DE102007052527A1 - Spindle with drive - Google Patents

Abstract

The The invention relates to a spindle for spinning machines a single motor drive, the one rotatably with a spindle top the spindle connected rotor and a non-rotatably with a spindle bearing housing associated stator, wherein the spindle bearing housing a shaft of the spindle top over a in the region of Rotor arranged upper bearing and over a below The lower bearing of the rotor carries the rotor on the outside on a sleeve part encompassing the upper bearing is attached and that the stator of a Statorgehäuseteil is surrounded, wherein the stator housing part is a hollow cylinder is formed, wherein a lower edge region (10) of the same with a spindle lower part is connected and an upper edge region of the stator housing part via a lamellar ring unit as a sealant contactless with respect to the spindle top part or sealed to a neck portion connected to the spindle top is.

Description

The The invention relates to a spindle for spinning machines a single motor drive, the one rotatably with a spindle top the spindle connected rotor and a non-rotatably with a spindle bearing housing associated stator, wherein the spindle bearing housing a shaft of the spindle top over a in the region of Rotor arranged upper bearing and over a below The rotor bearing lower bearing carries that of the Rotor on the outside on a the upper bearing encompassing Sleeve part is attached and that the stator of a Statorgehäuseteil is surrounded.

From the DE 40 40 103 A1 a spindle for spinning machines with a single-motor drive is known, wherein a rotor of the single-motor drive rotatably connected to a spindle upper part of the spindle and a stator of the drive rotatably connected to a spindle bearing housing. The spindle bearing housing has an upper bearing and a lower bearing and is fixedly connected to a housing part surrounding the stator. The rotor is externally mounted on a sleeve member surrounding the upper bearing. A disadvantage of the known spindle is that it is designed to be relatively bulky in the region of the electromotive drive. Furthermore, it is disadvantageous in the known spindle that the maintenance effort, for example, for the change of the lubricant in the lower bearing, is relatively expensive.

task The present invention is a spindle for spinning machines with a single motor drive in such a way that the spindle overall a compact and space-saving construction having at the same time the maintenance is reduced.

to Solution to this problem is the invention in connection with the preamble of claim 1, characterized in that the stator housing part formed hollow cylindrical is, wherein a lower edge region thereof with a spindle lower part is connected and an upper edge region of the stator housing over a lamellar ring unit as a sealant contactless opposite the spindle top part or one with the spindle top part sealed neck portion is sealed.

Advantageous the invention enables a compact construction of a spindle. The basic idea of the invention is to construct a spindle such that an electromotive drive integrated in such a spindle is arranged, that the transverse extension of the spindle a predetermined Do not exceed the diameter and above In addition, a high degree of tightness and ease of maintenance given is. This is achieved by a hollow cylindrical Embodiment of a stator housing bearing the stator, on the one hand with a lower edge area directly with the Spindle lower part and with an upper edge region directly with the spindle top or a fixedly connected with the same approach part is coupled. Advantageously, the spindle has a transition region between the spindle top and the spindle lower part a relative constant thickness up. This allows the plurality of spindles of Spinning machine saves space at a clear distance from, for example 70 mm can be arranged. Characterized in that as a sealing means a laminar ring unit is provided, by means of which an upper edge region of the Statorgehäuseteils contactless with respect to the spindle top part or sealed the neck portion, the invention allows an improved sealing of the rotating parts with respect to the environment.

to Solution to the problem is the invention in connection with the preamble of claim 2, characterized in that the stator and / or the rotor of the electric motor drive in such a way are formed and / or arranged that the drive covering Statorgehäuseteil has an outer diameter, the maximum by the wall thickness of the in the axial direction to Statorgehäuseteil adjacent housing section the spindle is larger than the outer diameter of the adjacent housing section.

Of the particular advantage of the invention according to claim 2 is that by the space-saving and compact arrangement a drive, preferably a synchronous motor, the total cross-section the spindle in a central region between the spindle top part and the spindle lower part can be kept small. There's a Yarn-carrying bobbin of the spindle usually connected to a suction system is for sucking unwanted Thread residues or dirt particles can, due to the invention compact Structure of the spindle reduces the suction power of the extraction system become. If the spindle has been designed by a Remote drive arranged via a belt coupling To be driven, the spindle can easily on a design be converted with a single motor drive, wherein the suction power of the associated extraction system kept constant can be.

According to a preferred embodiment of the invention, the stator housing part is releasably connected to the spindle lower part. For example, the stator housing part may be connected via a screw connection or by pressing with the spindle lower part. Advantageously, this can be removed in a simple manner not only the spindle top together with the shaft from the spindle lower part, but also beyond the stator. By the inventively improved accessibility to the bearings of the spindle results in increased ease of maintenance. The spindle can be easily dismantled or components can be replaced in a simplified manner.

To a development of the invention is the spindle bearing housing formed by the spindle lower part. This advantageously results a direct bearing of the shaft in the spindle lower part. Advantageous this can reduce the number of components of the spindle, so that the assembly and disassembly of the spindle is simplified.

To a development of the invention is at one end of a hollow cylindrical Receiving part of the spindle lower part a stop collar arranged the with a circumferential annular nose an inner side of the sleeve part is facing. This ensures that only a limited axial displacement while maintaining the tumble of the Spindle shell is given during operation. Further This results in an advantageous manner an improved sealing effect.

To a development of the invention has an inside of the sleeve part an annular ring nose, which seals the well-near Room serves to the environment.

Further Advantages of the invention will become apparent from the other dependent claims.

One Embodiment of the invention will be described below explained in more detail in the drawings.

It demonstrate:

1 a side view of a spindle,

2 a vertical section through the spindle in a transition region between a spindle upper part and a spindle lower part of the spindle in the assembled state and

3 a vertical section through the spindle according to 2 in a disassembled state.

A spinning machine consists of a plurality of spindles 1 which can be arranged at a predetermined clear distance of, for example, 70 mm to each other. The spindle 1 consists essentially of a spindle top part 2 and a spindle lower part 3 , The spindle top 2 has a coil carrier 4 on which the yarn or fibers are applied. The spindle lower part 3 is by means of fastening screws on a preferably movable platform 5 attached.

In a middle area 6 the spindle 1 is an electric motor drive 7 arranged to drive the spindle top 2 , The electromotive drive 7 is by means of a Statorgehäuseteils 8th covered in the circumferential direction, wherein the stator housing part 8th an outer wall 9 having a constant outer diameter d. For example, the outer diameter d may be 40 mm. The outer diameter d of the Statorgehäuseteils 8th is insignificantly larger than the outer diameter u of the spindle lower part 3 , Preferably, the outer diameter d of the Statorgehäuseteils 8th at most around the wall thickness of the spindle lower part serving as an adjacent housing section 3 larger than the outer diameter u of the spindle lower part 3 , The transverse extension of the spindle 1 is in the area of the stator housing part 8th the biggest. According to the invention, the limitation of the transverse extent in the region of the drive 7 made possible by the compact structure of the same, which is preferably designed as a synchronous motor.

The outer diameter d of the Statorgehäuseteils 8th is smaller than the maximum outer diameter o of the bobbin 4 , The invention thus enables a compact integration of the electric motor drive 7 in the spindle 1 ,

How better 2 can be seen, is the Statorgehäuseteil 8th hollow cylindrical and extends between the spindle lower part 3 and the spindle top 2 , In a lower edge area 10 of the stator housing part 8th is the same by means of screw detachable with the spindle lower part 3 connected. For this purpose, has an inner wall of the lower edge region 10 of the stator housing part 8th and an upper outer edge portion of the spindle lower part 3 one thread each. The lower edge area 10 of the stator housing part 8th surrounds an upper outer edge portion of the spindle lower part 3 along a distance a and thus allows a secure connection of the cover as the drive 7 serving to the surrounding Statorgehäuseteils 8th with the spindle lower part 3 ,

According to an alternative embodiment of the invention, not shown, the lower edge region 10 of the stator housing part 8th with the upper edge portion of the spindle lower part 3 also be releasably connected by pressing. The lower edge area 10 of the stator housing part 8th lies here with an inner wall surface at the upper edge portion of the spindle lower part 3 at.

On an inner wall 11 of the stator housing part 8th is a stator in a central area 12 with windings 13 and a laminated core 14 attached. The stator 12 acts with a rotor separated by an air gap 15 of the electromotive drive 7 together, the rotation with the spindle top part 2 connected is. The rotor 15 is on a sleeve part 16 attached, coaxial with a shaft 17 of the spindle top part 2 is arranged. In the present embodiment, the sleeve part widened 16 at the level of an upper edge area 18 of the stator housing part 8th , wherein a widening section 19 of the sleeve part 16 above the stator 12 and the rotor 15 is arranged. The distribution section 19 is via a connecting radially inward connecting portion 20 stuck with the shaft 17 connected. The sleeve part 16 consists of the thin-walled section 16 ' on which the rotor 15 is stored and the widening section 19 that is fixed to the connecting section 20 and a neck portion 21 connected is.

According to an embodiment of the invention, not shown, the sleeve part 16 , the connection section 20 and the paragraph section 21 also be formed in one piece.

Outside of the sleeve part 16 closes the neck section 21 on, as a sealant a laminar ring unit 22 wearing. The lamellar unit 22 consists of three slotted metal rings, with the slots of the metal rings offset from one another. The lamellar ring unit 22 has three coaxial with an axis 23 the wave 17 arranged on metal rings, with play to the upper edge area 18 of the stator housing part 8th are arranged. The lamellar ring unit 22 forms a labyrinth, so that on the one hand a secure seal of the electric motor drive 7 given to the environment and on the other hand, no frictional forces on the rotational movement of the spindle top part 2 act.

The wave 17 of the spindle top part 2 is in the form of a spindle bearing housing spindle lower part 3 by a height of the rotor 15 arranged upper bearing 24 and above one below the rotor 15 arranged lower camp 25 held. For this purpose, the spindle lower part 3 a hollow cylindrical receiving part 26 on, being in the upper part of the receiving part 26 as upper bearing 24 a needle bearing / roller bearing and in the lower part of the receiving part 26 as lower camp 25 a sliding bearing are arranged. The recording part 26 is in the direction of the spindle top part 2 arranged rejuvenating. The lower part of the receiving part 26 is fixed with a hollow cylindrical base 27 of the spindle lower part 3 connected. The base 27 of the spindle lower part 3 forms the housing of the spindle lower part 3 and points in the upper edge area 18 the thread on for releasable attachment to the Statorgehäuseteil 8th ,

The recording part 26 points to a spindle top 2 facing end face a radially outwardly facing stop collar 28 on, having rubberized ends, the one to the inner diameter of the sleeve part 16 have corresponding outer diameter. The stop collar 28 acts with an inside of the sleeve part 16 protruding ring nose 29 together, allowing an undesirable move out of the shaft 17 from the spindle lower part 3 is prevented. On the other hand, a required tumble of the spindle top part 2 to a limited extent.

The stop collar 28 of the receiving part 26 extends in an area above the rotor 15 , The ring nose 29 of the sleeve part 16 extends in an upper end region of the rotor 15 , The rotor 15 is formed as an annular permanent magnet, which together with the stator 12 forms a space-saving in the radial direction synchronous motor. The electromotive drive 7 As a result, it has a relatively small cross section, so that one in the upper region of the spindle 1 connected extraction system for the extraction of dirt particles or thread remnants from the spindle top part 2 can be operated with a relatively low suction power. An unillustrated upper capsule housing, in the region of the spindle top part 2 is arranged, is connected to the extraction system. Advantageously, by the narrow configuration of the spindle 1 the required power of the extraction system can be minimized or optimized.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 4040103 A1 [0002]

Claims (11)

Spindle for spinning machines with a single-motor drive having a rotatably connected to a spindle top of the spindle rotor and a rotatably connected to a spindle bearing housing stator, wherein the spindle bearing housing a shaft of the spindle top over an arranged in the region of the rotor upper bearing and a below the rotor arranged lower bearing carries, that the rotor is externally mounted on a sleeve which engages around the upper bearing and that the stator is surrounded by a Statorgehäuseteil, characterized in that the Statorgehäuseteil ( 8th ) is hollow cylindrical, wherein a lower edge region ( 10 ) thereof with a spindle lower part ( 3 ) and an upper edge region ( 18 ) of the stator housing part ( 8th ) via a lamellar ring unit ( 22 ) as a sealant contactless with respect to the spindle top part ( 2 ) or one with the spindle top part ( 2 ) ( 21 ) is sealed. Spindle for spinning machines with a single-motor drive having a rotatably connected to a spindle top of the spindle rotor and a rotatably connected to a spindle bearing housing stator, wherein the spindle bearing housing a shaft of the spindle top over an arranged in the region of the rotor upper bearing and a below the rotor arranged lower bearing carries, that the rotor is mounted on the outside on a sleeve which engages around the upper bearing and that the stator is surrounded by a stator housing part, characterized in that the stator ( 12 ) and / or the rotor ( 15 ) of the electromotive drive ( 7 ) are formed and / or arranged such that the drive ( 7 ) covering stator housing part ( 8th ) has an outer diameter (d), the maximum by the wall thickness of the axial in the stator housing part ( 8th ) adjacent housing section ( 3 ) of the spindle ( 1 ) is greater than the outer diameter (u) of the adjacent housing portion ( 3 ). Spindle according to claim 1 or 2, characterized in that the lower edge region ( 10 ) of the stator housing part ( 8th ) detachable with the spindle lower part ( 3 ) connected is. Spindle according to claim 3, characterized in that the inner wall of the lower edge region ( 10 ) of the stator housing part ( 8th ) and an upper edge portion of the spindle lower part ( 3 ) have a thread, such that the stator housing part ( 8th ) via a screw connection with the spindle lower part ( 3 ) connected is. Spindle according to claim 3, characterized in that the lower edge region ( 10 ) of the stator housing part ( 8th ) and an upper edge portion of the spindle lower part ( 3 ) are formed such that the stator housing part ( 8th ) under pressure with the spindle lower part ( 3 ) connected is. Spindle according to claim 5, characterized in that the lower edge region ( 10 ) of the stator housing part ( 8th ) with an inner wall flat on the spindle lower part ( 3 ) is present. Spindle according to one of claims 1 to 6, characterized in that the sleeve part ( 16 ) in one piece with the spindle top part ( 2 ), wherein the rotor ( 15 ) only on a thin-walled section ( 16 ' ) of the sleeve part ( 16 ) is stored. Spindle according to one of claims 1 to 7, characterized in that the spindle bearing housing by the spindle lower part ( 3 ) is formed, on the one hand a hollow cylindrical base ( 27 ), at the upper edge portion of the stator housing ( 8th ), and that, on the other hand, a tapering of the base ( 27 ) in the direction of the spindle top part ( 2 ) extending hollow cylindrical receiving part ( 26 ) for the provision of the upper camp ( 24 ) for the wave ( 17 ) having. Spindle according to one of claims 1 to 8, characterized in that the hollow cylindrical receiving part ( 26 ) on a spindle top part ( 2 ) facing end face a stop collar ( 28 ) which is annular and in the direction of an inner side of the sleeve part ( 16 ) protrudes. Spindle according to one of claims 1 to 9, characterized in that from the inside of the sleeve part ( 16 ) an annular ring nose ( 29 ), which with the stop collar ( 28 ) cooperates, such that the spindle upper part ( 2 ) in the operating state not from the spindle lower part ( 3 ) can be removed. Spindle according to one of claims 1 to 10, characterized in that the rotor ( 15 ) is formed as an annular permanent magnet.