DE102022106730A1 - Opening roller unit for an open-end spinning device - Google Patents

Abstract

The invention relates to an opening roller unit (1) for an open-end spinning device with an opening roller (2) for opening fiber material and an electric motor drive (3) for driving the opening roller (2), which has a rotor (4) and a rotor (4) in the radial direction (R ) comprises a stator (6) arranged around the rotor (4), the opening roller (2) being coupled to the rotor (4). According to the invention, the opening roller unit (1) is designed in such a way and/or the opening roller (2) and the drive (3) are coupled to one another in such a way that the opening roller unit (1) in the combination of at least the opening roller (2) and the drive (3) moves out of the open end -Spinning device can be removed and/or inserted into the open-end spinning device.

Description

The present invention relates to an opening roller unit for an open-end spinning device with an opening roller for opening fiber material and an electric motor drive for driving the opening roller, which comprises a rotor and a stator arranged in the radial direction around the rotor, which are arranged in a drive housing, the Opening roller is coupled to the rotor.

From the DE 10 2016 102 151 A1 an individual drive for an opening roller of an open-end spinning device is disclosed. The opening roller is attached to the opening housing by means of its bearing. In this version, the drive is designed to be divisible so that the rotor of the drive can be removed together with the opening roller. The opening roller can thereby be easily removed from the spinning device, but it has disadvantages in terms of operation and maintenance.

The object of the present invention is to create an opening roller unit with improved operating and maintenance properties.

The task is solved by an opening roller unit and with the features of the independent patent claim.

An opening roller unit for an open-end spinning device is proposed. The open-end spinning device can be, for example, a rotor spinning device that forms a yarn from fibers.

The opening roller unit includes an opening roller for opening fiber material. The opening roller forms fibers from the fiber material, which can be spun into a yarn in a subsequent spinning device.

Furthermore, the opening roller unit comprises an electric motor drive, or drive for short, for driving the opening roller, which comprises a rotor and a stator arranged around the rotor in the radial direction of the rotor, the opening roller being coupled to the rotor. The drive can therefore be a so-called internal rotor. With this drive, the rotor is driven and since the opening roller is coupled to the rotor, the opening roller is also driven. The opening roller thus rotates during operation and the fiber material is brought to the rotating opening roller, thereby dissolving the fiber material. The rotor and the stator are arranged in a drive housing of the drive.

Furthermore, the opening roller unit is designed such that the opening roller unit can be removed from the open-end spinning device and/or inserted into the open-end spinning device in a combination of at least the opening roller and drive. Additionally or alternatively, the opening roller and the drive are coupled to one another in such a way that the opening roller unit in the combination of at least the opening roller and the drive can be removed from the open-end spinning device and/or inserted into the open-end spinning device. As a result, the opening roller unit can be removed and/or reinstalled as a unit or as a whole. Here, for example, maintenance can be simplified because after the entire opening roller unit has been removed, including at least the drive and the opening roller, it can be further dismantled. In addition, the drive is also removed and can be brought as a unit with the opening roller to a clean place for further maintenance. In particular, the drive is not opened in the area of the open-end spinning device, so that no dirt can get into the drive, which is constantly present, for example, due to fiber fly in the area of the open-end spinning device. In particular, the composite is designed in such a way and/or the opening roller and the drive are coupled to one another in such a way that the drive housing with the stator can be removed and/or reinserted.

As already explained, the term drive can also be used for the electric motor drive for the sake of simplicity. When we talk about the drive, we mean the electric motor drive.

It is advantageous if the rotor couples the drive and the opening roller to one another in such a way that at least the opening roller and the drive form the composite. The rotor can also couple the opening roller and the drive housing to one another in such a way that at least the opening roller and the drive form the composite. As a result, the opening roller and the drive form the unit or the combination. Additionally or alternatively, it is advantageous if the rotor couples the drive and the opening roller to one another in such a way that the drive can also be removed when the opening roller is removed. The coupling through the rotor is such that the opening roller can be pulled and the drive is also pulled out. The coupling therefore has such a tensile strength that the opening roller and the drive remain connected to one another when the opening roller is pulled. This allows the opening roller, together with the rotor, the stator and the drive housing, to be removed from the open-end spinning device and/or inserted into the open-end spinning device.

It is advantageous if the opening roller unit has a bearing holder, by means of which a first rotor bearing for supporting the rotor is accommodated. The first rotor bearing can be arranged in the radial direction between the rotor and the bearing holder. The drive can also include the bearing holder.

It is advantageous if the opening roller has a base body that is coupled to the rotor. The base body can preferably be pressed with the rotor. With the help of the base body, an opening set explained below can be accommodated. In order to obtain a simple connection between the base body and the rotor, the base body can be pressed onto the rotor.

It is advantageous if the first rotor bearing is coupled to the drive housing by means of the bearing holder, if the rotor is coupled to the bearing holder by means of the first rotor bearing and if the rotor is coupled to the opening roller by means of the base body. This creates a bond between the opening roller unit. As a result, the rotor couples the drive or the drive housing with the opening roller.

It is advantageous if the first rotor bearing is coupled to the bearing holder at least in the axial direction. This allows the opening roller to be coupled to the drive using the rotor. Furthermore, the first rotor bearing can be positively, non-positively and/or cohesively coupled to the bearing holder. It is advantageous here if the first rotor bearing is positively and/or non-positively coupled to the bearing holder, since as a result the rotor can be decoupled from the rest of the drive through work steps. This does not contradict the fact that the rotor couples the opening roller and the drive. Of course, the opening roller unit can be dismantled to such an extent that the drive can be decoupled from the opening roller. However, further work steps are necessary for this.

It is advantageous if the rotor is coupled to the first rotor bearing at least in the axial direction. This allows the opening roller to be coupled to the drive by means of the rotor and by means of the first rotor bearing. Furthermore, the rotor can be positively, non-positively and/or cohesively coupled to the first rotor bearing. This allows the composite to be formed.

It is advantageous if the bearing holder is connected in a rotationally fixed manner to the drive, in particular to a drive housing of the drive. It is advantageous if the bearing holder is at least partially arranged in the drive, in particular in the drive housing. This can save space. Additionally or alternatively, it is advantageous if the bearing holder is pressed into the drive housing. This allows the bearing holder and the drive housing to be connected to one another in a rotationally fixed manner in a simple manner.

It is advantageous if the bearing holder is at least partially arranged in a housing opening of the drive housing facing the opening roller. Additionally or alternatively, the bearing holder can close the housing opening. In this way, the bearing holder protects the interior of the drive from the ingress of dirt. The bearing holder can thus form a closure for the drive housing.

It is advantageous if the rotor is mounted in the bearing holder by means of the rotor bearing on a first rotor end facing the opening roller. Additionally or alternatively, it is advantageous if the opening roller is coupled to the rotor in the area of the first rotor end.

It is advantageous if the opening roller has an opening section in which opening teeth are arranged for opening the fiber material. The dissolving teeth can dissolve the fiber material by tearing or pulling out the individual fibers from the fiber material. The opening section can be formed by means of a opening set. This allows the opening section to be renewed by replacing the opening set. The opening set can, for example, be designed in a ring shape, with the opening teeth being arranged on the outside.

It is advantageous if the opening roller unit has a pressure plate by means of which the opening set is held together with the base body. The pressure plate can press the opening set against the base body in the axial direction. The pressure plate can be easily released so that the opening set can be easily replaced. The pressure plate can, for example, be screwed to the rotor and/or the base body, so that the pressure plate can be easily unscrewed. Additionally or alternatively, the pressure plate can also be clipped to the rotor and/or the base body, which can also be easily solved. Furthermore, the opening section can also be arranged on the printing plate or can be formed on the printing plate. The printing plate may have the dissolving section. The pressure plate can also be used as a clothing carrier be referred to as the one that accommodates the opening set.

It is advantageous if the base body is arranged outside the bearing holder in the radial direction of the rotor. Additionally or alternatively, it is advantageous if the base body extends around the bearing holder in the radial direction of the rotor.

It is advantageous if the bearing holder is arranged around the rotor in the radial direction.

It is advantageous if the base body covers the bearing holder in the axial direction, in particular completely. As a result, the base body covers the bearing holder and can thereby protect the bearing holder from dirt. In addition, as a result, the bearing holder protrudes into the base body, so that the opening roller unit can be made compact.

It is additionally or alternatively advantageous if the base body at least partially covers a first housing end of the drive housing facing the opening roller in the axial direction. Additionally or alternatively, the base body can also be flush with the first housing end in the axial direction. In this way, the base body prevents dirt from getting into the drive housing.

It is advantageous if the first rotor bearing, the bearing holder and/or the opening section overlap in the axial direction. This means that the first rotor bearing, the bearing receptacle and/or the release section have an overlapping section with respect to one another in the axial direction.

It is advantageous if the bearing holder is arranged in the radial direction of the rotor between the rotor and the base body. Additionally or alternatively, the bearing holder can be arranged in the radial direction of the rotor between the first rotor bearing and the base body.

It is advantageous if the first rotor bearing is arranged completely in the area of the opening section in the axial direction. Additionally or alternatively, it is advantageous if the first rotor bearing is arranged in a central region of the opening section. As a result, the forces acting during the dissolution of the fiber material through the dissolution section are well transmitted to the first rotor bearing.

It is advantageous if a gap is arranged between the base body and the bearing holder, the drive and/or the drive housing, which preferably extends in the radial and/or axial direction of the rotor. This allows the base body to rotate without contact relative to the bearing holder, the drive and/or the drive housing.

It is advantageous if the opening roller unit has at least one connecting means by means of which the opening roller unit can be coupled to an opening roller housing, so that, in particular exclusively, the drive housing can be connected to the opening roller housing.

It is advantageous if the rotor is mounted in the drive at a second rotor end opposite the first rotor end by means of a second rotor bearing. This means the rotor is stored stably.

It is advantageous if a first diameter of the opening roller unit in the radial direction in the area of the opening roller is larger than a second diameter of the opening roller unit in the radial direction in the area of the drive. This allows the opening roller unit to be removed easily. In most cases, the opening roller unit is pulled out in the direction of the opening roller.

It is advantageous if both rotor bearings are arranged in the drive housing. This allows the drive to be made compact. The bearing holder can be part of the drive housing, since the bearing holder can close the drive at the end facing the opening roller.

It is advantageous if the electric drive is a brushless DC motor. As a result, the drive can also be designed to be compact.

Furthermore, it should be noted that the axial direction and the radial direction refer to the rotor and the opening roller unit, respectively, even if this addition is not always added.

• 1 eine Schnittansicht einer Auflösewalzeneinheit mit Antrieb Auflösewalze und
• 2 eine Auflösewalzeneinheit in einem Auflösewalzengehäuse.

Further advantages of the invention are described in the following exemplary embodiments. Show it:

• 1 a sectional view of an opening roller unit with opening roller drive and
• 2 an opening roller unit in an opening roller housing.

1 shows a cross section through an opening roller unit 1 with an opening roller 2 and an electric motor drive 3. For the sake of simplicity, the electric motor drive 3 can also simply be called drive 3. The opening roller 2 is used to open fiber material applies. The opening roller unit 1 is used for an open-end spinning device. The opening roller unit 1 can be followed by a spinning unit, not shown here, which spins a yarn from the dissolved fiber material. The open-end spinning device can be, for example, a rotor spinning device that spins the yarn from the dissolved fibers with the help of a rotor. In order to be able to dissolve the fiber material, the opening roller 2 has a opening section 21 with a opening set 9 shown here. According to the present exemplary embodiment, the opening section 21 or the opening set 9 has a large number of opening teeth 10. The opening set 9 is designed here in a ring shape, so that the opening set 9 can have the shape of an opening roller ring. The opening roller 2 or the opening set 9 dissolves the fiber material or a sliver into the individual fibers.

In order to be able to drive the opening roller 2, it is coupled to the electric motor drive 3. With the help of the drive 3, the opening roller 2 is set in rotation so that the fiber material is opened by the opening teeth 10 shown here. Furthermore, here the opening roller 2 is coupled to a rotor 4 of the drive 3, in particular in a rotationally fixed manner.

Furthermore, the opening roller 2 and the drive 3 are designed as a unit or as a composite. Furthermore, the opening roller unit 1 or the opening roller 2 is designed together with the drive 3 in such a way that they are designed as a unit or as a composite or together from an opening roller housing 8 (see 2 ) can be removed and/or inserted. The opening roller unit 1 will be inserted and/or removed as a unit into the open-end spinning device or into the opening roller housing 8. This has the advantage that an interior of the opening roller unit 1 or an interior of the drive 3 remains protected from dirt.

The drive 3 also includes a stator 6, which is arranged around the rotor 4 in a radial direction R. The drive 3 is therefore an internal rotor. The rotor 4 also has a permanent magnet 5, which interacts with a magnetic field formed by the stator 6. Furthermore, the drive 3 can be a brushless DC motor. This has a high level of performance, so that a compact design of the opening roller unit 1 is possible. As a result, the opening roller unit 1 can also be easily removed and reinstalled for maintenance purposes by maintenance personnel as a unit or as a composite, i.e. the opening roller 2 and the drive 3 together or without separating the opening roller 2 from the drive 3.

Furthermore, the rotor 4 can couple the drive 3 and the opening roller 2 to one another in such a way that at least the opening roller 2 and the drive 3 form the composite. Additionally or alternatively, the rotor 4 can couple the drive 3 and the opening roller 2 to one another in such a way that when the opening roller 2 is removed, the drive 3 can also be removed. The rotor 4 thus forms a coupling element that connects the drive 3 and the opening roller 2 to one another. The rotor 4 naturally connects the remaining drive 3 with the opening roller 2.

Furthermore, the drive 3 includes a drive housing 7. According to the present exemplary embodiment, the stator 6 is arranged in the drive housing 7. In addition, the permanent magnet 5 can be arranged in the drive housing 7.

According to the present exemplary embodiment, the opening roller 2 is connected to the rotor 4 with a first rotor end 11. The first rotor end 11 extends out of the drive housing 7.

An axial direction A and a radial direction R refer here to the axial direction A of the opening roller unit 1 or the drive 3 and to the radial direction R of the opening roller unit 1 or the drive 3.

The opening roller 2 further comprises a base body 12 which is coupled to the rotor 4. For example, the base body 12 can be pressed onto the rotor 4, in particular in the area of the first rotor end 11. The opening set 9 is also coupled to the base body 12. The opening set 9 is arranged at a distance from the rotor 4 in the radial direction R. The base body 12 is arranged between the opening set 9 and the rotor 4. The base body 12 also has the opening section 21.

The opening roller 2 here comprises a pressure plate 13, which, in particular together with the base body 12, can accommodate the opening set 9. The pressure plate 13 is connected here to the rotor 4 by means of a screw 14. Additionally or alternatively, the pressure plate 13 can also be connected to the base body 12, for example also via at least one screw 14. Furthermore, additionally or alternatively, the pressure plate 13 can also be connected to the rotor 4 and/or the base body 12 by means of a clip connection. The pressure plate 13 can also be a clothing carrier on which the opening section 21 is arranged.

In order to be able to accommodate and/or fix the opening set 9 shown here, the on Release roller 2 has at least one receptacle 15, 16. According to the exemplary embodiment shown here, the opening roller 2 comprises a first receptacle 15 and two receptacles 16. Here, the base body 12 has the first receptacle 15 and the pressure plate 13 has the second receptacle 16. The at least one receptacle 15, 16 is designed here as a groove which extends at least partially in the circumferential direction around the opening roller 2 and into which the opening set 9 is arranged. The opening set 9 is accommodated here in such a way that the pressure plate 13 presses the opening set 9 in the axial direction A against the base body 12, the opening set 9 being arranged in the first and/or second receptacle 15, 16.

Since the base body 12 and/or the pressure plate 13 is coupled to the rotor 4 in a rotationally fixed manner and the opening set 9 is also coupled in a rotationally fixed manner with the base body 12 and/or the pressure plate 13, the opening set 9 is also rotated when the rotor 4 is rotated. When the rotor 4 rotates, the base body 12, the pressure plate 13 and the opening set 9 with the opening teeth 10 rotate.

Furthermore, the opening roller unit 1 includes a bearing holder 17, by means of which the rotor 4 is mounted. According to the present case, the rotor 4 is mounted by means of a first rotor bearing 18, which is accommodated in the bearing receptacle 17. The first rotor bearing 18 is designed here as a rolling bearing, in particular a ball bearing.

The bearing holder 17 is also coupled, in particular in a rotationally fixed manner, to the drive housing 7. For example, the bearing holder 17 is pressed into the drive housing 7. According to the present exemplary embodiment, the bearing holder 17 is arranged in the area of a housing opening 19 of the drive housing 7. In particular, the bearing holder 17 is pressed into the housing opening 19. Furthermore, the bearing holder 17 protrudes from the housing opening 19 and/or from the drive housing 7. As a result, the first rotor bearing 18 can also be arranged outside the drive housing 7. As a result, the first rotor bearing 18 is arranged in the axial direction A in the area of the opening roller 2, in the area of the base body 12 and/or in the area of the opening set 9, so that forces can be easily transferred to the first rotor bearing 18.

Furthermore, according to the present exemplary embodiment, the first rotor bearing 18, the bearing receptacle 17, the base body 12 and/or the opening set 9 overlap at least partially in the axial direction of the opening roller unit 1 or the drive 3. In particular, the base body 12 covers the bearing receptacle 17 and/or the first rotor bearing 18 is complete. As a result, the bearing holder 17 or the first rotor bearing 18 is protected from the ingress of dirt.

Furthermore, the drive housing 7 and the base body 12 are flush with one another in the axial direction.

Furthermore, the opening roller 2 is coupled and/or connected to the drive 3 via the rotor 4 in such a way that the opening roller 2 can be removed from the opening roller housing 8 and/or reinserted as a unit or combination with the drive 3. In particular, the opening roller 2 and the drive 3 are connected to one another by means of the rotor 4 in such a way that when the maintenance personnel grabs the opening roller unit 1, for example in the area of the opening roller 2, and pulls it out of the opening roller housing 8, the drive 3 is also pulled out of the opening roller housing 8 .

In order to form the composite, the first rotor bearing 18 is connected or coupled to the drive housing 7 via the bearing holder 17. Furthermore, the rotor 4 is connected or coupled to the bearing holder 17 and thus to the drive housing 7 via the first rotor bearing 18. Furthermore, the base body 12 is connected or coupled to the rotor 4 and thus via the first rotor bearing 18 to the bearing holder 17 and thus to the drive housing 7. The pressure plate 13 is further connected or coupled to the base body 12. The opening section 21 and/or the opening set 9 is connected or coupled to the pressure plate 13 and/or the base body 12. The composite can be formed by coupling the individual components with one another.

In addition, the opening roller unit 1 has at least one connecting means 20, by means of which the opening roller unit 1 can be connected or coupled to the opening roller housing 8. According to the present exemplary embodiment, the drive 3 and preferably the drive housing 7 has at least one connecting means 20. Furthermore, the at least one connecting means 20 is designed here as a circumferential groove. A counter element of the opening roller housing 8 can, for example, engage in the groove in a spring-loaded manner, so that the opening roller unit 1 is fixed in the opening roller housing 8 at least in the axial direction A. Additionally or alternatively, the drive 3 or the drive housing 7 can also be accommodated in a form-fitting manner in the opening roller housing 8, so that movement of the opening unit 1 in the axial direction A is prevented.

Furthermore, here the rotor 4 is mounted in the drive 3 by means of a second rotor bearing 23. The second rotor bearing 23 supports a second one Rotor end 22, which is opposite the first rotor end 11. As a result, the rotor 4 is stored stably.

Furthermore, a first diameter 24 in the area of the opening roller 2 is larger than a second diameter 25 in the area of the drive 3. As a result, the opening roller unit 1 can be pulled out of the opening roller housing 8 in the direction of the opening roller 2.

Furthermore, the drive 3 or the drive housing 7 has a first housing end 27 and an opposite second housing end 28. The housing opening 19 is arranged at the first housing end 27. In addition, the base body 12 can cover the first housing end 27 or be flush with it. As a result, the base body 12 also forms a barrier that prevents dirt from getting into the drive 3 when the opening roller unit 1 is removed. In the area of the second housing end 28, for example, the second rotor bearing 23 is arranged.

2 shows the opening roller unit 1 in the opening roller housing 8. The opening roller housing 8 is only partially shown here. For the sake of simplicity, not all features will be explained here or provided with a reference number. However, the opening roller unit 1 shown here may have one or more features of the previous description.

The opening roller housing 8 at least partially encloses the opening roller 2 and the drive 3. As a result, the fiber material supplied to the opening roller unit 1 is fed to the opening section 21 for opening.

Through the two in 1 Diameter 24, 25 shown, the opening roller unit 1 can be pulled out of the opening roller housing 8 as a whole or in a combination of opening roller 2 and drive 3. This is done here in the axial direction A in the direction of opening roller 2.

The opening roller housing 8 here also has, for example, a locking element 26, which can engage in the connecting means 20 designed as a groove. As a result, the opening roller unit 1 can be easily coupled to the opening roller housing 8 and decoupled again.

The coupling of the opening roller 2 with the drive 3 through the rotor 4 is advantageously designed or so strong that the connection of the opening roller unit 1 to the opening roller housing 8 can be released by pulling out the opening roller unit 1 without the combination of the opening roller 2 and Drive 3 is released. The coupling of the opening roller 2 to the drive 3 by the rotor 4 is advantageously designed or so strong that the combination of the opening roller 2 and the drive 3 remains when the opening roller unit 1 is pulled out. The coupling between the opening roller 2 and the drive 3 or the said combination is therefore stronger than the connection between the opening roller unit 1 and the opening roller housing 8.

The coupling between the opening roller 2 with the drive 3 by means of the rotor 4 takes place by means of the coupling of the base body 12 and/or the pressure plate 13 with the rotor 4 and by means of the bearing holder 17 and/or the first rotor bearing 18 and the rotor 4.

The connecting means 20 is therefore designed in such a way that the coupling between the opening roller 2 and the drive 3 or the said composite is therefore stronger than the connection between the opening roller unit 1 and the opening roller housing 8.

The present invention is not limited to the exemplary embodiments shown and described. Modifications within the scope of the patent claims are possible, as is a combination of the features, even if these are shown and described in different exemplary embodiments.

Reference symbol list

1

Opening roller unit

R

Radial direction

2

opening roller

A

Axial direction

3

drive

4

rotor

5

Permanent magnet

6

stator

7

Drive housing

8th

Opening roller housing

9

Dissolving set

10

Dissolving teeth

11

first rotor end

12

Basic body

13

printing plate

14

screw

15

first recording

16

second shot

17

Storage recording

18

first rotor bearing

19

Case opening

20

lanyard

21

Resolution section

22

second rotor end

23

second rotor bearing

24

first diameter

25

second diameter

26

Locking element

27

first end of the housing

28

second housing end

QUOTES INCLUDED IN THE DESCRIPTION

This list of documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102016102151 A1 [0002]

Claims (23)

Opening roller unit (1) for an open-end spinning device with an opening roller (2) for opening fiber material and an electric motor drive (3) for driving the opening roller (2), which has a rotor (4) and one in the radial direction (R) around the rotor (4) arranged stator (6), which are arranged in a drive housing (7), wherein the opening roller (2) is coupled to the rotor (4), characterized in that the opening roller unit (1) is designed such and / or the opening roller (2) and the drive (3) are coupled to one another in such a way that the opening roller unit (1) in the combination of at least the opening roller (2) and drive (3) is removed from the open-end spinning device and / or inserted into the open-end spinning device can be. Opening roller unit (1) according to the previous claim, characterized in that the opening roller (2) and the drive (3), in particular the drive housing (7), are coupled to one another by means of the rotor (4) in such a way that the opening roller (2) is together with the rotor (4), the stator (6) and the drive housing (7) can be removed from the open-end spinning device and / or inserted into the open-end spinning device. Opening roller unit (1) according to one or more of the preceding claims, characterized in that the opening roller unit (1) has a bearing holder (17) by means of which a first rotor bearing (18) for supporting the rotor (4) is accommodated. Opening roller unit (1) according to one or more of the preceding claims, characterized in that the opening roller (2) has a base body (12) which is coupled to the rotor (4), in particular is pressed. Opening roller unit (1) according to one or more of the preceding claims, characterized in that the first rotor bearing (18) is coupled to the bearing holder (17), in particular in a form-fitting, non-positive and/or material-locking manner, at least in the axial direction (A). Opening roller unit (1) according to one or more of the preceding claims, characterized in that the rotor (4) is coupled at least in the axial direction (A) to the first rotor bearing (18), in particular positively, non-positively and/or materially. Opening roller unit (1) according to one or more of the preceding claims, characterized in that the first rotor bearing (18) is connected to the drive housing (7) by means of the bearing receptacle (17), and that the rotor (4) is connected to the drive housing (7) by means of the first rotor bearing (18). Bearing holder (17) and that the rotor (4) is coupled to the opening roller (2) by means of the base body (12). Opening roller unit (1) according to one or more of the preceding claims, characterized in that the bearing holder (17) is connected in a rotationally fixed manner to the drive housing (7) of the drive (3), the bearing holder (17) preferably being at least partially in the drive housing (7). , arranged and / or pressed into the drive housing (7). Opening roller unit (1) according to one or more of the preceding claims, characterized in that the bearing holder (17) is at least partially arranged in a housing opening (19) of the drive housing (7) facing the opening roller (2) and/or the housing opening (19) closed. Opening roller unit (1) according to one or more of the preceding claims, characterized in that the rotor (4) is mounted on a first rotor end (11) facing the opening roller (2) in the bearing holder (17) by means of the first rotor bearing (18) and /or that the opening roller (2) is coupled to the rotor (4) in the area of the first rotor end (11). Opening roller unit (1) according to one or more of the preceding claims, characterized in that the opening roller (2) has an opening section (21) in which opening teeth (10) are arranged for opening the fiber material, the opening section (21) preferably by means of a Dissolving set (9) is formed. Opening roller unit (1) according to one or more of the preceding claims, characterized in that the opening roller unit (1) has a pressure plate (13) by means of which the opening set (9) is held together with the base body (12), the pressure plate (13 ) the opening set (9) preferably presses against the base body (12) in the axial direction (A). Opening roller unit (1) according to one or more of the preceding claims, characterized in that the base body (12) is arranged outside the bearing receptacle (17) in the radial direction (R) of the rotor (4) and/or that the base body (12) is in Radial direction (R) of the rotor (4) extends around the bearing holder (17). Opening roller unit (1) according to one or more of the preceding claims, characterized in that the base body (12) supports the bearing receptacle (17) in the axial direction (A), in particular which completely covers and/or that the base body (12) in the axial direction (A) at least partially covers a first housing end (27) of the drive housing (7) facing the opening roller (2) and/or is flush with the first housing end (27). . Opening roller unit (1) according to one or more of the preceding claims, characterized in that the first rotor bearing (18), the bearing holder (17) and/or the opening section (21) overlap in the axial direction (A). Opening roller unit (1) according to one or more of the preceding claims, characterized in that the bearing holder (17) in the radial direction (R) of the rotor (4) between the rotor (4) and/or the first rotor bearing (18) and the base body ( 12) is arranged. Opening roller unit (1) according to one or more of the preceding claims, characterized in that the first rotor bearing (18) in the axial direction (A) is arranged completely in the area of the opening section (21) and / or that the first rotor bearing (18) in the axial direction (A) A) is arranged in a central region of the opening section (21). Opening roller unit (1) according to one or more of the preceding claims, characterized in that a gap is arranged between the base body (12) and the bearing holder (17), the drive (3) and / or the drive housing (7), which is preferably extends in the radial and/or axial direction (R, A) of the rotor (4). Opening roller unit (1) according to one or more of the preceding claims, characterized in that the opening roller unit (1) has at least one connecting means (20) by means of which the opening roller unit (1) can be coupled to an opening roller housing (8), so that, in particular exclusively, the drive housing (7) can be connected to the opening roller housing (8), wherein the connecting means (20) is preferably a groove running at least partially in the circumferential direction around the opening roller unit (1) and/or wherein the connecting means (20) is preferably on the drive housing (7) is arranged. Opening roller unit (1) according to one or more of the preceding claims, characterized in that the rotor (4) is mounted on a second rotor end (22) opposite the first rotor end (11) by means of a second rotor bearing (23) in the drive (3). Opening roller unit (1) according to one or more of the preceding claims, characterized in that a first diameter (24) of the opening roller unit (1) in the radial direction (R) in the area of the opening roller (2) is larger than a second diameter (25) of the opening roller unit ( 1) in the radial direction (R) in the area of the drive (3). Opening roller unit (1) according to one or more of the preceding claims, characterized in that both rotor bearings (18, 23) are arranged in the drive housing (7). Opening roller unit (1) according to one or more of the preceding claims, characterized in that the electric motor drive (3) is a brushless direct current motor.

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