CN113097790A

CN113097790A - Power cable connector and connection process thereof

Info

Publication number: CN113097790A
Application number: CN202110375515.XA
Authority: CN
Inventors: 史金福; 杜战芳; 佟丽英; 王清玉; 张雪
Original assignee: Shandong Focustar Cable Co ltd
Current assignee: Shandong Focustar Cable Co ltd
Priority date: 2021-04-08
Filing date: 2021-04-08
Publication date: 2021-07-09
Anticipated expiration: 2041-04-08
Also published as: CN113097790B

Abstract

The utility model provides a power cable connects and power cable connects's connection technology, its characterized in that includes butt joint subassembly, the contact pin of first cable, the slot of second cable, fixed subassembly, outsourcing subassembly, through specific connection technology, combines the cable joint that this application provided, can obtain high-quality power joint and connected mode, and the firm performance that this cable joint was exerted to the at utmost ensures power system's safety.

Description

Power cable connector and connection process thereof

Technical Field

The invention relates to the technical field related to cable connection, in particular to a power cable connector and a connection process of the power cable connector.

Background

At present, for mountainous areas and plain areas, the cable routing mode is often the high-altitude iron tower stringing mode, the wind speed in mountainous areas is high, along with the wet weather of rainwater, the danger of electric leakage easily occurs if short circuit or electric leakage occurs in cable connection, and along with the continuous improvement of the development of buildings in the power supply needs of super-high-rise and extra-high-rise buildings, the required voltage and electric quantity are larger and larger, and if the cable connection is not tight and firm enough, the danger easily occurs.

Disclosure of Invention

The invention provides a power cable connector and a connection process of the power cable connector, which are used for solving the technical problems in the background technology.

A power cable joint, comprising: the butt joint assembly comprises a contact pin of a first cable and a slot of a second cable, and the contact pin and the slot are electrically connected with the cable battery core; the fixing assembly is arranged on the peripheries of a contact pin of the first cable and a slot of the second cable, the fixing assembly is a rubber body, a protruding plate extends from the middle of the fixing assembly to the periphery, a rotating plate is arranged on the periphery of the protruding plate in a rotating mode, clamping holes are formed in the circumferential arrangement of the front end face of the rotating plate of the second cable, the clamping holes are formed in the two circular holes and are connected through curved slideways, permanent magnets are arranged in the clamping holes, the clamping holes with the permanent magnets are located in the clockwise position without the clamping holes of the permanent magnets, a buckle is arranged at the front end of the rotating plate of the first cable in a forward protruding mode, the buckle is arranged in a circumferential arrangement, and the permanent magnets are arranged at the front end of; outsourcing subassembly, the fixed subassembly outer end of first cable and second cable is equipped with the outsourcing subassembly, and outsourcing subassembly inboard is equipped with the profile the same with fixed subassembly, and the outsourcing subassembly front end of second cable department is equipped with the extension sleeve, and the inside of the outsourcing subassembly of first cable is equipped with the sleeve profile, and extension sleeve upper surface is equipped with the screw thread with the inboard upper surface of sleeve profile.

Preferably, a power cable connector is characterized in that ceramic body filling is arranged between the insertion pin of the first cable and the insertion groove of the second cable and the fixing component.

Preferably, the power cable joint is characterized in that a ball is arranged between the protruding plate and the rotating plate of the rubber body of the fixing component.

Preferably, the power cable connector is characterized in that the outer end faces of the rubber body at the rear end and the front end of the rubber body of the fixing component and the protruding plate are in a step shape, and threads are arranged on the outer end face of the rubber body at the rear end of the protruding plate.

Preferably, the power cable joint is characterized in that the outer end face of the rotating plate is provided with threads.

Preferably, a power cable connects, is equipped with the card on the hypomere lateral wall of the contact pin of its characterized in that first cable, and the inside draw-in groove that is equipped with the card of ceramic body of first cable tip.

Preferably, a power cable connects, the sinle silk tip of its characterized in that second cable is equipped with the copper and detains, and the copper is detained and is the I shape cylindricly, and the nozzle sets up the bottom at the slot.

Preferably, the power cable joint is characterized in that the magnetic poles of the fastening permanent magnetic sheets of the first cable rotating plate are opposite to the magnetic poles of the fastening permanent magnetic sheets of the second cable rotating plate.

A process for connecting a joint of electric power cables, characterized in that it comprises a joint of electric power cables according to any one of claims to and in that it carries out the following steps: s100, preprocessing a first cable end and a second cable end of each phase of cable to expose the first cable end and the second cable end layer by layer, finally exposing a wire core, and branching the exposed wire core; s200, mounting a butt joint assembly, enabling the copper buckle of the wire core at the end of the second cable to penetrate through the ceramic body and be inserted into the slot, enabling the upper end face of the copper buckle to be free from flattening treatment before the copper buckle is inserted, enabling the upper end of the copper buckle to be flattened in the slot after the copper buckle is inserted, and enabling the wire core at the end of the first cable to be in butt joint with the bottom of the contact pin; the pin penetrates out of the ceramic body, and a card at the lower part of the pin is buckled with a clamping groove in the ceramic body; s300, carrying out hot melting connection treatment on the rubber bodies at the end parts of the first cable and the second cable and the ceramic body; s400, inserting the first cable contact pin into a slot of a second cable, buckling a buckle of the first cable rotating plate with a clamping hole of the second cable rotating plate, rotating the second cable rotating plate clockwise by the first cable rotating plate to rotate anticlockwise, and adsorbing a magnetic pole of the buckle with a magnetic pole of the clamping hole; s500, the first cable outer covering assembly is in butt joint with the second cable outer covering assembly, and the first cable outer covering assembly rotates clockwise to rotate anticlockwise when the extension sleeve of the second cable outer covering assembly is inserted into the sleeve outline of the first cable outer covering assembly.

Preferably, the connection process of the power cable joint is characterized in that the rubber body at the position S and the ceramic body are subjected to hot melting treatment, and meanwhile, the rear end part of the rubber body is subjected to hot melting connection with the outer surface of the cable.

Has the advantages that: through specific connection technology, the cable joint provided by the application is combined, a high-quality power joint and a connection mode can be obtained, the stability of the cable joint is exerted to the greatest extent, and the safety of a power system is ensured.

Drawings

FIG. 1 is a schematic side view of the exemplary embodiment of the present invention;

FIG. 2 is a front view of a first cable of the present invention;

FIG. 3 is a front view of a second cable of the present invention;

FIG. 4 is an enlarged view taken at A of FIG. 1 of the present invention;

FIG. 5 is an enlarged view of FIG. 1 taken at B;

in the figure: the cable fixing structure comprises a first cable 1, a second cable 2, a pin 3, a slot 4, a rubber body 5, a raised plate 6, a clamping hole 7, a permanent magnet sheet 8, a buckle 9, an extension sleeve 10, a sleeve contour 11, a ball 12, a ceramic body 13, a clamping piece 14, a copper buckle 15, a rotating plate 16 and a fixing component 17.

Detailed Description

The present invention will now be described in detail with reference to the drawings, wherein the embodiments are shown as a part of the embodiments of the present invention, but not as a whole. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, e.g., as a fixed connection, a bolted connection, a detachable connection, or an integral connection; can be mechanically or electrically connected; the two elements can be directly connected or indirectly connected through an intermediate medium, and the two elements can be communicated with each other, so that the specific meaning of the terms in the invention can be understood by those skilled in the art.

In the description of the present application, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present application. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

A power cable joint as shown in fig. 1-5, comprising: the butt joint assembly comprises a contact pin 3 of the first cable 1 and a slot 4 of the second cable 2, and the contact pin 3 and the slot 4 are electrically connected with a cable battery core; the fixing assembly 17 is arranged on the peripheries of a contact pin 3 of the first cable 1 and a slot 4 of the second cable 2, the fixing assembly 17 is a rubber body 5, a raised plate 6 extends to the periphery of the middle of the fixing assembly 17, a rotating plate 16 is arranged on the periphery of the raised plate 6 in a rotating mode, a clamping hole 7 is formed in the circumferential arrangement of the front end face of the rotating plate 16 of the second cable 2, the clamping hole 7 is formed by connecting two circular holes through a curved slideway, a permanent magnet 8 is arranged in the clamping hole 7, the clamping hole 7 with the permanent magnet 8 is located in the clockwise position without the clamping hole 7 with the permanent magnet 8, a buckle 9 is arranged at the front end of the rotating plate 16 of the first cable 1 in a protruding mode forwards, the buckle 9 is arranged in a circumferential arrangement mode, and a permanent magnet 8 is arranged at the front end of the buckle; outsourcing subassembly, the fixed subassembly 17 outer end of first cable 1 and second cable 2 is equipped with the outsourcing subassembly, and the outsourcing subassembly inboard is equipped with the profile the same with fixed subassembly 17, and the outsourcing subassembly front end of second cable 2 department is equipped with extension sleeve 10, and the inside of the outsourcing subassembly of first cable 1 is equipped with sleeve profile 11, and extension sleeve 10 upper surface is equipped with the screw thread with the inboard upper surface of sleeve profile 11.

Furthermore, a ceramic body 13 is filled between the pin 3 of the first cable 1 and the slot 4 of the second cable 2 and the fixing component 17.

Further, balls 12 are provided between the projection plate 6 of the rubber body 5 of the fixing member 17 and the rotating plate 16.

Further, the outer end faces of the rubber body 5 at the rear end and the front end of the rubber body 5 of the fixing component 17 and the protruding plate 6 are in a step shape, and threads are arranged on the outer end face of the rubber body 5 at the rear end of the protruding plate 6.

A power cable joint according to claim 1, wherein the outer end face of the swivel plate 16 is threaded.

A power cable connector according to claim 1, wherein the pin 3 of the first cable 1 has a locking piece 14 on a lower side wall thereof, and the ceramic body 13 at the end of the first cable 1 has a locking groove for the locking piece 14.

A power cable joint according to claim 1, wherein the end of the core of the second cable 2 is provided with a copper button 15, the copper button 15 is in an i-shaped cylindrical shape, and the cylindrical opening is arranged at the bottom end of the slot 4.

A power cable joint according to claim 1, wherein the magnetic poles of the permanent magnet tabs 8 of the catches 9 of the rotatable plate of the first cable 1 are opposite to the magnetic poles of the permanent magnet tabs 8 of the catch holes 7 of the rotatable plate of the second cable 2.

A process for connecting a joint of electric power cables, characterized in that it comprises a joint of electric power cables according to any one of claims 1 to 8 and in that it carries out the following steps: s100, preprocessing a first cable 1 end and a second cable 2 end of each phase of cable to expose the first cable 1 end and the second cable 2 end layer by layer, finally exposing a wire core, and branching the exposed wire core; s200, mounting a butt joint assembly, enabling the copper buckle 15 of the wire core at the end of the second cable 2 to penetrate through the ceramic body 13 to be inserted into the slot 4, enabling the upper end face of the copper buckle 15 to be free from flattening treatment before the copper buckle 15 is inserted, enabling the upper end of the copper buckle 15 to be flattened in the slot 4 after the copper buckle 15 is inserted, and enabling the wire core at the end of the first cable 1 to be in butt joint with the bottom of the contact pin 3; the pin 3 penetrates out of the ceramic body 13 and a clamping piece 14 at the lower part of the pin 3 is buckled with a clamping groove in the ceramic body 13; s300, carrying out hot melting connection treatment on the rubber bodies 5 at the end parts of the first cable 1 and the second cable 2 and the ceramic body 13; s400, inserting a pin 3 of a first cable 1 into a slot 4 of a second cable 2, buckling a buckle 9 of a rotating plate of the first cable 1 with a clamping hole 7 of a rotating plate of the second cable 2, rotating the rotating plate of the first cable 1 clockwise and rotating the rotating plate of the second cable 2 anticlockwise, and adsorbing a magnetic pole of the buckle 9 with a magnetic pole of the clamping hole 7; s500, the first cable 1 outer wrapping component is in butt joint with the second cable 2 outer wrapping component, the extension sleeve 10 of the second cable 2 outer wrapping component is inserted into the sleeve contour 11 of the first cable 1 outer wrapping component in a rotating mode, the first cable 1 outer wrapping component rotates clockwise, and the second cable 2 outer wrapping component rotates anticlockwise.

Further, the rubber body 5 and the ceramic body 13 at S300 are subjected to a hot-melting process, and the rear end portion of the rubber body 5 is connected to the outer surface of the cable in a hot-melting manner.

The butt joint component comprises a pin 3 of a first cable 1 and a slot 4 of a second cable 2, ceramic bodies 13 are arranged between the pin 3 of the first cable 1 and the slot 4 of the second cable 2 and fixed components 17 for filling, the pin 3 and the slot 4 are arranged in a flat manner, the pin 3 and the slot 4 are electrically connected with a cable core, the fixed components 17 are arranged on the peripheries of the pin 3 of the first cable 1 and the slot 4 of the second cable 2, the fixed components 17 are rubber bodies 5, a convex plate 6 extends from the middle part of the fixed components 17 to the periphery, a rotating plate 16 is rotatably arranged on the periphery of the convex plate 6, clamping holes 7 are circumferentially arranged on the front end surface of the rotating plate 16 of the second cable 2, the clamping holes 7 are two circular holes connected through curved slideways, permanent magnets 8 are arranged in the clamping holes 7, the clamping holes 7 with the permanent magnets 8 are positioned in the clockwise direction without the clamping holes 7 with the permanent magnets 8, the front end of a rotating plate 16 of a first cable 1 is provided with buckles 9 in a forward protruding manner, the buckles 9 are arranged in a circumferential manner, the front end of each buckle 9 is provided with a permanent magnet sheet 8, the outer ends of fixing components 17 of the first cable 1 and a second cable 2 are provided with outer covering components, the inner sides of the outer covering components are provided with profiles the same as those of the fixing components 17, the fixing components 17 can be made of rubber materials or polymer fiber materials, the front end of the outer covering component at the position of the second cable 2 is provided with an extending sleeve 10, the inner part of the outer covering component of the first cable 1 is provided with a sleeve profile 11, the upper surface of the extending sleeve 10 and the upper surface of the inner side of the sleeve profile 11 are provided with threads, balls 12 are arranged between a protruding plate 6 and the rotating plate 16 of a rubber body 5 of the fixing component 17, friction can be effectively reduced when the rotating plate 16 is rotated, the outer end faces of the rubber body 5, the outer end face of the rubber body 5 at the rear end of the convex plate 6 is provided with threads, the outer end face of the rotating plate 16 is provided with threads, the lower section side wall of the inserting pin 3 is provided with a clamping piece 14, the inside of a ceramic body 13 at the end part of the first cable 1 is provided with a clamping groove of the clamping piece 14, the end part of the wire core of the second cable 2 is provided with a copper buckle 15, the copper buckle 15 is in an I-shaped cylinder shape, a cylinder opening is arranged at the bottom end of the inserting groove 4, the magnetic pole of a buckle 9 permanent magnetic sheet 8 of the rotating plate of the first cable 1 is opposite to the magnetic pole of a clamping hole 7 permanent magnetic sheet 8 of the rotating plate of the second cable 2, the end of the first cable 1 and the end of the second cable 2 of each phase of cable are preprocessed, so that the end of the first cable 1 and the end of the second cable 2 are exposed layer by layer, the wire core is finally exposed, the wire core is separated, a butt joint, the upper end face of the copper buckle 15 is not flattened before the copper buckle 15 is inserted, the upper end of the copper buckle 15 is flattened in the slot 4 after the copper buckle 15 is inserted, and a wire core at the end of the first cable 1 is butted with the bottom of the contact pin 3; the pin 3 penetrates out of the ceramic body 13, a clamping piece 14 at the lower part of the pin 3 is buckled with a clamping groove in the ceramic body 13, the rubber body 5 at the end parts of the first cable 1 and the second cable 2 is in hot melting connection with the ceramic body 13, the pin 3 of the first cable 1 is inserted into a slot 4 of the second cable 2, a buckle 9 of a rotating plate of the first cable 1 is buckled with a clamping hole 7 of a rotating plate of the second cable 2, the rotating plate of the first cable 1 rotates clockwise the rotating plate of the second cable 2 and rotates anticlockwise, a magnetic pole of the buckle 9 is adsorbed with a magnetic pole of the clamping hole 7, an outsourcing component of the first cable 1 is butted with an outsourcing component of the second cable 2, an extending sleeve 10 of the outsourcing component of the second cable 2 is inserted into a sleeve contour 11 of the outsourcing component of the first cable 1 in a rotating mode that the outsourcing component of the first cable 1 rotates clockwise the second cable, the rear end of the rubber body 5 is connected to the outer surface of the cable by thermal fusion.

The above-described embodiments of the present invention should not be construed as limiting the scope of the present invention, and any modifications, equivalents, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims

1. A connection process of a power cable joint is characterized by comprising the following steps: the butt joint assembly comprises a contact pin (3) of the first cable (1) and a slot (4) of the second cable (2), and the contact pin (3) and the slot (4) are electrically connected with the cable battery core; the fixing component (17), the periphery of the inserting pin (3) of the first cable (1) and the periphery of the slot (4) of the second cable (2) are provided with the fixing component (17), the fixing component (17) is a rubber body (5), the middle part of the fixing component (17) extends to the periphery to form a convex plate (6), the periphery of the convex plate (6) is rotatably provided with a rotating plate (16), the front end surface of the rotating plate (16) of the second cable (2) is circumferentially provided with clamping holes (7), the clamping holes (7) are two circular holes which are connected through a curved slideway, a permanent magnet sheet (8) is arranged in the clamping hole (7), the clamping hole (7) with the permanent magnet sheet (8) is positioned at a clockwise position without the clamping hole (7) with the permanent magnet sheet (8), the front end of a rotating plate (16) of the first cable (1) is provided with buckles (9) in a protruding mode, the buckles (9) are arranged in a circumferential mode, and the front end of each buckle (9) is provided with the permanent magnet sheet (8); outsourcing subassembly, fixed subassembly (17) outer end of first cable (1) and second cable (2) is equipped with the outsourcing subassembly, the outsourcing subassembly inboard is equipped with the profile the same with fixed subassembly (17), the outsourcing subassembly front end of second cable (2) department is equipped with extension sleeve (10), the inside of the outsourcing subassembly of first cable (1) is equipped with sleeve profile (11), extension sleeve (10) upper surface is equipped with the screw thread with sleeve profile (11) inboard upper surface.

2. A power cable joint according to claim 1, characterized in that a ceramic body (13) filling is provided between the pin (3) of the first cable (1) and the socket (4) of the second cable (2) and the fixing member (17).

3. A power cable joint according to claim 1, characterized in that balls (12) are provided between the raised plate (6) and the rotating plate (16) of the rubber body (5) of the stationary assembly (17).

4. A power cable joint according to claim 1, wherein the outer end faces of the rubber body (5) at the rear end and the front end of the rubber body (5) of the fixing member (17) are stepped with the projection plate (6), and the outer end face of the rubber body (5) at the rear end of the projection plate (6) is provided with a screw thread.

5. A power cable joint according to claim 1, wherein the outer end surface of the swivel plate (16) is provided with a screw thread.

6. A power cable joint according to claim 1, wherein the side wall of the lower section of the pin (3) of the first cable (1) is provided with a clamping piece (14), and the inside of the ceramic body (13) at the end of the first cable (1) is provided with a clamping groove for the clamping piece (14).

7. A power cable joint according to claim 1, characterized in that the end of the core of the second cable (2) is provided with a copper button (15), the copper button (15) is in the shape of an i-cylinder, and the socket is arranged at the bottom of the slot (4).

8. A power cable joint according to claim 1, characterized in that the poles of the permanent magnet tabs (8) of the catches (9) of the rotatable plate of the first cable (1) are opposite to the poles of the permanent magnet tabs (8) of the catch holes (7) of the rotatable plate of the second cable (2).

9. A process for connecting a joint of electric power cables, characterized in that it comprises a joint of electric power cables according to any one of claims 1 to 8 and in that it carries out the following steps: s100, preprocessing a first cable (1) end and a second cable (2) end of each phase of cable to expose the first cable (1) end and the second cable (2) end layer by layer, finally exposing a wire core, and branching the exposed wire core; s200, mounting a butt joint assembly, enabling a copper buckle (15) of a wire core at the end of the second cable (2) to penetrate through the ceramic body (13) and be inserted into the slot (4), enabling the upper end face of the copper buckle (15) not to be flattened before the copper buckle (15) is inserted, enabling the upper end of the copper buckle (15) to be flattened in the slot (4) after the copper buckle (15) is inserted, and enabling the wire core at the end of the first cable (1) to be in butt joint with the bottom of the contact pin (3); the pin (3) penetrates out of the ceramic body (13) and a card (14) at the lower part of the pin (3) is buckled with a clamping groove in the ceramic body (13); s300, carrying out hot melting connection treatment on the rubber bodies (5) at the end parts of the first cable (1) and the second cable (2) and the ceramic body (13); s400, inserting a pin (3) of a first cable (1) into a slot (4) of a second cable (2), buckling a buckle (9) of a rotating plate of the first cable (1) with a clamping hole (7) of the rotating plate of the second cable (2), rotating the rotating plate of the first cable (1) clockwise to rotate the rotating plate of the second cable (2) anticlockwise, and adsorbing a magnetic pole of the buckle (9) with a magnetic pole of the clamping hole (7); s500, the first cable (1) outer wrapping assembly is in butt joint with the second cable (2) outer wrapping assembly, and the extending sleeve (10) of the second cable (2) outer wrapping assembly is inserted into the sleeve contour (11) of the first cable (1) outer wrapping assembly in a rotating mode, so that the first cable (1) outer wrapping assembly rotates clockwise, and the second cable (2) outer wrapping assembly rotates anticlockwise.

10. A process for connecting a joint of a power cable according to claim 9, wherein the thermal fusion treatment of the rubber body (5) and the ceramic body (13) at S (300) is performed simultaneously with the thermal fusion connection of the rear end portion of the rubber body (5) and the outer surface of the cable.