KR100903584B1 - Conduit line fittings of manhole for an underground distribution line - Google Patents

Abstract

A conduit fitting of an underground structure for an underground distribution line is provided to prevent the underground structure from being damaged partially by performing installation firmly without an additional anchor bolt. An internal circular conduit frame and an external circular conduit frame are installed inside and outside a conduit connection hole of an underground structure. A variable seal tube(20) is installed in an inner circumference of the conduit connection hole. The variable seal tube is positioned between support protrusion units of the internal circular conduit frame and the external circular conduit frame. A cross-shaped leaf spring compensator(30) is positioned in the outer surface of the internal circular conduit frame and the external circular conduit frame. A connecting bolt(40) couples the internal circular conduit frame, the external circular conduit frame, the variable seal tube, and the cross-shaped leaf spring compensator.

Description

 Underground line fittings of manhole for an underground distribution line

The present invention relates to an underground structure pipeline for underground distribution lines, and more particularly, can be easily connected and installed by manholes of various diameters and thicknesses (hereinafter referred to as "underground structures") and underground transmission and distribution lines. In this connection, it can make solid contact and effectively block the inflow of foreign materials into the underground structure, and when it is installed in the pipeline connection hole of the underground structure, it can be firmly installed and fixed without using an additional anchor bolt on the wall. To underground structure pipelines for underground transmission and distribution lines.

In general, underground structures such as manholes, handholes, and power holes buried in the ground are generally installed at the branch points of pipelines and electric cables, such as water and sewage, electricity, and gas, which are buried underground, and most of them are buried underground.

The underground structure has a pipeline structure installed through the walls of the underground structure, which is a reinforced concrete structure, so that the underground transmission and distribution lines can be introduced into the underground structure to perform the binding operation of the wiring.

Such a conventional pipeline structure is a structure in which a fixed tube installed through a wall of underground structures and a corrugated tube forming a variable pipeline are fitted to the fixed tube, and there are uneven settlements around the underground structure, and ready-mix concrete loads and concrete castings when concrete is poured. Later, due to short curing period due to the surrounding environment of the big city, the connection points of the pipelines are separated, which leads to underground cable accidents, or re-excavation when laying cables later, and the infiltration or inflow of rainwater from the pipeline side occurs. There was a back.

Recently, in order to solve such a problem, a fixed tube installed through a wall of the underground structure and a power cable connected to the fixed tube in order to connect the electric wire duct in the underground structure installed underground. A manhole pipe structure (application number 20-2003-0021352) has been proposed, characterized by the configuration of a corrugated pipe body and a connecting pipe connecting the fixed pipe and the corrugated pipe body by a rotary connection.

It is a pipe that is installed in underground structures to connect pipelines in underground structures that are installed underground, compared to the pipeline consisting of a fixed pipe installed through the underground structure walls and a corrugated pipe that forms a variable pipeline to the fixed pipe. And the connecting member connecting them to the structure of the screw-type solid coupling prevents uneven settlement around the underground structure or separation and detachment of the tubes such as loads when placing concrete, so that underground power cable is disconnected by exposure While it is possible to prevent the re-excavation work again due to the inability to lay the cable, there is an advantage that can solve the problems such as infiltration or inflow of rainwater from the pipeline side in advance,

When placing the pipeline in the formwork for the production of underground structures, there was a cumbersome problem in manufacturing that must be produced by curing.

Accordingly, more recently, the convenience of connection installation is increased, and the partial damage of the underground structure is minimized when installing the connection, and it is possible to connect underground transmission and distribution lines of various diameters as well as to correspond to the pipeline connection holes of underground structures having various thicknesses and diameters. The development of pipelines to enable connection installation is underway in many ways.

An example will be described to help understand the following.

It is a standing plate made of rubber material located on the inner and outer sides of the underground hole of the underground structure, and the center is formed with a line sealing hole in which the underground distribution line is inserted in an airtight manner. Internal and external elastic airtight support frames each having recesses formed therein;

A rectangular box shape is inserted into the rectangular operation recesses of the inner and outer elastic sealing frames, respectively, and a sliding box having a long hole is formed at the front center at an upper and lower part thereof. A sliding guide having a fixed guide plate which is fastened and fixed to the square operation recess to fix the sliding box to the square operation recess;

A bolt having a head portion positioned inside the sliding box of the sliding guide in the form of a bolt and protruding horizontally through the long hole and the through hole, the support bolt having a screw fastening hole is formed on the end surface of the bolt portion, the support bolt bolt portion A guide nut having an outer threaded portion is formed in the through hole, and the inner threaded portion in which the outer threaded portion of the guide nut is screwed to each of the inner circumferences of the pipe is located at the underground structure track hole. The spring has a fastening screw which is screwed into the screw fastening hole of the support bolt introduced into the through-hole and is interposed between the fastening screw and the guide nut to spring the guide nut from the fastening screw on the left and right sides of the inner and outer elastic. Specially provided with a telescopic operation port formed with a working tube for opening the sealed support frame inwardly Underground structure prefabricated ducts (Jing application No. 10-2008-0053004) have been proposed.

This can easily block the inflow of water or foreign substances into the underground structures during rainy weather or rainy season, and can easily close the underground distribution lines according to the thickness of the underground structures or the diameter of the track work, thereby reducing the construction cost. In addition, the installation and construction is made easier, while the advantages that can shorten the working time,

There were limitations due to structural limitations that could not be tightly connected to underground distribution lines of various thickness diameters, and there were structural problems that could not effectively prevent infiltration or inflow of rainwater from the pipeline because structural tightness was not achieved. .

The present invention is to solve the above problems,

Manholes (hereinafter referred to as "underground structures") pipes of various diameters and thicknesses can be easily connected and installed by corresponding to the thickness of the pipe connection hole and underground transmission and distribution lines, and it is possible to achieve a firm contact when installing such underground structures It can effectively block foreign substances from entering the inside and provide underground structure pipelines for underground transmission and distribution lines that can be installed and fixed firmly without using separate anchor bolts on the wall when installed in pipeline connection holes of underground structures. There is a purpose.

In order to achieve the above object, the present invention is the overall form of the tray shape of the back recessed, the front of the track hole penetrating the front, rear is formed, and stepped around the adjacent line The connecting shaft hole of the form is formed through the front and rear, the recess groove is formed in the rear, the variable wing projection and the variable closure is formed in the outer and center of the recess groove is formed a seating groove to form a circular packing Inner and outer circular pipe throttle which is formed integrally with the support protrusion to facilitate close support and seating of the tube;

A circular ring shape having a cross-sectional shape that can be closely contacted between the support protrusions of the inner and outer circular pipe throttles is formed. In each of three inner directions of the circular ring, independent air holes are formed. A variable sealing tube through which a sealing hole penetrating the rear is formed, and an installation hole penetrating the front and rear is formed in surroundings adjacent to the sealing hole;

It forms a shape that can be in close contact with the outer front of the inner, outer circular pipe throttle, the front and rear through the ring portion is formed, the upper, lower, left, right side of the ring portion is formed to extend the spring And cross-shaped leaf spring correction holes formed with holes therein;

It is characterized in that it comprises a connection bolt of a stepped shape that is installed to pass through the hole of the connection hole and the cross-shaped leaf spring correction sphere of the inner and outer circular tube throttle of the variable sealing tube, do.

As described above, the present invention can easily connect and install the pipe connection hole of the underground structure having a variety of diameters and thicknesses and the thickness of the underground transmission and distribution line, and to produce a pipe size of various sizes to achieve such connection and installation There is an effect that can improve convenience and economical efficiency

In addition, this connection can be sealed through a tight contact can effectively block the inflow of foreign matter into the underground structure, so that the inside of the underground structure is flooded to prevent the malfunction or damage of the mechanical and electrical facilities in advance One effect is to make it work.

In addition, since it is possible to install itself firmly without using an anchor bolt on the wall when installed in the pipeline connection hole of the underground structure, there is an effect to solve the problem of partial damage and durability of the underground structure.

Specific details of other embodiments are included in the detailed description and drawings.

Advantages and features of the present invention, and methods for achieving them will be apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings.

However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various forms, and only the present embodiments are intended to complete the disclosure of the present invention, and those skilled in the art to which the present invention pertains. It is provided to fully inform the scope of the invention, and the invention is defined only by the scope of the claims.

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

1 is a perspective view showing the configuration of the underground structure pipeline for underground transmission and distribution lines according to the present invention, Figure 2 is an exploded perspective view showing the configuration of the underground structure pipeline for underground transmission and distribution lines according to the present invention, Figure 3 is Side cross-sectional view showing the configuration of the underground structure pipeline for underground transmission and distribution lines according to the present invention.

As shown, the present invention includes a pair of inner and outer circular pipelines 10a and 10b which are located inside and outside the pipeline connection hole 2 of the underground structure 1; A variable hermetic tube 20 positioned at an inner circumference of the pipe connection hole 2 and closely contacted between the support protrusions 17 of the inner and outer circular tube throttles 10a and 10b; A cross-shaped leaf spring correction tool (30) in close contact with the outer surfaces of the inner and outer circular conduits (10a) and (10b); The inner and outer circular conduit 10a, 10b and the variable sealing tube 20 and the cross-shaped plate spring correction sphere 30 is formed of a combination consisting of a coupling bolt 40.

Here, the inner and outer circular pipe ties (10a, 10b) is the overall shape of the tray tray shape of the recessed in the rear, but the track hole 11 penetrating before and after the front center is formed In the surroundings adjacent to the line hole 11, the connecting shaft hole 12 of the stepped shape is formed before and after through, and the recessed groove 13 is formed on the rear side, and the outer side of the recessed groove 13 And a support protrusion 17 for close contact and seating of the variable wing protrusion 16 and the variable sealing tube 20 in which a seating groove 15 is formed in the center to form a seat of the circular packing 14. ) Is integrally formed.

In addition, the variable hermetic tube 20 forms a circular ring 21 having a cross-sectional shape which may be closely contacted between the support protrusions 17 of the inner and outer circular tube throttles 10a and 10b, and is circular. Inner three directions of the inner ring 21 are formed with air holes 22 having independent shapes, and in the center of the front surface, a sealing hole 23 penetrating the front and rear is formed, and adjacent to the sealing hole 23 is formed. The installation hole 24 which penetrates front and back is formed in the circumference | surroundings everywhere.

In addition, the cross-shaped leaf spring correction sphere 30, the outer circular conduit 10a, a shape that can be in close contact with the outer front of the 10b, but the front and rear through the ring portion 31 in the center Is formed, and the leaf springs 32 are formed on the upper, lower, left and right sides of the ring portion 31, and holes 33 are formed on all sides of the ring portion 31.

In addition, the connection bolt 40 is the installation hole 23 of the variable sealing tube 20 and the connecting shaft hole 12 and the cross-shaped leaf spring correction sphere 30 of the inner and outer circular pipe throttle (10a, 10b) It is formed so as to pass through the hole 33 of), and it is formed so that it may mutually bind using the nut 41.

Referring to the drawings the effect of the present invention configured as described above is as follows.

Figure 4 is a side cross-sectional view showing a state of use of the underground structure pipeline for underground transmission line according to the present invention.

To help you understand, first explain how to install.

For installation, first, the variable sealing tube 20 is positioned at the inner circumference of the pipeline connection hole 2 of the underground structure 1, and the installation hole 24 is formed through all four sides of the variable sealing tube 20 positioned in this way. The center of the connecting bolt 40 is located in the interior, and the end of the threaded surface is processed before and after exposure.

Subsequently, the inner and outer circular pipe throttles 10a and 10b may be inserted into the connection bolt 40 at the exposed front and rear of the connection bolt 40, that is, inside and outside of the underground structure 1.

At this time, the fitting connection of the inner and outer circular pipe line 10a, 10b is to be inserted into the connecting bolt 40 in the connection shaft hole 12 of the inner and outer circular pipe line 10a, 10b, The end of the connecting bolt 40 may be exposed to the outside via the connecting shaft hole (12).

After such a connection operation, the cross-shaped leaf spring corrector 30 is positioned on the outer surfaces of the inner and outer circular ducts 10a and 10b, respectively, and the ring portions 31 of the cross-shaped leaf spring correction tool 30 are everywhere. When the holes 33 are formed in the connection bolt 40 to be fastened to the nut 41 to complete the installation work that can achieve the connection of the underground distribution line (4).

In this way, the pipe is installed as shown in Figure 4 inner and outer circular pipelines 10a, 10b by the variable sealing tube 20 is located between the underground structure (1) pipeline connection holes of various sizes ( 2) and underground distribution lines (4) to enable the connection installation.

That is, in the state in which the outer periphery and the inner periphery of the circular ring 21 are usually inflated to the maximum, the pipes of various sizes are formed by the variable closed tube 20 located between the inner and outer circular pipe throttles 10a and 10b. The connection and installation of the connection hole (2) and underground distribution line (4) as well as to enable a solid sealing.

In more detail, the variable sealing tube 20 located between the inner and outer circular pipe ties 10a and 10b in the state of being inflated to the maximum value is the circular ring 21 in which the pipe connection hole 2 is first expanded. When the diameter is smaller than the outer periphery of the circular connecting ring (2) is pressed in the inner periphery and deformed deformed while enabling a connection installation with a rigid seal, the diameter of the underground distribution line (4) expanded circular ring (21) This is because when the diameter is larger than the inner circumference of the core, the underground distribution line 4 is pressed down by the outer diameter and deforms and deforms, thereby enabling the connection installation with the tight seal.

In addition, the variable wing protrusions 16 of the inner and outer circular pipe ties (10a, 10b) is formed in a structure that can be opened in the inner and outer direction in response to the wall thickness of the underground structure (1), various Corresponding to the wall of the underground structure 1 of thickness, it is possible to achieve a connection installation.

That is, the underground structure (1) than the space between the spaced space between the inner and outer circular pipe throttle (10a), (10b) is assembled to form a certain distance with the variable sealing tube 20 between the connecting bolts (40). This is because, when the thickness of the) is thick, the variable wing protrusion 16 is opened in and outward in a corresponding shape, and thus, the installation can be connected to the underground structure 1 having various thicknesses by making a tight close seal.

On the other hand, despite such a variable is made possible to achieve a sealing function through close contact is located in the seating groove 15 of the variable wing projection 16 to achieve a close seal with the underground structure (1) The circular packing 14 and the inner and outer circular conduits 10a and 10b are connected to the outer surfaces of the variable wing protrusions 16 when the gap occurs in the variable wing protrusions 16 to the inside. This is because a cross-shaped leaf spring correction tool 30 capable of exerting a pushing force can be provided.

1 is a perspective view showing the configuration of the underground structure pipeline for underground transmission and distribution lines according to the present invention,

Figure 2 is an exploded perspective view showing the configuration of the underground structure pipeline for underground transmission line according to the present invention,

Figure 3 is a side cross-sectional view showing the configuration of the underground structure pipeline for underground transmission and distribution lines according to the present invention,

Figure 4 is a side cross-sectional view showing a state of use of the underground structure pipeline for underground transmission and distribution lines according to the present invention.

* Description of the symbols for the main parts of the drawings *

1: underground structure 2: pipeline connector

4: underground distribution line

10a, 10b: inner and outer circular pipe frame 11: track work

12: connecting shaft 13: recessed groove

14: round packing 15: seating groove

16 variable wing protrusion 17 support protrusion

20: variable sealing tube 21: round ring

22: air hole 23: sealing hole

24: installation worker

30: cross-shaped leaf spring correction sphere 31: ring portion

32: leaf spring 33: hole

40: connecting bolt 41: nut

Claims (1)

In the pipeline which is installed in the pipeline connection hole of the underground structure to prevent the inflow of underground distribution lines and consequently the inflow of underground rainwater, The overall shape is formed in the shape of a tray of the back of the concave shape, the track hole penetrating the front and rear is formed in the center of the front, and the connecting shaft hole of the stepped shape is formed through the front and rear in the surrounding area adjacent to the line hole The rear of the recess is formed in the groove, the outer and center of the concave groove is formed to form a seating groove that can form a seating groove and the variable wing protrusion and the variable sealing tube can be in close contact and support An inner and outer circular tube frame in which support protrusions are integrally formed; A circular ring shape having a cross-sectional shape that can be closely contacted between the support protrusions of the inner and outer circular pipe throttles is formed. In each of three inner directions of the circular ring, independent air holes are formed. A variable sealing tube through which a sealing hole penetrating the rear is formed, and an installation hole penetrating the front and rear is formed in surroundings adjacent to the sealing hole; It forms a shape that can be in close contact with the outer front of the inner, outer circular pipe throttle, the front and rear through the ring portion is formed, the upper, lower, left, right side of the ring portion is formed to extend the spring And cross-shaped leaf spring correction holes formed with holes therein; Including a connection bolt of a stepped shape that is installed through the connection hole of the variable sealing tube and the connection shaft hole of the inner and outer circular pipe throttle, and the cross of the cross-shaped leaf spring correction sphere to bind the nut between each other. Underground structure pipeline for underground transmission and distribution lines.

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