CN216611643U - Wind-powered electricity generation photovoltaic fault detection patrols and examines unmanned aerial vehicle with intelligence - Google Patents

Abstract

The utility model discloses an intelligent inspection unmanned aerial vehicle for wind power photovoltaic fault detection, which comprises an inspection unmanned aerial vehicle, a tool box, a honeycomb groove, an air bag sleeve, an air nozzle and a box cover, wherein the tool box is embedded in the top of the inspection unmanned aerial vehicle, the honeycomb groove is partitioned by a partition plate in the tool box, the air bag sleeve is embedded in the honeycomb groove, and the air nozzle is arranged at the top of the air bag sleeve. Whole wind-powered electricity generation photovoltaic fault detection patrols and examines unmanned aerial vehicle with intelligence and uses nimble convenient, when personnel utilize to patrol and examine unmanned aerial vehicle and fly the shooting and patrol and examine troubleshooting, can be for the missed repair instrument or the part etc. of high altitude maintenance operation personnel delivery to when personnel carry out high altitude construction on power equipment such as wind-powered electricity generation photovoltaic, need not to climb again and climb down and can realize the replenishment to instrument part or meal, greatly increased personnel's convenience of operation has higher practicality.

Description

Wind-powered electricity generation photovoltaic fault detection patrols and examines unmanned aerial vehicle with intelligence

Technical Field

The utility model relates to the technical field of unmanned aerial vehicles, in particular to an intelligent inspection unmanned aerial vehicle for wind power photovoltaic fault detection.

Background

Along with the continuous development of economy and science and technology, various power systems are also improved, in recent years, the application range of the unmanned aerial vehicle in the power systems is wider and wider, the effective application of the unmanned aerial vehicle promotes the sustainable development of the power industry, and most machine types can realize fixed-point hovering, so that more detailed and deeper video analysis can be performed on suspected hidden dangers or fault points, and a large amount of labor cost is saved.

And present unmanned aerial vehicle for patrolling and examining can only generally be used for shooting to patrol and examine, appear examining and repairing tool missing or food and lack when the personnel that face high altitude maintenance operation, current unmanned aerial vehicle does not have the convenient characteristics of can providing instrument support to high altitude construction personnel based on its flight, lacks and to provide stably sending out parking space mechanism to reserve instrument. Therefore, the intelligent routing inspection unmanned aerial vehicle for wind power photovoltaic fault detection is provided.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide an intelligent inspection unmanned aerial vehicle for wind power photovoltaic fault detection, which can effectively solve the problems in the background technology.

In order to achieve the purpose, the utility model adopts the technical scheme that:

the utility model provides an unmanned aerial vehicle is patrolled and examined with intelligence to wind-powered electricity generation photovoltaic fault detection, includes patrols and examines unmanned aerial vehicle, tool holder and honeycomb groove, still includes gasbag cover, air cock and lid, it inlays and is equipped with the tool holder to patrol and examine the interior top of unmanned aerial vehicle, it has the honeycomb groove to separate through the baffle in the tool holder, the embedded gasbag cover that is equipped with in honeycomb groove, gasbag cover top is equipped with the air cock.

Furthermore, a threaded connector is arranged at an opening at the top of the tool box, a box cover is arranged on the threaded connector of the tool box in a threaded cover mode, the top of the box cover is in a bulge shape, and inner hexagonal grooves are formed in two sides of the box cover respectively.

Furthermore, the periphery of the airbag sleeve is connected with the inner wall of the honeycomb groove in an adhesive manner.

Further, the toolbox inserts department adhesive bonding with the unmanned aerial vehicle of patrolling and examining, baffle and toolbox inner wall adhesive bonding.

Further, patrol and examine unmanned aerial vehicle bottom both sides and install U type supporting legs through the bolt respectively, U type supporting legs bottom cover is equipped with the rubber sleeve, the rubber sleeve inner wall is glued with U type supporting legs and is established the connection.

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

1. personnel pass through the tool holder, the honeycomb groove, the gasbag cover, the subassembly that air cock and lid are constituteed, realize providing the instrument parking space of patrolling and examining for patrolling and examining unmanned aerial vehicle, thereby when personnel utilize patrolling and examining unmanned aerial vehicle and fly the shooting and patrol and examine troubleshooting, can be for high altitude maintenance operation personnel to deliver the maintenance instrument or the part etc. of missing, place instrument part or meal in between the gasbag cover in honeycomb groove, utilize the extrusion of gasbag cover, can increase rocking of instrument part or meal in the honeycomb inslot, in the stability that protection instrument part or meal were deposited, can avoid instrument part or meal to appear the displacement phenomenon of slowing down because of the conversion of flight angle, thereby guaranteed to patrol and examine the stability that unmanned aerial vehicle flies.

2. The air tap can be used for blowing air to the air bag sleeve, thereby changing the expansion degree of the air bag sleeve, being suitable for storing and using tools with various specifications and sizes, after the tools are stored in the honeycomb groove, a person covers the threaded connector of the tool box by the box cover to realize the protection of the tool box, and the bulge-shaped box cover is arranged, can reduce the wind resistance of the unmanned aerial vehicle, the intelligent routing inspection unmanned aerial vehicle for detecting the whole wind power photovoltaic fault is flexible and convenient to use, when personnel use the inspection unmanned aerial vehicle to carry out flight shooting inspection fault troubleshooting, missing repair tools or parts and the like can be distributed for high-altitude maintenance operation personnel, therefore, when the personnel carry out high-altitude operation on electric equipment such as wind power photovoltaic equipment, the tool parts or the meal can be supplemented without climbing up and down, the convenience of the operation of the personnel is greatly increased, and the high practicability is achieved.

Drawings

Fig. 1 is a schematic diagram of the overall structure of an intelligent inspection unmanned aerial vehicle for wind power photovoltaic fault detection.

Fig. 2 is a schematic structural diagram of an inspection unmanned aerial vehicle of the intelligent inspection unmanned aerial vehicle for wind power photovoltaic fault detection.

Fig. 3 is a schematic diagram of a honeycomb groove structure of the intelligent routing inspection unmanned aerial vehicle for wind power photovoltaic fault detection.

Fig. 4 is a schematic structural diagram of a U-shaped supporting leg of the intelligent routing inspection unmanned aerial vehicle for wind power photovoltaic fault detection.

Fig. 5 is an enlarged schematic diagram of a point a in fig. 1 of the intelligent inspection unmanned aerial vehicle for wind power photovoltaic fault detection.

In the figure: 1. inspecting the unmanned aerial vehicle; 2. a tool box; 3. a honeycomb groove; 4. an air bag cover; 5. an air tap; 6. a threaded interface; 7. a box cover; 8. an inner hexagonal groove; 9. u-shaped supporting legs; 10. a rubber sleeve; 11. a separator.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the utility model easy to understand, the utility model is further described with the specific embodiments.

As shown in fig. 1-5, an unmanned aerial vehicle is patrolled and examined with intelligence to wind-powered electricity generation photovoltaic fault detection, including patrolling and examining unmanned aerial vehicle 1, tool holder 2 and honeycomb groove 3, still include gasbag cover 4, air cock 5 and lid 7, it inlays at unmanned aerial vehicle 1 internal top and is equipped with tool holder 2 to patrol and examine, it has honeycomb groove 3 to separate through baffle 11 in the tool holder 2, 3 embedded gasbag covers 4 that are equipped with in honeycomb groove, 4 tops of gasbag cover are equipped with air cock 5.

The tool box comprises a tool box 2, a threaded connector 6, a box cover 7, a bulge-shaped box cover 7 and hexagonal grooves 8, wherein the threaded connector 6 is arranged at the opening of the top of the tool box 2, the box cover 7 is in a threaded cover on the threaded connector 6 of the tool box 2, and the two sides of the box cover 7 are respectively provided with the hexagonal grooves 8; the inner hexagonal groove 8 is convenient for personnel to break off the box cover 7 through a hexagonal wrench, so that the hand slipping is avoided, and the box cover 7 cannot be well rotated.

Wherein, the periphery of the air bag sleeve 4 is connected with the inner wall of the honeycomb groove 3 by glue; the air bag sleeve 4 is used for protecting and damping articles placed in the honeycomb groove 3.

The tool box 2 is connected with the inserting part of the inspection unmanned aerial vehicle 1 in an adhesive manner, and the partition plate 11 is connected with the inner wall of the tool box 2 in an adhesive manner; the tool box 2 is used for providing a tool storage space for the inspection unmanned aerial vehicle 1.

The inspection unmanned aerial vehicle comprises an inspection unmanned aerial vehicle 1, a rubber sleeve 10, a U-shaped supporting foot 9, a bolt and a bolt, wherein the U-shaped supporting foot 9 is sleeved at the bottom of the U-shaped supporting foot 9, and the inner wall of the rubber sleeve 10 is connected with the U-shaped supporting foot 9 in an adhesive mode; the rubber sleeve 10 can increase the anti-skid effect of the U-shaped supporting foot 9.

It should be noted that, the utility model is an intelligent inspection unmanned aerial vehicle for wind power photovoltaic fault detection, when in use, aiming at the operation requirement of wind power photovoltaic, standby tool parts or meal are stored in the inspection unmanned aerial vehicle 1, so that when personnel carry out high-altitude operation on power equipment such as wind power photovoltaic, the tool parts or meal can be supplemented without climbing up and down, the convenience of personnel operation is greatly increased, when in placement, the personnel place the tool parts or meal between the air bag sleeves 4 of the honeycomb groove 3, the shaking of the tool parts or meal in the honeycomb groove 3 can be increased by utilizing the extrusion of the air bag sleeves 4, the displacement slow-motion phenomenon of the tool parts or meal caused by the conversion of the flight angle can be avoided while the stability of the tool parts or meal storage is protected, the stability of the flight of the inspection unmanned aerial vehicle 1 is ensured, and the personnel can utilize the air nozzle 5 to blow air to the air bag sleeves 4, thereby change the inflation degree of gasbag cover 4 to be applicable to the instrument of multiple specification size and deposit the use, after 3 interior instruments of honeycomb groove are deposited, personnel cover lid 7 lid to the hickey 6 of tool holder 2 and establish, realize covering tool holder 2 and establish defences, and the setting of the lid 7 of swell form can reduce unmanned aerial vehicle's windage.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (5)

1. The utility model provides an unmanned aerial vehicle is patrolled and examined with intelligence to wind-powered electricity generation photovoltaic fault detection, includes patrols and examines unmanned aerial vehicle (1), tool holder (2) and honeycomb groove (3), its characterized in that still includes gasbag cover (4), air cock (5) and lid (7), it inlays at unmanned aerial vehicle (1) interior top and is equipped with tool holder (2) to patrol and examine, it has honeycomb groove (3) to separate through baffle (11) in tool holder (2), the embedded gasbag cover (4) that is equipped with in honeycomb groove (3), gasbag cover (4) top is equipped with air cock (5).

2. The intelligent inspection unmanned aerial vehicle for wind power photovoltaic fault detection according to claim 1, wherein: the tool box is characterized in that a threaded connector (6) is arranged at the top opening of the tool box (2), a box cover (7) is arranged on the threaded connector (6) of the tool box (2) in a threaded cover mode, the top of the box cover (7) is in a bulge shape, and inner hexagonal grooves (8) are formed in two sides of the box cover (7) respectively.

3. The intelligent inspection unmanned aerial vehicle for wind power photovoltaic fault detection according to claim 1, wherein: the periphery of the air bag sleeve (4) is connected with the inner wall of the honeycomb groove (3) in an adhesive manner.

4. The intelligent inspection unmanned aerial vehicle for wind power photovoltaic fault detection according to claim 1, wherein: tool holder (2) and patrol and examine unmanned aerial vehicle (1) and insert a sticky connection of department, baffle (11) and tool holder (2) inner wall sticky connection.

5. The intelligent inspection unmanned aerial vehicle for wind power photovoltaic fault detection according to claim 1, wherein: patrol and examine unmanned aerial vehicle (1) bottom both sides and install U type supporting legs (9) through the bolt respectively, U type supporting legs (9) bottom cover is equipped with rubber sleeve (10), rubber sleeve (10) inner wall is glued with U type supporting legs (9) and is established the connection.

Images