KR101111184B1 - Assembled sealing gasket body for manhole structure - Google Patents

Abstract

PURPOSE: An assembled conduit for an underground structure is provided to prevent the permeation of underground water by packing a conduit with a watertight pad. CONSTITUTION: A lower support unit(10) is received in the bottom of a conduit hole and supports an underground conduit. An upper cover unit(20) covers and supports the upper side of the underground conduit. A lower support stand(11) includes an outer flange which is supported in the inner wall of the underground structure. A first watertight pad(12) is fixed to the inner surface of the lower support stand. A second watertight pad(13) pressurizes the outer surface of the lower support stand. An upper cover(21) is fixed to the upper side of the lower support stand with a coupling unit. A third watertight pad(22) is fixed to the inner surface of the upper cover and is made of rubber. A fourth watertight pad(23) pressurizes the outer side of the upper cover. A finishing cap is comprised of a first cap(31) and a second cap(32) which are coupled with the coupling unit. A finishing cap fixes one side of the upper cover unit and the lower support unit.

Description

Underground Structure Prefabricated Pipeway {ASSEMBLED SEALING GASKET BODY FOR MANHOLE STRUCTURE}

The present invention relates to an underground structure prefabricated duct, and more particularly, to an underground structure prefabricated duct that can effectively prevent groundwater penetration by securing watertightness at both the outer diameter side of the underground pipeline and the pipeline section of the underground structure.

In general, underground transmission and distribution lines, which are corrugated pipes, are buried in the ground for transmission and distribution in the underground. At this time, end portions of the underground transmission and distribution lines are buried in hollow holes, that is, manhole walls, and communicate with the manholes.

In addition, the pipeline refers to connecting underground lines to the inside and outside of underground structures when laying underground structures such as manholes, handholes, and power ports for the inflow and outflow processing of underground transmission and distribution lines. The inner end of the manhole and the rear end toward the outside of the manhole wall, i.e., the underground buried part, to which a relay tube called an adapter is coupled, which is connected to a corrugated tube which is an important part of the conduit.

Conventional pipe joint coupling structure, for example, to form a female screw hole for the coupling of the duct and the duct cover on the inner surface of both sides of the adapter, the male thread hole formed on the one side of the male threaded hole is formed in the threaded connection, and also to the female thread hole on the other side The conduit cover formed with a male thread is screwed together. The conduit coupling structure includes screwing the conduit port and the conduit cover to the female threads formed on both sides of the adapter while the adapter is installed on the wall of the underground structure through concrete casting. To combine.

In the conventional pipe fitting structure, because the concrete adheres to the female threaded portions on both sides of the adapter in the process of installing the adapter on the wall of the underground structure, screwing of the pipe fittings and the pipe cover is not easily performed in the future. It is difficult to secure the exponential property in the pipeline because it is not tightly coupled. Also, since the material of the adapter and the concrete placed around it is different from each other, it is not securely attached to each other. There have been a number of problems, such as the penetration of water outside the underground structure between concrete.

In addition, although there is a conventional technique using a coil spring to secure the watertightness of the duct, this does not allow the coil spring to weaken the elastic force over time occurs a phenomenon that the water tightness is inferior.

In addition, since the adapter structure of the pipeline is usually tubular, it can only be combined from one side of the underground pipeline, so the work is very cumbersome and difficult to apply to the underground pipeline.

Republic of Korea Patent Publication No. 10-0952129 Republic of Korea Patent Publication No. 10-0845787

The present invention is to solve the problems as described above, and to provide an underground structure prefabricated duct can effectively prevent groundwater penetration by ensuring water tightness at both the outer diameter side of the underground pipeline and the pipeline section of the underground structure. .

In addition, another object of the present invention is to easily apply to the existing underground pipeline as well as new underground pipeline.

Underground structure prefabricated duct according to the present invention is to be installed in the duct hole of the underground structure so that the underground pipe is piped to the duct hole, the lower support means seated on the bottom of the duct hole to support the underground pipe from the bottom and; An upper cover means disposed on the ceiling of the conduit and coupled to the lower support means to cover and cover the upper portion of the underground pipeline; It includes a closing cap for fixing one side of the lower support means and the upper cover means, the lower support means is formed in a semi-circular cross section to support the bottom of the underground pipe passage and to support the inner wall surface of the underground structure at one end A lower pedestal having an outward flange, a first watertight pad of rubber material fixed to an inner circumferential surface of the lower pedestal, a second watertight pad of rubber material installed to be pressurized to an outer circumferential surface of the lower pedestal, and the second watertight pad And pressurizing means such that the second watertight pad is elastically deformed to be in close contact with the conduit hole, and the first watertight pad is in close contact with an outer circumferential surface of the underground pipeline. The upper cover means is semi-circular. Is formed in a cross section to cover the upper portion of the underground pipe passage and is supported on the inner wall surface of the underground structure at one end An outer flange is provided and overlaps the upper portion of the lower pedestal and is fixed with fasteners, a third watertight pad of rubber material fixed to the inner circumferential surface of the upper cover, a rubber material installed to be pressurized to the outer circumferential surface of the upper cover Pressing the fourth watertight pad and the fourth watertight pad so that the fourth watertight pad is elastically deformed so as to be in close contact with the conduit hole and the third watertight pad is in close contact with the outer circumferential surface of the underground pipeline. It includes, the closing cap is made of a first and second caps coupled to each other through fasteners while surrounding the other side circumference of the lower pedestal and the upper cover, the first and second caps and the lower pedestal on the inner peripheral surface respectively; Fixing protrusions are provided on the outer circumferential surface of the upper cover and are provided with fixing grooves to be coupled to the lower pedestal and the upper cover. The features.

According to the underground structure prefabricated pipeline according to the present invention, by tightly packing all parts of the pipeline through watertight pads corresponding to the outer peripheral surface of the underground pipeline and the inner wall surface of the pipeline, the penetration of groundwater can be effectively prevented, the inside of the pipeline By compressing the second and fourth watertight pads corresponding to the wall surface, the first and third watertight pads on the outer circumferential surface side of the underground pipe are naturally compressed, so that the watertight work is very convenient.

In addition, since the lower support means and the upper cover means can be used as a stand-alone operation in the lower and upper portions of the underground pipeline can be easily applied to the underground pipeline as well as new underground pipeline construction.

1 is an exploded perspective view of the underground structure prefabricated duct according to the present invention.
2 and 3 is a construction process diagram of the underground structure prefabricated duct according to the present invention.

As shown in Figure 1 and 2, the underground structure prefabricated duct according to the present invention is to be installed in the pipeline hole (2) of the underground structure (1) to allow the underground pipeline (3) to be piped to the pipeline hole (2) The lower support means 10 and the upper cover means 20 are fixed to the conduit hole 2 while surrounding the periphery of the underground pipeline 3, where the periphery of the underground pipeline 3 and the conduit 2 It is configured to ensure watertightness on both inner circumferential surfaces of.

The lower support means 10 is formed in a semi-circular cross section to support the bottom of the underground pipeline 3, and has a lower pedestal 11 having an outward flange 11a supported at an inner wall surface of the underground structure 1 at one end thereof. ), The first watertight pad 12 made of rubber material fixed to the inner circumferential surface of the lower pedestal 11, the second watertight pad 13 made of a plurality of rubber materials so as to be pressurized to the outer circumferential surface of the lower pedestal 11, The second watertight pad 13 is pressurized so that the second watertight pad 13 is elastically deformed to be in close contact with the wall surface of the conduit hole 2, and the first watertight pad 12 is in close contact with the outer circumferential surface of the underground pipeline 3. It is composed of a pedestal side pressing means to make.

The lower pedestal 11 is a semi-circular cross section that surrounds the lower half of the underground pipeline 3 when viewed from the front side, and a packing 11b is applied to secure watertightness at a portion opposed to the upper lid 21 to be described later.

The first watertight pad 12 is made of a rubber material fixed to the inner circumferential surface of the lower pedestal 11 with an adhesive and elastically deformed by an external force, and the second watertight pad 13 when the second watertight pad 13 is elastically deformed. By moving in the opposite direction to the elastic deformation and close to the outer circumferential surface of the underground pipe line 3 to prevent groundwater from penetrating through the outer circumferential surface of the underground pipe line (3).

The second watertight pad 13 is installed to be pressurized on the outer circumferential surface of the lower pedestal 11 and is pressed by the pressurizing means to be compressed toward the conduit hole 2 to pack the inner circumferential surface of the conduit hole 2. It is preferable to install a plurality of pieces so that all parts of 2) can be packed.

The pedestal-side pressing means is provided on the outboard flange 11a of the fixing table 14, the pressing table 15, and the lower pedestal 11, which are provided on the outer circumferential surface of the lower pedestal 11 with the second watertight pad 13 interposed therebetween. The screw is fastened so that the end is idly connected to the presser 15 so as to move the presser 15 to the fixing stand 14 so that the second watertight pad 13 is in close contact with the inner wall surface of the conduit hole 2. It is composed of a lock nut 17 that is fastened to the bolt 16, the pressure bolt 16.

Fixture 14 is integrally formed or fixed to the lower pedestal 11 so that the second watertight pad 13 can be pressed.

The presser 15 is installed to be movable along the outer circumferential surface of the lower pedestal 11 at a predetermined distance from the fixing stand 14, and is connected to the pressurizing bolt 16 without any guide means. , A guide rail (for example, a guide rail formed along the longitudinal direction on the outer circumferential surface of the lower pedestal 11, a slider formed on the pressing table 15 and moving along the guide rail) may be applied.

Pressing unit 15 is preferably a structure surrounding the second watertight pad 13 so that the second watertight pad 13 is not separated.

Pressing bolt 16 is screwed to the outward flange (11a) of the lower pedestal 11 to advance or reverse the pressing table 15 to the fixing table 14 side, in this process to compress the second watertight pad (13). .

The lock nut 17 is fastened to the pressure bolt 16 to prevent the pressure bolt 16 from rotating.

The upper cover means 20 is formed in a semi-circular cross-section to cover the upper portion of the underground pipeline 3 and is provided with an outward flange 21a supported on the inner wall surface of the underground structure 1 at one end thereof and has a lower pedestal 11 ), The upper cover 21 fixed to the upper fastener 21b (bolts and nuts) while being superimposed on the upper portion of the upper cover 21, the third watertight pad 22 made of rubber material fixed to the inner circumferential surface of the upper cover 21, and the upper cover 21 The fourth watertight pad 23 and the fourth watertight pad 23 of a plurality of rubber materials which are installed to be pressurized on the outer circumferential surface of the pneumatic material, and the fourth watertight pad 23 is elastically deformed and the wall surface of the conduit hole 2 is pressed. In addition to being in close contact with the third water-tight pad 22 is composed of a cover side pressing means for being in close contact with the outer circumferential surface of the underground pipeline (3).

The upper cover 21 is a semi-circular cross section surrounding the upper half of the underground pipeline 3 (combined with the lower pedestal 11 to form the same origin as the underground pipeline 3) when viewed from the front.

The third watertight pad 22 is made of a rubber material fixed to the inner circumferential surface of the upper cover 21 by an adhesive or the like and elastically deformed by an external force, and the fourth watertight pad 23 when the fourth watertight pad 23 is elastically deformed. By moving in the opposite direction to the elastic deformation and close to the outer circumferential surface of the underground pipe line 3 to prevent groundwater from penetrating through the outer circumferential surface of the underground pipe line (3).

The fourth watertight pad 23 is installed to be pressurized on the outer circumferential surface of the upper cover 11 and is pressed by the cover side pressurizing means to be compressed to the conduit hole 2 to pack the inner circumferential surface of the conduit hole 2, It is preferable that a plurality are installed so that all parts of the ball 2 can be packed.

The cover side pressurizing means includes a fixing table 24, a pressurizing table 25, and an outward flange 21a of the upper cover 21, which are installed on the outer circumferential surface of the upper cover 21 with the fourth watertight pad 23 interposed therebetween. Screw is fastened to the presser bar 25 so as to be idling, and the presser bar 25 is moved toward the holder 24 so that the fourth watertight pad 23 is compressed and adheres to the inner wall surface of the conduit hole 2. Compression bolt 26 to be configured, the locking nut 27 is fastened to the pressure bolt 26.

The fixing stand 24 is integrally formed or fixed to the upper cover 21 so that the fourth watertight pad 23 can be pressed.

The presser 25 is installed to be movable along the outer circumferential surface of the upper cover 21 at a spaced distance from the holder 24, and is connected to the pressurized bolt 26 so that a separate guide means may not be applied. In addition, the same guide means as described in the lower support means may be applied.

The presser 25 preferably has a structure surrounding the fourth watertight pad 23 so that the fourth watertight pad 23 is not separated.

The pressurizing bolt 26 is screwed to the outward flange 21a of the upper cover 21 to move the presser bar 25 forward or backward to the holder 24 side, and compresses the fourth watertight pad 23 in this process. .

The lock nut 27 is fastened to the pressure bolt 26 to prevent the pressure bolt 26 from rotating.

Closing cap 30 is included so that the lower support means 10 and the upper cover means 10 of this configuration can be firmly installed on the underground structure (1).

The closing cap 30 is composed of first and second caps 31 and 32 coupled to each other through the fastener 33 while surrounding the other peripheral portion of the lower pedestal 11 and the upper cover 21.

The first and second caps 31 and 32 are provided with fixing protrusions 31a and 32a to which fixing grooves 11c and 21c formed on the outer circumferential surface of the lower pedestal 11 and the upper cover 21 are respectively coupled to the inner circumferential surface thereof. It is coupled to the lower pedestal 11 and the upper cover 21 by fitting.

 The first and second caps 31 and 32 of the closing cap 30 are adhered to the outer wall surface of the underground structure 1 so that O-rings 31b and 32b are applied to secure watertightness.

The action of underground structure prefabricated duct according to the present invention is as follows.

2 is a state in which the second and fourth watertight pads 13 and 23 are not compressed. In this state, the lower support means 10, the upper cover means 20, and the closing cap 30 are installed.

When the installation of these (10, 20, 30) is completed, as shown in Figure 3, by turning the pressing bolt 26 of the upper cover means 20, the pressing table 25 is advanced toward the fixing table 24 to the fourth watertight The pad 23 is compressed, so that the fourth watertight pad 23 is in close contact with the inner wall surface of the conduit hole 2 to provide a watertight composition on the wall surface side of the conduit hole 2. At this time, by compressing the fourth watertight pad 23, the third watertight pad 22 will be compressed to the outer circumferential surface side of the underground pipe line 3, thus forming the outer circumferential surface side of the underground pipe line 3 in a watertight manner.

As the fourth watertight pads 23 are divided into a plurality of portions, each of the fourth watertight pads 23 may be compressed to form all parts in a watertight manner.

The lower supporting means 10 also closes the lower side of the underground pipe line 3 by the same action.

1: underground structure, 2: pipeline
3: underground pipe,
10: lower support means,
11: lower pedestal, 12: first watertight pad
13: second watertight pad, 14,24: fixing table
15,25: Pressing bar, 16,26: Pressing bolt
17,27: lock nut,

Claims (2)

In the underground structure prefabricated duct to be installed in the pipeline hole (2) of the underground structure (1) so that the underground pipeline (3) is piped to the pipeline hole,
A lower support means (10) seated at the bottom of the conduit and supporting the underground pipeline at the bottom;
An upper cover means (20) disposed on the ceiling of the conduit and coupled to the lower support means to cover and cover the upper portion of the underground pipeline;
It includes a closing cap 30 for fixing one side of the lower support means and the upper cover means,
The lower support means is formed in a semi-circular cross-section to support the bottom of the underground pipe passage and has a lower pedestal 11 having an outward flange 11a supported on the inner wall surface of the underground structure at one end, the lower pedestal of A first watertight pad 12 made of rubber material fixed to an inner circumferential surface, a plurality of second watertight pads 13 made of rubber material installed on the outer circumferential surface of the lower pedestal, and pressurizing the second watertight pad to press the second watertight pad. And the watertight pad is elastically deformed so as to be in close contact with the conduit hole, and the first watertight pad includes a pedestal-side pressing means for being in close contact with the outer peripheral surface of the underground pipeline;
The upper cover means is formed in a semi-circular cross section to cover the upper portion of the underground pipe passage and provided with an outward flange 21a supported on the inner wall surface of the underground structure at one end thereof and overlapped on the upper portion of the lower pedestal 11. The upper cover 21 which is fixed by fasteners while being made, the third watertight pad 22 made of rubber material fixed to the inner circumferential surface of the upper cover, and the fourth watertight pad made of a plurality of rubber materials installed to be pressed on the outer circumferential surface of the upper cover. (23) pressurizing the fourth watertight pad so that the fourth watertight pad is elastically deformed so that the fourth watertight pad is in close contact with the conduit and the third watertight pad is in close contact with the outer circumferential surface of the underground pipe. Including,
The closing cap is composed of the first and second caps 31 and 32 coupled to each other through fasteners while surrounding the other side circumference of the lower pedestal and the upper cover, wherein the first and second caps are respectively formed on the inner circumferential surface of the lower pedestal. And a fixing protrusion (31a, 32a) coupled to the fixing grooves (11c, 21c) formed on the outer circumferential surface of the upper cover is characterized in that the underground structure prefabricated pipe fittings are coupled to the lower pedestal and the upper cover. The method according to claim 1, wherein the pedestal-side pressing means is screwed to the fixing table 14 and the pressing table 15, the outboard flange of the lower pedestal provided with the second watertight pad interposed between the outer peripheral surface of the lower pedestal An end portion is rotatably connected to the pressurizing rod to move the pressurizing rod toward the fixing stand side so that the second watertight pad is in close contact with the inner wall surface of the conduit hole, and a lock nut fastened to the pressing bolt. Including 17,
The cover side pressurizing means has an end portion screwed to a fixing stand 24 and a pressurizing stand 25 and an outer flange 21a of the upper cover, which are installed on the outer circumferential surface of the upper cover with the fourth watertight pad interposed therebetween. The pressing bolt 26 is connected to the pressing table 25 so as to be idle, and moves the pressing table 25 toward the fixing table 24 so that the fourth watertight pad is in close contact with the inner wall surface of the conduit hole. Underground structure prefabricated pipeline characterized in that it comprises a lock nut (27) fastened to the pressure bolt.

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