SU1685737A1 - Apparatus for making polymeric film - Google Patents

Abstract

The invention relates to equipment for processing plastics, in particular, to devices for producing a tubular polymeric film, including plasticized and inhibited. The purpose of the invention is to improve the reliability of the device and the quality of the resulting film by improving its anti-corrosion properties. For this, the device contains an extrusion head with a hollow body. In the cavity of the body, coaxially with him, placed mandrel. Ducts are provided in the mandrel for supplying compressed air and for supplying a corrosion inhibitor to the inside of a tubular polymeric film. The device contains a corrosion inhibitor supply system and is equipped with a vertically mounted hollow chamber with inlet and outlet openings, coaxially with an airtight float installed in its cavity with valves. The chamber communicates with the corrosion inhibitor supply system through the inlet, and through the outlet with the channel for supplying the corrosion inhibitor. The chamber is additionally communicated with the compressed air supply duct. Sealed valve is designed as a bellows. The device is adjusted to the appropriate mode for obtaining a tubular polymer film. The heated inhibitor is fed into the hollow chamber. Sealed float pops up. The inhibitor enters through the channel to feed it into the cavity of the sleeve (tubular film). In this case, the inhibitor spreads over the surface of the mandrel. The required level of inhibitor is maintained by varying the installation height of the chamber relative to the surface of the mandrel. The extrudable sleeve is in constant contact across the entire inner surface with the inhibitor. This ensures effective diffusion of the inhibitor into the thickness of the sleeve. A change in the level of the inhibitor allows one to vary the anticorrosion properties of the sleeve, i.e. the quality of the tubular film obtained is improved. There is no need to regenerate the inhibitor, i.e. increased reliability of the device. 2 hp f-ly, 5 ill. sl С о 00 СП VJ СО vl

Description

The invention relates to equipment for processing plastics, in particular, to devices for producing a tubular polymeric film, including plasticized and inhibited.

The purpose of the invention is to increase the reliability of the device in operation and the quality of the resulting film by improving its anti-corrosion properties.

FIG. 1 shows a device for making a tubular polymeric film, general view; in fig. 2 is a diagram of the connection of the hollow chamber with the compressed air supply channel; in fig. 3 and 4 - hermetic float in the form of bellows, working (compressed) position - the valves are open; in fig. 5 - the same, inoperative (decompressed) position - the valves are closed.

The device comprises an extrusion head with a hollow body 1. A cavity 2 is placed coaxially with it in the cavity of the body 1. In the mandrel 2, a channel 3 is provided for supplying compressed air and a channel 4 for supplying a corrosion inhibitor to the inside of the tubular polymeric film. The device also contains a system for supplying a corrosion inhibitor. The device is equipped with a vertically mounted hollow chamber 5 with an inlet b in its upper part, an outlet 7 in its lower part and coaxially installed in its cavity a hermetic float 8 with valves 9 and 10 for the inlet 6 and outlet 7 of the holes, respectively. The floor of the chamber 5 through the inlet b is in communication with the corrosion inhibitor supply system, and through the outlet 7 with the channel 4 for supplying the corrosion inhibitor. The compressed air supply duct 3 is provided with a nozzle 11. The wall of the hollow chamber 5 is made of a transparent material (for example glass) or equipped with a mounted window (not shown). The floor chamber 5 is connected via an inlet 6 to a trunk 12 and a heated discharge tank 13. Through an outlet 7 it is connected to a highway 14, a duct 2 channel 4 for supplying a corrosion inhibitor to the inside of a hand-held polymer film pump 16 (for pumping the corrosion inhibitor from the cavity of the tubular polymer film in an emergency). The line 12 for supplying the corrosion inhibitor to the hollow chamber 5 is provided with a check valve 17 to prevent compressed air from entering it. Distributors 18 and 19 are installed on manifolds 12 and 14 to control the supply of the corrosion inhibitor to the tubular polymer film and pump it out in an emergency. To regulate the amount of corrosion inhibitor supply to the hollow chamber 5 and, accordingly, to the tubular polymeric film, the device is equipped with a pneumatic valve 20. The device is also equipped with a tap 21 for blocking access of compressed air to the pressure tank 13, a crane 22 for blocking the release of corrosion inhibitor from the pressure tank 13,

valve 23 for supplying the inhibitor from the tank 15 to the discharge tank 13. For cooling the tubular polymer film, the installation is equipped with an annular manifold 24. Paul

the chamber 5 is additionally communicated with the channel 3 for supplying compressed air, for example, the line 25. The hermetic float 8 can be made in the form of a bellows.

0The device operates as follows.

The device is adjusted to the appropriate mode for obtaining a tubular polymer film. Heat inhibitor

5 corrosion in the injection tank 13 to the appropriate temperature mode. The valve 22 is opened, then the valve 21 is adjusted and the air pressure in the pressure tank 13 is adjusted by the pneumatic valve 20, at which the corrosion inhibitor enters the hollow chamber 5. After the float 8 is sealed, valve 10 opens port 7 and the corrosion inhibitor enters through line 14 and channel 4 sleeve 26 (sleeve polymer film), spreading along the surface of the mandrel 2. The number of inhibitor entering the hollow chamber 5 must be equal to or greater than its consumption in sleeve 26, If the amount of inhibitor

0 more, the hermetic float 8 floats higher and the valve 9 blocks the supply of the corrosion inhibitor to the hollow chamber 5. The air pressure in the sleeve 26 maintains the level of the corrosion inhibitor in the hollow chamber 5 slightly higher than above the roadway 2.

Maintain the appropriate technological mode level of corrosion inhibitor in the sleeve 26 is necessary by changing the installation height of the hollow chamber 5

0 relative to the surface of the mandrel 2, while measuring either its level in the sleeve 26, or its level in the chamber 5 (enter the appropriate amendments). Extruded sleeve 26 is in constant contact throughout

5 of the inner surface with the inhibitor from the exit line of its (sleeve) from the forming gap (not shown) of the head to the border of the corrosion inhibitor level (maximum, to the freezing line of the tubular polymer film, i.e., to the zone of transition of the polymer into a solid state). This ensures effective diffusion of the corrosion inhibitor in the thickness of the sleeve 26 (tubular polymer film), and the change in the level of the inhibitor

5 corrosion in the sleeve 26 - variation of the anti-corrosion properties of the film of the sleeve 26.

In an emergency situation, for example, when hose 26 breaks through, which happens quite often, turning on the electromagnets of the distributors 18 and 19 cut off the supply

corrosion inhibitor into the chamber 5, open the passage from the cavity of the sleeve 26 and from the chamber 5 to the tank 15, turn on the vacuum pump 16. The igor will be removed from the chamber 5 until the float 8, having lowered, closes the valve 10 the outlet 7 of the chamber 5 and from the cavity of the sleeve 26 completely. This prevents the spreading of the inhibitor on the head, its intensive evaporation, which significantly improves the operating conditions. After filling the tank 15, the valve 23 is opened and the inhibitor is poured into the discharge tank 13

The communication of the hollow chamber 5 with the channel 3 for supplying compressed air, for example, the highway 25, allows equalizing the air pressure over the inhibitor in the sleeve 26 and chamber 5 and adjusting the height of its level in the sleeve 26 according to its level in chamber 5 without corrections for difference of levels.

If the float 8 is made in the form of a biphon, then in the working position the air pressure in the chamber 5 or in the sleeve 26 compresses it, and it works in the compressed position. In the event of a breakthrough of the sleeve 26, the air pressure drops to zero, the float 8 instantly opens and closes the flow of inhibitor into the sleeve 26, which greatly increases the reliability of the device in operation.

The proposed device for the manufacture of tubular polymer film will improve the anticorrosive properties of the latter due to the direct contact of the entire inner surface of the sleeve, which is in the viscous state, with the liquid corrosion inhibitor and, as a result, the best saturation with its inhibitor, improve its quality, and also increase the reliability of the device in operation

by preventing the release of the inhibitor p to the outside of the sleeve during its breakthrough and due to the IC, which is necessary to ensure the need for devices to clean the inhibitor and stop the process from time to time

HEADS.

Claims (3)

Invention Formula 1 A device for manufacturing a tubular polymer film containing an extruder / zion head with a hollow body coaxially housed in a corpus-shaped cavity, channels in the mandrel for supplying compressed air and a corrosion inhibitor to the inside of the tubular polymer film and the corrosion inhibitor feed system In order to increase the reliability of the device in operation and the quality of the resulting film by improving its anti-corrosion properties, the device is equipped with a hollow mounted mounted an amera with an inlet in its upper part, an outlet in its lower part and coaxially installed in its cavity a hermetic float with valves for the inlet and outlet, the floor of the chamber through the inlet communicating with the corrosion inhibitor supply system, and through the outlet with feed channel corrosion inhibitor. 2. Device pop. 1. That is, with the fact that the floor of the measure is additionally communicated with the channel for supplying compressed air 3. Arrangement for PP. 1 and 2, distinguished by the fact that the hermetic float is made in the form of a bellows. 2 J11 .4 MG 7 h B G 7 B 12 FIA.1 25 FIG. 2