DE3920203C1 - Reinforced extrusion pressed thermoplastic profile prepn. - by feeding melt from plasticising unit to tubular moulding unit carrying reinforcement - Google Patents

Abstract

Continuously producing reinforced extrusion pressed profiles and mouldings made of a thermoplastic, esp. a plastic which is recycled, includes feeding a melt from a plastification unit directly to a tubular moulding unit which carries the reinforcement. The appts. used pref. includes a unit which feeds the reinforcement into the moulding unit. The appts. pref. also includes a cooling station consisting of a water bath. ADVANTAGE - The process enables reinforced extrusions to be produced continuously.

Description

The invention relates to a method for continuous Nuclear manufacture of armored extruded Profiles and moldings made of thermoplastic art material, in particular with fillers and foreign substances offset recycled plastic and a device to carry out the procedure.

In DE-PS 5 29 469 is a process for the preparation of fittings from casein artificial horn, in which a slightly moistened casein mass from a press Kneading device according to the type of spindle extrusion press in the hollow form used for shaping against a counter pressure is transferred, the casein mass from the mouthpiece of the pressing device pressed into a shape is a floor that is movable against the counter pressure Has.  

In DE-AS 11 81 897 an injection molding process for Production of foam structures from expandable grains be made of thermoplastic resinous material wrote, part of the through the spray chamber to be pressed through an injection molding device Granules in a first cold zone of the spray chamber at a temperature below the foaming temperature Temperature is compressed while another, part of the grains under the pressure generated in a second one following the cold zone heated zone is heated to the foaming temperature, and that then part of the heated, in flowable according to the state of the mass in an exit zone the chamber is pressed from which the mass under Be preventing free flow into a mold is injected, in which the foaming takes place.

The two above-mentioned methods can be used probably produce profiles and moldings, but it is difficult to incorporate reinforcement into these profiles In practice, the reinforcement is mostly introduced by hand, which goes without saying affects the cost sector. Profiles and molded parts from more or less contaminated recycling Plastic are currently in separate, expensive Molds made using heavy presses, the  Reinforcement is also introduced by hand.

It also points to another possibility instructed a metal profile during the pressing process to be introduced simultaneously with the melt (P 39 07 748.9).

However, with these previously known methods no hollow profiles or moldings with recesses to save weight and material.

The object of the invention is a method and Develop device for performing the method keln, which enables in a continuous Reinforced extruded profiles  and moldings from heavily contaminated Manufacture recycled plastic using the profiles a smooth surface, high density and therefore one have particular strength and the profiles can also be produced as hollow profiles.

This task is carried out by the characteristic part of the Claim 1 solved. Which come out of the plasticizer tten melt is immediately a molding fed, which is tubular and in whose interior a plug is arranged, which by braking elements on the axial displacement is prevented and which recordings to hold the Reinforcement carries. The one entering the molding body Melt presses the braked stopper to the end of the shaping body, the reinforcement progressing tends to move the plug into the melt is embedded. Depending on the resistance of the brake elements can regulate the density of the molded body will.

In an advantageous embodiment of the invention, the Plasticizer almost perpendicular to the feed direction device of the reinforcement. This will make the Construction of the device is significantly simplified.

In addition, at least two molded articles can a drum that can be moved gradually in a circle to be in order. The full moldings can be so easily a cooling station, e.g. B. a water bath and a Ent go through the emptying station. By shrinking the The cooled profile can be made of plastic easily remove from the molding. In the The following stations can then be used for the molding  be prepared for refilling, whereby a Continuity of the operation is achieved.

Furthermore, recordings can be made in the slidable plug be arranged for the reinforcement. This is suitable on best a plug-in clamping device. With one Furnishing can not only hold the reinforcement can be reached in the shortest possible time, just as quickly can also detach after reaching the profile length of reinforcement and grafting.

Furthermore, a core for material displacement in the Shaping body be inserted. The plug together the reinforcement pushes over this core, so that hollow profiles can also be produced with it. In particular especially with larger profile cross sections weight and material can be saved.

For easier removal of the core, this can also be used as Be spreading core. Cores can also be used made of cardboard or other materials, which then remain in the profile as lost cores.

The reinforcement is cut to length so that this is completely drawn into the molding body, so soon the total length of the profile is reached. Only then does the drum advance one station, whereby the production of a new profile turned on is leading.

Using an Aus shown in the drawing the invention is explained in more detail will. It shows

Fig. 1 is a schematic representation of a device according to the invention in section;

Fig. 2 is a partial view from the extruder side.

As can be seen from Fig. 1, the system consists of a plasticizer 1 , which is arranged stationary. This can, as can be seen from FIG. 2, be arranged laterally, the nozzle being angled, but it can also have a straight nozzle if the plasticizer is arranged perpendicular to the shaping body 3 on a step-by-step drum 7 , in such a way that the inlet opening 10 for the melt 2 coincides with the nozzle 11 of the plasticizer 1 when the drum 7 is at a standstill. The melt 2 penetrates into the cavity between the plug 5 and the wall 12 of the molding body 3 and pushes the plug 5 against the resistance of the Bremselemen te 6 in the axial direction against the end 13 of the molding body 3 . When moving the plug 5 , the reinforcement 4 is continuously drawn into the bil forming profile. The reinforcement 4 is clamped in receptacles 8 , which are located on the plug 5 . The length of the reinforcement 4 is dimensioned such that it comes to lie within the wall 12 of the shaping body 3 as soon as the plug 5 has reached the end 13 of the same. The newly formed profile has thus reached its predetermined length. The drum 7 is now moving to the next station, with at the same time an empty molding body moves toward the nozzle 11 3, to coincide again the inlet opening 10 with the same, so that the molding can be body 3 is filled again. In a non-recorded cooling station, such as. B. a water bath, the profile is cooled, it shrinks during solidification and can be easily removed from the shaping body in the subsequent emptying station (not shown). In the other stations not shown, the plug 5 is promoted to the starting position and equipped with new reinforcement 4 . The drum 7 with the shaping bodies moves counterclockwise in the direction of the arrow.

In the case of hollow profiles, a core 9 is inserted into the shaping body 3 , the plug 5 having a bore 14 which is dimensioned such that it can slide over the core 9 as the shaping body 3 progressively fills. The core 9 is anchored in the same position as the shaping body on the drum 7 or mounted ver slidably in the horizontal direction. Instead of a fixed core 9 , a core of z. B. cardboard can be used, which then remains as a lost core in the profile. For easier emptying, a solid core 9 is advantageously designed as an expanding core.

Claims (8)

1. A process for the continuous production of ar mated extruded profiles and moldings made of thermoplastic material, in particular made of recycled plastic mixed with fillers and foreign substances, characterized in that the emerging from a plasticizer ( 1 ), not fully digested melt ( 2 ) immediately bar a tubular shaping body ( 3 ) with a reinforcement ( 4 ) carrying and with a defined resistance to displacement stopper plug ( 5 ) is supplied. 2. Device for performing the method according to claim 1, with a device for feeding the reinforcement into the shaping body and with a cooling and an emptying station, characterized in that the plasticizer ( 1 ) is arranged approximately at right angles to the feed direction of the reinforcement ( 4 ) is. 3. Apparatus according to claim 2, characterized in that the displaceable stopper ( 5 ) in the shaping body ( 3 ) is held by braking elements ( 6 ) with a defined resistance to displacement. 4. The device according to claim 3, characterized in that at least two shaping body ( 3 ) on a gradually movable in a circle drum ( 7 ) are arranged. 5. The device according to claim 4, characterized in that receptacles ( 8 ) for the reinforcement ( 4 ) are arranged on the displaceable plug ( 5 ). 6. The device according to claim 5, characterized in that a core ( 9 ) for material displacement in the molding body ( 3 ) can be inserted. 7. The device according to claim 6, characterized in that the core ( 9 ) is designed as an expanding core. 8. The device according to claim 7, characterized in that that the cooling station consists of a water bath.