SU630081A1 - Apparatus for cooling polymeric bag film - Google Patents

Description

one

The invention relates to the field of processing of polymeric materials in products and can be used in lines for the production of tubular film.

A device for cooling a tubular polymeric film is known, comprising a housing for distributing air around the perimeter of a film sleeve with an annular gap for the exit of cooling air.

1 A disadvantage of the prior art is the low cooling effect associated with limiting the intensity of the air supply, since with increasing air supply the process loses stability due to the occurrence of film vibration.

It is also known that the device for cooling a tubular polymer film is closest to the invention by its technical essence and the achieved result.

The disadvantage of such a device is that with an increase in the blowing speed, a local change in air velocity occurs around the perimeter of the sleeve, and in places where the air speed is reduced, the film moves away from the cone-shaped wall, which also causes instability of the process and a decrease in film quality.

The goal of the invention was to increase the cooling efficiency and improve the quality of the film.

This is achieved by the fact that the inner cone-shaped wall is made of an elastic material, the elastic modulus of which is comparable with the elastic modulus of the material of the tubular film.

The proposed device is shown in the drawing, a general view.

The device includes a housing 1 with a pipe 2 supplying a working agent under pressure, an annular exit slit 3, an inner cone-shaped wall 4 above the exit slit 3, an agent feed nozzle inside the tubular film, not shown, cooling chamber 5, annular gap 6.

The device works as follows. The cooling air through the nozzle 2 flows into the housing 1, where it is distributed around the perimeter of the annular gap 3. The air flow leaving the slot 3 forms a stream-like form of the jet, which when passing through the gap 6 at the exit point

the cooling chamber 5 forms a zone, the pressure in which the air is less than the air pressure in 1 The trails of the film sleeve 7 and in the housing 1. In this case, the film sleeve is retracted under the action of internal overpressure towards the gap 6, in turn, the inner conical wall 4 made of the elastic material, under the action of the overpressure of the cooling air inside the housing 1, is also drawn towards the gap 6.

The choice of material is due to a proportional change in the position of both the extruded sleeve 7 and the flexible cone-shaped wall 4 when the pressure in the gap 6 changes at the outlet of the cooling chamber 5.

The mutual attraction of the film sleeve 7 and the inner cone-shaped wall 4 excludes the possibility of the sleeve moving away from the inner wall of the housing as a result of a local decrease in air velocity.

This will improve the cooling efficiency due to a significant increase in the rate of recovery and, accordingly, improve the quality of the film.

Claims (2)

1. The patent of Germany No. 1215096, cl. In 29D 7/02, 1966. 2. The patent of France No. 1423754, In 29F, 1966.