CN210950667U - Monitoring devices for electric power engineering with antiskid function - Google Patents

Abstract

The utility model discloses a monitoring devices for electric power engineering with antiskid function, the utility model relates to a relevant technical field of electric power engineering monitoring, including track and infrared monitoring devices, the spout has all been seted up to the track left and right sides, and is provided with the rack bottom the track, the spout bottom all is provided with first gyro wheel, and just orbital one side is kept away from to first gyro wheel all is connected with the mount, all be provided with the spring in the middle of the mount top, and the spring top all is provided with the second gyro wheel, and the second gyro wheel all sets up at the spout top simultaneously, the mount bottom all is connected with the shell, and the inboard top of shell is provided with driven gear, driven gear runs through the shell top, and follows the gear and the rack and be connected. This monitoring devices for electric power engineering with antiskid function is convenient for drive arrangement and removes along the track is by oneself, and effectively prevents the slip displacement when static, has improved the stability of whole when using.

Description

Monitoring devices for electric power engineering with antiskid function

Technical Field

The utility model relates to a relevant technical field of electric power engineering monitoring specifically is a monitoring devices for electric power engineering with antiskid function.

Background

The purpose of monitoring the state of the power equipment is to adopt effective detection means and analysis and diagnosis technology, timely and accurately master the running state of the equipment and ensure the safe, reliable and economic running of the equipment, and the currently adopted state monitoring methods are two: the monitoring aims to timely discover the development of various degradation processes of equipment so as to timely maintain and replace the equipment before possible faults or performance degradation affects normal work, thereby avoiding accidents endangering safety.

And in some higher power equipment areas, the detection personnel are not convenient for ascending a height to move and look sideways, and at the moment, the power engineering monitoring device convenient for moving needs to be used.

Some of the monitoring devices currently in use lack self-propelled capability and are prone to positional drift due to lack of braking means when a stop at the current location is required.

SUMMERY OF THE UTILITY MODEL

The utility model provides a not enough to prior art, the utility model provides a partial monitoring devices for electric power engineering with antiskid function has solved the present use and has lacked from walking the ability, and when needs stop at the current position because lack arresting gear takes place the problem of skew easily.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: a monitoring device with an anti-skid function for electric power engineering comprises a track and an infrared monitoring device, wherein sliding grooves are formed in the left side and the right side of the track, racks are arranged at the bottom of the track, first idler wheels are arranged at the bottom of the sliding grooves, one sides, far away from the track, of the first idler wheels are connected with a fixed frame, springs are arranged in the middle of the top of the fixed frame, second idler wheels are arranged at the top of the springs, the second idler wheels are arranged at the top of the sliding grooves, the bottom of the fixed frame is connected with a shell, a driven gear is arranged at the top of the inner side of the shell, the driven gear penetrates through the top of the shell and is connected with the racks, a first motor is arranged on the left side inside the shell, a first motor shaft is rotationally connected with the first motor, the first motor shaft is connected with a driving gear, the driving gear, and be provided with the second motor in the base, the second motor rotates and is connected with the second motor shaft, and the second motor shaft runs through the base bottom korea and is connected with the movable rod, infrared monitoring devices sets up in the movable rod bottom.

Furthermore, the connection mode of spout and first gyro wheel is rolling connection, and first gyro wheel is and is provided with 2 groups about the symmetrical mode of track central point, and every first gyro wheel of group is provided with 4 simultaneously.

Furthermore, the central axis of the rack and the central axis of the track are on the same vertical straight line, and the rack is connected with the driven gear in a meshing manner.

Further, spring and second gyro wheel are the symmetry and are provided with 2 groups, and every group second gyro wheel is provided with 2, and spring and second gyro wheel constitute extending structure simultaneously.

Furthermore, the driven gear is connected with the shell in a rotating mode, the driven gear is connected with the driving gear in a meshing mode, and meanwhile the driving gear is connected with the shell in a rotating mode.

Further, the axis of base and the axis of shell are on same vertical straight line, and the axis of shell and orbital axis are on same vertical straight line.

Furthermore, the movable rod is connected with the shell in a rotating mode, and the movable rod is of a Z-shaped structure.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) this monitoring devices for electric power engineering with antiskid function drives whole device through first gyro wheel cooperation track and spout and moves along the track, and cooperation spring and second gyro wheel promote the inner wall that first gyro wheel and second gyro wheel hug closely the spout through the resilience force of spring to improve the frictional force of whole problem, ensure that the device keeps stable when carrying out high altitude removal, improved the safety in utilization.

(2) This monitoring devices for electric power engineering with antiskid function is provided with rack, driven gear, first motor shaft and driving gear, drives driven gear pivoted mode drive device through the driving gear and removes, and the power and the moment of torsion transmission that the motor can be guaranteed to the mode of meshing connection are stable, and stop the portable effective prevention device of portable and take place the slip displacement, have improved the practicality.

(3) This monitoring devices for electric power engineering with antiskid function is provided with base, second motor shaft, movable rod and infrared monitoring devices, drives movable rod and infrared monitoring devices through the second motor shaft and rotates, is convenient for adjust the field of vision on the horizontal direction, and "Z" is the movable rod of structure by oneself can effectively improve infrared monitoring devices's radius of rotation, has improved the practicality.

Drawings

Fig. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic side view of the present invention;

fig. 3 is a schematic view of a connection structure of the rack, the driven gear and the driving gear of the present invention;

fig. 4 is an enlarged schematic view of a portion a in fig. 2 according to the present invention.

In the figure: 1-rail, 2-chute, 3-rack, 4-first roller, 5-fixed frame, 6-spring, 7-second roller, 8-shell, 9-driven gear, 10-first motor, 11-first motor shaft, 12-driving gear, 13-base, 14-second motor, 15-second motor shaft, 16-movable rod, 17-infrared monitoring device.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a monitoring device with anti-skid function for electric power engineering comprises a track 1 and an infrared monitoring device 17, as shown in figure 1, figure 2 and figure 3, chutes 2 are arranged on the left side and the right side of the track 1, the chutes 2 are connected with first rollers 4 in a rolling way, and the first rollers 4 are arranged in 2 groups in a symmetrical way relative to the central point of the track 1, meanwhile, 4 first rollers 4 are arranged in each group, the support and the movement of the whole device are ensured through the first rollers 4, the use convenience is improved, a rack 3 is arranged at the bottom of the track 1, the central axis of the rack 3 and the central axis of the track 1 are on the same vertical straight line, the connection mode of the rack 3 and a driven gear 9 is in a meshing connection, the driven gear 9 is matched with the rack 3 to drive a shell 8 to move along the track 1, and when the device stops moving, the driven gear 9 is matched with the rack 3 to effectively prevent the device from sliding displacement, the use safety is improved.

As shown in fig. 2 and 3, the bottom of the chute 2 is provided with a first roller 4, one side of the first roller 4 away from the track 1 is connected with a fixed frame 5, the middle of the top of the fixed frame 5 is provided with a spring 6, the top of the spring 6 is provided with a second roller 7, the second rollers 7 are arranged at the top of the chute 2, the spring 6 and the second rollers 7 are symmetrically provided with 2 groups, each group of the second rollers 7 is provided with 2, the spring 6 and the second rollers 7 form a telescopic structure, the spring 6 pushes the second rollers 7 to cling to the top of the chute 2, and pushes the first rollers 4 to cling to the bottom of the chute 2, so as to ensure that the device keeps stable when moving at high altitude, the bottom of the fixed frame 5 is connected with a shell 8, the top of the inner side of the shell 8 is provided with a driven gear 9, the driven gear 9 penetrates through the top of the shell 8, and, driven gear 9 is connected for rotating with the connected mode of shell 8, and driven gear 9 is connected for the meshing with the connected mode of driving gear 12, and driving gear 12 is connected for rotating with the connected mode of shell 8 simultaneously, ensures through the mode of meshing connection that power and the moment of torsion that first motor 10 produced can transmit driven gear 9 steadily, has improved the stability of whole device operation.

As shown in fig. 1 and 2, a first motor 10 is arranged on the left side inside the shell 8, the first motor 10 is rotatably connected with a first motor shaft 11, the first motor shaft 11 is connected with a driving gear 12, the driving gear 12 is connected with a driven gear 9, a base 13 is arranged at the bottom of the shell 8, a second motor 14 is arranged in the base 13, a central axis of the base 13 and a central axis of the shell 8 are on the same vertical straight line, and the central axis of the shell 8 and the central axis of the track 1 are on the same vertical straight line, so that the whole device is kept vertical when suspended, and the stability of the device in operation is further improved.

As shown in fig. 1 and 4, the second motor 14 is rotatably connected to the second motor shaft 15, the second motor shaft 15 penetrates through the bottom of the base 13 and is connected to the movable rod 16, the infrared monitoring device 17 is disposed at the bottom of the movable rod 16, the movable rod 16 is rotatably connected to the housing 8, the movable rod 16 has a "Z" -shaped structure, and the movable rod 16 having the Z-shaped structure facilitates to increase the rotation radius of the infrared monitoring device 17 and improve the field of view.

When the device works, the monitoring device with the anti-skid function for the electric power engineering is firstly arranged at the bottom of a track 1, when the device is used, an external power supply is switched on, a first motor 10 is started, a driving gear 12 is driven to start rotating through a first motor shaft 11, a driven gear 9 is driven to start rotating along a rack 3 through the driving gear 12, so that a shell 8, a base 13 and a movable rod 16 are driven to start moving, a first roller 4 starts rotating along the lower side of a chute 2 in the moving process, a spring 6 pushes a second roller 7 to cling to the top of the chute 2 to synchronously slide, when the device moves to a specified position, the first motor 10 is closed, then a second motor 14 and an infrared monitoring device 17 are started, the movable rod 16 and the infrared monitoring device 17 are driven to start rotating through a second motor shaft 15, and the electric power engineering monitoring is carried out through the infrared monitoring device 17, wherein the model of first motor 10 and second motor shaft 15 is YE2-132S-4, and infrared monitoring device 17 is prior art, and infrared monitoring device 17 is current equipment simultaneously, therefore infrared monitoring device 17 only does the illustration here, does not regard as the novel point and the protection point of this patent, accomplishes this monitoring device' S for electric power engineering use process with anti-skidding function just so, the utility model relates to an electrical property technique is prior art.

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

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a monitoring devices for electric power engineering with antiskid function, includes track (1) and infrared monitoring devices (17), its characterized in that: the left side and the right side of the track (1) are both provided with sliding chutes (2), the bottom of the track (1) is provided with a rack (3), the bottom of each sliding chute (2) is provided with a first roller (4), one side of each first roller (4) far away from the track (1) is connected with a fixed frame (5), the middle of the top of each fixed frame (5) is provided with a spring (6), the top of each spring (6) is provided with a second roller (7), the second rollers (7) are arranged at the top of the sliding chutes (2), the bottom of each fixed frame (5) is connected with a shell (8), the top of the inner side of the shell (8) is provided with a driven gear (9), the driven gear (9) penetrates through the top of the shell (8), the driven gear (9) is connected with the rack (3), the left side inside the shell (8) is provided with a first motor (10), and the first motor (10) is rotatably connected with a first, first motor shaft (11) are connected with driving gear (12), and driving gear (12) are connected with driven gear (9), shell (8) bottom is provided with base (13), and is provided with second motor (14) in base (13), second motor (14) rotate and are connected with second motor shaft (15), and second motor shaft (15) run through base (13) bottom korea and are connected with movable rod (16), infrared monitoring devices (17) set up in movable rod (16) bottom.

2. The monitoring device with antiskid function for electric power engineering according to claim 1, characterized in that: the connection mode of spout (2) and first gyro wheel (4) is roll connection, and first gyro wheel (4) are about track (1) central point symmetrical mode and are provided with 2 groups, and every first gyro wheel of group (4) is provided with 4 simultaneously.

3. The monitoring device with antiskid function for electric power engineering according to claim 1, characterized in that: the central axis of the rack (3) and the central axis of the track (1) are on the same vertical straight line, and the rack (3) is connected with the driven gear (9) in a meshing manner.

4. The monitoring device with antiskid function for electric power engineering according to claim 1, characterized in that: spring (6) and second gyro wheel (7) are the symmetry and are provided with 2 groups, and every group second gyro wheel (7) are provided with 2, and spring (6) and second gyro wheel (7) are constituteed extending structure simultaneously.

5. The monitoring device with antiskid function for electric power engineering according to claim 1, characterized in that: the driven gear (9) is connected with the shell (8) in a rotating mode, the driven gear (9) is connected with the driving gear (12) in a meshing mode, and meanwhile the driving gear (12) is connected with the shell (8) in a rotating mode.

6. The monitoring device with antiskid function for electric power engineering according to claim 1, characterized in that: the axis of base (13) and the axis of shell (8) are on same vertical straight line, and the axis of shell (8) and the axis of track (1) are on same vertical straight line.

7. The monitoring device with antiskid function for electric power engineering according to claim 1, characterized in that: the movable rod (16) is connected with the shell (8) in a rotating mode, and the movable rod (16) is of a Z-shaped structure.

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