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A multifunctional power network bridge connector

A power network and connector technology, which is applied in the power grid field, can solve the problems of wearing conductive blocks and affecting the stability of current transmission, and achieve the effect of avoiding jitter.

Active Publication Date: 2021-07-02
SHANDONG LONGLI ELECTRONICS
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] Based on the inventor's discovery above, the existing methods mainly have the following deficiencies, such as: because the conductive block of the equipment is directly clamped to the surface end surface of the jaw clamp, resulting in the use of the jaw clamp to the cable of the cable. After direct winding and clamping, when the cable shakes strongly in strong stormy weather, the copper wire wound on the jaw clamp will directly wear the surface coating of the conductive block through the exposure of the cable, so that the dry spraying agent on the surface coating and The conductive coating is pulverized by abrasion, which affects the stability of current transmission

Method used

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  • A multifunctional power network bridge connector
  • A multifunctional power network bridge connector
  • A multifunctional power network bridge connector

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Experimental program
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Effect test

Embodiment 1

[0025] as attached figure 1 to attach Figure 5 Shown:

[0026] The present invention provides a multifunctional power network bridge connector, the structure of which includes a bridging jaw 1, a ceramic block 2, and a connecting port 3. Located directly above the connection port 3, the connection port 3 is inlaid and installed directly below the bridging jaw 1; the bridging jaw 1 includes a buffer mechanism 11, an inlay ring 12, a first fixing block 13, and a clamping device 14. The buffer mechanism 11 is inlaid and wrapped on the outer end surface of the clamping device 14, and the right end surface is embedded and connected with the first fixed block 13, and the inlaid ring 12 is arranged on the outer end surface of the first fixed block 13. The first fixing block 13 is located on the right side of the clamping device 14 .

[0027] Wherein, the clamping device 14 includes a bolt 141, a conductive block 142, a second fixed block 143, and a segmented rubber block 144, and...

Embodiment 2

[0033] as attached Figure 6 to attach Figure 7 As shown: the buffer mechanism 11 includes a spring 111, a buffer layer 112, an inlaid block 113, and a connecting mechanism 114. The spring 111 is embedded and engaged on the inner end surface of the buffer layer 112 and connected with the inner surface of the buffer mechanism 11. The buffer layer 112 is embedded and connected to the inner end surface of the buffer mechanism 11, the upper and lower sides of the embedded block 113 are embedded and connected to the right end surface of the buffer mechanism 11, and the connecting mechanism 114 is symmetrically embedded and engaged on the buffer layer 112. The outer end surface of the buffer mechanism 11 and the buffer layer 112 are provided with a relative gap. When the buffer layer 112 is squeezed, the buffer layer 112 is subjected to more extrusion force when the two sides are alone.

[0034]Wherein, the connecting mechanism 114 includes an embedding block 14a, an arc-shaped ma...

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Abstract

The invention discloses a multifunctional power network bridge connector, the structure of which comprises a bridging jaw, a ceramic block, and a connecting port. The snap fit is installed directly under the bridge clamp. When the cable is shaken, the vibration will be transmitted to the segmented rubber blocks on the left and right sides through the cable, and then transmitted to the bridge clamp. Due to the connection between the middle section and the conductive block The second fixation by the fixing blocks on both sides of the cable can effectively prevent the cable from shaking, rubbing the surface of the conductive block, and powdering the surface coating of the conductive block, resulting in unstable current flow.

Description

technical field [0001] The invention belongs to the field of power grids, and more specifically relates to a multifunctional power network bridge connector. Background technique [0002] The power network overseas coupler is a kind of equipment installed on the high-voltage cable and distribution box with its own resistance. Generally, after clamping the cable connection port by its own jaw type clamping, the current is controlled by the conductor and the resistance. stable transmission [0003] Based on the inventor's discovery above, the existing methods mainly have the following deficiencies, such as: because the conductive block of the equipment is directly clamped to the surface end surface of the jaw clamp, resulting in the use of the jaw clamp to the cable of the cable. After direct winding and clamping, when the cable shakes strongly in strong stormy weather, the copper wire wound on the jaw clamp will directly wear the surface coating of the conductive block throug...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01R4/28H01R4/64
CPCH01R4/28H01R4/646
Inventor 叶万辉
Owner SHANDONG LONGLI ELECTRONICS