High strength integral conductive rod

By adopting a high-strength integrated conductive rod design, using threaded assembly and locking connection, combined with copper springs and protective rods, the problem of existing conductive rods being unable to perform dual-rod operation is solved, realizing the power transmission of multiple rods working simultaneously, improving power transmission efficiency and mechanical strength, and adapting to complex working conditions.

CN224384540UActive Publication Date: 2026-06-19JIANGSU FEILONG ELECTRICAL CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JIANGSU FEILONG ELECTRICAL CO LTD
Filing Date
2025-05-27
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

The existing conductive rods cannot perform dual-rod operation, resulting in inefficient power transmission.

Method used

It adopts a high-strength integrated conductive rod design, including a conductive rod and a conductive assembly rod. It is connected by threaded assembly, locking sleeve and assembly valve assembly, etc., combined with copper spring and protective rod, to realize the simultaneous operation of multiple rods and ensure the reliability and stability of power transmission.

Benefits of technology

It fulfills the requirement of multiple poles working simultaneously, improves power transmission efficiency, enhances mechanical strength and vibration resistance, adapts to complex working conditions, and ensures the safe and efficient operation of the electrical system.

✦ Generated by Eureka AI based on patent content.

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Abstract

A high-strength integrated conductive rod includes a conductive rod and a conductive component. The conductive component is a conductive assembly rod, which has an adapter hole for fitting the conductive rod. The conductive rod is installed in the adapter hole, and the conductive rod and the conductive assembly rod are further assembled by threads. To enable the operation of dual or multiple conductive rods, a bottom conductive rod is provided at the bottom of the conductive rod for further assembly. The bottom conductive rod allows for simultaneous operation of multiple conductive rods, meeting the needs of multi-rod simultaneous work. The components are securely connected through threaded assembly, locking sleeves, and assembly valve groups, ensuring conductive reliability and stability, effectively transmitting electrical energy, and adapting to complex working conditions.
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Description

Technical Field

[0001] This utility model relates to an electrical component, specifically a high-strength integrated conductive rod. Background Technology

[0002] Conductive rods play a crucial role in electrical equipment, often placed in high-voltage, strong electric field, and complex electromagnetic environments. They offer significant advantages: excellent conductivity for efficient current transmission and reduced energy loss; high mechanical strength to withstand significant tensile and compressive forces, ensuring stable equipment operation; good heat resistance to maintain performance in high-temperature environments and prevent failure due to overheating; strong chemical stability and corrosion resistance to extend equipment lifespan; and reliable operation under various electrical conditions, contributing to the safe and efficient operation of electrical systems.

[0003] In the prior art: 201720941327.8 A conductive rod and a GIS using the conductive rod. This utility model relates to a conductive rod and a GIS using the conductive rod. The conductive rod includes a hollow conductive rod body, which includes a first connecting end, a second connecting end, and a rod portion located between the two connecting ends. The rod portion is provided with heat dissipation holes that extend along the length direction of the conductive rod body and communicate with the cavity of the conductive rod body. The arrangement of the heat dissipation holes makes the gas flow inside the GIS smoother, which is conducive to the rapid diffusion of heat and makes the temperature distribution inside the GIS more uniform. The length of the heat dissipation holes extends along the length direction of the conductive rod body. This arrangement has little impact on the cross-sectional area of ​​the conductive rod under the same heat dissipation area, and can ensure good heat dissipation capacity even with a small reduction in the flow area of ​​the conductive rod.

[0004] Although existing conductive rods can ensure good heat dissipation even with a small reduction in the current-carrying area, they also have the problem of not being able to perform dual-rod operation, and the power transmission in dual-rod operation is not efficient enough. Utility Model Content

[0005] In order to overcome the shortcomings of existing conductive rods that cannot perform dual-rod operation, this utility model provides a high-strength integrated conductive rod.

[0006] This utility model is achieved using the following technical solution: a high-strength integrated conductive rod, comprising a conductive rod and a conductive component, wherein the conductive component is a conductive assembly rod, the conductive assembly rod is provided with an adapter hole for adapting to the conductive rod, the conductive rod is disposed in the adapter hole, the conductive rod and the conductive assembly rod are further assembled by threads, the conductive rod is provided with a bottom conductive rod and a top conductive rod, the bottom conductive rod is provided with an assembly component, the assembly component for further assembling the bottom conductive rod and the top conductive rod is an assembly valve assembly sleeve, the assembly valve assembly sleeve is provided with an assembly round hole, the top conductive rod is inserted into the assembly round hole.

[0007] A locking component is provided between the bottom conductive rod and the top conductive rod. The locking component is a locking sleeve. The outer wall of the assembly valve assembly sleeve is provided with external threads. The locking sleeve is assembled to the outside of the assembly valve assembly by means of the external threads.

[0008] The conductive assembly rod is provided with a bottom transverse groove, which passes through the conductive assembly rod, and a contact component is provided at the bottom of the bottom transverse groove.

[0009] The contact component is a contact spring, and the contact spring used to transmit electrical energy to the conductive rod is made of copper. Transmission plates are provided on both sides of the copper spring.

[0010] A locking bolt is provided between the transmission plate and the copper spring plate. An assembly tube is provided on the transmission plate, and an inner copper sheet is provided on the inner wall of the assembly tube.

[0011] The conductive assembly rod is provided with protective rods, which are located on both sides of the conductive assembly rod, and diagonal supports are provided between the protective rods and the conductive assembly rod.

[0012] Compared to existing technologies, in order to enable the operation of dual or multiple conductive rods, a bottom conductive rod is set at the bottom of the conductive rod for further assembly. Relying on the bottom conductive rod, multiple conductive rods can be operated simultaneously, meeting the needs of multiple rods working at the same time. Through threaded assembly, locking sleeve and assembly valve group sleeve, the components are stably connected to ensure the reliability and stability of conductivity, effectively transmit electrical energy and adapt to complex working conditions.

[0013] A copper spring is installed inside the bottom conductive rod. The copper spring enables the transmission of electrical energy on the conductive rod. The copper spring optimizes conductivity and, together with the transmission plate, enables efficient power transmission. The protective rod and diagonal support act as a sturdy shield, enhancing mechanical strength, vibration and impact resistance, and durability. It can be used in harsh working conditions to ensure the safe and efficient operation of the electrical system. Attached Figure Description

[0014] Figure 1 This is a schematic diagram of the structure of this utility model;

[0015] Figure 2 This is a schematic diagram of the structure of this utility model;

[0016] Figure 3 This is a schematic diagram of the structure of this utility model;

[0017] Figure 4 This is a schematic diagram of the structure of this utility model;

[0018] In the diagram: 1 is the conductive rod, 2 is the conductive assembly rod, 3 is the adapter hole, 4 is the assembly valve assembly sleeve, 5 is the locking sleeve, 6 is the bottom transverse groove, 7 is the contact spring, 8 is the transmission piece, 9 is the assembly sleeve tube, 10 is the internal copper sheet, 11 is the protective rod, and 12 is the diagonal support. Detailed Implementation

[0019] The present invention will be further described below with reference to the accompanying drawings and specific embodiments. It should be noted that, without conflict, the various embodiments or technical features described below can be arbitrarily combined to form new embodiments.

[0020] A high-strength integrated conductive rod includes a conductive rod 1 and a conductive component, wherein the conductive component is a conductive assembly rod 2. The conductive assembly rod 2 is provided with an adapter hole 3 for adapting to the conductive rod 1, and the conductive rod 1 is disposed in the adapter hole 3. The conductive rod 1 and the conductive assembly rod 2 are further assembled by threads. The conductive rod 1 is provided with a bottom conductive rod and a top conductive rod. The bottom conductive rod is provided with an assembly component. The assembly component for further assembling the bottom conductive rod and the top conductive rod is an assembly valve assembly sleeve 4. The assembly valve assembly sleeve 4 is provided with an assembly round hole, and the top conductive rod is inserted into the assembly round hole.

[0021] In order to enable the operation of dual or multiple conductive rods, a bottom conductive rod is provided at the bottom of the conductive rod 1 for further assembly of the conductive rod 1. The bottom conductive rod can effectively enable the simultaneous operation of multiple conductive rods, meeting the needs of multiple rods working at the same time. Through threaded assembly, locking sleeve and assembly valve group sleeve, etc., the components are stably connected to ensure the reliability and stability of conductivity, effectively transmit electrical energy and adapt to complex working conditions.

[0022] A locking component is provided between the bottom conductive rod and the top conductive rod. The locking component is a locking sleeve 5. The outer wall of the assembly valve assembly sleeve 4 is provided with external threads. The locking sleeve 5 is assembled to the outside of the assembly valve assembly by means of the external threads.

[0023] The conductive assembly rod 2 is provided with a bottom transverse groove 6, which passes through the conductive assembly rod. A contact component, which is a contact spring 7, is provided at the bottom of the bottom transverse groove. The contact spring used to transmit electrical energy to the conductive rod 1 is made of copper. Transmission plates 8 are provided on both sides of the copper spring. A locking bolt is provided between the transmission plates 8 and the copper spring. An assembly tube 9 is provided on the transmission plate 8. An inner copper sheet 10 is provided on the inner wall of the assembly tube 9.

[0024] A protective rod 11 is provided on the conductive assembly rod 2. The protective rod 11 is located on both sides of the conductive assembly rod 2. An inclined support 12 is provided between the protective rod 1 and the conductive assembly rod 2. A copper spring is provided inside the bottom conductive rod. The copper spring can transmit electrical energy on the conductive rod 1. The copper spring can optimize conductivity and transmit electricity efficiently with the transmission plate. The protective rod 11 and the inclined support 12 are like a sturdy shield, which strengthens mechanical strength, resists vibration and impact, and is highly durable. It can be used in relatively harsh working conditions to protect the safe and efficient operation of the electrical system.

[0025] The above embodiments are merely preferred embodiments of this utility model and should not be construed as limiting the scope of protection of this utility model. Any non-substantial changes and substitutions made by those skilled in the art based on this utility model shall fall within the scope of protection claimed by this utility model.

Claims

1. A high-strength integrated conductive rod, comprising a conductive rod and a conductive component, wherein the conductive component is a conductive assembly rod, the conductive assembly rod is provided with an adapter hole for adapting to the conductive rod, the conductive rod is disposed in the adapter hole, the conductive rod and the conductive assembly rod are further assembled by threads, and the conductive rod is provided with a bottom conductive rod and a top conductive rod, characterized in that: The bottom conductive rod is provided with an assembly component, which is an assembly valve assembly sleeve. The assembly valve assembly sleeve is provided with an assembly round hole, and the top conductive rod is inserted into the assembly round hole.

2. The high-strength integrated conductive rod according to claim 1, characterized in that: A locking component is provided between the bottom conductive rod and the top conductive rod. The locking component is a locking sleeve. The outer wall of the assembly valve assembly sleeve is provided with external threads. The locking sleeve is assembled to the outside of the assembly valve assembly by means of the external threads.

3. A high-strength integrated conductive rod according to claim 2, characterized in that: The conductive assembly rod is provided with a bottom transverse groove, which passes through the conductive assembly rod, and a contact component is provided at the bottom of the bottom transverse groove.

4. A high-strength integrated conductive rod according to claim 3, characterized in that: The contact component is a contact spring, which is made of copper, and transmission plates are provided on both sides of the copper spring.

5. A high-strength integrated conductive rod according to claim 4, characterized in that: A locking bolt is provided between the transmission plate and the copper spring plate. An assembly tube is provided on the transmission plate, and an inner copper sheet is provided on the inner wall of the assembly tube.

6. A high-strength integrated conductive rod according to claim 5, characterized in that: The conductive assembly rod is provided with protective rods, which are located on both sides of the conductive assembly rod, and diagonal supports are provided between the protective rods and the conductive assembly rod.