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CN-224231666-U - Strain clamp detection device

CN224231666UCN 224231666 UCN224231666 UCN 224231666UCN-224231666-U

Abstract

The application relates to the technical field of strain clamp detection, and discloses a strain clamp detection device which comprises a box body, a first rotating shaft, a first rotating arm, an X-ray machine, an imaging plate, a second rotating shaft, a second rotating arm, a gear motor, a conical roller and a winch. The winch comprises a rope and a hook. When the device is used, after the ropes on two sides are released, the hooks on two sides can be hung on the wires through the unmanned aerial vehicle. And then winding ropes at two sides, so that the device is close to the lead. And then the two-angle second rotating shaft is driven to rotate, so that the two-angle conical roller can move to the upper part of the lead. And then releasing the rope again, so that the lead can be buckled into the two-angle conical roller. And then controlling the gear motor to work, namely driving the two-angle conical roller to rotate so as to enable the device to walk along the lead. After the device moves to the strain clamp, the first rotating shafts on the two sides are driven to rotate, so that the X-ray machine and the imaging plate can move to the two sides of the strain clamp, and finally detection work is completed. The whole detection process does not need the worker to ascend, and the safety is improved.

Inventors

  • WANG YUANHANG
  • ZHANG QIANG
  • ZOU DELI
  • Sui Guangbin

Assignees

  • 辽宁强盛电力技术有限公司

Dates

Publication Date
20260512
Application Date
20250417

Claims (9)

  1. 1. Strain clamp detection device, characterized in that includes: The box body comprises through holes positioned on the top wall of the box body, and the through holes are positioned on two sides of the box body along the length direction of the box body; The first rotating shafts are respectively rotatably arranged on two opposite side walls of the box body in a penetrating manner along the width direction of the box body; the first rotating arms are respectively arranged on the first rotating shafts at two sides and are positioned outside the box body; an X-ray machine mounted on either side of the first rotatable arm; the imaging plate is arranged on the first rotating arm at the other side; the second rotating shafts respectively penetrate through the top wall diagonal two angles of the box body along the height direction of the box body; The second rotating arms are respectively arranged at the two corners of the second rotating shaft and are positioned outside the box body; The gear motor is respectively arranged on the two-angle second rotating arm, and the axes of the rotating ends of the gear motor at the two angles are perpendicular to the axes of the second rotating shafts at the two angles; the conical rollers are respectively arranged at the output ends of the speed reducing motors at two angles; The winch is arranged on the top wall of the box body, is positioned on two sides of the box body along the length direction of the box body, ropes of the winch on two sides respectively penetrate through the through holes on two sides, and hooks of the winch on two sides are positioned outside the box body; The first rotating shafts at two sides and the second rotating shafts at two angles can be controlled to rotate so as to drive the first rotating arms at two sides and the second rotating arms at two sides to do rotary motion respectively.
  2. 2. The strain clamp detection device of claim 1, further comprising: The support rods are respectively arranged on two opposite side walls of the box body along the width direction of the box body and are positioned in the box body; The first mounting plates are respectively arranged on the two sides of the supporting rods; The first motors are respectively arranged on the first mounting plates at two sides, and the axes of the rotating ends of the first motors at two sides are respectively parallel to the axes of the first rotating shafts at two sides; the first rotating shafts on two sides are driven by the first motors on two sides to rotate.
  3. 3. The strain clamp detection device of claim 2, further comprising: the driving belt gears are respectively arranged at the rotating ends of the first motors at two sides; Driven belt gears which are respectively arranged on the first rotating shafts at two sides and are positioned in the box body; the synchronous toothed belt is sleeved between the driving belt gears at two sides and the driven belt gears at two sides respectively.
  4. 4. The strain clamp detection device of claim 1, further comprising: The supporting plates are arranged on the top wall of the box body and are adjacent to the second rotating shafts at the two angles respectively; The second mounting plates are respectively arranged on the two corners of the supporting plate; the second motors are respectively arranged on the two-angle second mounting plates, and the axes of the rotating ends of the two-angle second motors are mutually overlapped with the axes of the two-angle second rotating shafts; The second rotating shafts on two sides are driven by the second motors on two sides to rotate.
  5. 5. The strain clamp detection device of claim 4, further comprising: The shaft couplings are respectively arranged between the rotating ends of the second motors at the two angles and the second rotating shafts at the two angles.
  6. 6. The strain clamp detection device of any one of claims 1 to 5, further comprising: The sliding sleeves are respectively arranged in the through holes at the two sides; Wherein ropes of the winches at two sides respectively penetrate through the sliding sleeves at two sides.
  7. 7. The strain clamp detection device of any one of claims 1 to 5, further comprising: The first bearing seats are respectively arranged on two opposite side walls of the box body and are respectively sleeved on the first rotating shafts at two sides; The first bearings are respectively arranged between the first bearing seats at two sides and the first rotating shafts at two sides.
  8. 8. The strain clamp detection device of any one of claims 1 to 5, further comprising: The second bearing seat is arranged on the top wall of the box body and is sleeved on the second rotating shafts at two angles respectively; And the second bearings are respectively arranged between the second bearing at two angles and the second rotating shaft at two angles.
  9. 9. The strain clamp detection device of any one of claims 1 to 5, further comprising: casters are respectively arranged at four corners of the bottom surface of the box body.

Description

Strain clamp detection device Technical Field The application relates to the technical field of strain clamp detection, in particular to a strain clamp detection device. Background Related art (bulletin number: CN 218974225U) discloses a strain clamp DR detection device, which comprises a supporting adjusting frame, an imaging plate connected to one end of the supporting adjusting frame and a ray machine connected to the other end of the supporting adjusting frame. The support adjusting frame is formed by surrounding at least two transverse frames and a vertical frame, an adjusting plate is arranged between one transverse frame and the vertical frame, and the adjusting plate is of a 匚 structure. The imaging plate is arranged in the adjusting plate, and at least one adjusting nut is arranged on the adjusting plate. The vertical frame is provided with a hook protruding outwards, and the hook is arranged below the adjusting plate. In the process of implementing the above embodiments, it is found that at least the following problems exist in the related art: Strain clamp DR detection device, in the use, the workman hangs the couple in the department of detecting, can image board and ray machine be located the both sides of strain clamp, then can accomplish detection work. Compared with the traditional detection mode, the detection efficiency is improved without the need of a worker to hold the imaging plate and the ray machine for detection. However, in the detection process, workers still need to ascend, and the risk degree is high. It should be noted that the information disclosed in the above background section is only for enhancing understanding of the background of the application and thus may include information that does not form the prior art that is already known to those of ordinary skill in the art. Disclosure of utility model The following presents a simplified summary in order to provide a basic understanding of some aspects of the disclosed embodiments. This summary is not an extensive overview, and is intended to neither identify key/critical elements nor delineate the scope of such embodiments, but is intended as a prelude to the more detailed description that follows. The embodiment of the disclosure provides a strain clamp detection device, which aims to solve the problem in the background technology. In some embodiments, the strain clamp detection device comprises a box body, a detection device and a detection device, wherein the box body comprises a through hole positioned on the top wall of the box body, and the through hole is positioned on two sides of the box body along the length direction of the box body; the device comprises a box body, a first rotating shaft, first rotating arms, a first rotating shaft, a second rotating shaft, a speed reducing motor, a conical roller, a winch, a rope, a speed reducing motor, a conical roller, a winch, a hook and a hook, wherein the first rotating shaft penetrates through two opposite side walls of the box body in the width direction of the box body, the first rotating shaft penetrates through the two opposite side walls of the box body in a rotatable mode, the first rotating shaft is arranged on the two opposite side walls of the box body in the width direction of the box body, the first rotating arm is arranged on the two side walls of the box body in the rotatable mode, the axes of the rotating ends of the speed reducing motor are perpendicular to the axes of the second rotating shaft, the conical roller is arranged on the output ends of the speed reducing motor, the winch is arranged on the top wall of the box body, the winch is arranged on the two sides of the box body in the length direction of the box body, the ropes of the two sides of the winch penetrate through the through holes on the two sides respectively, the two sides of the winch are located on the two sides of the hook, and the two sides of the winch can be controlled to rotate, and the two rotating shafts are located on the two sides of the second rotating shaft respectively. Optionally, the device also comprises support rods which are respectively arranged on two opposite side walls of the box body along the width direction of the box body and are positioned in the box body; the first motor is respectively arranged on the first mounting plates at two sides, the axes of the rotating ends of the first motors at two sides are respectively parallel to the axes of the first rotating shafts at two sides, and the first rotating shafts at two sides are driven by the first motors at two sides to rotate. Optionally, the automatic gearbox further comprises driving belt gears which are respectively arranged at the rotating ends of the first motors at the two sides, driven belt gears which are respectively arranged at the first rotating shafts at the two sides and are positioned in the box body, and synchronous toothed belts which are respectively sleeved between the driving belt gears at the t