DE4337497A1 - Device for separating particles of thermoplastic materials having respectively different softening points - Google Patents

Abstract

Published without abstract.

Description

The invention relates to a device for separating Plastic particles with different softening points from a batch flow containing these particles.

It is known to transfer the batch flow to a heated one Admit rolls of continuous, endless metal tape, whereby the temperature of the endless metal strip is chosen such that it is above the softening point of one art particle fraction of the batch flow and below the Softening point of the other plastic particle fraction of the batch flow, so that the by the hot circumferential band soften plastic particles on the Glue all-round metal tape, but due to the tempera door of the surrounding metal band not yet softenable Plastic particles are thrown off the metal strip, while the glued particles in a certain Ab cut the path of the surrounding metal strip lifted off or can be squeegeeed and this way too a separation of the batch flow into plastic particles different softening temperature comes.

Depending on the properties of the batch flow supplied by Plastic particles of different softening temperatures the separation result is not with known devices always satisfactory.

For example, the batch flow takes the form of foils shred, so are shreds of foil different Type of plastic after giving up the batch flow on the heated circumferential metal band on top of each other, such that a plastic chip higher softening temperature than the cutlet on the bottom is the plastic on top Schnitzel low softening temperature before sticking  protects on the metal band and therefore a sorting effect does not come about.

Plastic particles of certain body shape also have off after the batch flow has been applied to the heated water tallband only small contact area with the metal band, the art that if the plastic particle in question softened class, such softening does not sufficient adhesion to the heated metal strip leads and this plastic particle despite belonging to the softenable plastic class of the metal band is dropped before that section of the belt path reached, in which the belonging to this plastic class Particles are scraped off the metal band.

Another problem with the type of Sor considered here tion of thermoplastics different Softening point is that by surface ver the adhesive effect on the heated metal belt is not cleaned is falsified, as it were, by gravity caused task of the plastic particles, in which this fall down on the heated metal band, not to do so enough, the art of the composition glued on material particles from one due to the belt temperature not distinguish between adhesive plastic particles.

All of the problems outlined above are with the Sorting thermoplastic plastic particles from one Batch flow therefore comparatively difficult to control, because the softening temperatures of the thermo plastic plastics relatively close together lie.

A technical solution by shaking the sorting device to increase the likelihood of touch between to sorting plastic particles and heated metal belt  does not always lead to an improved sorting result, especially because the plastic particles are due to their low weight over that on the heated Me tallband abandoned batch flow swim without that through the shaking movement of the system, the true touch Probability of individual particles compared to the heated Metal band is increased significantly without the above difficulties identified due to the shape of the body Particles could be removed and without Ver falsifying the material-related softening of an art Removed material particles due to surface effects could be.

In known sorting devices of the type considered here there is also the difficulty that the time of softening plastic particles to be sorted out of the batch flow essential parameter for the sorting result is why a comparatively slow belt speed of the Sor animal organ in the form of the heated metal band for a satisfactory separation result is required.

The present invention is intended to solve the problem of a direction for sorting thermoplastic particles of different softening point with the Merk paint the preamble of claim 1 ausgestal that a high purity of the sorted fractions thermo plastic plastic particles of different softening point at a comparatively high throughput speed of the particles to be sorted is achieved.

This task is performed by those in the characterizing part of the lying claim 1 specified features solved.

Advantageous embodiments are in the claim 1 ordered claims, the content of which is here by expressly made part of the description without repeating the wording here.  

However, it should be noted that due to the information given here Construction does not suggest the proposed facility correct shapes of the particles to be sorted, such as foils schnitzel, granules and the like, is limited, but in a comparatively wide range of possible shapes particles to be sorted can be used.

One possible faster with the present device Run through the sorting batch flow or its parts kel facilitates the regulation of the temperature of the heated Metal strip in such a way that even fractions with relatively slight difference in the softening temperatures of the sor plastics with satisfactory sorting results nis can be sorted and that for the sorting ver driving energy to be kept relatively low after the be used for the sorting effect heated metal strip surface is large.

The invention is described below using an exemplary embodiment explained with reference to the drawing.

The only drawing figure represents schematically in perspective is a device of the type given here, the results for the person skilled in the art from the description Modifications do not need to be presented.

According to the drawing figure, a batch flow to be sorted of thermoplastic plastic particles A at a higher softening temperature and from thermoplastic plastic particles B at a comparatively lower softening temperature is supplied via a belt conveyor 1 . This belt conveyor extends through a window 2 of a device 3 of the type specified here and throws the batch flow A + B onto an endless, heated metal belt 4 rotating around rollers. By means of a heating of the metal strip 4 from the underside, the heating device 5 is caused that due to a corresponding regulation of the heating device 5, the metal strip 4 has such a temperature that only the plastic particles B of the batch flow A + B melt on the metal strip and finally through one Scraper or squeegee 6 are lifted off the metal belt and dropped onto a conveyor 7 , while the plastic particles A not adhering to the heated metal belt 4 are finally dropped from the heated metal belt or from the device 3 and reach the conveyor 8 . To this extent, conditions prevail in the facility proposed here, as also prevail in corresponding known facilities.

The mentioned means 3 includes a on a base frame 9 tiltable about a tilting axis 10 pivoting frame 11, wherein the angular position of the pivot rack relative to the base frame 9 is 11, for example by means of a lifting cylinder 12 set such that the tilt angle α depending on the Quali ty of the mixed stream A + B can be varied.

On the swivel frame 11 there is a drive roller 13 mounted on the fly, and also on the swivel frame 11 overhung, an arrangement of rollers 14 , 15 and 16 . The rollers 13 and 14 are in the position shown in the drawing with their mutually parallel axes of rotation substantially at the same height (disregarding the tilt angle α), while the rollers 15 and 16 above the level of the axes of rotation of the rollers 13 and 14 ge are laying.

The way for the heatable metal strip 4 is completed by a tension roller 17 , which on the swivel frame 11, in contrast to the rollers 13 , 14 and 15, is not approximately stationary, but changes in the direction of arrow P with parallel displacement of its axis of rotation or can be displaced on it Swivel frame 11 is mounted such that the belt tension of the rotating endless metal belt 4 or its circulation path can be changed via the rollers.

The rollers 13 and 17 are arranged such that there is a substantially horizontal upper run section of the belt 4 between them in the direction of the belt indicated by the arrow D; the rollers 17 and 16 are arranged in such a way that from the roller 17 the belt 4 runs obliquely upwards and over the roller 17 over to the belt 16 , in order then to leave it in the direction of the roller 15 , on which the Scraper or squeegee 6 abuts to lift component or fraction B. From the roller 15 , the belt 4 runs essentially vertically downwards to the roller 14 and from there in the horizontal direction as a lower run back to the driven roller 13 . (The directions given above naturally do not take the angle α into account).

The roll shell of the roll 17 consists of a material which in no case absorbs an adhesive bond or adhesive bond to the plastic particles of the batch flow A + B, for example, that is, from polytetrafluoroethylene. The rollers 14 , 15 , 16 and 17 can be free-running rollers. They can also be driven by a common synchronous drive with the same circumferential speed. According to a preferred embodiment, however, the roller 17 is driven at a slightly greater or a slightly smaller peripheral speed than the belt speed of the belt 4 , so that a certain small path difference between the belt 4 and the roller 17 takes place in their area.

Because of the friction and scraping effect of the scraper or doctor blade 6 in the region of the outer circumference of the roller 5 on the surface of the belt 4 , the belt section between the roller 15 , the roller 14 and the driven roller 13 is stretched, while the belt 4 between the roller 13 , The roller 17 , the roller 16 and finally the roller 15 passes through without tension and is held taut essentially only by the tension caused by the roller 17 and its pivoting around the arrow P.

A scraper or squeegee 18 , also overhung on the angular swivel frame 11 , is used for lifting about stuck on the roller shell of the roller 17 and not stuck to the heated metal belt 4 plastic particles, which anyway from the non-stick roller shell of the roller 17 on the metal belt 4 would be dropped.

With respect to the illustrated floating mounting of all the rolls to determine the circulating path of the metal strip 4 and the scraper or doctor blade 6 and 18 is to say that the floating bearing allows an easy replacement of the metal strip. 4 However, it can also be provided on the side facing the viewer with reference to the representation of the drawing part, which enables bilateral storage and support of the rollers for determining the circulation path of the metal strip on the swivel frame 11 .

If now the mixed stream A + B abandoned by the conveyor 1 onto the metal strip 4 close to the edge, where the the window 2 having backplane of the pivot rack 11 is close, as indicated by arrows in the drawing figure, so wan of the mixed stream changed with the two mixed stream components About the heated by the heater 5 zone of the strip and those parts whose softening temperature is below the temperature of the heated metal strip stick to the metal strip 4 and are carried up between the roller 7 and the metal band to the roller 16 , the roller 7 pressed resiliently against the metal strip causes those plastic particles whose softening temperature is below the strip temperature, but which still doubt as to be stuck on, are pressed firmly against the heated metal strip, some of which have the finest surface coverings which could prevent sticking, burst open. Non-glued plastic particles of component A and, so to speak, undecided particles of component B are again fed to the heated belt section between the rollers 13 and 17 via the circumference of the roller 17 and the scraper 18 and again between the roller 17 and the belt 14 to the roller 16 promoted.

The roller 17 has a comparatively large diameter and the roller 16 has a comparatively small diameter. Due to the curvature of the heated belt 4 on the roller 16 , plastic particles of component A, which have caught between adhered plastic particles of component B, are thrown off at the outer circumference of the roller 16 and reach the tape section between the rollers 13 and 17 , such that on the belt section between the rollers 16 and 15 finally behaviorally pure streams of plastic particles B arise.

A plurality of parallel currents on the belt section between the rollers 16 and 15 is based on the fact that the entire arrangement on the swivel frame 11 is tilted with the tilt angle α about the axis 10 , such that all plastic particles which adhere to the heated metal edge 4 due to upper adhering surface softening, move on the belt in a plane deviating from the vertical plane to the base 9 by the tilt angle α. The non-adherent to the metal belt 4 Gemen gestrompartikel but initially move in the area of the contact between the belt 4 and the roller 17 in said plane, but then falls vertically back to the tape 4, such that after repeated circulation this non-adhering particles in the area of the roller 17 are screw-like in the direction of the viewer of the drawing figure and are subjected to a sorting each time they pass through the nip between the belt 4 and the roller 17 , which sorting process during the first entry of the quantity flow into the nip between the belt 4 and the roller 17 corresponds. Finally, on the paths marked by the arrows Pa, essentially only batch flows with the particles A leave the device 3 and fall onto the conveyor 8 , while batch flows with particles B follow parallel paths along the belt section between the rollers 16 and 15 to the scraper or Squeegee 8 wan change and be dropped there on the conveyor 7 .

The described device has the advantage that the heating device 5 can be set very sensitively to a strip temperature slightly above the softening temperature of a component of the batch current and that a gradual sorting out of the softened thermoplastic component then takes place through multiple cycles, according to a training in the field of the outer circumference of the roller 16, further means, such as compressed air streams and the like, can serve to reject particles of higher softening temperature which have been carried along by mistake and to convey them back to the heated belt 4 . It proves to be particularly expedient to choose the course of the belt 4 in the region of the roller 16 such that the circumferential region on the left with reference to the drawing lies above the corresponding circumferential region of the roller 17 or projects further to the left beyond it.

The aforementioned possible small difference in speed of the roller 17 compared to the predetermined by the drive roller 13 Wande approximately speed of the belt 4 has the advantage that between the outer circumference of the roller 17 and the belt 4 plastic particles are moved, rolled and scrubbed, which increases the likelihood of contact and the effectiveness of the contact with the plastic particles of fraction B to be softened is increased and, as it were, erroneously held plastic particles of fraction A are freed. This improves the separation result.

The heater 5 can be moved in an area of the path of the Ban des 4 near the roller 17 and be designed so that it causes the circulating metal strip 4 to reach the softening temperature of the lowest melting component of the batch flow only very briefly, which is the energy balance the system improved and the sorting result did not deteriorate, since this is kept at a high level due to the multiple circulation of incompletely sorted batch flow components around the roller 17 .

A prerequisite for the above-described mode of operation of sorting a batch flow from components A and B is to maintain a constant temperature of the metal strip 4 over its transverse extent in the area indicated by hatching immediately above half of the heating device 5 . However, if the temperature of the belt 4 increases in the transverse direction and along the heating device 5 in the direction of the viewer of the drawing figure, it is possible to use components with different softening temperatures on the scraper or squeegee 6 across its transverse direction Viewer of the drawing figure of increasing softening temperature. For this purpose, the material removed from the scraper or squeegee 6 is not thrown onto a conveyor 7 , but instead passes into separate receiving troughs.

It should be mentioned that the metal strip 4 along its edge adjacent the upstanding wall of the swivel frame 11 can be provided with a perforation outside the feed point of the feed conveyor 1 and the driven roller 13 can have an engaging toothing in the perforation in order to drive the Band effectively against increased frictional forces due to the scraper or squeegee 6 . The resilient displaceability of the running axis or drive axis of the roller 17 perpendicular to the direction of the axis allows plastic particles of considerable thickness to be sorted to pass between the roller 17 and the heated belt 4 in such a way that the system described here does not rely on the sorting of essentially flat parts , such as shredded film, is limited.

In order to ensure easy interchangeability of the endless metal strip 4, the roller 17 does not need to be overhung like the other rollers, but can also be mounted together with its scraper or squeegee 18 on a separate fork which is connected to the frame 11 Ge control parts is pivotally supported.

Claims (8)

1. A device for separating particles of thermoplastics, each with a different softening point, with a heated, continuous roller over, tall Me tallband, on which the batch flow is given, where is chosen in the way of the metal strip over the rollers so that not by softening adhered thermoplastic plastic particles are thrown off the metal strip, while softened adhered plastic particles are scraped off the metal strip, characterized in that the flexible endless metal strip ( 4 ) from a driven roller ( 13 ) along a heated ( 5 ) approximately hori zontal Section in which the batch flow is fed to one ( 17 ) of the further rollers and from this diagonally upwards and set back towards the driven roller to a second ( 16 ) of the further rollers, in the area of which the Me tallband not bonded plastic pa Rtikel fall back to the approximately horizontal band section, that the metal band further from the second ( 16 ) of the further rollers is again approximately horizontally and moving away from the driven roller to a third ( 15 ) of the further rollers, in the area of which scraping is stuck Plastic particles are made so that the flexible metal strip is guided downwards from this roll to a fourth ( 14 ) of the further rolls and then back to the driven roll ( 13 ). 2. Device according to claim 1, characterized in that the flexible metal band ( 4 ) outside of the area on which plastic particles to be sorted are provided with a perforation and that the driven roller ( 13 ) is provided with a toothing engaging in this perforation . 3. Device according to claim 1 or 2, characterized in that below the between the driven roller ( 13 ) and the first ( 17 ) of the other rollers extending Bandab section extending across the belt, in particular adjustable in the longitudinal direction of the belt, Temperature-controllable heating device ( 5 ) is located. 4. Device according to one of claims 1 to 3, characterized in that the first ( 17 ) of the other rollers with an anti-liability coating, in particular made of polytetrafluoroethylene, is provided. 5. Device according to one of claims 1 to 4, characterized in that one of the further rollers, in particular the first ( 17 ) of the further rollers is designed as a belt tension changing ver, pivotable perpendicular to its axis of rotation and ver sliding tensioner. 6. Device according to one of claims 1 to 5, characterized in that a scraping device ( 18 ) acts on the free circumference of the first ( 17 ) of the wide ren rollers. 7. Device according to one of claims 1 to 6, characterized in that all the rollers on a frame ( 3 ) are ge, which is adjustable by means of a drive ( 12 ) about a tilt axis ( 10 ) which is perpendicular to the rotation axes of the rollers is oriented. 8. Device according to one of claims 1 to 7, characterized in that the first ( 17 ) of the other rollers with a slightly different from the peripheral speed of the driven roller ( 13 ), in particular adjustable order speed can be driven.