CN220043521U - Solar energy structure of supervisory equipment - Google Patents

Abstract

The utility model discloses a solar structure of monitoring equipment, and relates to the technical field of monitoring. The solar panel comprises a mounting seat and a monitor connected to the mounting seat through an adjusting seat, wherein a solar panel is connected to a shell of the monitor through a servo motor, the servo motor drives the solar panel to do arc motion at a connecting point so as to adjust the inclination angle of the solar panel, two illumination sensors are symmetrically arranged on the solar panel by taking the connecting point as a symmetry axis, the illumination sensors and the servo motor are electrically connected with a built-in main board of the monitor, and a cleaning plate which is movably matched with the solar panel is arranged on the solar panel. According to the utility model, the angle of the solar panel can be adjusted through the cooperation of the servo motor, the illumination sensor and the monitor, so that the panel surface area of the solar panel can be covered by sunlight to the greatest extent, and the utilization rate of the solar panel is improved.

Description

Solar energy structure of supervisory equipment

Technical Field

The utility model relates to the technical field of monitoring, in particular to a solar structure of monitoring equipment.

Background

Video surveillance equipment is one of the most common devices of current surveillance systems. The type of solar energy structure of video monitoring equipment is developed into video monitoring based on an IP network along with the development of technology.

At present, a solar wireless camera exists on the market, after the camera is installed, the camera can be powered by mains supply, solar energy can be converted into electric energy by utilizing a solar panel and stored in a storage battery to supply power for the whole camera, so that the use range of the camera is improved, but when the camera is installed, the orientation of the solar panel installed on the camera is fixed, different seasons and different time periods, the illumination angle and the position are also changed, the existing solar panel cannot be adjusted, the utilization rate of the solar panel is influenced, meanwhile, the absorption efficiency of the solar panel to solar energy is influenced when dust and other impurities are attached to the surface of the solar panel, the camera is usually installed at a high position, the cleaning times are limited, regular cleaning is usually adopted, that is, the impurities are not cleaned for a long time and can be attached to the surface of the solar panel, inconvenience is caused to regular cleaning work, and meanwhile, the utilization rate of the solar panel is also influenced.

In view of the above, the present utility model proposes a solar structure of a monitoring device.

Disclosure of Invention

The utility model aims at: in order to solve the problems in the background art, the utility model provides a solar structure of monitoring equipment.

The utility model adopts the following technical scheme for realizing the purposes:

the utility model provides a supervisory equipment's solar energy structure, includes the mount pad and connects the watch-dog on the mount pad through the regulation seat, be connected with solar panel on the watch-dog shell through servo motor, servo motor drive solar panel is with the tie point arc motion, in order to adjust solar panel's inclination, use the tie point to be the symmetry axis on the solar panel, two illumination sensor are installed to the symmetry, illumination sensor with servo motor with the built-in mainboard electric connection of watch-dog, install rather than clearance fit's cleaning board on the solar panel, works as when solar panel is in the inclination, the cleaning board is removed to the one end that the inclination is low by the one end that the inclination is high.

Further, guide rails are arranged on two sides of the solar panel, rollers are matched in the guide rails in a rolling mode, connecting rods are arranged on shaft rods of the rollers, and the cleaning panel is arranged on the two connecting rods.

Further, the connecting rod is provided with a plug-in groove, plug-in blocks are respectively arranged at two ends of the cleaning plate, and the plug-in blocks are plugged into the plug-in groove to form the installation state of the cleaning plate.

Further, the cross sections of the inserting grooves and the inserting blocks are dovetail-shaped.

Further, a fixing block is mounted on the outer peripheral side of the solar panel, and the guide rail is mounted on the fixing block through a bolt.

Further, both ends of the guide rail are both openings, and the opening ends are inserted with blocking blocks for blocking the openings, and the blocking blocks are connected with the fixed blocks through bolts.

Further, a rubber block is mounted at one end of the blocking block, which is located inside the guide rail.

Further, install articulated seat on the monitor shell, servo motor installs on articulated seat, install the connecting seat on the solar panel, servo motor output shaft has the erection column, it has screw thread and breach to construct on the erection column, the connecting seat joint cover is established on the erection column to through nut locking.

The beneficial effects of the utility model are as follows:

1. according to the utility model, the angle of the solar panel can be adjusted through the cooperation of the servo motor, the illumination sensor and the monitor, so that the panel surface area of the solar panel can be covered by sunlight to the greatest extent, and the utilization rate of the solar panel is improved.

2. In the rotation process of the solar panel, the cleaning plate arranged on the solar panel moves along with the movement of the solar panel, so that the plate surface of the solar panel is cleaned, dust attached to the solar panel is reduced, dirt formed by long-term uncleaned dust is avoided, and the influence of the dust on the utilization rate of the solar panel is reduced.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is an enlarged view of the structure of FIG. 1A in accordance with the present utility model;

FIG. 3 is an enlarged view of the structure of FIG. 1B in accordance with the present utility model;

FIG. 4 is a schematic view of a portion of the structure of the present utility model;

FIG. 5 is an enlarged view of the structure of FIG. 4 at C in accordance with the present utility model;

FIG. 6 is a side view of FIG. 1 of the present utility model;

reference numerals: 1. a mounting base; 2. an adjusting seat; 3. a monitor; 4. a servo motor; 5. a solar panel; 6. an illumination sensor; 7. a cleaning plate; 8. a guide rail; 9. a roller; 10. a connecting rod; 11. a plug-in groove; 12. a plug block; 13. blocking; 14. a fixed block; 15. a rubber block; 16. a hinge base; 17. a connecting seat; 18. a mounting column; 19. and (5) a notch.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present utility model more clear, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

As shown in fig. 1 to 6, the solar structure of the monitoring device according to the embodiment of the present utility model includes a mounting base 1 and a monitor 3 connected to the mounting base 1 through an adjusting base 2, where the mounting base 1 is the most basic mounting piece of the solar structure of the whole monitoring device, the fixing work of the device is completed by fixing the mounting base 1 on a wall surface, a wall top or other fixing surfaces through bolts, and the adjusting base 2 is used for adjusting a shooting angle for the installed monitor 3, and belongs to a structure necessary for the solar structure of the current part of monitoring devices, where the monitor 3 is used for completing shooting monitoring of pictures;

the technical points of the utility model are as follows: the solar panel 5 is connected on the shell of the monitor 3 through the servo motor 4, the servo motor 4 drives the solar panel 5 to do arc motion by a connecting point so as to adjust the inclination angle of the solar panel 5, the shooting direction of the monitor 3 is taken as a first direction, the rotation direction of the solar panel 5 is taken as a second direction, the first direction is vertical to the second direction, the position of the rotated solar panel 5 can not cover the shooting area of the camera of the monitor 3, two illumination sensors 6 are symmetrically arranged on the solar panel 5 by taking the connecting point as a symmetrical axis, the illumination sensors 6 and the servo motor 4 are electrically connected with a built-in main board of the monitor 3, the illumination sensors 6 are sensors for converting illumination intensity values into voltage values, the illumination intensity values respectively irradiated on two sides of the solar panel 5 can be monitored by arranging the two illumination sensors 6, when the illumination intensity of one side is higher than that of the other side, the control structure of the monitor 3 starts the servo motor 4 to drive the solar panel 5 to rotate, so that the solar panel 5 faces to the side with high illumination intensity, the solar panel 5 can be always covered by sunlight in a large area, the utilization rate of the solar panel 5 is improved, a triggering program for starting the servo motor 4 is set on the control structure of the monitor 3, that is, the servo motor 4 does not work at night, when the illumination intensity value monitored by the illumination sensor 6 does not obtain a starting threshold value, the control structure does not start the servo motor 4, and a cleaning plate 7 which is movably matched with the solar panel 5 is arranged on the solar panel 5, when the solar panel 5 is in an inclined state, the cleaning plate 7 is moved from the end with high inclination to the end with low inclination, because there is the action of motion in solar panel 5, when solar panel 5 motion in-process, clean board 7 can move along with solar panel 5 inclination change to the effect of cleaning has been played on solar panel 5's surface, and such benefit is, the dust impurity on the solar panel 5 surface can be cleaned off through the motion of clean board 7, in daily use like this, can avoid some impurity long-time adhesion on solar panel 5, not only provide convenience for solar panel 5's periodic cleaning, also under normal condition, through the simple clearance to the dust, reduced the use influence of dust to solar panel 5, wherein clean board 7 is installed the cotton on the body, cotton and solar panel 5's the surface contact.

As shown in fig. 1 and 2, in order to smoothly implement the movement of the cleaning plate 7, in some embodiments, the two sides of the solar plate 5 are provided with guide rails 8, rollers 9 are in rolling fit with the guide rails 8, connecting rods 10 are installed on shafts of the rollers 9, the cleaning plate 7 is installed on two connecting rods 10, the rollers 9 are sleeved on the shafts, the rollers 9 can rotate, but the shafts do not rotate, the cross section of the guide rails 8 in the vertical direction is provided with a T-shaped notch, the rollers 9 are positioned in the notch, and part of the shaft is positioned outside the guide rails 8, but due to the limit of the two connecting rods 10, the shafts do not rotate, so that when the solar plate 5 is in an inclined state, the cleaning plate 7 needs to move downwards under the influence of gravity, due to the rolling fit, friction is reduced, the cleaning plate 7 can pass through the cooperation of the rollers 9, and the movement of the cleaning plate 7 is implemented under the limit of the guide rails 8, so that the cleaning plate 7 can be driven to reciprocate along with the change of the inclination angle of the solar plate 5, and the cleaning work can be completed on the surface of the solar plate 5.

As shown in fig. 2, in some embodiments, the connecting rod 10 is configured with a plugging slot 11, two ends of the cleaning plate 7 are configured with plugging blocks 12, the plugging blocks 12 are plugged into the plugging slots 11 to form a mounting state of the cleaning plate 7, and the cleaning plate 7 is not fixed but detachable, because after the cleaning plate 7 is used for a period of time, stains and abrasion on the surface can reduce the cleaning effect, so that the cleaning plate 7 can be replaced when the cleaning operation is performed on the solar panel 5 regularly, and the cleaning plate 7 is directly fixed in a plugging manner, thereby bringing convenience to the cleaning operation.

As shown in fig. 2, in some embodiments, the cross sections of the plugging grooves 11 and the plugging blocks 12 are dovetail-shaped, and the dovetail-shaped structural design is adopted to improve the friction after plugging, so as to improve the stability of the cleaning plate 7 after being fixed, because the cleaning plate 7 has a motion, and in order to avoid loosening of the installation position of the cleaning plate 7, the contact force and the friction after plugging are increased by virtue of the dovetail-shaped structural design.

As shown in fig. 1, in some embodiments, the fixing block 14 is installed on the outer peripheral side of the solar panel 5, the guide rail 8 is installed on the fixing block 14 through bolts, and the whole guide rail 8 structure adopts a bolt installation mode, so that when the damage exists, only the disassembly and replacement are needed.

As shown in fig. 3, in some embodiments, the two ends of the guide rail 8 are both open, and the open ends are inserted with a blocking block 13 for blocking the opening, the blocking block 13 is connected with the fixing block 14 through a bolt, the design of adding the blocking block 13 is to facilitate the replacement of the roller 9 and the connecting rod 10 connected with the roller 9, that is, when the roller 9 or the connecting frame is damaged, the connection between one of the blocking blocks 13 and the fixing block 14 can be released, the blocking block 13 is removed from the end of the guide rail 8, the roller 9 is removed, then the new roller 9 structure is replaced, and finally the opening is blocked by the blocking block 13 and the opening is connected with the fixing block 14.

In some embodiments, as shown in fig. 1, the block 13 is provided with a rubber block 15 at one end inside the guide rail 8, and because the roller 9 is influenced by gravity and the inclination of the solar panel 5, there is a motion in a direction with a low inclination, the purpose of the block 15 is to buffer the motion to the maximum stroke, so as to avoid hard collision.

As shown in fig. 4 and 5, in some embodiments, the housing of the monitor 3 is provided with a hinge seat 16, the servo motor 4 is installed on the hinge seat 16, the solar panel 5 is provided with a connecting seat 17, an output shaft of the servo motor 4 is connected with a mounting post 18, the mounting post 18 is provided with threads and a notch 19, the connecting seat 17 is sleeved on the mounting post 18 in a clamping manner and locked by a nut, the solar panel 5 is detachably installed, and the connecting seat 17 is provided with a protrusion inserted in the notch 19, so that when the servo motor 4 drives the connecting seat 17 to rotate, the solar panel 5 rotates together.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. The utility model provides a supervisory equipment's solar energy structure, includes mount pad (1) and connects monitor (3) on mount pad (1) through adjusting seat (2), a serial communication port, be connected with solar panel (5) on monitor (3) shell through servo motor (4), servo motor (4) drive solar panel (5) are with the tie point arc motion, in order to adjust inclination of solar panel (5), use the tie point to be the symmetry axis on solar panel (5), two illumination sensor (6) are installed to the symmetry, illumination sensor (6) with servo motor (4) with monitor (3) built-in mainboard electric connection, install on solar panel (5) rather than movable fit's clean board (7), when solar panel (5) are in the inclination, clean board (7) is by the one end that the gradient is high to the one end that the gradient is low.

2. Solar structure of a monitoring device according to claim 1, characterized in that the solar panel (5) is provided with guide rails (8) on both sides thereof, rollers (9) are fitted in the guide rails (8) in a rolling manner, connecting rods (10) are mounted on the shafts of the rollers (9), and the cleaning plate (7) is mounted on both connecting rods (10).

3. Solar structure of a monitoring device according to claim 2, characterized in that the connecting rod (10) is provided with a plugging groove (11), both ends of the cleaning plate (7) are provided with plugging blocks (12), and the plugging blocks (12) are plugged into the plugging groove (11) to form the installation state of the cleaning plate (7).

4. A solar structure of a monitoring device according to claim 3, characterized in that the cross-section of the plug-in groove (11) and the plug-in block (12) is dovetail-shaped.

5. Solar structure of a monitoring device according to claim 2, characterized in that the outer peripheral side of the solar panel (5) is provided with a fixed block (14), the guide rail (8) being mounted on the fixed block (14) by means of bolts.

6. The solar structure of the monitoring equipment according to claim 5, wherein both ends of the guide rail (8) are open, a blocking block (13) for blocking the opening is inserted into the open end, and the blocking block (13) is connected with the fixed block (14) through a bolt.

7. Solar structure of a monitoring device according to claim 6, characterized in that the end of the block (13) inside the guide rail (8) is fitted with a rubber block (15).

8. The solar structure of the monitoring device according to claim 1, wherein a hinge seat (16) is installed on the casing of the monitor (3), the servo motor (4) is installed on the hinge seat (16), a connecting seat (17) is installed on the solar panel (5), an output shaft of the servo motor (4) is connected with a mounting column (18), threads and notches (19) are formed on the mounting column (18), and the connecting seat (17) is clamped and sleeved on the mounting column (18) and locked through nuts.