DE20022605U1 - Extrusion device - Google Patents

Description

PATENT ATTORNEYS
* EUROPEAN PATENT AND TRADEMARK ATTORNEYS

Aiiwaltsaktc:

94 302/jan&

Graduate Physicist

* DR. WALTER ANDREJEWSKI (-1996) Graduate Engineer

* DR.-ING. MANFRED HONKE

Graduate Physicist

* DR. KARL GERHARD MASCH Graduate Engineer

* DR.-ING. RAINER ALBRECHT Graduate Physicist

* DR. JÖRG NUNNENKAMP Graduate Chemist

* DR. MICHAEL ROHMANN Graduate Physicist

DR. ANDREAS VON DEM BORNE

D 45127 Essen, Theaterplatz 3 D 45002 Essen. P.O. Box IO 02 54

18 September 2001

Utility model application

Reifenhäuser GmbH & Co,
Machine factory
Spicher Street 46-48

53839 Troisdorf

Extruder

Andrejewski, Honke & Sozien, patent attorneys in Essen

Description:

The invention relates to an extrusion device with an extruder screw and screw drive. - Such an extrusion device is used in particular for processing thermoplastics. The screw drive or the drive of the extruder screw is usually implemented with a drive motor designed as an electric motor.

In the extrusion device of the type mentioned at the beginning, which is known from practice and from which the invention is based, a mechanical reduction gear is connected to the rear area of the extruder screw. The drive motor, which is designed as an electric motor, is connected to this gear. This known extrusion device is characterized by a complex and voluminous structure. This is especially true when a 0 coextrusion is implemented with several extruders. Due to the interposition of the mechanical gear, the operation of the known extrusion device is associated with disadvantageous noise development. Apart from the complex and voluminous design of this 5 extrusion device, a relatively complex control and regulation of the device is also required.

In contrast, the invention is based on the technical problem of specifying an extrusion device which is characterized by simplicity and a small volume

Andrejewski, Honke & Sozien, patent attorneys in Essen

which avoids the disadvantages mentioned above and otherwise meets all requirements.

To solve this technical problem, the invention teaches an extrusion device with extruder screw and screw drive,

wherein the screw drive consists of a drive housing and a drive motor with stator and rotor, wherein the extruder screw has a screw shaft and a connecting section adjoining the screw shaft and at least partially enclosing the drive housing,

wherein a cylindrical stator is arranged in the drive housing, which surrounds at least part of the connection section,

wherein the cylindrical stator further surrounds a cylindrical rotor, which rotor in turn surrounds at least a part of the connection section, and

wherein the rotor is connected to the connecting section of the extruder screw without the interposition of a gear.

It is within the scope of the invention that the drive motor designed as an electric motor has a high torque or high drive moment at a relatively low motor speed. The cylindrical stator and the cylindrical rotor of the drive motor expediently have

Andrejewski, Honke & Sozien, patent attorneys in Essen

parallel cylinder surfaces. In other words, the rotor is inserted in a centered manner in the space surrounded by the stator in a ring. According to one embodiment of the invention, water cooling can be provided for the stator. For this purpose, the stator can have corresponding water cooling channels.

It is within the scope of the invention that the connecting section forms a straight extension of the screw shaft of the extruder screw. The connecting section is expediently inserted centrally in the space surrounded in a ring by the rotor or stator. Preferably, the connecting section of the extruder screw is completely surrounded by the drive housing.

According to a very preferred embodiment of the invention, the connection section is held in a connection sleeve in a rotationally fixed manner and the rotor is connected to the connection sleeve via at least one O connecting element. The fact that the connection section is held in a rotationally fixed manner in the connection sleeve means within the scope of the invention that the connection section and the connection sleeve cannot be rotated relative to one another. The connection section of the extruder screw is preferably cylindrical and this cylindrical connection section has ribs running over the cylinder jacket and parallel to the cylinder axis, which ribs enclose complementary grooves in the connection sleeve. The O ribs are expediently distributed evenly over the circumference of the cylindrical connection section.

Andrejewski, Honke & Sozien, patent attorneys in Essen

By enclosing the springs in the complementary grooves of the connection sleeve, a rotationally fixed connection between the connection section and the connection sleeve is ensured.

The rotor is expediently connected to the connection section and/or to the connection sleeve via at least one connecting element arranged on the rear side of the drive housing facing away from the worm shaft. The rotor is preferably connected directly to the connection section and/or directly to the connection sleeve via only a single connecting element. The connecting element is expediently attached to the rotor on the one hand and to the connection section and/or to the connection sleeve on the other hand with screws and/or bolts. According to a very preferred embodiment of the invention, the cylindrical rotor is connected to the connection section and/or to the connection sleeve via a circular connecting ring or a circular connecting plate. The connecting ring or the connecting plate is preferably attached on the one hand to the rear cylinder end of the rotor and on the other hand to the rear end of the connection section and/or the rear end of the connection sleeve. The attachment is expediently carried out with the aid of screws and/or bolts.

According to a preferred embodiment of the invention, a rotationally fixed housing part of the drive housing is arranged between the rotor and the connection section or between the rotor and the connection sleeve and both the rotor and the connection section or the connection sleeve are supported

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Andrejewski, Honke & Sozien, patent attorneys in Essen

during rotation via rolling bearings on the non-rotatable housing part. In the context of the invention, non-rotatable housing part means that this housing part does not participate in the rotation of the rotor or in the rotation of the connection section.

According to a very preferred embodiment, which is of particular importance within the scope of the invention, a closure cover is provided on the rear of the drive housing in front of the rear end of the connection section, and after removing the closure cover the extruder screw can be pulled out from the rear of the drive housing. Due to this design according to the invention, particularly simple maintenance, servicing and cleaning of the extruding device is possible. - According to a very preferred embodiment of the invention, a closure ring is also provided on the rear of the drive housing in front of the rear cylinder end of the stator, and after removing this closure ring the stator can be pulled out from the rear of the drive housing. This embodiment is also characterized by particularly simple maintenance, servicing and cleaning of the extruding device.

The invention is based on the finding that a particularly simple and space-saving extruding device can be realized if the extruder screw is driven directly by a drive motor without the interposition of a gear 0 and the design is selected as in the

I » II *·.! « II *

Andrej ewski, Honke & Sozi en, patent attorneys in Essen

Patent claim 1 is claimed. When the rotor of the drive motor rotates, this connection section or the extruder screw is immediately set in a corresponding rotation by connecting the rotor to the connection section. The speed of the rotor corresponds exactly to the speed of the extruder screw. The extrusion device according to the invention is characterized first of all by relatively simple control and regulation. Due to the design according to the invention, the extrusion device can be considerably reduced in volume and in particular in length compared to known extrusion devices. This is particularly advantageous in coextrusion arrangements in which a plurality of extruders are used. Furthermore, the extrusion device according to the invention is easier to manufacture and assemble compared to the known extrusion devices. In contrast to the known extrusion devices, the device according to the invention is also characterized by surprisingly quiet operation. By eliminating the mechanical gear, the number of mechanically stressed wearing parts is also reduced. This also simplifies maintenance, servicing and repair. Another particular advantage is that, since the mechanical transmission is no longer required, there is no need for complex lubrication with transmission oil. Since this transmission oil is a hazardous material, there is no need to transport the hazardous material. As a result, the invention provides considerable and surprising advantages.

c^^^^ki. &tgr;-Onke & Sozien. Patent attorneys in Essen

The invention is explained in more detail below using a drawing which merely represents an exemplary embodiment. It shows in a schematic representation:

Fig. 1 shows an extrusion device according to the prior art,

Fig. 2 an extrusion device according to the invention and
Fig. 3 is a section AA through the article according to Fig. 2.

Fig. 1 shows an extruding device according to the prior art, which has an extruder screw 1 with a screw shaft 2 and a screw drive 3. The screw drive 3 consists of a drive motor 4 and a mechanical reduction gear 5 arranged between the drive motor 4 and the screw shaft 2. In Fig. 1 it can be seen that the extruding device known from the prior art is very space-consuming and in particular has a disadvantageously considerable length.

In contrast, Fig. 2 shows an extruding device according to the invention, which also has an extruder screw 1 and a screw drive 3. The screw drive 3 consists of a drive housing 6 and a drive motor 4 with stator 7 and rotor 8. The extruder screw 1 has a screw shaft 2 and a connecting section 9 which adjoins the screw shaft 2 and is enclosed in the drive housing 6. The cylindrical stator 7 is arranged in the drive housing 6, which

Andre;ewski, Hon!<-,~ S^ Srmen Patent Attorneys in Essen

Embodiment surrounds the connection section 9. The cylindrical stator 7 also surrounds the cylindrical rotor 8, which rotor 8 in turn surrounds the connection section 9 of the extruder screw 1. The stator 7 and rotor 8 have parallel cylinder jacket surfaces. In other words, the rotor 8 is inserted in a centered manner in the space surrounded in an annular manner by the stator 7. Furthermore, the connection section 9 of the extruder screw 1 is inserted centrally in the space surrounded in an annular manner by the rotor 8 or in the space surrounded in an annular manner by the stator 7.

In Fig. 2 and 3 it can be seen that according to a very preferred embodiment of the invention the connection section 9 is held in a connection sleeve 10 in a rotationally fixed manner and the rotor 8 is connected to the connection sleeve 10 via a connecting element 11. Preferably and in the embodiment according to Fig. 2 and 3 the connection section 9 is cylindrical. The connection section 9 has springs 12 running over the cylinder jacket and parallel to the cylinder axis, which springs 12 are inserted into complementary grooves 13 of the connection sleeve 10 (Fig. 3).

As already mentioned above, the rotor 8 is preferably connected to the connecting sleeve 10 via a connecting element 11 arranged on the rear side 14 of the drive housing 6 facing away from the screw shaft. According to the invention, the rotor 8 is thus connected to the connecting section 9 of the extruder screw 1 or to the connecting sleeve 10 without the interposition of a gear. Preferably and in

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Andrejewski. Honice & Sozien. Patent attorneys in Essen

In the embodiment according to Fig. 2, the cylindrical rotor 8 is connected to the connecting sleeve 10 via a connecting element 11 designed as a circular connecting ring. The circular connecting ring is connected to the rotor 8 on the one hand and to the connecting sleeve 10 on the other hand with the aid of bolts 15. - When the rotor 8 rotates, the connecting sleeve 10 connected to it or the connecting section 9 connected to it in a rotationally fixed manner is also set in a corresponding rotation and in this way the extruder screw 1 is driven directly by the drive motor 4 without the need for an intermediate gear.

Preferably, and in the embodiment according to Fig. 2, a rotationally fixed housing part 16 of the drive housing 6 is arranged between the rotor 8 and the connection sleeve 10. During rotation, both the rotor 8 and the connection sleeve 10 are supported on the rotationally fixed housing part 16 via rolling bearings 17.

According to a very preferred embodiment of the invention and in the embodiment according to Fig. 2, a closure cover 19 is provided on the rear side 14 of the drive housing 6, arranged in front of the rear end 18 of the connection section 9. After removing the closure cover 19, the extruder screw 1 can be pulled out of the drive housing 6. This enables particularly simple and inexpensive maintenance, repair and cleaning of the extruding device. - According to a preferred embodiment 0 of the invention and according to Fig. 2, a closure cover 19 is provided on the rear side 14 of the drive housing 6, arranged in front of the rear end 18 of the connection section 9.

Andreiewslci. Honke & Sozien. Patent attorneys in Essen

A locking ring 21 is provided on the rear cylinder end 20 of the stator 7. After removing the locking ring 21, the stator 7 can be easily pulled out of the drive housing. This also enables easy maintenance, repair and cleaning.

&bull;&diams; ···

Claims (8)

1. Extruding device with extruder screw ( 1 ) and screw drive ( 3 ),
wherein the screw drive ( 3 ) consists of a drive housing ( 6 ) and a drive motor ( 4 ) with stator ( 7 ) and rotor ( 8 ), wherein the extruder screw ( 1 ) has a screw shaft ( 2 ) and a connecting section ( 9 ) adjoining the screw shaft ( 2 ) and at least partially enclosing the drive housing ( 6 ), wherein a cylindrical stator ( 7 ) is arranged in the drive housing ( 6 ), which surrounds at least part of the connecting section ( 9 ),
wherein the cylindrical stator ( 7 ) further surrounds a cylindrical rotor ( 8 ), which rotor ( 8 ) in turn surrounds at least a part of the connection section ( 9 ), and
wherein the rotor ( 8 ) is connected to the connecting section ( 9 ) of the extruder screw without the interposition of a gear. 2. Extruding device according to claim 1, wherein the connecting section ( 9 ) is held in a connecting sleeve ( 10 ) in a rotationally fixed manner and the rotor ( 8 ) is connected to the connecting sleeve ( 10 ) via at least one connecting element ( 11 ). 3. Extruding device according to claim 2, wherein the connecting section ( 9 ) is cylindrical and has springs ( 12 ) running over the cylinder jacket and parallel to the cylinder axis, which springs ( 12 ) enclose in complementary grooves ( 13 ) of the connecting sleeve ( 10 ). 4. Extruding device according to one of claims 1 to 3, wherein the rotor ( 8 ) is connected to the connecting section ( 9 ) and/or to the connecting sleeve ( 10 ) via at least one connecting element ( 11 ) arranged on the rear side ( 14 ) of the drive housing ( 6 ) facing away from the screw shaft. 5. Extruding device according to one of claims 1 to 4, wherein the cylindrical rotor ( 8 ) is connected to the connecting section ( 9 ) and/or to the connecting sleeve ( 10 ) via a circular connecting ring or via a circular connecting plate. 6. Extruding device according to one of claims 1 to 5, wherein a rotationally fixed housing part ( 16 ) of the drive housing ( 6 ) is arranged between the rotor ( 8 ) and the connection section ( 9 ) or the connection sleeve ( 10 ), and wherein both the rotor ( 8 ) and the connection section ( 9 ) or the connection sleeve ( 10 ) are supported on the rotationally fixed housing part ( 16 ) via rolling bearings ( 17 ) during rotation. 7. Extruding device according to one of claims 1 to 6, wherein a closure cover ( 19 ) arranged in front of the rear end ( 18 ) of the connection section ( 9 ) is provided on the rear side ( 14 ) of the drive housing ( 6 ), and wherein after removal of the closure cover ( 19 ) the extruder screw ( 1 ) can be pulled out from the rear side ( 14 ) of the drive housing ( 6 ). 8. Extruding device according to one of claims 1 to 7, wherein a locking ring ( 21 ) arranged in front of the rear cylinder end ( 20 ) of the stator ( 7 ) is provided on the rear side ( 14 ) of the drive housing ( 6 ), and wherein after removal of the locking ring ( 21 ) the stator ( 7 ) can be pulled out of the rear side ( 14 ) of the drive housing ( 6 ).