DE2524281A1 - Apparatus for cooling tubular plastic film - having inlet housing with filter driving wheel, guide device and replaceable outlet housing - Google Patents

Abstract

Appts. for coling tubular plastic firm hs an inlet housing with a sieve filter, and a radial inlet opening arranged in an annular channel, a rotating, centripetal driving wheel with a grating blade, a guide device, and a replaceable outlet housing with an annular outlet opening. Constant flow velocity of the cooling air over the entire periphery of the film. Gives film with a minimum variation in thickness. Efficient cooling enables the film to be processed rapidly. A wide range of films can be treated.

Description

Device for cooling tubular plastic films The invention relates to a device for cooling tubular plastic films by extrusion a plastic melt from extruders installed inside each other z @ inen @@@ chl @@ and ans @@ liesendem Aufblau @@ n h @ rgust @ llt, whereby the device for cooling plastic tubular films directly between plastic tubing Blown film tool and flat sheet is arranged in the direction.

1s is known in the device for cooling tubular films, which work on the principle of an axial fan.

The housing of this device has an upper annular inlet and a curved back upwardly directed annular outlet conduit extending into an annular outlet opening.

Rotating blades driven by a power source are arranged in the housing, which generate the air flow required for cooling, which flows over guide surfaces, which should reduce the spiral component of the air flow, in a certain Angle is g @ elasen on the film tube.

@@ n The main disadvantage of this device are the favorable ones aerodynamic conditions.

By redirecting the air flow as soon as the Secondary flows form on the impeller. They come into the area of the outlet opening reinforced, as the total steering at this point is approx. 150 °.

The secondary flows cause an uneven flow distribution on the circumference of the film tube. As a result, it occurs during the cooling process Fluctuations in the flow of cooling air, so that a film with specific thickness deviations arises.

In addition, the efficiency of the cooling device is increased by secondary flows decreased. Another disadvantage of this device is the local lag of the upper annular inlet. lThe generated air flow is sent to the film tube g blow, heats up there, rises and becomes, due to the @ nfavorable Arrangement of the ring-shaped inlet is partly popular again. That leads to a reduction of the coolant @ kte.

The purpose of the invention is without increased technical-economic Effort to reduce the thickness fluctuations of the film considerably and the cooling oil is @ ng to increase.

The invention is based on the object are devices for cooling of plastic foils to create a constant flow velocity the cooling loft over the entire perimeter of the Foliengswänrl is @t.

According to the invention the object is achieved in that in a clean channel an inlet casing with a reverse filter and a radial intrittsring opening has, a rotating, centripetal throughflow La @@ wheel with Schansfelgitter, a guide device and a removable outlet housing with a radial outlet ring opening are arranged.

The radius ratio r1 / r2 of the centripetal d @ rc strömken impeller @@ lies in a range of 0.6 .... 0.95 and the width ratio b1 / b2 in one Range from 0.5 .... 1.

The shovel grille with an intrittswin @@@@ @ 3 <90 ° and an exit angle 1 s1 # 90 ° has a deceleration ratio of w3, w1 = 0.65 .... 0.75.

The outlet housing is bent vertically, or it lies with the Disadvantage apparatus in one above. To regulate the delivery rate is on the inlet housing mounted in an axially adjustable control slide.

The device for cooling tubular plastic films can have two flows are designed and is below end / or above the solidification line of the to processing macromolecular material arranged.

The solution according to the invention enables the production of films with minimal fluctuations in thickness, so that the bead formation during the winding process in erhalblichen @ aße is reduced.

Due to the improved cooling of the device, the withdrawal speed can be increased, and there is an increase in the output of the entire blown film system cin. Another advantage of the cooling device is its universal applicability.

The invention is explained below using an exemplary embodiment will.

The accompanying drawings show: FIG. 1 - a schematic representation a blown film system without winding device Fig. 2 - a half section of the invention Cooling device Fig. 3 - a longitudinal section through a centripetal perforated Impeller with d: n corresponding speed triangles and the corresponding side view 4 - a representation according to FIG. 2 in a two-stage embodiment. In FIG. 1, in Extruder 1 with a film blowing tool 2, a flattening device 3 and a Trigger device 4 dargtsbellt.

The extruded, inflated film tube 5 is below the Solidification lines surrounded concentrically by a cooling device 6 according to the invention. For the production of thick-walled Tubular film i ::; - t is advantageous, to arrange a second cooling device 7 above the Lrstarrungslini so k; arises in blockers of the film tube 5.

The arrows indicate the direction of flow of the cooling air.

Line embodiment of the device according to the invention is shown in FIG. 2. In an annular channel 8 are a linear housing 9, an impeller 1.0 and a guide device 11 and an outlet housing 12 are arranged. The linear housing 9, its upper and The lower part is connected by support segments 13, has a radial intrittsringöffning 14 on. A screen filter 15 is attached directly to the inlet ring opening 14, so that no dust or other foreign bodies get into the cooling device and the Impair the quality of the film. On the inlet housing 9 is an axially stuckable Control slide 16 arranged to regulate the running amount.

The impeller 10, which is received by a bearing 17, is with the by a motor not shown in the drawing driven shaft 18 operatively connected.

In order to achieve the required swirl component during the generation of cooling air To maintain size, or to destroy it, is in the ring channel 8 a Naclileitapparat 11 built-in. This is positively connected to the outlet housing 12. Through the Interchangeability of the outlet housing 12 is the possibility of the blowing direction to change the film tube 5. Ls can go vertically upwards (Fig. 2) or downwards be bent or lie with the guide apparatus 11 in one plane. The outlet housing c 12 is secured by support segments 19 and has a radial exit ring opening 20. A blade grille 21 is attached to the impeller 10 (FIG. 3).

Impeller 10 and blade grille 21 are designed so that the cooling air is promoted directly from the outside to the inside.

As a result, the flow speeds of the cooling air are at the circumference of the film tube 5 is almost constant and there are no losses.

The geometrical dimensions of the arranged on the impeller 10 Schaufolgitter 21 results from the line speed triangles sketched in FIG. 3, where the circumferential speed of the impeller 10 means, c the absolute and w the relative velocity of the air. The indices 3 and 1 mark the entry or Exit.

A centripetal flow occurs when the impeller 10 and the blade grille 21 are dimensioned as follows: Radial ratio r1 / r2 = 0.60 ...... 0.95 Width ratio b1 / b2 = 0.5 ....... 1 deceleration ratio w1 / w2 = 0.65 ...... 0.75 Entry angle ß3 <90 ° Exit angle ß1 # 90 ° Fig. 4 shows a cooling device, which is designed with two branches. This embodiment makes it possible to double Amount of cooling air per unit of time in the co-current and / or counter-current principle to the film tube to blow. The basic structure differs from that described at the beginning and cooling device not shown in FIG. It was 1 - just an intermediate piece 22 arranged, which separates the cooling device in two stages. Inevitably requires this embodiment a new dimensioning of the cooling device.

Claims (6)

Patent claims: 1. Device for cooling tubular plastic films, consisting from a housing with an inlet and outlet opening in which the rotor blades rotate, characterized in that in an annular channel (8) a screen filter (15) provided inlet housing (9) that has a radial inlet ring opening (14), a rotating, centripetal flow-through impeller (10) with blade grille (21), a guide device (11) and an exchangeable outlet housing (12) with a radial Outlet ring opening (20) are arranged. 2. Apparatus according to claim 1, characterized in that the centripetal flow-through impeller (10) with a radius ratio r1 / r2 = 0.6 ... 0.95 and a Width ratio b1 / b2 = 0.5 ... 1 and the blade grille (21) with a deceleration ratio w3 / w1 = 0.65 ... 0.75, an entry angle ß3 <90 ° and an exit angle ß1 # 90 ° is designed. 3. Apparatus according to claim 1 and 2, characterized in that the outlet housing (12) is bent vertically, or with the guide device (11) lies in one plane. 4. Apparatus according to claim 1 to 2, characterized in that an axially adjustable control slide (16) on the Inlet housing (9) is attached. 5. Apparatus according to claim 1 to 4, characterized by a m @ erflutig Interpretation. 6. Apparatus according to claim 1 to 5, characterized in that these below and / or above the solidification line the macromolecular to be processed Material is arranged.