RU2293022C2 - Method and installation for manufacture of the pipes made out of the multilayer thermoplastic - Google Patents

Abstract

FIELD: chemical industry; methods and devices for manufacture of the multilayer pipes.

SUBSTANCE: the invention is pertaining to the process of manufacture of the pipes made out of the thermoplastics. The method of manufacture of multilayer thermoplastic pipes includes manufacture of the tubular billet and deposition on it of the complementary reinforcing layers. Before deposition of the complementary reinforcing layer the surface of the tubular billet is heated up to the temperature of welding of the thermoplastic. After deposition of the layers of the thermoplastic the tubular billet is subjected to squeezing by pressure. The squeezing operation is conducted in the bosh, the pressure in which is kept at the level of 3 atmospheres using the compressed air flask. The installation for manufacture of the multilayer thermoplastic pipes contains the mounted in the process chain the unit of manufacture of the tubular billet, the unit of deposition of the complementary reinforcing layers, the drawing and cutting devices. The installation is supplied with the bosh for compression of the tubular billet under pressure. The bosh is mounted in the processor chain after the unit of deposition of the complementary layers. The inventions ensure the reliable connection of the deposited on each other layers of the thermoplastic.

EFFECT: the inventions ensure the reliable connection of the deposited on each other layers of the thermoplastic.

3 cl, 1 dwg

Description

The invention relates to a process for manufacturing pipes from thermoplastics, for example from polyethylene.

A known method of manufacturing a three-layer plastic pipe, comprising applying to a heated pipe billet reinforcing layer and a layer of protective coating [1. RF patent No. 2186685, MKI ⁷ B 29 D 23/00, B 29 C 47/20, F 16 L 9/128, 2002].

Despite the additional heating of the tube billet, a strong bond between the layers applied to each other is not always ensured.

The technical challenge facing the invention is the provision in the manufacture of pipes reliable connection of the thermoplastic layers applied to each other.

To solve the problem in the manufacturing process of multilayer thermoplastic pipes, including the manufacture of a tube billet and applying additional layers to it, after applying an additional layer, the tube billet is crimped.

With insufficient temperature of the tube stock before applying an additional layer, its surface is heated to the welding temperature of the thermoplastic.

The proposed method can be implemented using (after some modernization) an installation consisting of a unit for manufacturing a pipe billet, a unit for applying additional layers, a pulling and cutting device installed in the technological chain [1].

To solve the technical problem, the installation, which contains a tube blank manufacturing unit, an additional layer application unit, a pulling and cutting device, is additionally equipped with a bath for crimping a tube under pressure, installed in the process chain after the additional layer application unit.

According to the proposed technology, it is possible to produce multilayer reinforced pipes, pipes with a foamed insulating layer.

The invention is illustrated by the drawing, which shows a schematic diagram of an installation for the manufacture of multilayer thermoplastic pipes.

A method of manufacturing multilayer thermoplastic pipes can be implemented on the installation, which consists of a unit for manufacturing a tube stock, including a screw extruder 1 for the manufacture of tube stock from thermoplastics, a vacuum bath 2 and a cooling bath 3 of irrigation teak. After the cooling bath, a pulling device 4 can be installed.

The unit for applying additional layers consists of a braiding machine 5 for applying layers of reinforcing threads, a tunnel kiln 6 and a side extruder 7 for applying a protective layer of thermoplastic. The tunnel furnace 6 is used to increase the surface temperature of the pipe billet to the temperature of welding of thermoplastic.

After the lateral extruder 7, a bath 8 is installed for crimping the tube stock under pressure and cooling it at the same time. The pressure in the bath can be maintained from a can of compressed air (not shown in the drawing). Next, an irrigation bath 9, a pulling device 10 and a cutting device 11 are installed.

An extruder 1 is formed from granular polyethylene to form a tube billet 12, which, after calibration in a vacuum bath 2 and cooling in a bath 3, is fed to a unit for applying a reinforcing and protective layer.

After the lateral extruder 7, the tube stock enters the bathtub 8, where additional layers applied are crimped by an excess pressure of about 1.7 atmospheres, for which the pressure in the bathtub (in the cavity bounded by the walls of the bathtub and the tube blank drawn through it) is maintained at three atmospheres.

Overpressure presses the protective layer of thermoplastic and ensures its welding with the tube billet.

If the reinforcing layer was applied by winding the tape [1], then it is also subjected to welding. After pressure welding, the tube billet with all the additional layers deposited on it is a monolith. On the cutting device 11 from the pipe billet 12 is cut off the finished pipe.

Claims (3)

1. A method of manufacturing multilayer thermoplastic pipes, including the manufacture of a tubular billet and applying additional reinforcing layers to it, characterized in that before applying an additional reinforcing layer, the surface of the tubular billet is heated to the welding temperature of the thermoplastic, and after applying the additional reinforcing layer, the tubular billet is crimped. 2. The method according to claim 1, characterized in that the pipe billet is simultaneously cooled with a pressure crimp. 3. Installation for the manufacture of multilayer thermoplastic pipes, containing installed in the technological chain unit for manufacturing a pipe billet, a unit for applying additional reinforcing layers, a pulling and cutting device, characterized in that it is equipped with a bath for crimping the pipe billet under pressure, installed in the process chain after the block drawing additional layers.