DE1800169C3 - Filter device for extrusion presses and injection molding machines for processing thermoplastics - Google Patents

Description

45

The invention relates to a filter device for extrusion presses and injection molding machines for continuous Processing of thermoplastics with at least two separate sub-channels Sieves arranged exchangeably between the inlet channel and the outlet channel of a housing.

DT-PS 1131 875 describes a nozzle for processing plastic materials in screw presses or the like, whereby the nozzle channel forks between the inlet side and the outlet side into several separate sub-channels, each of which has an interchangeable sieve shut-off devices are provided which make it possible, for example, that a nozzle channel closed by the associated valve and the other channel is opened so that the replacement of a dirty screen possible and the operation - as seen in the flow direction of the material - in front of and behind the sieve the device can be continued continuously via the other channel.

In the known device, however, it cannot be avoided that the one with the fresh sieve provided channel located air bubble in the actual outlet channel, so that in Austritiskana! A break in the flow of goods occurs, despite the fact that the flow of goods can be supplied continuously.

The breaking off of the flow of material in the outlet canal due to air bubbles or also due to cooling material but has an interruption of the continuous Drawing process result

The invention is based on the object of a replacement to enable dirty or damaged sieves in the facility defined at the beginning, without a break in the continuously flowing Maierialstrom due to the replacement Sieve entrained air bubble in the outlet channel of the filter device must be feared.

This underlying the invention Aurgabe is achieved in that the screens are arranged in at least two sealingly but displaceably mounted in housing bores screen plunger, which extend transversely on both sides having the screen opening to the sieve opening parallel to the longitudinal axis of each screen plunger extending Luiiungsnuiv.'n.

By this measure, the object underlying the invention is achieved and ensures that the Guutro arriving at the outlet side of the device; ii Continuous despite changing the sieve channels flows.

In US-PS 30 07 199 are in the housing bores Sealing but displaceably mounted Sicbbolzen described, which have the sieves, but this can known device do not suggest the solution of the specific problem according to the invention. Also the according to DT-AS 12 38 198 known drain lines for air and impurities in a filter device an extruder for plastic materials do not point in this direction of solution, as this is known Filter device no longitudinally displaceable sieve bolts are provided.

Further advantageous embodiments are explained in the subclaims.

An embodiment of the invention is explained below with reference to the drawings. The painting pointer, while in

F i g. 1 a section through the facility,

F i g. 2 shows a section through the device, but at 90 ° compared to the illustration in FIG. 1 rotated,

F i g. 3 partially sectioned a sieve bolt in a larger view,

Fig. 4 and 5 working positions of the sieve bolts and the sieves arranged in the sieve bolt,

F i g. 6 shows a section or a view of an actual sieve.

In Fig. 1 is 1 with a housing connected between the extruder nozzle 2 and the actual feed channel 3 designated. As is generally known from extruder construction, the entire device is heated and is appropriately insulated against heat loss.

In the housing, the channel coming from the supply channel 3 divides into two channels 4 and 5, which are allocated to each other unite a nozzle channel 6. The sieve bolts 7 and 8 are arranged in the path of the channels 4 and 5.

The formation of the sieve bolt is clearer from the larger representation in FIG. 3 emerges. The sieve bolt has sealing grooves 9 at its ends and is adapted to the sieve 10 to be received or 11 formed sieve opening 12 equipped. from of the sieve opening extend parallel to the longitudinal axis

18 OO

se of the bolt ventilation grooves 14 and 15.

The sieve bolts 7 and 8 can be displaced in the housing 1 transversely to the path of the flow of material, preferably with the aid of one of the FIGS. 4 and 5 schematically illustrated hydraulic displacement device 16. To ensure that the sieve bolts 7, 8 ensure that the sieves 10, 11 are constantly transverse are aligned to the flow of material, it is provided that d & ß either the sieve bolt or the hydraulic displacement device that enables the longitudinal movement of the sieve bolt 16 enables a correct position of the sieve bolts, for example through groove guides or the like.

In the sieve opening 12 graze from FIG. 6 recognizable Sieves 10 are inserted, with many sieve bores 17 arranged at the same distance from one another are equipped. On the upper side of the screen 10, specifically on the so-called exit side, there are webs 18. 19, 20 and 21 are provided, as shown in the sectional view in Fig. 6 can be seen from the edge of the Reinforce the sieve plate conically towards the center, whereby, as shown in FIG. 3, the sieve opening 12 can be seen one of the conical exit side of the sieve plate has a correspondingly adapted shape and the flat Front side 22 of the sieve plate is aligned parallel / ur longitudinal axis of the sieve bolt.

The filter device works as follows: The feed of the stream of material takes place in the case of the FIG. 1 construction shown in the direction of the arrow "F" and it is possible if the two screens 10 and 11 are arranged one below the other so that the flow of material divides evenly and now the sieves 10 and 11 flows through the sieve bolts 7 and 8 and flows out via the nozzle channel 6. Should now, for example the sieve II to be replaced becomes a hydraulic one Shifting device 16 operated in such a way that the sieve bolt 7 in FIG. 4 is guided to the left and thereby the sieve 11 came out of the Guisirom.

As soon as the ventilation groove 14 comes free from the area of the material flow or the channels 4 and 5, that is Sieve 11 shut down and can now, if the sieve bolt 7 in the in F i g. 5 position shown performed will be removed from the Siebboizen. A corresponding new sieve can be used. whereby due to the contact of the sieve pin 7 with the heated housing 1 ensures a substantially constant temperature in the sieve bolt will.

If the sieve bolt 7 is now moved back again by actuating the hydraulic displacement device 16, first the ventilation groove 15 comes into the area of the channel 4, and that in this channel below Substantial overpressure standing material is pressed through the ventilation groove 15 into the space of the sieve 11. The goods are collected here until this space is completely filled. and then flow the material from the sieve space through the ventilation groove 14. So it can be determined from the outside whether the any air in the sieve space and sieve has been completely removed. By hamlet method of the sieve bolt according to On the right, more and more material is getting into the sieve space. and -S ensures that every tiny air bubble. which is located in the sieve space, is removed. As soon as the sieve bolt 7 has now moved so far to the right is. that the ventilation groove behind the in F i g. 4 reaches the edge of the housing marked 23, no leakage can occur of the material take place more, and the sieve can now be slowly brought into the material flow. and there was an immediate continuation of the material flow through the newly inserted sieve.

By correspondingly delaying the entry line of the screen into the channel 4, it can be achieved that the sieve in the bolt 7 heats up, so that temperature differences in the area of the channels 4 and 5 do not occur either be able.

1 sheet of drawings

Claims (7)

ve patent claims: 1. Filter device for extrusion presses and injection molding machines for continuous processing of thermoplastics with at least two separate sub-channels between the Inlet channel and the outlet channel of a housing interchangeably arranged sieves, d a through characterized in that the sieves (10, 11) seal in at least two housing bores but displaceably mounted sieve bolts (7, 8) are arranged on both sides of the sieve opening (12) extending transversely to the sieve opening (12) parallel to the longitudinal axis of each sieve bolt (7, 8) Have ventilation slots (14, 15). 2. Filtereinrichiung according to claim 1, characterized in that that the sieve bolts (7, 8) are arranged vertically one above the other. 3. Filter device according to claims 1 and 2, characterized by at the two ends of the Sieve bolt (7,8) arranged sealing grooves (9). 4. Filter device according to claim 3, characterized in that that the sealing grooves (9) are also lubrication grooves. 5. Filter device according to one or more of the preceding claims, characterized by holding devices provided on the sieve bolts (7, 8) or on their displacement devices (16) against Verdi ehen the sieve bolt. 6. Filter device according to one or more of the preceding claims, characterized by webs provided with sieve bores (17) arranged on the disk surface of the sieves (10, 11) (18. 19, 20, 21) and with the webs interacting contact surfaces in the storage for the sieves. 7. Filter device according to claim 6, characterized by an increasing thickness of the webs (18 ,! 9, 20, 21) from the edge to the center of the disk surface.