KR100637836B1 - Water-proof type plastics a invert manhole - Google Patents

Abstract

A watertight synthetic resin invert manhole is provided to secure firm joining force and to completely prevent occurrence of a water leakage, by melting and combining the surface of a manhole pipe, a bottom plate, and branch pipes and joining the outside of the combined area by polyethylene. In a watertight synthetic resin invert manhole, branch pipes(30) are combined with both sides of a synthetic resin manhole pipe(10) and the manhole closes up the lower part of the manhole pipe. A synthetic resin bottom plate(20) is joined to the lower part of the manhole pipe and a combining groove(21) where the manhole pipe is fitted is formed to the bottom plate. The manhole pipe and the bottom plate are melted and combined by frictional heat by fitting the manhole pipe to the combining groove and rotating the manhole pipe. Fitting holes(11) are formed in the sides of the manhole pipe and the branch pipes are fitted into the fitting holes. The manhole pipe and the branch pipes are melted and combined by frictional heat by rotating the branch pipes. The combining groove of the bottom plate has a diameter smaller than a diameter of the manhole pipe and the fitting hole has a diameter smaller than a diameter of the branch pipe.

Description

Water-proof type plastics a invert manhole}

1 is a perspective view of a manhole of the present invention

Figure 2 is an exploded perspective view of the manhole of the present invention

Figure 3 is a manhole front view of the present invention

4 is a cross-sectional view of the manhole of the present invention

5 is an exploded cross-sectional view of the manhole of the present invention

Figure 6 is a cross-sectional view showing a manhole tube coupling state of the present invention

7 to 10 are cross-sectional views showing a state in which the manhole tube is coupled to the bottom plate

11 is a cross-sectional view showing a branch pipe coupling state of the present invention.

12 to 15 are cross-sectional views showing a state in which the branch pipe is coupled to the manhole pipe

15 is a front sectional view of a manhole tube with an invert installed

Figure 16 is a side cross-sectional view of the manhole with invert installed

Figure 17 is a side cross-sectional view showing a state in which a groove is formed in the invert

[Description of Symbols for Main Parts of Drawing]

10: manhole tube 11: fitting hole

20: bottom plate 21: coupling groove

30: branch 40: invert

100: manhole M: heat portion

W: fusion site

The present invention relates to a watertight synthetic resin inverted manhole which prevents water leakage from a close contact portion of a branch pipe through which sewage is coupled to both sides of the manhole used for the sewage pipe, which is made of synthetic resin. Melting each other to make the bond is made.

In general, concrete manholes are difficult to transport due to their large weight, and are difficult to install due to their poor impact resistance, and cracks occur in the manholes after construction, which leads to problems that cannot be used for sewage.

In other words, sewage, unlike general rainwater, has a problem of destroying soil and ecosystem when water leaks from manholes, so that it should not be leaked from sewage pipes.

In order to solve this problem, by manufacturing a manhole using a synthetic resin material, it is light and easy to carry, strong impact resistance, and easy to make construction, while preventing leakage, but conventional synthetic resin manhole The floor is blocked on the cylindrical manhole tube, and the branch pipes are connected to both sides, and then the upper part of the manhole tube is blocked by the manhole cover.

Here, the manhole tube and the branch tube are produced using a PE double wall tube made of synthetic resin, preferably made of high density polyethylene.

Such a synthetic resin manhole is blocked by a synthetic resin plate that blocks the lower part of the manhole tube or by slabs made of reinforcing steel and concrete, and when the synthetic resin plate is blocked, the joint is melted and joined to the joint. If it is blocked by the reinforcement and the bottom of the manhole tube with concrete is combined to form a fitting, the branch pipe is melted and bonded to the PE side of the manhole tube.

In this case, when the slab is bonded to the manhole tube, the coupling coefficient between the synthetic resin manhole tube and the slab is different, so that the slab is hardened, so that a gap occurs at the joint part. And there is a problem that the leak occurs at the joint portion because the coupling coefficient is not the same as the branch pipe.

However, in the case of a sewage pipe, leakage occurs in any case, which may cause soil pollution and environmental destruction. Therefore, water leakage is strictly prohibited.However, as shown above, water leakage is completely blocked when joining using concrete or using PE. It could not be guaranteed.

In view of the above, the present invention manufactures a synthetic resin manhole using a synthetic resin manhole tube and a bottom plate, and then connects the synthetic resin branch pipe to the side of the manhole tube at the junction of the manhole tube, the bottom plate and the branch pipe. By melting the surface of the manhole tube, the bottom plate and the branch pipe to be bonded to each other, by bonding the outer side of the coupling portion with PE to completely block the firm bonding and the occurrence of leaks.

The present invention forms a coupling groove into which the synthetic resin manhole tube is inserted into the synthetic resin bottom plate, and then rotates the manhole tube into the coupling groove to melt the manhole tube and the bottom plate by frictional heat, and the manhole tube is made. It is made by melting the manhole tube and the branch tube by the frictional heat by rotating the branch pipe in the fitting hole formed on the side of the side of the joint, and melts the surface material of each part without using a separate PE for bonding By doing so, a stronger bond is achieved.

Manhole 100 of the present invention comprises a manhole tube 10 made of a synthetic resin to form a cylindrical shape, having a synthetic resin bottom plate 20 to block the bottom of the manhole tube 10, the manhole tube It is comprised by providing the branch pipe 30 couple | bonded with the side surface of 10, and which discharges waste water and is manufactured from synthetic resin materials.

The manhole tube 10 and the branch tube 30 of the present invention is made of a cylindrical shape, the bottom plate 20 is made of a disc shape, the material is preferably synthetic resin, preferably high density polyethylene as the main material PE double wall pipe is recommended.

The reason for this is that it is easy to purchase materials because it is common to manufacture pipes of various diameters using PE double-walled pipes mainly made of high-density polyethylene, and another is to apply friction heat because the main material is made of high-density polyethylene. This is because the junction can be made.

Although not shown in the upper part of the manhole tube 10 of the present invention by installing a manhole cover to check the internal cleaning and sewage flow state of the manhole tube 10 if necessary.

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

1 is a perspective view of a manhole according to the present invention, Figure 2 is an exploded perspective view of the manhole of the present invention, Figure 3 is a manhole front view of the present invention, Figure 4 is a sectional view of the manhole of the present invention.

Manhole 100 of the present invention is a cylindrical manhole tube 10, the bottom plate 20 is fixed to the lower portion of the manhole tube 10, as shown in the figure, the side of the manhole tube 10 It is composed of a branch pipe 30 is fixed to the branch pipe 30 is fitted into the fitting hole 11 formed on the side of the manhole tube 10 is fixed, the bottom plate 20 is the lower portion of the manhole tube 10 The coupling groove 21 is fitted to be fixed.

Herein, the inner diameter of the fitting hole 11 formed in the manhole tube 10 is smaller than the outer diameter of the branch pipe 30, and the inner diameter and the outer diameter of the coupling groove 21 formed in the bottom plate 20 are respectively defined in the manhole tube 10. Make it larger than the inner diameter and smaller than the outer diameter.

That is, the branch pipe 30 is forcibly inserted into the fitting hole 11 of the manhole tube 10, and the manhole tube 10 is forcibly fitted into the coupling groove 21.

The coupling groove 21 formed in the bottom plate 20 of the present invention is not penetrated, so that the manhole tube 10 is coupled as shown in FIG. 4, and the manhole 100 of the present invention is a facility buried in a sewage pipe and / or underground. It is a place for people to enter and exit for inspection or cleaning. It is a hollow round tube shape, and it is constructed by determining the diameter and height according to the use and purpose. It is preferable to use synthetic resin as the material. For example, it is preferable to use a PE double wall pipe mainly composed of high density polyethylene.

On the other hand, the manhole 100 of the present invention is that the bottom plate 20 is fixed to the lower portion of the manhole tube 10, the branch pipe 30 is fitted into the side of the manhole tube 10 is coupled, the manhole tube ( 10) and the bottom plate 20 and the branch pipe 30 is melted to be attached to each other (M), there is a fusion site (W) to wrap and bond the outside of the heat-sensitive portion (M) with PE. .

In the present invention, a process of first fitting the cylindrical manhole tube 10 to the coupling groove 21 of the bottom plate 20 will be described based on FIGS. 6 to 10.

First, the bottom plate 20 is matched with the lower portion of the manhole tube 10 to the coupling groove 21 of the bottom plate 20 in a fixed state as shown in FIG. 7, but the coupling groove 21 than the thickness of the manhole tube 10. ) And the diameter of the) is not fitted as it is, the lower portion of the manhole tube 10 is preferably formed to be tapered on both sides so that it can be easily fitted into the coupling groove (21).

When the lower part of the manhole tube 10 is partially inserted into the coupling groove 21 of the bottom plate 20, the manhole tube 10 is fixed with a jig and then strongly rotated. 10 is inserted into the bottom of the coupling groove 21, the heat portion (M) generated by melting part of the manhole tube 10 and the bottom plate 20 is the manhole tube 10 and the bottom as shown in Figs. The coupling portion of the plate 20 is to be coupled to each other.

Here, the heat portion M is the bottom plate 20 which contacts the outside of the manhole tube 10 and the outside of the manhole tube 10 by friction with the bottom plate 20 by the rotation of the manhole tube 10. It is generated by melting the site, the self-heating part (M) is to be generated by melting the raw material for manufacturing the manhole tube 10 and the bottom plate 20 is easy to combine while the coupling site is not easily separated.

That is, when the manhole tube 10 is coupled to the bottom plate 20, when the PE is melted and attached as if it were welded as in the past, the coupling part may fall, but the manhole tube 10 and the bottom plate 20 as described above. When combined with the melting heat generated (M) is formed as a body, as if made of a crack does not occur without falling tightly is made.

When the bottom of the manhole tube 10 is in contact with the bottom of the coupling groove 21 of the bottom plate 20 to stop the rotation of the manhole tube 10 to cool the heat portion (M) and makes a tight coupling , When the self-heating part (M) is cooled to melt the PE upwards to form a fusion site (W) to increase the bonding force, and to completely block the leakage may be one.

And the process of fitting the branch pipe 30 to the fitting hole 11 formed on the side of the cylindrical manhole tube 10 in the present invention will be described based on FIG.

First, while the manhole tube 10 is fixed, the ends of the branch pipes 30 coincide with the fitting holes 11 of the manhole tube 10 as shown in FIG. 12, but the diameter of the fitting holes 11 is greater than that of the branch pipes 30. The diameter is small so that it is not fitted as it is, the end of the branch pipe 30 is preferably formed to be tapered on both sides so that it can be easily fitted into the fitting hole (11).

When the lower part of the branch pipe 30 is partially inserted into the fitting hole 11 of the manhole tube 10 as described above, when the branch pipe 30 is fixed with a jig and then strongly rotated, the branch pipe 30 is as shown in FIGS. 12 and 13. When the insertion part 11 is inserted into the heat pipe portion M generated by melting part of the branch pipe 30 and the manhole tube 10, the coupling between the manhole tube 10 and the branch pipe 30 as shown in FIGS. To bind to each other at the site.

Here, the self-heating portion M is melted by the rotation of the branch pipe 30, and the part of the manhole tube 10 contacting the outside of the branch pipe 30 and the outside of the branch pipe 30 by friction with the manhole tube 10 is melted. By generating, the self-heating portion (M) is to be generated by melting the raw material for manufacturing the manhole tube 10 and the branch pipe 30 is easy to combine while the coupling portion is not easily separated.

That is, when joining the branch pipe 30 to the manhole tube 10, when melting and attaching PE as if it were welded as in the past, the coupling part may occur, but the manhole tube 10 and the branch pipe 30 are as described above. When combined with the melting heat generated portion (M), as if made of a single body does not crack and fall tightly coupled is made.

When the end portion of the branch pipe 30 is fully inserted into the fitting hole 11 of the manhole tube 10 as shown in FIG. 13, the branch tube 30 stops the rotation of the branch tube 30 and protrudes into the manhole tube 10. The end of the 30 is cut out so that the branch pipe 30 is coupled to the manhole tube 10 as shown in FIG. 14, and protrudes into the manhole tube 10.

And stop the rotation of the branch pipe 30 so that the self-heating portion (M) is cooled and firmly coupled, and when the heat-sensitive portion (M) is cooled to melt the PE upwards to form a fusion site (W) by the bonding force It should be raised and completely blocked any leaks that may be in the bay.

On the other hand, the present invention has an invert 40 in the inner bottom of the manhole tube 10 as shown in Figure 15 and 16 to facilitate the flow of sewage and / or sewage flowing along the manhole, sewage and / or While preventing the settling of sediment contained in the sewage to block the odor while the invert 40 is filled to a certain height upward from the lower end of the manhole tube 10 to form a gap with the manhole tube 10, preferably To be formed to the same height as the lower end of the branch pipe (30).

The invert 40 forms a groove 41 in the center to filter large sludge flowing into the manhole tube 10, and allows small sludge to be discharged through the branch pipe 30 as it flows without stagnation. To do that.

The present invention in the manhole used for the sewage pipe, the manhole tube, the branch pipe and the bottom plate are joined by melting each other by frictional heat so that leakage does not occur in the contact portion of the branch pipe flowing through the sewage coupled to both sides and the bottom of the circular manhole made of synthetic resin This ensures a tight coupling that never leaks.

Claims (5)

A branch pipe is coupled to both sides of the synthetic resin manhole tube, and the manhole blocking the lower portion of the manhole tube, wherein the lower portion of the manhole tube is bonded to the synthetic resin bottom plate, but the bottom plate to form a coupling groove into which the manhole tube is fitted After the manhole tube is inserted into the coupling groove and rotated, the manhole tube and the bottom plate are melted together by frictional heat to form a fitting hole on the side of the manhole tube, and the branch pipe is inserted into the manhole tube by friction heat. Watertight synthetic resin inverted manhole, characterized in that the branch is melted and the bond is made. The watertight synthetic resin inverted manhole according to claim 1, wherein the coupling groove of the bottom plate into which the manhole tube is fitted has a diameter smaller than that of the manhole tube, while the fitting hole into which the branch pipe is inserted has a diameter smaller than that of the paper tube. [2] The watertight type according to claim 1, wherein a fusion region is formed in which a fusion region is formed in which a manhole tube and a bottom plate are melted by frictional heat, and a fusion region is formed by attaching PE to an outer side of the magnetic heat region where the manhole tube and the branch tube are melted and joined. Plastic inverted manholes. The watertight synthetic resin inverted manhole according to claim 1, wherein the lower portion of the manhole tube fitted into the coupling groove of the bottom plate and the end portion of the branch pipe fitted into the fitting hole of the manhole tube are tapered inward. The watertight synthetic resin inverted manhole according to claim 1, wherein an invert is installed at the bottom of the manhole tube to prevent congestion of sewage in the manhole tube.

Images