KR20170034518A - Conductor sleeve and cable connector having the same - Google Patents

Abstract

The present invention relates to a conductor sleeve for a cable connector and a cable connector including the same. The conductor sleeve comprises: two or more conductor insertion grooves having a conductor of a connected cable inserted therein; a conductor fixing unit configured to fix the conductor inserted into the conductor insertion grooves; and an insertion control unit having the conductor, which is inserted into the conductor insertion grooves, inserted to a predetermined length. Specifically, the present invention can solve a problem of increasing resistance in a conductor connection part of the cable connector and heating and can easily construct cable connection.

Description

CONDUCTOR SLEEVE AND CABLE CONNECTOR CONTAINING THE SAME

The present invention relates to a conductor sleeve for a cable connector and a cable connector comprising the same. More specifically, the present invention relates to a conductor sleeve for a cable cabinet and a cable connector including the same, capable of solving a problem of increase in resistance and heat generation at a conductor connecting portion of a cable connector and facilitating cable connection construction.

Power cables usually use copper (Cu) conductors as conductors. On the other hand, although the conductivity is as low as about 66% of copper (Cu), the use of aluminum (Al) conductors which are light and cheap in price is increasing.

Figure 1 schematically shows various embodiments relating to the cross-sectional shape of a cable conductor. More specifically, FIG. 1A shows a circular stranded conductor in which a plurality of strands each having a circular cross section as a whole are circularly combined, FIG. 1B shows a circularly compressed conductor in which a plurality of strands having a circular cross section are entirely circularly compressed, And a section of the divided compressed circular conductor formed by combining a plurality of sections compressed in a fan shape into a circular shape as a whole.

As a connection method of such a cable conductor, there is a method using the conductor sleeve for the bolt connector shown in Fig. The connection portions of the cables 200a and 200b connected to each other are connected to the insulator (not shown) so that the conductors 210a and 210b can be inserted into the conductor insertion grooves 320 of the conductor sleeve 300 for the bolt connector, 220a, 220b, the outer semiconductive layers 230a, 230b and the sheaths 240a, 240b are partially removed.

2, the conductor sleeve 300 for a bolt connector includes a conductor insertion slot 320 through which the conductors 210a and 210b are inserted, a conductor insertion slot 320 through which the conductors 210a and 210b are inserted And a plurality of bolt fasteners 310 into which the bolts 400 for pressing and fixing the inserted conductors 210a and 210b are inserted.

On the other hand, FIG. 3 is an enlarged view of a broken line portion in FIG. 3, the conductors 210a and 210b respectively inserted into the conductor insertion grooves 320 of the conductor sleeve 300 are connected to the conductors 210a and 210b constituting the conductors 210a and 210b by the pressing of the bolts 400 Some of the strands are bent so that the strands are spaced apart from the intermediate partitions 330 of the conductor sleeve 300 to reduce the current path between the conductors 210a and 210b and the conductor sleeve 300, The increase of the resistance at the cable connection portion and the heat generation problem may be caused.

Therefore, a new type of conductor connecting method capable of solving the problem of increase in resistance and heat generation at the cable connecting portion and a cable connector used therefor are in desperate need.

It is an object of the present invention to provide a new type of conductor sleeve for a cable connector and a cable connector including the same, which can solve the problem of increase in resistance and heat generation in a cable connecting portion.

It is another object of the present invention to provide a conductor sleeve for a cable connector and a cable connector including the conductor sleeve.

In order to solve the above problems,

A conductor sleeve for a cable connector, comprising: at least two conductor insertion grooves into which conductors of cables to be connected are inserted; A conductor fixing portion for fixing a conductor inserted in the conductor insertion groove; And a plurality of bolt fasteners into which bolts for fixing the conductors inserted into the conductor insertion grooves are inserted, wherein the conductor fixing portions comprise a plurality of bolt fastening holes for inserting the conductors inserted into the conductor insertion grooves, Wherein the plurality of bolt fasteners are inclined by an angle of more than 0 DEG and less than 30 DEG from a vertical line so that the end of the bolt inserted thereinto can be inserted and advanced toward the insertion adjusting portion.

The conductive sleeve may further include an intermediate connection portion that physically connects the end of the conductor inserted into the conductor insertion groove and the insertion control portion.

Also, the insertion adjusting portion is an intermediate partition, and the intermediate connection portion is a coating layer made of an electrically conductive material or an elastic layer having elasticity made of an electrically conductive material.

On the other hand, a conductor sleeve is provided, which is made of copper, aluminum or an aluminum alloy.

The outer diameter of the conductor sleeve is not larger than the outer diameter of the insulation layer of the cable + 5 mm or less and the diameter of the conductor insertion groove having a circular section is 1.01 x conductor outer diameter + And is 1.6 or less when the sectional area of the conductor is 1,800 to 2,500 mm < 2 >.

The conductor is a divided compressed circular conductor formed by a plurality of element wires having a circular cross section and having a plurality of sections compressed in a fan shape and combined together as a whole in a circular shape, and the plurality of bolt fasteners And at least one bolt fastener row arranged in a line along the circumferential direction of the conductor sleeve beyond the number of sections.

Here, a bolt end inserted into each of the plurality of bolt fasteners included in at least one or more bolt fastener rows of the bolt fastener rows arranged in each of the conductor insertion grooves is positioned at the center of each section constituting the divided compressed circular conductor And the conductor sleeve reaches the wire.

Also, the number of bolt fasteners included in one bolt fastener row is equal to the number of the sections constituting the divided compressed circular conductor, and a plurality of bolt fasteners included in the single bolt fastener row are arranged at regular intervals , And the hot rotation angle (?) Between adjacent bolt fastener rows among a plurality of bolt fastener rows arranged in each of the conductor insertion grooves is defined by the following equation (1).

[Equation 1]

The hot rotation angle? = {(360 / X) + Z} / (Y + 1)

In the above equation (1)

X is the number of sector-shaped sections constituting the divided compressed circular conductor,

Y is the number of bolt fastener rows arranged in each of the conductor insertion grooves and in which the bolt fasteners are arranged in a row,

And Z is a rotation angle defined by (the length of the conductor inserted in the conductor insertion groove / the pitch of the inserted conductor) x 360.

And a plurality of bolts fastened to the conductor sleeve and the plurality of bolt fasteners, respectively.

Here, the bolt may include a head that can be fastened to a mechanism or apparatus to be inserted into the bolt fastener, a threaded portion having a male thread corresponding to a female thread on the inner wall of the bolt fastener, And a rupture portion disposed between the head and the threaded portion and fractured by applying a predetermined torque to the bolt.

Further, there is provided a cable connector, further comprising a stopper disposed between the threaded portion and the rupture portion, the stopper increasing the torque applied to the bolt by suppressing the insertion of the bolt.

And the projecting portion has a shape that is inclined so as to decrease, in whole or in part, in cross-sectional area.

Furthermore, when the distal end of the projection comes into contact with the center strand of the section constituting the divided compressed circular conductor, the breaking portion is broken.

Also, the predetermined torque is 50 to 150 N · m.

Wherein the bolt is made of brass or an aluminum alloy having a copper or tensile strength of 250 MPa or more and an electrical conductivity of 25% (@ 20 DEG C) relative to pure copper.

And, the bolt is characterized in that at least the threaded portion, the protruding portion and the stopper are plated with tin.

The conductor sleeve for a cable connector according to the present invention exhibits an excellent effect of solving the problem of increase in resistance and heat generation at the cable connection portion due to an increase in the current path through sufficient physical contact between the inserted conductor and the intermediate partition wall.

In addition, since the conductor sleeve for a cable connector according to the present invention does not require a corona shield for matching the outer diameter and the insulation outer diameter of the conductor sleeve, an excellent effect of facilitating cable connection construction is exhibited.

Figure 1 schematically shows various embodiments relating to the cross-sectional shape of a cable conductor.
Fig. 2 is a schematic view showing a state where conductors of adjacent cables are connected to each other by a conventional bolt connector.
Fig. 3 is an enlarged view of a broken line portion in Fig.
4 schematically shows an embodiment of a conductor sleeve for a cable connector according to the invention.
5 schematically shows an embodiment of a shear bolt used in a cable connector according to the present invention.
FIG. 6 is a schematic view of a cable connector in which a conductor of a cable is inserted into a conductor sleeve shown in FIG. 4, and a bolt for inserting and fixing the conductor is inserted.

Hereinafter, preferred embodiments of the present invention will be described in detail. However, the present invention is not limited to the embodiments described herein but may be embodied in other forms. Rather, the embodiments disclosed herein are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the invention to those skilled in the art. Like reference numerals designate like elements throughout the specification.

4 shows an embodiment of a conductor sleeve for a cable connector according to the invention.

4, the conductor sleeve 500 for a cable connector according to the present invention includes two or more conductor insertion slots 520 having a cross section corresponding to a cross section of a conductor to be inserted, A conductor fixing portion 510 for fixing the inserted conductor and an insertion adjusting portion 530 for inserting the conductor inserted into the conductor insertion groove 520 at a predetermined length.

The conductive sleeve 500 may have the shape of a cylindrical column as a whole when the conductor inserted into the conductor insertion groove 520 has a circular cross section and the material may be copper or a copper alloy having excellent electrical characteristics, Or an aluminum alloy.

The outer diameter of the conductor sleeve 500 may be equal to or less than the outer diameter of the insulating layer of the connected cable + 5 mm. For example, if the outer diameter of the insulating layer of the cable to be connected is 120 mm, the outer diameter of the conductor sleeve may be 125 mm or less. The conductor sleeve 500 and the insulation layer of the cable to be connected are covered together with a silicone tube or the like for insulation of the conductor sleeve 500 when the cable connection is made. The conductor sleeve 500 has an outer diameter The operation of covering them together with the silicone tube may be difficult or the silicone tube may be damaged.

The entire length of the conductor sleeve 500 can be appropriately adjusted in accordance with the desired resistance at the cable connecting portion. If the length of the conductor sleeve 500 is too short, the conductor of the cable and the conductor sleeve 500 may be damaged if the length of the conductor sleeve 500 is excessively short. And the resistance can be increased. The overall length of the conductive sleeve 500 may be, for example, about 20 to 30 cm.

The insertion adjusting portion 530 is not particularly limited as long as it can limit the inserting length of the conductor inserted into the conductor insertion groove 520 of the conductor sleeve 500. For example, It may be a bulkhead.

The conductor sleeve according to the present invention is characterized in that a conductor of a cable connected to the insertion adjusting portion 530 is inserted into a conductor insertion groove 520 of the conductor sleeve 500, And further includes an intermediate connection part for physically contacting and connecting some of the conductor wires separated from the insertion control part 530 when the ends of the conductor wires are bent and their distal ends are separated from the insertion control part 530 can do.

Here, the intermediate connection part is not particularly limited as long as it performs a function of physically contacting and connecting the insertion control part 530 and a part of conductor wires separated therefrom, for example, a coating layer made of an electrically conductive material, Such as sponges, springs, and the like.

It is possible to maximize the current path due to the sufficient physical contact between the end of the conductor inserted into the conductor sleeve 500 and the insertion adjusting part 530 by the intermediate connection part and thereby the resistance increase and the heat generation problem at the cable connecting part can be effectively Can be solved.

4, the conductor fixing portion 510 includes a plurality of bolt fasteners inserted between the conductor wires constituting the conductor and constituting the conductor so that a shear bolt is inserted therein can do. As the conductor fixing portion 510, the bolt fastener may have a female thread corresponding to the male thread of the shear bolt formed on the inner side so that the shear bolt can be fastened.

Particularly, as the conductor fixing part 510, the bolt fastening part can be inclined at a certain angle r from the vertical line so that the end of the shear bolt inserted into the bolt fastening part can be inserted toward the insertion adjusting part 530 have.

Accordingly, when the shear bolt is inserted through the bolt fastener to press the conductor inserted into the conductor insertion groove 520 or inserted between the conductor wires constituting the conductor, the conductor is entirely inserted into the insertion adjustment portion 530 So that the end of the conductor is in intimate physical contact with the insertion adjuster 530 so that a sufficient current path is created between the conductor sleeve 500 and the conductor to increase the resistance at the cable connection And an excellent effect of solving the problem of heat generation.

In this case, the angle r may be more than 0 ° and less than 30 °, and when the angle r is more than 30 °, the threaded number of the inner wall of the bolt fastener may be insufficient and the fastening force of the bolt fastener and the shear bolt may be insufficient In order to avoid the interference between the adjacent shear bolts while the shear bolt inserted into the bolt fastener is inclined, it is necessary to increase the interval between the bolt fasteners or to reduce the number of the bolt fasteners. However, When the gap increases, the length of the conductor sleeve 500 becomes long, and when the number of the bolt fasteners is reduced, a current path between the shear bolt inserted into the bolt fastener and the conductor is insufficient, .

The plurality of bolt fasteners may be arranged in a single row in the circumferential direction of the conductor sleeve 500 and may be disposed in each of the conductor insertion grooves 520 of the conductor sleeve 500, A plurality of bolt fastener rows may be present.

1C, the number of the bolt fasteners disposed in the one bolt fastener row may be greater than the number of the bolt fasteners disposed in the single bolt fastener row in the sector shape Lt; / RTI >

In this case, the ends of the plurality of shear bolts respectively inserted into the plurality of bolt fastening holes arranged in the one bolt fastener row reach the center strand of each section, and sufficient current path between the conductor and the shear bolt The resistance at the cable connecting portion can be reduced and the problem of heat generation due to the increase in resistance can be further solved.

When the number of the bolt fasteners arranged in the one bolt fastener row is equal to the number of the fan-shaped sections constituting the divided compressed circular conductor, as shown in FIG. 4C, the insertion of the conductor sleeve 500 A plurality of bolt fasteners included in the bolt fastener row are arranged at equal intervals on one side with respect to the intermediate partition as the adjusting part 530, and adjacent bolt fastener rows in which a plurality of bolt fasteners are arranged in a row And the hot rotation angle? Between the adjacent bolt fastener rows can be defined by Equation 1 below.

[Equation 1]

The hot rotation angle? = {(360 / X) + Z} / (Y + 1)

In the above equation (1)

X is the number of sector-shaped sections constituting the divided compressed circular conductor,

Y is the number of bolt fastener rows arranged in each of the conductor insertion grooves and in which the bolt fasteners are arranged in a row,

And Z is a rotation angle defined by (the length of the conductor inserted in the conductor insertion groove / the pitch of the inserted conductor) x 360.

For example, assuming that the length of the conductor inserted into one side of the conductor sleeve 500 is 100 mm, and the pitch of the inserted conductor is 1,600 mm, the rotation angle Z of the conductor inserted into one side of the conductor sleeve 500, Is 22.8 degrees and when the number (X) of fan-shaped sections constituting the divided compressed circular conductor is 4 and the number (Y) of bolt fastener rows in which the bolt fasteners are arranged in a row is 5, the hot rotational angle (X) of the fan-shaped sections constituting the divided compressed circular conductor is 6 and the bolt fasteners are arranged in a row When the number of bolt fastener rows Y is six, the hot rotation angle? Is {(360/6) +22.8} / (6 + 1) = 11.8 °.

That is, when the number and position of the bolt fasteners disposed in the conductor sleeve 500 satisfy the above-described formula (1), which is a correlation formula between the hot rotation angle? And the number of bolt fastener rows Y, Ends of each of the shear bolts respectively inserted into the bolt fasteners in at least one of the rows of the bolt fastener rows reach the center strand of the sector shape constituting the divided compressed circular conductor to form a sufficient current path, As a result, the resistance at the cable connection portion can be reduced to 90% or less of the conductor resistance of the cable, and the heat generation due to the increase in resistance can be further solved.

The conductor insertion groove 520 into which the conductor of each of the connected cables is inserted has a cross section corresponding to the cross-sectional shape of the conductor, and when the cross-section of the conductor is circular, the conductor insertion groove 520 having a corresponding circular cross- ) May be 1.01 x conductor outer diameter + alpha. Here,? May be different depending on the cross-sectional area of the conductor. For example, when the cross-sectional area of the conductor is between 800 and 1,600 mm2, it may be not more than 1.7 and between 1,800 and 2,500 mm2 may be not more than 1.6.

When the diameter of the conductor insertion groove 520 is 1.01 x the conductor outer diameter + alpha, the space for inserting the shear bolt through the bolt fastener as the conductor fixing portion 510 may be insufficient, while the conductor insertion groove 520 ) Exceeds 1.01 x the conductor outer diameter + alpha, the shear bolt inserted through the bolt fastener can not reach the center line of the fan-shaped section constituting the divided compressed circular conductor, so that a sufficient current path can not be formed The resistance may increase and heat generation problems may be caused.

5 schematically shows an embodiment of a shear bolt used in a cable connector according to the present invention.

5, the shear bolt 100 according to the present invention is fastened to a mechanism or device for inserting the shear bolt 100 into a bolt fastener as a conductor fixing part 520 of the conductor sleeve 500 A threaded portion 120 to which a male thread corresponding to a female thread of the bolt fastener is applied; a threaded portion 120 which is disposed between the head 110 and the threaded portion 120, And a shear bolt (130) disposed between the threaded portion (120) and the rupturing portion (130) and restraining insertion of the shear bolt (100) A stopper 140 for increasing a torque applied to the conductive sleeve 100 and a conductive member 130 disposed at a lower end of the threaded portion 120 and inserted into the conductor sleeve 500, The cross-sectional area gradually decreases in whole or in part Projections 150 to have an inclined shape, and the like.

FIG. 6 is a schematic view of a cable connector in which a conductor of a cable is inserted into a conductor sleeve shown in FIG. 4, and a shear bolt 100 for fixing and electrically conducting the conductor is inserted.

6, when the shear bolt 100 is inserted into the bolt fastener as the conductor fixing portion 510 of the conductor sleeve 500, the protrusion 150 is inserted into the conductor sleeve 500 Inserted between the associated conductor wires constituting the conductor 210b inserted into the conductor insertion groove 520 and pushes the conductor wires in the left and right directions perpendicular to the traveling direction of the shear bolt 100. [

Accordingly, the associated conductor wires constituting the conductor 210b are in intimate contact with each other, and in particular, the conductor wires disposed at the outermost one of the wire strands physically contact the inner wall of the conductor sleeve 500, The contact area between the shear bolt 100 and the conductor strands increases so that a current path connecting the conductor 210b, the conductor sleeve 500 and the shear bolt 100 is formed , The resistance increase can be further avoided or minimized.

The protrusions 150 of the shear bolt 100 are inserted between the associated conductor wires constituting the conductor 210b to push the conductor wires so that the protrusions 150 and the conductor wires or the conductor Thereby causing friction between the element wires, thereby removing the oxide film on the surface of the aluminum element wires, thereby avoiding or minimizing the increase in resistance due to the oxide film.

As a result, the shear bolt 100 forms a sufficient current path at the conductor connecting portion by the conductor sleeve 500, and avoids an increase in resistance due to the oxide film on the surface of the conductor wires constituting the conductor 210b It is possible to effectively solve the heat generation problem due to an increase in the local resistance at the connecting portion of the cable conductor.

Specifically, the shear bolt 100 may be made of a metal material having a tensile strength of at least about 250 MPa and an electrical conductivity of at least about 25% (@ 20 DEG C) relative to pure copper. When the tensile strength of the shear bolt 100 is less than 250 MPa, it may be difficult to form a sufficient current path by breaking before being inserted between the associated conductor strands constituting the conductor, If the conductivity is less than 25% (@ 20 ℃) compared to pure copper, the resistance at the conductor connection of the cable can be greatly increased. Here, the shear bolt 100 may be made of, for example, copper, brass or a metal such as an aluminum alloy whose electrical conductivity is superior to brass.

The threaded portion 120 has a male screw portion corresponding to a female screw on the inner wall of the bolt fastener 510 as the conductor fixing portion 510 of the conductor sleeve 500. The male screw portion is rotated by engaging with the female screw The shear bolt 100 is moved in the direction of the conductor 210b inserted in the conductor insertion groove 520 of the conductor sleeve 500 and as a result the protrusion 150 of the shear bolt 100 So that the conductor strands are pushed in the lateral direction perpendicular to the traveling direction of the shear bolt 100 by being inserted between the associated conductor strands constituting the conductor 210b.

The dimensions of the thread formed in the threaded portion 120 are such that the protrusion 150 of the shear bolt 100 is sufficiently inserted between the associated strands constituting the conductor 210b so that a sufficient current path can be formed For example, the maximum outer diameter of the male thread is? 12 to? 20, the pitch of the thread is 1 to 3 mm, and the number of threads per unit length (1 inch) may be 8 to 26.

The length of the threaded portion 120 may be different depending on the combination of the wires constituting the conductor 210b inserted into the conductor insertion groove 520 of the conductor sleeve 500. [

For example, in the case where the conductor 210b is the divided compressed circular conductor shown in FIG. 1C, the threaded portion 120 is formed such that the end of the protrusion 150 of the sheathed bolt 100 is bent And may have a length that allows it to contact the center strand of each section constituting the divided compressed circular conductor.

The threaded portion 120 may have a length such that the threaded portion 120 does not protrude from the surface of the conductor sleeve 500 when the breakable portion 130 is broken. When the threaded portion 120 protrudes from the outer surface of the conductor sleeve 500 at the time of the breakage of the breakable portion 130, the operation of wrapping the upper portion of the conductor sleeve 500 with a rubber tube made of silicon or the like It can be difficult.

The projecting portion 150 is formed such that the male thread constituting the threaded portion 120 of the shear bolt 100 is engaged with the female thread on the inner wall of the bolt fastener as the conductor fixing portion 510 of the conductor sleeve 500 If the shear bolt 100 can be inserted between the associated conductor wires constituting the conductor 210b when proceeding in the direction of the conductor 210b inserted into the conductor insertion groove 520 of the conductor sleeve 500 There is no particular limitation on the shape.

For example, the protrusion 150 may be a hemispherical or causal shape having a generally conical shape with a gradually decreasing cross-sectional area as shown in FIGS. 5A, 5B and 5D and the distal end of the cone having a radius of 2.5 to 8 mm, The end of the cylinder may be in the shape of a cone having a gradually decreasing cross-sectional area.

The length of the protrusion 150 may be different depending on the coupling method of the wires constituting the conductor 210b inserted into the conductor insertion groove 520 of the conductor sleeve 500.

For example, in the case where the conductor 210b is the divided compressed circular conductor shown in FIG. 1C, the protrusion 150 is formed such that the end of the protrusion 130 of the shear bolt 100 is divided And can have a length that allows it to contact the center strand of each section constituting the compressed circular conductor. For example, the length of the protrusion 130 may be 4 to 10 mm.

The protrusion 150 may have a length such that the threaded portion 120 does not protrude from the surface of the conductor sleeve 500 when the break 130 is broken. When the threaded portion 120 protrudes from the outer surface of the conductor sleeve 500 at the time of the breakage of the breakable portion 130, the operation of wrapping the upper portion of the conductor sleeve 500 with a rubber tube made of silicon or the like It can be difficult.

The breaking portion 130 is formed in the shear bolt 100 when the end of the protrusion 150 of the shear bolt 100 contacts the center strand of each of the sections constituting the divided compressed circular conductor shown in FIG. So that the shear bolt 100 can not be inserted any more. Here, the predetermined torque applied to the shear bolt 100 at the time of the fracture of the rupture part 130 may be about 50 to 150 N · m.

There is no particular limitation on the shape of the rupturing portion 130 as far as it can perform the function of breaking when a predetermined torque is applied. For example, the breakable portion 130 may have a conical shape with a gradually decreasing diameter, and the breakable portion 130 may have a diameter different from that of the material constituting the breakable portion 130, Lt; / RTI > to < RTI ID = 0.0 > 14. ≪ / RTI >

When the end of the protrusion 150 of the shear bolt 100 contacts the center strand of the circular stranded conductor shown in Fig. 1A or the circular stranded compressive conductor shown in Fig. 1B, or when the split convoluted circular conductor shown in Fig. The insertion of the shear bolt 100 is inhibited by the stopper 140 when the center line of the one section constituting the shear bolt 100 reaches the center line of the section so that the torque applied to the shear bolt 100 is increased, When the torque reaches a predetermined specific torque value, the break portion 130 breaks, so that the break portion 130 and the head 110 are separated. Here, the predetermined torque applied to the shear bolt 100 at the time of the fracture of the rupture part 130 may be about 50 to 150 N · m.

The conductor 210b to be inserted into the conductor insertion groove 520 of the conductor sleeve 500 is a divided compressed circular conductor and the plurality of shear bolts 100 are wound toward the center strand of each section of the divided compressed circular conductor When the number of the inserted shear bolts 100 is increased, the empty space inside the conductor insertion groove 320 is gradually reduced.

That is, the resistance of the conductor with respect to the insertion of the shear bolt 100 inserted first is smaller than the resistance of the conductor with respect to the insertion of the shear bolt 100 to be inserted later, so that the shear bolt 100 inserted first The shear bolt 100 can be inserted more easily and inserted deeper than the shear bolt 100 inserted.

8, when a plurality of shear bolts 100 are inserted into the conductor sleeve 500, all of the shear bolts 100 to be inserted, particularly the protruding portions of the shear bolts 100 to be inserted first, It is necessary to control the stopper 150 so that the end of the stopper 150 is not inserted any more after being in contact with the center line of each section constituting the divided compressed circular conductor, and the stopper 140 performs this control function.

That is, the stopper 140 suppresses the insertion of the shear bolt 100 in a state where the end of the protrusion 150 of the shear bolt 100 is in contact with the center strand of one or more sections constituting the divided compressed circular conductor The torque applied to the shear bolt 100 may be increased to fracture the rupture part 130.

The insertion of the shear bolt 100 is stopped when the end of the protrusion 150 of the shear bolt 100 contacts the center strand of one section constituting the divided compressed circular conductor, ), The formation of an optimal current path between the conductor sleeve 500 and the shear bolt 100, and resistance reduction can be further achieved.

In the shear bolt 100 according to the present invention, at least the thread portion 120, the stopper 140, and the protrusion 150 may be plated with tin. In the case where the shear bolt 100 and the conductor sleeve 500 or the conductor 210b are dissimilar metals, dissimilar metal contact corrosion, that is, galvanic corrosion may occur at the contact surfaces of the shear bolt 100 and the conductor sleeve 500, The tin is plated with a sacrificial metal for suppressing the tin.

The tin plating is effective not only to suppress corrosion of the shear bolt 100, the conductor 210b and the conductor sleeve 500, but also to prevent corrosion of the male thread of the threaded portion 120 and the bolt By increasing the contact area between the shear bolt 100 and the conductive sleeve 500 by filling a minute hollow space between the female threads of the fastener inner wall, it is possible to form a sufficient current path and further reduce the resistance have.

While the present invention has been particularly shown and described with reference to preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the following claims. . It is therefore to be understood that the modified embodiments are included in the technical scope of the present invention if they basically include elements of the claims of the present invention.

100: Shear bolt 200: Cable
300, 300 ', 500: Conductor sleeve 400: Bolt

Claims (16)

As a conductor sleeve for a cable connector,
Two or more conductor insertion grooves into which conductors of cables to be connected are inserted;
A conductor fixing portion for fixing a conductor inserted in the conductor insertion groove; And
And an inserting adjusting unit for inserting a conductor inserted into the conductor inserting groove into a predetermined length,
Wherein the conductor fixing portion includes a plurality of bolt fasteners into which bolts for fixing the conductor inserted in the conductor insertion grooves are inserted, wherein the plurality of bolt fasteners can be inserted into the insertion adjusting portion, , Wherein the central axis is inclined by more than 0 DEG and less than 30 DEG from the vertical line. The method according to claim 1,
Further comprising: an intermediate connection portion for physically connecting the end of the conductor inserted into the conductor insertion groove to the insertion adjustment portion. 3. The method of claim 2,
Wherein the insertion adjusting portion is an intermediate partition wall and the intermediate connection portion is an elastic layer made of a coating layer or an electrically conductive material made of an electrically conductive material and having elasticity. 4. The method according to any one of claims 1 to 3,
Copper, aluminum or an aluminum alloy. 4. The method according to any one of claims 1 to 3,
The outer diameter of the conductor sleeve is not more than the outer diameter of the insulating layer of the cable + 5 mm or less, and the diameter of the conductor insertion groove having a circular section is 1.01 x conductor outer diameter +
Wherein? Is not more than 1.7 when the cross-sectional area of the conductor is 800 to 1,600 mm2, and not more than 1.6 when the cross-sectional area of the conductor is 1,800 to 2,500 mm2. 4. The method according to any one of claims 1 to 3,
The conductor is a divided compressed circular conductor formed by a plurality of elemental wires having a circular cross section and a plurality of sections compressed in a fan shape,
Characterized in that said plurality of bolt fasteners comprises at least one row of bolt fasteners arranged in a row along the circumferential direction of said conductor sleeve at least equal to the number of said sections of said split compressed circular conductor. The method according to claim 6,
Wherein a bolt end inserted into each of a plurality of bolt fasteners included in at least one or more bolt fastener rows of the bolt fastener rows arranged in each of the conductor insertion grooves is connected to a center strand of each section constituting the divided compressed circular conductor Wherein the conductive sleeve is formed of a conductive material. The method according to claim 6,
The number of bolt fasteners included in one bolt fastener row is equal to the number of the sections constituting the divided compressed circular conductor,
Wherein the plurality of bolt fasteners included in the one bolt fastener row are arranged at regular intervals,
Wherein a hot rotation angle (?) Between adjacent bolt fastener rows among a plurality of bolt fastener rows arranged in each of the conductor insertion grooves is defined by the following formula (1).
[Equation 1]
The hot rotation angle? = {(360 / X) + Z} / (Y + 1)
In the above equation (1)
X is the number of sector-shaped sections constituting the divided compressed circular conductor,
Y is the number of bolt fastener rows arranged in each of the conductor insertion grooves and in which the bolt fasteners are arranged in a row,
And Z is a rotation angle defined by (the length of the conductor inserted in the conductor insertion groove / the pitch of the inserted conductor) x 360. A cable connector comprising a conductor sleeve according to any one of claims 1 to 3 and a plurality of bolts fastened to each of the plurality of bolt fasteners. 10. The method of claim 9,
Wherein the bolt has a thread portion having a male thread corresponding to a female thread of the inner wall of the bolt fastener and a head which can be fastened to a mechanism or apparatus for inserting into the bolt fastener, And a rupture portion disposed between the head and the threaded portion and fractured by applying a predetermined torque to the bolt. 11. The method of claim 10,
Further comprising a stopper disposed between said threaded portion and said rupture portion and configured to inhibit insertion of said bolt to increase torque applied to said bolt. 11. The method of claim 10,
Characterized in that the protrusions have a shape which is inclined so as to decrease, in whole or in part, in cross-sectional area. 11. The method of claim 10,
And when the distal end of the protrusion is in contact with the center strand of the section constituting the divided compressed circular conductor, the breaking portion is broken. 11. The method of claim 10,
Wherein the predetermined torque is 50 to 150 Nm. 10. The method of claim 9,
Characterized in that the bolt is made of copper or brass or aluminum alloy having a tensile strength of 250 MPa or more and an electrical conductivity of 25% (@ 20 DEG C) relative to pure copper. 12. The method of claim 11,
Wherein the bolt has at least the threaded portion, the protruding portion and the stopper plated with tin.

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