KR101307149B1 - A pipe - Google Patents

Abstract

The present invention relates to a method for connecting a double wall sewer pipe for flange type connection, and more particularly, to fix the end of the double wall sewer pipe formed by spirally supplying a profile in which the hollow is formed in the inner diameter so as to be integral with the flange, A method of connecting a double wall sewer pipe for flange type connection in which a flange is connected in one piece by connecting a flange and fixing it with bolts and nuts, and then supplying molten synthetic resin to the fusion hole formed in the flange to be welded to the fusion member in the fusion space. will be.
The present invention comprises the steps of supplying a connecting member between the profile of the hollow is formed to form a double wall sewer pipe;
Forming a flange provided with a flange protrusion on the outside and a connecting protrusion having a fastening groove formed on an inner diameter thereof;
Fitting a double wall sewer pipe into the coupling groove and welding and fixing the connection protrusion and the molten synthetic resin;
Connecting the flanges with the fixing bolts and nuts by abutting the flanges; And
Supplying a molten member made of molten synthetic resin to the fusion groove formed in the flange projections to fill the fusion space of the flange projections to connect the flange integrally by welding the fusion member and welding the fusion space and the fusion hole by welding means In the connection method of the double wall sewer pipe for flange type connection,
Welding means is characterized in that to form a fusion space formed in the flange projections in a circular or rectangular shape, larger than the fusion hole to connect the molten member is filled.

Description

Connection method of double wall sewer pipe for flange type connection {A pipe}

The present invention relates to a method for connecting a double wall sewer pipe for flange type connection, and more particularly, to fix the end of the double wall sewer pipe formed by spirally supplying a profile in which the hollow is formed in the inner diameter so as to be integral with the flange, A method of connecting a double wall sewer pipe for flange type connection in which a flange is connected in one piece by connecting a flange and fixing it with bolts and nuts, and then supplying molten synthetic resin to the fusion hole formed in the flange to be welded to the fusion member in the fusion space. will be.

In general, the double-wall sewer pipe made of synthetic resin is formed by forming a profile to have a hollow inside, and then cooling the feeder in a spiral manner to supply the winder while supplying molten raw material between the profiles so that the profile is continuously connected. Mold.

The double wall sewer pipe formed in this way is cut and stored to a certain length (about 6 meters) and connected by various connection methods in the ground.

Flange connection method of the various methods of connecting the double wall sewer pipes, both sides of the flange (fusion ring) injection-molded at both ends of the sewage pipe, such as Korea Patent Publication No. 10-2005-3231 (January 10, 2005) After installing the heating heater in the sewage pipe production site to supply power to one of the heating heater in the fusion connection with the front end of the synthetic resin pipe is stored.

However, although the area of the heating heater is large, the sewage pipe formed inside the hollow is too narrow compared with the area of the heating heater, which has a disadvantage in that stable fusion connection is not made between each other.

And the sewage pipe goes through the production process is supplied in a spiral form while the hollow is formed, and the sewer pipe is cut to have a straight shape in the vertical direction, so that the part of the cut part is thin, and the part is formed wide to make a surface contact Unlike the flanges that uniformly provide the fusion surface, the overall melting speed is different, and thus, the fusion surface does not provide uniform fusion force.

Due to these shortcomings, no matter how uniform the pressure is pressed on the whole surface, even if fusion, the welding depth is different, which causes a problem of deforming to either side, the overall fusion is not fused with a uniform force, and a partial weak fusion is generated and transported The impact of vulnerable parts in the process or storage condition creates a defect that can be easily separated.

In addition, since the double wall sewer pipe and the flange are fused by the butt fusion method, the consumption time is increased and the productivity is lowered. The parts that do not come into close contact with each other make it difficult to fusion connection. To prevent this, if the bolts and nuts are tightly tightened, the parts close to the bolts are tightly adhered, but the parts far from the bolts do not come into contact with each other. No fusion connection will be made.

The flange for injection molding is not related to the size in the case of small diameter, but as the width and thickness increases toward the larger diameter, the flange is molded to have a state filled with raw materials, so cooling is not performed properly, resulting in a deterioration in moldability. There was a defect in that the supply of raw materials did not provide the required rigidity, such as the generation of pores occurred, and the large diameter of the raw material is difficult to move and transport, and it is inconvenient to use.

In addition, the heating wires are installed in the contact surface of the flange in a circular manner, but they are fused together to melt and attach the periphery of the heating wire with power supply, but it requires a lot of work time due to the preparation of the welding machine and various tools for melting There is a defect that can not provide water tightness because it is not possible to guarantee the watertightness if the fusion is not normal, and it is impossible to replace the synthetic resin pipe or replace the flange with a new one.

In particular, the double wall sewer pipe is required to withstand the pressure of the fluid so that the fluid does not leak to the outside in the absence of almost any pressure, so that the worker can conveniently work in the process of laying in the ground and work early. However, it does not meet these demands.

Document 1. Patent No. 0743207 (2007. 07. 20. Registration) Document 2. Patent No. 0774549 (registered November 1, 2007) Document 3. Utility Model Registration No. 0227733 (Registered on April 06, 2001) Document 4. Patent No. 0900803 (registered May 27, 2009)

Therefore, the problem of the present invention, which is devised to solve the above-mentioned drawbacks, is to bury a double-wall sewage pipe formed in a circle through the connecting member between the profiles in the ground while spirally supplying a profile in which one hollow is formed in the inner diameter. When the double wall sewer pipe is connected to the flange and welded, the flange is connected by fixing bolts and nuts, and then the molten member is supplied to the welding hole formed in the flange to be welded in the welding space and the welding hole. Welded connection is to maintain watertightness.

The present invention comprises the steps of supplying a connecting member between the profile of the hollow is formed to form a double wall sewer pipe;
Forming a flange provided with a flange protrusion on the outside and a connecting protrusion having a fastening groove formed on an inner diameter thereof;
Fitting a double wall sewer pipe into the coupling groove and welding and fixing the connection protrusion and the molten synthetic resin;
Connecting the flanges with the fixing bolts and nuts by abutting the flanges; And
Supplying a molten member made of molten synthetic resin to the fusion groove formed in the flange projections to fill the fusion space of the flange projections to connect the flange integrally by welding the fusion member and welding the fusion space and the fusion hole by welding means In the connection method of the double wall sewer pipe for flange type connection,
Welding means is characterized in that to form a fusion space formed in the flange projections in a circular or rectangular shape, larger than the fusion hole to connect the molten member is filled.

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In the present invention, when a double wall sewer pipe, which is circularly formed through a connecting member between the profiles, is embedded in the ground while supplying a profile in which one hollow is formed in the inner diameter, the double wall sewer pipe is welded and connected by flange fitting. Is fixed by connecting bolts and nuts, and then the molten member, which is a molten synthetic resin, is supplied to the welding hole formed in the flange, and the molten member is supplied to the welding hole and the welding space to solidify. To make it possible.

According to the present invention, the flanges are butt-connected by fixing bolts and nuts, and then the molten member is supplied to the flange so that the butt-connected flange is welded to be integrated with the molten member, thereby separating and leaking water due to water pressure, earth pressure, and external causes. To prevent it.

1 is an exploded perspective view showing a preferred embodiment of the present invention
Figure 2 is a perspective view showing the assembled state of the present invention
3 is a cross-sectional view showing a separation state of the present invention
Figure 4 is a cross-sectional view showing a flange assembly of the present invention
5 is an enlarged cross-sectional view of a main part of a flange assembly of the present invention;
6 is a side view of the flange of the present invention;
7 is a side view of another position of the flange of the present invention;
8 is a cross-sectional view of a state in which the molten member of the present invention is supplied;
9 is a cross-sectional view of the flange of the present invention connected to the fixing bolt
10 is a cross-sectional view of a state in which the present invention is applied to a triple wall sewer pipe
11 is a cross-sectional view of a state in which the present invention is applied to a water pipe.
12 is an enlarged cross-sectional view showing main parts of another embodiment of the present invention;
Figure 13 is an enlarged side cross-sectional view showing the main portion of another embodiment of the present invention.
14 is an enlarged cross-sectional view of the main portion engaged state according to another embodiment of the present invention.

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

1 is an exploded perspective view showing a preferred embodiment of the present invention, Figure 2 is a perspective view showing the assembled state of the present invention, Figure 3 is a cross-sectional view showing a separated state of the present invention, Figure 4 shows a flange assembled state of the present invention Sectional drawing, Figure 5 shows an enlarged cross-sectional view of the main portion of the flange assembly of the present invention.

Profile 13 is formed by extruding and cooling a profile 13 having a circular or rectangular hollow 12 at an inner diameter, and then supplying it in a spiral manner, and supplying a connecting member 14 extruded synthetic resin between the profiles 13. Forming double wall sewer pipe (10, 11) in the process of connecting the.

When the double wall sewage pipes (10, 11) are buried in the ground to be configured to connect using the flanges (20, 30),

The flange 20 is formed with a connecting protrusion 22 formed in the inner diameter of the coupling groove 21 into which one end portion of the double wall sewer pipe 10 is fitted, and a flange protrusion 23 is formed in a circular direction in an outer direction. , The flange protrusion 23 is formed with a connection hole 27 for fitting the fixing bolts 26 at the same interval.

One side of the flange protrusion 23 is formed with a fusion space 24 is filled with the fusion member 25 between the connection hole 27, the fusion space 24 is preferably made of a circular or square.

The flange 30 is formed with a connecting protrusion 32 formed in the inner diameter of the coupling groove 31 into which one end portion of the double wall sewer pipe 11 is fitted, and a flange protrusion 33 is formed in a circular direction in an outer direction. The flange protrusion 33 is provided with a connection hole 37 for fitting the fixing bolts 26 at equal intervals.

One side of the flange protrusion 33 is formed with a fusion hole 34 is filled with the fusion member 25 between the connection hole 37, the fusion hole 34 is made of a circular or rectangular shape and the fusion space ( It is preferable to form smaller than 24).

The packing 40 is inserted between the flanges 20 and 30, but the double wall sewer pipes 10 and 11 are inserted into the fastening grooves 21 and 31, and then welded at the ends of the connecting protrusions 22 and 32. In this way, the molten synthetic resin is supplied and connected to be integrated by welding.

Figure 6 is a side view of the flange of the present invention, Figure 7 shows a side view of another position with respect to the flange of the present invention.

The flanges 20 and 30 have connecting holes 27 and 37 formed at equal intervals on one side facing each other, and a fusion space 24 is formed between the connecting holes 27 and the connecting holes 37. The fusion hole 34 is formed between them.

The fusion hole 34 is formed as a hole for supplying molten synthetic resin, and the fusion space 24 is preferably formed in a lower or larger direction than the fusion hole 34 in a circular or square shape.

8 is a cross-sectional view of a state in which a molten member of the present invention is supplied, and FIG. 9 is a cross-sectional view of a state in which a flange of the present invention is connected with a fixing bolt.

After the flanges 20 and 30 are combined to fix the fixing bolts 26 to the connection holes 27 and 37 and fixed with nuts 36 on opposite sides, the molten synthetic resin, which is the fusion member 25, is supplied to the fusion holes 34. By supplying to the fusion space 24 and the fusion hole 34 so as to solidify, the welding means 100 is integrally coupled to the flanges 20 and 30.

Figure 10 shows a cross-sectional view of the present invention applied to the triple wall sewer pipe, triple cross reinforcement and hollow is formed in place of the double wall sewer pipe (10, 11) integrally connected to the flange (20, 30) The wall sewer pipe 50 can be applied.

11 is a cross-sectional view showing a state in which the present invention is applied to a water pipe, and instead of the double wall sewage pipes 10 and 11 that are integrally connected to the flanges 20 and 30, the water pipe 60 filled inside can be applied. .

12 is a main portion enlarged cross-sectional view showing another embodiment of the present invention, FIG. 13 is a main portion enlarged side cross-sectional view showing another embodiment of the present invention, Figure 14 is a coupling state main enlarged cross-sectional view showing another embodiment of the present invention. will be.

The flange protrusions 23 and 33 formed on the flanges 20 and 30 meet integrally through the welding means 100 from the outer diameter end to the inner side between the connection holes 27 and 37;

The welding means 100 forms fusion grooves 34a and 34b on the surfaces where the flange protrusions 23 and 33 meet, and relatively square or circularly welds the space 24a, to the inside of the fusion grooves 34a and 34b. 24b), and the fixing projections 28 and 38 are formed between the fusion spaces 24a and 24b to the center portion.

In the present invention having such a configuration, the conventional double wall sewage pipes 10 and 11 are extruded synthetic resin (HDPE) to form a profile (13) in which the hollows 12 are formed, and the synthetic resin in another extruder while spirally feeding the winder. By extruding and supplying to the connection member 14, the profile 13 and the connection member 14 is formed into a cylindrical shape.

The flanges 20 and 30 for connecting the double wall sewer pipes 10 and 11 are molded by injection, and the connecting protrusions 22 and 32 having the fastening grooves 21 and 31 are formed in the inner diameter, and the flanges are circular. The protrusions 23 and 33 are formed to protrude so as to form the connection holes 27 and 37 in the range of 4 to 12, depending on the size, at equal intervals on the flange protrusions 23 and 33.

The fastening grooves 21 and 31 of the flanges 20 and 30 are combined with one end of the double wall sewer pipes 10 and 11 to supply molten synthetic resin at the ends of the connecting protrusions 22 and 32 by welding to double wall. The sewage pipes 10 and 11 and the flanges 20 and 30 are welded and fixed so as to be integrated.

When embedding the double wall sewer pipes 10 and 11 connected to one end of the flanges 20 and 30 in the ground, a packing 40 is installed between the flanges 20 and 30, and the flanges 20 and 30 are installed. The connection bolts 27 and 37 to be matched with each other, and then the fixing bolt 26 is inserted into the connection holes 27 and 37 so as to protrude to the opposite side, and the nut 36 is fixed by tightening the flanges 20 and 30. ) Is fixed by butt.

When the flanges 20 and 30 are butt-connected, watertightness is maintained by the packing 40, but the flanges 20 and 30 can not be provided in a perfectly fixed state, so the flanges 20 and 30 are butt-connected. In one state, the fusion hole 34 provides a state coinciding with the fusion space 24.

At this time, the melting member 25, which is a molten synthetic resin, is supplied to the fusion hole 34, which is the welding means 100, to be filled in the fusion space 24 therein.

When the molten member 25 is filled in the fusion space 24 and the fusion hole 34 and cooled, the flanges 20 and 30 are integral with each other because the same material is supplied in a molten state and then cooled to provide a fixed state integrally. To provide a fixed state.

Therefore, the flanges 20 and 30 are filled with the melting member 25 in the fusion space 24 and the fusion hole 34 in the state of being fixed by the fixing bolt 26 and the nut 36 to provide a fixed state integrally. Therefore, even if other pressures such as water pressure or earth pressure are acted on, the flanges 20 and 30 may prevent the phenomenon of rotation or separation, thereby stably maintaining watertightness.

Instead of the double wall sewage pipes 10 and 11, it is possible to apply to various types of pipes regardless of the type of pipes such as the triple wall sewer pipe 50 and the water pipe 60.

12 to 14, by fixing the fixing bolt 26 and the nut 36 by abutting the flange (20, 30), it is fixed through the welding means 100,

When the molten member 25, which is a molten synthetic resin, is supplied to the fusion grooves 34a and 34b from the ends of the flange protrusions 23 and 33, the molten member 25 is filled in the inner fusion spaces 24a and 24b and when the molten member 25 is solidified, the molten member 25 is fused. It provides a state filled in the space (24a, 24b) and fusion grooves (34a, 34b), and when the molten member 25 is solidified, the fixing projections (28, 38) together with the molten member 25 flange 20, 30) to prevent the rotation or separation to provide a stable and secure fixed state.

In the present invention, when the double wall sewer pipe is buried in the ground, it is integrally connected with the flange, and the flanges are butt-connected to be fixed by fixing bolts and nuts. While solidifying, the flange is easily fixed as one-piece to keep the watertight stable.

10, 11: double wall sewer pipe 12: hollow
13 profile 14 connection member
20, 30: flange 21, 31: fastening groove
22, 32: connection protrusion 23, 33: flange protrusion
24: fusion space 25: melting member
26: fixing bolt 27, 37: connection hole
34: fusion hole 36: nut
40: packing 50: double wall sewer pipe
60 water pipe

Claims (4)

delete delete Supplying a connecting member 14 between the profiles 13 on which the hollows 12 are formed to form double wall sewer pipes 10 and 11;
Forming flanges 20 and 30 provided with connecting protrusions 22 and 32 having fastening grooves 21 and 31 in the inner diameter and flange protrusions 23 and 33 outward;
Fitting double wall sewer pipes (10, 11) into the coupling grooves (21, 31) and welding fixing the connection protrusions (22, 32) with molten synthetic resin;
Connecting the flanges 20 and 30 with the fixing bolts 26 and the nuts 36 by abutting the flanges 20 and 30; And
The molten member 25 made of molten synthetic resin is supplied to the fusion grooves 34a and 34b formed in the flange protrusions 23 and 33 and filled into the fusion spaces 24a and 24b of the flange protrusions 23 and 33 to be melted. Double wall sewage pipe for flange type connection in which member 25 connects flanges 20 and 30 integrally through welding fixing welding spaces 24a and 24b and welding holes 34a and 34b with welding means 100. In the connection method of,
The welding means 100 forms a fusion space 24 formed in the flange protrusion 23 in a circular or rectangular shape, and is formed larger than the fusion hole 34 to connect the fusion member 25 to be filled. Connection method of double wall sewer pipe for flange type connection.
Supplying a connecting member 14 between the profiles 13 on which the hollows 12 are formed to form double wall sewer pipes 10 and 11;
Forming flanges 20 and 30 provided with connecting protrusions 22 and 32 having fastening grooves 21 and 31 in the inner diameter and flange protrusions 23 and 33 outward;
Fitting double wall sewer pipes (10, 11) into the coupling grooves (21, 31) and welding fixing the connection protrusions (22, 32) with molten synthetic resin;
Connecting the flanges 20 and 30 with the fixing bolts 26 and the nuts 36 by abutting the flanges 20 and 30; And
The molten member 25 made of molten synthetic resin is supplied to the fusion grooves 34a and 34b formed in the flange protrusions 23 and 33 and filled into the fusion spaces 24a and 24b of the flange protrusions 23 and 33 to be melted. Double wall sewage pipe for flange type connection in which member 25 connects flanges 20 and 30 integrally through welding fixing welding spaces 24a and 24b and welding holes 34a and 34b with welding means 100. In the connection method of,
Welding means 100 is a connection method of the double-wall sewer pipe for flange-type connection, characterized in that for forming the fixing projections (28, 38) between the fusion space (24a, 24b) of the flange projections (23, 33).

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