KR860000393Y1 - Plastic tube moulder - Google Patents

Abstract

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Description

Synthetic Resin Pipe Forming Equipment

1 is a partially cutaway perspective view of the present invention.

2 is a longitudinal cross-sectional view.

* Explanation of symbols for main parts of the drawings

1: cylindrical inner tube 2,8: cooling tube

3,5,7: Vacuum outer cylinder 4,6: Cooling outer cylinder

10: rubber packing ring 11: direct cooling chamber

18: one line fine work 21: one line fine work

The present invention is to form a synthetic resin tube from the melt of the synthetic resin, the direct cooling chamber, vacuum chamber, indirect cooling chamber, vacuum chamber, indirect cooling chamber, vacuum and direct cooling chamber, shower cooling chamber in front of the dies of the extruder in order to install sequentially It relates to a synthetic resin tube molding apparatus. In the conventional synthetic resin pipe forming method, the inner pipe having a plurality of pores installed in the cylindrical exterior is inserted and the diaphragm is inserted to form a water supply chamber and a drainage chamber. Although the perforated vacuum chamber and the adjusting cooling chamber may be installed by the assembly, the former method may cause a large amount of water to directly contact the pipe surface in the molten pipe state before the vacuum, so that wrinkles or wrinkles may be generated on the surface of the pipe to obtain a desired pipe. And defects that cannot be disassembled and assembled.

In the latter method, when a molten tube extruded through a known extruder die reaches an inner tube, an oil such as a mobile is injected to form an oil film to increase the vacuum effect, but the oil is mixed in the circulated water. The process was complicated, cumbersome, and the disassembly process of disassembling the cover and separating the outer and inner tubes was complicated.

The present invention is easy to disassemble and assemble by connecting each of the barrels forming the chamber to be extrapolated to the cylindrical inner tube to solve the problems of the prior art by connecting the valves of the water supply and drain pipes respectively It is designed to improve work efficiency as Doom, which will be described in detail based on the accompanying drawings.

A cooling chamber 11 is formed by fixing a cooling tube 2 having a single hole fine hole 18 and a water supply port 23 integrated in a cylindrical inner tube 1 in contact with a known die and extrusion die. By inserting the vacuum outer cylinder (3) in which the pores (19) of the cord are drilled and the drain hole (24) is integrated, the cooling chamber (4) is inserted into the vacuum chamber (12) by the water inlet (23) and the drain hole (24). The indirect cooling chamber 13 is inserted into a vacuum outer cylinder 5 in which the water lines 20 are perforated and the drain port 24 is integrated, and the vacuum chamber 14 is cooled by the water inlet 23 and the drain port 24 integrally. Insert the outer cylinder (6) and insert the indirect cooling chamber (15), the single-row pore (21) and the cooling and vacuum outer cylinder (7) in which the water supply and drain holes (25) are integrated. The inner tube is inserted by inserting the rubber packing ring 10 between the outer cylinders so as to form the shower cooling chamber 17 by inserting the cooling cylinder 8 in which the plurality of holes 22 are drilled and the water inlet 23 is integrated. (1) rear end Front part (1 ') is a plastic pipe molding apparatus binder gyeoseo when the fastening nut (9) on. Reference numeral 26, which is not described, describes the effects of the present invention configured as described above.

When the molten state of the tube extruded through a known extrusion die to insert the synthetic resin tube reaches the cylindrical inner tube 1 and is interpolated, water is injected from the one row fine hole 18 at the tip, and the outer surface of the molten synthetic resin tube and the cylinder A water film is formed between the inner tubes 1 so that the molten synthetic resin tube 26 is first cooled, and the synthetic resin tube is vacuum formed by suction force sucked from the vacuum chamber 12.

The present invention as described above is the water supplied from the water supply port 23 of the cooling tube 2 integrally formed at the tip of the cylindrical inner tube (1) to the inner tube (1) through the fine hole 18 of the cooling chamber (11). The water supplied from the single row pores 21 and the multiple pores 22 is supplied to the inner tube 1 to be discharged to the respective drains 24 through the vacuum chambers 12, 14, and 16. The rubber packing ring 10 is inserted between the stacks of the outer cylinders 2-8 so that the water supplied to the chambers 11-17 with high water pressure is drained through only the pores or the chambers without leaking to the outside.

Therefore, the present invention as described above separates and installs the supply and drain holes 23, 24, and 25 in each of the outer cylinders 2-8, which form the chambers 11-17, respectively. The rubber packing ring 10 is inserted between each, and the cylindrical inner tube 1 is extrapolated and assembled in a prefabricated manner, so that the assembly and disassembly are simple and easy to use.

Claims (1)

A single cooling line 2 is formed by drilling a row of micropores 18 into a cylindrical inner tube 1 in contact with a known extrusion die and integrating a water supply port 23 to form a direct cooling chamber 11. The vacuum chamber 12 is inserted into the vacuum chamber 12 by inserting the vacuum outer cylinder 3 in which the pores 19 are integrated and the drain port 24 is integrated. The indirect cooling chamber 13 is inserted into the vacuum chamber 5 in which the water line hole 20 is drilled and the drain port 24 is integrated, so that the vacuum chamber 14 is integrated, and the water supply port 23 and the drain port 24 are integrated. Insert the cooling outer cylinder (6) and insert the indirect cooling chamber (15), the one-row perforation (21) and the cooling and vacuum outer cylinder (7) in which the supply and drain holes (25) are integrated. Insert a rubber packing ring 10 between each outer cylinder to insert a cooling cylinder 8 having a plurality of pores 22 and a water supply port 23 integrated therein to form a cooling chamber 17, respectively. Inner tube (1) Stage helical portion (1 ') a synthetic resin tube forming device by binding the lock nut (9) on.