KR20010100023A - Structural Reinforcement Spiral Tube Manufacturing Equipment - Google Patents

Abstract

The present invention is a sewer pipe. The present invention relates to a structural reinforcement spiral pipe manufacturing apparatus made of a synthetic resin widely used for drainage pipes.

In general, the apparatus for manufacturing a spiral tube in which the hollow sphere 3 formed in the reinforcing part 2 is integrated into a spiral winding is assembled with a curved pipe assembled in a die assembled in an extruder to a forming roller of a molding machine to produce a tube extruded from the die. In a manufacturing apparatus manufactured by forming a spiral winding circuit, firstly, the branch pipes 21 and 21 'are bent by the bending gear 30 to the cooling pipe 20 having the separation interval A, It relates to an embodiment according to the manufacturing method is configured such that the reinforcing bar 15, etc. and the second tube 43 is formed to be molded into the outer wall (6 ') 18 and the reinforcing bar (7) (15), etc.

Description

Structural Reinforcing Spiral Tube Manufacturing Equipment

The present invention relates to a manufacturing apparatus of a spiral pipe made of synthetic resin widely used for sewer pipes and drainage pipes.

In general, an apparatus for manufacturing a spiral tube made of a synthetic resin is formed in a spiral tube manufacturing apparatus configured by forming a die for extrusion into a die assembled on a die of an extruder, and assembling a cooling pipe curved in accordance with a rotating roller of a spiral tube forming machine. Spiral pipes are used for drainage pipes that are buried in soil for long periods of time. Due to the structure of the spiral pipes and the characteristics of the synthetic resin materials used, there is a limit to the strength and external earth pressure reinforcement, and concrete fume pipes and steel sold-in spiral pipes to reinforce the external pressure strength. In case of long-term use, it is a problem that long-term use is caused by lime of fume pipes in the wastewater passages where chemicals are mixed with the drained water quality. This is difficult to expect the long-term external pressure reinforcement effect In this chemistry the invention to provide a spiral tube apparatus for manufacturing a reinforcing structure for a semi-permanent synthetic resin provides reinforcement of the spiral tube

The present invention is a manufacturing apparatus for forming a reinforcing structure to the element element in the reinforcement portion and the inner side of the helical tube is a bending part of the upper side of the hollow sphere to form the reinforcement of the wave structure and the formation of the inclined support on both side walls It is an invention for providing a spiral pipe which is externally pressure-reinforced as a manufacturing apparatus of a simpler structure by providing an extrusion mold of a die lip assembled in a die for providing a branched curved pipe and a bending roller to a cooling pipe related thereto.

1 is a partially disassembled assembly state of the manufacturing apparatus of the present invention

2 is a perspective view of a cooling pipe which is a main part of the apparatus for manufacturing a spiral tube of the present invention;

3 is a partially cut away partial perspective view of the distributor in the cooling pipe of FIG.

Figure 4 (a) (b) is a cross-sectional view and a perspective view showing an embodiment showing the distributor as a support plate in the cooling pipe of Figure 2

5 is a perspective view of a corrugated gear in a bending gear that is a main part of the manufacturing apparatus of the present invention;

FIG. 6 is a perspective view of a waveform gear in an alternating gear in a bending gear of FIG. 5; FIG.

7 is a perspective view showing a fusion gear in the bending gear of FIG.

Figure 8 is a state diagram showing the reinforcing support rib in the extrusion slot of the die lip of the die in the production apparatus of the present invention

FIG. 9 is a state diagram showing a process of forming an inclined support with a tube extruded from a reinforcing support rib shown in FIG. 8; FIG.

10 is a state diagram showing a state in which the inclined support of one side is composed of fusion ribs in the die lip of FIG.

FIG. 11 is a state diagram showing a process of forming the inclined support with the fusion rib extruded in FIG.

Figure 12 is a state diagram showing the structure of the inclined support to replace the extrusion port of the die lip for the inner surface of the spiral pipe in the die lip of Figure 9

FIG. 13 is a state diagram showing a process of forming an inner side by molding with an inclined support instead of the extrusion hole for the inner side 4 in FIG.

<Explanation of symbols for main parts in drawing>

1. Spiral tube 2. Reinforcement 2 ". Both side wall 3. Hollow hole

4. Inner wall 5. Support 5 ', 5 ". Inclined support 6,6'. Outer wall

7,7 '. V type reinforcement table 8,8 '. Supporting rib 9. Fusion point 9 '. Alternate melting point

10. Drill holes 12. Spiral recesses 13. Circular reinforcement bars 15. Wave reinforcement bars

15 '. Corrugated Melting Zone 20,20 '. Copper Pipe 21, 21 '. Branch Curve Pipe

22. Separator 23. Mounting plate 24. Splitter 25. Joint

26. Cooling hose 27. Injection port 28. Support plate 29. Extrusion bracket

29 '. Reinforcement Support Rib 30,30 '. Bending roller 31. Roller 32,32 '. Fusion Gears

34. Fusion gear 34 '. Fusion Pin 35,36 '. Extruder

37,37 ', 38. Dies 39. Corrugated Gear 40. Molding Machine

41. Forming Rollers 42, 42 '. tube

In order to achieve the object of the present invention described above, in the manufacturing apparatus in which the spiral tube forming machine 40 is assembled to the dies 37 and 38 of the extruders 35 and 36 in the spiral tube manufacturing apparatus, The die 37 as shown in FIG. 1 is formed in the hollow sphere 3 so that the circular reinforcing rod 13 and the corrugated reinforcing rod 15 of the present invention are formed and the inclined support 5 'is formed on both side walls 2 ". Branched bent pipe 21 having a reinforcing support rib 29 'formed in a conventional extrusion pipe 29 for spiral pipes assembled on the die lip 37' assembled to the lower rib, and having a separation gap A formed at the lower curved portion. 21 ') is assembled and fixed to the die 37 by the inlet 27 of the configured cooling pipe 20, and extruded from the die 37 in which the spiral winding operation is performed by the rotation of the forming roller 41 in the molding machine 40. When the tube 42 passes through the cooling pipe 20 as shown in Fig. 5 or 9 or 10, the branched curved pipes 21 and 21 'of the cooling pipe 20 are shown. The inclined surface 20 "is formed in the separation gap A between them, so that the bending gear 30 can be easily bent, and formed into the bending gear 30 in which the gear 39 of the corrugated structure is formed. 15) and the corrugated fusion zone 15 ', the tube 42' protruding into the groove portion 12 to the middle portion of both side wall surfaces 2 "rotates in a spiral winding and slightly contracts under the influence of cooling water. The spirally wound tube 42 'is pressed against the inner surface 4 such as the tube 42' protruding from the other side of the two side wall surfaces 2 &quot; The spiral of the spiral tube 1 with the fusion gear 34 of the bending gear 30 at the same time as the outer wall surface 6 'is formed while the tube 43 extruded from the other die 38 is formed. As described above, the inclined supports 5, 5 ′ are integrated into the inner side 4 from both side wall surfaces 2 ″, as described above, while being formed as an arc reinforcing rod 13 and a fusion point 9 in the recess 12. As a winding device that is continuous work

Unmark 45 'is the coolant bottle

In this case, in the case of manufacturing a structural reinforcing spiral tube having an alternating circular arc reinforcing rod 13 'and an alternating fusion point 9' structure, as shown in FIG. 6 or 8 or 9, an fusion gear 32 having an alternating structure is shown. Using the bending gear 30 'formed with the 32' and forming the fusion pin 34 'for reinforcing the welding force on the fusion gear 34 of the bending gear 30,

Here, as shown in FIG. 2 or FIG. 4, the inlet 27 of the cooling pipe 20 has one or the branch curved pipes 21 and 21 ′ separated from both sides, so the cooling water in the cooling pipe 20 body is cooled. In order to supply the feed hose 26 'to the hoses 26 and 26' of the two branch curved pipes 21 and 21 ', the cooling hose 26 and the joint 25 are The distributor 24 is connected to the fixed plate 23 so that the cooling water is supplied to the branched curved pipes 26 and 26 ', respectively.

And in the product of the present invention to form the V-shaped reinforcement (7) (7 ') or the circular arc reinforcement (13) having a cross-sectional structure of the V-shaped separation interval of the branch curved pipe (21) (12') ( A) The inclined surface 20 "is formed on the part, and the shaping roller uses the fusion gear 34 composed of the circular roller 31 or the fusion pin 34 'as the bending gear 30, 30'.

As an embodiment of the cooling pipe 20 in the present invention as shown in Figure 4 (a) (b) when used as a separate cooling pipe (20 ') assembled to the die 37 and the cooling pipe 20' Fix with support plate 28 for firmness to each other

10 and 11, the fixed ribs 19 are formed on one side of the reinforcing support ribs 29 'formed on both sides of the extrusion hole 29 formed in the die lip 37', and the fixed ribs 19 are shown in FIG. As described above, the reinforcing support rib tube 42 "is first fused with the forming roller 31 'to the other fixed rib 42' formed with a spiral winding, and then the tube 42" is formed with the bending roller 30. Is a manufacturing device for molding the inclined support (5) (5 ')

In addition, as shown in Figs. 12 and 13, the tube 4 "extruded from the detention part of the reinforcement rib 29" formed in the lower part of both sides in the extrusion detent 29 formed in the die lip 37 'is recessed. Manufacturing to form the spiral groove 12 formed by spiral winding while maintaining the distance (B) to form the reinforcing support ribs 29 'described above from the groove gap (B) to the inner surface (4) by the forming roller 31 It is a device that provides a device of the product that can be used as a perforated pipe by drilling the punching tool 10 to the molded inner surface (4 ")

The present invention is the first step in the process of manufacturing a product reinforced with external pressure in a continuous reinforcing spiral tube in the structure reinforcement spiral pipe manufacturing apparatus in the manufacturing process of the product reinforced with external pressure in the continuous process, forming a bending gear in the separation interval of the cooling pipe and the forming roller Bending the outer wall of the reinforcement part to form a corrugated reinforcement in the hollow sphere, and construct a reinforcement support rib in the extrusion hole of the die lip so that the protruding tube is formed on both side walls of the reinforcement part. It is an invention for providing a manufacturing apparatus of a spiral tube, which is a manufacturing apparatus of a spiral tube that is rigid and structurally reinforced at a low cost of manufacturing process consistency and defect rate, and at a low cost of the manufacturing apparatus.

Claims (3)

A spiral tube in which the dies 37 and 38 of the extruders 35 and 36 are assembled and the extrusion die 29 is formed in the die lip 37 'fixed with the die 37 and the cooling pipe 20 is fixed. In the spiral tube manufacturing apparatus assembled to the production forming machine 40 and configured with the forming roller 31, the extrusion pipe is assembled to the cooling pipe 20 of the branch curved pipes 21 and 21 'having the separation gap A. The reinforcing support rib 29 'is formed on the die lip 37' having the 29 formed therein, and the extruded tube 42 is cooled by the bending gear 30, 30 'having the corrugated gear 39 formed therein. The outer wall surface 6 of the hollow sphere 3 is bent at the separation interval A of the 21 ' to integrate and reinforce the inner surface 4 with the corrugated reinforcing bar 15 and the corrugated welding table 15 '. Structural reinforcement spiral pipe manufacturing apparatus configured to mold the support ribs 29 'to the inclined support 5' by the forming roller 31. The reinforcing support rib 29 'of the die lip 37' is formed by the fixed rib 19, and the reinforcing support tube 42 "is fixed by the forming roller 31 'with the fixed rib 42'. Fixing and forming the inclined supports 5, 5 'by the bending roller 30, the distributor 24 of the cooling pipes 21, 21' is assembled into the support plate 28, and the corrugated gear 39 alternately. Structural reinforcement spiral pipe manufacturing device configured to be formed of gears 32 and 32 ' The apparatus of claim 1, wherein a fusion pin (34 ') is formed on the bending gear (30) and an inclined surface (20 ") is formed on the curved separation gap (A) of the cooling pipe (20).