Vibration damper wire clamp locking mechanism of high-voltage wire without rotational wear
A technology of high-voltage electric wires and locking mechanisms, which is applied in the direction of cable suspension devices and mechanical vibration attenuation devices, etc., and can solve the problems of wire breakage at the exit of the clamp, pressure and friction reduction of the clamp body, and wear and tear of the clamp body, etc. problems, to achieve the effect of eliminating rotational wear
Active Publication Date: 2020-08-28
CHANGZHOU UNIV
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Problems solved by technology
[0002] Using the anti-vibration hammer to absorb the vibration energy of the high-voltage wire has a good effect, and then the anti-vibration hammer will always rotate around the high-voltage wire under the action of the wind, so that the initially tight clamp body will gradually loosen. This will cause the body of the clamp to rotate and wear relative to the high-voltage wire
It is precisely because of the rotation of the anti-vibration hammer that the pressure and friction of the clamp body are reduced, resulting in rotation and abrasion of high-voltage wires, resulting in the rapid occurrence of broken strands at the exit of the clamp
Method used
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[0017] The present invention will be further described in detail below in conjunction with the accompanying drawings and specific embodiments.
[0018] see figure 1 and image 3 As shown, the anti-vibration hammer clamp locking mechanism of the high-voltage electric wire without rotation and wear of the present invention includes a clamp body 8 composed of two half-clamp bodies, a clamp fixing sleeve A2 and a clamp sleeve A2 fixedly installed on the high-voltage electric wire 1 The clamp fixing sleeve B3, the clamp body 8 is provided with a steel strand hole 82 allowing the steel strand to pass through.
[0019] see figure 1 and figure 2 As shown, the left side of the cable clamp body 8 is equipped with a one-way bearing A6, and the one-way bearing A6 is fixedly installed on the right side of the bearing seat A4; the bearing seat A4 is provided with internal threads, and the cable clamp fixing sleeve A2 is provided with external threads , the bearing seat A4 is installed ...
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The invention discloses a vibration damper wire clamp locking mechanism of a high-voltage wire without rotational wear, and belongs to the field of high-voltage wire dampers. The vibration damper wireclamp locking mechanism comprises a wire clamp body composed of two half wire clamp bodies, a wire clamp fixing sleeve A, a wire clamp fixing sleeve B, a one-way bearing A, a bearing seat A, a one-way bearing B and a bearing seat B, wherein the bearing seats are arranged on the corresponding wire clamp fixing sleeves in a spiral screwing manner, when the wire clamp body rotates forwards, the one-way bearing A drives the bearing A to rotate to wind and lock a steel wire rope A, and the one-way bearing B rotates freely relative to the bearing B, and when the wire clamp body rotates reversely, the one-way bearing A rotates freely relative to the bearing A, and the one-way bearing B drives the bearing B to rotate to wind and lock a steel wire rope B. The vibration damper wire clamp locking mechanism is used for installing and locking the vibration damper wire clamp of the high-voltage wire, locks the high-voltage wire more and more when the damper wire clamp rotates, and is free of rotating abrasion.
Description
technical field [0001] The invention belongs to the field of anti-vibration hammers for high-voltage electric wires, in particular to a clamp locking mechanism for anti-vibration hammers for high-voltage electric wires without rotation and wear. Background technique [0002] Using the anti-vibration hammer to absorb the vibration energy of the high-voltage wire has a good effect, and then the anti-vibration hammer will always rotate around the high-voltage wire under the action of the wind, so that the initially tight clamp body will gradually loosen. Then cause the clamp body to rotate and wear relative to the high-voltage electric wire. It is precisely because of the rotation of the anti-vibration hammer that the pressure and friction of the clamp body are reduced, resulting in rotation and abrasion of the high-voltage wire, causing the wire at the exit of the clamp to have a broken strand defect sooner. Therefore, it is of great value to design a cable clamp locking mech...
Claims
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IPC IPC(8): H02G7/14H02G7/08
CPCH02G7/08H02G7/14
Inventor 班书昊李晓艳何云松
Owner CHANGZHOU UNIV