KR20160109823A - Shear bolt - Google Patents

Abstract

The present invention relates to shear bolts. Specifically, the present invention is a shear bolt used in a bolt connector for connecting a cable to a conductor, and can easily adjust the depth inserted into the bolt connector, thereby effectively solving the problem of increase in resistance and heat generation at the conductor connection portion of the cable To a shear bolt.

Description

Shear bolt

The present invention relates to shear bolts. Specifically, the present invention is a shear bolt used in a bolt connector for connecting a cable to a conductor, and can easily adjust the depth inserted into the bolt connector, thereby effectively solving the problem of increase in resistance and heat generation at the conductor connection portion of the cable To a shear bolt.

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.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 schematically illustrates various embodiments relating to the cross-sectional shape of an aluminum (Al) 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, Sectional view of a segmented compressed circular conductor formed by combining a plurality of sections compressed into a sector shape and formed into a circular shape as a whole.

As shown in FIG. 1, the aluminum (Al) conductor is formed by combining a plurality of wire strands, and watertight paper tape or compound is inserted between a plurality of wire strands, It is possible to prevent progress.

As a connection method of such an aluminum (Al) conductor, there is a method using welding, a compression sleeve, a bolt connector, or the like. The connection method of the aluminum (Al) conductor by the welding requires to remove all the strands constituting the aluminum (Al) conductor for the welding operation and to remove the paper tape or compound for watertightness between them, There is a problem that is expensive and expensive.

The aluminum (Al) conductor is exposed to the external environment for a certain period of time for connection between the conductors by the sleeve, thereby forming an oxide film on the surface of the aluminum (Al) There is a problem that the resistance at the connection portion of the cable is increased and consequently, the cable is damaged due to local heat generation or the rated current of the cable is limited.

FIG. 2 is a schematic view showing a state where aluminum (Al) conductors of adjacent cables are connected to each other by a bolt connector. FIG. 3 schematically shows a cross-sectional view taken along line A-A 'in FIG.

2, the bolt connector 300 includes a conductor insertion groove 320 into which conductors 210a and 210b of adjacent cables 200a and 200b are respectively inserted, And a plurality of bolt fastening members for fastening the conductors 210a and 210b and for inserting bolts 400 for pressing the conductors 210a and 210b in one direction for contacting the conductors 210a and 210b and the inner wall of the connector 300, And may include a sphere 310.

3, when the bolt 400 inserted through the bolt fastener 310 of the bolt connector 300 pushes the conductor 210b inserted into the conductor insertion groove 320 in one direction, A current path is formed between the conductors 210a and 210b and the bolt connector 300 by the lower portion of the conductor 210b contacting the lower inner wall of the bolt connector 300. [

In this case, if the depth of the bolt 400 inserted through the bolt fastener 310 of the bolt connector 300 is too shallow, the bolt 400 can not press the conductor 210b sufficiently, Since the contact area between the lower portion of the bolt connector 300 and the lower inner wall of the bolt connector 300 is reduced, resistance at the corresponding portion increases and local heat is generated. On the other hand, The empty space into which the bolt to be inserted next in the longitudinal direction or the circumferential direction of the bolt connector 300 is inserted into the conductor insertion groove 320 of the bolt connector 300 deeply becomes narrow, The depth at which the other bolts inserted into the recesses are inserted becomes too shallow, so that the resistance at the corresponding portions increases and local heat generation occurs.

It is necessary to adjust the depth of insertion of the bolt 400 according to the type of the conductor 210b inserted into the conductor insertion groove 320 of the bolt connector 300, Depending on the diameter and the shape of the plurality of elementary wires constituting the conductor, depending on whether the bolts 400 are of a circular stranded conductor of FIG. 1A, a circularly compressed conductor of FIG. 1B, There is a problem that it is extremely difficult to consistently adjust the depth of insertion of the bolt 400 while pressing the conductor 210b because the resistance of the conductor 210b against pressing is different.

Accordingly, there is an urgent need for a new type of conductor connecting method that can easily adjust the depth of insertion into the bolt connector, effectively solving the problem of resistance increase and heat generation at the conductor connecting portion of the cable.

The present invention is a shear bolt used in a bolt connector for connecting a conductor of a cable, which can easily adjust the depth inserted into the bolt connector, thereby effectively increasing resistance and heat generation at a conductor connecting portion of the cable It is an object of the present invention to provide a shear bolt.

In order to solve the above problems,

And a plurality of bolt fasteners into which bolts for fixing the conductors inserted in the conductor insertion grooves are inserted. The shear bolts for bolt connectors for connecting conductors of cables, A head which can be fastened to a mechanism or apparatus for inserting a shear bolt into the bolt fastener; A threaded portion having a male thread corresponding to a female thread on the inner wall of the bolt fastener; A rupture part disposed between the head and the threaded part and breaking when the predetermined torque is applied to the shear bolt; And a stopper disposed between the threaded portion and the rupture portion to increase a torque applied to the shear bolt by restraining the insertion of the shear bolt to cause the increased torque to reach a predetermined torque at the time of rupture of the rupture portion, And a shear bolt.

Wherein the stopper is a flange or a non-threaded cylinder.

Further, the outer diameter of the flange is 3 mm or less larger than the outer diameter of the threaded portion, and the length of the flange or the non-threaded cylindrical is 2 to 5 mm.

And a protruding portion disposed at the lower end of the threaded portion and being insertable between the associated strands constituting the conductor.

In the case where the conductor is a circular conductor in which a plurality of element wires having a circular cross section as a whole are circularly joined or a plurality of element wires having a circular cross section as a whole are circularly compressed, the center of the circular conductor or the circular conductor In the case of a divided compressed circular conductor formed by a plurality of elemental wires each having a circular cross section and a plurality of sections compressed in a fan shape, And the stopper increases the torque applied to the shear bolt when the end of the protruding portion and the element wire contact each other.

And the stopper is not protruded from the outer surface of the bolt connector when the break is broken.

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

Further comprising a 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.

The maximum outer diameter of the male screw constituting the thread portion is from Φ12 to Φ20, the pitch of the thread is 1 to 3 mm, and the number of threads per unit length per inch is 8 to 26.

And the projecting portion has a shape which is inclined such that the cross-sectional area gradually decreases in whole or in part.

Wherein the projecting portion is a conical shape having a gradually decreasing cross-sectional area, and the end of the conical portion is a hemispherical shape having a radius of 2.5 to 8 mm.

Further, the shear bolt is characterized in that the length of the protrusion is 4 to 10 mm.

Further, the rupture portion is in the shape of a cone gradually decreasing in diameter, and the diameter is? 8 to? 14.

And at least the threaded portion, the projecting portion and the stopper are plated with tin.

The shear bolt according to the present invention is a shear bolt used in a bolt connector for connecting a conductor of a cable and can be easily adjusted in depth inserted into the bolt connector, And exhibits excellent effects that can be solved.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 schematically illustrates various embodiments relating to the cross-sectional shape of an aluminum (Al) conductor.
Fig. 2 schematically shows the aluminum (Al) conductors of adjacent cables connected to each other by a bolt connector. Fig.
Fig. 3 schematically shows a cross-sectional view taken along line A-A 'in Fig.
4 schematically shows an embodiment of a shear bolt according to the present invention.
5 schematically shows another embodiment of a shear bolt according to the present invention.
Fig. 6 schematically shows a state in which the shear bolt shown in Fig. 5a is used in the bolt connector.

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.

The present invention relates to a shear bolt for a bolt connector for conductor connection of a cable. The bolt connector includes a plurality of conductor insertion grooves into which a conductor to be connected to both ends of the conductor is inserted, and a plurality of bolts for fixing the conductor inserted in the conductor insertion groove are inserted A bolt fastener of the present invention can be disposed around the cylindrical bolt connector. In addition, the bolt connector may have a resistance of 90% or less of the conductor of the cable.

4 schematically shows an embodiment of a shear bolt according to the present invention.

4, the shear bolt 100 according to the present invention includes a head 110 which can be fastened to a mechanism or equipment for inserting the shear bolt 100 into the bolt fastener of the bolt connector, A threaded portion 120 to which a male screw corresponding to a female thread of a fastener is applied and a threaded portion 120 disposed between the head 110 and the threaded portion 120. When a torque of a certain level or more is applied to the sheared bolt 100 The present invention relates to a sheave bolt having a shear bolt and a shear bolt that are inserted into the shear bolt, A stopper 140 may be included.

The shear bolt 100 according to the present invention may be made of a metallic 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. If 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 the conductor sufficiently before contacting the inner wall of the bolt connector. Also, the electrical conductivity of the shear bolt 100 Is less than 25% (@ 20 ℃) compared to pure copper, the resistance at the conductor connection part of the cable can be greatly increased. Here, the shear bolt 100 may be made of, for example, brass or a metal such as an aluminum alloy whose electrical conductivity is superior to brass.

The threaded portion 120 is formed with a male thread corresponding to a female thread on the inner wall of the bolt fastener 310 of the bolt connector 300. The male thread portion 100 rotates in conjunction with the female thread, The lower end of the shear bolt 100 pushes the conductor 210b toward the conductor 210b inserted into the conductor insertion groove 320 of the bolt connector 300 so that the bolt connector 300 So as to form a current path between the conductor 210b and the bolt connector 300.

The length of the threaded portion 120 and the size of the threaded portion formed in the threaded portion 120 allow the shear bolt 100 to sufficiently contact the conductor 210b with the inner wall of the bolt connector 300, 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) is 8 To 26. < / RTI >

The threaded portion 120 has a length that prevents the stopper 140 disposed at the upper portion of the threaded portion 120 from protruding from the surface of the bolt connector 300 when the breakable portion 130 is broken Lt; / RTI > When the stopper 140 protrudes from the outer surface of the bolt connector 300 at the time of breaking the break 130, it is difficult to wrap the upper part of the bolt connector 300 with a rubber tube made of a material such as silicone .

The shape of the rupture part 130 is not particularly limited as long as it can perform the function of breaking when the predetermined torque is applied to the shear bolt 100. 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 > 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.

As described above, when the contact area between the conductor 210b and the inner wall of the bolt connector 300 is increased and a sufficient current path is formed and the resistance is reduced, the stopper 140 is inserted into the insertion hole of the bolt connector 300, Thereby increasing the torque applied to the shear bolt 100 and breaking the rupture part 130.

The shear bolt 100 according to the present invention can be fixed to the bolt fastener 310 regardless of the type of the conductor 210b inserted into the conductor insertion groove 320 of the bolt connector 300 by the stopper 140. [ It is possible to optimize the contact area between the conductor 210b and the inner wall of the bolt connector 300 to form a sufficient current passageway and reduce the resistance to effectively solve the local heat generation problem Effect.

The stopper 140 prevents the insertion of the shear bolt 100 when the resistance of the conductor 210b is increased and the contact area between the conductor 210b and the inner wall of the bolt connector 300 increases, Is not particularly limited as long as it can perform the function of breaking the fracture portion 130 by increasing the torque applied to the fracture portion 100. For example, the flange shown in Fig. 4A, An unused cylindrical shape, or the like.

4A, when the stopper 140 is a flange, the shape of the flange is not particularly limited as long as it can increase the torque applied to the shear bolt 100 as a stopper. For example, The outer diameter of the flange may be as large as about 3 mm or less as compared to the outer diameter of the threaded portion 120, and the thickness may be about 2 to 5 mm.

4B, when the stopper 140 is a non-threaded cylinder, the shape of the non-threaded cylinder is not particularly limited as long as it can increase the torque applied to the shear bolt 100 as a stopper , For example, the length of the non-threaded cylinder may be about 2 to 5 mm.

Fig. 5 schematically shows another embodiment of the shear bolt according to the present invention, and Fig. 6 schematically shows a state in which the shear bolt of Fig. 5a is used in the bolt connector.

5, the shear bolt 100 according to the present invention is inserted into the bolt connector 300 through the wires constituting the conductor 210b disposed at the lower end of the threaded portion 120 and inserted into the bolt connector 300, The protrusions 150 may have a shape that is inclined such that the cross-sectional area gradually decreases in whole or in part.

6, when the shear bolt 100 according to the present invention is inserted into the bolt fastener 310 of the bolt connector 300, the protrusion 150 is inserted into the bolt connector 300, The wires may be inserted between the associated strands constituting the conductor 210b inserted into the insertion groove to push the strands in the left and right directions perpendicular to the traveling direction of the shear bolt 100. [

Accordingly, the associated strands constituting the conductor 210b are in intimate contact with each other. Particularly, the strands disposed at the outermost one of the strands contact the inner wall of the bolt connector 300, The contact area between the shear bolt 100 and the stranded wires increases so that a current path connecting the conductor 210b, the bolt connector 300 and the shear bolt 100 is formed, The increase in resistance can be avoided or minimized.

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

In addition, the shear bolt 100 according to the present invention forms a sufficient current path at the conductor connection by the bolt connector 300, and increases the resistance due to the oxide film on the surface of the wires constituting the conductor 210b It is possible to effectively solve the problem of heat generation due to an increase in local resistance at the connection portion of the cable conductor.

The projecting portion 150 is rotated by engaging the male thread of the threaded portion 120 of the shear bolt 100 according to the present invention with the female thread of the inner wall of the bolt fastening hole 310 of the bolt connector 300, If the bolt 100 can be inserted between the associated wires constituting the conductor 210b when the bolt 100 moves in the direction of the conductor 210b inserted into the conductor insertion groove 320 of the bolt connector 300, There is no particular restriction.

For example, the protrusion 150 may have a conical shape with a gradually decreasing cross-sectional area as shown in Figs. 5A and 5B, and the distal end of the cone may be a hemisphere or a cause shape having a radius of 2.5 to 8 mm, As shown in the figure, the entire end of the cylinder may be a conical shape whose sectional area gradually decreases.

The length of the protrusion 150 may be different depending on the combination of the wires constituting the conductor 210b inserted into the conductor insertion groove 320 of the bolt connector 300. [

For example, if the conductor 210b is a circular stranded conductor as shown in FIG. 1A or a circularly compressed conductor as shown in FIG. 1B, the protrusion 150 may be formed by the shear bolt 100 The protruding portion 150 may have a length that allows the end of the protrusion 150 to contact the center strand of the conductor. If the conductor 210b is the divided compressed circular conductor shown in FIG. 1C, The end of the protrusion 150 of the shear bolt 100 may have a length that allows the distal end of the protrusion 150 to contact the center strand of one section constituting the divided compressed circular conductor. For example, the length of the protrusion 150 may be 4 to 10 mm.

The protrusion 150 has a length that prevents the stopper 140 disposed at the upper portion of the threaded portion 120 from protruding from the surface of the bolt connector 300 when the breakable portion 130 is broken Lt; / RTI > When the stopper 140 protrudes from the outer surface of the bolt connector 300 at the time of breaking the break 130, it is difficult to wrap the upper part of the bolt connector 300 with a rubber tube made of a material such as silicone .

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.

6B, a conductor 210b inserted into the conductor insertion groove 320 of the bolt connector 300 is a split-compression circular conductor, and a plurality of shear bolts 100 are connected to the split- When the number of the inserted shear bolts 100 is increased, the hollow space inside the conductor insertion groove 320 is gradually reduced as the number of the inserted shear bolts 100 increases.

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.

6B, when a plurality of shear bolts 100 are inserted into the bolt connector 300, all of the inserted shear bolts 100, 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 may be disposed at a position where the distal end of the protrusion 150 of the shear bolt 100 contacts the center strand of the at least one section constituting the circular stranded conductor, the circularly compressed conductor, The insertion of the bolt 100 is suppressed and the torque applied to the shear bolt 100 is increased to break the fracture portion 130. [

When the end of the protrusion 150 of the shear bolt 100 contacts the center strand of one section constituting the circular stranded conductor, the circular compression conductor or the divided compressed circular conductor, the insertion of the shear bolt 100 So that the formation of an optimal current path and reduction in resistance between the conductor 210b, the bolt connector 300 and the shear bolt 100 can be achieved.

In the shear bolt 100 according to the present invention, at least the thread portion 120, the protrusion 150, and the stopper 140 may be plated with tin. If the shear bolt 100 and the bolt connector 300 or the conductor 210b are dissimilar metals, dissimilar metal contact corrosion, i.e., galvanic corrosion, may occur at their contact surfaces, 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 bolt connector 300. The tin plating also prevents corrosion of the male thread of the threaded portion 120 and the bolt It is possible to increase the contact area between the shear bolt 100 and the bolt connector 300 by filling a minute hollow space between the female threads of the inner wall of the fastener 310 to thereby form a sufficient current path and further reduce the resistance Lt; / RTI >

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: bolt connector 400: bolt

Claims (14)

And a plurality of bolt fasteners into which bolts for fixing the conductors inserted in the conductor insertion grooves are inserted. The shear bolts for bolt connectors for conductor connection of cables,
A head that can be fastened to a mechanism or apparatus for inserting the shear bolt into the bolt fastener;
A threaded portion having a male thread corresponding to a female thread on the inner wall of the bolt fastener;
A rupture part disposed between the head and the threaded part and breaking when the predetermined torque is applied to the shear bolt; And
And a stopper disposed between the threaded portion and the rupture portion to increase the torque applied to the shear bolt by suppressing the insertion of the shear bolt to allow the torque to reach a predetermined torque at the time of fracture of the rupture portion Shear bolt. The method according to claim 1,
Characterized in that the stopper is a flange or a non-threaded cylinder. 3. The method of claim 2,
Wherein the outer diameter of the flange is larger than the outer diameter of the threaded portion by 3 mm or less and the length of the flange or the non-threaded cylindrical portion is 2 to 5 mm. 4. The method according to any one of claims 1 to 3,
Further comprising a protrusion disposed at a lower end of the threaded portion and capable of being inserted between associated strands constituting the conductor. 5. The method of claim 4,
In the case of a circularly-stranded conductor in which a plurality of elementary wires having a circular cross-section as a whole are circularly combined or a plurality of elementary wires having a circular cross-section as a whole are circularly compressed, When the ends of the protrusions are in contact or when the conductor is a divided compressed circular conductor formed by a plurality of elemental wires having a circular cross section and the plurality of sections compressed in a fan shape are joined together in a circular shape as a whole, Characterized in that when the end of the projection touches, the stopper increases the torque applied to the shear bolt. 4. The method according to any one of claims 1 to 3,
And the stopper does not protrude from the outer surface of the bolt connector when the break is broken. 4. The method according to any one of claims 1 to 3,
Wherein the predetermined torque is 50 to 150 Nm. 4. The method according to any one of claims 1 to 3,
Characterized in that the shear bolt comprises a 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. 4. The method according to any one of claims 1 to 3,
Wherein a maximum outer diameter of the male screw constituting the thread portion is from? 12 to? 20, the pitch of the thread is 1 to 3 mm, and the number of threads per unit length per inch is 8 to 26. 5. The method of claim 4,
Characterized in that the protrusions have a shape that is inclined so as to decrease, in whole or in part, the cross-sectional area. 11. The method of claim 10,
Characterized in that the projection is a conical shape with a gradually decreasing cross-sectional area and the end of the cone is a hemispherical shape with a radius of 2.5 to 8 mm. 12. The method of claim 11,
And the length of the protrusion is 4 to 10 mm. 4. The method according to any one of claims 1 to 3,
Characterized in that said rupture part is in the shape of a cone gradually decreasing in diameter and having a diameter of? 8 to? 14. 5. The method of claim 4,
Wherein at least said threaded portion, said projection and said stopper are plated with tin.

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