FI77177B - KYLANORDNING FOER EN STRAENGSPRUTAD PLASTKROPP. - Google Patents

Abstract

1. A cooling arrangement for an extruded elongated plastics body (5), particularly with a round crossectional area, having a U-shaped cooling channel (9) which receives the elongated body and is arranged substantially horizontally and having feed devices (11, 12) for cooling water distributed over the length of the cooling channel (9), characterised in that the distance between the surface of the elongated body (5) and the adjacent surface of the cooling channel (9) becomes steadily wider from the lowest point upwards at both sides and that the cooling water is supplied to the feed devices (11, 12) at such a pressure that it is flushed between the outer surface of the elongated body (5) and the inner wall of the cooling channel (9) at a speed of at least 1 m/s.

Description

1 77177 Cooling device for a piece of artificial material pressed through a nozzle

The invention relates to a cooling device for an elongate body with a particularly circular cross-section pressed through a nozzle, the cooling device having a U-shaped cooling chute receiving an elongate body arranged substantially horizontally and a cooling chute located above the cooling chute.

In a known device according to DE-A-2 805 631, an elongate body of artificial material coming out of the nozzle, namely a conductor coated with an insulating substance, follows a hanging chain line. This prevents the still hot and therefore soft insulating sheath from permanently deforming due to the weight-receiving supports, such as rollers. The cooling device immediately following the nozzle has no load-bearing function. The support forces adhere to the elongate body when the artificial material pressed through the nozzle is sufficiently strengthened after leaving the cooling equipment.

However, the manufacturing cost and space required to guide the elongate piece 25 along the suspended chain line is considerable. On the other hand, when guiding the weight horizontally through the supporting cooling device which receives it, it is not possible to prevent a permanent deformation of the coating material from the load-bearing guide rollers.

30 CH patent publication 540 771 discloses a cooling device with a horizontal cooling chute, in which the cooling water is only drained into the cooling chute, whereby the cooling effect is insufficient and no bearing effect is created.

It is an object of the invention to improve the device mentioned at the beginning so that cooling and control of the elongate body is reliably and undisturbed in a substantially horizontal guide.

The solution to this problem is best achieved by the features set forth in claim 1. Preferred embodiments of the invention are set out in the subclaims.

In the solution thus obtained, in which the cooling water is sprayed into a cooling chute shaped in a certain way, both an efficient cooling and a carrying effect are obtained.

The invention and its advantages will be described by describing the preferred embodiment shown in the drawing.

Figure 1 shows a top view of a cooling device shaped in accordance with the invention, located between the spray head of the nozzle and the second cooling device.

Fig. 2 shows a cross-section of the cooling device shown in Fig. 1 in line A-A.

Figure 3 shows a longitudinal section in the line B-B of Figure 2.

In Fig. 1, 1 the nozzle injection head, 2: 11 cooling device according to the invention and 3: 3 cooling device are denoted by 1. A braided electrical conductor 4 is passed through the spray head 1 from several elements, which leaves the spray head as a conductor 5 surrounded by an insulating sheath.

The measuring device 6 checks whether the dimensions of the insulating sheath 5 correspond to the holding values, in particular whether it surrounds the wire 4 in the circumferential direction with a uniform wall thickness. Thereafter, a conductor with a still hot and therefore soft insulating sheath 5 is passed through the cooling device 2 according to the invention. After leaving the cooling device 2, the sheath has solidified so much that it can no longer deform due to the weight-supporting guide rollers 7 in the second cooling device 3.

The essential structural elements of the refrigeration device 2 according to the invention are a water storage tank 8, a cooling 35 chute 9 located above the water surface 10 of the tank 8, as well as inlet devices 11 and 12 transfers the cooling water from the tank 8 to the import installations 11, 12 and 15, from which the water is discharged under pressure into the cooling chute 9 and finally back into the tank 8 in the form of a closed circuit. If necessary, the water in the tank can be cooled to remove the heat removed from the elongate body 5 by a cooling device (not shown).

The elongate body 5 is guided mainly in the horizontal direction of the balance-10. Its weight is supported by a cooling device 2 formed according to the invention with hydraulic water pressure. In this case, no abrasive contact is created between the nozzle-pressed body 5 and the cooling chute 9, rather the body 5 floats in water. Especially with heavy-duty clamping pieces, when, for example, a relatively thin insulating layer is placed on the electric line, the static lifting force can then be almost ignored. The hydraulic forces are produced mainly by dynamic pressure, the water streams coming out of the outlets 20 13, 14 and 16 at elevated speed creating a pressure between the inner wall of the cooling chute 9 and in particular the lower half of the body 5, which produces a The hydraulic discharging force decreases as the distance decreases to the bottom surface of the cooling chute 9, so that the distance is automatically maintained until equilibrium is reached and stabilized.

An important prerequisite for stable and virtually vibration-free fluid control of the body 5 is, in particular, that the cooling chute is formed so that the distance between the elongate body surface and the adjacent surface of the chute, from the lowest point, continuously increases on both sides upwards. between the outer surface of the body and the inner wall of the cooling chute 4 77177 at a speed of at least 1 m / sec. Vertically upward spraying through the openings 16 of the import apparatus 15 has only a supporting function and could, due to the so-called "hydrodynamic paradox" alone, even lead to the absorption of the body 5 5 at the bottom of the cooling chute 9.

Water sprayed from above in the direction of arrows 17 and 18 turns in the lower region of the cooling chute 9 and flows upwards along the body 5 at a reduced speed (arrows 19 and 20) and finally flows differently in the axial area between the two outlets 13 over the edge of the cooling chute 9. to the water storage tank 8.

If optimal control of the body 5 is to be achieved, so that no increased pressure effects occur in any zone 15 of the elongate body 5, the velocity and amount of water leaving the openings 13 or 16 must be adapted to the specific weight and diameter d of the body 5 relative to the radius of curvature R. . It is important, however, that the outlet velocity of the cooling water 20 from the openings 13 is at least 1 m / sec. Experiments show that output speed values of 1.5-2.5 m / sec are preferred.

The amount of water leaving the lower outlets 16 must be considerably, approximately 1: 5, 25 less than the amount leaving the upper openings 13.

In the embodiment, an elongate body 5 with a circular cross-section was required, since such bodies are mainly manufactured, especially in the cable industry. Particularly suitable semicircular cooling troughs with a radius R are suitable for such cables. The diameter d of the body 5 should not be greater than 1.5 times the radius R. The usable ratios are in the range 1.5 R> d <0.2 R.

Of course, the cooling devices according to the invention can also be adapted to non-circular elongate pieces 5 77177 pressed through the nozzle, for example to rectangular cross-sections, provided that the features given in claim 1 in particular are implemented.

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Claims (6)

6 77177 A cooling device for an elongate body (5) with a particularly circular cross-section pressed through a nozzle, the cooling device having a U-shaped cooling trough (9) receiving the elongate body (5) arranged substantially horizontally and located above the cooling trough, lengthwise cooling water supply device (11, 12) characterized in that the cooling trough (9) is formed such that the distance between the surface of the elongate body (5) and the adjacent surface of the cooling trough (9) continuously increases from both sides upwards, wherein the cooling water is introduced between the outer surface of the elongate body (5) and the inner wall of the cooling trough (9) at a speed of at least 1 m / sec. Device according to Claim 1, characterized in that the bottom of the cooling chute (9) is approximately semicircular, the diameter d of the elongate body (5) being less than 1.5 times the radius R of the cooling chute (9). Device according to Claim 1 or 2, characterized in that other cooling water supply devices (15) are arranged below the cooling trough (9) for directing the cooling water upwards against the lower surface area of the elongate body (5). Device according to one of Claims 1 to 3, characterized in that the import devices (11, 12, 15) have flushing openings (13, 14, 16) which are spaced longitudinally apart. Device according to Claim 4, characterized in that the lower flushing openings (16) are arranged in the axial direction in each case between the upper flushing openings (13, 14). Device according to one of Claims 1 to 5, characterized in that the cooling chute (9) is arranged above the water surface (10) of the water storage tank (8) and that the device comprises a pump (P) for pumping water in the flow circuit from the storage tank (8). 8) to import equipment (11,12,15). 5