KR102270308B1 - Spacer for underground pipeline for distribution of electricity - Google Patents

Abstract

The present invention relates to an underground distribution pipe interval maintaining device. The underground distribution pipe interval maintaining device comprises: a pipe connection unit; a mounting unit from which a fixing protrusion is formed to protrude; a pressing unit inserted and connected into an insertion groove; and connection units installed in a state in which connection units are spaced apart from front and rear sides of the pipe connection unit by predetermined distances, respectively. Therefore, the underground distribution pipe interval maintaining device allows an underground distribution pipe to have a stable installation structure in the pipe connection unit.

Description

Spacer for underground pipeline for distribution of electricity}

The present invention relates to a gap maintaining device, and more particularly, by improving the structure of the gap maintaining device so that the underground distribution pipe can be connected more stably, as well as safely protecting the underground power distribution pipe from external impact, It relates to an underground distribution pipe spacing device that allows the installation structure of the spacing device to be more stably maintained from external forces or tectonic fluctuations.

In general, a plurality of underground distribution pipes buried underground for power transmission, distribution, etc. are installed while maintaining a predetermined interval in the left, right, up and down directions.

At this time, the underground power distribution pipe installed at a predetermined interval must be kept constant to prevent damage to the underground power distribution pipe due to sagging, etc., thereby ensuring the safety of the road.

The underground distribution pipe has a plurality of transmission and distribution cables installed therein to protect the transmission and distribution cables, and is formed to extend along the longitudinal direction of the transmission and distribution cables.

The conventional underground distribution pipe installation uses a spacer in which an underground distribution pipe entry space is formed at a predetermined interval with a wooden plywood body. After filling the lower part with sand to a predetermined height, the underground distribution pipe is excreted, and a spacer is installed to set the interval between the underground cable pipes. After backfilling, the spacer is removed. Since this technology uses spacers only during construction and is removed after construction, it is difficult to maintain the gap between underground cable pipes during backfilling, and when used on a slope or where groundwater leaches, sand, the backfill material between pipes, is easily lost. There was a problem in that it was difficult to maintain the spacing of the underground cable pipe in the vertical direction.

In order to solve this problem, a technique for maintaining a gap between the underground distribution pipes when the underground distribution pipes are buried is disclosed in Korean Patent No. 10-1038972.

However, in the underground, various forces are applied, whether artificial or natural. Due to the nature of the structure of the conventional underground distribution pipe spacing maintenance device, the supporting force is weak to prevent position change in the buried state, thereby securing the stability of the underground power distribution pipe. There was a problem I couldn't do.

Republic of Korea Patent Publication No. 10-1038972

The present invention has been devised in view of the above-mentioned problems of the prior art, and its object is to further provide a separate seating unit in the pipe connection unit that allows the installation interval of the underground distribution pipe to be kept constant, so that the pipe connection unit can be installed underground. An underground distribution pipe spacing device is provided so that the entire pipe can be seated more stably.

In addition, by pressurizing and fixing the underground power distribution pipe connected to the pipe connection unit through a separate pressurizing unit, the bond between the underground power distribution pipe and the pipe connection unit is maintained more firmly to realize a stable installation structure. provide the device.

In addition, by further providing a separate support unit for supporting the underground distribution pipe protruding from the pipe connection unit at the front and rear of the pipe connection unit, respectively, the load of the underground distribution pipe is distributed so as not to be concentrated on the pipe connection unit To secure the stability of the installation structure, as well as provide a device for maintaining the spacing of the underground distribution tube so that the underground distribution tube can realize a stable installation structure.

In addition, by further providing a separate protection plate unit between the pipe connection unit and the pair of support units, the underground distribution pipe is protected from external impact, and the underground power distribution pipe spacing maintaining device is supported so that it does not sink in the vertical direction and is stable. An underground distribution pipe spacing device is provided so that the installation structure can be realized.

The present invention for solving the above problems,

A first hemispherical groove opening upward is formed on the inner side, a fitting groove communicating with the first hemispherical groove is provided in the middle of the first hemispherical groove, and a first connecting protrusion having through holes on both sides of the upper end protrudes The first block body is formed, the first connection grooves are provided on both sides of the lower end, the first binding groove is formed on one side, and the first binding protrusion is formed to protrude on the other side, and the first block body is fitted and connected to the upper part of the first block body. , a second hemispherical groove opened downwardly on the inner side is formed so that an underground distribution pipe is connected between the first hemispherical groove and the second hemispherical groove, and communicates with the second hemispherical groove in the middle of the second hemispherical groove An insertion groove is provided, a spiral hole is formed in the upper portion of the insertion groove, a second connection protrusion for insertion and connection to the first connection groove is formed on both upper sides of the protrusion, and the first connection projection is inserted and connected to both sides of the lower end a pipe connection unit comprising a second block body having a second connection groove to be formed, a second binding groove formed on one side, and a second binding projection protruding from the other side;

It is inserted into and connected to the fitting groove, and protrudes to the front and rear of the first block body to provide a space in which the underground distribution pipe is seated, and is fixed so as not to depart from the fitting groove to the front and rear in the lower front and rear. a seating unit in which a fixing protrusion is formed to protrude;

a pressing unit inserted and connected to the insertion groove, provided with a seating groove in the upper portion, and having an end of the pressing bolt fastened to the spiral hole in the seating groove, seated in the seating groove;

Installed in a state spaced apart from each other by a predetermined distance at the front and rear of the pipe connection unit, a pair of seating blocks are provided with different heights on the same vertical line, and each seating block is located on the top of the underground distribution pipe A plurality of receiving grooves to be seated are provided, a first fastening hole opened upwardly is formed at the upper end, and a second fastening hole having a different fastening direction from the first fastening hole is formed at the lower end. , a through hole opened in the rear direction is formed, a pair of spacers for connecting them are provided between the pair of seating blocks, and a first connecting bolt fastened to the first fastening hole is provided at a lower portion of the spacer. A pair of support units protruding and having a second connection bolt fastened to the second fastening hole protruding from the upper portion of the spacer

Both ends are inserted and connected to the through hole of the support unit 140 in a state of being inserted and connected into the through hole of the tube connection unit so as to connect the tube connection unit and a pair of support units, and a nut is fastened to the end It is configured to include a connected unit.

In the present invention, between the pipe connection unit and the pair of support units, as well as protecting the underground distribution pipe from external impact, a guard plate unit is further provided to support the underground distribution pipe gap maintaining device so as not to sink in the vertical direction. but,

The protection plate unit,

A hook member to be hooked and connected to the outer surface of the connection unit is formed in the lower portion of both ends of the plate-shaped body, and an extension plate member may further protrude and be formed on the outside of the hook member.

According to the present invention, there is an effect of allowing the underground distribution pipe to be more stably seated on the pipe connection unit.

In addition, there is an effect that can more firmly maintain the bond between the underground distribution pipe and the pipe connection unit.

In addition, there is an effect that the underground distribution pipe can implement a stable installation structure by dispersing the load of the underground distribution pipe so that it is not concentrated on the pipe connection unit.

In addition, there is an effect of not only protecting the underground distribution pipe from external impact, but also supporting the underground distribution pipe spacing device so as not to sink in the vertical direction.

1 is a perspective view showing an underground distribution pipe spacing device according to a preferred embodiment of the present invention.
2 is an exploded perspective view showing an underground distribution pipe spacing device according to a preferred embodiment of the present invention.
3 is an exploded perspective view showing a connection state of a pipe connection unit, a seating unit, and a pressurization unit among the underground distribution pipe spacing maintaining device according to a preferred embodiment of the present invention.
4 is an exploded perspective view showing a connection state of a support unit in an underground distribution pipe spacing device according to a preferred embodiment of the present invention.
5 is a perspective view showing an installation state of an underground distribution pipe spacing device according to a preferred embodiment of the present invention.
6 is a cross-sectional view showing an operating state of the pressurizing unit 130 among the underground distribution pipe spacing maintaining device according to a preferred embodiment of the present invention.
7 is a cross-sectional view showing a connection state between a connection unit and a guard plate unit in an underground distribution pipe spacing maintaining device according to a preferred embodiment of the present invention.

Hereinafter, an underground distribution pipe spacing device according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Figure 1 is a perspective view showing an underground distribution pipe spacing device according to a preferred embodiment of the present invention, Figure 2 is an exploded perspective view showing an underground distribution pipe spacing device according to a preferred embodiment of the present invention, Figure 3 is the present invention It is an exploded perspective view showing the connection state of the pipe connection unit, the seating unit and the pressurizing unit 130 among the underground distribution pipe spacing maintaining apparatus according to a preferred embodiment of the present invention, and FIG. 4 is an underground distribution pipe spacing maintenance according to a preferred embodiment of the present invention. It is an exploded perspective view showing the connection state of the support unit among the devices.

1 to 4, the pipe connection unit 110, the seating unit 120 inserted and connected to the pipe connection unit 110, the pressure unit 130 inserted and connected to the pipe connection unit 110, A pair of support units 140 installed in a state spaced apart from each other by a predetermined distance at the front and rear of the pipe connection unit 110, and a connection unit connecting the pipe connection unit 110 and the pair of support units 140 (150) is included.

The pipe connection unit 110 is manufactured through a female and male connection and assembly process of the first block body 1110 and the second block body 1210 .

The first block body 1110 has a first hemispherical groove 1111 opened upwardly formed therein, and communicates with the first hemispherical groove 1111 in the middle of the first hemispherical groove 1111 . Fitting grooves 1112 are provided, first connecting protrusions 1114 having through-holes 1113 on both sides of the upper end are protruded, and first connecting grooves 1115 are provided on both sides of the lower end, and first binding on one side A groove 1116 is formed, and a first binding protrusion 1117 is formed to protrude on the other side.

In addition, the second block body 1210 is fitted to the upper portion of the first block body 1110 . At this time, the second block body 1210 has a second hemispherical groove 1211 that is opened downwardly on the inside thereof.

Accordingly, the underground distribution pipe L is connected between the first hemispherical groove 1111 and the second hemispherical groove 1211 .

In addition, an insertion groove 1212 communicating with the second hemispherical groove 1211 is provided in the middle of the second hemispherical groove 1211 , and a spiral hole 1213 is formed in the upper portion of the insertion groove 1212 . A second connecting protrusion 1214 inserted and connected to the first connecting groove 1115 on both upper sides is protruded, and a second connecting groove 1215 into which the first connecting protrusion 1114 is inserted and connected to both sides of the lower end. ) is provided, a second binding groove 12116 is formed on one side, and a second binding protrusion 1217 is formed on the other side to protrude.

As shown in the drawing, by using the pipe connection unit 110 having such a configuration, a sequence of assembling the underground distribution pipe in the form of two columns and three rows will be described.

First, when the first hemispherical groove 1111 of the first block body 1110 and the second hemispherical groove 1211 of the second block body 1210 come into contact with each other, the direction is set so as to be circular.

Thereafter, the first connection protrusion 1114 of the first block body 1110 is inserted and connected to the second connection groove 1215 of the second block body 1210 .

The first block body 1110 and the second block body 1210 connected in this way have a binding structure that does not separate in the upper and lower directions.

In addition, next to the first block body 1110 and the second block body 1210 connected in this way, as many as the number of columns of the underground distribution pipe (L) are further connected.

At this time, the first binding groove 1116 of the first block body 1110 and the second binding groove 1216 of the second block body 1210 have the first binding groove of the first block body 1110 located next to them. The protrusion 1117 and the second binding protrusion 1217 of the second block body 1210 are inserted and connected.

The first block body 1110 and the second block body 1210 connected in this way have a binding structure that does not separate in the left and right directions.

Thereafter, the first block body 1110 and the second block body 1210 connected in the column direction are further connected upward by the number of stages of the underground distribution pipe (L).

That is, after assembling the first block body 1110 and the second block body 1210 connected in the column direction one more step, they are stacked.

At this time, the second connection protrusions 1214 formed in the second block body 1210 in one row are connected to the first connection groove 1115 formed in the first block body 1110 in the second row.

The pipe connection unit 110 is assembled through this assembly process.

On the other hand, the seating unit 120 is inserted and connected to the fitting groove 1112 of the first block body 1110 so that the underground distribution pipe L connected to the pipe connection unit 110 can be seated more stably. It is a component that performs the role of making it possible.

At this time, the seating unit 120 is inserted and connected to the fitting groove 1112 . At this time, the seating unit 120 protrudes to the front and rear of the first block body 1110 to provide a space in which the underground power distribution pipe L is seated.

In addition, a pair of fixing protrusions 121 are protruded from the front and rear of the seating unit 120 . In this case, the pair of fixing protrusions 121 are positioned at the front and rear of the first block body 1110 to prevent the seating unit 120 from moving in the front and rear directions to prevent separation.

On the other hand, the pressure unit 130 is inserted and connected to the insertion groove 1212 of the second block body 1210, the underground distribution pipe connected between the first hemispherical groove 1111 and the second hemispherical groove 1211. (L) is pressed and fixed. Accordingly, the pressurization unit 130 maintains the bond between the underground distribution pipe (L) and the pipe connection unit 110 more firmly to implement a stable installation structure.

The pressing unit 130 is provided with a seating groove 131 on its upper portion, and the end of the pressing bolt 133 fastened to the spiral hole 1213 is seated in the seating groove 131 .

Accordingly, when the pressing bolt 133 is rotated in the right direction, the pressing unit 130 moves downward to press the outer surface of the underground distribution pipe (L), and when the pressing bolt 133 is rotated in the left direction , the pressing bolt 133 moves upward to release the force pressing the pressing unit 130 .

On the other hand, the support unit 140 is a component installed in the front and rear of the pipe connection unit 110, and serves to distribute the load of the underground distribution pipe (L) so as not to be concentrated on the pipe connection unit (110). carry out

At this time, the support unit 140 is provided with a pair of seating blocks 141 at different heights on the same vertical line, and each seating block 141 has the underground power distribution pipe L on its upper portion. A plurality of receiving grooves 142 to be seated are provided, a first fastening hole 144 opened upwardly is formed at the upper end, and a second fastening hole having a different fastening direction from the first fastening hole 144 at the lower end. 145 is formed, and through-holes 143 opened in the front and rear directions are formed on both sides of the upper end.

In addition, the pair of seating blocks 141 are provided with a pair of spacers 146 for connecting them therebetween, and a first fastening hole 144 fastened to the first fastening hole 144 is provided at a lower portion of the spacer 146 . A first connecting bolt 147 is protruded, and a second connecting bolt 148 fastened to the second fastening hole 145 is protruded from the upper portion of the spacer 146 .

On the other hand, the connection unit 150 is inserted into the through hole 1113 of the pipe connection unit 110 so as to connect the pipe connection unit 110 and a pair of support units 140 to both ends in a connected state. It is inserted into and connected to the through hole 143 of the support unit 140, and a nut is fastened to the end thereof.

On the other hand, between the pipe connection unit 110 and the pair of support units 140 to protect the underground distribution pipe (L) from external impact, as well as to support the underground power distribution pipe spacing device so as not to sink in the vertical direction A protective plate unit 160 is further provided for.

At this time, the protection plate unit 160 has a plate-shaped body shape, and a hook member 161 that is hooked and connected to the outer surface of the connection unit 150 is formed at both ends of the lower portion, and extends to the outside of the hook member 161 . The plate material 163 further protrudes and is formed.

Accordingly, the underground distribution pipe spacing device having the above-described combined configuration not only allows the underground distribution pipe to be more stably seated on the pipe connection unit through structural improvement, but also pressurizes the underground distribution pipe connected to the pipe connection unit. , so that the underground power distribution pipe can realize a stable installation structure, and the pressure transmitted to the pipe connection unit by the load of the underground power distribution pipe is distributed so that the underground power distribution pipe can realize a stable installation structure. The installation relationship will be described in detail with reference to the drawings.

5 is a perspective view showing an installation state of an underground distribution pipe spacing device according to a preferred embodiment of the present invention, and FIG. 6 is an operation state of a pressurizing unit among the underground distribution pipe spacing maintaining device according to a preferred embodiment of the present invention. 7 is a main sectional view showing the connection state of the connection unit and the guard plate unit among the underground distribution pipe spacing maintaining device according to a preferred embodiment of the present invention.

5 to 7 , the support unit 140 spaced apart from the pipe connection unit 110 by a predetermined distance is installed in front and rear of the pipe connection unit 110 .

At this time, the support unit 140 positions the spacer 146 between the pair of mounting blocks 141 having different heights.

At this time, the first connecting bolt 147 of the spacer 146 is fastened to the first fastening hole 144 , and the second connecting bolt 148 of the spacer 146 is fastened to the second fastening hole 145 . is concluded

Accordingly, when the spacer 146 is rotated in the right direction, the first connecting bolt 147 and the second connecting bolt 148 are more deeply inserted into the first fastening hole 144 and the second fastening hole 145 . When fastened and the spacer 146 is rotated to the left, the first connecting bolt 147 and the second connecting bolt 148 are removed from the first fastening hole 144 and the second fastening hole 145 . do.

The support unit 140 assembled through this assembly process distributes the load of the underground distribution pipe (L) concentrated on the pipe connection unit 110 to prevent damage and settlement of the pipe connection unit 110 in advance. Make it possible to implement a stable installation structure.

On the other hand, the pipe connection unit 110 and the pair of support units 140 are fixed through the connection unit 150 , and a guard plate unit 160 is disposed between the pipe connection unit 110 and the support unit 140 . is installed

That is, the hook member 161 of the protection plate unit 160 is caught and connected to the connection unit 150 between the pipe connection unit 110 and the support unit 140 .

At this time, the guard plate unit 160 connected between the pipe connection unit 110 and the support unit 140 maintains a constant distance between the pipe connection unit 110 and the support unit 140 .

In addition, the protection plate unit 160 and the extension plate 163 of the protection plate unit 160 protect the underground distribution pipe (L) from external impact, as well as prevent the underground distribution pipe spacing device from sinking in the vertical direction. By supporting it, the underground distribution pipe spacing device of the present invention can implement a stable installation structure.

110: pipe connection unit 1110: first block body
1210: second block body 120: seating unit
121: fixing projection 130: pressurization unit
131: seating groove 133: pressure bolt
140: support unit 141: seating block
146: spacer 150: connection unit
160: protection plate unit 161: hook member
163: extension plate L: underground distribution pipe

Claims (2)

A first hemispherical groove 1111 opened upwardly is formed on the inner side, and a fitting groove 1112 communicating with the first hemispherical groove 1111 is provided in the middle of the first hemispherical groove 1111, the upper end A first connecting protrusion 1114 having a through hole 1113 on both sides is protruded, and a first connecting groove 1115 is provided on both sides of the lower end, a first binding groove 1116 is formed on one side, and the other side is formed. The first block body 1110 in which the first binding protrusion 1117 is protruded, and the second hemispherical groove 1211 that is fitted and connected to the upper portion of the first block body 1110 and is opened downwardly on the inside is formed. An underground distribution pipe (L) is connected between the first hemispherical groove (1111) and the second hemispherical groove (1211), and communicates with the second hemispherical groove (1211) in the middle of the second hemispherical groove (1211) An insertion groove 1212 is provided, a spiral hole 1213 is formed in an upper portion of the insertion groove 1212 , and a second connection protrusion 1214 is inserted and connected to the first connection groove 1115 on both sides of the upper end. is formed to protrude, a second connection groove 1215 into which the first connection protrusion 1114 is inserted and connected is provided on both sides of the lower end, a second binding groove 1216 is formed on one side, and a second binding projection on the other side (1217) a pipe connection unit 110 composed of a protruding second block body 1210; It is inserted and connected to the fitting groove 1112, and protrudes to the front and rear of the first block body 1110 to provide a space in which the underground power distribution pipe (L) is seated, and the fitting groove at the front and rear of the lower part. a seating unit 120 having a fixing protrusion 121 protruded for fixing it so as not to be separated from the front and rear in 1112; It is installed at the front and rear of the pipe connection unit 110 in a state spaced apart by a predetermined distance, respectively, and a pair of seating blocks 141 are provided with different heights on the same vertical line, and each seating block 141 ) is provided with a plurality of accommodating grooves 142 in which the underground distribution pipe (L) is seated on its upper portion, and a first fastening hole 144 opened upwardly at the upper end is formed, and the first fastening hole at the lower end. A second fastening hole 145 having a different fastening direction from 144 is formed, and through holes 143 opened in the front and rear directions are formed on both sides of the upper end, and between the pair of seating blocks 141 A pair of spacers 146 for connecting them are provided, and a first connecting bolt 147 fastened to the first fastening hole 144 is protruded under the spacer 146 , and the spacer 146 is formed. ), a pair of support units 140 and the pipe connection unit 110 and a pair of support units 140 in which a second connection bolt 148 fastened to the second fastening hole 145 protrudes from the upper portion of the support unit 140 . Both ends are inserted and connected to the through hole 143 of the support unit 140 in a state of being inserted and connected to the through hole 1113 of the pipe connection unit 110 to connect them, and a nut is fastened to the end. In the underground distribution pipe spacing device configured including the connection unit 150,
The underground distribution pipe spacing device further includes a pressurizing unit 130,
The pressurization unit 130,
It is inserted and connected to the insertion groove 1212, and a seating groove 131 is provided on the upper portion, and the end of the pressing bolt 133 fastened to the spiral hole 1213 is provided in the seating groove 131 to the seating groove ( 131), an underground distribution pipe spacing device, characterized in that it is seated within.
According to claim 1,
Between the pipe connection unit 110 and the pair of support units 140, as well as protecting the underground distribution pipe (L) from external impact, as well as a protective plate for supporting the underground distribution pipe gap maintaining device so as not to sink in the vertical direction A unit 160 is further provided,
The protection plate unit 160,
A hook member 161 that is hooked and connected to the outer surface of the connection unit 150 is formed in the lower portion of both ends of the plate-shaped body, and the extension plate 163 is further protruded and formed on the outside of the hook member 161 An underground power distribution pipe spacing device.

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