CN212571379U - Main tributary cable conductor crimping is with connecting copper plate in advance branch cable course of working - Google Patents
Main tributary cable conductor crimping is with connecting copper plate in advance branch cable course of working Download PDFInfo
- Publication number
- CN212571379U CN212571379U CN202020972405.2U CN202020972405U CN212571379U CN 212571379 U CN212571379 U CN 212571379U CN 202020972405 U CN202020972405 U CN 202020972405U CN 212571379 U CN212571379 U CN 212571379U
- Authority
- CN
- China
- Prior art keywords
- cable conductor
- copper plate
- connecting copper
- conductor
- branch cable
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Images
Landscapes
- Connections Effected By Soldering, Adhesion, Or Permanent Deformation (AREA)
Abstract
The utility model discloses a main tributary cable conductor crimping is with connecting copper plate in advance branch cable manufacturing process, its characterized in that, the thickness of connecting copper plate increases gradually with main cable conductor and the sum of branch cable conductor sectional area, the width of connecting copper plate is confirmed according to the size of a branch cable conductor and widens gradually with the diameter increase of a main cable conductor, the length of connecting copper plate guarantees that the clearance at length direction both ends is in controllable range after the cladding of main cable conductor, branch cable conductor of connecting copper plate; and after the main cable conductor and the branch cable conductor are coated by the connecting copper plate, the main cable conductor and the branch cable conductor are crimped by a crimping die. The utility model discloses make main push-towing rope conductor, branch cable conductor guarantee the crimping quality and the crimping intensity of product after the crimping, avoided directly selecting for use in the past "C" type pipe size and conductor size not agree with the relatively poor or the condition that causes the conductor damage of conductor crimping quality that causes.
Description
Technical Field
The utility model relates to a branch cable technical field in advance, in particular to main tributary cable conductor crimping is with connecting copper in the branch cable course of working in advance.
Background
Compared with the traditional technology of processing cable branch joints or advanced bus ducts on construction sites, the prefabricated branch cable has the following advantages: 1) the cost of the insulation treatment of the branch joint is greatly reduced; 2) the on-site construction period is short, the cost is greatly reduced, and the method is simple; 3) the method is not limited by the space and environmental conditions of a construction site; 4) the insulation performance of the branch connecting body is consistent with that of the cable main body, the insulation performance is excellent, and the reliability is high; 5) the product has higher shock resistance, waterproof performance and fire resistance; 6) the power supply is safe and reliable; 7) the application range is wide, and the variety and the specification are more; 8) the user can conveniently select cables with various specifications, models, sections and lengths, and the cables can be used as a plurality of characteristics such as any collocation of main cables and branch cables. Based on the advantages, the prefabricated branch cable is widely applied to various medium and high-rise buildings such as residential buildings, office buildings, business buildings, teaching buildings, scientific research buildings and the like.
The key technology of the branch cable processing production is the crimping of the main cable conductor and the branch cable conductor, the integral injection molding of the branch body and the waterproof treatment of the branch body.
The connection of the multi-core pre-branch main cable and the branch cable conductors is realized by pressing C-shaped copper pipes. Stripping sheaths and insulations of the main cable and the branch cable, exposing conductors, then sequentially clamping corresponding cable core conductors between the main cable and the branch cable by using a C-shaped copper pipe with an opening on the half surface, then pressurizing the C-shaped copper pipe by using special hydraulic equipment with a proper mould, and deforming the C-shaped copper pipe after pressurization to clamp the main cable and the branch cable conductors. And carrying out insulation treatment on the connected branch connecting part by an injection molding method, and injecting a layer of insulator with proper material and thickness to ensure that the branch cable connecting part has good insulation performance. Because the injection molding mode is adopted, the material of the branched connecting body is required to have better flow property. In addition, the branch cable connector needs to be subjected to a water-immersed pressure-resistant and water-immersed insulation resistance test, which puts high requirements on the sealing performance of the branch cable connector.
After a main line and a branch cable conductor are crimped, the crimping strength and the crimping quality of a main branch cable conductor are two more critical parameters, and when a C-shaped pipe connector is selected according to the sum of the nominal sectional areas of the main branch cable in JB/T106360-2006 copper core plastic insulation prefabricated branch cable with rated voltage of 0.6/1kV (Um is 1.2kV), the situations that a large C-shaped pipe is selected too large, the crimping strength between conductors is not enough, a small C-shaped pipe is selected too small, and a conductor single wire is damaged due to excessive conductor pressing machine often occur.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the technical problem that aim at designing one kind according to main tributary cable conductor actual dimension and carry out the crimping between the main tributary cable conductor with connecting the copper in the crimping of main tributary cable conductor in advance to avoid chooseing for use the problem of "C" type pipe oversize undersize according to above-mentioned method.
The utility model discloses the technical problem that will solve can realize through following technical scheme:
a connecting copper plate for crimping a main cable conductor in the process of processing a pre-branch cable is disclosed, wherein the thickness of the connecting copper plate is gradually increased along with the increase of the sum of the sectional areas of the main cable conductor and the branch cable conductor, the width of the connecting copper plate is determined according to the size of the branch cable conductor and is gradually increased along with the increase of the diameter of the main cable conductor, and the length of the connecting copper plate ensures that gaps at two ends of the connecting copper plate in the length direction after the main cable conductor and the branch cable conductor are coated are within a controllable range; and after the main cable conductor and the branch cable conductor are coated by the connecting copper plate, the main cable conductor and the branch cable conductor are crimped by a crimping die.
In a preferred embodiment of the present invention, when the connecting copper plate is preformed, the radial cross section of the connecting copper plate is formed by a semicircular portion adapted to the outer diameter of the main cable conductor, an inclined portion and a straight portion, one end of the inclined portion is tangent to the semicircular portion, and the other end of the inclined portion is connected to the straight portion through an arc transition.
Since the technical scheme as above is used, the utility model discloses make main cable conductor, branch cable conductor guarantee the crimping quality and the crimping intensity of product after the crimping, avoided directly selecting for use in the past "C" type pipe size not agreeing with the relatively poor or the condition that causes the conductor damage of conductor crimping quality that causes with the conductor size.
Drawings
Fig. 1 is a side view of the connection copper plate of the present invention.
Fig. 2 is a front view of the connection copper plate of the present invention.
Fig. 3 is a perspective view of the connection copper plate of the present invention.
Fig. 4 is a schematic cross-sectional view of the connection copper plate of the present invention.
Fig. 5 is a schematic cross-sectional view of the connecting copper plate after being crimped to the main cable conductor and the branch cable conductor.
Detailed Description
The present invention is described in detail below with reference to the accompanying drawings and specific embodiments.
Referring to fig. 1 to 3, the thickness S of the connection copper plate 10 shown in the figures is determined, and the thickness S of the connection copper plate 10 is determined according to the actual size of the cross section of the main cable conductor 20 by referring to appendix a of JB/T106360-2006 "rated voltage 0.6/1kV (Um ═ 1.2kV) copper core plastic insulation prefabricated branch cable", and the thickness S of the connection copper plate 10 gradually increases as the sum of the sectional areas of the main cable conductor 20 and the branch cable conductor 30 increases.
The width H of the connecting copper plate 10 is determined, the thickness H of the connecting copper plate 10 is determined according to the size of the outer diameter D1 of the branch cable conductor 30, and the width H of the connecting copper plate 10 is gradually widened as the size of the outer diameter D2 of the main cable conductor 20 is increased.
And determining the length L of the connecting copper plate, analyzing the actual conditions of the main cable conductor 20 and the branch cable conductor 30, and pre-analyzing the relative positions of the connecting copper plate 10, the main cable conductor 20 and the branch cable conductor 30 after molding, so as to determine the length L of the connecting copper plate 10 and ensure that the gap C1 between the two ends of the connecting copper plate 10 in the length direction is within a controllable range.
And (3) processing and crimping the connecting copper plate 10, after determining three parameters of the length L, the width H and the thickness S of the connecting copper plate 10, selecting a copper plate with the same composition as the main cable conductor 20 and the branch cable conductor 30, cutting the copper plate, and designing a proper crimping mold to crimp the main cable conductor 20 and the branch cable conductor 30 after finishing.
Before crimping, the connecting copper plate 10 is preformed, the radial section of the preformed connecting copper plate 10 is composed of a semicircular part 11, an inclined part 12 and a straight part 13, the semicircular part 11 is matched with the outer diameter of the main cable conductor 20, one end of the inclined part 12 is tangent to the semicircular part 11, and the other end of the inclined part 12 is in transition connection with the straight part 13 through an arc 14.
The utility model discloses make main push-towing rope conductor, branch cable conductor guarantee the crimping quality and the crimping intensity of product after the crimping, avoided directly selecting for use in the past "C" type pipe size and conductor size not agree with the relatively poor or the condition that causes the conductor damage of conductor crimping quality that causes.
Claims (2)
1. A connecting copper plate for crimping a main cable conductor in the process of processing a pre-branch cable is characterized in that the thickness of the connecting copper plate is gradually increased along with the increase of the sum of the sectional areas of the main cable conductor and the branch cable conductor, the width of the connecting copper plate is determined according to the size of the branch cable conductor and is gradually increased along with the increase of the diameter of the main cable conductor, and the length of the connecting copper plate ensures that gaps at two ends of the connecting copper plate in the length direction after the main cable conductor and the branch cable conductor are coated are within a controllable range; and after the main cable conductor and the branch cable conductor are coated by the connecting copper plate, the main cable conductor and the branch cable conductor are crimped by a crimping die.
2. The connecting copper plate for crimping a main cable conductor in the process of manufacturing a pre-branch cable according to claim 1, wherein the connecting copper plate is preformed to have a radial cross section comprising a semicircular portion corresponding to the outer diameter of the main cable conductor, a slant portion and a straight portion, one end of the slant portion is tangent to the semicircular portion, and the other end of the slant portion is transitionally connected to the straight portion through an arc.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202020972405.2U CN212571379U (en) | 2020-06-01 | 2020-06-01 | Main tributary cable conductor crimping is with connecting copper plate in advance branch cable course of working |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202020972405.2U CN212571379U (en) | 2020-06-01 | 2020-06-01 | Main tributary cable conductor crimping is with connecting copper plate in advance branch cable course of working |
Publications (1)
Publication Number | Publication Date |
---|---|
CN212571379U true CN212571379U (en) | 2021-02-19 |
Family
ID=74637643
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN202020972405.2U Active CN212571379U (en) | 2020-06-01 | 2020-06-01 | Main tributary cable conductor crimping is with connecting copper plate in advance branch cable course of working |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN212571379U (en) |
-
2020
- 2020-06-01 CN CN202020972405.2U patent/CN212571379U/en active Active
Similar Documents
Publication | Publication Date | Title |
---|---|---|
EP2115828B1 (en) | Knurled inner sleeve for a cable connector | |
CN101149996A (en) | Multiple fission copper or aluminum busbar | |
US6495757B2 (en) | Cable joint using a semi-conductive tubular assembly and method to obtain a smoothly shielded connector | |
CN103247390A (en) | Compound insulation fireproof cable of pre-branch flexible mineral and manufacture method thereof | |
CN111710996A (en) | Main tributary cable conductor crimping is with connecting copper plate in advance branch cable course of working | |
CN212571379U (en) | Main tributary cable conductor crimping is with connecting copper plate in advance branch cable course of working | |
CN204947556U (en) | The transition joint of a kind of 66 ~ 220kV aluminium conductor crosslinked cable | |
CN101777706A (en) | Cable reducer conductor connecting structure for nuclear power plant | |
CN204423965U (en) | A kind of multicore aluminium alloy pre-branched cable | |
CN102945703A (en) | Pre-fabricated branch cable | |
CN2372794Y (en) | Electric wire connector with socket function | |
CN205881498U (en) | Prefabricated branch cable of aluminum alloy | |
CN202678533U (en) | Connector and connection device used for conductor connection | |
CN209963294U (en) | Insulating sealing joint and connecting structure thereof | |
CN2593429Y (en) | Ultrahigh voltage cablejoint sealing protection box | |
CN204030541U (en) | A kind of cable built-in optical fiber transition joint | |
CN203480863U (en) | Ready-made branch cable | |
CN203983938U (en) | A kind of cable intermediate joint | |
CN102751596B (en) | Connector used for conductor connection, connection device and cold link technology for conductor connection | |
CN110853804A (en) | Pre-branching cable and manufacturing method thereof | |
CN215008604U (en) | High-strength cable connection structure | |
CN217506925U (en) | Mining rubber sleeve cable of long-life ageing resistance | |
CN114744463B (en) | Manufacturing process of copper-aluminum transition wiring terminal with high tensile strength | |
CN217468815U (en) | Crimping type single core aluminum cable branch connecting pipe | |
CN211828233U (en) | Copper core high temperature resistant branch cable |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |