KR101077284B1 - Connecting structure of manhole equipped with quakeproof structure and sewage pipe - Google Patents

Abstract

The present invention relates to a seismic structure provided with a manhole and a sewer pipe connection structure, each of which is provided with a buffer in the inlet and drain holes formed on both sides of the sump to which the sewer pipe is connected, between the buffer and the sewer pipe By combining the fixed tube, it is possible to prevent the water collection well and the sewer pipe from being damaged by the earthquake by the buffer, and also by installing a torsion preventing member installed in the water collecting well and the sewage pipe, vibration occurs to the left and right due to the torsion preventing member. The present invention relates to a connection structure between a sewer pipe and a manhole provided with an earthquake-proof structure to prevent damage to the water collecting well and the sewer pipe by the earthquake.

Description

CONNECTING STRUCTURE OF MANHOLE EQUIPPED WITH QUAKEPROOF STRUCTURE AND SEWAGE PIPE}

The present invention relates to a seismic structure provided with a manhole and a sewer pipe connection structure, and more particularly, a sewage pipe is installed on both sides of the sewage well to install a buffer to prevent the sewage pipe and sewage pipe from being destroyed by the earthquake. The present invention relates to a connection structure between a manhole and a sewer pipe provided with seismic casting.

In general, manholes are installed on the ground, such as roads or sidewalks, to prevent water, sewage, and rainwater from being accumulated on the ground. To do it.

Thus, the shape of the buried holes to be embedded in the ground is formed in the form of a tube of a circular column or hexahedral shape, in the present invention will be described as a manhole made of a hexahedron as shown in the drawings.

8 shows a conventional manhole 1.

The manhole 1 has a collecting well 10 made of a hexahedron buried in the ground to a predetermined depth, and the stopper 24 is coupled to the opening and closing hole 14 formed on the upper surface of the collecting well 10.

In addition, water inlet holes 12 and a drainage hole 13 are formed at both sides of the sump well 10, respectively, and both sides of the sewer pipe 110 formed long in left and right in the inlet hole 12 and the drainage hole 13. By inserting the stages, respectively, the water used in life is discharged to the outside through the sewage pipe 110 connected with the sump (10).

That is, the sewage pipe 110 formed on both sides of the water collecting well 10 of the manhole 1 is continuously inserted into the coupling.

However, the problem of the conventional manhole (1) by fitting the sewage pipes 110 to the inlet hole 12 and the drainage hole 13 formed on both sides of the sump (10), respectively, when seismic occurrence occurs in the sump (10) In accordance with the vibration of the sewer pipe 110, the left and right or up and down to shake each other while being inserted into the combined portion is a problem that is destroyed by the impact and friction.

In other words, earthquakes are categorized into catastrophic earthquakes caused by volcanic eruptions and forces accumulated in the ground due to catastrophic failure. , S wave, which is swayed in the lateral direction, and L wave, which is generated at the same time as up, down, left and right vibrations, such as P wave and S wave, and when this kind of earthquake occurs, the manhole (1) buried in the ground and its The sewer pipe 110 connected to the manhole 1 is to be shaken in the shaking direction of the seismic wave.

Due to the earthquake, the collecting well 10 and the sewer pipe 50 of the manhole 1 are largely shaken left, right, or up and down alternately with each other, and by this shaking, the collecting well 10 and the collecting well 10 The sewage pipe 110 is fitted to both sides of the sewage pipe 10 and the sewage pipe 110 due to the friction between each other, the problem that the combined portion is generated, as well as the sewage pipe 110 is fixedly coupled to the sump (10) Because of the shaking in the old state has occurred a problem that the central portion of the sewer pipe (110) is destroyed.

Accordingly, the present invention for solving the above problems is that the torsion prevention member is installed on both sides of the sump to which the sewer pipe is connected to the buffer and the sump and the sewer pipe, so that the sewage and sewage pipes are damaged even if an earthquake occurs. An object of the present invention is to provide a connection structure between a manhole and a sewer pipe equipped with a seismic structure so as to prevent it to the maximum.

The present invention for achieving the above object, the connection structure of the manhole and sewage pipe having a seismic structure including a well-known manhole made of a stopper coupled to the upper surface of the water collecting well formed in the water inlet and drainage holes on both sides so that the sewer pipe is fitted In the sewage pipe, both ends of the sewage pipe is formed at one end and the coupling groove is coupled to the tube-shaped fastening rod formed on the outer circumferential surface, the fastening groove is fastened to the coupling tie band, the fastening table and the inlet hole and drainage Located between the holes to be fixed and bolted to the inner wall of the collecting well of the hollow buffer which allows the clearance of the sewage pipe when the seismic occurrence occurs, the buffer is formed in the injection tube and a plurality of bolt holes at one end of the body portion Protruding the coupling end to inject a gel of the buffer material into the inner space of the body through the injection tube, and to connect the stopper to the injection tube The torsion preventing member, which is prevented from being twisted due to the seismic sewage pipe inserted into the water collecting well, is characterized in that it is configured by bolting to be connected to the lower surface of the water collecting well and the outer circumferential surface of the sewage pipe.

According to the present invention, by coupling the buffer with bolts on both sides of the sump to which the sewer pipe is inserted, the sewage and sewage pipes can be prevented to the maximum even if an earthquake occurs due to the buffer, as well as buffering through the injection pipe. It is easy to install the buffer because it fills the inner space of the stand and installs a torsion preventing member between the sump and the sewer pipe to prevent the sewage pipe from being twisted and broken when the catch and the sewer pipe are settled at the same time. You can expect.

Figure 1 is an exploded perspective view of the connection structure of the manhole and sewage pipe provided with a seismic structure of the present invention.
Figure 2 is a perspective view of the coupling structure of the manhole and sewer pipe provided with a seismic structure of the present invention.
Figure 3 is a partially enlarged cross-sectional view showing a state in which the sewer pipe is connected to the interior of the sump of the present invention.
Figure 4 is a cross-sectional view of the twist prevention portion combined with the sewer pipe of the present invention.
5 is a perspective view of the buffer of the present invention.
Figure 6 is a view showing the operating state of the connection structure of the manhole and sewer pipe provided with a seismic structure of the present invention.
Figure 7 is an installation state of the connection structure of the manhole and sewer pipe provided with a seismic structure of the present invention.
8 is a perspective view showing a conventional manhole.

Hereinafter, with reference to the accompanying Figures 1 to 7 will be described a preferred embodiment of the present invention.

First, prior to the description of the present invention, the description of the same reference numerals with respect to the same components as the prior art will be omitted.

The present invention is installed on both sides of the sump (10) of the sewage pipe (50) to be installed in each of the buffer 20 and the torsion preventing member 60 to prevent the sewage pipe 50 is damaged due to the earthquake-resistant It is.

Before the shock absorber 20 is installed in the water collecting well 10, the locking end 31 caught by the shock absorber 20 protrudes on one side, and a fastening groove of a tubular shape having a fastening groove 32 formed on an outer circumferential surface thereof. The 30 is coupled to each other so that the coupling force of the buffer 20 and the sewer pipe 50 respectively installed in the inlet hole 12 and the drainage hole 13 is increased.

Then, the coupling tie band 40 is fastened to the fastening groove 32, and the fastening table 30 is sewered from the sewer pipe 50 due to the friction generated by the sewage well 10 and the sewer pipe 50 being mixed with each other due to the earthquake. To prevent them from falling out.

That is, the side cross-section is formed in a 'ㅑ' shape, the coupling 30 is fitted to both sides of the sewer pipe 50, respectively, as shown in Figure 2, so that the sewage pipe 50 is firmly fitted to the sump well 10 You can do it.

At this time, the fastening table 30 is preferably formed long to protrude from the water collection well 10, and forms one or a plurality of fastening grooves 32 on the outer circumferential surface of the fastening table 30 protruding to the outside. In addition to facilitate the fastening operation of the coupling tie band 40, as well as fastening the coupling tie band 40 to each of the plurality of fastening grooves 32, the coupling force of the fastening table 30 and the sewer pipe 50 Increase

 As such, the tubular buffer 20 is bolted to the inner wall of the sump 10 so as to be located between the fastening table 30 installed in the sewage pipe 50 and the inner circumferential surface of the inlet hole 12 and the drainage hole 13. B) by combining seismic sewer 10 or sewage pipe 50 due to the earthquake to move up, down or left, right to prevent the sewage pipe 50 is prevented to the maximum.

The buffer table 20 forms a hollow body portion 21 in close contact with the inlet hole 12 and the drainage hole 13 when the buffer material gel is filled in the inner space 25 as shown in FIG. 5.

At this time, the buffer material is made of a material such as the day after tomorrow, air or water in addition to the gel.

One surface of the body portion 21 protrudes the coupling end 22 in which the injection tube 23 and the plurality of bolt holes H are formed.

To further explain this, by forming the injection pipe 23 protrudes on the outer circumferential surface of the coupling end 22, the operator has a buffer 20, the body portion 21 is empty, the inlet hole 12 and the drain hole ( 13) and can be installed smoothly between the fastening table 30 can reduce the installation time of the buffer 20.

In addition, the coupling end 22 is formed on one surface of the body portion 21 so that the stepped surface 22a is formed, and the injection pipe 23 is formed on the outer circumferential surface of the stepped surface 22a to form an injection tube ( Regardless of 23), the buffer 20 can be installed on the inner wall of the sump 10 using the bolt B. FIG.

That is, by installing the buffer 20 filled with a buffer material between the inlet hole 12 and the drainage hole 13 into which the sewer pipe 50 is fitted to the inner wall of the collecting well 10, Even if the crystal 10 and the sewer pipe 50 move up, down, or left and right alternately, the shock absorber 20 permits the movement clearance of the sump well 10 and the sewer pipe 50, thereby providing a shock applied to the outside. It is possible to prevent the destruction of the sump well 10 and the sewer pipe 50 due to friction to the maximum.

On the other hand, by combining the sump well 10 and the sewage pipe 50 to be vertically connected using a torsion preventing member 60, the sewage well 10 and the sewage pipe 50 is settled at the same time due to seismic sewage pipe 50 ) Is prevented from being twisted and broken.

At this time, the torsion preventing member 60 is made of a reinforced plastic material.

The torsion preventing member 60 protrudes and forms a fixed end 62 having a plurality of bolt holes H formed at one end of the support plate 61 fixedly coupled to the ground by a bolt B as shown in FIG. 3. (B) is fixed to the coupling plate 61 is coupled to the bolt (B) to the engaging portion 11 protruding from the bottom of both sides of the sump (10).

A semi-cylindrical lower torsion prevention is formed on the upper surface of the support plate 61 protrudes integrally with the vertical bar 63, and a plurality of fitting projections 66 protrude in the longitudinal direction on the inner circumferential surface at the upper end of the vertical bar 63. The part 65 is formed.

And the fitting groove (67) to be coupled to the upper portion of the sewer pipe 50 forms a semi-cylindrical upper torsion preventing portion 64 formed on the inner circumferential surface orthogonal to the fitting projection (66).

The upper and lower torsion preventing portions 64 and 65 formed as described above are fixedly coupled by using the bolt B, and the upper and lower torsion preventing portions 64 and 65 are in surface contact with a plurality of bolt holes ( B) is formed to protrude the coupling piece 68 formed to combine the upper and lower anti-fog portion 64, 65 so that the sewer pipe 50 surrounds the outer peripheral surface.

At this time, the outer circumferential surface of the sewage pipe 50 forms the fixing groove 51 and the fixing protrusion 52 so that the fitting protrusion 66 and the fitting groove 67 are fitted.

As such, the coupling force between the sewer pipe 50 and the upper and lower torsion preventing portions 64 and 65 is increased due to the fitting protrusion 66, the fitting groove 67, the fixing groove 51 and the fixing protrusion 52. The sewage pipe 50 may be prevented from being twisted due to the earthquake to the maximum, as well as the sewage pipe 10 and the sewer pipe 50 may be settled due to the earthquake. This can be prevented to the maximum.

That is, as shown in Figure 4, the torsion preventing member 60 of the 'O' shape as shown in Figure 4 by using the bolt (B) to be connected to the sump well 10 and the sewer pipe 50, the collection by seismic When the insemination 10 and the sewer pipe 50 at the same time it will be able to prevent the sewage pipe 50 is twisted to the maximum.

Referring to the bonding state and effects of the present invention formed as described above are as follows.

First, in the state in which the sewage pipe 50 is inserted into both sides of the collecting well 10 of the manhole 1 as shown in FIG. 7, the shock absorber 20 and the torsion in the sewage pipe 50 and the collecting well 10 are respectively as shown in FIG. 2. After fixing the prevention member 60 to the bolt (B) by covering the soil on the ground to bury the sump (10) and sewage pipe (50).

When the vibration is generated due to the earthquake in the buried state as described above, because the shock absorber 20 for fixing the sewer pipe 50 is distorted in accordance with the direction in which the vibration is generated, the sewer pipe 50 is allowed to move. It is possible to prevent the collection well 10 and the sewer pipe 50 from being destroyed.

That is, when the seismic pipe is moved up as shown in Figure 6 when the sewage pipe 50 is raised up according to the vibration, the shock absorber 20 is distorted in the upper part like a fan shape while allowing the movement clearance of the sewer pipe 50 to seismic By this, the collection well 10 and the sewer pipe 50 can be prevented to the maximum.

In addition, the sewage prevention member 60 prevents the sewage pipe 50 from being twisted when the water collecting well 10 and the sewage pipe 50 are settled at the same time due to the earthquake, thereby preventing the sewage pipe 50 from being damaged. will be.

In addition, the upper and lower torsion preventing portions 64 and 65 of the torsion preventing member 60 are formed with fitting projections 66 and fitting grooves 67, respectively, and the fitting projections 66 and fitting grooves 67 are formed. In order to correspond to the), each of the fixing grooves 51 are formed on the outer circumferential surface of the sewage pipe 50 so that the fixing protrusions 52 protrude, thereby increasing the coupling force of the sump well 10 and the sewer pipe 50. Twisting or falling out of the 50 can be prevented.

1: manhole, 10: sump,
11: coupling part, 12: inlet hole,
13: drainage hole, 14: opening and closing hole,
20: buffer, 21: body,
22: coupling end, 23: injection tube,
24: plug, 25: internal space
30: fastening stand, 31: hanging end,
32: fastening groove, 40: coupling tie band,
50: sewer pipe, 51: fixing groove,
52: fixing protrusion, 61: support plate,
62: fixed end, 63: vertical stand,
64, 65: upper and lower torsion preventing parts, 66: fitting,
67: fitting groove, 68: coupling piece,

Claims (2)

Seismic structure including a well-known manhole (1) consisting of a stopper 24 is coupled to the upper surface of the sump (10) formed in the water inlet hole 12 and the drain hole 13 on both sides so that the sewer pipe 50 is fitted In the connection structure of the manhole and sewer pipe is provided,
On both sides of the sewage pipe 50, the engaging end 31 is formed at one end, and the coupling groove 32 is fitted into the tube-shaped fastening table 30 formed on the outer circumferential surface,
Fastening the coupling tie band 40 to the fastening groove 32,
Located between the fastening table 30 and the inlet hole 12 and the drainage hole 13, the sewage well (10) of the buffer stand 20 formed in a hollow type to allow the clearance of the sewer pipe 50 when earthquake occurs Fixed to the inner wall of the bolt (B),
The buffer 20 is formed by protruding the coupling end 22 in which the injection tube 23 and the plurality of bolt holes H are formed at one end of the body portion 21 having an empty inside. Injecting the gel which is a buffer material into the inner space 25 of the body portion 21 through, and the stopper 24 is coupled to the injection tube 23,
Bolt (B) to be connected to the lower surface of the sump (10) and the outer circumferential surface of the sewage pipe (50) to prevent the twist pipe 50 is inserted into the sump (10) is twisted due to the earthquake Connection structure of the manhole and sewer pipe with a seismic structure, characterized in that the coupling configuration. The method of claim 1, wherein the torsion preventing member 60
A plurality of fitting projections 66 are formed in the longitudinal direction on the inner circumferential surface thereof, and a semi-cylindrical lower torsion preventing portion 65 is formed on the bottom surface thereof to protrude vertical bars 63 to be coupled to the lower portion of the sewer pipe 50.
At the end of the vertical stand 63, the support plate 61 formed at one side is formed with a fixed end 62 having a plurality of bolt holes H formed to be fixedly coupled to the lower part of the sump 10 by a bolt B. Formed by
A semi-cylindrical shape in which a plurality of fitting grooves 67 are orthogonal to the fitting protrusions 66 on the inner circumferential surface of the lower torsion preventing part 65 are fixedly coupled to the upper surface of the lower part by a bolt B so as to be coupled to the upper portion of the sewer pipe 50. To form the upper torsion preventing portion 64,
The fitting protrusion 66 and the fitting groove 67 are coupled to the water collecting well 10 by protruding a plurality of fixing grooves 51 and fixing protrusions 52 at the upper and lower portions of the sewage pipe 50 so as to be coupled to each other. Connection structure between the sewer pipe and the manhole with a seismic structure, characterized in that the sewer pipe 50 is configured to prevent the twist by the earthquake.

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