KR101179205B1 - DC double wall pipe - Google Patents

Abstract

The present invention relates to a connector integral DC double wall pipe, and more particularly, to form a DC double wall pipe continuously forming a protrusion and a groove to the outside of the smooth inner diameter pipe, and to form a connection member at predetermined intervals to form a DC double wall pipe. The connector is to be molded integrally, and relates to a connector integral DC double-walled tube to maintain the watertight stability by reinforcing the connection coating to the entire outer diameter surface of the connector or the portion where the packing is located inside.
In the present invention, the protrusions and the grooves are continuously formed, and are integrally connected at the end of the protrusions in a double wall tube that forms the inner diameter pipe with the inner diameter of the protrusions and the grooves, and form a connection space at the inner diameter and form a gap at the tip. In a double wall pipe in which one connector is formed,
A multi-tube formed by coating a fiber with the outer diameter of the protrusion and the groove to prevent the formation of a space, and forming a quadruple structure by coating a synthetic resin made of PVC on the outer diameter of the fiber;
It is characterized in that the connection coating between the reinforcing projections in the form of a tape in the outer diameter of the connector in which the packing is installed in the groove portion of the double wall pipe inserted into the connection space.

Description

DC double wall pipe

The present invention relates to a connector integral DC double wall pipe, and more particularly, to form a DC double wall pipe continuously forming a protrusion and a groove to the outside of the smooth inner diameter pipe, and to form a connection member at predetermined intervals to form a DC double wall pipe. The connector is to be molded integrally, and relates to a connector integral DC double-walled tube to maintain the watertight stability by reinforcing the connection coating to the entire outer diameter surface of the connector or the portion where the packing is located inside.

In general, the sewer pipe has a double wall sewer pipe or a double wall sewer pipe which is formed by extruding a profile in which a reinforcing bar having a rectangular or cross shape is formed in a spiral shape and spirally wound. There was a double-walled tube 10 in which the inner diameter tube 13 was extruded into the inner diameter while continuously forming).

The double-walled tube is formed by continuously forming a groove part and a protrusion part by a mold that is bisected into a strip in a process of melting and supplying the raw material supplied from the extruder, and extruding the inner tube by the inner diameter of the groove part and the protrusion part. The groove is connected to the outer diameter of the double wall to be molded.

Such a conventional technique is to cut a double wall pipe into a predetermined length and supply it to the expansion pipe coalescence and powder mold as invented in Korean Patent No. 0438324 (registered on November 15, 2004) to expand the tip portion to form a socket part. In this case, the packing is coupled to the groove of the expansion part so as to be connected to the socket.

However, this conventional technology produces a double-walled tube, cuts it to a predetermined length, and supplies it to a separate expansion coaling and powder mold to separately expand the process by heating the tip portion, thereby minimizing and completing facility costs and expansion time. As the double walled pipe was separately expanded, the expansion was not performed normally, and the defects increased, and the work was very difficult, and the defects occurred due to the forced expansion of the molded material by heating again.

And Utility Model Registration No. 0296549 (Registered on Nov. 18, 2002) installs a ring-shaped packing at the tip of double wall pipe and separates the outer wall of the inclined ring by pressing the outer surface of the ring-shaped protrusion. Since the fastening using the structure of, because of the need to provide a tightening structure to maintain the watertight by connecting a separate double wall pipe was difficult in the separate production and connection work of the fastener.

In addition, Invention Patent No. 0716063 (2007. 05. 02. registration) is formed by the operation of connecting a separate connector to the end of the sewage pipe to form a single pipe after connecting the sewer pipe on the other side, so the separate connector It is produced through the process of molding and fusion of the produced connector to the end of the sewer pipe through a separate process, so that labor costs by separate manufacturing process and space and work difficulty through independent work are generated. There was a flaw.

In addition, the conventional sewage pipe is formed of a double wall structure using a material such as PVC, PE, and PP, so that the protrusion 11 or the groove 12 is easily damaged by an impact, so that the entire sewage pipe cannot be used if any part is damaged. There is a disadvantage that occurs, and has a disadvantage that the structure is very vulnerable to load.

Document 1. Invention Patent No. 0438324 (registered Nov. 15, 2004) Document 2. Utility Model Registration No. 0296549 (registered Nov. 18, 2002) Document 3. Invention Patent No. 0716063 (registered May 05, 2007) Document 4. Utility Model Registration No. 3003018 (registered on Jan. 17, 2003)

Accordingly, the present invention has been made to solve the above-mentioned drawbacks, and an object of the present invention is to enable the connector to be integrally formed at the end of the double wall pipe having the inner diameter pipe formed by the inner diameter of the protrusion and the groove.

The object of the present invention is to reinforce the connection portion by forming and reinforcing the connection coating to the outer diameter of the portion in which the packing is installed in the connector connecting the double wall pipe.

An object of the present invention is to provide a molding apparatus consisting of a mold for continuously molding a double wall pipe forming an inner diameter pipe with the inner diameter of the protrusion and the groove, and integrally molding the connector at a predetermined interval.

The present invention is to reinforce by covering the resin impregnated fiber to the outer diameter of the protrusion and the groove, and to provide a sewage pipe of the four-layer structure to coat the synthetic resin made of the same material as the inner diameter of the outer diameter to significantly improve the strength. The purpose.

According to the present invention, the protrusion and the groove are continuously formed, and are integrally connected at the end of the protrusion in a double wall tube that forms an inner diameter pipe with the inner diameter of the protrusion and the groove, and form a connection space at the inner diameter and a gap at the tip. In the double wall pipe in which the connector is formed,
A multi-tube formed by coating a fiber with the outer diameter of the protrusion and the groove to prevent the formation of a space, and forming a quadruple structure by coating a synthetic resin made of PVC on the outer diameter of the fiber;
It is characterized in that the connection coating between the reinforcing projections in the form of a tape in the outer diameter of the connector in which the packing is installed in the groove portion of the double wall pipe inserted into the connection space.

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The present invention can provide a double wall tube in which the connector is integrally formed by integrally molding the connector at the end of the double wall tube having the inner diameter tube formed by the inner diameter of the protrusion and the groove, and cutting one end of the connector.

The present invention is to provide a sufficient reinforcement in the connection by forming a reinforcement of the tape-type connection coating made of a reinforcing material such as aluminum in the outer diameter of the portion in which the packing is installed in the connector connecting the double wall pipe and the entire outer diameter of the connector. It is.

The present invention provides a molding apparatus comprising a tubular mold and a connector molding mold which continuously form a double wall tube forming an inner diameter tube with an inner diameter of the protrusion and the groove, and integrally form the connector with the double wall tube at predetermined intervals. It is to enable continuous molding of the tube.

The present invention provides a sewage pipe having a quadruple structure to cover a fiber impregnated with a resin impregnated with the outer diameter of the protrusion and the groove of the double wall pipe so as not to form an empty space, and to coat the synthetic resin made of the same material as the inner diameter pipe with the outer diameter of the fiber. This greatly improves the strength so that it can be used for various purposes.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is an exploded perspective view showing a preferred embodiment of the present invention. Fig.
2 is a cross-sectional view of the assembly state using the connector of the present invention
3 is an enlarged cross-sectional view of main parts of the assembled state of the present invention;
Figure 4 is a cross-sectional view showing another embodiment of the present invention
Figure 5 is a cross-sectional view showing another embodiment of the present invention
6 is a front view of the entire process of the present invention.
7 is a plan view of the entire process of the present invention.
8 is a front view of a double wall tube forming apparatus of the present invention.
9 is an enlarged front view of main parts of the double wall tube forming apparatus of the present invention;
Figure 10 is an enlarged cross-sectional view of the main portion of the double-walled tube of the present invention in a four-coated state

Therefore, according to the accompanying drawings, preferred embodiments of the present invention will be described in detail.

1 is an exploded perspective view showing a preferred embodiment of the present invention, Figure 2 is an assembled state cross-sectional view using the connector of the present invention, Figure 3 shows an enlarged cross-sectional view of the main portion of the assembled state of the present invention.

The double wall pipes 10 and 10a are formed by continuously forming the protrusions 11 and 11a and the grooves 12 and 12a at regular intervals, and the inner diameter pipes by the inner diameters of the protrusions 11 and 11a and the grooves 12 and 12a. (13) is extruded and molded by being integrally connected to the grooves 12 and 12a.

The double wall pipe (10, 10a) is formed in the end portion connecting space 22 to the inner diameter, the end portion is formed with a connector (20) formed with an open portion 21 is opened to the outer diameter.

The connector 20 is continuously formed integrally connected to the groove portion 12 of the double wall tube (10, 10a) is molded, the double wall tube (10a) inserted into the connector 20 is packed in the groove portion (12a) (26) ) Is inserted into the connection space 22 of the connector 20 is connected to maintain the watertight.

The outer diameter of the connector 20 is to form a reinforcement protrusion 25 in the interval that the packing 26 is installed.

4 is a cross-sectional view showing another embodiment of the present invention, the structure of the double wall pipe (10, 10a) is shown in Figures 1 to 3, the outer diameter that the packing 26 is installed in the connector 20 The reinforcing protrusions 25 are wound around the connecting coating 23 to reinforce.

The connection coating portion 23 is formed in a thin tape shape, the material is made of synthetic resin (PE, PP, PVC), metal material (Al, etc.), fiber glass, etc., which can be wound and fixed around the outer diameter of the connector 20 It is preferable to mold.

5 is a cross-sectional view showing another embodiment of the present invention, in which the connection coating 24 is wound around the entire outer diameter of the connector 20 as well as the outer diameter where the packing 26 is installed in the connector 20. Coating to reinforce.

The connection coating part 24 is fixed by winding in a thin tape form, or by coating a material directly, the material is a synthetic resin (PE, PP, PVC, FRP) that can be wound or coated on the outer diameter of the connector 20 It is preferable to mold with a metal material (Al etc.), fiber glass, etc.

6 is a front view of the entire process of the present invention, Figure 7 shows a plan view of the overall process of the present invention.

It is connected to the extruder 50 to supply the raw material by extrusion extrusion in a molten state, and a plurality of molds are connected to move to a predetermined trajectory while forming a double wall pipe (10, 10a) double wall pipe ( A cutting device 53 for cutting 10 and 10a into a predetermined length;

Installed to one side of the cutting device 53 is made of a discharge device 54 for discharging the double wall pipe (10, 10a) is completed to the outside.

8 is a front view of the double wall tube forming apparatus of the present invention, Figure 9 is an enlarged front view of the main portion of the double wall tube forming apparatus of the present invention.

It is for continuous molding of the double wall tube (10, 10a), and a plurality of groove forming portion (32) for forming the protrusions (31, 11) for forming the projections (11, 11a) and the grooves (12, 12a) are formed A plurality of tube forming molds 30 and 30a are connected, and one side of the tube forming molds 30 and 30a connects a connector forming mold 40 having a connector forming part 41 for forming the connector 20. do.

The reinforcing protrusion forming part 42 for forming the reinforcing protrusion 25 at intervals to install the connecting coating part 23 is formed in the connector molding part 41.

The connector molding mold 40 is to have a length of one of the double wall pipe (10, 10a).

10 is an enlarged cross-sectional view showing the main portion of the double-walled tube of the present invention in a state in which the double-walled tube is coated in four, and the resin is impregnated with the outer diameters of the protrusions 11 and 11a and the grooves 12 and 12a of the double-walled tube 10 and 10a. The fiber 100 is coated on the entire surface so that the protrusions 11 and 11a are not exposed, and the synthetic structure 110 such as PVC, PP, PE, etc. is coated on the outer diameter of the fiber 100 once more to form a quadruple structure. To form a multi-pipe 120 to form.

The fiber 100 and the synthetic resin 110 may be coated on the outer diameter of the connector 20 which is integrally connected.

The fiber may be carbon fiber, glass fiber, polyester fiber, glass wool, or the like.

According to the present invention having such a configuration, various synthetic resin raw materials (PE, PP, PVC, etc.) supplied to the extruder 50 are supplied in a molten state and supplied to the tubular moldings 30 and 30a of the mold apparatus 51 to protrude. The protrusions 11 and 11a are molded in the molding part 31 and the grooves 12 and 12a are molded in the groove molding part 32.

The raw material supplied to the protrusion forming part 31 and the groove forming part 32 has a predetermined thickness along the inner shape by air supplied to the inside of the tube forming molds 30 and 30a or suction force sucked from the outside. It is molded into.

The protrusions 11 and 11a and the grooves 12 and 12a are continuously formed through the rotation of the tube forming molds 30 and 30a of the mold apparatus 51, and between the tube forming molds 30 and 30a. The raw material supplied to the connector molding mold 40 installed therein forms the connector 20 along the shape of the connector molding portion 41.

In this way, the tube forming molds 30 and 30a of the mold apparatus 51 and the connector forming mold 40 rotate the predetermined trajectories to form the double wall tubes 10 and 10a, and are formed along the protrusions 11 and 11a. In the end portion, the connector 20 is continuously formed, thereby providing a state of being integrally connected.

After the double wall pipes 10 and 10a are continuously formed, the shape formed in the cooling device 52 is cooled and maintained as it is, and the double wall pipes 10 and 10a supplied to the cutting device 53 are connected to the connector 20. Opening portion 21 is cut at the end portion of the double wall pipe (10, 10a) is provided to provide a form in which the connector 20 is connected to the double wall pipe 10 in one direction.

The double wall pipes 10 and 10a continuously formed in this way are the parts in which the packings 26 are coupled by coupling the packings 26 to the grooves 12 and 12a at the ends of the double wall pipes 10a when embedded in the ground. To the connection space 22 of the connector 20.

The end portion of the double wall tube 10a having the packing 26 coupled to the connection space 22 is fitted, and the packing 26 is connected to the connector 20 at the groove 12a of the double wall tube 10a. The connection space 22 is to be connected to prevent the leakage phenomenon.

The opening portion 21 of the connector 20 is to allow the double wall tube 10a to be conveniently inserted at the tip, and the connector 20 is integrally formed and connected at the ends of the double wall tube 10 and 10a. Since it provides a state that the connection work of the double wall pipe (10, 10a) is made conveniently, it will be able to connect quickly.

The packing 26 of the connector 20 may be concentrated due to the packing 26, so that the pre-fabricated tape form may be connected to the connection coating 23 between the reinforcing protrusions 25. If the winding is to prevent deformation by the pressure by the packing 26, it is to reinforce the pressure concentrated portion of the connector 20 so that damage or damage does not occur.

In addition, the connector 20 does not reinforce the strength only in the portion in which the packing 26 is installed, and if the winding or coating the form of the tape with the connection coating 23 on the entire surface of the connector 20, the connector 20 further Since it can reinforce, it can prevent the concentration of load and pressure that can occur in the connection part and the deformation by the hydraulic pressure, so that the strength can be further improved in the connection part.

According to the present invention, the connector forming mold 40 is installed between the tube forming molds 30 and 30a so that the connector 20 can be integrally formed together with the molding of the double wall tubes 10 and 10a. 10, 10a) by molding, or to connect to the end of the double wall pipe (10, 10a) by making a separate connector does not need to do separately.

Meanwhile, in the present invention, the double wall pipes 10 and 10a are molded and then supplied in a separate process to coat the fiber 100 in which the resins are impregnated in the protrusions 11 and 11a and the grooves 12 and 12a. , 11a) is coated to the outside so that the space is not formed, the multi-pipe 120 is formed by coating the synthetic resin 110 once more to the outer diameter of the fiber (100).

The multi-pipe 120 is to improve the strength by the coating of the fiber 100 and the synthetic resin 110, in the case of the fiber 100, the protrusions (11, 11a) and the grooves (12, 12a) is PVC In the case of a good adhesion, even if the coating does not occur membrane separation phenomenon, when the synthetic resin 110 is coated with PVC by the outer diameter of the fiber 100 is to be bonded so that the membrane separation phenomenon does not occur, thereby improving the strength by coating The effect will be great.

Since the fiber 100 and the synthetic resin 110 may be coated on the outer diameter of the connector 20 without coating only the outer diameters of the protrusions 11 and 11a and the grooves 12 and 12a, the entire double wall tubes 10 and 10a may be coated. It is possible to coat on cotton.

And because the fiber 100 can be greatly improved in strength compared to the material of the synthetic resin 110 and the double wall tube 10, it is possible to use for various purposes, and apply various materials such as PP, PE, FRP, etc. in addition to PVC It is possible to.

The present invention can be supplied by integrally forming the connector to the end of the double wall tube forming the inner diameter tube with the inner diameter of the protrusion and the groove portion, the connector by coating the outer surface portion of the connector or the whole surface of the connector is inserted into the packing Reinforcement is to enable a stable connection.

10, 10a: double wall pipe 11, 11a: protrusion
12, 12a: groove 13, 13a: inner diameter tube
20: connector 21: opening part
22: connection space 23, 24: connection coating
25: reinforcing protrusions 26: packing
30, 30a: tube molding mold 31: protrusion molding
32: groove forming part 40: connector molding mold
41: connector forming part 42: reinforcement protrusion forming part
50: extruder 51: mold apparatus
52: cooling device 53: cutting device
54 discharge device 100 fiber
110: synthetic resin 120: multi-pipe

Claims (4)

delete delete The protrusions 11 and 11a and the grooves 12 and 12a are continuously formed, and the double wall pipes for forming the inner diameter pipes 13 and 13a to the inner diameters of the protrusions 11 and 11a and the grooves 12 and 12a. In the double wall tube 10 is formed integrally connected at the end of the protrusion 11 and the connector 20 is formed in the inner diameter of the connecting space 22 and the opening 21 is formed at the tip,
By coating the fiber bars 100 with the outer diameters of the protrusions 11 and 11a and the grooves 12 and 12a so as not to form a space, the synthetic resin 110 made of PVC is coated on the outer diameter of the fiber bars 100. A multi-tube 120 formed into a middle structure;
The connection coating between the reinforcing protrusions 25 in the form of tape to the outer diameter of the connector 20 in which the packing 26 installed in the groove portion 12a of the double wall tube 10a inserted into the connection space 22 ( A connector integrated DC double wall pipe, characterized in that 23) is installed. delete

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