KR100743217B1 - Pipe of intensity improvement type - Google Patents

Abstract

A synthetic resin pipe with improved intensity is provided to reinforce an inner diameter by forming an inner surface reinforcing protrusion unit and an inner surface reinforcing space as a single body. A synthetic resin pipe10 with improved intensity supplies a double profile(20) having a space and connects the double profile by a connecting member. The double profile is composed of an outer profile(21) and an inner profile(23). The outer profile has a contact surface(22) at one part, and an inner space(21a), and is located at an outer circumference. The inner profile is located at an inner circumference of the outer profile, and has a contact surface(24) contacted to the contact surface of the outer profile, and an inner surface(23a). The double profile has an inner surface reinforcing protruding unit protruded at one part of the inner profile, and an inner surface reinforcing space.

Description

Pipe of intensity improvement type

1 is a perspective view of a synthetic resin tube using a conventional double wall profile

2 is a cross-sectional view of a conventional multilayer wall profile.

3 is a plan view of a molding apparatus for molding a synthetic resin tube of the present invention;

Figure 4 is a synthetic resin tube forming flow chart using a double profile showing a preferred embodiment of the present invention

5 is a synthetic resin tube forming flow chart using a multilayer profile showing another embodiment of the present invention

6 is a front view of an extrusion mold for forming a double profile of the present invention.

7 is a front view of an extrusion mold for molding the multilayer profile of the present invention.

8 is a cross-sectional view of the inner surface reinforced synthetic resin tube of the present invention

Figure 9 is a cross-sectional view of another embodiment of the inner surface reinforced plastic pipe of the present invention

[Description of Symbols for Main Parts of Drawing]

1: Extrusion apparatus 2: Cooling apparatus

3: winding device 4: auxiliary extruder

5: cutting device 10, 10a, 12: synthetic resin pipe

11, 11a: Internal reinforced plastic pipe 13: Double wall profile

13a, 14a, 21a, 23a, 31a, 34a: space

14: multilayer wall profile 20: double profile

21, 31: external profile 22, 24, 33, 36: contact surface

23, 34: internal profile 25: joint member

30: multilayer profile 40, 50: extrusion mold

41, 51: protrusions 42, 52: upper extrusion port

43, 53: lower extrusion port 44, 45, 54, 55: cooling hole

60, 70: internal reinforcement profile 61, 71: internal reinforcement protrusion

62, 72: internal reinforcement space

The present invention relates to a strength-enhancing synthetic resin tube, and more particularly, to separate the outer profile and the inner profile in one extrusion mold, and extruding and molding the synthetic resin tube through a joint member while winding in a laminated state to improve strength. It relates to a strength-improving synthetic resin tube molded to withstand external pressure sufficiently.

Conventional synthetic resin tube 12 is a secondary extruder while extruded double wall profile (13) having a space (13a) in the extrusion device (1), cooled in the cooling device (2) and then spirally supplied to the winding device (3) In (4), the joint member 25 is supplied and molded to cut to about 6 meters in the cutting device (5).

In addition, since the double wall profile 3 is not resistant to external force, in order to reinforce it, in recent years, the space 14a is formed by supplying a multilayer wall profile 14 which is formed by a plurality of cross braces 14b inside. It was suggested to do.

However, in order to accurately form the cross reinforcement and the space, the extrusion speed is very slow, which causes a lot of work time, which causes a decrease in productivity, and the strength is not improved with respect to the production time and cost. Was.

And the inside of the synthetic resin pipe 12 to the water containing foreign matters such as sewage or sewage to be moved to the desired place unspecifically.

However, since water containing foreign substances is concentrated through the center of the inner diameter of the synthetic resin tube, the inner diameter of the synthetic resin tube generates continuous repeated frictional force with the foreign substance, which eventually wears out a part of the center of the inner diameter and forms a hole. Occurs.

As a result, when a part of the center of the inner diameter is worn out and a hole is formed, water leaks into the hole, which may cause contamination of the surrounding environment, or a weakened load may eventually cause damage or fall down due to external pressure. do.

The present invention has been made in order to solve the above-mentioned drawbacks, and an object of the present invention is to provide a synthetic resin tube which is divided into an upper extrusion hole and a lower extrusion hole by being extruded into two profiles and then wound to improve strength.

An object of the present invention is to form an inner diameter reinforced synthetic resin tube by integrally molding the inner reinforcing protrusion and the inner reinforcing space under the inner profile when extruded into two profiles in one extrusion mold.

According to the accompanying drawings, preferred embodiments of the present invention made for this purpose will be described in detail.

As shown in FIG. 4 through the extrusion mold 40 in the process of supplying the raw material by melting the raw material, by extruding the double profile 20 to form a synthetic resin tube 10,

As shown in Fig. 5, the multilayered profile 30 is extruded to form a synthetic resin tube 10a.

The synthetic resin tube 10 has the same size in the transverse direction and has a size half as high as that of the conventional double wall profile 13, and the space 21a is formed inside and formed in a quadrangular shape, but the contact surface 22 is formed at the lower side. Extrude the outer profile 21 to have at the same time as compared to the double-wall profile 13, the horizontal direction has the same size and the height is formed inside the space (23a) to have a half size, but the contact surface 24 upwards Extrude the inner profile 23 to have the outer profile 21 and the inner profile 23 is combined into one double profile (20).

The double profile 20 is to form the synthetic resin tube 10 through the joint member 25 which is supplied spirally to the winding device 3 and then supplied to the winding device 3 after cooling in the cooling device 2. .

And the synthetic resin pipe (10a) is a horizontal direction is the same size and has a height of half the size compared to the conventional multilayer wall profile 14, the space 31a and the reinforcing rod 32 is formed therein and formed in a square, the lower side The space 34a and the reinforcement 35 are internally formed to extrude the outer profile 31 having the contact surface 33 to have the same size and to have the same size in the transverse direction and half the height thereof compared to the multilayer wall profile 14. The inner profile 34 is formed and formed into a quadrangle, and the outer profile 31 and the inner profile 34 are combined into one multilayer profile 30 by extruding the inner profile 34 having the contact surface 36 upward.

The multilayer profile 30 is to cool the cooling device 2 and then to form the synthetic resin pipe 10a through a joint member 25 supplied spirally to the winding device 3 and supplied from the auxiliary extruder 4. .

The double profile 20 is formed by stacking the outer profile 21 and the inner profile 23 so that the contact surfaces 22 and 24 abut when spirally feeding the winding device 3 to form an integral double profile 20. will be.

When the multilayer profile 30 is spirally supplied to the winding device 3, the outer profile 31 and the inner profile 34 are laminated to form contact with the contact surfaces 33 and 36 to form an integral multilayer profile 30. will be.

As shown in FIG. 6, the double profile 20 has an upper extrusion hole 42 and an inner profile (15) for forming the outer profile 21 in the protrusion 41 protruding forward of the extrusion mold 40. The lower extrusion port 43 forming the 23 is molded to be separated to simultaneously mold the outer profile 21 and the inner profile 23 at a time.

Cooling holes 44 and 45 are formed at the centers of the upper extrusion holes 42 and the lower extrusion holes 43 to supply cooling air or cooling water from the outside to perform cooling.

As shown in FIG. 7, the multilayer profile 30 includes an upper extrusion hole 52 and an inner profile (15) for forming an outer profile (31) inside the protrusion (51) protruding forward of the extrusion mold (50). The lower extrusion port 53 forming the 34 is formed to be separated to simultaneously form the outer profile 31 and the inner profile 34 at one time.

Cooling holes 54 and 55 are formed in the centers of the upper extrusion holes 52 and the lower extrusion holes 53 to supply cooling air or cooling water from the outside to perform cooling.

Synthetic resin pipe 10 made in this way is a double profile 20 is divided into an outer profile 21 and the inner profile 23 is extruded and laminated and molded integrally through the joint member 25 in a laminated state, synthetic resin At the outer diameter of the tube 10, the outer profile 21 is wound at the inner diameter, so that the strength against the external force is further improved.

In addition, the synthetic resin pipe (10a) is a multi-layered profile 30 is divided into the outer profile 31 and the inner profile 34 is molded and integrally molded through the joint member 25 in the laminated state after extrusion, the synthetic resin tube At the outer diameter of 10a, the outer profile 31 is wound at the inner diameter, and the inner profile 34 is wound at the inner diameter, and in the center, the reinforcing bars 32 and 36 are maintained, respectively, so that the strength against the external force is further improved.

Since the reinforcing rods 32 and 34 of the multilayer profile 30 are extruded to have two spaces 31a and 34a on each side, the reinforcing rods 32 may be extruded at a high speed as compared to the conventional four spaces 14a. , 34) can be built up accurately without falling down, thereby improving the productivity, thereby increasing the strength against external forces.

On the other hand, the present invention is molded, as shown in Figure 8 to form a double profile 20, in forming a profile located therein protrudes the inner reinforcement protrusion 61 in one direction, this inner surface reinforcement The part where the protrusions 61 are continuously connected is formed of a double profile 60 having an inner surface reinforcing space 62 so as to form an integral inner surface reinforced synthetic resin pipe 11 with a joint member 25. .

The reinforcement synthetic resin pipe 11 is to prevent the abrasion that can occur in one part concentrated by the foreign material of the flowing water is reinforced by the inner surface of the double profile 60, it is possible to further improve the strength.

In addition, the present invention is molded, as shown in Figure 9, to form a multilayer profile 30, but in forming the profile located therein protrudes the inner reinforcement protrusions 71 in one direction, this inner surface reinforcement In the portion where the protrusions 71 are continuously connected to each other, it is made of a multi-layered profile 70 having an inner surface reinforcing space 72 so as to form an integral inner surface reinforced synthetic resin pipe 11a by the joint member 25.

The reinforcement synthetic resin pipe (11a) is to prevent the abrasion that can occur in one part concentrated by the foreign material of the water flowing through the reinforced inner surface of the multilayer profile 70, it is possible to improve the strength even more.

The present invention is to provide a synthetic resin pipe which is divided into an upper extrusion hole and a lower extrusion hole to be extruded into two profiles and then wound to contact each other to improve strength.

The present invention is to form an inner diameter reinforced synthetic resin tube by integrally molding the inner reinforcement protrusions and the inner surface reinforcement space in the lower side of the inner profile when extruded into two profiles in one extrusion mold.

According to the present invention, the double profile or the multilayer profile are divided and compared with the conventional profile, so that the molding speed can be improved, so that the productivity can be improved. It can be improved.

The present invention is to reinforce the inner surface of the double or multi-layered profile to prevent intensive wear phenomenon caused by foreign matter to be used for a long time.

Claims (4)

(delete) (delete) A contact surface 22 is formed in one portion and has a space 21a therein, and has a contact surface 24 that meets the contact surface 22 and is located in the inner diameter of the outer profile 21 located at the outer diameter. In the synthetic resin pipe 10 is connected to the joint member 25 by spirally supplying a double profile 20 consisting of an inner profile 23 having a, The double profile 20 is formed by forming an inner reinforcement protrusion 61 protruding in a portion of the inner profile 23 and an inner reinforcement space 62 in which the inner reinforcement protrusion 61 is continuously located. Strength-type synthetic resin pipe The contact surface 33 is formed in one portion, and has a space 31a therein and a reinforcement 32 in the center and is located at the inner diameter of the outer profile 31 positioned at the outer diameter, and has a contact surface 33 and space 34a therein. In the synthetic resin pipe (10a) is connected to the joint member 25 by spirally supplying a multi-layered profile 30 consisting of the inner profile 34 having a reinforcing rod 35 in the center and The multilayer profile 30 is formed by forming an inner reinforcing protrusion 71 protruding in a portion of the inner profile 34 and an inner reinforcing space 72 in which the inner reinforcing protrusion 71 is continuously located. Strength-type synthetic resin pipe

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