (31) is equipped with interior extension board (32), fixed connection between interior extension board (32) and runway frame (31), runway inner chamber (33) have been seted up to the inboard of interior extension board (32).

5. The system for synchronously monitoring and managing the photovoltaic power generation energy sites according to claim 2, wherein: the power wheel (416) is penetrated through by the rotating shaft, the power wheel (416) is fixedly connected with the rotating shaft, and the rotating shaft is fixedly arranged on the external box body (411).

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