DE2239746A1 - Thermoplastic hollow profiles calibration appts - having a vacuum calibr-ation device followed by a vacuum cooling tank - Google Patents

Abstract

The vacuum calibration device (I) with cooling equipment is arranged behind the screw press and a vacuum calibration tank through which a coolant flows is arranged behind (I). The vacuum calibration device is formed such that only the outer skin of the profile with any external profile parts and fine contours assume their final shape. The coolant in the vacuum calibration tank dissipates any remaining extrusion heat.

Description

Device for calibrating extruded profiles, esp. Hollow profiles, made of thermoplastic material The invention relates to a Device for calibrating extruded profiles, especially extruded ones Hollow profiles made of thermoplastic material behind the injection head of a plastic screw extruder. - It may be pipes, U-profiles, T- or I-profiles or such, which, such as roller shutter profiles, skirting profiles and the like, made of hollow profile parts as well connected webs and Flanges are assembled.

The best known device for the calibration of extruded profiles The so-called vacuum calibration device (see DT-PS 1 201 038). It is characterized in that on the outside of the to be calibrated Profile a negative pressure attacks, which the profile to be calibrated against the contours the calibration tools or the calibration tool "sucks" - while on the other Side, with hollow profiles inside, the static pressure of the atmosphere prevails. That has in itself, especially in the embodiment with cooled calibration tools, proven and enables the continuous calibration of extruded profiles made of thermoplastic material from the extrusion heat, with a lot low adjustable tolerances in relation to the desired finished dimensions of the profiles, which are hardly subject to statistical fluctuations. However, the vacuum calibration device must carried out as long or by connecting vacuum calibration devices in series of the structure described are duplicated in such a way that the resulting long Calibration section cooling of a profile to be calibrated is sufficient, to prevent that in the profile, esp.

in thicker wall parts of a profile, residual extrusion heat via re-plasticization and relaxation triggers deformations after the profile dies Has left the vacuum calibration device. This is especially true for complicated profiles and often results in considerable lengths of vacuum calibration device, even if a Cooling basin is connected downstream, in which the calibrated profile after leaving the Vacuum calibration device runs in.

In addition, one knows devices for calibrating extruded Profiles and especially hollow profiles made of thermoplastic material in the form of so-called. Vacuum calibration tanks. Such a vacuum calibration tank generally exists from a vacuum container through which a liquid, mostly cooling water, flows calibrating tools connected in series in the coolant are arranged. Here you can cool down very quickly without difficulty, depending on the temperature of the coolant. Tight tolerances on the However, the finished dimensions of the profiles can hardly be adhered to.

The invention is based on the object of a device for calibration of extruded profiles, and especially of hollow profiles, made of thermoplastic To create plastic that is very precise calibration with close tolerances in relation to on the finished dimensions of the calibrated profiles, although with the aids of so-called vacuum calibration works, - but with very short calibration distances to the Result comes, even if it is relatively complicated Profile acts.

The invention relates to a device for calibrating extruded Profiles, especially hollow profiles, made of thermoplastic material behind the spray head a plastic screw extruder. The device according to the invention is marked by combining the following features: a) Behind the die head of the plastic screw extruder a vacuum calibration device with cooling device is arranged first, b) is located behind the vacuum calibration device one of one Coolant flowing through a vacuum calibration tank, the vacuum calibrating device is designed so that only the outer skin in the vacuum calibration device and possibly

existing outer profile sections as well as fine contours their final Take shape with the vacuum calibration tank designed to contain its coolant the extrusion residual heat dissipates. The coolant for the calibration tank is generally used Water. - Under the wording that only the outer skin and any existing outer profile parts as well as fine contours take on their final shape, it is understood, that only there the cooling of the thermoplastic material is sufficiently far is, while the remaining extrusion heat is not only the profiles in more or less plastic condition but can be sufficient beyond that would to the profile behind the vacuum calibration device by replasticizing or relaxation to deform significantly and more or less destructively, namely even if the profile were to be fed into a cooling basin. The invention works from the knowledge that for an accurate calibration, even with tight and very close tolerances, a surface layer calibration carried out in the sense of the above explanations or outer shell calibration is sufficient if it is ensured that the Residual extrusion heat that, as it were, equipped with a hard shell, otherwise but still largely plastic profile not destroyed. According to the invention in the Vacuum calibration device first performed this surface layer calibration, which is then frozen in the vacuum calibration tank. As a result the result is a very precise calibration, which is especially suitable for fine contours is and it allows extremely small tolerances for the finished dimensions to guarantee, while nonetheless with a very compact calibration device can be worked. The calibrated profiles are very largely free of internal ones Tensions and therefore dimensionally stable in the long term and free from long-term relaxation phenomena. This applies to a wide variety of materials. On a downstream cooling basin can be dispensed with if the subsequent installation of such a system is also possible within the framework of the Invention lies. As already described at the beginning, the profiles can be around hollow profiles, open profiles or combinations of both embodiments Act. The wall thickness of the profiles is irrelevant for the result. Particularly easy one arrives at the desired design of the vacuum calibration device, if, according to a preferred embodiment of the invention, the vacuum calibration device from a plurality of calibration tools arranged one behind the other with a gap spacing consists in a vacuum housing connected to a vacuum source are housed, and that the calibration tools have circumferential cooling channels. The extrusion residual heat can be removed in a very simple manner if the Cooling of the individual calibration tools can be controlled or regulated independently of one another is.

In particular, there are several options for the design of the vacuum calibration device on the one hand, the vacuum calibration tank on the other. - Regarding the vacuum calibration device is a preferred embodiment of the invention characterized in that the Vacuum calibration device made up of a plurality of one behind the other with gap spacing arranged calibration tools, which in a to a vacuum source connected Vacuum housing are housed, and that the calibration tools rotating Have cooling channels.

It may be useful to make the arrangement so that the Cooling of the individual calibration tools can be controlled or regulated independently of one another is. Gap distance means that the distance between one behind the other Calibration tools is relatively small in relation to the direction of pulling through of the profiles measured thickness of the calibration tools themselves. - Regarding the design the vacuum calibration tank is a preferred embodiment of the invention thereby characterized in that the vacuum calibration tank has a plurality of (considerable) Has cooling distance from one another arranged calibration disks, which in a a 'vacuum source connected vacuum container for the coolant is arranged are, and that the profile between the calibration disks was washed by the coolant is. The number of calibration disks depends on the circumstances.

In the context of the invention, the device for calibrating extruded Profiles are basically designed so that the extruded profiles after leaving of the spray head and before entering the device for calibration with respect to its diameter still have to experience a widening, but it can also be designed in this way be that a diameter reduction or retraction occurs. That hangs under among other things also from the thermoplastics from which the extruded Profiles to be calibrated are built up.

Extreme results in terms of accuracy can be obtained if if, according to a preferred embodiment of the invention, the calibration tools of the vacuum calibration device and possibly also the calibration disks of the vacuum calibration tank individually or all together as drawing tools. Underneath will understood that the profiles when passing these drawing tools still have a cross-section reduction Experienced.

In the following the invention is based on only one embodiment Illustrative drawing explained in more detail.

1 shows a longitudinal section through a device according to the invention for calibrating extruded profiles made of thermoplastic material, Fig. 2 shows a section in the direction A-A through the object according to FIG. 1, FIG. 3 shows a section in direction B-B through the object of FIG. 1.

The device shown in the figures is used for calibration of extruded profiles 1 made of thermoplastic material behind the spray head 2 of a plastic screw extruder, not shown. In the exemplary embodiment may it be the calibration of an extruded hollow profile, namely one Act tube i made of thermoplastic material.

It can be seen from Fig. 1 that the device according to the invention is combined from a vacuum calibration device 3, which is behind the spray head 2 of the plastic screw extruder is arranged, and one of a coolant 4 traversed Vacuum calibration tank 5, which is connected to the vacuum calibration device 3 connects. In general, the overall arrangement will be made as it is Fig. 1 also shows where namely initially between the spray head 2 and the vacuum calibration device 3 a small distance is realized, which is a cross-sectional retraction of the to be calibrated Profile 1 allows, while directly to the vacuum calibration device 3 of the vacuum calibration tank 5 is connected. The vacuum calibration device 3 is designed so that in the Vacuum calibration device 3 only the outer skin and any external ones that may be present Profile parts and possibly existing fine contours of the profile 1 their final Assume shape - while the remaining extrusion heat is sufficient for the rest wUrde to the profile 1 behind the vacuum calibration device 3 significant and destructive to deform, even if it is introduced into a downstream cooling basin would take place. In the enlarged section of FIG. 2 it can be seen that only the outer skin la of the pipe 1 to be calibrated in the vacuum calibration device 3 has experienced sufficient cooling. For this purpose, this cooled outer skin is la with a special hatching, the inside lb of the pipe wall is still in one more or less plastic state. According to the invention, however, the vacuum calibration tank 5 designed so that its coolant 4 - mostly water dissipates the extrusion residual heat. In other words, the state created in the vacuum calibration device 3 becomes frozen, as it were.

In the exemplary embodiment and according to a preferred embodiment of the invention the vacuum calibration device 3 consists of a plurality of gap spaced 6 calibrating tools 7 arranged one behind the other, which are connected in one to a vacuum source 8th connected vacuum housing 9 are housed. The calibration tools 7 themselves have circumferential cooling channels 10, which generally correspond to the # profile contour follow. The individual calibration tools 7 can be cooled independently of one another be controllable or adjustable.

According to a preferred embodiment of the invention and in the exemplary embodiment the arrangement is also made so that the vacuum calibration tank 5 a Has a plurality of calibration disks 12 arranged at a cooling distance 11 from one another, in a vacuum container also connected to the vacuum source 8 ' 13 for the coolant 4 are arranged. Profile 1 is between the calibration disks 12 washed around by the coolant 4. The thickness of the calibration disks 12 is fundamental Any, in general it is a question of relatively thin calibration disks 12, which in turn do not require special cooling. It can be seen from FIG. 1 immediately that the calibration tools 7 of the vacuum calibration device 3 but also the calibration disks 12 of the vacuum calibration tank individually or all at the same time can also be dimensioned as drawing tools.

Claims (5)

Expectations @ Device for calibrating extruded profiles, esp. of extruded hollow profiles, made of thermoplastic material behind the extrusion head a plastic screw extrusion press, g e k e n n n g e i n e t through the combination the following features: a) behind the extrusion head (2) of the plastic screw extruder a vacuum calibration device (3) with cooling device (10) is arranged first, b) behind the vacuum calibration device (3) there is one of a coolant (4) through-flow vacuum calibration tank (5), wherein the vacuum calibration device (3) is designed so that in the vacuum calibration device (3) only the outer skin and possibly existing outer profile sections as well as fine contours of the to be calibrated Profile (1) assume their final shape, furthermore the vacuum calibration tank (5) is designed so that its coolant (4) dissipates the extrusion residual heat. 2. Apparatus according to claim 1, characterized in that the vacuum calibration device (3) from a plurality of calibration tools arranged one behind the other with gap spacing (6) (7) consists in a vacuum housing connected to a vacuum source (8) (9) are housed, and that the calibration tools (7) circumferential cooling channels (10) have. 3. Apparatus according to claim 2, characterized in that the cooling the individual calibration tools (7) can be controlled or regulated independently of one another is. 4. Device according to claims 1 to 3, characterized in that that the vacuum calibration tank (5) has a plurality of cooling spaces (11) from one another arranged calibration disks (12), which in a to a vacuum source (8) connected vacuum tank (13) for the coolant (4) are arranged, and that the profile {1) 'between the calibration disks (12) from the coolant (4) is washed around. 5. Device according to claims 1 to 4, characterized in that that the calibration tools (7) of the vacuum calibration device (3) and possibly also the calibration disks (12) of the vacuum calibration tank (5) individually or all together are dimensioned as drawing tools.