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CN-224217292-U - Forming device for processing aluminum alloy conductor

CN224217292UCN 224217292 UCN224217292 UCN 224217292UCN-224217292-U

Abstract

The utility model provides a forming device for processing an aluminum alloy conductor, which relates to the technical field of conductor forming and comprises a round cavity shell and a stranded wire type fine tuning forming mechanism, wherein the stranded wire type fine tuning forming mechanism is arranged on one side of the round cavity shell, when the forming device is used, through the arrangement of a rotary type regular assembly and a bearing adjusting threading assembly, in the process of forming the aluminum alloy conductor, the proper programming angle can be adjusted through sleeving bearings according to different use conditions, the rotary type regular assembly of a head part is driven to deviate, the tightness of a plurality of aluminum alloy conductors is guaranteed to be adjusted through the rotary type regular assembly, the aluminum alloy conductors are positioned through a quick-connection type positioning forming assembly at the front end, after the positioning is finished, the quick-connection type positioning forming assembly at the front end is rotationally stretched through disassembling a quick-disassembly type splicing pin, the aluminum alloy conductors with the inner end positioned are rotationally stretched and formed, and the compactness of the formed aluminum alloy conductors is guaranteed.

Inventors

  • Hu Yingde
  • ZHAO BAOQING

Assignees

  • 河北坤鑫铝合金科技有限公司

Dates

Publication Date
20260508
Application Date
20250610

Claims (5)

  1. 1. The forming device for processing the aluminum alloy conductor comprises a round cavity shell (1) and a stranded wire type fine tuning forming mechanism (2) and is characterized in that the stranded wire type fine tuning forming mechanism (2) is arranged on one side of the round cavity shell (1); Stranded wire type fine setting forming mechanism (2) are including fixed threading subassembly (21), bearing regulation formula threading subassembly (22), regular subassembly of rotation type (23) and connect formula location shaping subassembly (24 soon), one side of circular cavity shell (1) is provided with fixed threading subassembly (21) of cup jointing, the other end of circular cavity shell (1) is provided with bearing regulation formula threading subassembly (22), the other end of fixed threading subassembly (21) of cup jointing is provided with regular subassembly of rotation type (23), one side of regular subassembly of rotation type (23) is provided with connects formula location shaping subassembly (24 soon).
  2. 2. The forming device for aluminum alloy conductor processing according to claim 1, wherein the fixed sleeve threading assembly (21) comprises a sleeve housing (211), a first outer end threading port (212), a clamping inclined plate (213) and a main line threading port (214), the sleeve housing (211) is fixedly sleeved at the outer end of one side of the circular cavity housing (1), the first outer end threading port (212) is fixedly connected to the outer side of the sleeve housing (211), the clamping inclined plate (213) is fixedly connected to one side of the circular cavity housing (1), and the main line threading port (214) is fixedly connected to the inner side of the clamping inclined plate (213).
  3. 3. The forming device for processing the aluminum alloy conductor according to claim 1, wherein the bearing adjusting type threading assembly (22) comprises a sleeve bearing (221), a movable rotary sleeve (222) and a second outer end threading opening (223), the sleeve bearing (221) is fixedly sleeved on the other side of the outer end of the circular cavity shell (1), the movable rotary sleeve (222) is rotatably sleeved on the outer end of the sleeve bearing (221), and the second outer end threading opening (223) is fixedly connected to the outer side of the movable rotary sleeve (222).
  4. 4. The forming device for aluminum alloy conductor processing according to claim 2, wherein the rotary type regulating assembly (23) comprises a sleeved rotary sleeve (231), a fastening bolt (232), an outer end threading sleeve plate (233) and an oblique threading opening (234), the other end of the main line threading port (214) is rotatably sleeved with the sleeved rotary sleeve (231), the outer end of the sleeved rotary sleeve (231) is in threaded connection with the outer end threading sleeve plate (233) through the fastening bolt (232), and the surface of the outer end threading sleeve plate (233) is provided with the oblique threading opening (234).
  5. 5. The forming device for aluminum alloy conductor processing according to claim 4, wherein the quick-connection type positioning forming assembly (24) comprises a fixed positioning shell (241), a quick-release type plug pin (242), a conductor wire harness positioning hole (243), a fixed support rod (244) and a rotary connecting support (245), one end of the outer end threading sleeve plate (233) is fixedly connected with the fixed positioning shell (241) in a plug manner through the quick-release type plug pin (242), the conductor wire harness positioning hole (243) is formed in the inner side of the fixed positioning shell (241), one side of the fixed positioning shell (241) is fixedly connected with the fixed support rod (244), and the surface of the fixed support rod (244) is fixedly sleeved with the rotary connecting support (245).

Description

Forming device for processing aluminum alloy conductor Technical Field The utility model relates to the technical field of conductor forming, in particular to a forming device for aluminum alloy conductor processing. Background In the field of construction, particularly in large-scale construction and high-rise construction, higher requirements are put forward on the safety, reliability and economy of electric wiring, and the aluminum alloy conductor has good electric performance and mechanical performance, is light in weight and low in cost, can meet the requirements of a building electric system, and in order to adapt to the development of the building industry, a special forming device is needed to process the aluminum alloy conductor suitable for the electric wiring of the building, such as wires and cables with various specifications. However, in the process of braiding and forming the aluminum alloy conductor, the tightness and uniformity of the braiding layer are difficult to accurately control, if the tension is controlled improperly in the braiding process, the braiding layer may be too loose or too tight, the too loose braiding layer cannot provide effective protection and support for the inner conductor and is easy to deform when being subjected to external force, and the too tight braiding layer may generate additional pressure on the inner conductor to affect the performance of the conductor. Thus, we provide a forming device for processing an aluminum alloy conductor to solve the above problems. Disclosure of utility model The utility model aims to provide a forming device for processing an aluminum alloy conductor, which solves the problems in the prior art. The utility model provides a forming device for processing an aluminum alloy conductor, which comprises a round cavity shell and a stranded wire type fine tuning forming mechanism, wherein the stranded wire type fine tuning forming mechanism is arranged on one side of the round cavity shell; stranded wire formula fine setting forming mechanism is including fixed threading subassembly, the regular subassembly of bearing regulation formula threading subassembly, rotation type and the location forming subassembly that connects soon, one side of circular cavity shell is provided with the fixed threading subassembly that cup joints, the other end of circular cavity shell is provided with the bearing regulation formula threading subassembly, the fixed other end of cup jointing the threading subassembly is provided with the regular subassembly of rotation type, one side of the regular subassembly of rotation type is provided with the location forming subassembly that connects soon. Preferably, the fixed threading subassembly that cup joints includes cup joints shell, first outer end threading mouth, centre gripping swash plate and main line threading port, the fixed cup joints shell that cup joints of one side outer end of circular cavity shell, the outside fixedly connected with first outer end threading mouth of cup joints the shell, one side fixedly connected with centre gripping swash plate of circular cavity shell, the inboard fixedly connected with main line threading port of centre gripping swash plate. Preferably, the bearing adjusting type threading assembly comprises a sleeve bearing, a movable rotary sleeve shell and a second outer end threading opening, the sleeve bearing is fixedly sleeved on the other side of the outer end of the circular cavity shell, the movable rotary sleeve shell is rotatably sleeved on the outer end of the sleeve bearing, and the second outer end threading opening is fixedly connected to the outer side of the movable rotary sleeve shell. Preferably, the rotary type regular assembly comprises a sleeved rotary sleeve, a fastening bolt, an outer end threading sleeve plate and an oblique threading opening, the other end of the main line threading port is rotatably sleeved with the sleeved rotary sleeve, the outer end of the sleeved rotary sleeve is connected with the outer end threading sleeve plate through the fastening bolt in a threaded manner, and the surface of the outer end threading sleeve plate is provided with the oblique threading opening. Preferably, the quick-connection type positioning forming assembly comprises a fixed positioning shell, a quick-release type plug pin, a conductor wire harness positioning hole, a fixed support rod and a rotary connection support, wherein one end of the outer end threading sleeve plate is fixedly connected with the fixed positioning shell in a plug manner through the quick-release type plug pin, the conductor wire harness positioning hole is formed in the inner side of the fixed positioning shell, one side of the fixed positioning shell is fixedly connected with the fixed support rod, and the surface fixing of the fixed support rod is sleeved with the rotary connection support. Compared with the prior art, the utility model has the beneficial effects that: Through the