A conductive arm processing device
By using the support and limiting mechanisms of the conductive arm processing equipment, the problem of unstable positioning during conductive arm welding is solved, enabling stable docking and welding of the conductive arm body and end, adapting to different length specifications, and improving the flexibility and stability of welding.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- JINGJIANG XINYUAN POWER EQUIP CO LTD
- Filing Date
- 2025-08-01
- Publication Date
- 2026-07-03
AI Technical Summary
Existing conductive crossarm processing equipment lacks flexibility during welding, and the positioning device has a single function, making it difficult to stably connect and weld the conductive arm body and end.
The support mechanism includes a base, slide, support, bracket, slide block, support seat, screw holes and bolts. The position of the conductive arm can be adjusted by sliding and rotating the bolts, and the limiting mechanism ensures stable docking and welding.
It enables stable docking and welding of the conductive arm body and end, adapts to different length specifications, and improves the flexibility and stability of welding.
Smart Images

Figure CN224445074U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of conductive arm processing technology, and in particular to a conductive arm processing device. Background Technology
[0002] The conductive crossarm is a rectangular frame structure made of copper-steel composite plate or aluminum-steel composite plate. The outer copper or aluminum plate bears the conductive function, and the internal water cooling system is set to reduce the working temperature. This device integrates electrode support and conductive functions. The rectangular cross-section design improves mechanical strength, eliminates the traditional water-cooled copper pipe and multi-layer insulation links, simplifies the overall structure, and is mainly used in steelmaking furnaces.
[0003] The existing conductive crossarms have the following drawbacks in production and processing: The main structure of the conductive crossarm consists of a main frame and an end. During production and processing, the end needs to be welded to the end position of the main frame. Since the conductive arm structure is large, a specific support component is required for positioning during welding. The existing positioning device has a single function, only has a basic support function, and is not flexible enough. Therefore, we propose a conductive arm processing equipment. Utility Model Content
[0004] The main purpose of this utility model is to provide a conductive arm processing device, which, through a support mechanism, can stably support and connect the main body and end of the conductive cross arm, facilitating subsequent welding operations and effectively solving the problems in the background art.
[0005] To achieve the above objectives, the technical solution adopted by this utility model is as follows:
[0006] A conductive arm processing device includes a conductive arm body, a conductive arm end, and a supporting mechanism. The conductive arm end is welded to the end of the conductive arm body, and a supporting mechanism is provided between the bottom of the conductive arm body and the conductive arm end. The supporting mechanism includes a base, a slide, a support, a bracket, a slide block, a support seat, a screw hole A, and a bolt A. The top of the base has a slide groove and the support is slidably connected to it through the slide groove. The top of the support is welded to the bracket that supports the conductive arm body. One end of the top of the support is slidably connected to the slide block through the slide groove, and the top of the slide block is movably connected to the support seat that supports the conductive arm end. The slide block is screwed to the bolt A through the screw hole A and connected to the support seat through the bolt A.
[0007] Furthermore, it also includes a limiting mechanism. The top of the support is provided with a limiting mechanism, which includes a screw hole B, a bolt B, and a pressure plate. Screw holes B are vertically opened on both sides inside the support, and bolts B are screwed into the screw holes B. A pressure plate is installed on the top of the bolt B, and the top of the bolt B passes through the end of the pressure plate. The pressure plate can rotate on the top of the bolt B. When the end of the conductive arm is placed on the top of the support, the bolt B can be turned to raise the height of the pressure plate. When the height of the pressure plate is higher than the end of the conductive arm, the pressure plate is rotated to the top of the end of the conductive arm, and then the bolt B is rotated in the opposite direction to lower the height of the pressure plate until it fits against the top of the end of the conductive arm. Thus, the position of the end of the conductive arm is limited by the cooperation of the pressure plate and the support, and its position is kept stable.
[0008] Furthermore, the bottom end of the support is inserted into the groove, and a pulley is installed at the bottom of the support inside the groove; the pulley structure allows the conductive arm body to move horizontally by moving the bracket after it is placed on top of the bracket.
[0009] Furthermore, the bottom of the slide block is provided with a slider that is inserted into the slide groove; the slider structure is inserted into the slide groove, and when the support is not carrying the component, its position can be adjusted by sliding, and when the support carries the end of the conductive arm, its position is fixed by its own weight.
[0010] Furthermore, a connecting frame is welded to the center of the bottom of the support, and a connecting ring is welded to the top of the bolt A inside the connecting frame; when the bolt A is turned, it drives the connecting ring to rotate inside the connecting frame, so that the bolt A can drive the height adjustment of the support.
[0011] Furthermore, an end ring is welded to the top of the bolt B, and the end ring is located on the upper and lower sides of the pressure plate surface respectively; the end ring limits the position of the pressure plate, but does not affect its rotation.
[0012] Compared with the prior art, this utility model has the following advantages: Two sets of supports and one set of slide blocks slide along the top of the base via a sliding groove. A bracket structure is provided on the top of the supports. After the base is set in the processing area, a crane is used to lift the conductive arm body and the conductive arm end to the top of the base. Then, it is slowly lowered, placing the conductive arm body between the brackets and the conductive arm end on the top of the bracket. Bolt A is tightened along screw hole A to adjust the height of the conductive arm end, aligning its welding end with the welding end of the conductive arm body. After alignment, the bracket slides along the sliding groove until the conductive arm body and the conductive arm end are joined together. Welding is then performed to fix the connection. The welding process... The conductive arm maintains a stable position, facilitating welding operations. The bracket spacing can be adjusted via the sliding support to accommodate conductive arms of different lengths. The bracket height can also be flexibly adjusted to ensure proper alignment between the end and the conductive arm body. The pressure plate can rotate at the top of bolt B. When the conductive arm end is placed on top of the bracket, bolt B can be turned to raise the pressure plate. Once the pressure plate is higher than the conductive arm end, rotate the pressure plate to the top of the conductive arm end and then rotate bolt B in the opposite direction to lower the pressure plate until it fits against the top of the conductive arm end. This combination of the pressure plate and bracket restricts the position of the conductive arm end, maintaining its stability. Attached Figure Description
[0013] Figure 1 This is a schematic diagram of the overall structure of a conductive arm processing device according to the present invention.
[0014] Figure 2 This is a schematic diagram of the base and bracket structure of a conductive arm processing equipment according to the present invention.
[0015] Figure 3 This is a schematic diagram of the bracket structure of a conductive arm processing equipment according to the present invention.
[0016] Figure 4 This is a schematic diagram of the support structure of a conductive arm processing equipment according to the present invention.
[0017] In the diagram: 1. Conductive arm body; 2. Conductive arm end; 3. Support mechanism; 301. Base; 302. Slide groove; 303. Support; 304. Pulley; 305. Bracket; 306. Slide block; 307. Slider; 308. Support; 309. Connecting frame; 310. Screw hole A; 311. Bolt A; 312. Connecting ring; 4. Limiting mechanism; 401. Screw hole B; 402. Bolt B; 403. Pressure plate; 404. End ring. Detailed Implementation
[0018] To make the technical means, creative features, objectives and effects of this utility model easier to understand, the present utility model will be further described below in conjunction with specific embodiments.
[0019] like Figure 1-4 As shown, a conductive arm processing device includes a conductive arm body 1, a conductive arm end 2, and a supporting mechanism 3. The conductive arm end 2 is welded to the end of the conductive arm body 1, and the supporting mechanism 3 is provided between the bottom of the conductive arm body 1 and the conductive arm end 2. The supporting mechanism 3 includes a base 301, a slide 302, a support 303, a bracket 305, a slide 306, a support 308, a screw hole A310, and a bolt A311. The top of the base 301 has an opening. A slide groove 302 is provided and a support 303 is slidably connected to it. A bracket 305 for supporting the conductive arm body 1 is welded to the top of the support 303. A slide block 306 is slidably connected to the top of the support 303 through the slide groove 302, and a support 308 for supporting the end 2 of the conductive arm is movably connected to the top of the slide block 306. A bolt A311 is screwed into the slide block 306 through a screw hole A310 and connected to the support 308 through the bolt A311.
[0020] The system also includes a limiting mechanism 4. The top of the support 308 is provided with the limiting mechanism 4, which includes a screw hole B401, a bolt B402, and a pressure plate 403. The support 308 has screw holes B401 vertically opened on both sides inside, and bolts B402 are screwed into the screw holes B401. The pressure plate 403 is installed on the top of the bolt B402, and the top of the bolt B402 passes through the end of the pressure plate 403. The pressure plate 403 can rotate at the top of the bolt B402. When the conductive arm end 2 is placed on the top of the support 308, the bolt B402 can be turned to raise the height of the pressure plate 403. When the height of the pressure plate 403 is higher than the conductive arm end 2, the pressure plate 403 is rotated to the top of the conductive arm end 2, and then the bolt B402 is rotated in the opposite direction to lower the height of the pressure plate 403 until it fits against the top of the conductive arm end 2. The pressure plate 403 and the support 308 cooperate to limit the position of the conductive arm end 2 and keep its position stable.
[0021] The support 303 is inserted into the groove 302 at its bottom end, and a pulley 304 is installed at the bottom of the support 303 inside the groove 302. The pulley 304 structure allows the conductive arm body 1 to move horizontally by moving the bracket 305 after it is placed on top of the bracket 305.
[0022] The slide block 306 has a slider 307 at its bottom that is inserted into the slide groove 302. The support 308 has a connecting frame 309 welded to its bottom center. The bolt A311 has a connecting ring 312 welded to its top, located inside the connecting frame 309. The slider 307 is inserted into the slide groove 302. When the support 308 is not carrying the component, its position can be adjusted by sliding. When the support 308 carries the conductive arm end 2, its position is fixed by its own weight. When the bolt A311 is turned, it drives the connecting ring 312 to rotate inside the connecting frame 309, so that the bolt A311 can drive the height adjustment of the support 308.
[0023] The bolt B402 has an end ring 404 welded to its top, and the end ring 404 is located on the upper and lower sides of the surface of the pressure plate 403. The end ring 404 limits the position of the pressure plate 403 without affecting its rotation.
[0024] It should be noted that this utility model is a conductive arm processing device. In use, two sets of supports 303 and one set of slide blocks 306 slide on the top of the base 301 via a sliding groove 302. The supports 303 have a bracket 305 structure on their tops. After the base 301 is set in the processing area, a crane is used to lift the conductive arm body 1 and the conductive arm end 2 to the top of the base 301. Then, it is slowly lowered, placing the conductive arm body 1 between the brackets 305 and the conductive arm end 2 on top of the bracket 308. The bolt A311 is tightened along the screw hole A310 to adjust the height of the conductive arm end 2, aligning its welding end with the welding end of the conductive arm body 1. After alignment, the bracket 305 slides along the sliding groove 302 until the conductive arm body 1 and the conductive arm end 2 are joined together. At this point, welding is performed to fix them. During the connection process, the conductive arm remains in a stable position, facilitating welding operations. The spacing of the bracket 305 can be adjusted by the sliding support 303 to accommodate conductive arms of different lengths. At the same time, the height of the bracket 308 can also be flexibly adjusted to ensure the connection between the end and the conductive arm body 1. The pressure plate 403 can rotate at the top of the bolt B402. When the conductive arm end 2 is placed on top of the bracket 308, the bolt B402 can be turned to raise the height of the pressure plate 403. When the height of the pressure plate 403 is higher than the conductive arm end 2, the pressure plate 403 can be rotated to the top of the conductive arm end 2, and then the bolt B402 can be rotated in the opposite direction to lower the height of the pressure plate 403 until it fits against the top of the conductive arm end 2. Thus, the position of the conductive arm end 2 can be restricted by the cooperation of the pressure plate 403 and the bracket 308, keeping its position stable.
[0025] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claims. The scope of protection of this utility model is defined by the appended claims and their equivalents.
Claims
1. An electrically conductive arm processing apparatus comprising an electrically conductive arm body (1), characterized in that, It also includes a conductive arm end (2) and a support mechanism (3). The conductive arm body (1) is welded to the end of the conductive arm end (2), and a support mechanism (3) is provided between the bottom of the conductive arm body (1) and the conductive arm end (2). The support mechanism (3) includes a base (301), a slide (302), a support (303), a bracket (305), a slide (306), a support (308), a screw hole A (310), and a bolt A (311). The top of the base (301) is provided with a slide (302) and a support mechanism (311) is provided with a support mechanism (311). The slide groove (302) is slidably connected to the support (303). The support (303) has a bracket (305) welded to the top to support the conductive arm body (1). The top end of the support (303) is slidably connected to the slide seat (306) through the slide groove (302), and the top of the slide seat (306) is movably connected to the support seat (308) to support the conductive arm end (2). The slide seat (306) is screwed with a bolt A (311) through a screw hole A (310) and is connected to the support seat (308) through the bolt A (311).
2. The conductive arm processing equipment according to claim 1, characterized in that: It also includes a limiting mechanism (4). The top of the support (308) is provided with a limiting mechanism (4). The limiting mechanism (4) includes a screw hole B (401), a bolt B (402) and a pressure plate (403). The support (308) has screw holes B (401) vertically opened on both sides inside and bolts B (402) are screwed together through the screw holes B (401). A pressure plate (403) is installed on the top of the bolt B (402) and the top of the bolt B (402) passes through the end of the pressure plate (403).
3. The conductive arm processing apparatus of claim 1, wherein: The bottom end of the support (303) is inserted into the groove (302) and a pulley (304) located inside the groove (302) is installed at the bottom of the support (303).
4. The conductive arm processing apparatus of claim 1, wherein: The bottom of the slide block (306) is provided with a slider (307) that is inserted into the slide groove (302).
5. The conductive arm processing apparatus of claim 1, wherein: A connecting frame (309) is welded to the center of the bottom of the support (308), and a connecting ring (312) located inside the connecting frame (309) is welded to the top of the bolt A (311).
6. The conductive arm processing apparatus of claim 2, wherein: The bolt B (402) has an end ring (404) welded to its top, and the end ring (404) is located on the upper and lower sides of the pressure plate (403) surface.