KR100499018B1 - Structural reinforcement spiral pipe for sewage pipe in civil engineering and road construction - Google Patents

Abstract

The present invention relates to a reinforcement spiral pipe for PE structure widely used for sewage pipes and drainage pipes and a method for manufacturing the same. A PE spiral pipe in which a hollow sphere 3 formed in a reinforcement part 2 is integrated into a spiral winding is conventionally used. A reinforcement device was formed in the spiral recess 12 for external pressure reinforcement. There was a type of reinforcement but it was not supported by external pressure reinforcement. In order to provide a more effective device and economical efficiency than the mold structure, the applicant's selection application has been filed (Invention Registration Application Nos. 96-4955, 98-40670 and 98- (98. 11. 5 applications), but the present invention is more The corrugated reinforcing bar 15 and the corrugated welding table 15 'in the outer wall 6 of the hollow sphere 3 are provided on the inner wall 4 in order to provide a simplified invention with high strength, robustness and manufacturing method more clearly. The corrugated structure is integrated into the spiral winding with the main wall 6 'which is integrated and constituted by the inclined support 5'. The manufacturing method is primarily a branched curved pipe 21 and 21 '. The bending pipe 30 is bent in the cooling pipe 20 composed of the separation interval A, so that the reinforcing bar 15 is formed in the hollow sphere 3, and the second tube 43 is secondly formed on the outer wall 6 '. (18) and reinforcing bar (7) (15 ') and the like according to the embodiment according to the manufacturing method configured to be molded.

Description

Structural reinforcement spiral pipe for sewage pipe in civil engineering and road construction

The present invention relates to a structural reinforcement spiral pipe made of a synthetic resin mainly used for sewage pipes, drainage pipes.

In general, the applicant's prior invention filed the supporter 5, 13, etc. in the recess 12 between the hollow part 2 spirally wound for structural reinforcement and robustness of the spiral pipe. 10-96-4955, but not only provides its effective external pressure strength and economical efficiency, but also the invention for reinforcing higher external pressure strength for a product of its prior application.

The present invention is an invention devised for the reinforcement of economy and durability, external pressure strength, etc. than the conventional products of the synthetic resin spiral tube, the structural reinforcement of the spiral wound reinforcement to be more structurally crushed even after long-term use The purpose is to provide a spiral tube with good constructability.

In the spiral tube (1) formed with the outer wall surface 6 and the reinforcing portion (2) having a hollow sphere (3) spirally wound to the outside of the inner surface (4) in order to achieve the object of the present invention, The reinforcing part 2 has both side wall surfaces 2 "formed vertically, and the inner side of the corrugated reinforcing bar 15 and the corrugated welding table 15 'are alternately protruded from the left and right sides to form a zigzag shape. The outer wall 18 'is further reinforced on the upper side of the corrugated reinforcing bar 15 and the corrugated welding table 15', and both side wall surfaces between the reinforcing part 2 and the reinforcing part 2 are structurally reinforced. (2 ") is characterized in that the inclined support (5 ') is formed.

In addition, the present invention is characterized in that the drilling tool 10 is intermittently drilled between the reinforcing part 2 and the reinforcing part 2.

Example 1

As shown in FIG. 4, in the present invention, the reinforcement part 2 including the outer wall surface 6 and the hollow sphere 3 is spirally wound to the outside of the inner surface 4 at a predetermined interval.

At this time, both side wall surfaces 2 "of the reinforcement part 2 are formed vertically, and a slightly inclined waveform reinforcement stand 15 protrudes from one side (left side in the drawing) wall surface at the inside thereof, and the other side at a predetermined interval. The corrugated welding zone 15 'protrudes from the wall surface (right side in the drawing), so as to alternately protrude in a zigzag form.

Further, on the upper side of the corrugated reinforcing bar 15 and the corrugated welding table 15 'formed as described above, it is reinforced with an outer wall 18' to maintain the firmness more reliably.

In addition, in the groove between the reinforcing part 2 and the reinforcing part 2, the inclined support 5 'is formed at a predetermined angle on both side wall surfaces 2 ", thereby serving as a supporting part of both side wall surfaces 2". Make it a heavier helix tube. In addition, the drilling tool 10 is intermittently made between the spiral tube reinforcement part 2 and the reinforcement part 2 of this invention formed as mentioned above.

9 and 10, the outer wall surface 6 is bent in the hollow sphere 3 of the reinforcing portion 2, and the corrugated reinforcing rod 15 is formed in the spiral winding direction at the central portion of the hollow sphere 3. And the corrugated fusion zone 15 ', the recess 12' is formed therebetween. The outer wall 18 is integrally formed between the fraud outer wall surface 6 and the spiral groove 12, and is supported by the inclined support 5 'between the two side wall surfaces 2 "and the inner surface 4 for reinforcement. do.

In addition, as shown in FIG. 12, the outer wall 18 is formed on the outer side of the spiral recess 12, but the V-shaped reinforcement 7 is integrated with the fusion base 11 to maintain the height of the hollow portion 2. Make it solid.

And, as shown in Fig. 13, the support ribs 8 and 8 'may be supported between the V-shaped reinforcement 7 and both wall surfaces 2 ", and the wave reinforcement 15 and the corrugated welding table ( Punching tool 10 is formed in the recessed portion 12 'which integrates the outer wall 18, and as shown in FIG. The reinforcing support wall 17 is molded between 2 ").

Example 2

As shown in FIGS. 15 and 16, the outer wall surface 6 of the reinforcement part 2 is bent to be fused to the inner surface 4 with the V-shaped reinforcement 7, 7 ′ by the fusion base 11. In the space between the outer wall surface 6, the reinforcement hole 20 is formed in a cross-sectional structure in a predetermined section (t), and the inclined reinforcing bar 5 'is formed on both side wall surfaces 2 "to form a spiral tube. This external pressure prevents the deformation in the → direction.

In addition, as shown in FIG. 17 to provide an invention in which flexibility is required in the present invention, an outer wall (2 ") is provided on both side wall surfaces 2 " of the reinforcing portion 2 in which the V-shaped reinforcing rods 7 and 7 'are formed. The flexible wall 12 "and the inner groove 12 'which are integrally connected to 18 are connected to the inner wall surface 4, and are comprised.

As shown in FIG. 18, the V-shaped reinforcing rods 7 and 7 ′ are configured from the outer side surface 6 to the inner side surface 4 to form an inner side between the two side wall surfaces 2 ″ of the reinforcing portion 2. Flexibility is provided even when the grooves 12 'are formed.

Example 3

In order to provide the structural reinforcing spiral tube of the present invention described above, the outer wall surface 3 of the reinforcing portion 2 is bent as shown in FIGS. 19 and 20 to corrugate the corrugated reinforcing rod 15 in the hollow sphere 3. It is an invention in which the fusion zone 15 'is integrated, but the outer wall 18 is integrated into the spiral reinforcement groove 12 in the section of the arc reinforcing rod 13 by the fusion point 9'.

Then, as shown in FIGS. 21 and 25, the reinforcing portion 2 integrated with the arc reinforcing rod 13 as the fusion point 9 is circumscribed with the outer wall 18, but the inner wall surface 4 of the spiral groove 12 is provided. The drilling tool 10 can be formed in this to reinforce the reinforcement part 2 by the double wall surface, and can also be used as a perforated pipe. In addition, as shown in FIG. 24, support ribs 8 and 8 ′ are formed on both side walls 2 ″ of the reinforcing portion 2 to form the V-shaped reinforcing members 7 and 7 ′ for the fusion splicing 11. The structural reinforcement spiral tube is provided even if it is integrated, and as shown in FIG. 26, the outer wall surface 18 'of the reinforcement part 2 integrates the outer wall 18 of circular arc shape and linear shape.

 At this time, in order to reinforce the flexibility of the present invention, as shown in FIG. 22, the flexible stand 12 'and the recessed portion 12 "connecting the outer wall 18 integrated with the reinforcement part 2 are provided. Make up.

Example 4

As shown in FIG. 27 for structural reinforcement in the product of the present invention, the hollow sphere 3 of the reinforcement part 2 is formed as an arc reinforcing rod 13 and a fusion point 9 ', but the outer wall 18 The product of the present invention is provided even when integrally integrated with the support wall 17 between the reinforcing portions 2, and as shown in FIG. 28, a circular arc in the spiral recess 12 between the reinforcing portions 2 is provided. The reinforcing table 13 and the fusion point 9 'are fixed to the inner side surface 4.

At this time, the product of the present invention is provided even if the circular reinforcing rod 13 'and the alternate fusion point 9' of the alternate structure are provided, and as shown in FIG. Inserting the form reinforcement stand 15 ', and as shown in Figure 30, by forming the auxiliary hollow sphere 3' on the outer wall 18 provides durability and robustness.

Example 5

In order to provide a structural reinforcing spiral tube in the present invention, as shown in FIG. 31, the spiral reinforcing portion 2 of the spiral tube of the present invention comprises a corrugated reinforcing bar 15 and a corrugated welding table 15 '. By integrating the corrugated reinforcement table 15 into the outer wall surface 6 ', the support wall 17 is provided between the inner wall surfaces 4 which are externally corrugated and the corrugated reinforcement table 15 formed in the lower layer is integrated into the outer wall surface 6'. ). In addition, as shown in FIG. 32, the arc reinforcing rod 13 is integrated on the auxiliary inner wall surface 4 'with the fusion point 9 on the upper layer of the spiral pipe forming the corrugated reinforcing bar 15 and the corrugated welding table 15'. The structure consists of two layers, but the spiral groove 12 is composed of a corrugated reinforcement table 13 and a fusion point 9 to provide durability or external pressure reinforcement, and the V-shaped reinforcement table 7 not shown in the drawings. And using the support 5 and the inclined support 5 ', the structural reinforcement spiral tube of the present invention is also provided.

In the manufacturing method of the present invention, as shown in FIG. 33, the hollow portion 3 is formed by a molding apparatus in which the spiral tube forming machine 40 is assembled to the dies 37 and 38 of the extruders 35 and 36. The reinforcing part 2, the circular reinforcing bar 13, the corrugated reinforcing bar 15, and the like are formed, and the inclined support 5 'is formed on both side walls 2 ".

To this end, the cooling pipe 20 having the branched curved pipes 21 and 21 'formed on the die lip 37' assembled to the die 37 is assembled, and the forming roller 41 of the molding machine 40 is assembled. By rotating, the tube 42 extruded from the die 37 is spiral wound, and both sides of the tube are pressed together by the forming roller 31 and bonded together.

As shown in FIG. 34, when the tube 42 passes through the cooling pipe 20, the curved gear 29 is formed between the branch curved pipes 21 and 21 ′ of the cooling pipe 20. As the gear 30 rotates, the protrusion tube 15 and the wave welding plate 15 'are formed, and the protrusion tube 42' protruding into the recess 12 is formed into a spiral winding.

In addition, when the extruded protrusion tube 42 'is rotated by the molding roller 41 of the molding machine 40 while pressing the molding roller 31, the tube 43 extruded from a separate die 38 is the outer wall. At the same time as the surface 6 'is formed, the arc reinforcing rod 13 and the fusion point 9 are formed in the groove 12 of the spiral tube 1 by the fusion gear 34 of the separate bending gear 30. The inclined support 5 'on both side walls 2 "is a continuous operation of the spiral winding.

The present invention is a synthetic resin structural reinforcement spiral pipe used for drainage pipes, sewage and sewage pipes, which is structurally reinforced by external reinforcement, which is the most vulnerable part of the spiral pipe, and embedded in the ground to be firm even for long-term use. Maintainability, excellent workability and economic advantages.

1 is a perspective view showing a partially cut spiral tube of the present invention.

Figure 2 is a partial perspective view of a portion of the conventional spiral tube cut

3 is a partial longitudinal cross-sectional view of a conventional spiral tube

4 is a partially cutaway partial perspective view of a spiral tube according to another embodiment of the present invention;

5 and 6 are partially cutaway longitudinal cross-sectional views of the spiral tube according to the embodiment of FIG.

7 and 8 are partially cutaway partial perspective views of the spiral tube according to another embodiment of the present invention

9-18 are some cutaway longitudinal cross-sectional views illustrating various embodiments of a spiral tube according to the present invention.

19 is a partially cutaway perspective view of a spiral tube according to another embodiment of the present invention.

20 to 32 are some cutaway longitudinal cross-sectional views illustrating various embodiments of the inner side of the spiral tube of FIG. 19.

33 is a perspective view schematically showing an apparatus for manufacturing a spiral tube according to the present invention.

34 is a partially cutaway illustration showing a state of manufacturing a spiral tube according to the present invention.

* Description of the symbols for the main parts of the drawings *

DESCRIPTION OF SYMBOLS 1 Spiral tube 2 Reinforcement part 2 'U type support part

3: hollow sphere 4: inner wall surface 5: support

5 ', 5 ": Sloped support 6,6': Outer wall 7,7 ': V-shaped reinforcement

8,8 ': Supporting rib 9: Melting point 9': Alternating melting point

10: drilling tool 11: fusion zone 12: spiral groove

13: circular brace 15: wave brace 15 ': wave fusion

17: support wall 18,18 ': outer wall 20: reinforcement

Claims (2)

In the helix tube 1 formed with the outer wall surface 6 and the reinforcement part 2 which has the hollow sphere 3 spirally wound to the outer side of the inner surface 4, The reinforcing part 2 has both side wall surfaces 2 "formed vertically, Inwardly, the corrugated reinforcing bar 15 and the corrugated welding table 15 ′ alternately protrude from each other at the left and right sides to be structurally strengthened as they are formed in a zigzag form. An outer wall 18 'is further reinforced on the upper side of the corrugated reinforcing bar 15 and the corrugated welding table 15', Structural reinforcement spiral pipe for sewage pipes in civil engineering and road construction, characterized in that the inclined support (5 ') is formed on both side wall surface (2 ") between the reinforcement (2) and the reinforcement (2). The method of claim 1, Structural reinforcement spiral pipe for sewage pipes in civil engineering and road construction, characterized in that the drilling tool 10 is intermittently drilled between the reinforcing portion (2) and the reinforcing portion (2).