1. The utility model provides a transformer substation tours inspection device, is including removing the frame and making a video recording the assembly, its characterized in that, the assembly of making a video recording includes the shell and makes a video recording the group, the shell with the upper end of removing the frame is connected, is equipped with a plurality of camera groups in the shell, and all camera groups are the circumference and distribute, and the group of making a video recording includes first camera and second camera, and first camera level sets up, and the top of first camera is located to the second camera, and second camera tilt up sets up, and the shell is equipped with the first side opening that is used for exposing first camera and the second side opening that is used for exposing the second camera.

2. The substation inspection tour apparatus according to claim 1, wherein the camera assembly further includes a swing mechanism, the swing mechanism includes a swing driving member, a swing main shaft, a swing auxiliary shaft, a swing main gear, and a swing auxiliary gear, the housing includes a swing main shaft, a swing driving member for driving the swing main shaft to rotate, and a swing auxiliary shaft, the swing main shaft and the swing auxiliary shaft are both rotatably connected to the housing, the swing main gear is disposed on the swing main shaft, the swing auxiliary gear is disposed on the swing auxiliary shaft, the swing auxiliary gear is disposed with the camera groups, and all the camera groups are distributed along an outer circumference of the swing main gear.

3. The substation inspection tour device according to claim 2, wherein the first camera is provided with a first guard band for shielding the first side hole, the first guard band is provided with a first avoiding hole for cooperating with the first camera, the second camera is provided with a second guard band for shielding the second side hole, and the second guard band is provided with a second avoiding hole for cooperating with the second camera.

4. The substation patrol inspection device according to claim 3, wherein a lighting device is provided on the housing.

5. The substation inspection tour device according to claim 4, wherein a warning device is provided on the housing.

6. The substation inspection tour device according to any one of claims 1 to 5, wherein the moving rack comprises a support rod, a base, and a traveling mechanism, which are connected in sequence from top to bottom, the upper end of the support rod is provided with the housing, the lower end of the base is provided with a plurality of traveling mechanisms, the traveling mechanism comprises a vertical shaft, a wheel rack, traveling wheels, and a traveling driving member, the upper end of the vertical shaft is rotatably connected with the base, the lower end of the vertical shaft is provided with the wheel rack, the wheel rack is rotatably connected with the traveling wheels, and the wheel rack is provided with a traveling driving member for driving the traveling wheels to rotate.

7. The substation inspection tour apparatus according to claim 6, wherein the moving rack further comprises a steering mechanism, the steering mechanism comprises a steering driving member, a steering main gear, and a steering pinion, the lower end of the base is provided with the steering main gear and a steering driving member for driving the steering main gear to rotate, the vertical shaft is provided with the steering pinion, the steering pinions on the vertical shafts in all the traveling mechanisms are distributed along the periphery of the steering main gear, and the steering pinions on the vertical shafts in all the traveling mechanisms are matched with the steering main gear.

8. The substation inspection tour device according to claim 7, wherein the lower end face of the base is provided with an accommodating groove, and the traveling mechanism and the steering mechanism are arranged in the accommodating groove.

Background

The transformer substation is internally provided with power equipment, and the power equipment works safely and stably and is related to the normal operation of a power grid. Chinese patent application No. 202020344354.9 discloses an automatic intelligent inspection device for a power supply and transformation station. As shown in fig. 1, the apparatus includes a mobile gantry and a camera assembly. The movable frame adopts movable box 01, and the assembly of making a video recording includes monitoring head body 02, cassette 03, drive block 04, first motor 05, bull stick 06, first fluted disc 07, second fluted disc 08, threaded rod 09, thread bush 010, branch 011, support column 012, backup pad 013. The driving block 04 can drive the clamping seat 03 to rotate in the rotating groove, and the monitoring head body 02 mounted on the clamping seat 03 can rotate along with the clamping seat 03, so that the plane range where the monitoring head body 02 is located can be monitored; when first motor 05 operation, first motor 05 drives first fluted disc 07 on bull stick 06 and the bull stick 06 and rotates, drives threaded rod 09 with the second fluted disc 08 of first fluted disc 07 meshing and rotates for with threaded rod 09 complex thread bush 010 area branch 011, support column 012, backup pad 013 go up and down together, the cassette 03 that is located in backup pad 013 can take monitoring head body 02 to go up and down together, thereby realize the regulation to monitoring head body 02's high position.

Through the process, although the monitoring head body 02 in the device can rotate in a plane and can be adjusted in vertical height, on one hand, the monitoring head body 02 can only be inspected at a horizontal angle and cannot be inspected above the monitoring head body at the same time; on the other hand, when the monitoring head body 02 observes the right ahead situation, the left side, the right side, and the rear side of the monitoring head body 02 cannot be monitored at the same time. Namely, the device has a monitoring dead angle, the monitoring range is small, and the monitoring effect is reduced.

Therefore, how to expand the monitoring angle and the monitoring range to improve the monitoring effect is a technical problem to be urgently solved by the technical personnel in the field.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides the transformer substation inspection tour device, which can enlarge the inspection angle and the inspection range to improve the inspection effect.

In order to realize the purpose, the invention provides the following technical scheme:

the utility model provides a transformer substation tours inspection device, is including removing the frame and making a video recording the assembly, the assembly of making a video recording includes the shell and makes a video recording the group, the shell with the upper end of removing the frame is connected, is equipped with a plurality of camera groups in the shell, and all camera groups are the circumference and distribute, and camera group is including first camera and second camera, and first camera level sets up, and the top of first camera is located to the second camera, and second camera tilt up sets up, and the shell is equipped with the first side opening that is used for exposing first camera and is used for exposing the second side opening of second camera.

Furthermore, the camera shooting assembly further comprises a swing mechanism, the swing mechanism comprises a swing driving piece, a swing main shaft, a swing auxiliary shaft, a swing main gear and a swing pinion, the swing main shaft, the swing driving piece and the swing auxiliary shaft are arranged in the shell and used for driving the swing main shaft to rotate, the swing main shaft and the swing auxiliary shaft are both rotatably connected with the shell, the swing main gear is arranged on the swing main shaft, the swing pinion is arranged on the swing auxiliary shaft, the swing pinion is provided with the camera shooting groups, and all the camera shooting groups are distributed along the periphery of the swing main gear.

Further, first camera is equipped with and is used for sheltering from the first guard band of first side opening, first guard band be equipped with be used for with first camera complex first keep away a hole, the second camera is equipped with and is used for sheltering from the second guard band of second side opening, the second guard band be equipped with be used for with second camera complex second keep away a hole.

Further, the shell is provided with a lighting device.

Furthermore, a warning device is arranged on the shell.

Further, the removal frame includes bracing piece, base, the running gear that from the top down connects gradually, and the upper end of bracing piece is equipped with the shell, the lower extreme of base are equipped with a plurality of running gear, and running gear includes vertical axis, wheel carrier, walking wheel, running driving spare, and the upper end and the base of vertical axis rotate to be connected, and the lower extreme of vertical axis is equipped with the wheel carrier, and the wheel carrier rotates with walking to be connected, and the wheel carrier is equipped with and is used for the walking wheel pivoted running driving spare.

Furthermore, the movable frame further comprises a steering mechanism, the steering mechanism comprises a steering driving piece, a steering main gear and a steering pinion, the lower end of the base is provided with the steering main gear and the steering driving piece used for driving the steering main gear to rotate, the vertical shaft is provided with the steering pinion, the steering pinions on the vertical shafts in all the traveling mechanisms are distributed along the periphery of the steering main gear, and the steering pinions on the vertical shafts in all the traveling mechanisms are matched with the steering main gear.

Furthermore, the lower terminal surface of base is equipped with the holding tank, is equipped with in the holding tank running gear with steering mechanism.

Compared with the prior art, the invention has the beneficial effects that:

1. on the one hand, because the second camera in the camera group inclines upward, the height of taking a picture of the second camera is greater than the height of taking a picture of the first camera, thereby can monitor taking a picture with the angle of looking up while the angle of looking up is monitored, thereby increasing the angle of taking a picture and the scope of taking a picture. On the other hand, all the camera shooting components are distributed in a circumference mode, so that the camera shooting in the front, back, left and right directions can be carried out simultaneously, and the monitoring angle and the monitoring range are increased. In conclusion, the invention can increase the monitoring angle and the monitoring range, and is beneficial to improving the monitoring effect.

In addition, compared with the mode of rotating image capture and height adjustment image capture in the background technology, because the invention can simultaneously carry out image capture monitoring of head-up angle, front-back, left-right directions, more time can be carried out for omnibearing monitoring image capture, the time for monitoring image capture is prolonged, the condition in the transformer substation can be found more timely, and the operation safety of the transformer substation is further improved.

2. According to the invention, by arranging the swing mechanism, the camera groups can swing in the horizontal plane by utilizing the swing mechanism, so that the monitoring dead angle position between two adjacent camera groups is eliminated, the monitoring angle and the monitoring range of the camera groups are further enlarged, the operation condition of power equipment in the transformer substation can be monitored in an all-around manner, and the operation safety of the transformer substation is further improved.

3. According to the invention, by arranging the first protective belt and the second protective belt, on the premise of not hindering the swinging of the first camera and the second camera, the first protective belt and the second protective belt are utilized to prevent external dust, catkin and other garbage from entering the shell from the positions of the first side hole and the second side hole, so that the sanitation of the interior of the shell is favorably kept, the number of times of cleaning the interior of the shell is reduced, the maintenance cost is saved, and after the external dust, catkin and other garbage are prevented from entering the shell from the positions of the first side hole and the second side hole, the camera assembly can be prevented from being burnt due to the inflammability of the dust, the catkin and the catkin, the service life is favorably prolonged, the use safety is improved, and the maintenance cost can be further saved.

4. According to the invention, the lighting equipment is arranged on the shell, so that the lighting equipment can be used for lighting at night or under the condition of poor light, so that the image of the camera group can be conveniently taken, and the adaptability of the embodiment to the environment is improved.

5. According to the invention, the warning equipment is arranged on the shell, so that when the camera group monitors that animals enter the transformer substation, the animals can be driven by the warning equipment, and the safety in the transformer substation is improved.

6. According to the invention, the steering mechanism is arranged in the movable frame, so that the walking directions of all the walking mechanisms can be synchronously adjusted by using the steering mechanism, the movable frame can be steered, the movable frame is not limited to move in a single direction, the flexibility of the movable frame is enlarged, a transformer substation with larger monitoring space can be monitored by steering, and the adaptability of the invention is improved.

7. According to the invention, the containing groove for containing the travelling mechanism and the steering mechanism is arranged on the lower end surface of the base, so that the travelling mechanism and the steering mechanism can be covered by the containing groove, the travelling mechanism and the steering mechanism are prevented from being easily collided and damaged due to exposure, the travelling mechanism and the steering mechanism are protected, the cost for maintaining the travelling mechanism and the steering mechanism is saved, the maintenance time is saved, the working time of the transformer substation is prolonged, the monitoring time of the transformer substation is prolonged, and the running safety of the transformer substation is improved.

Drawings

FIG. 1 is a schematic structural diagram of the prior art;

fig. 2 is a front view of a substation patrol inspection apparatus;

FIG. 3 is a top view of a substation inspection tour;

FIG. 4 is a front view of the travel mechanism;

FIG. 5 is a rear view of the travel mechanism;

FIG. 6 is a schematic structural diagram of a base and a traveling mechanism;

FIG. 7 is a schematic structural diagram of a traveling mechanism and a steering mechanism;

FIG. 8 is a schematic structural view of the base and the traveling mechanism after the direction adjustment;

FIG. 9 is a schematic view of a first camera within the housing;

fig. 10 is a schematic structural view of the first and second cameras and the swing mechanism;

FIG. 11 is a schematic structural view of a swing mechanism;

fig. 12 is a schematic diagram of a substation patrol inspection device used in a substation.

In the figure:

01-a movable box, 02-a monitoring head body, 03-a clamping seat, 04-a driving block, 05-a first motor, 06-a rotating rod, 07-a first fluted disc, 08-a second fluted disc, 09-a threaded rod, 010-a threaded sleeve, 011-a supporting rod, 012-a supporting column and 013-a supporting plate.

1-a base, 11-a containing groove,

2-traveling mechanism, 21-vertical shaft, 22-wheel carrier, 23-traveling wheel, 231-wheel shaft, 24-traveling driving piece, 241-traveling motor, 242-first chain wheel, 243-second chain wheel, 244-chain,

3-a support rod is arranged at the upper part of the frame,

4-steering mechanism, 41-steering motor, 42-steering main gear, 43-steering pinion,

5-housing, 51-warning device, 52-first side opening, 53-second side opening,

6-camera group, 61-first camera, 611-first guard band, 6111-first avoidance hole, 62-second camera, 621-second guard band, 6211-second avoidance hole,

7-oscillating mechanism, 71-oscillating drive, 711-oscillating motor, 712-worm, 713-worm gear, 72-oscillating primary shaft, 73-oscillating secondary shaft, 74-oscillating primary gear, 75-oscillating secondary gear,

8-electric power equipment.

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.

Example 1

As shown in fig. 2 to 12, the substation patrol inspection device comprises a movable frame and a camera assembly.

The movable frame is used for supporting the camera shooting assembly and carrying the camera shooting assembly to move.

As shown in fig. 2-7, the movable frame comprises a support rod 3, a base 1, a traveling mechanism 2 and a steering mechanism 4.

As shown in fig. 2, a support rod 3 is fixedly mounted on the upper end surface of the base 1, specifically, the support rod 3 may be fixed on the upper end surface of the base 1 by welding, or the support rod 3 may be fixed on the upper end surface of the base 1 by screws. The support rod 3 is used for supporting the camera shooting assembly.

As shown in fig. 6, the lower end surface of the base 1 is provided with a receiving groove 11 for receiving the running gear 2 and the steering gear 4.

Through the holding tank 11 that is used for holding running gear 2 and steering mechanism 4 in the lower terminal surface setting of base 1, can utilize holding tank 11 to cover running gear 2 and steering mechanism 4, avoid running gear 2 and steering mechanism 4 to receive easily because expose outside and collide with, so as to damage, thereby play the guard action to running gear 2 and steering mechanism 4, the cost of maintenance running gear 2 and steering mechanism 4 has been saved, the maintenance duration has been practiced thrift, be favorable to prolonging the operating time of this embodiment, thereby be favorable to prolonging when the supervision to the transformer substation, the security of transformer substation operation has been improved.

The running gear 2 is used for realizing the walking of the movable frame on the ground, the running gear 2 is provided with a plurality of running gears, in the embodiment, as shown in fig. 6, the running gear 2 is provided with four running gears, and the four running gears 2 are arranged at four corners of the accommodating groove 11 on the lower end surface of the base 1.

As shown in fig. 4 and 5, the traveling mechanism 2 includes a vertical shaft 21, a wheel carrier 22, traveling wheels 23, and a traveling drive member 24. The upper end of the vertical shaft 21 is rotatably connected with the groove bottom of the accommodating groove 11 through a bearing, the lower end of the vertical shaft 21 is fixedly installed on the upper end surface of the wheel frame 22 through welding or a screw mode, the traveling wheel 23 is installed at the lower end of the wheel frame 22 through a wheel shaft 231, the wheel shaft 231 is rotatably connected with the wheel frame 22 through a bearing, and the wheel shaft 231 is fixedly connected with the traveling wheel 23 so as to enable the traveling wheel 23 and the wheel shaft 231 to rotate together. The walking driving member 24 is used for driving the walking wheel 23 to rotate, the walking driving member 24 comprises a walking motor 241, a first chain wheel 242, a second chain wheel 243 and a chain 244, a case of the walking motor 241 is fixed on the wheel carrier 22 through a screw, the first chain wheel 242 is installed on an output shaft of the walking motor 241, the second chain wheel 243 is installed on a wheel shaft 231 of the walking wheel 23, and the first chain wheel 242 is connected with the second chain wheel 243 through the chain 244.

When the walking motor 241 operates, the output shaft of the walking motor 241 drives the first chain wheel 242 to rotate, the first chain wheel 242 drives the second chain wheel 243 to rotate through the chain 244, the second chain wheel 243 drives the axle 231 to rotate, and the axle 231 drives the walking wheel 23 to rotate. After the travelling wheels 23 rotate, the travelling mechanism 2 can walk on the ground.

As shown in fig. 6-8, the steering mechanism 4 is used to adjust the traveling directions of the four traveling mechanisms 2 uniformly, and the traveling wheels 23 of the four traveling mechanisms 2 are driven to roll in the same direction by the steering mechanism 4.

As shown in fig. 7, the steering mechanism 4 includes a steering driver, a steering main gear 42, and a steering sub-gear 43. The steering driving member adopts a steering motor 41, as shown in fig. 6, a chassis of the steering motor 41 is fixedly installed in the middle of the bottom of the accommodating groove 11 on the lower end surface of the base 1 through screws, a steering main gear 42 is installed on an output shaft of the steering motor 41, steering pinions 43 are installed on the vertical shafts 21 in the four traveling mechanisms 2, the four steering pinions 43 are uniformly distributed along the periphery of the steering main gear 42, and the four steering pinions 43 are all meshed with the steering main gear 42.

The steering mechanism 4 works as follows: when the traveling wheels 23 of the four traveling mechanisms 2 are in the state shown in fig. 6, the traveling wheels 23 can roll on the ground in the front-rear direction, so that the traveling directions of the four traveling mechanisms 2 are in the front-rear direction, when the traveling mechanisms 2 need to be moved in the left-right direction, the steering motor 41 needs to be started, the output shaft of the steering motor 41 drives the steering main gear 42 to rotate, the four steering pinions 43 engaged with the steering main gear 42 rotate synchronously, the steering pinions 43 drive the vertical shaft 21 to rotate, the vertical shaft 21 drives the wheel carrier 22 to rotate, the wheel carrier 22 drives the traveling wheels 23 to rotate, until the traveling wheels 23 rotate to the state shown in fig. 8, the steering motor 41 is stopped, and in the state shown in fig. 8, the traveling directions of the traveling wheels 23 are in the left-right direction, so that the traveling directions of the traveling mechanisms 2 are in the left-right direction.

Known through the course of operation of above-mentioned steering mechanism 4, steering mechanism 4 can realize the synchro-control to all running gear 2's walking direction, thereby can let the removal frame can turn to, no longer let the removal frame confine the unidirectional movement (can only fore-and-aft direction remove or can only the left and right directions remove for the unidirectional movement), the flexibility of removal frame has been enlarged, thereby can go to the transformer substation that the monitoring space is bigger through turning to (because multirow power equipment 8 has often been installed in the transformer substation that the space is big, as shown in fig. 12, need this embodiment to turn to many times to go to remove around power equipment 8, just can monitor comprehensively), the adaptability of this embodiment has been improved.

As shown in fig. 2 and 9-11, the camera assembly includes a housing 5, a camera group 6, and a swing mechanism 7. The shell 5 is used for accommodating the camera group 6, the camera group 6 is used for taking images of equipment in the transformer substation, and the swing mechanism 7 is used for driving the camera group 6 to swing in a horizontal plane.

As shown in fig. 2, the housing 5 is fixed to the upper end of the support bar 3 by screws.

A lighting device (not shown) is mounted on the housing 5, and in the present embodiment, the lighting device is an illumination lamp. Through setting up lighting apparatus, can utilize lighting apparatus to throw light on under the not good condition of night or light to take a photograph of 6 taking pictures of group in order to improve the adaptability of this embodiment to the environment.

As shown in fig. 2, a warning device 51 is mounted on the housing 5, and in the present embodiment, the warning device 51 employs a speaker and a warning light. Through setting up speaker and warning light, can make a video recording 6 when surveing that there is the animal to enter into in the transformer substation, drive with the CD-ROM by sound, improved the security in the transformer substation.

As shown in fig. 2 and 9, a plurality of image capturing groups 6 are provided in the housing 5, and in the present embodiment, four image capturing groups 6 are provided, and the four image capturing groups 6 are circumferentially distributed. Each of the camera groups 6 includes a first camera 61 and a second camera 62, the first camera 61 is disposed horizontally, the second camera 62 is disposed directly above the first camera 61, and the second camera 62 is disposed obliquely upward. The first camera 61 housing 5 is provided with a first side hole 52 for exposing the first camera 61 and a second side hole 53 for exposing the second camera 62.

On one hand, because the second camera 62 in the camera group 6 is disposed to be inclined upward, the image capturing height of the second camera 62 is greater than that of the first camera 61, so that the image can be captured by monitoring at the head-up angle, and the image can be captured by monitoring at the head-up angle, thereby increasing the image capturing angle and the image capturing range. On the other hand, since all the imaging groups 6 are circumferentially distributed, imaging in the front, rear, left and right directions can be performed simultaneously, and the monitoring angle and the monitoring range are increased. In conclusion, the embodiment can increase the monitoring angle and the monitoring range, and is favorable for improving the monitoring effect.

In addition, compare with the mode of getting for instance of rotating in the background art and highly adjusting and get for instance, because this embodiment can carry out the angle of looking for instance of head up, angle of looking up, all around the position simultaneously and get for instance the monitoring, so can have more times to carry out the omnidirectional and monitor and get for instance, the time of getting for instance of the monitoring of extension is favorable to discovering the condition in the transformer substation more in time, has further improved the operation security of transformer substation. For example, in 1 hour, the monitoring head body 02 in the background art rotates 1 cycle and 1 time, and then can monitor for 15 minutes in all of the front side direction, the rear side direction, the left side direction and the right side direction; if this embodiment, then can all monitor 1 hour in front side position, rear side position, left side position, right side position to the time of can monitoring getting for an image is prolonged, is favorable to discovering the condition in the transformer substation more in time, has further improved the operation security of transformer substation.

As shown in fig. 9 to 11, the swing mechanism 7 includes a swing drive 71, a swing main shaft 72, a swing sub shaft 73, a swing main gear 74, and a swing sub gear 75. As shown in fig. 11, the swing driver 71 includes a swing motor 711, a worm 712, and a worm wheel 713, a housing of the swing motor 711 is fixed to an inner wall of the housing 5 by a screw, the worm 712 is mounted on an output shaft of the swing motor 711, the worm 712 is engaged with the worm wheel 713, the worm wheel 713 is mounted on the swing spindle 72, and the swing spindle 72 is connected to the housing 5 by a bearing. A swing main gear 74 is mounted on the swing main shaft 72. The oscillating auxiliary shafts 73 are provided with four, and each oscillating auxiliary shaft 73 is provided with four oscillating sub-gears 75, so that there are four oscillating sub-gears 75, the four oscillating sub-gears 75 are evenly distributed around the periphery of the oscillating main gear 74, and the four oscillating sub-gears 75 are all meshed with the oscillating main gear 74. A swing pinion 75 is provided with one of the camera groups 6, and specifically, in each of the camera groups 6, the first camera 61 is fixed to a lower end face of the swing pinion 75, and the second camera 62 is fixed to an upper end face of the swing pinion 75.

Specifically, as shown in fig. 11, the swing pinion 75 is an incomplete gear, and more preferably, the central angle of the swing pinion 75 is smaller than 90 degrees, so that the swing angle of the swing pinion 75 can be limited by its shape. The swing sub-shaft 73 is not directly attached to the swing sub-gear 75, but as shown in fig. 10, the upper end of the swing sub-shaft 73 is directly fixed to the first camera 61 in one imaging group 6, but the swing sub-shaft 73 is still located at the axial center of the swing sub-gear 75.

The operation process of the swing mechanism 7 is as follows: when the swing motor 711 is operated, the output shaft of the swing motor 711 rotates the worm 712, the worm wheel 713 engaged with the worm 712 rotates the swing main shaft 72, the swing main shaft 72 rotates the swing main gear 74, the four swing sub-gears 75 engaged with the swing main gear 74 swing, the first camera 61 and the second camera 62 fixed to the swing sub-gears 75 swing together with the swing sub-gears 75, and the first camera 61 swings in the first side hole 52 of the housing 5 and the second camera 62 swings in the second side hole 53 of the housing 5. Specifically, as shown in fig. 11, when the swing main gear 74 rotates clockwise, the swing pinion 75 drives the first camera 61 and the second camera 62 to swing counterclockwise; when the swing main gear 74 rotates counterclockwise, the swing sub-gear 75 drives the first camera 61 and the second camera 62 to swing clockwise.

According to the operation process of the swing mechanism 7, the swing mechanism 7 can be used for enabling the camera group 6 to swing in the horizontal plane, so that the monitoring dead angle position between two adjacent camera groups 6 is eliminated, the monitoring angle and the monitoring range of the camera group 6 are further enlarged, the operation condition of the power equipment 8 in the transformer substation can be monitored in an all-round mode, and the operation safety of the transformer substation is further improved.

As shown in fig. 2 and 9, the first camera 61 is provided with a first guard belt 611 for shielding the first side hole 52, and the second camera 62 is provided with a second guard belt 621 for shielding the second side hole 53. Specifically, the first protective belt 611 and the second protective belt 621 both adopt elastic belts, the first protective belt 611 is provided with a first avoiding hole 6111, the first avoiding hole 6111 is used for the first camera 61 to pass through, and one end of the first protective belt 611 far away from the first camera 61 is fixed on the edge of the first side hole 52 through a screw; the second protection belt 621 is provided with a second avoiding hole 6211, the second avoiding hole 6211 is used for the second camera 62 to pass through, and the second protection belt 621 is fixed on the edge of the second side hole 53 through a screw at one end far away from the second camera 62.

As shown in fig. 9, when the swing main gear 74 rotates clockwise, the swing sub-gear 75 drives the first and second cameras 61 and 62 to swing counterclockwise. In the first side hole 52, the first guard band 611 is stretched at the portion located on the left side of the first camera 61, and the first guard band 611 is squeezed at the portion located on the right side of the first camera 61, so that the first guard band 611 is matched with and covers the first side hole 52 by following the action of the first camera 61; in the second side hole 53, the second protection tape 621 is stretched at a portion located on the left side of the second camera 62, and the second protection tape 621 is pressed at a portion located on the right side of the second camera 62, so that the second protection tape 621 cooperates to shield the second side hole 53 following the action of the second camera 62. So as to prevent external dust, catkin, poplar wadding and other garbage from entering the interior of the housing 5 from the positions of the first side hole 52 and the second side hole 53.

Through setting up first guard band 611 and second guard band 621, can be under the prerequisite that does not hinder first camera 61 and second camera 62 wobbling, utilize first guard band 611 and second guard band 621, prevent external dust, the dust, catkin, rubbish such as poplar wadding gets into inside shell 5 from the position of first side hole 52 and second side hole 53, thereby be favorable to keeping the inside health of shell 5, reduce the number of times of clearing up the inside of shell 5, save cost of maintenance, and, preventing external dust, the dust, catkin, rubbish such as poplar wadding gets into inside shell 5 from the position of first side hole 52 and second side hole 53, can avoid burning out the assembly of making a video recording because the dust, the poplar wadding, the catkin is flammable, be favorable to increase of service life, improve the safety in utilization, maintenance cost also can be saved.

As shown in fig. 12, in a substation, the power equipment 8 is usually provided with a plurality of rows, and a substation patrol inspection device of the present embodiment may walk on a hardened road surface between two adjacent rows of power equipment 8, and images of environments in the power equipment 8 and the substation are taken during the walking process.

Example 2

In embodiment 2, a further improvement is made on the basis of embodiment 1, and in the substation patrol inspection device in embodiment 2, a PLC controller is installed on the base 1, and both the first camera 61 and the second camera 62 in the camera group 6 are electrically connected to the PLC controller, and the PLC controller is further electrically connected to a speaker and a warning light. The PLC controller can judge whether animals or unknown people exist in the transformer substation according to the images acquired by the first camera 61 and the second camera 62, so that the loudspeaker and the warning lamp work to drive. Still install the 5G module on the base 1, the 5G module is connected with the PLC controller electricity, uploads the server in the distant place control room through the image that the 5G module obtained first camera 61, second camera 62 in real time.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.