DE2932446A1 - Applying UHF to material inside extruder - by fitting antennae in suitable position as slots filled with ceramic - Google Patents

Abstract

Moving material and particularly extruded material is subjected to uhf energy by fitting antennae in the screw, shear zone, barrel and/or in the mouthpiece to apply uhf output from a uhf supply to the space between the screw and barrel or mouthpiece. The antennae are slots filled/screened with a non-polar solid. The applied uhf required no extra space/dimensions.

Description

Device for treating an extrudate with UHF energy

The invention relates to a device for treating the extrudate a screw extruder or a screw conveyor with UHF energy, screw presses can also be involved, as is customary in injection molding - be moved like a piston for the ejection process. Even with calenders, certain Design in which the conveyed goods always go over one and the same point and is removed there, the invention can be applied.

Screw extruders and screw conveyors are used in a wide variety Branches of industry used.

In the plastic and rubber industry, they are used for quick fixation and digestion of plastics and rubber, for mixing and molding. In the food industry, they are used for conveying, mixing and shaping, in other branches of industry for similar purposes. In the plastics and rubber industry devices for feeding in UHF energy are often behind screw extruders, that is the Energy of electromagnetic waves of the hillimeter, Centimeter and decimeter wavelength range, connected downstream to that in the screw extruder to subject the strand produced to a treatment which leads to vulcanization of the Strand or leads to a crosslinking of the material of the strand. The possibilities However, the feeding of UHF energy into the string is limited by the length the UHF applicators that cannot and cannot be filled in for any length of time Any amount of energy can be applied in the food industry UHF energy can be used to bake and toast string-shaped products or otherwise treat with heat. In funding programs, for example for Dried grain, the UHF energy can be used in the grain To anneal pests in the form of mushrooms and / or beetles.

The problem of introducing UHF energy into such materials consists in the fact that it is not internally possible to feed enough energy into the material, and the fact that the UHF applicators are often an undesirable extension of the system Experienced.

It is the object of the present invention to provide possibilities To create further feed of UHF energy in such a way that no additional Space is required.

The invention consists in the fact that you have the UHF energy already ii extruder or the screw conveyor Cine feeds, namely in front of a tunnel, the u lido of the conveying path is located and preferably the one made of metal manufactured parts their relative position to each other despite the rotary motion do not change the screw and / or the cylinder.

This makes it possible to carry out the vulcanization or crosslinking process bci rubber and plastics already start when the extrudate is still located inside the screw extruder. This also makes it possible to use the Treatment of grain, for example inside a screw conveyor so that there is absolutely no additional space for the UHF energy treatment is necessary, The device for treating the extrudates of a screw.

extruders or a screw conveyor with UHF energy is expediently that in the screw, in a shear part, in cylinder and or antennas are provided in the mouthpiece for the extraction of UHF energy from a UHF conductor into the interior between the screw and the cylinder or mouthpiece to serve. Appropriately, the antennas are slots with a fixed non-polar Substance are filled out. In this way, there is no need for additional installation space created, the UHF energy already in a not inconsiderable part in the material feed during the treatment in the screw extruder, so that the screw extruder Downstream UH? applicators in fewer numbers and a shorter design can be.

In order to ensure that everything is treated as uniformly as possible in the screw extruder To secure the conveyed material, it is advisable to enr. the antennas on one Are arranged place at which the metal parts of the screw extruder their relative position to each other in spite of the rotating movement and from so tease , tnd / or cylinder do not change.

One way of carrying out this measure is that iie slots in the screw at the bottom of the screw between the conveyor webs are arranged.

Then all the material, which the worm gear during the Operation of the screw extruder is pushed along, with UHF energy evenly applied.

The screw has a cavity inside for the feed the UHF energy, mostly it will be a waveguide, preferably one round waveguide, act.

Another possibility is that the slots in the screw tip are arranged and that the screw inside a cavity for the supply which has UiLP energy. Here too, at the tip of the screw, is the relative position of the metal-made parts of the screw extruder to each other despite the rotary movement of the screw and / or cylinder is always the same.

Another possibility is to make the slots in cylinders or to be arranged in the mouthpiece opposite the screw, preferably in the area of the screw tip.

Screws of screw extruders often have a shear part. This is usually located behind the central area of the screw because that Shear part is a place where the extrudate is already plasticized and open-minded. ha is particularly expedient that Slots to be arranged for the UHF treatment in the Schert @ il.

Because the geometry of the shear part often allows easier introduction of the slots, on the other hand, the material here is a particularly strong mechanical one Subjected to treatment, so that the initiation of vulcanization and networking is favored.

The slots can also be advantageous in the cylinder over the shear part to be ordered.

The shear part does not need to be part of the extruder screw either to be, it can also be a specially driven one behind the extruder screw act arranged shear part.

In ellen cases it is useful if the longitudinal axis of the slots is arranged transversely to the direction of movement of the material flow, because this creates a uniform material treatment with UHF energy is achieved.

The essence of the invention is shown below using one in the drawing chemically illustrated embodiment explained in more detail. The drawing is evidence a section through an 8-tooth ckenextruder.

The screw extruder consists of the drive 1, the cylinder 2, the Screw 3 and the transferring into the spray head 4 @ and piece 5. The spray head 4 and mouthpiece 5 can also be designed as a single component be. The screw usually has several zones: The entrance zone A, the Plasticizing zone B, the shear zone C and the discharge zone D. In feed area A, the the material is drawn in and converted, plasticized in the conversion area B, masticated and open-minded. This material treated in this way will then cut into the shear zone C by means of the shear part, one being particularly intense Finishing takes place. The pressure is then built up in the discharge zone D for shaping the material in the injection head 4 is necessary.

ie can be seen from the cut part of the screw, has this inside a round waveguide 6, which consists of a microwave generator 7 is fed.

On this waveguide, which practically comes from a central hole in the worm 3 exists or is built into such slots 7 of the shear part can be connected be. In the illustrated embodiment, the shear part has a plurality of screw flights 8 with a small angle of inclination, with one gear between each two screw flights 8 9 remains, which by an axially parallel or approximated axially parallel web 10 is crossed, the height of which is slightly less than the height of the webs 8. Parallel to this aohßparallel web 10 are the slots at the bottom of the worm gear 9 7 provided. These slots are filled with a non-polar material. Preferably Ceramic or Glu is used here. Through this non-polar material, the electromagnetic UHF energy. The space forms iwisohen to the Screw base 9, the screw flights 8 and the outer wall of the cylinder 2 a UHF treatment chamber. The slots 7 are expediently arranged in such a way that all material which steps over the axially parallel Ste @ g 10, from the microwave energy is achieved.

However, slots 11 are also connected to the waveguide 6, -ie arranged at the base 12 of the worm flight bounded by the worm flight 13 are.

Another possibility of adding slots 14 bese.t in the tip 15 of the screw 3.

In all of these arrangements the slots 7, 11, 14 are arranged so that they are in the rotating screw and with the inner wall of the stationary one Cylinder 2 form a treatment room, the geometry of which does not change, although the snail @spins.

Can they be used as antennas for coupling UHF energy into the Do not arrange the extrudate serving slots in the screw 3 because its interior For example, the space is already fully utilized by a cooling device, there is also the option of integrating antennas, radiators or UfIF-E; nergy Provide slots in the cylinder 2 or in the mouthpiece 3. The slots 16 in the cylinder 2 are arranged just in front of the snail tip. They are with a non-polar Material filled out so that the extrudate can not penetrate these slots. These slots 16 were fed with UHF energy via waveguides 17 connected to the UfiF generator 18 are connected.

My other option is to have slots 20 in the mouthpiece 5 to be provided opposite the screw tip 15.

Claims (9)

Protection claims: 1. Device for handling the conveyed goods, in particular a screw extruder or a screw conveyor device with UFF energy, d u r c h e k e n n n z e i c h n e t that in the screw (3), in a shear part (C), in the cylinder (2) and / or in the mouthpiece (5) antennas are provided Decoupling of UHF energy from a UHE conductor (6, 17) in the interior between Schencke (3) and cylinder 92) or mouthpiece (5) are used. 2. Apparatus according to claim 1, d a d u r c h g e k e n n z e i c That is, the antennas are slots that are shielded with a solid, non-polar material or are filled out. 3. Apparatus according to claim 1 and 2, d a d u r c h g e k e n n z e i c h n e t that the antennas (7, 11, 14) are arranged in a location where the metal-made parts of the screw extruder their relative position to each other do not change despite the rotation of the screw (3) and / or the cylinder (2). 4. Vorrichwig according to claim 1 bia 3, characterized in that the Antennas in the form of slots (11) in the screw (3) at the bottom of the screw flight are arranged between the conveyor webs (13) and that the screw (3) inside has a cavity (6) for supplying the UHF energy to the slots (11). 5. Apparatus according to claim 1 to 3, characterized in that the antennas (14) are arranged in the screw side and that the screw (3) Inside a cavity (6) for feeding the UHF energy to the antennas (14) having. 6. Apparatus according to claim 1 to 3, d a d u r c h g e k e n n z e i c h n e t that the antennas (7) in the cylinder (2) or in the mouthpiece (5) opposite the screw (3) are arranged. 7. Apparatus according to claim 1 to 3, characterized in that the antennas (7) are arranged in the shear part (c), 8, device according to claim 1 to 5, characterized in that the antennas in the cylinder opposite the shear part (C) are arranged, 9. Apparatus according to claim 1, characterized in that the longitudinal axis of the antennas (7, 11, 14) transverse to the direction of movement of the material flow is arranged. lo. Process for feeding UHF energy into the extrudate of a Screw extruder or a screw feed device, characterized in that that UHF energy is already fed into the extruder or the screw conveyor device.