KR102053271B1 - Wire applyed shielding part of high voltage cable and manufacturing method thereof - Google Patents

Abstract

The present invention provides a high voltage cable in which cores, insulators, braided wires, and sheaths are sequentially arranged from the center to the outward direction; An outer seal installed on the outer surface of the sheath, an inner seal spaced apart from the outer seal, and an outer seal installed on the outer face of the sheath and the sheath between the outer seal and the inner seal are removed to expose the braided wire to the outside. A shielding grounding body formed of a contact ring having one end inserted into contact with the outer seal and the other end removed with the coating and inserted into the outer surface of the braided wire exposed to the outside to contact the inner seal; A terminal installed to be electrically connected to the core wire exposed to the outside of the inner seal end; Provided is a shielded grounding portion of a high voltage cable, including.

Description

Shielded grounding part of high voltage cable and manufacturing method thereof {WIRE APPLYED SHIELDING PART OF HIGH VOLTAGE CABLE AND MANUFACTURING METHOD THEREOF}

The present invention relates to a shielding grounding portion, and more particularly, to a shielding grounding portion of a high-voltage cable that can reduce the number of parts and work processes to reduce investment costs and improve workability.

Wiring harnesses generally used in automobiles are wires installed in the vehicle body for ignition, lighting, and charging of automobiles. Electrical wiring.

The wiring harness is connected to various injection products such as an electric device, a protector, a fuse box, etc. mounted in a vehicle, and serves to operate by supplying electric signals or power transmitted from a control unit.

At this time, the electric wire used in the wiring harness as described above is usually disposed in the center is a conductor with a current flowing around the conductor surrounded by an insulator.

By the way, electromagnetic waves are emitted from such electric wires, and noise is generated because electromagnetic waves penetrate the electric wires from the outside.

Therefore, in order to prevent the occurrence of noise, a conductive layer for shielding is formed on the conductor of the wire, and shielded wires coated with an insulating layer are developed and used to reduce the risk of electric shock thereon.

The shielded wire is difficult to emit electromagnetic waves to the outside because the electromagnetic waves generated from the current flowing conductor is shielded by the conductive layer for shielding, it is possible to prevent the electromagnetic waves from flowing into the wire.

1 is a plan view illustrating a structure of a conventional cable shield grounding portion, and FIG. 2 is a plan view sequentially illustrating a process of manufacturing the cable shield grounding portion of FIG. 1.

As shown in these figures, the conventional cable shielding ground portion is a high voltage cable 10 in which the core wire 11, the insulator 12, the braided wire 13, and the sheath 14 are sequentially arranged along the outer direction from the center. ), An outer seal 21 provided on an outer surface of the sheath 14, an inner seal 22 and an outer seal installed on an outer surface of the insulator 12 spaced apart from the outer seal 21 and exposed to the outside. The shielding ground body 20 which consists of the clamping ring 24 and the clamping shield 23 installed in the outer surface which the braided wire 13 was exposed to the exterior by removing the coating | cover 14 between the inner seal 22 and 21). And a terminal 30 connected to the core wire.

First, the high voltage cable 10 includes a core 11, an insulator 12 coated on an outer surface of the core 11 to insulate the core 11, and an insulator (the core 11 has a shielding performance). A braided line 13 provided to surround the insulator 12 with a mesh-shaped line on the outer surface of 12) and a braided line 13 on the outer surface of the braided line 13 are provided with a core line 11 and a piece. It consists of the coating | cover 14 which protects the shipbuilding 13 from the outside.

The core wire 11 may be made of any material as long as it is a conductive metal material capable of conducting electricity, and a plurality of strands are twisted to form one thick line to enable transmission of low voltage and high voltage.

The insulator 12 is coated on the outer surface of the core wire 11 to insulate the core wire 11, and is formed to have a circular cross section so as to have a uniform thickness on the outer surface of the core wire 11 disposed at the center thereof. It is preferred to be coated.

The braided wire 13 needs a ground process to remove noise generated when current flows in the core 11, and a clamp shield 23 is used during such ground process.

The outer shell 14 is provided to surround the braided line 13 on the outer surface of the braided line 13 to protect the core 11 and the braided line 13 from the outside.

The outer seal 21 constituting the shielding ground body 20 is a ring-shaped member having a predetermined length in which both sides are opened and a hollow is formed so as to be inserted into and fixed to the outer surface of the sheath 14 at the end of the high voltage cable 10. to be.

The inner seal 22 is installed on the outer surface of the insulator 12 exposed to the outside and serves to compress the terminal 30 when connecting the core wire 11 and the terminal 30.

The clamp shield 23 is installed to contact the braided wire 13 exposed between the outer seal 21 and the sheath 14 to serve as the ground of the high voltage cable 10.

A process of manufacturing a conventional cable shield grounding portion having such a configuration will be described with reference to FIG. 2 as follows.

First, a portion of the sheath 14 of the end region of the high voltage cable 10 is removed so that the braided wire 13 is exposed to the outside, and the ends of the braided wire 13 and the insulator 12 are removed so that the core wire 11 is removed. Make it exposed to the outside.

Then, after the outer seal 21 is inserted into the outer surface of the end cover 14 of the high voltage cable 10 and installed, the braided wire 13 exposed to the outside is arranged, and then the outer surface of the braided wire 13 that has been cleaned up is arranged. The clamp ring 24 and the clamping shield 23 are inserted.

In order to fix the state in which the clamp shield 23 is inserted, the separate terminal 30 is crimped and fixed at the same time as the core wire 11 while pressing and fixing the clamp shield 23. Manufacturing is complete.

By the way, in the conventional cable shielding grounding portion, in order to form the shielding grounding body 20, after the sheath 14 is removed, the braided wire 13 exposed to the outside should be cleaned, and the clamp shield Since the clamp shield 24 is fixed in the manner of pressing the clamp shield 24 when the 24 is installed, there is a problem in that the number of parts is increased and the production process is complicated due to the addition of the process, thereby lowering the productivity.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and an object of the present invention is to provide a shielded grounding portion of a high voltage cable and a method of manufacturing the same, which can increase productivity by reducing investment and improving workability by reducing the number of parts and work processes. There is this.

The objects of the present invention are not limited to the above-mentioned objects, and other objects which are not mentioned will be clearly understood by those skilled in the art from the following description.

Shielded grounding portion of the high-voltage cable according to an embodiment of the present invention for achieving the object of the present invention as described above, the high-voltage cable sequentially arranged in the core and the insulator, braided wire and sheath along the outer direction from the center; A shielding ground portion formed of an outer seal provided on an outer surface of the sheath and a contact ring provided on an outer surface of the insulator which is spaced apart from the outer seal and exposed to the outside; A terminal installed to be electrically connected to the core wire exposed to the outside of the inner seal end; It is characterized by including.

Here, the contact ring is provided at both ends and is disposed in the longitudinal direction spaced apart at regular intervals along the circumferential direction between the ring-shaped member and the ring-shaped member inserted into the outer surface of the braided line exposed to the outside, both ends It may be composed of a connection member fixed to the ring-shaped member and formed in a thin plate shape.

In addition, both ends of the connection member fixed to the ring-shaped member may be bent to open outward so that the central region of the connection member may have a diameter relatively larger than that of the ring-shaped member and be formed flat.

In addition, a shield plate is installed in the housing in which the high voltage cable is installed, and when the high voltage cable is installed in the housing, the shield plate is to be in surface contact with the central area of the connection member to be electrically connected. Can be.

In addition, an end portion of the shield plate electrically connected to the central area of the connection member may be formed to be bent in a '-' shape.

When the high voltage cable is installed in the housing, a plurality of stoppers protrude from the outer surface of the outer seal and the inner seal which are in contact with the housing, and the stopper is formed on the inner surface of the housing which is in contact with the outer seal and the inner seal. A plurality of stopper grooves into which the is inserted may be recessed.

In order to achieve the object of the present invention as described above, a method of manufacturing a shielded grounding portion of a high voltage cable according to an embodiment of the present invention removes a portion of an end region of the high voltage cable so that the insulator is exposed to the outside. Removing the end of the insulator so that the core wire is exposed to the outside; A second step of inserting and installing an outer seal on an outer surface of the end covering of the high voltage cable; A third step of removing the part of the covering at the rear end of the position where the outer seal is installed to expose the braided wire to the outside; A fourth step of installing the contact ring so that the ring-shaped member of the contact ring is inserted between both ends of the braided wire and the sheath exposed to the outside; A fifth step of installing the inner seal on the outer surface of the coating at the rear end of the contact ring; A sixth step of compressing the terminal to the high voltage cable end to electrically connect the core wire exposed to the outside and the terminal; It is characterized by including.

According to the above-described problem solving means, the present invention has the effect of reducing the number of parts and work processes to increase the productivity by reducing the investment cost and workability.

1 is a plan view showing a structure of a conventional shield grounding portion,
2 is a plan view sequentially illustrating a process of manufacturing the shield grounding portion of FIG.
3 is a plan view illustrating a structure of a shielding grounding portion of a high voltage cable according to an embodiment of the present invention;
4 is a longitudinal cross-sectional view illustrating a structure in which a contact ring of the shield ground portion of the high voltage cable of FIG. 3 is installed;
FIG. 5 is a perspective view illustrating a structure of a contact ring in the high voltage connector having the shield ground portion of FIG. 3;
6 is a plan view sequentially illustrating a process of manufacturing a shield grounding portion of a high voltage cable according to an embodiment of the present invention;
7 is a schematic diagram schematically illustrating a structure in which a shield ground portion of a high voltage cable is connected to a housing according to an embodiment of the present invention.

In the following description specific details of the high voltage connector with shielded ground of the present invention are presented to provide a more general understanding of the present invention, the present invention may be easily carried out without these specific details and by their modifications. It will be apparent to those of ordinary skill in the art.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail, focusing on the parts necessary to understand the operation and action according to the present invention.

3 is a plan view illustrating a structure of a shield grounding portion of a high voltage cable according to an exemplary embodiment of the present invention, and FIG. 4 is a longitudinal cross-sectional view illustrating a structure in which a contact ring of the shielding ground portion of the high voltage cable of FIG. 3 is installed. 3 is a perspective view illustrating a structure of a contact ring in a high voltage connector having a shield ground portion of FIG. 3, and FIG. 6 is a plan view sequentially illustrating a process of manufacturing a shield ground portion of a high voltage cable according to an embodiment of the present invention; 7 is a schematic diagram schematically illustrating a structure in which a shield ground portion of a high voltage cable is connected to a housing according to an embodiment of the present invention.

As shown in these figures, the shield ground portion of the high voltage cable according to an embodiment of the present invention, the core wire 110, the insulator 120, the braided wire 130 and the sheath 140 along the outer direction from the center is A high voltage cable 100 sequentially arranged; An outer seal 210 installed on an outer surface of the coating 140, an inner seal 220 and an outer seal installed on an outer surface of the insulator 120 spaced apart from the outer seal 210 and exposed to the outside; A shielding ground body (200) formed of a contact ring (230) installed on the outer surface of which the braided wire (130) is exposed to the outside by removing the coating (140) between the inner seal and the inner seal (220); A terminal 300 installed to be electrically connected to the core wire 110 exposed to the outside of the end of the inner seal 220; It is characterized by including.

First, the structure of the high voltage cable 100 is as follows.

The high voltage cable 100 includes a core wire 110, an insulator 120 coated on an outer surface of the core wire 110 to insulate the core wire 110, and an insulator 120 so that the core wire 110 has shielding performance. Braided wire 130 is provided to surround the insulator 120 with a mesh-shaped line on the outer surface of the wire, and provided to surround the braided wire 130 on the outer surface of the braided wire 130, the core wire 110 and the braided wire ( It is comprised including the coating | cover 140 which protects 130 from the exterior.

The core wire 110 may be made of any material as long as it is a conductive metal material capable of conducting electricity, and a plurality of strands are twisted to form a thick one line to enable transmission of low voltage and high voltage.

The insulator 120 serves to insulate the core wire 110 by coating the outer surface of the core wire 110 and is formed to have a circular cross section so as to have a uniform thickness on the outer surface of the core wire 110 disposed at the center thereof. It is preferred to be coated.

The braided wire 130 needs a ground treatment to remove noise generated when current flows in the core wire 110, and at the time of the ground treatment, the contact of the shielding ground 200 according to an embodiment of the present invention. Ring 230 is used.

The outer shell 140 is provided to surround the braided wire 130 on the outer surface of the braided wire 130 and serves to protect the core wire 110 and the braided wire 130 from the outside.

Then, at both ends of the region in which the outer shell 140 is cut, the ring-shaped member 231 of the contact ring 230 is inserted to form a locking part 141 that can be electrically connected to the braided wire 130. It is preferable.

The locking portion 141 may be formed as a ring-shaped space formed by thinly cutting a portion of the lower surface of both ends of the outer skin of the region in which the outer shell 140 is cut, and contact ring 230 to the locking portion 141. The ring-shaped member 231 is to be inserted deeply.

A ring-shaped member 231 is formed at both ends of the contact ring 230 in the locking portion 141 in the longitudinal direction and is bent along the circumferential direction, so that the tension acts along the longitudinal direction of the contact ring 230. Since the stopper groove 420 formed on the inner surface of the housing 400 is in contact with the outer surfaces of the outer seal 210 and the inner seal 220, the outer seal 210 and the inner seal 220 are fixed and contacted. Tight coupling of the ring 230 has possible significant effects.

Shielding shield 200 is an outer seal 210 is installed on the outer surface of the coating 140, the inner seal 220 and the outer seal 210 is installed on the outer surface of the outer seal 210 and the outer seal 210 ) And the sheath 140 between the inner seal 220 is removed so that one end is inserted into the outer surface where the braided wire 130 is exposed to the outside so as to contact the outer seal 210 and the other end has the sheath 140 removed. Shipbuilding 130 is composed of a contact ring 230 is inserted into the outer surface exposed to the outside and in contact with the inner seal 220.

The outer seal 210 is a ring-shaped member having a predetermined length in which both sides are opened and a hollow is formed so that the outer seal 210 may be inserted into and fixed to the outer surface of the sheath 140 of the high voltage cable 100.

Inner seal 220 is installed on the outer surface of the insulator 120 exposed to the outside serves to compress the terminal 300 when connecting the core wire 110 and the terminal 300.

The contact ring 230 is installed to be in contact with the braided wire 130 exposed between the outer seal 210 and the sheath 140 to serve as the ground of the high voltage cable 100.

The contact ring 230 is provided at both ends and is provided along the circumferential direction between the ring-shaped member 231 and the ring-shaped member 231 and the ring-shaped member 231 inserted into the outer surface where the braided wire 130 is exposed to the outside. It is arranged along the longitudinal direction to be spaced apart at regular intervals, both ends are fixed to the ring-shaped member 231 and consists of a connecting member 232 formed in a thin plate shape.

The ring member 231 is disposed at both ends of the contact ring 240 and is formed to have a diameter similar to the diameter of the braided wire 130 so that the ring member 231 is inserted between the braided wire 130 and the sheath 140 so that the braided wire 130 and The contact ring 230 serves to interconnect.

One end of the ring-shaped member 231 is preferably cut to open the ring-shaped member 231 to facilitate installation on the outer surface of the braided wire 130 exposed to the outside.

The connection member 232 is disposed between the ring member 231 and the ring member 231 and serves to connect the ring member 231 and the ring member 231, and is a member formed in a thin plate shape.

Both ends of the connection member 232 fixed to the ring member 231 are bent to open outward so that the central region of the connection member 232 has a diameter larger than that of the ring member 231 and is formed flat. .

Both ends of the connecting member 232 are bent to open to the outside so that when the connecting member 232 is pressed inward to have an elasticity to be applied to the outside to be in close contact with the shield plate 410 to be described later It is desirable to.

The terminal 300 is a member fixedly coupled in a crimping manner in contact with an end of the core wire 110.

The shield plate 410 is embedded in the housing 400 in which the high voltage cable 100 is installed, and the shield plate 410 is connected to the connection member when the high voltage cable 100 is installed in the housing 400. It is in surface contact with the central area of 232 to make an electrical connection therebetween.

The end of the shield plate 410 electrically connected to the central area of the connection member 232 is bent into a 'c' shape so that the shield plate 410 itself also has a certain degree of elasticity. It is effective to be placed in close contact with 232).

A process of manufacturing the shielding grounding portion of the high voltage cable according to the embodiment of the present invention having the above-described configuration will be described with reference to FIG. 6 as follows.

First, a portion of the covering 140 of the end region of the high voltage cable 100 is removed to expose the insulator 120 to the outside, and the end of the insulator 120 is removed to expose the core wire 110 to the outside.

After the outer seal 210 is inserted into and installed on the outer surface of the end cover 140 of the high voltage cable 100, the braided wire 130 is removed by removing a portion of the cover 140 at the rear end of the position where the outer seal 210 is installed. Ensure exposure to the outside.

When the braided wire 130 is exposed to the outside by removing the sheath 140, the contact is inserted such that the ring-shaped member 231 of the contact ring 230 is inserted between both ends of the braided wire 130 exposed to the outside and the sheath 140. The ring 230 will be installed.

When the installation of the contact ring 230 is completed, the inner seal 220 is installed on the outer surface of the coating 140 at the rear end of the contact ring 230, and the terminal 300 is squeezed to the end of the high voltage cable 100 to be exposed to the outside. The core wire 110 and the terminal 300 are electrically connected.

The stoppers 211 and 221 formed in the outer seal 210 and the inner seal 220 are respectively formed in the stopper groove 420 formed on the inner surface of the housing 400 having the shield plate 410 embedded therein. The high voltage cable 100 is fixed to the housing 400 by inserting the high voltage cable 100 into the housing 400, thereby completing the manufacture of the high voltage connector having the shielding ground.

Shielded ground portion of the high voltage cable according to an embodiment of the present invention having the configuration as described above, it is possible to increase the productivity by reducing the number of parts and the work process to reduce the investment cost and improve the workability.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the scope of the following claims, but also by the equivalents of the claims.

100: high voltage cable 110: core wire
120: insulator 130: braided wire
140: sheath 200: shielded grounding body
210: outer seal 211: stopper
220: inner seal 221: stopper
230: contact ring 231: ring-shaped member
232: connection member 300: terminal
400 housing 410 shielding plate
420: stopper groove

Claims (7)

A high voltage cable 100 in which the core wire 110, the insulator 120, the braided wire 130, and the sheath 140 are sequentially arranged along the outer direction from the center;
An outer seal 210 installed on an outer surface of the coating 140, an inner seal 220 and an outer seal installed on an outer surface of the insulator 120 spaced apart from the outer seal 210 and exposed to the outside; A shielding ground body (200) formed of a contact ring (230) installed on the outer surface of which the braided wire (130) is exposed to the outside by removing the coating (140) between the inner seal and the inner seal (220);
A terminal 300 installed to be electrically connected to the core wire 110 exposed to the outside of the end of the inner seal 220; Including,
The contact ring 230 is provided at both ends thereof, and includes a ring member 231 inserted into an outer surface of which the braided wire 130 is exposed to the outside, and a circumferential direction between the ring member 231 and the ring member 231. It is arranged along the longitudinal direction spaced apart along a predetermined interval along the both ends are fixed to the ring-shaped member 231 and formed of a thin plate-like connection member 232, the connection member 232 fixed to the ring-shaped member 231 The both ends of the) is bent to open to the outside so that the central region of the connection member 232 has a relatively larger diameter than the diameter of the ring-shaped member 231 and is formed flat shielding ground portion. delete delete The method of claim 1,
The shielding plate 410 is embedded in the housing 400 in which the high voltage cable 100 is installed, and the shielding plate 410 is installed when the high voltage cable 100 is installed in the housing 400. ) Is a shielded ground portion of the high voltage cable, characterized in that the surface contact with the central area of the connection member 232 and electrically connected. The method of claim 4, wherein
The shield ground portion of the high voltage cable, characterized in that the end of the shield plate 410 is electrically connected to the central region of the connecting member 232 is bent in a '-' shape. The method of claim 4, wherein
When the high voltage cable 100 is installed in the housing 400, a stopper groove 420 is formed on an inner surface of the housing 400 that contacts the outer seal 210 and the inner seal 220. Shielded ground of high voltage cables. A method for manufacturing a shield grounding portion of a high voltage cable according to any one of claims 1 and 4,
By removing a part of the covering 140 of the end region of the high voltage cable 100 to expose the insulator 120 to the outside, and removing the end of the insulator 120 to expose the core wire 110 to the outside A first step;
A second step of inserting and installing an outer seal 210 on an outer surface of the end covering 140 of the high voltage cable 100;
A third step of removing the portion of the coating 140 at the rear end of the position where the outer seal 210 is installed to expose the braided wire 130 to the outside;
A fourth step of installing the contact ring (230) so that the ring-shaped member (231) of the contact ring (230) is inserted between both ends of the braided wire (130) exposed to the outside and the sheath (140);
A fifth step of installing the inner seal 220 on the outer surface of the coating 140 at the rear end of the contact ring 230;
A sixth step of compressing the terminal (300) at an end of the high voltage cable (100) to electrically connect the core wire (110) and the terminal (300) exposed to the outside;
Method for manufacturing a shielded grounding portion of a high voltage cable, comprising.

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