KR20110133783A - Invert for manhole and method thereof - Google Patents

Abstract

PURPOSE: An inverter of a manhole and a method of manufacturing the same are provided to increase durability and strength since an inverter compression-molded by sulfur polymer concrete is manufactured in a manhole in an independent structure. CONSTITUTION: An inverter(50) of a manhole is installed between an inlet pipe and an outlet pipe on the bottom of a manhole. The inverter makes sewage flow from the inlet pipe to the outlet pipe. A slab(40) is coupled to the lower part of the manhole. The inverter is formed from concrete. The inverter is compression-molded and is integrally attached.

Description

Inverter for manhole and manufacturing method thereof

The present invention relates to an inverter of a manhole and a method of manufacturing the same, and more particularly, to an inverter made of sulfur polymer concrete mixed with a sulfur polymer, a filler, and an aggregate in a manhole to prevent corrosion and to prevent environmental pollution such as soil pollution. The present invention relates to an inverter of a manhole and a method of manufacturing the same.

In general, manholes are installed at regular intervals of sewage pipes to collect inflows in multiple directions by adjusting slopes and connecting inflow pipes to induce drainage or water collection through pipes in a certain direction, and to be installed for inspection, cleaning, and ventilation in conduits. The shape of the manhole is most cylindrical, which is easy to construct, and also has a rectangular, oval, etc.

In addition, the inverter formed on the inner bottom surface of the manhole facilitates the sewage flow of concrete manholes installed at regular intervals in the sewage pipe for right and sewage pipes, and in particular, prevents the deposition of sediment to prevent odors. The bottom structure of the manhole.

However, the conventional manhole inverter has a problem that the environmental damage such as soil pollution due to water leakage is short due to the corrosion caused by the waste, waste water is generated by the concrete.

The present invention is to provide a manhole to prevent the corrosion and to prevent environmental pollution such as soil pollution while greatly increasing the durability and strength of the inverter having an inverter compression-molded sulfur polymer concrete inside the manhole to solve this problem It is.

The present invention is a manhole inverter is installed between the inlet pipe and the outlet pipe to the bottom of the sewage manhole flows the sewage from the inlet pipe to the outlet pipe, the slab coupled to the lower portion of the manhole and the inside of the manhole Inverter having a semi-circular cross section so that the sewage flow on the upper surface of the slab is located in the sulfur polymer concrete, characterized in that the compression of the manhole inverter attached integrally.

In addition, in the method of manufacturing the inverter of the manhole, preparing a mold having a hemispherical cross section, injecting sulfur polymer concrete into the mold, and compressing the sulfur polymer concrete injected into the mold with a pressure plate Shaping, separating the compression-molded inverter from the pressure plate, and integrally attaching the compression-molded inverter to the upper surface of the lower slab. .

The inverter of the manhole made of sulfur polymer concrete according to the present invention is manufactured by the inverter compression-molded sulfur polymer concrete inside the manhole in an independent structure, so that durability and strength are greatly improved, and the sulfur polymer concrete functions as sewage or wastewater. Since corrosion does not occur, contamination by water leakage does not occur, and recycling is possible, and thus, it is possible to prevent environmental pollution by waste.

1 is a cross-sectional view showing an inverter according to the present invention.
Figure 2 is a side cross-sectional view showing an inverter according to the present invention.
3 is a view showing an inverter according to the present invention.
4 is a manufacturing process diagram of the inverter according to the present invention.
5 is a flowchart of a method of manufacturing an inverter according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

The present invention is a manhole inverter is installed between the inlet pipe and the outlet pipe to the bottom of the sewage manhole flows the sewage from the inlet pipe to the outlet pipe, the slab coupled to the lower portion of the manhole and the inside of the manhole Inverter is provided with a semi-circular cross-section so that the sewage flow to the upper surface of the slab is located in the sulfur polymer concrete, characterized in that the compression molded integrally attached.

The sulfur polymer concrete is formed by mixing aggregates including fillers, fine aggregates, and coarse aggregates with sulfur polymers.

In addition, 5 to 15 parts by weight of glass fibers are included in 85 to 95 parts by weight of the sulfur polymer concrete, so that the durability and strength can be improved while fully exhibiting the sulfur polymer concrete function.

The inverter of the manhole as described above comprises the steps of preparing a mold having a hemispherical cross section, the step of injecting sulfur polymer concrete into the inside of the mold, the step of compressing and molding the sulfur polymer concrete injected into the mold with a pressure plate, Separating the compression molded inverter from the pressure plate, and integrally attaching the compression molded inverter to the upper surface of the lower slab.

DETAILED DESCRIPTION OF THE INVENTION The present invention will become more apparent through preferred embodiments described below with reference to the accompanying drawings. Hereinafter, the present invention will be described in detail with reference to the following embodiments so that those skilled in the art can easily understand and reproduce.

As shown in FIGS. 1 and 2, an inverter 50 having an inlet tube 20 and an outlet tube 30 below the manhole 10 is shown.

Here, when the inverter is briefly described, the inverter (Invert) changes the position of the sewage, living sewage, rainwater, etc. through the connection of the main pipe connected to the branch pipe to discharge to other branches connected to the other connection pipe, or the purpose of the ventilation It is to be buried underground in order to detect the abnormality of main building, branch building, or connector, to repair damaged part, or to add intermediate branch for additional branch building.

3 is a view showing a manhole inverter according to the present invention, the manhole inverter 50 of the present invention can compact the sulfur polymer concrete formed by mixing a filler and aggregate in the sulfur polymer to maintain a compact structure, and It is possible to increase the durability and strength by mixing the glass fibers. The inverter 50 is composed of the sulfur polymer concrete and to support the slab 40 to form a lower portion.

Hereinafter, the sulfur polymer concrete will be described.

As the main practical material (polymer) among organic compounds, the construction material using this polymer can produce various products by utilizing its characteristics according to the use, and one of the representative ones is polymer concrete. It is made from sand, gravel, aggregates, and polymers from binders. At this time, the aggregate used should be dried to less than 0.25% of moisture, and the size of gravel is smaller than 13mm, and the harder it is, the better. It is possible to obtain high strength in a short time by heating to 20 ° C. It is important that the aggregate size of the aggregates is reduced to reduce the amount of binder polymer and that sufficient mixing is achieved to achieve high strength. Polymer concrete has a compressive strength of 1,200 to 1,500 kg / cm 2, which has excellent strength characteristics, extremely good waterproofness, and is superior to cement concrete because it is resistant to various acids, alkalis and salts. Abrasion resistance is also superior to concrete and wood, making it suitable for flooring and paving. In addition, it has excellent adhesion to materials such as wood by addition of a suitable fuel or dye.

In addition, the filler is used as a material for filling the ore or coal so that the can space does not collapse, such as steel sand and soil.

Therefore, the inverter of the manhole according to the present invention is to prevent corrosion by using the sulfur polymer concrete as described above to contribute to environmental pollution such as soil pollution.

The manufacturing method of the manhole inverter having the above configuration features will be described with reference to FIGS. 4 and 5.

The present invention is to prepare a mold (60) having a hemispherical cross-section so that the sewage flows (S10), the step of injecting sulfur polymer concrete into the inside of the mold (60), the mold 60 Compressing and molding the sulfur polymer concrete into the pressing plate 70, separating the inverter 50, which is compression molded from the mold 60, and lowering the compressed slab 50 to the lower slab 40. Including the step of integrally attached to the upper surface of the.

Detailed description will be made with reference to FIG. 5, when manufacturing the inverter 50, a mold 60 having an open top is prepared. (S 10)

The die 60 can be subjected to high temperature or high pressure. Liquid sulfur polymer concrete is introduced into the mold (60).

The liquid sulfur polymer concrete is produced by mixing a sulfur polymer and a filler, fine aggregate, coarse aggregate in an appropriate ratio.

Alternatively, pressure may be added by adding synthetic fibers or rebar to the sulfur polymer concrete surface or the inside thereof.

Then, the upper part of the mold 60 is closed with a lid 70 to seal and pressurize and mold the sulfur polymer concrete filled therein at a constant pressure.

After compression and molding for a predetermined time as described above, the molded article (inverter) is compression-molded from the mold 60. (S 40)

The compression-molded inverter is mounted on the upper surface of the lower slab 40 and then integrally attached with an adhesive using an epoxy resin to maintain a fixed state inside the manhole 10. (S 50)

Inverter 50 compression-molded sulfur polymer concrete in the manhole 10 by the manufacturing method as described above is manufactured in an independent structure, with the durability and strength of the sulfur polymer concrete function and corrosion of the inverter by sewage or waste water, etc. This does not occur because of pollution caused by water leakage, recycling is also possible to prevent environmental pollution.

That is, the present invention is composed of concrete to prevent corrosion, etc. by the sulfur polymer concrete in the inverter part of the manhole where the environmental damage such as soil pollution due to water leakage is shortened due to the occurrence of corrosion by waste water, water shortage In addition, the compression molding has a greatly enhanced durability and strength.

Although the invention has been described with reference to the accompanying drawings, preferred embodiments of the present invention, it will be apparent to those skilled in the art that many various modifications are possible without departing from the scope of the invention. Therefore, the scope of the invention should be construed by the claims described to include many such variations.

10: manhole 20: inlet pipe
30; Outlet tube 40: slab
50: inverter 60; mold
70: pressure plate

Claims (4)

In the inverter of the manhole which is installed between the inlet pipe and the outlet pipe to the bottom of the sewage manhole to flow the sewage from the inlet pipe to the outlet pipe,
Slab coupled to the lower portion of the manhole,
The inverter of the manhole, characterized in that the inverter is provided with a semi-circular cross section is made of sulfur polymer concrete and compression molded integrally attached to the upper surface of the slab located inside the manhole.
The method of claim 1,
The sulfur polymer concrete manhole inverter, characterized in that by mixing the filler and aggregate in the sulfur polymer.
The method of claim 1,
Inverter of the manhole, characterized in that 5 to 15 parts by weight of glass fibers in 85 to 95 parts by weight of the sulfur polymer concrete.
In the method of manufacturing the inverter of the manhole,
Preparing a mold having a hemispherical cross section,
Injecting sulfur polymer concrete into the mold;
Compressing and molding the sulfur polymer concrete injected into the mold by a pressure plate;
Separating the press-formed inverter from the pressure plate;
And integrally attaching the compression-molded inverter to the upper surface of the lower slab.

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