KR101818237B1 - a connector for underground distribution cable - Google Patents

Abstract

The present invention relates to a connector for connecting power discretion cables installed under the ground, in an underground distribution cable connector for electrically connecting first and second distribution cables, which comprises: a connection body having a first electric wire hole formed on one side thereof to receive the first distribution cable and a second electric wire hole formed on the other side thereof to receive the second distribution cable; and an elastic electrode bent in a zigzag shape at the center of the connection body to have an elastic force, and including connecting portions that protrude from both ends and have connection holes for coupling the first and second distribution cables. According to the present invention, when the elastic electrode has an elastic force to connect the distribution cables and accordingly a relatively small external force is applied to the distribution cables, the elastic electrode adsorbs the external force to prevent the disconnection of the distribution cables.

Description

A connector for underground distribution cable

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a connector for interconnecting power distribution lines installed in the ground.

Generally, a distribution cable is installed to distribute electricity to each use place. It can be installed on the ground or installed in the ground. When installed on the ground, the distribution cable is installed in the ground because it hinders the beauty.

On the other hand, underground distribution lines embedded in the ground are installed to be connected with connectors at preset distances for easy construction.

A connector for connecting such a distribution line has been disclosed as a "underground distribution line protection insulation connector" in Korean Registered Patent No. 10-1083416 (published on Nov. 14, 2011).

The above-mentioned conventional underground distribution line protection insulation connector is divided into a first semicircular part and a second semicircular part, respectively, and is formed of a hollow metal or synthetic resin material which is foldable and expandable through a hinge provided on the outer surface thereof. An insulating material composed of a semicircular first elastic body and a second elastic body provided at both ends of the first elastic body and surrounding and covering the covering of the underground distribution line and provided on the inner surface of the first and second semicircular portions; And a fixing protrusion formed on both ends of the inner surface of the case and fixed to the first elastic body via a fixing portion, wherein the guide wire of the underground power distribution line inserted through both ends of the case is fixed A metal-made conductor connection having a semicircular cross-section for electrically interconnecting; And a clamping metal provided on the case and controlling the folding and expansion of the first and second semicircular parts.

Conventional underground distribution line protection insulated connector having such a configuration can easily and easily connect and disconnect underground distribution lines inserted through both ends of the case, so that the operation is very convenient and the wires of the underground distribution line are fixed via the conductor connection It is possible to securely maintain the connection state between the underground distribution lines and to securely cover the cover of the underground distribution line by hermetically enclosing the second elastic body so that the inflow water from the outside can be originally blocked.

However, in the conventional underground distribution line protection insulation connector, when the external connection such as earthquake or collapse of the construction equipment or the earth is applied to the underground distribution line, the underground distribution line is disconnected and the underground distribution line The cost of replacement has increased, and the buried part has been shaved and reworked in order to replace the underground distribution line.

In addition, when the ground distribution line is separated by an external force, there is a problem that a safety accident such as an electric shock accident occurs due to exposure of the conductor of the underground distribution line to the outside.

SUMMARY OF THE INVENTION The present invention has been made to solve the problems as described above, and it is an object of the present invention to provide a method and apparatus for separating underground distribution lines when an external force acts on the underground distribution lines, The present invention provides an underground distribution line connector that can minimize the occurrence of safety accidents such as electric shock accidents due to exposure of the conductor to the outside when the underground distribution line is disconnected.

According to another aspect of the present invention, there is provided an underground distribution line connector for electrically connecting a first distribution line and a second distribution line to each other, wherein a first electric wire hole, And a second electric wire which is formed on the other side of the main body and on which the second electric wire is inserted. The connecting body is formed at the center of the connecting body and is bent in a zigzag shape so as to have an elastic force. An elastic electrode including a connection portion formed with a connection hole for connecting the first power distribution line and the second power distribution line, the first and second power distribution lines being fixed to the elastic electrode, A coupling pinion formed on both sides of the inside of the coupling body, Or when the second power distribution line is pulled by an external force, the first power distribution line and the second power distribution line are disconnected from each other at the elastic electrode so as to be disconnected, thereby releasing the screw engagement of the coupling pinion at the connection portion according to the engagement rotation of the pinion portion A rack bar portion, and a first electric wire hole and a second electric wire hole, and when the first electric wire and the second electric wire are separated by the fastening pinion, they are separated from each other in the first electric wire hole and the second electric wire hole, And an end treatment cap for covering the power line and the end of the second power line to prevent electric shock.

A ring-shaped terminal connected to an end of the first power distribution line and the second power distribution line and having a terminal hole through which the coupling pinion is inserted; and a slit hole formed in the end processing cap so as to be perpendicular to the connection portion, When the ring-shaped terminal is detached from the connection portion, the first power line and the second power line can be separated along with the end treatment cap over the inner periphery of the end treatment cap.

The connection body may include an insertion hole into which the coupling pinion is inserted in a portion corresponding to the connection hole of the connection portion, and an opening / closing cover installed in the insertion hole to prevent foreign matter from penetrating into the connection body.

According to the present invention, when the elastic electrode connecting the distribution line has an elastic force and a relatively small external force acts on the distribution line, the elastic electrode absorbs the external force to prevent disconnection of the distribution line and a relatively large external force is applied to the distribution line It is possible to separate the distribution line from the connection body by the fastening pinion and the rack bar portion, thereby reducing the replacement cost due to the disconnection of the distribution line, and it is possible to solve the troubles due to the re-operation of the distribution line.

Further, when the power distribution line is separated, the portion of the ring-shaped terminal is surrounded by the end treatment cap, thereby preventing the occurrence of an electric shock accident due to the exposure of the terminal.

Further, according to the screwing of the fastening pinion, not only the power distribution line can be connected by connecting the power distribution lines, but also the insertion hole into which the fastening pinion is inserted can be provided with an opening / closing cover to prevent the foreign matter from flowing.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a side cross-sectional view of a ground distribution cable connector according to an embodiment of the present invention; FIG.
2 is a cross-sectional view illustrating a ground distribution cable connector according to an embodiment of the present invention.
Fig. 3 is a view showing an end treatment cap constituting an underground distribution cable connector according to an embodiment of the present invention, wherein (a) is a front view, and Fig. 3 (b) is a side sectional view.
FIG. 4 is a side sectional view of a submerged power distribution line connector according to an embodiment of the present invention, showing a state in which a second power distribution line is pulled apart by an external force.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

First, the underground distribution line connector 100 according to the embodiment of the present invention can electrically connect the first distribution line 210 and the second distribution line 220 to each other.

Ring-shaped terminals 211 and 221 having ring-shaped terminal holes formed at the center thereof may be coupled to the respective ends of the first power distribution line 210 and the second power distribution line 220.

As shown in FIGS. 1 and 2, a ground distribution cable connector 100 according to an embodiment of the present invention may include a connection body 110.

The connection body 110 may be formed in the shape of an empty pipe. A first electric wire hole 111 through which the first electric wire 210 is inserted is formed at one end of the connection body 110, A second electric wire hole 112 may be formed at the other end of the main body 110.

A support part 130 for supporting the elastic electrode 120 to be described later may be formed at an inner center of the connection main body 110. The first main power distribution line 210 Or a rack bar portion 150 having a long rack gear formed in a direction in which the second distribution line 220 is inserted.

The supporting part 130 is vertically movable by the elastic force of the elastic spring in the connection body 110 so that the elastic electrode 120 is elastically deformed from the connection body 110 to be easily spread when the elastic electrode 120 is unfolded by external force. (120).

Also, the support part 130 can prevent the elastic electrode 120 from moving in the connection body 110.

On the other hand, the rack bar portion 150 is formed on only one of the opposite side surfaces of the coupling body 110 with respect to the coupling pinion 140 and the pinion portion 141 of the coupling pinion 140 is engaged with the other side thereof. And the gap between the pinion guide portion and the rack bar portion 150 may be formed to have a distance at which the fastening pinion 140 can be inserted.

In addition, the gap between the rack bar portion 150 and the pinion guide portion may be gradually narrowed in a direction in which the fastening pinion 140 can easily enter the moving pinion 140 when the moving pinion 140 is moved by an external force.

The coupling body 110 has insertion holes for fastening the coupling pinions 140 to the coupling portions by inserting the coupling pinions 140, which will be described later, at portions corresponding to the respective connecting portions located on both sides of the elastic electrode 120 provided inside, (Not shown).

The insertion hole 115 may be provided with an opening and closing cover 117 which slides on the connecting body 110 to open and close the insertion hole 115. The opening and closing cover 117 is coupled to the insertion pin 115 by a fastening pinion 140 It is possible to prevent foreign matter from flowing into the connection main body 110 in a state where the first distribution line 210 and the second distribution line 220 are fixed.

1 and 2, the underground distribution cable connector 100 according to the embodiment of the present invention may include an elastic electrode 120. [

The elastic electrode 120 includes a first power distribution line 210 inserted into the first power line hole 111 and a second power distribution line 220 inserted into the second power line hole 112, Can be electrically connected to each other.

The elastic electrode 120 may be supported on the support 130 formed on the connection body 110 while being inserted into the connection body 110.

When the first power distribution line 210 and the second power distribution line 220 are pulled by an external force, the elastic electrode 120 is connected to the first power distribution line 210 and the second power distribution line 220 by an elastic force It can be energized and supported at the same time.

Here, the external force applied to the first power distribution line 210 or the second power distribution line 220 may be an external force applied to the first power distribution line 210 or the second power distribution line 220 due to collapse or soil pressing force External force due to generation or external force applied by the equipment during construction.

The elastic electrode 120 may be formed in a zigzag shape so as to apply an elastic force to a plate such as copper so as to be electrically energized.

At this time, when an external force acts on the first power distribution line 210 or the second power distribution line 220, the length of the elastic electrode 120 formed in a zigzag is increased, and when the external force is released, It is possible to generate the elastic force in such a manner that it is returned to the first zigzag shape.

When the elastic electrode 120 is formed of a material having high conductivity such as copper or silver, the elastic electrode 120 is not easily returned to its initial shape due to its softness. Therefore, when the external force is removed from the elastic electrode 120 in an expanded state by an external force A shape retaining member 125 formed of a synthetic resin capable of returning to an initial shape may be formed to overlap with the elastic electrode 120 and the shape retaining member 125 may be formed of an insulator that insulates electricity.

Further, at both ends of the elastic electrode 120, connection portions formed with connection holes 121 formed at the center thereof with threads in the inner periphery may be formed, respectively.

1 and 2, the underground distribution cable connector 100 according to the embodiment of the present invention may include a fastening pinion 140.

The fastening pinion 140 can be fixed by coupling the first power distribution line 210 and the second power distribution line 220 to the respective connection portions formed on both sides of the connection electrode.

On the other hand, the fastening pinion 140 may be formed like a bolt, and a screw thread may be formed on the outer periphery of the lower end portion to screw the inner circumference of the connection hole 121.

A pinion 141 having a plurality of teeth may be formed on the threaded upper end of the fastening pinion 140. The circumference of the pinion 141 is screwed to the connection hole 121 May be formed to have a circumference greater than the circumference of the portion.

Here, in the fastening pinion 140, the first power distributing line 210 and the second power distributing line 220 are connected to the connecting hole 121 of the connecting portion and the terminal pin of the ring- The first distribution line 210 and the second distribution line 220 can be fixed to the elastic electrode 120 in such a manner that the first distribution line 210 and the second distribution line 220 are screwed to the connection hole 121 through the terminal hole.

When the first distribution line 210 or the second distribution line 220 is pulled to the outside of the connection body 110 by an external force, the connection pinion 140 is extended from the rack bar portion The fastening pinion 140 is rotated in a direction in which the fastening pinion 140 is disengaged so that the fastening pinion 140 which has restrained the first power distribution line 210 or the second power distribution line 220 is released So that the first distribution line 210 and the second distribution line 220 can be separated from the elastic electrode 120.

The fastening pinion 140 is configured to be screwed into the connection hole 121 at least once and screwed to the fastening pinion 140. When the fastening pinion 140 is engaged with the fastening pinion 140, So that the fastening pinion 140 is unscrewed to separate the fastening pinion 140 from the connecting portion.

The fastening pinion 140 for fixing the first power distribution line 210 or the second power distribution line 220 may be configured such that when the first power distribution line 210 or the second power distribution line 220 is pulled outward by an external force, The fastening pinion 140 rotates in a direction in which the screw fastening is released.

1 to 3, the underground power line connector 100 according to the embodiment of the present invention may include an end processing cap 160. [

The end cap 160 is inserted into the first wire hole 111 and the second wire hole 112 into which the first power distribution line 210 and the second power distribution line 220 are respectively inserted and is then connected to the first power distribution line 210, It is possible to prevent the occurrence of an electric shock by covering the exposed ends of the first power distribution line 210 and the second power distribution line 220 when the second power distribution line 220 and the second power distribution line 220 are pulled by an external force.

The end cap 160 is formed in a cup shape so that the ends of the first power distribution line 210 and the second power distribution line 220 are inserted into the first power distribution line 210 and the second power distribution line 220, The exposed ends can be wrapped.

The end processing cap 160 may be forcibly inserted into the first electric wire hole 111 and the second electric wire hole 112 of the connection body 110 and the end processing cap 160 may be connected to the first electric wire 210 or the second distribution line 220 may be inserted through the through hole 161.

The first and second power distribution lines 210 and 220 may be inserted into the through hole 161 and may be inserted into the connection body 110. The end treatment cap 160 may be inserted into the connection body 110 forcibly, The first power distribution line 210 or the second power distribution line 220 may be separated from the first power distribution line 210 or the second power distribution line 220 when the fixing pinion 140 is separated from the first power distribution line 210 or the second distribution line 220, So that the end of the first power distribution line 210 or the second power distribution line 220 can be wrapped around to prevent the occurrence of an electric shock.

The first power distribution line 210 and the second power distribution line 220 separated from the fastening pinion 140 by the external force pulled by the pulling pinion 140 may be formed by the ring type terminals 211 and 221 extending over the inner periphery of the end processing cap 160, Lt; / RTI >

A slit hole 162 may be formed in the end cap 160 so that the ring-shaped terminals 211 and 221 may be inserted into the end cap 160. The slit hole 162 may be formed in a direction orthogonal to the connection portion, The first and second power distribution lines 210 and 220 which are separated from the inner circumference of the end treatment cap 160 without being easily separated through the slit hole 162 and the first and second power distribution lines 210 and 220, So as to enclose the ends of the first power distribution line 210 or the second power distribution line 220.

At this time, after the first distribution line 210 or the second distribution line 220 is inserted into the connection body 110 through the slit hole 162 without forming the connection portion and the slit hole 162 to be orthogonal to each other, The connecting portion and the slit hole 162 may be orthogonal to each other so that the cap 160 is rotated so as to be orthogonal to the connecting portion (see FIG. 3).

The operation and effects of the above-described respective structures will be described.

The underground distribution cable connector 100 according to the embodiment of the present invention is connected to the first electric wire hole 111 and the second electric wire hole 112 of the connection body 110 while the end treatment cap 160 is forcibly inserted, The first power distribution line 210 and the second power distribution line 220 are inserted into the connection main body 110 through the through holes 161 of the end treatment cap 160 fitted to both ends of the main body 110.

At this time, the first power distribution line 210 and the second power distribution line 220 are installed such that the ring-shaped terminals 211 and 221 are fitted through the slit hole 162 of the end treatment cap 160, and the ring- When inserted into the main body 110, the end cap 160 is rotated so that the connection portion and the slit hole 162 are orthogonal to each other.

When the ring type terminal 211 of the first distribution line 210 and the ring type terminal 221 of the second distribution line 220 are inserted into the connection body 110, The opening and closing cover 117 is inserted into each of the insertion holes 115 formed in the connection main body 110 in a state in which the terminal holes of the connection portions 211 and 221 are overlapped with the connection holes 121 of the connection portion, The fastening pinion 140 is inserted.

The first power distribution line 210 and the second power distribution line 220 are fixed in such a manner that the coupling pinion 140 is rotated and the coupling pinion 140 is fixed to the connection portion through the terminal hole. Close the opening / closing cover 117 to prevent foreign matter from entering.

The underground distribution line connector 100 according to the embodiment of the present invention configured as described above is relatively inexpensive because of the collapse of the earths generated at the portion where the first distribution line 210 or the second distribution line 220 is buried, The first distribution line 210 or the second distribution line 220 is pulled outward so that the elastic electrode 120 formed in a staggered shape absorbs the vibration to absorb the vibration of the first distribution line 210, Or the second distribution line 220 is disconnected.

4, when an external force deviating from the elastic force of the elastic electrode 120 is generated, the first distribution line 210 or the second distribution line 220 is pulled outward so that the elastic electrode 120 is unfolded and pulled out The fastening pinion 140 for fixing the first power distributing line 210 or the second power distributing line 220 is engaged with the rack gear of the rack bar portion 150 and the fastening pinion 140 is rotated in the direction in which the fastening pinion 140 is loosened.

When the fastening pinion 140 is moved to the end of the rack bar portion 150 and the screw is loosened at the connection portion, the elastic electrode 120 is released from the fixing, so that the elastic electrode 120 is disconnected from the first power distribution line 210 or the second power distribution line 210. [ (220) are separated.

The first power distributing line 210 or the second power distributing line 220 is connected to the first power distributing line 210 or the second power distributing line 220 through the ring- Since the ring shaped terminals 211 and 221 are wrapped by the end treatment cap 160 and separated from the connection body 110 while the end treatment cap 160 is detached from the connection body 110 ) Or the ring-shaped terminals (211, 221) connected to the end of the second distribution line (220).

Therefore, in the underground power line connector 100 according to the embodiment of the present invention, when the external force of the first power line 210 and the second power line 220 is applied, the first power line 210 and the second power line 220 are connected to each other, It is possible to reduce the replacement cost of the power distribution lines 210 and 220 by preventing the disconnection of the first power distribution line 210 and the second power distribution line 220 by separating the power lines 210 and 220 from the power distribution lines 110, .

The first power distribution line 210 or the second power distribution line 220 can be easily connected to each other by fastening the first power distribution line 210 or the second power distribution line 220 with the fastening pinion 140 and fixing them.

The insertion hole 115 for fastening the fastening pinion 140 may be provided with an opening and closing cover 117 to prevent foreign matter from flowing into the connection body 110 through the insertion hole 115, When the power distribution line 210 or the second power distribution line 220 is separated by an external force, the end treatment cap 160 covers the ring-shaped terminals 211 and 221 to prevent the occurrence of safety accidents due to electric shock.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Including modifications.

100; Underground distribution line connector 110:
111: first wire hole 112: second wire hole
115: insertion hole 117: opening / closing cover
120: Elastic electrode 121: Connection hole
125: shape holding member 130:
140: fastening pinion 141: pinion part
150: rack bar 160: end cap
161: Through hole 162: Slit ball
210: first distribution line 211, 221: ring-shaped terminal
220: Second distribution line

Claims (3)

An underground distribution line connector for electrically connecting first and second distribution lines to each other,
A connection body having a first electric wire hole in which the first electric power distribution line is inserted and a second electric wire hole in which the second electric power distribution line is inserted,
And a connection portion formed at the center of the connection body and formed in a zigzag shape so as to have an elastic force and protruding from both ends bent in a zigzag shape to form connection holes for coupling the first distribution line and the second distribution line Elastic electrode,
A fastening pinion screwed to the connection hole to fix the first power distribution line and the second power distribution line to the elastic electrode, and a pinion portion around the upper end,
And the first and second power distributing lines are respectively formed on both sides of the inside of the connection body so that when the first power distributing line or the second power distributing line is pulled by an external force, A rack bar portion for releasing screw fastening of the fastening pinion at the connecting portion according to
The first and second electric wires are forcedly inserted into the first electric wire hole and the second electric wire hole so that the first electric wire and the second electric wire are separated from each other by the first electric wire hole and the second electric wire hole, 2 An end cap for wrapping the end of the power distribution line to prevent electric shock,
A ring-shaped terminal connected to an end of the first power distribution line and the second power distribution line and having a terminal hole through which the coupling pinion is inserted; and a slit hole formed in the end processing cap so as to be perpendicular to the connection portion,
Wherein the ring-shaped terminal extends over the inner circumference of the end-treatment cap when the ring-shaped terminal is detached from the connection portion, so that the first power distribution line and the second power distribution line are separated together with the end processing cap. delete The method according to claim 1,
The connecting body
An insertion hole into which the fastening pinion is inserted at a portion corresponding to the connection hole of the connection portion,
And an opening / closing cover installed on the insertion hole to prevent foreign matter from penetrating into the connection body.

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