SU1613338A1 - Arrangement for cooling band polymeric material - Google Patents

Abstract

The invention relates to the processing of a polymeric material, in particular to the cooling of a rubber band web. The purpose of the invention is to increase the intensification of the process of heat treatment of the polymer material. For this, the end sides of the slab are made rounded along the radius, the ribs of the rectilinear portion of the slab are rounded. A means for transporting the polymer material is mounted above the plate. A means for surface treatment of a polymeric material with a nozzle system is installed from the inner surface of the means for transporting the polymeric material. 3 il.

Description

The invention relates to the processing of polymeric materials and can be used for cooling tape polymeric materials, for example, long rubber web. 5

The purpose of the invention is to increase the intensification of the process of heat treatment of polymer material.

Figure 1 shows a device in general view; figure 2 - plate with holes; figure I - 3 - section aa in figure 1.

A cooling device comprises; a chamber 1 for creating a dynamic cushion under the material being processed, a plate 2 mounted on it with holes 3 in the form of Laval nozzles on the working surface to exit the working medium from the chamber 1, means for supplying cooling fluid in the form of a collector 4. The end faces 5 of the plate 2 are made 20 (radially rounded, the ribs 6 are straight; the non-linear portion of the plate 2 is made with (rounding. The device is equipped with an infinite: one-piece carrier tape 7 mounted on the plate 2 and bounded in its transverse direction by elements 8, into the chamber 1 Compressed air supply through; fitting 9.

Above the plate 2, a means I is mounted for transporting the polymer material 30 in the form of an endless metal belt 10 and a pair of tension drums 11, one of which is driven.

Means for surface treatment of polymer material with a nozzle system 12 is installed with the inner surface! metal strip 10. Cooling (water enters through collector 13 into φαρί of unit 12.

The device is placed in a protective casing 40, and the waste water is discharged from it through the fitting 15.

The device operates as follows.

Compressed air 45 is pumped into the chamber 1 through the nozzle 9, which, through the holes 3 in the plate 2, falls under an infinite metal, for example, steel tape 7 and creates an air gap here. Through the collector 4, cooling water is supplied to the expanding part of the 50 holes 3 in the form of Laval nozzles, which, being dispersed into water dust, is injected into the air gap. Intensive dispersion is achieved due to a sharp increase in the air flow rate at relatively low hydraulic resistances in the expanding channel. A metal tape 10 moves the polymer tape material 16 to the central cooling zone, where the pressure of the tape 10 ensures constant contact of the material 16 with the cooling surface of the tape 7. The lower steel tape 7 is driven by the force of the tape 10 in contact with the material 16, as a result of practical lack of friction in the air gap between the supporting surface of the plate 2 and the tape 7.

The lower inner surface of the tape 10 is irrigated through the choking nozzles 12 with water supplied through the collector 13. In order to prevent possible wetting of the cooled material surface 16, the upper tape 10 of the device is wider than the lower 7 and the side ribs of the straight section of the plate 2 are rounded. Due to the Coanda effect, the jets of exhausted cooling air will mainly deviate towards the rounding when leaving the interlayer, dragging droplets of liquid refrigerant with them.

The used water is freely drained into a protective casing 14, from where it enters through the nozzle 15 after treatment for reuse or into the sewer system. In the process of moving the elements 8 orient the steel strip 8 along the bearing surface of the plate 2, its radially bent end sides eliminate mechanical contact in the bends of the steel endless tape 7.

The intensification of the cooling process is achieved by the fact that air blowing in the carrier layer of the wetted surface of the steel strip 10 intensifies the evaporation of the liquid, lowering its temperature. The heat from the transported material is conducted conductively through a thin chilled steel strip 7 into the cooling medium.

The feeding elements of the final section of the plate 2 are not fed with water in order to dry the steel strip 7, thereby eliminating the possibility of entrainment of liquid refrigerant on its inner surface outside the protective casing 14.

Next, the cycle repeats.

Claims (1)

SUMMARY OF THE INVENTION A device for cooling a tape polymer material, comprising a chamber for creating a dynamic cushion under the 55 processed material, a plate mounted on it with openings on the working surface to exit the working medium from the chamber, means for supplying a cooling liquid, means for surface processing of the polymer material with a system 1613338 my nozzles and means for transporting polymer material through a device, characterized in that, in order to increase the intensification of the process of thermo 5 polymer material processing, the end faces of the plate are rounded in radius, the edges of the rectilinear section of the plate are rounded, and the means for transporting the polymer material are mounted above the plate, and the means for surface treatment of the polymer material with the nozzle system is installed from the inner surface means for transporting polymeric material. FIG. 2 Aa Fig.Z