DE2814283A1 - Blowing head for thermoplastic film tubing - three separate air nozzles provide uniform efficient cooling and high speed - Google Patents

Abstract

Thermoplastic blown film tubing is cooled internally by a system with coaxial tubes for feeding and venting cold air for the film as it passes through the head. The system has annular axially separate blowing nozzles with the air feed via distributor tubes. It has air evacuation holes on one side of the tubing interior which lead to an air outlet on the other side where there is at least one nozzle in line with the flow direction of the cooling air. Efficient cooling effect permits high production rate, simple design.

Description

Device for internal cooling of tubular films

Made of extruded plastic The invention relates to a device for internal cooling of tubular films made of extruded plastic with coaxial Lines for supplying and exiting cooling air for those passing through the spray head Tubular films.

The object of the invention is to improve the effectiveness of the internal Significantly improve the cooling of the tubular film, which enables the Extrusion speed and consequently the production speed of the tubular film to increase.

The object is achieved according to the invention in that the device annular, axially spaced apart, for blowing in the cooling air serving nozzles which are connected to an air supply line via manifolds, and that the device is provided with air intake ducts on one side into the interior of the tubular film to be produced and on the other side into one Open air outlet line, in which at least one with the Direction of flow the cooling air converging nozzle is arranged.

The arrangement of the suction channels at the end of the nozzle is essentially A jet pump is formed that is used to draw air inside the To achieve tubular film in the area between the annular blower nozzles.

The effect of the tubular film is advantageously achieved exiting air flow is used to create a negative pressure between the air nozzles to form, whereby the effectiveness of the cooling of the tubular film is increased.

The invention is based on an exemplary embodiment below the drawing explained in more detail. It shows: FIG. 1 a schematic longitudinal section an extrusion head with a cooling device inside the tubular film to be produced is provided, and FIG. 2 shows a section along the line 2-2 of FIG. 1.

In Fig. 1, a general spray head is shown, which essentially comprises a helical distributor 1, which is supplied at 2 with liquid plastic is to it along an annular slot 3 of an extrusion die 4 to distribute, from which a tubular film 5 is extruded in a known manner will.

Inside the distributor 1 and the extrusion tool 4 of the extrusion head is the air supply line 6 for supplying the cooling air and one to the air supply line 6 coaxial air outlet line 7 for draining and changing the cooling air.

As can be seen from Fig. 1, are located inside the tubular film 5 in the area adjoining the spray head, in which the tubular film is still in the plastic state is annular blow nozzles 8,9,10, which are axially spaced from each other and individually via a distributor pipe 11, 12, 13 to the air supply line 6 are connected.

From Fig. 1 it can also be seen that the distribution pipes 11,12,13 arranged coaxially around the air outlet line 7 and up to the respective ring-shaped Blow nozzle 8,9,10 are extended so that they individually the entire circumferential surface of the corresponding blower nozzle 8,9,10 feed a uniform and regular air flow. In this way it is possible to have a uniform air flow with greater speed for a better cooling effect. As shown is the cross section of the passageway for the air flow in the individual distribution pipes 11, 12, 13 different and increased from the outer manifold 13, which is located on the extrusion die 4 closest Blowing nozzle lo is connected to the inner manifold 11 for the most distant Blow nozzle 8, which makes it possible to use the pressure stroke uniformly.

In order to continue cooling with the device according to the invention improve, the creation of negative pressures in the tubular film 5 is provided, which is located in the areas between the adjacent air nozzles 8,9,10 are.

This negative pressure contributes to the tubular film 5 on the blow nozzles 8,9,10, which further increases the cooling effect.

In the device according to the invention, this negative pressure is through Sucking in the air in the interior of the tubular film 5 generated by air intake channels 14, which have a relatively small diameter and on one side to the inside the tubular film 5 open, while they open on the other side to the air outlet line 7 open in accordance with the narrow section of a converging nozzle 15, which is arranged in the interior of the air outlet line 7. This will make the lateral The suction effect of the air jet generated by the constriction of the nozzle 15 is used, around the air from inside the tubular film 5 to generate the desired negative pressure suck in.

In the specific case shown is the use of two nozzles 15 are provided, which essentially form two jet pumps and one after the other are arranged around the air between the ring-shaped air nozzles 8,9,10 to suck. Of course, others can be equivalent to those shown or similar solutions for creating the vacuum in the tubular film 5 are used will.

The proposed solution is advantageous because it is with it it is possible to use the air intake ducts 14, which are extremely small Have a diameter and disturb the regularity of the air flow as little as possible, which is directed in each annular distributor pipe 11, 12 to the blow nozzles 8, 9. In fact, a small disturbance in the regularity of the cooling air flow would result in the emerges from the blow nozzles 8, 9, the formation of irregularities on the tubular film 5 induce yourself.

The device can in a manner known per se with an external Cooling system for the tubular film 5 are provided, in the case shown consists of a nozzle 16 arranged in correspondence with the spray head and is fed via an annular distributor 17.

From the foregoing and the accompanying drawings it can be seen that a device for the internal cooling of tubular films is proposed, which is extremely effective and of the simplest construction, since it the same flow of cooling air used that exits the tubular film 5 to the Sucking in the air from the inside of the tubular film to create to achieve localized negative pressure between the air nozzles, thereby reducing the cooling effect is increased.

Claims (5)

Claims I., device for the internal cooling of tubular films Made of extruded plastic with coaxial lines for inlet and outlet of cooling air for the tubular films passing through the spray head, characterized in that that the device is annular, axially spaced apart, for injecting the Has cooling air serving blow nozzles (8, 9, lo), which via distributor pipes (11,12,13) are connected to an air supply line (6), and that the device with air intake ducts (14) is provided, which on one side into the interior of the tubular film to be produced (5) and on the other side open into an air outlet line (7) in which at least a nozzle (15) converging with the direction of flow of the cooling air is arranged is. 2. Apparatus according to claim 1, characterized in that the distribution pipes (11,12,13) are arranged coaxially around the air outlet line (7). 3. Apparatus according to claim 1 and 2, characterized in that the cross-section of the air passage of the individual distribution pipes (11,12,13) is different is large, the cross section from the outer distributor pipe (13) to the inner distributor pipe (11) increases. 4. Device according to claims 1-3, characterized in that the air intake channels (14) are radial and coplanar with the narrowest cross-section of the nozzle (15) are arranged converging in the interior of the air outlet line (7). 5. Device according to claims 1-4, characterized in that in the air outlet line (7) several nozzles (15) one behind the other near the air intake ducts (14) are arranged.