CZ302994A3 - Process and apparatus for cooling a hose of thermoplastic material melt, extruded from a foil blowing head - Google Patents

Abstract

In a method for cooling the tubular web of a thermoplastic synthetic melt extruded from a film blowing head (1), cooling air is blown in the direction towards the tubular web (3) out of at least one cooling ring surrounding the annular nozzle gap of the blowing head. To make it possible to increase the output of film inflation-extrusion installations by the use of colder cooling air, the tubular web is exposed to a dry cooling air flow at a temperature of less than 0 DEG C and is screened (by 6) from the ambient air in its zone exposed to the flow. The cooling air is drawn off from the screened space (at 9), is cooled and fed again to the cooling ring. <IMAGE>

Description

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Technical field

The invention relates to a method of cooling melt hoses of thermoplastic plastic extruded from a film blow head, in which it is blown from a cooling ring with an annular outlet slot, encircling the blow head nozzle gap and / or the hose cooling air in the direction on or parallel to the hose. and apparatus for carrying out the method.

BACKGROUND OF THE INVENTION

The performance of the film blowing apparatus can be increased not only by increasing the amount of cooling air blown per unit of time, but also by lowering the blowing air temperature.

SUMMARY OF THE INVENTION

SUMMARY OF THE INVENTION It is an object of the present invention to provide a method of the kind mentioned above which can increase the performance of a film blowing apparatus by using colder cooling air.

The task is solved by the method of blowing dry cooling air below 0 ° C, which is separated from the ambient air in the area of its operation and that the cooling air is sucked out, cooled and returned to the cooling chamber. rings.

If the cooling air temperature is decreased in the area in which the cooling air comes into contact or is swirling with the surrounding air, the water vapor condensation to form droplets, snow or ice crystals will increase the performance of the film blower. The risk of condensation of water from the ambient air is particularly great when the cooling air stream emerging from the cooling ring is deeply cooled, ie at a temperature of -10 ° C. In order to avoid the risk of undesirable condensation of water from the outside air when using very cold air, a dry, below 0 ° C cooled cooling air stream is separated from the ambient air according to the invention, so that the cooling air stream is guided through a closed circulation circuit and - contact with the environment ^J vlhkost.Protože containing air according to the invention cooling air is guided in a closed circulation circuit and therefore can not come into contact with ambient air, may be to increase device performance film blowing temperature of the cooling air flow reduced to a very low temperature ranges teploty.Přednostně stream cooling air in the range -10 ° to -25 ° C.

An apparatus for carrying out the method according to the invention equipped with a film blowing head with at least one outer cooling ring according to the invention is characterized in that the cooling ring is set in a housing enclosing a substantially closed chamber whose cover plate is provided with a circular opening for the passage of the foil hose; the chamber is provided with a duct for exhausting the cooling air. The foil hose to be cooled by external cooling thus passes through a substantially closed chamber in which it is blown off by highly subcooled cooling air separated from the ambient air. in that the cooling air is sucked out of the chamber by a corresponding output.

In order to guide the cooling air in a closed cooling circuit, a cooling air duct is provided to the cooling ring, with a blower and a cooling air cooler arranged in the duct. If, due to losses that cannot be prevented, the cooling air flow is reduced, the corresponding amount of air is supplied again via the blower.

Suitably, a filter and / or separator is arranged in the suction line upstream of the blower, which separates the particles or gases entrained by the cooling air, so that the cooling air cannot be enriched with undesirable substances or gases.

According to a preferred embodiment, it is envisaged that the cooling ring in the chamber is spaced by a cylindrical tube which terminates below the housing cover plate and that the exhaust duct is connected to the annular space between the cylindrical tube and surrounding it. In this way, it is ensured that the cooling air surrounds the extruded foil hose at the height of the cylindrical tube, at a substantially laminar flow, and that it is sucked out of the annular space while maintaining the desired flow rate.

According to a further preferred embodiment, it is envisaged that the passage through the ceiling wall of the housing is formed by an iris diaphragm. In this way, the passage diameter can be adjusted quickly and simply to the diameter of the extruded film hose.

.Overview of figures in the drawing

The drawing in a single figure shows in longitudinal section a cooling device according to the invention combined with a blow head:

DETAILED DESCRIPTION OF THE INVENTION

The drawing shows a conventional blow head 1, which is fed by a melt of thermoplastic plastic through the extruder 2. The foil hose 3 is extruded from the annular blower nozzle of the foil 1. foil heads with dry, deeply cooled cooling air. The film blowing head and the external cooling are of conventional construction and therefore need not be described here.

Mounted on the foil head 1 is a bottom plate 4 surrounding the cooling ring (s), which is bounded by its edge to the cylindrical housing of the housing. Concentrically to the annular slot of the nozzle and the outlet slot of the external cooling air as well as to the housing. 5, a cylindrical tube portion 5 is fastened to the bottom plate. This pipe terminates at a distance below the cover plate 7, which is connected to the housing housing and which encloses a substantially closed chamber. The iris diaphragm 8 is flat, the diameter of the passage v _; 3 to the diameter of the extruded foil hose 3.

The housing 5 is provided just above the bottom plate 4 with a suction line connection 9. The suction line passes through an in-line filter or separator 10 and opens at the suction side of the blower 11. A duct is connected to the discharge of the blower 11. The cooling air duct 14 leads to a cooling ring (not shown). A cooler 16 is provided in the duct 12 to cool the cooling air to the desired low temperature. temperature.

The diameters of the casing 5 and the cylindrical tube 6 are matched to each other such that the desired substantially laminar flow of the deep-cooled dry cooling air is maintained in the tube 6 and that it can be sucked out of the annular space 17 at the required speed by the blower 11.

Since only the amount of heat of the cooling air which has taken the amount of the foil hose 3 away from the cooler 16 has to be removed, it must have only a cooling capacity which is economical for the amount of heat dissipated.

Claims (9)

PATENT CLAIMS A method of cooling a melt hose of a thermoplastic plastic extruded from a film blow head, wherein at least one cooling ring surrounding the annular gap of the blow head nozzle and / or hose is blown from the annular cooling air exit slot in the direction of and / or in parallel along the hose, characterized in that the hose is blown by Os. of dry cooling air with a temperature below 0 ° C and that it is separated from the ambient air in the blow-off area, and that the cooling air is sucked out, cooled and re-fed to the cooling ring from the compartment. Method according to claim 1, characterized in that the extracted cooling air is filtered. Method according to one of Claims 1 to 2, characterized in that the exhausted air stream is supplied as a substitute for the loss of cooling air due to leaks of fresh air. Method according to one of claims 1 to 3, characterized in that the temperature of the cooling air stream is in the range of -10 ° to -25 ° C. Device for carrying out the method according to one of the claims 1 to 4, with a film head having at least one outer cooling ring, characterized in that the cooling ring is enclosed in a housing (5) forming a substantially closed chamber, the cover plate (7) of which is provided with a circular passage for the foil hose (1). 3) and that the chamber is provided with a conduit (9) for sucking off the cooling air. Apparatus according to claim 5, characterized in that ducts are provided for the return of the exhausted cooling air to the cooling ring and that a blower (11) and a cooler (16) for cooling the cooling air are provided in the duct. Device according to claim 5 or 6, characterized in that a filter and / or a separator (10) are arranged in the suction line (9) in front of the blower (11). Device according to one of Claims 5 to 7, characterized in that the cooling ring is surrounded at a distance by a cylindrical tube (6) terminating below the cover plate (7) and that the suction line (9) is connected to the annular space (17). between the cylindrical tube (6) and the enclosure (5) surrounding it. Device according to one of Claims 5 to 8, characterized in that the passage through the cover plate (7) of the housing (5) is formed by an iris diaphragm (8).