CN220067523U - Wind power generation intelligent inspection device - Google Patents

Abstract

The utility model provides a wind power generation intelligent inspection device which comprises a device main body, wherein a control device is arranged in the device main body, a driving device is arranged at the bottom of the device main body, an external connection rod is inserted into a connection cavity of the external connection rod, then a control command is transmitted to the control device in the device through a remote control device or a control switch, a processor receives the control command and then transmits the control command to an A-side electric push rod and a B-side electric push rod, the A-side electric push rod and the B-side electric push rod enter an external connection rod through hole, when holographic image acquisition is not needed, a processor in the control device transmits a control signal to the A-side electric push rod and the B-side electric push rod, the A-side electric push rod and the B-side electric push rod withdraw from the external connection rod through hole, and the external connection rod is taken out, so that the problem that flexible installation and use on wind power equipment intelligent inspection equipment cannot be realized by the conventional holographic image camera is solved.

Description

Wind power generation intelligent inspection device

Technical Field

The utility model relates to the technical field of wind power inspection equipment, in particular to an intelligent inspection device for wind power generation.

Background

With the development of wind power technology, wind power intelligent inspection equipment is increasingly used, and the wind power intelligent inspection equipment is used for inspecting outdoor wind power equipment, and the inspection mode is that video data of wind power equipment operation conditions are collected and then transmitted to a remote control terminal, and the remote control terminal performs data processing analysis on the data collected by the wind power inspection equipment. The wind power inspection intelligent device is used for acquiring video data through a video acquisition terminal, such as a camera, in the inspection process.

At present in wind-powered electricity generation field, operating personnel begin to adopt VR or AR wear-type equipment as video display device, operating personnel wear VR or AR wear-type equipment, carry out holographic video acquisition through wind-powered electricity generation intelligence inspection equipment, current holographic image's video acquisition is through holographic image camera, current holographic image camera adopts people to carry on the back or handheld mode to carry out video acquisition, or fix on wind-powered electricity generation intelligence inspection equipment, people carry on the back and show holographic image camera and are not feasible in wind-powered electricity generation field, wind-powered electricity generation equipment is located in suburban mountain area each other and is far away from, people carry on the back or handheld holographic image camera is very big to human power consumption, fix holographic image camera on wind-powered electricity generation inspection intelligent equipment, but not all scenes need carry out holographic image's collection, all fix holographic image camera can influence the operation of inspecting intelligent equipment on wind-powered electricity generation inspection equipment, for example, because the holographic image camera is installed, wind-powered electricity generation intelligence inspection equipment windage increase, lead to leading to the fact the electric energy consumption of the device to be great, current holographic image camera can not realize the realization and patrol the intelligent equipment and use this intelligent power generation equipment to examine.

Disclosure of Invention

The utility model aims to provide a wind power generation intelligent inspection device, which solves the problem that the conventional holographic image camera cannot be flexibly installed and used on intelligent inspection equipment of wind power equipment.

The utility model provides a wind power generation intelligent inspection device which comprises a device main body, wherein a control device is arranged in the device main body, a driving device is arranged at the bottom of the device main body, a video acquisition camera is arranged at the top of the device main body, the control device is respectively and electrically connected with the driving device and the video acquisition camera, the wind power generation intelligent inspection device is characterized in that one side of the device main body is provided with a lens anti-collision baffle slot, the other side of the device main body is provided with an external connection rod connecting cavity, a lens anti-collision baffle is inserted into the lens anti-collision baffle slot, the device main body is positioned at the outer wall of the lens anti-collision baffle slot, an air deflector is arranged at the bottom end in the external connection rod connecting cavity, a side electric push rod is arranged at the inner wall of one side of the external connection rod connecting cavity, an external connection rod is arranged at the inner side of the A side electric push rod and the B side electric push rod, a rotating motor is arranged at the top of the external connection rod, a first guide plate is arranged at the side wall of the rotating motor, a video acquisition device is arranged at the top of the first guide plate, a panoramic switch is arranged at the top of the control rod, and the control rod is connected with the control rod and the control rod.

Preferably, the external connecting rod is provided with an external connecting rod through hole.

Preferably, the end protruding connecting rod is installed to the side A electricity push rod end, the end recess connecting rod is installed to side B electricity push rod end, protruding connecting rod with the recess connecting rod is connected, protruding connecting rod with recess connecting rod hookup location is located inside the external pole through-hole, protruding connecting rod with the recess connecting rod matches.

Preferably, the second baffle bracing piece is installed at camera lens anticollision baffle top, traction wire rotating device is installed at second baffle bracing piece top, first baffle with install the second baffle between the second baffle bracing piece, panoramic image video acquisition equipment lateral wall is provided with the traction wire couple, the traction wire couple with be connected with the traction wire between the traction wire rotating device.

Preferably, the second guide plate and the top of the first guide plate are both provided with slide ways, the bottom of the panoramic image video acquisition device is provided with a moving pulley of the panoramic image video acquisition device, and the moving pulley of the panoramic image video acquisition device is matched with the slide ways.

Preferably, the outer wall of the air deflector is arc-shaped, and the lens anti-collision baffle is provided with a lens anti-collision baffle through hole at the edge of the air deflector.

The utility model has the following beneficial effects: the utility model provides a wind power generation intelligent inspection device, which is characterized in that when panoramic image data acquisition is needed, an external rod is inserted into a connecting cavity of the external rod, then a control command is transmitted to a control device in the device through a remote control device or a control switch, a processor receives the control command and transmits the control command to an A-side electric push rod and a B-side electric push rod, the A-side electric push rod and the B-side electric push rod enter an external rod through hole, the A-side electric push rod and the B-side electric push rod play a role in fixing the external rod, a first guide plate is arranged on a rotating motor, the rotating motor is arranged on the top of the external rod, panoramic image video acquisition equipment is electrically connected with the control device, the panoramic image video acquisition equipment transmits the acquired holographic image to the control device to complete data acquisition of the holographic image, and when the holographic image acquisition is not needed, the processor in the control device transmits the control signal to the A-side electric push rod and the B-side electric push rod, and the A-side electric push rod and the B-side electric push rod exit from the external rod through hole, so that the flexible installation and use of the traditional holographic image pickup head on the intelligent inspection equipment are not realized.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram of a cross-sectional structure of a front view of a wind power generation intelligent inspection device.

Fig. 2 is a schematic diagram of the appearance structure of a front view of the intelligent inspection device for wind power generation.

Fig. 3 is a schematic structural diagram of the part a in fig. 1 provided by the present utility model.

Fig. 4 is a schematic structural diagram of the b in fig. 1 provided by the present utility model.

Fig. 5 is a schematic structural diagram of the wind power generation intelligent inspection device provided by the utility model after a second guide plate is installed.

Fig. 6 is a schematic structural diagram of fig. 5 c according to the present utility model.

Fig. 7 is an illustration of an external lever according to the present utility model.

Illustration of: 1. the device comprises a device main body, 2, a video acquisition camera, 3, a control device, 4, a control switch, 5, a lens anti-collision baffle, 6, an air deflector, 7, a driving device, 8, device wheels, 9, an external rod connecting cavity, 10, an external rod, 11, a first guide plate, 12, a rotating motor, 13, panoramic image video acquisition equipment, 14, a second guide plate, 15, a traction wire, 16, a second guide plate supporting rod, 19, a backing plate, 20, an A side electric push rod, 21, a B side electric push rod, 22, an end socket connecting rod, 23, an end protrusion connecting rod, 24, a lens anti-collision baffle slot, 25, an external rod through hole, 26 and a traction wire rotating device.

Detailed Description

As shown in fig. 1 to 7, the embodiment of the utility model provides a device comprising a device main body 1, wherein a control device 3 is installed inside the device main body 1, a driving device 7 is installed at the bottom of the device main body 1, a video acquisition camera 2 is installed at the top of the device main body 1, and the control device 3 is electrically connected with the driving device 7 and the video acquisition camera 2 respectively. It should be noted that the above-mentioned content is prior art, and wind-powered electricity generation intelligence inspection equipment adopts motorcycle type robot mode, carries out video acquisition through the camera, and after the information that will gather was handled through the treater in the controlling means, wireless signal data transmission module transmitted data to remote control terminal, transmits the execution command to wind-powered electricity generation intelligence inspection equipment through remote control terminal or through predetermining the procedure wind-powered electricity generation intelligence inspection equipment automatic operation in handling.

The lens anti-collision baffle slot 24 is arranged on one side of the device main body 1, the lens anti-collision baffle slot 24 can be used for blocking objects to prevent the objects from colliding with the device main body 1 or the lens, the other side of the device main body 1 is provided with the external rod connecting cavity 9, the external rod connecting cavity 9 is an important design of the utility model, the external rod connecting cavity 9 is used for connecting subsequent external parts after being designed, the lens anti-collision baffle slot 24 is internally inserted with the lens anti-collision baffle 5, the lens anti-collision baffle 5 can avoid the collision of the lens, the bottom of the lens anti-collision baffle 5 is provided with a groove to be inserted with the bulge at the bottom of the lens anti-collision baffle slot 24, the outer wall of the side of the device main body 1, which is positioned on the lens anti-collision baffle slot 24, is provided with the air deflector 6, the bottom inside the external rod connecting cavity 9 is provided with the backing plate 19, the backing plate 19 can be made of soft materials for buffering the impact force of the extension rod 10 to the extension rod connecting cavity 9 in the inserting process, an A-side electric push rod 20 is arranged on the inner wall of one side of the extension rod connecting cavity 9, a B-side electric push rod 21 is arranged on the inner wall of the other side of the extension rod connecting cavity 9, the extension rod 10 is arranged on the outer rod connecting cavity 9 and positioned between the A-side electric push rod 20 and the B-side electric push rod 21, a rotating motor 12 is arranged at the top of the outer rod 10, a first guide plate 11 is arranged on the side wall of the rotating motor 12, the rotating motor 12 can drive the first guide plate 11 to rotate, the rotating motor 12 is electrically connected with the control device 3, the control device 3 or the control switch 4 can control the rotating motor 12 to rotate, a panoramic image video acquisition device 13 is arranged at the top of the first guide plate 11, the control switch 4 is arranged on the side of the outer rod connecting cavity 9 at the top of the device main body 1, the control device 3 is electrically connected to the control switch 4, the rotating electric machine 12, the a-side electric putter 20, and the B-side electric putter 21.

Specifically, the external connection rod 10 is provided with an external connection rod through hole 25.

The groove connecting rod 22 and the protrusion connecting rod 23 enter the external connecting rod through hole 25 under the pushing action force. The number of the external connecting rod through holes 25 is two, the number of the groove connecting rods 22 and the protruding connecting rods 23 is also two, a group of cases are designed and used in the actual research and development process, but the external connecting rod 10 can shake in the actual use, so the design of the two groups of groove connecting rods 22, the protruding connecting rods 23 and the two external connecting rod through holes 25 is adopted, and the stability of the external connecting rod 10 is facilitated.

Specifically, the end protruding connecting rod 23 is installed to the end of the side A electric push rod 20, the end groove connecting rod 22 is installed to the end of the side B electric push rod 21, protruding connecting rod 23 with groove connecting rod 22 is connected, protruding connecting rod 23 with groove connecting rod 22 connected position is located outside the pole through-hole 25 is inside, protruding connecting rod 23 with groove connecting rod 22 matches.

The protruding connecting rod 23 is pushed into the external connecting rod through hole 25 by the side A electric push rod 20, the side B electric push rod 21 pushes the groove connecting rod 22 into the external connecting rod through hole 25, the protruding of the protruding connecting rod 23 is inserted into the groove of the groove connecting rod 22 to realize connection, and the connected protruding connecting rod 23 and the groove connecting rod 22 play a fixing role on the external connecting rod 10.

Specifically, the second baffle support rod 16 is installed at the top of the lens anti-collision baffle 5, the traction wire rotating device 26 is installed at the top of the second baffle support rod 16, the second baffle 14 is installed between the first baffle 11 and the second baffle support rod 16, the side wall of the panoramic image video acquisition equipment 13 is provided with a traction wire hook, and a traction wire 15 is connected between the traction wire hook and the traction wire rotating device 26.

The traction wire hook is in the prior art, the traction wire hook is designed into an annular hook, the annular hook is used for being connected with the traction wire 15, and the traction wire rotating device 26 drives the traction wire 15 to drive the panoramic image video acquisition equipment 13 on the traction wire hook to move, and the panoramic image video acquisition equipment 13 moves on a slideway through a pulley at the bottom.

Specifically, the tops of the second guide plate 14 and the first guide plate 11 are both provided with a slideway, the bottom of the panoramic image video acquisition device 13 is provided with a panoramic image video acquisition device moving pulley, and the panoramic image video acquisition device moving pulley is matched with the slideway.

The pulley additionally arranged on the panoramic image video acquisition equipment 13 is a common technical scheme in the prior art, a fixed base is arranged at the bottom of the panoramic image video acquisition equipment 13, then a rotating rod is additionally arranged on the fixed base, and the pulley is arranged on the rotating rod.

Specifically, the outer wall of the air deflector 6 is arc-shaped, and the lens anti-collision baffle 5 is positioned at the edge of the air deflector 6 and is provided with a lens anti-collision baffle through hole.

Wind blows on the arcwall face of aviation baffle 6, and the arcwall face can be used to guide wind to the peripheral region of arcwall face, plays the effect of reducing the windage to the device is whole, and the border position of aviation baffle 6 is close to with the lens anticollision baffle through-hole on the lens anticollision baffle 5, and the wind under the arcwall face guide of aviation baffle 6 passes through the lens anticollision baffle through-hole.

The application method of the intelligent inspection device for wind power generation comprises the following steps that when panoramic image data acquisition is needed, an outer connecting rod 10 is inserted into an outer connecting rod connecting cavity 9, then a control command is transmitted to a control device 3 in the device through a remote control device or a control switch, a processor receives the control command and transmits the control command to an A-side electric push rod 20 and a B-side electric push rod 21, the A-side electric push rod 20 and the B-side electric push rod 21 enter an outer connecting rod through hole 25, the A-side electric push rod 20 and the B-side electric push rod 21 play a fixed role on the outer connecting rod 10, then a first guide plate 11 is installed on a rotating motor 12, the rotating motor 12 is installed at the top of the outer connecting rod 10, the installation mode can be plug-in connection and screw-connection mode, the connection mode is the prior art, detailed description is omitted, then the panoramic image video acquisition device 13 is electrically connected with the control device 3, the holographic image is transmitted to the control device 3, when holographic image acquisition is not needed, the processor in the control device 3 sends control signals to the A-side electric push rod 20 and the B-side electric push rod 21, the B-side electric push rod 21 and the intelligent inspection device can be flexibly installed on the outer connecting rod 10, and the problem of the intelligent inspection device can be solved.

The utility model also comprises a using method, in order to meet different using scenes, the utility model designs a design that the second guide plate 14 is arranged on the second guide plate supporting rod 16 in the research and development process, the second guide plate supporting rod 16 is arranged on the lens anti-collision baffle 5, the installation mode can adopt screw connection or plug connection and welding, the connection mode is the prior art, the first guide plate and the second guide plate 14 are both provided with sliding ways, the pulleys at the bottom of the panoramic image video acquisition device 13 are arranged in the sliding ways, the traction wire rotating device 26 drives the traction wire 15 so as to drive the panoramic image video acquisition device 13 on the traction wire hook to move, and the panoramic image video acquisition device 13 moves on the sliding ways through the pulleys at the bottom.

The utility model is characterized in that the wind blows on the arc-shaped surface of the air deflector 6, the arc-shaped surface can guide the wind to the peripheral area of the arc-shaped surface, the wind resistance of the whole device is reduced, the edge position of the air deflector 6 is close to the through hole of the lens anti-collision baffle on the lens anti-collision baffle 5, and the wind guided by the arc-shaped surface of the air deflector 6 passes through the through hole of the lens anti-collision baffle, so that the resistance of the wind is reduced.

The above description is only of the preferred embodiments of the present utility model and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. 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 (6)

1. The utility model provides a wind power generation intelligence inspection device, its characterized in that, including device main part (1), device main part (1) internally mounted has controlling means (3), drive arrangement (7) are installed to device main part (1) bottom, video acquisition camera (2) are installed at device main part (1) top, controlling means (3) respectively with drive arrangement (7) and video acquisition camera (2) electricity are connected, device main part (1) one side is provided with camera lens anticollision baffle slot (24), device main part (1) opposite side is provided with external pole connection cavity (9), peg graft in camera lens anticollision baffle slot (24) has camera lens anticollision baffle (5), device main part (1) are located camera lens anticollision baffle slot (24) side outer wall is installed aviation baffle (6), external pole connection cavity (9) inside bottom is provided with backing plate (19), external pole connection cavity (9) one side inner wall is installed A side electricity push rod (20), external pole connection cavity (9) opposite side inner wall is installed B side electricity push rod (21), internal connection pole (21) are located outside push rod (20) electricity side is installed with push rod (20), a rotating motor (12) is arranged at the top of the external connecting rod (10), a first guide plate (11) is arranged on the side wall of the rotating motor (12), panoramic image video acquisition equipment (13) is arranged at the top of the first guide plate (11), and a control switch (4) is arranged at the top of the device main body (1) and positioned at the side of the external connecting rod connecting cavity (9);

the control device (3) is electrically connected with the control switch (4), the rotating motor (12), the A-side electric push rod (20) and the B-side electric push rod (21).

2. The intelligent inspection device for wind power generation according to claim 1, wherein the external connection rod (10) is provided with an external connection rod through hole (25).

3. The intelligent inspection device for wind power generation according to claim 2, wherein an end protrusion connecting rod (23) is installed at the end of the side a electric push rod (20), an end groove connecting rod (22) is installed at the end of the side B electric push rod (21), the protrusion connecting rod (23) is connected with the groove connecting rod (22), the connection position of the protrusion connecting rod (23) and the groove connecting rod (22) is located inside the external connecting rod through hole (25), and the protrusion connecting rod (23) is matched with the groove connecting rod (22).

4. The intelligent inspection device for wind power generation according to claim 1, wherein a second guide plate supporting rod (16) is installed at the top of the lens anti-collision baffle (5), a traction wire rotating device (26) is installed at the top of the second guide plate supporting rod (16), a second guide plate (14) is installed between the first guide plate (11) and the second guide plate supporting rod (16), a traction wire hook is arranged on the side wall of the panoramic image video acquisition equipment (13), and a traction wire (15) is connected between the traction wire hook and the traction wire rotating device (26).

5. The intelligent tour inspection device for wind power generation according to claim 4, wherein the second guide plate (14) and the top of the first guide plate (11) are respectively provided with a slide way, the panoramic image video capturing device (13) is installed at the bottom of the panoramic image video capturing device moving pulley, and the panoramic image video capturing device moving pulley is matched with the slide way.

6. The intelligent inspection device for wind power generation according to claim 1, wherein the outer wall of the wind deflector (6) is arc-shaped, and the lens anti-collision baffle (5) is provided with a lens anti-collision baffle through hole at the edge position of the wind deflector (6).