KR100956388B1 - Dc pipe and the molding device - Google Patents

Abstract

PURPOSE: A DC pipe and using a reinforcement wall molding structure and a molding apparatus thereof are provided to remarkably enhance internal pressure and external pressure of the DC pipe by accurately standing the DC pipe on space in which a reinforcing support is projected. CONSTITUTION: An apparatus for molding a DC pipe using a reinforcement wall molding structure extrudes an inner wall member between an internal rib dice and a central rib dice(50). The apparatus repeatedly forms a projection hole and a groove by extruding an outer wall member on the external diameter of the inner wall member. A reinforcing support is stood in a projection space of the outer wall member. The reinforcing support is frozen using the air which is supplied from an air nozzle(52). The reinforcing support is integrally connected to the outer wall member in the projection space.

Description

DC pipe and its molding device using reinforcing wall molding structure

The present invention relates to a DC pipe using a reinforcing wall forming structure and a molding apparatus thereof, and more particularly, to form a resin supply groove for forming a reinforcing wall in a central lip die so that the reinforcing bar can be accurately formed in the protrusion space of the DC pipe. The present invention relates to a DC pipe using a reinforcing wall forming structure and a forming apparatus thereof.

In general, the sewer pipe, the collection pipe, and the drain pipe forming a flow path for moving the sewage are formed of a synthetic resin material such as polyethylene (PE), polyvinyl chloride (PVC), and the like to protrude into the outer diameter of the inner wall member 61. And the groove space 65 is continuously formed through the jacket mold 80, and mainly uses a DC pipe made of a double wall tube in which the inner wall member and the outer wall member are integrally bonded.

The DC pipe extends axially through pipe connecting members such as sockets, joint pipes, connecting pipes, and the like, and uses packing between the DC pipe and the connecting material to ensure the watertightness of the pipe connection.

In the process of producing conventional DC pipes, a predetermined step occurs in the joint area where the jacket molds are combined, thereby causing a phenomenon in which the exterior is not smooth, and the gap between the grooves of the jacket molds is not defined in the KS standard. There is a slight difference in the spacing and shape of the protrusions and grooves each time.

And the protrusions and the grooves are formed in a circular shape on the side, but is molded by the jacket mold to have a predetermined thickness, but when forming too thick, the consumption of the raw material is too much, so efforts to improve the strength while forming as thin as possible do.

However, since it is very difficult to improve the strength while forming a thin thickness, when a higher strength is required, a smooth outer diameter reinforcing part, such as an inner diameter reinforcing part, is formed by extrusion into the outer diameter of the protrusion to form a three-layer pipe as a whole.

However, when the three-layer pipe is formed, the strength of the raw material is greatly improved compared to the double pipe, so that the strength naturally occurs, but the strength is not directly proportional to the consumption of the raw material.

In this way, various ways have been found to improve the strength of the DC pipe, but the reality is that it does not meet expectations.

In addition, in order to connect the DC pipes formed in this way by connecting the end portions by using a conventional expansion device, it is possible to join in a one-touch manner, or a method of connecting by providing an independently formed connector has been proposed. .

However, such a conventional connector is unsatisfactory due to a change in the physical properties of the raw material, which can not be used during expansion, or it takes too much time to expand the tube, which is an uneconomical defect, and the installation cost of the expansion apparatus is too expensive. It was very difficult to apply.

In the case of a connector that is used independently, injection molding is performed separately using a separate mold device, and a DC pipe must be inserted at both sides of the connector.

Meanwhile, in order to reinforce the DC pipe, protrusions are formed inside the groove space, or protrusions are formed by inclined portions or protruding outer diameters of the side to further increase the strength. There was a limit to this, and the mold structure was variously applied to provide a variety of protrusions in the protrusion space formed to the outside of the inner wall member, but there was a lot of difficulty in improving the strength by not easily erect the inner projecting shape.

The present invention has been made to solve the above-mentioned drawbacks, and an object of the present invention is to provide a DC pipe which improves the strength by allowing the reinforcing bar to protrude at the same interval at the outer diameter of the inner wall member so that it can be accurately stood in the protruding space.

The present invention is formed by the resin supply groove for forming the reinforcement wall in the central lip die installed with the outer diameter of the inner lip die length of the synthetic resin supplied in the state that is exactly erected in the resin supply groove for forming the reinforcement wall can be erected correctly The purpose is to make it work.

The present invention installs a plurality of air nozzles at equal intervals on the central lip die to control the air and the angle of supply of air sufficient to the space formed between the reinforcement in accordance with the size of the DC pipe so that the erected stand is formed accurately without falling down For the purpose.

In the present invention, an inner wall member is extruded between an inner lip die and a central lip die, and the outer wall member is extruded to the outer diameter of the inner wall member to repeatedly form and form a protrusion space and a groove space.

A plurality of reinforcing bars integrally molded with the inner wall member in the resin supply groove for forming the reinforcing wall formed at the same interval on the central lip die;

The reinforcing bar is erected in the protruding space of the outer wall member and is cooled by air supplied from the air nozzle so that the reinforcing bar is integrally connected to the outer wall member in the protruding space.

According to the present invention, an outer wall forming line is formed between an outer long die and a center long die, an inner wall forming line is formed between the central long die and an inner long die, and an outer lip die connected to the outer long die and the center is formed. In the DC pipe forming apparatus for forming and forming a DC pipe molding mold and a jacket mold in front of the central lip die connected to the long die and the inner lip die connected to the inner long die,

Reinforcing wall molding resin supply holes formed at equal intervals in the center lip dies are formed to be long so that a reinforcing rod is formed together with the inner wall member, and the tip of the air supply hole formed between the resin supply holes for reinforcing wall molding in the central lip dies. It is characterized in that to install the air nozzle in the cooling air supply by supplying the air between the reinforcement stand erected.

The present invention is to ensure that the reinforcing rod protrudes at the same interval in the outer diameter of the inner wall member to be accurately fixed in the protruding space to be integrally fixed to significantly improve the internal pressure and external pressure strength of the PC pipe to be applied to the sewer pipe and water pipe stably. .

The present invention is made by supplying the synthetic resin supplied by forming a resin supply groove for forming the reinforcement wall long in the central lip die installed to the outer diameter of the inner lip die while the supply of the resin in the reinforcing wall forming groove for a long time exactly And sufficient cooling so that the reinforcement can be erected correctly inside the protruding space.

According to the present invention, since the size of the space formed between the reinforcing rods is different according to the size of the DC pipe by installing a plurality of air nozzles at equal intervals in the center lip dies, the reinforcing rods erected with different air supply angles according to the size of the spaces. Does not fall down and is cooled sufficiently to ensure accurate molding.

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

Figure 1 is a cross-sectional view showing a preferred installation state of the present invention, Figure 2 is a cross-sectional view of the installation state of the main part of the present invention, Figure 3 shows a perspective view of the separated state of the die of the present invention.

In general, polyethylene (PE), polypropylene (PP), PVC, etc., any one of the synthetic resin material is supplied to the extrusion apparatus to be melted to be supplied to the resin supply die 10 formed the resin supply passage (11).

The resin supply die 10 has a central ring 12 is installed to allow the air or water and refrigerant to be supplied from the outside through the cooling pipe 23 in the inner diameter, the inner long die 20 is the center ring ( 12).

On the outside of the inner long die 20, a central long die 22 forming an inner wall forming line 21a is installed and fixed to the central ring 12 by the first connection ring 13.

Outside the center long die 22, the outer long die 21 forming the outer wall forming line 20a is fixed to the center long die 22 through the second connection ring 22a.

A plurality of air supply holes 24 are formed in the central long die 22, and air can be supplied from the air distributor 25 at the front end thereof.

An inner lip die 30 is connected to an end of the inner long die 20 so as to extrude the inner wall member 61, and a center lip die 50 is installed outside the inner lip die 30. By forming a plurality of reinforcing wall molding resin supply grooves 53 so that the plurality of reinforcing rods 62 are erected at the same interval to the outer diameter of the inner wall member 61 so that the reinforcing rods 62 are fully raised and moved. .

An air nozzle 52 is formed between the resin supply grooves 53 for forming the reinforcing wall of the central lip die 50 so that air is supplied to the space between the reinforcing bars 62 and cooled.

An outer lip die 40 is installed outside the central lip die 50 so that the outer wall member 63 is extruded through the outer wall forming line 20a.

The inner lip die 30, the outer lip die 40, and the central lip die 50 may be flanged with the inner long die 20, the center long die 22, and the outer long die 21 to fix the bolts. 31).

A DC pipe molding mold 70 is connected to the front of the inner lip die 30 so that the cooling pipe 23 and another cooling tube 71 are connected, and the DC pipe molding mold 70 is connected to the outer diameter of the DC pipe molding mold 70. The jacket mold 80 for forming the pipe 60 is installed to continuously rotate.

4 is a cross-sectional view of the center lip die of the present invention, FIG. 5 is a left side view of the center lip die of the present invention, and FIG. 6 is a right side view of the center lip die of the present invention.

The central lip die 50 may be connected to the central long die 22 by a screw type, and a plurality of air supply holes 51 may be formed in a straight line at an equal interval, and may be inclined at any one portion thereof so as to be inclined at one end thereof. 52).

The reinforcing rod molding resin supply hole 53 is formed long between the air nozzles 52 formed at the same interval so that the reinforcing rod 62 is formed in a straight line in the inner wall member 61.

Figure 7a shows an enlarged view of the inner wall member and the reinforcing bar of the present invention, Figure 7b is an enlarged view of the outer wall member of the present invention, Figure 7c is an enlarged view of a state in which the outer wall member is connected to the outer diameter of the reinforcing bar of the present invention, Figure 8A is a longitudinal cross-sectional view of the DC pipe of the present invention, and FIG. 8B is a side cross-sectional view of the DC pipe of the present invention.

The reinforcing bar 62 is integrally formed in the resin supply hole 53 for reinforcing wall molding while forming the cylindrical inner wall member 61, and is supplied from the outer wall forming line 20a to the outer diameter of the reinforcing bar 62. The outer wall member 63 is supplied through the synthetic resin material.

The outer wall member 63 is extruded into a cylindrical shape, the protruding space 64 and the groove space 65 is integrally molded by the jacket mold 80 and the pipe pipe molding die 70, the groove space 65 Silver is integrally joined to the outer diameter of the inner wall member 61, the reinforcing rod 62 is formed in the center along the shape of the protruding space 64 to form a DC pipe 60 to improve the strength.

According to the present invention having such a configuration, any synthetic resin material is supplied to an extrusion apparatus from polyethylene (PE), polypropylene (PP), PVC, and the like to be melted and supplied to the resin supply passage 11 of the resin supply die 10. .

The molten resin is supplied from the resin supply passage 11 to the outer wall forming line 20a and the inner wall forming line 21a formed in the inner long die 20 and the outer long die 22.

The central lip die 50 formed on the outside of the inner lip die 30 while the inner wall member 61 is formed in a circular shape through the inner lip die 30 and the central lip die 50 connected to the inner wall forming line 21a. The resin is supplied to the resin supply groove 53 for forming the reinforcing wall, and the reinforcing rod 62 is molded as one body.

When the inner wall member 61 is molded through the inner lip die 30 and the central lip die 50 and a plurality of reinforcing bars 62 are erected and supplied through the resin supply groove 53 for forming the reinforcing wall at the same interval. Since the resin supply groove 53 for forming the reinforcing wall is formed long and is supplied while the reinforcing rod 62 is sufficiently molded, the reinforcing wall molding does not fall to either side when leaving the central lip die 50 so that it is stably and firmly supplied. Will be.

In the inner wall member 61, the reinforcing rod 62 is integrally extruded and supplied as shown in FIG. 7A, and the synthetic resin material supplied through the outer wall forming line 20a is an outer wall member at the inner diameter of the outer lip die 40. 63 is supplied by extruding in a circle.

When the outer wall member 63 is extruded and supplied in a circular shape to the outside of the reinforcing rod 62, the air supplied from the air supply hole 51 formed in the central lip die 50 is injected from the air nozzle 52 to reinforce the reinforcing rod ( Cooling between the 62) serves to prevent the reinforcement 62 falls.

The outer wall member 63 forms the DC pipe 60 by forming the unevenness continuously such as the protruding space 64 and the groove space 65 by the jacket mold 80.

When forming the protruding space 64 and the groove space 65, the reinforcing bar 62 is erected upright in the protruding space 64, so that the protruding space 64 forms a predetermined interval and space, and at the same time air The air supplied from the nozzle 52 is to supply air evenly to the entire surface in the protruding space 64 so that the reinforcing rod 62 can be accurately stood without falling down.

The air nozzle 52 is to control the injection angle of the air, when producing a pipe (60) having a diameter of about 300mm, the interval between the reinforcing rod 62 is narrow, the conventional method in the air nozzle (52) If air is supplied, sufficient cooling is achieved.

However, in the case of producing the DC pipe 60 having a diameter of about 600 mm, the spacing of the reinforcing rod 62 is very wide so that air is supplied normally in the air nozzle 52 so that cooling is normally performed at the spacing of the reinforcing rod 62. Since the reinforcing rod 62 may fall, the lip of the air nozzle 52 is rotated to widen the distance between the air injection holes, thereby increasing the air injection angle so that the air can be injected at various angles to protrude a large area. This is to allow sufficient cooling of the space 64.

The inner wall member 61 is cooled by air or cooling water or a coolant supplied from the cooling pipe 23 while moving the outer diameter of the DC pipe molding mold 70.

The reinforcing rod 62 is formed at the same intervals on the inner wall member 61 is precisely erected at the same interval in the protruding space 64 of the outer wall member 63 is integrally connected to form the DC pipe 60, so internal pressure and external force With respect to the strength is greatly improved.

The present invention is to form a resin supply groove for forming the reinforcing wall long at the same interval in the center lip die to ensure that the reinforcing rod is built up enough to be precisely erected in the protruding space of the DC pipe to significantly improve the strength.

1 is a cross-sectional view showing a preferred installation state diagram of the present invention

Figure 2 is a cross-sectional view of the installation state of the main part of the present invention

Figure 3 is an exploded perspective view of the dice of the present invention

4 is a cross-sectional view of the central lip die of the present invention.

5 is a left side view of the central lip die of the present invention.

6 is a right side view of the central lip die of the present invention.

Figure 7a is an enlarged view of the inner wall member and reinforcing rod of the present invention

Figure 7b is an enlarged view of the outer wall member of the present invention

Figure 7c is an enlarged view of the outer wall member is connected to the outer diameter of the reinforcing rod of the present invention

8A is a longitudinal cross-sectional view of the DC pipe of the present invention.

8B is a side cross-sectional view of the DC pipe of the present invention.

[Description of Symbols for Main Parts of Drawing]

10: resin supply dies 11: resin supply passage

12: center ring 20: internal long die

20a: outer wall forming line 21: outer long die

21a: inner wall forming line 22: center long die

30: inner lip dice 40: outer lip dice

50: center lip die 51: air supply hole

52: air nozzle 53: resin supply arc for reinforcing wall molding

60: DC pipe 61: inner wall member

62: reinforcing rod 63: outer wall member

64: protrusion space 65: groove space

70: DC pipe molding mold 80: jacket mold

Claims (3)

delete An outer wall forming line 20a is formed between the outer long die 21 and the central long die 22, and an inner wall forming line 21a is formed between the central long die 22 and the inner long die 20. Of the outer lip die 40 to which the outer long die 21 is connected, the central lip die 50 to which the central long die 22 is connected, and the inner lip die 30 to which the inner long die 20 is connected. In the pipe forming apparatus for the DC pipe formed by installing the DC pipe molding mold 70 and the jacket mold 80 in the front, The reinforcing wall molding resin supply hole 53 formed in the center lip die 50 at equal intervals is long to be molded so that the reinforcing rod 62 is formed together with the inner wall member 61, and in the center lip die 50. Air nozzles 52 are provided at the ends of the air supply holes 51 formed between the resin supply holes 53 for forming the reinforcing wall to supply air between the reinforcing bars 62 erected in the protruding space 64. DC pipe forming apparatus using a reinforcing wall forming structure, characterized in that to cool by. 3. The method of claim 2, The center lip die 50 is formed to be inclined at a straight air supply hole 51, and the DC using the reinforcement wall forming structure, characterized in that the air nozzle 52 for adjusting the air supply angle to the lip at the end portion is installed. Pipe forming equipment.

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