DE7342874U - Open-end spinning device - Google Patents

Description

Y / V a

■. : g 73 '± 2 874.7 fried. krupp society with

RESTRICTED LIABILITY in Essen open-end spinning device

The invention relates to an open-end Spinnvorrichturi.e; with a spinning rotor arranged in a housing.

So far, the open-end process is still working Spinning rotors have been mounted essentially mechanically, the spinning rotor on a relatively long rotor shaft. As a result, the radial bearing of the rotor shaft had to be in two planes take place.

On the other hand, there are indications, for example high-speed centrifuges became known, in which the principle of the radial bearing of shafts taken over for magnetic bearings xvxirde. The disadvantage These designs consist in the use of magnetic radial bearings arranged in two planes is very complex.

The invention is based on the object of developing a magnetic bearing for spinning rotors, which requires the least possible effort.

The problem posed is achieved in that ax from the spinning rotor and optionally with this fixed connected parts existing rotor unit at least 5 in the radial direction over at least one circular

7342874 zo.0175

Magnets arranged in a curve are supported without contact \ J_J. The magnets interact with a disc-shaped part of the rotor unit, which is made of ferromagnetic material. The part in question and the magnets are arranged in the area of the plane running perpendicular to the axis of rotation of the rotor unit through its center of gravity.

In a particularly advantageous embodiment of the subject invention, the existing ferromagnetic material spinning rotor is provided with a concentric to the axis of rotation Utnfangsflache which is surrounded at a distance by a stationary ring containing magnets having windings and poles which the spinning rotor both radially and - by axially fix a restoring force present between the pole pieces and the mating surface during an axial displacement of the spinning rotor. The pole shoes of the magnets and the opposing surface of the ferromagnetic disk are designed in a manner known per se so that an axial displacement of the disk out of the bearing plane leads to an extension of the magnetic force lines and thus to an axial restoring force.

The invention is based on the knowledge that the spinning rotor is in its essential form in terms of spinning technology represents a disk which rotates around an axis in which it has its maximum moment of inertia. It it is therefore possible to have a magnetic storage design, which essentially only in one Level is in the center of gravity plane of the rotor unit.

7342874 03/20/75

If the spinning rotor is made of ferromagnetic material, it can be lengthened by means of a single magnet.

be stored radially stable.

In another preferred embodiment of the subject matter of the invention is the spinning rotor with a support disk made of ferromagnetic material two mutually inclined conical surfaces releasably connected, each of which has a stationary ring - the Corresponding to the poles, they are more inclined and lying next to each other Magnet is built up - with a gap between the two

The design has the advantage that one and the same magnetic bearing can be used for spinning rotors of different sizes. Another advantage The execution can be seen in the fact that the rotor-Einhext - due to the inclined arrangement of the Magente against each other - βΟΛ ^ οΙιΙ in axial as well as in is supported in the radial direction. The two stationary rings therefore each take axial and radial forces on.

In a further embodiment of the subject matter of the invention is that one of the magnets? '- \ i; th magnetic field at the same time designed as a rotating field driving the rotor unit. The spinning rotor therefore needs no longer own mechanical drive. The magnetic storage can also be used with devices for electrical damping of racial and axial vibrations of the rotor unit provided as well as with devices which effectively suppress the precession of the rotor unit.

The magnetic storage also makes it possible to make the spinning rotor or rotor unit operate in a vacuum chamber, thereby improving the Spinnbodingungen and the drive power can be reduced. Difficulties associated with the use of lubricants do not arise with the magnetic bearing.

The subject matter of the invention is based on the following several embodiments shown in the drawing explains «It shows:

Fig. 1 is a section through a arranged in a housing magnetic Radial bearing,

Fig. 2 shows a magnetic radial bearing of a ver with a support disc

bound spinning rotor and

Fig. 3 is a section through one with a support disk connected to the spinning rotor, which is magnetically ge in the axial and radial directions

is stored.

According to FIG. 1, the spinning rotor 1 is arranged in a closed housing 2 and held in the radial direction by means of a magnetic bearing ring made up of magnets 3 with turns k. The spinning rotor 1 is supported by the circumferential surface 1 ', which is arranged concentrically to the axis of rotation 5 of the spinning rotor. The inwardly directed poles 3 'of the magnets 3 enclose the circumferential surface l ^r with a small distance.

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The; 'u spun fiber material υ the spinning rotor through a fiber channel x 7 in AuTlöse -,' r eiitiuse ei supplied, wherein a Fa serleitsclioilie ⁽ⁱ liafiir ensures that the air flowing into the spinning rotor 1 τ Pcsernaterial as far as possible from the from the Spiiiiirotor. The thread 10 is separated from the drawn-off thread 10. The thread 10 passes through a guide tube Ll to the outside, which is firmly connected to the housing 2. The thread draw-off is carried out by counter-rotating take-off rollers 13 encompassing the thread .

The housing 2 is provided in its lower portion with a bore lk , through which the housing 2 - for example by means of a vacuum pump - under the

T> set negative pressure required for spinning technology

can be. Fiber fly material can also be sucked off through the hole.

Bs is also possible, the spinning rotor 1 via a To connect screw connection 15 with a support plate l6 made of ferro-magnetic material and the rotor unit consisting of parts 1, l6 and 15 on the support disc to be stored magnetically. In this case, the circumferential surface l6 'of the support disk is inwardly directed poles 3 'of magnets 3 at a distance from one another 5 above (Figure 2).

The magnets 3 or the ring formed from this and the circumferential surface l6 'are expediently in Arranged in the area of the plane of the center of gravity of the rotor unit.

The axial fixation of the spinning rotor or the rotor unit in the housing 2 can be brought about by a suitable design of the pole shoes 3 'and the outer contour 16 ^{1 of} the support disk 16 serving as a counter surface.

- T -

* »Η # 11

In the rotor unit shown in FIG. 3, the support disk 17 is tapered against one another inclined circumferential surfaces 17 'provided, which two rings made up of magnets l8 and 19 with Opposite distance ^. As a result of the inclined Arrangement of the poles of the magnets, the illustrated magnetic bearing can generate both axial and radial forces record i.

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Claims (2)

A η s ρ r ü c Ii e ι 1. Open-end spinning device with one in a housing arranged spinning rotor, characterized in that from the spinning rotor (l) and optionally with this firmly connected parts existing rotor unit at least in the radial direction is mounted brührunpsfrei on at least one circular arc arranged magnets, the magnets with a disc-shaped part of the door unit, which is made of ferromagnetic material consists, stand in interaction and the part in question as well as the magnets in the area of the perpendicular arranged to the axis of rotation (5) of the rotor unit drrch its center of gravity extending plane are. 2. Open-end spinning device according to claim 1, characterized in that the spinning rotor (l) made of ferromagnetic material is provided with a circumferential surface (l ¹ ) concentric to the axis of rotation (^) , which is enclosed at a distance by a stationary ring , the magnets (3) roit windings (k) and poles (3 ¹ ), which fix the spinning rotor both axially and by a ^{restoring force that is present between the pole pieces (3 1} ) and the opposing surface l6 'during an axial displacement of the spinning rotor - axially . 3 · Open-end spinning device according to claim 1, characterized characterized in that the spinning rotor (l) has a support disk (17) made of ferromagnetic material is releasably connected to two mutually inclined conical surfaces (17 '), each of which is a stationary one Ring (18,19) - which is made up of the poles correspondingly inclined magnets lying next to each other - at a distance opposite. 7342874 03/20/75 ■ Ί. Oven-egg spinning device with one or more / of the preceding claims, characterized in, that the magnetic field generated by the magnets is simultaneous si? the rotating field driving the rotor unit is trained. 7342874 20.0175