KR102031113B1 - Influx cutoff apparatus of groundwater for underground power distribution line - Google Patents

Abstract

The present invention relates to a groundwater inflow cutoff device of an underground distribution line and, more specifically, to a groundwater inflow cutoff device of an underground power distribution line which safely protects an underground distribution line from an inflow and an external force of groundwater. On the other hand, the groundwater inflow cutoff device of an underground distribution line prevents separation of a pipe from a connection unit so as to maintain a stable coupling state.

Description

Influx cutoff apparatus of groundwater for underground power distribution line}

The present invention relates to a groundwater inflow blocking device of the underground distribution line in the field of distribution technology, and more particularly, it is possible to safely protect the distribution line buried in the ground from the inflow of the groundwater and external forces, while the separation of the tube from the connection portion It relates to a groundwater inflow blocking device of the underground distribution line to prevent a stable coupling state to be maintained.

In general, in order to supply electricity to residential or industrial complexes, pipes are embedded in the ground and wires are wired inside them, which minimizes the exposure of underground lines and prevents damage to underground cables from external interference. There is such a thing to bury underground.

However, in the case of pipes buried underground and underground cables are housed inside, if the exterior surface is corroded by groundwater or its own damage is caused by various external factors, the pipes buried for maintenance and repair are moved to the outside. Repair work and replacement work are carried out through excavation work to be exposed.

The excavation work is carried out quickly and easily to the outside of the pipe buried underground using a conventional excavator (fork crane), at this time the outer surface of the pipe that accommodates the wire in the process of the bucket (fork crane shovel) of the excavator coming into the ground Of course, there is a problem that the pipe is broken by the bucket when the worker does not exactly know the location of the buried as well as causing cracks in the pipe.

Therefore, even if the worker is not clearly aware of the location of the buried means means for promptly telling the location of the buried pipe underground.

In addition, the groundwater penetrates between the pipes and the pipes that are continuously installed and contacts the underground wires that are wired therein, such that an electric safety accident occurs due to a short circuit and a short circuit.

Korean Patent Registration No. 10-1448173 (2014.10.10.) Discloses 'underground distribution line protection tube that can block the ingress of infiltration' as a conventional technology which partially solves this problem.

However, such a conventional underground distribution line protective tube has a problem that it is difficult to maintain a stable coupling state because the separation of the tube from the connecting portion can be generated by the external force.

Republic of Korea Patent Registration No. 10-1448173 (2014.10.10.) 'Underground distribution line protection pipe that can block the ingress of infiltration'

The present invention has been made to solve the above problems, an object of the present invention is to secure the distribution line buried in the ground from the inflow and external force of the groundwater, while preventing the separation of the tube from the connecting portion and stable coupling It is to provide a groundwater inflow blocking device of the underground distribution line to maintain the state.

The problem to be solved of the present invention is not limited to those mentioned above, other problems not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the present invention includes a connector body 110 through which the guide member 111 is formed to face each other and the inner circumferential surface thereof; Having a coupling groove 121, the connector 100 is formed between the outer peripheral surface and the inner peripheral surface of both ends of the connector body 110, consisting of a receiving portion 120 is inserted into the tubular body 200: having a fixing protrusion 210 Is inserted into the receiving portion 120, the tubular body 200 having elasticity to be detachably coupled to the coupling groove 121 via the fixing protrusion 210: formed along the longitudinal direction of the upper and lower guide member 111 Rail holes 311a installed to be movable in the openings, openings 311b formed at both ends, guide holes 311c formed at the edges and penetrating along the longitudinal direction, and insertion portions 311d formed at both sides based on the openings 311b. ) And a rectangular parallelepiped body portion 311 formed at the front end portion and the rear end portion of the insertion portion 311d and having first and second engagement holes 311e and 311f opened outwardly, and the body portion 311. It is composed of a fixed portion 312b that is integrally formed at both ends of the joint portion 312a and the joint portion 312a accommodated in the opening portion 311b. An insulator 310 having a metal connecting member 312; A fastener body 321 having a wire insertion hole 321a into which the distribution line L is inserted, a guide part 321b formed up and down side by side based on the wire insertion hole 321a, and a fixed frame on an inner circumferential surface thereof. 322a, a metal rod 322 inserted into the wire insertion hole 321a and detachably coupled to the fixing portion 312b, and integrally formed in the fixture body 321 to be movable in the guide hole 311c. The hook piece is formed integrally with the guide portion 323 to be fitted and the fastener body 321 so as to be movable in the insertion portion 311d and coupled to the first and second coupling holes 311e and 311f to restrict movement. 324 and a pair of pressure ports 325 which pressurize and fix the distribution line L inserted in the wire insertion hole 321a, and having the moving part 325a couple | bonded with the guide part 321b. A distribution line fixing tool (320,320 ') disposed at both ends of the insulator (310); In the groundwater inflow blocking device of the underground distribution line comprising a connector (300): inserted into the guide hole (311c) to push the guide portion 323 outwards, comprising: a tubular body (from the connecting portion 100) Departure prevention unit 400 for preventing the departure of the 200; Protection unit 500 to protect the departure prevention unit 400; And a blocking part 600 which prevents foreign substances from flowing between the connection part 100 and the pipe body 200, and the departure preventing part 400 is a clamp 410 coupled to the outside of the pipe body 200. ; A binding bar 420 extending upward from an upper portion of the connector body 110; A support bar 430 having one end connected to the binding bar 420 and the other end disposed above the clamp 410; And a connecting means 440 for connecting the clamp 410 to the support bar 430, wherein the connecting means 440 includes: a fixing ring 441 coupled to the outside of the support bar 430; A connection bar 442 extending upward from the clamp 410 and having an upper portion open; A guide bar 443 having an upper portion connected to the fixing ring 441 and having a lower portion extending in a downward direction so as to be movable upward and downward in the connection bar 442; And a first spring 444 received inwardly of the connection bar 442 so as to be positioned below the guide bar 443, and the binding bar 420 has a lower portion fixed to the connector body 110 and an upper portion thereof. The lower bar 421 is opened; An upper bar 422 is connected to the upper support bar 430, the lower portion is coupled to the lower bar 421 to be movable up and down; And second springs 423 accommodated inside the lower bar 421 to support the upper bar 422 to be moved up and down, and the first and second springs 444 and 423 are tubular bodies 200 according to external forces. Shrink, relax, and cushion the shock according to the shaking of the protection unit 500, both ends and the lower portion of the protective cover 510 is coupled to the outside of the binding bar 420 and the guide bar 443; A protective plate 520 for blocking a lower portion of the protective cover 510; A first protective cap 530 blocking one end of the protective cover 510 and having a lower portion of the binding bar 420 and the guide bar 443 passing therethrough; A second protective cap 540 blocking the other end of the protective cover 510 and having a through hole 541 through which the other end of the support bar 430 passes; And a shock absorbing member 550 accommodated inside the protective cover 510, and the blocking unit 600 extends outward from both ends of the connector body 110 and is formed of a soft blocking tube 610. ; An airtight ring 620 provided on the inner circumferential surface of the blocking tube 610 to be in contact with the pipe body 200; And a ground ring of the underground distribution line, comprising: a pressing ring 630 coupled to the outside of the blocking pipe 610 to press the blocking pipe 610 so that the airtight ring 620 is in close contact with the pipe 200. Provide an inlet blocking device.

According to the present invention, first, since the tubular body is made of rubber, it is possible to reliably seal the inside when combined with the receiving part, thereby fundamentally blocking the inflow of the infiltrate, and also correspondingly modified even when an external force is applied. Restoration is possible, which greatly reduces the risk of breakage.

Second, because the connector is movably coupled to the connector, when the tensile force acts on the distribution line, the connector is moved in the direction in which the tensile force acts through the guide member fitted to the rail hole, so that the distribution line is disconnected or the electrical connection state of the distribution line is As well as can solve the problem of being released, it is possible to limit the movement of the connector moving along the guide member because the distribution line fixture performs the stopper function can solve the problem of changing the position of the connector.

Third, it is possible to easily and simply electrically interconnect and disconnect the power distribution line through a connector consisting of an insulator, a pair of power distribution line fixtures and the carcass means there is a convenient operation.

Fourth, there is an effect that can maintain a stable coupling state by preventing the detachment of the tube from the connecting portion.

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

1 and 2 are a perspective view and an exploded perspective view showing the groundwater inflow blocking device of the underground distribution line according to the present invention.
3 and 4 are an exploded perspective view and a cross-sectional view showing a connector in the groundwater inflow blocking device of the underground distribution line according to the present invention.
5a to 5c is a state diagram showing the groundwater inflow blocking device of the underground distribution line according to the present invention.
Figure 6 is a front view showing a state with a departure prevention portion in the groundwater inflow blocking device of the underground distribution line according to the present invention.
7 is a partial side cross-sectional view showing the connecting means in FIG.
8 is a partial side cross-sectional view showing the binding bar in FIG.
9 is a cross-sectional view showing a state in which the protection unit is provided in the groundwater inflow blocking device of the underground distribution line according to the present invention.
FIG. 10 is an exploded perspective view illustrating the protection unit in FIG. 9.
11 is a front view showing a state in which a blocker is provided in the groundwater inflow blocking device of the underground distribution line according to the present invention.
And
12 is a cross-sectional view showing a state in which a blocking unit is provided in the groundwater inflow blocking device of the underground distribution line according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

1 to 4, the groundwater inflow blocking device of the underground distribution line according to the present invention is composed of the connector 100, the tube 200 and the connector 300, buried in the ground to the distribution line (L) groundwater It protects against external force.

1 and 2, the connector 100 is a member for connecting the tubular 200 to each other, it is composed of a connector body 110 and the receiving portion 120.

The connector body 110 is a tube of synthetic resin material, the inner central inner peripheral surface of the 'T' shaped guide member 111 protruding inward to face each other is integrally formed, the guide member 111 is a connector ( 300 is coupled to be movable through the rail hole (311a).

The receiving portion 120 is formed between the outer circumferential surface and the inner circumferential surface of both ends of the connector body 110 and the end of the tubular body 200 is inserted inward.

A coupling groove 121 is integrally provided at an inner circumferential surface of the end of the accommodation part 120, and the fixing protrusion 210 of the tubular body 200 is detachably fixed to the coupling groove 121.

Since the connector 300 is movably coupled to the guide member 111 through the rail hole 311a, when a tensile force occurs in the distribution line L, the connector 300 moves in a direction in which the tensile force acts accordingly. Therefore, it is very useful to eliminate the risk of disconnection of the distribution line (L) and the problem of the electrical connection is released.

1 and 2, the tubular body 200 is made of rubber, the end is provided with a fixing protrusion 210 integrally, and inserted into the receiving portion 120 of the connector 100 and the external force and It serves to protect the distribution line (L) accommodated therein from the inflow of groundwater.

In particular, since the tubular body 200 is made of rubber, the inside of the tubular body 200 can be tightly sealed when coupled to the receiving part 120, thereby fundamentally blocking the inflow of groundwater, and the external force is deformed accordingly. It is quite useful because it can greatly reduce the risk of breakage.

1 to 5A, the connector 300 is a mechanism composed of an insulator 310, a power distribution line fixing tool 320, 320 ′, and an elastic means 330. In the present embodiment, the connector 300 is movably installed in the connector 100. And it serves to connect the power distribution line (L) and electrically interconnected.

The insulator 310 is composed of the body portion 311 and the connection member 312, and serves to electrically connect the distribution line (L) connected at both ends.

The body portion 311 is a rectangular parallelepiped insulating material, upper and lower rail guides (311a) formed along the longitudinal direction so that the guide member 111 can be inserted and movable is formed, the openings (both ends) 311b) is formed, and the guide hole 311c penetrated along the longitudinal direction is integrally formed at the edge of the opening 311b, and the groove has a predetermined depth along the longitudinal direction on both sides of the opening 311b. The formed insertion part 311d is formed, and the first and second coupling holes 311e and 311f which are in communication with each other with the front end and the rear end of the insertion part 311d are integrally formed on the outer surface in the longitudinal direction.

Here, the hook pieces 324 of the distribution line fixtures 320 and 320 'are coupled to the first and second coupling holes 311e and 311f, for example, the hook pieces 324 are inserted into the first coupling holes 311e. When the distribution line fixtures 320 and 320 'are in close contact with the side of the body 311, the distribution line L is electrically connected to the connecting member 312, and the hook piece 324 is inserted into the second coupling hole 311f. When the distribution line fixtures 320 and 320 'are spaced apart from the side of the body portion 311, the electrical connection state is released while the distribution line L is separated from the connection member 312.

In particular, since the hook piece 324 is caught by the second coupling hole 311f, it is possible to prevent the distribution line fixing fixtures 320 and 320 'from being completely separated from the body portion 311, so that the distribution line fittings 320 and 320' are lost. It is very useful to lower the rate.

The connection member 312 is composed of a metal joint 312a and a pair of fixing parts 312b, and in this embodiment, serves to electrically connect the power distribution line (L).

The joint part 312a of the connection member 312 is inserted into the body part 311 and is internally installed, and the fixing part 312b formed at both ends of the joint part 312a is accommodated in the opening part 311b.

Here, the fixing part 312b is formed in a 'U' shape as a whole can be easily gripped and fixed to the metal rod 322 inserted into the inside.

1 to 3, the distribution line fixing spheres 320 and 320 ′ are members formed at both ends with respect to the insulator 310, and serve to fix the distribution line L in this embodiment.

The distribution line fixtures 320 and 320 ′ are composed of a fixture body 321, a metal rod 322, a guide part 323, a hook piece 324, and a pressing hole 325.

The metal rod 322, the guide part 323, and the hook piece 324 are formed on one surface of the fixture body 321, and only the pressing tool 325 is formed on the other surface of the fixture body 321.

The fixture body 321 is a rectangular block of insulating material, the wire insertion hole 321a is penetrated toward the opening 311b so that the distribution line (L) is inserted in the center, the wire insertion hole (321a) As a reference, the guide part 321b is integrally formed in the upper part and the lower part in parallel.

The metal rod 322 is coupled to the opposite wire insertion hole 321a in which the guide portion 321b is formed. In particular, the fixing frame 322a is integrally provided on the inner circumferential surface of the metal wire 321a so that the metal wire of the distribution line L can be inserted and fixed. .

The metal rod 322 is detachably coupled to the fixing part 312b of the connection member 312.

The guide portion 323 is integrally formed in the fixture body 321 is inserted into the guide hole (311c) to be movable.

According to the present invention, since the guide part 323 is inserted into the guide hole 311c to be movable, the fastener body 321 can be moved more stably by the guide part 323, in particular, the fastener body 321 Even if an external force acts on the guide part 323 and the guide hole 311c are mutually coupled to solve the problem that the fixture body 321 is easily broken.

The hook piece 324 is formed integrally with the fastener body 321 and is movably coupled to the insertion portion 311d.

The tip of the hook piece 324 has a triangular protrusion, which is selectively coupled to the first and second coupling holes 311e and 311f, which will be described in more detail, for example, in the first coupling hole 311e. When the hook piece 324 is inserted, the distribution line fixtures 320 and 320 'are in close contact with the side of the body 311 so that the metal rod 322 is electrically connected to the connecting member 312, and conversely to the second coupling hole 311f. When the hook piece 324 is inserted, the distribution line fixtures 320 and 320 'are spaced apart from the side of the body 311, and the metal rod 322 is separated from the connecting member 312, thereby releasing the electrical connection state.

Furthermore, since the hook piece 324 is caught by the second coupling hole 311f, it is possible to prevent the distribution line fixtures 320 and 320 'from being completely detached from the body portion 311, so that the distribution line fixtures 320 and 320' are lost. It is very useful to lower the rate.

The pressure port 325 is a member in which a pair of semi-circular members presses and fixes the power distribution line L. In the present embodiment, the pressure port 325 is movable to the guide part 321b through the moving part 325a. It presses and fixes the coating of the distribution line L inserted into the wire insertion hole 321a.

The pressure port 325 is preferably coupled to each other by a semi-circular member using a fastening means such as a screw bolt.

According to the present invention, even if an external force (tensile force) is generated in the distribution line (L), the distribution bar (L) can be minimized because the metal rod 322 and the pressure port 325 is fixed at the same time, the separation of the distribution line (L).

The ballistic means 330 is a coil spring, and in this embodiment, the guide part 323 inserted into the guide hole 311c and inserted into the guide hole 311c has a function of pushing in one direction.

According to the present invention, when the hook piece 324 is fixed to the first coupling hole 311e, the guide part 323 is completely inserted into the guide hole 311c, thereby pressing the shot force means 330 from both sides, and the hook piece When the 324 is fixed to the second coupling hole (311f), the guide portion 323 is pushed to both sides by the restoring force of the ball shooting means 330, so that the metal rod 322 can be easily separated from the fixing portion 312b. Very convenient.

The use state of the present invention having the above configuration will be described.

5A to 5C, first, the rail hole 311a of the connector 300 is fitted into the guide member 111 of the connector 100, and then the distribution line L is connected to the distribution line fixture 320, 320 ′. When inserted into the wire insertion hole 321a, the metal wire of the distribution line (L) is inserted into the metal rod 322 is fixed by the fixed frame 322a.

Then, in the state in which the power distribution line (L) is fixed to the metal rod 322, the cover of the power distribution line (L) is wrapped using the pressure port (325), and then fixed using a fastening means such as a screw bolt.

As described above, when the power line L is pushed toward the fixing part 312b of the insulator 310 in a state in which the power distribution line L is fixed to the power line fixing fixtures 320 and 320 ', the guide portion 323 and the hook piece of the power line fixing fixtures 320 and 320' are fixed. Each of the 324 moves along the guide hole 311c and the inserting portion 311d of the insulator 310, and the shotgun means 330 inserted into the inserting portion 311d is compressed by the guide portion 323. .

When the hook piece 324 is positioned in the first coupling hole 311e in the process of moving along the insertion portion 311d, the hook piece 324 bent inward is restored and the first coupling hole 311e and The metal rods 322 are coupled to and fixed to the fixing portion 312b of the connecting member 312, and the distribution lines L fixed to the distribution line fixtures 320 and 320 'are electrically connected to each other.

When the distribution line (L) connection work using the connector 300 is completed as described above, by pushing the tubular body 200 into the receiving portion 120 formed on both ends of the connector 100, the fixing projection 210 and the coupling groove 121 ), Then the installation is completed.

On the other hand, when the external force acts on the tubular body 200 in the state as described above, the tubular body 200 is deformed accordingly to protect the distribution line (L), and when the external force is released to restore to its original state by restoring force. Therefore, it is possible to greatly reduce the risk, such as breakage, in particular when inserted into the receiving portion 120 of the tubular body 200 made of synthetic rubber can be blocked between the inflow of groundwater.

In addition, when the tensile force is applied to the power distribution line (L) correspondingly the connector 300 is moved in the direction in which the tensile force acts through the guide member 111 fitted into the rail hole (311a), the distribution line (L) is disconnected It is possible to solve the problem that the electrical connection state of the power distribution line (L) or is released, and furthermore, because the distribution line fixture 320 performs the stopper function, the movement of the connector 300 moving along the guide member 111. It can be limited to solve the problem that the position of the connector 300 changes.

Nevertheless, if the distribution line (L) has a problem, the assembly state in the reverse order of the above method is to be dismantled, first, the tube 200 is separated from the connector 100.

Then, when the hook piece 324 coupled to the body portion 311 is pressed inward, the hook piece 324 is separated from the first coupling hole 311e, and at this time, the compressed ball shooting means 330 is The guide portion 323 is pushed while being restored, and thus, the guide portion 323 and the hook piece 324 of the distribution line fixing tool 320 and 320 'are moved along the guide hole 311c and the insertion portion 311d, respectively.

When the hook piece 324 is positioned in the second coupling hole 11e in the process of moving along the insertion portion 311d, the hook piece 324 that is bent is restored and coupled to the second coupling hole 11e. Due to the movement of the distribution line fixtures 320 and 320 'are no longer moved, and the metal rod 322 is separated from the fixing portion 312b, the electrical connection is released, and the pressure port 325 is released and then the damaged distribution line L ) And reassemble in the same way as above.

The groundwater inflow blocking device of the underground distribution line according to the present invention further includes a departure prevention part 400 for preventing the departure of the pipe body 200 from the connection part 100 as shown in Figs.

The separation prevention unit 400 is a clamp 410 coupled to the outside of the tubular body 200, a binding bar 420 extending upward from the upper portion of the connector body 110, one end is connected to the binding bar 420 And, the other end includes a support bar 430 disposed on the upper portion of the clamp 410 and connecting means 440 for connecting the clamp 410 to the support bar 430.

The clamp 410 may have a circular ring shape at which both ends are opened, and a pressing member (not shown) of an insulating material may be provided on an inner circumferential surface thereof.

The clamp 410 is branched in the vertical direction around the distribution line to form a form that is coupled to each other surrounding the tubular 200 by a fastener including a bolt, a nut.

The binding bar 420 has a lower portion integrally connected to the upper portion of the connector body 110 and the upper portion extends upward.

The support bar 430 has a head 431 formed at one end thereof to be in contact with the binding bar 420, and the other end passes through the binding bar 420 to be disposed above the clamp 410, and a thread is formed at the outer circumferential surface thereof. It may be made of a bolt or the like.

The separation prevention unit 400 may further include a binding means 450 for binding the support bar 430 to the binding bar 420.

The binding means 450 may be formed of a nut having a screw thread formed on an inner circumferential surface thereof, and screwed to the outside of the support bar 430 such that the binding bar 420 is positioned between the head portion 431.

Accordingly, the support bar 430 may be stably fixed to the binding bar 420.

The connecting means 440 is a fixing ring 441 which is coupled to the outside of the support bar 430, extending upwardly from the clamp 410, the connecting bar 442 is opened at the top, the fixing ring 441 is the top It is connected to the lower portion extending in the downward direction is received in the inner side of the connecting bar 442 to be positioned below the guide bar 443 and the guide bar 443, which is accommodated to move up and down inward of the connecting bar (442) And a first spring 444 to be formed.

The fixing ring 441 has a circular shape and is coupled to the outside of the support bar 430 to be positioned above the clamp 410.

The separation prevention unit 400 may further include fixing means 460 for fixing the fixing ring 441 to the support bar 430.

The fixing means 460 includes a plurality of fixing members 461 that are screwed to the support bar 430 such that threads are formed on the inner circumferential surface and are positioned at both sides of the fixing ring 441.

The connection bar 442 is preferably formed integrally on the upper portion of the clamp 410 to form a cylindrical shape, the upper and lower portions open.

The guide bar 443 is formed in the shape of a circular rod extending in the vertical direction and is preferably formed integrally with the lower portion of the fixing ring 4411.

The guide bar 443 is preferably provided with a pressing plate 443a at the lower portion of the guide bar 443 to facilitate contact with the first spring 444.

The connecting means 440 may further include a prevention cap 445 for preventing the lower part of the guide bar 443 from being separated from the connecting bar 442 while the lower part of the open connecting bar 442 is sealed.

The prevention cap 445 is disposed above the connection bar 442 and extends downward from the outside of the prevention plate 446 and the prevention plate 446 in which a guide hole 446a through which the guide bar 443 passes is formed. A side wall 447 is formed and coupled to the outside of the guide bar 443.

The prevention plate 446 is formed in a circular shape, and the side wall 447 is preferably formed integrally with the prevention plate 446.

The guide bar 443 may be threaded on the upper outer circumferential surface, and the prevention cap 445 may be screwed to the guide bar 443 while the thread is formed on the inner circumferential surface.

The first spring 444 is accommodated in the connection bar 442 to be positioned below the pressure plate 443a.

The binding bar 420 is coupled to the lower bar 421 is fixed to the connector body 110 and the upper portion is open, the support bar 430 is connected to the upper portion and the lower portion is movable up and down to the lower bar 421. It may be made of an upper bar 422.

The lower bar 421 is formed with guide holes 421a extending in the vertical direction on both sides thereof, and the second spring 423 is accommodated inward.

The upper bar 422 is supported by the second spring 423 while the protrusion bar 422 coupled to the guide holes 421a is formed at both sides.

Accordingly, the first and second springs 444 and 423 may cushion and relax the shock according to the shaking of the tubular body 200 according to the external force.

Thus, the departure prevention unit 400 may be maintained in a stable coupling state while preventing the departure of the tube 200 from the connecting portion 100.

The groundwater inflow blocking device of the underground distribution line according to the present invention further includes a protection part 500 to protect the departure prevention part 400 as shown in FIGS. 9 to 10.

The protection unit 500 protects the departure prevention unit 400 from the outside, while external force is transmitted between the connection unit 100 and the tubular 200 to prevent the tubular 200 from being detached from the connecting portion 100. .

The protection unit 500 is open at both ends and the lower part of the protective cover 510 coupled to the outside of the binding bar 420 and the guide bar 443, the protective plate 520 to block the lower portion of the protective cover 510, protection Blocking one end of the cover 510, the first protective cap 530 through which the binding bar 420 and the lower portion of the guide bar 443, the other end of the protective cover 510 is blocked and the support bar 430 And a second shock absorbing member 550 accommodated inside the second protective cap 540 and the protective cover 510 in which the through hole 541 through which the other end passes.

The protective cover 510 forms an arch shape in which both ends and the lower part are opened so that the load transmitted from the upper part can be distributed as much as possible.

The protective cover 510 preferably supports the protective plate 520 stably while the support jaw 511 is bent inwardly.

The protective plate 520 forms a square plate and is received inside the protective cover and seated on the support jaw 511.

The protective plate 520 prevents both sides of the protective cover 510 from being deformed in a direction opposite to each other by external force, and prevents the shock absorbing member 550 accommodated inside the protective cover 510 from escaping to the outside. do.

The protective plate 520 is provided with a pair of coupling holes 521 through which the binding bar 420 and the guide bar 443 pass.

The coupling hole 521 is preferably formed extending from one side of the protective plate 520 to the other side so that the coupling bar 420 and the guide bar 443 can be easily detached. Here, both sides of the protective plate 520 may be understood as a direction crossing the longitudinal direction.

The first protective cap 530 is coupled to one end of the protective cover 410 so that the other end is adjacent to the head 431.

The first protective cap 530 is preferably not easily separated from the protective cover 510 while the airtight member (not shown) made of silicon or the like is provided around the inner circumference.

The second protective cap 540 is coupled to the other end of the protective cover 410 so that one end thereof is adjacent to the fixing member 461.

The second protective cap 540 is preferably provided with an airtight member (not shown) made of silicon or the like on the inner circumference thereof and is not easily separated from the protective cover 510.

The through hole 541 penetrates both sides of the second protective cap 540 and extends in the vertical direction to allow the vertical movement of the protective cover 510 by external force.

The shock absorbing member 550 may be made of silicon, urethane foam, or the like, and is absorbed into the protective cover 510 while absorbing an impact by external force.

The shock absorbing member 550 may form a plurality of grains or may form a pad, and is preferably filled between the protective cover 510 and the support bar 430.

Due to this, the protection unit 500 may protect the departure prevention unit 400 from the outside, as well as the external force is transmitted between the connection unit 100 and the tube 200 while the tube 200 from the connector 100 Can be prevented from escaping.

The groundwater inflow blocking device of the underground distribution line according to the present invention is a blocking unit 600 to prevent foreign substances, including groundwater, and the like between the connection portion 100 and the tube 200 as shown in Figure 10 to 11 More).

The blocking unit 600 prevents the tubular body 200 from being separated or detached due to the expansion of the accommodating part 120 which may be generated while the foreign substance is introduced into the connecting part 100 and the tubular 200.

The blocking unit 600 is formed to extend outwardly from both ends of the connector body 110 and is provided on the inner circumferential surface of the blocking tube 610 and the blocking tube 610 made of a soft, and an airtight ring 620 in contact with the tubular 200. The pressure ring 630 is coupled to the outside of the blocking tube 610 and pressurizes the blocking tube 610 so that the airtight ring 620 is in close contact with the tube 200.

The blocking tube 610 is made of silicon, synthetic resin, or the like, and is deformed by an external force, and restored to its original state when the external force is released.

The blocking tube 610 forms a shape in which one end is fixed to both ends of the connector body 110 and the other end extends outward.

The airtight ring 620 is made of a rubber material or the like, and is provided on the inner circumferential surface of the blocking tube 610 to be in contact with the tube 200.

The pressure ring 630 is elastic and is relaxed by an external force, while being retracted when the external force is released, it is restored to its original state.

For example, the pressure ring 630 may be made of a rubber band, etc., while pressing to the outside of the blocking tube 610 to press the blocking tube 610 to the tube 200.

The hermetic ring 620 is in close contact with the tube 200 according to the pressure of the pressure ring 630 to allow the tube 200 and the pressure ring 630 to be hermetic.

The pressure ring 630 is preferably composed of a pair is coupled to the outside of the blocking tube 610 to be located on both sides of the hermetic ring 620.

As a result, the blocking part 600 may prevent the tubular body 200 from being separated or separated due to the expansion of the accommodating part 120 which may be generated while the foreign substance is introduced into the connecting part 100 and the tubular 200. Can be.

What has been described above is only an embodiment for implementing the groundwater inflow blocking device of the underground distribution line according to the present invention, the present invention is not limited to the above embodiment, as claimed in the following claims Without departing from the gist of the invention, anyone of ordinary skill in the art to which the present invention will have the technical spirit of the present invention to the extent that various modifications can be made.

100: connector 110: connector body
120: receiving part 200: tube
300: connector 310: insulator
320.320 ': Distribution line fixture 330: Shotgun
400: release prevention part 410: clamp
420: binding bar 430: support bar
440: connecting means 450: binding means
460: fixing means 461: fixing member
500: protective part 510: protective cover
520: protective plate 530: first protective cap
540: second protective cap 550: shock absorbing member
600: breaker 610: blocker
620: hermetic ring 630:

Claims (1)

A connector body (110) formed therein so that the guide member (111) is opposed to each other on an inner circumferential surface thereof; Having a coupling groove 121, the connector 100 is formed between the outer peripheral surface and the inner peripheral surface of both ends of the connector body 110 and composed of the receiving portion 120 is inserted into the tubular body 200:
Having a fixing protrusion 210, inserted into the receiving portion 120, the tubular body 200 having elasticity detachably coupled to the coupling groove 121 via the fixing protrusion 210:
Rail holes 311a that are formed along the longitudinal direction of the upper and lower surfaces so as to be movable in the guide member 111, openings 311b formed at both ends, guide holes 311c formed at the edges and penetrated in the longitudinal direction, The rectangular parallelepiped shape which has the insertion part 311d formed in both sides with respect to the opening part 311b, and the 1st and 2nd engagement hole 311e, 311f formed in the front end part and the rear end part of the insertion part 311d, respectively and opened outward. A metal material consisting of a body part 311, a joint part 312a which is formed in the body part 311, and a fixing part 312b that is integrally formed at both ends of the joint part 312a and accommodated in the opening part 311b. An insulator 310 having a connecting member 312 thereof;
A fastener body 321 having a wire insertion hole 321a into which the distribution line L is inserted, a guide part 321b formed up and down side by side based on the wire insertion hole 321a, and a fixed frame on an inner circumferential surface thereof. 322a, a metal rod 322 inserted into the wire insertion hole 321a and detachably coupled to the fixing portion 312b, and integrally formed in the fixture body 321 to be movable in the guide hole 311c. The hook piece is formed integrally with the guide portion 323 to be fitted and the fastener body 321 so as to be movable in the insertion portion 311d and coupled to the first and second coupling holes 311e and 311f to restrict movement. 324 and a pair of pressure ports 325 which pressurize and fix the distribution line L inserted in the wire insertion hole 321a, and having the moving part 325a couple | bonded with the guide part 321b. A distribution line fixing tool (320,320 ') disposed at both ends of the insulator (310);
In the groundwater inflow blocking device of the underground power distribution line comprising a connector 300 consisting of a bullet injection means 330 is inserted into the guide hole (311c) to push the guide portion 323 outward,
Departure prevention part 400 for preventing the departure of the pipe body 200 from the connection portion 100;
Protection unit 500 to protect the departure prevention unit 400; And
Further comprising a blocking unit 600 for preventing foreign matter from flowing between the connection portion 100 and the tubular body 200,
Departure prevention unit 400,
Clamp 410 is coupled to the outside of the tubular body 200;
A binding bar 420 extending upward from an upper portion of the connector body 110;
A support bar 430 having one end connected to the binding bar 420 and the other end disposed above the clamp 410; And
It includes a connecting means 440 for connecting the clamp 410 to the support bar 430,
Connection means 440,
A fixing ring 441 coupled to the outside of the support bar 430;
A connection bar 442 extending upward from the clamp 410 and having an upper portion opened;
A guide bar 443 having an upper portion connected to the fixing ring 441, and having a lower portion extending downward and being movable upward and downward in the connection bar 442; And
A first spring 444 received inwardly of the connection bar 442 to be positioned below the guide bar 443,
Binding bar 420,
A lower part fixed to the connector body 110 and a lower bar 421 to which the upper part is opened;
An upper bar 422 is connected to the upper support bar 430, the lower portion is coupled to the lower bar 421 to be movable up and down; And
A second spring 423 accommodated in the lower bar 421 to support the upper bar 422 to be lifted and lowered;
The first and second springs 444 and 423
Shrink and relax in accordance with the shaking of the tubular body 200 according to the external force to buffer the shock,
The protection unit 500,
A protective cover 510 which is open at both ends and a bottom thereof and coupled to the outside of the binding bar 420 and the guide bar 443;
A protective plate 520 for blocking a lower portion of the protective cover 510;
A first protective cap 530 blocking one end of the protective cover 510 and having a lower portion of the binding bar 420 and the guide bar 443 passing therethrough;
A second protective cap 540 blocking the other end of the protective cover 510 and having a through hole 541 through which the other end of the support bar 430 passes; And
Including a shock absorbing member 550 accommodated inside the protective cover 510,
Blocking unit 600,
A blocker tube 610 extending outward from both ends of the connector body 110 and formed of a soft body;
An airtight ring 620 provided on the inner circumferential surface of the blocking tube 610 to be in contact with the pipe body 200; And
Groundwater inflow into the underground distribution line is characterized in that it comprises a pressing ring 630 to be coupled to the outside of the blocking pipe 610 to press the blocking pipe 610 to be in close contact with the tube body 200. Blocking device.

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