CZ297128B6 - Spindle bearing device - Google Patents

Abstract

The present invention relates to a spindle bearing, particularly in ring spinning and twisting machines, having a neck bearing (11) and a bottom bearing (12) accommodated in an inner bearing housing (13) being encompassed by an outer bearing housing (14). Said inner bearing housing (13) is provided with a pin (15) at its bottom end and said outer bearing housing (14) has on its bottom (16) a tapered extension (17) or opening (33) whereby the pin (15) of the inner bearing housing (13) is anchored in the extension (17) or opening (33) of the , outer bearing housing (14). Said bottom (16) of the outer bearing housing (14) is relatively thin-walled whereby the anchorage points of the inner bearing housing (13) form a joint about which said inner bearing housing (13) pivots inside said outer bearing housing (14) with a defined stiffness in torsion.

Description

Spindle bearing

Technical field

The invention relates to a spindle bearing, in particular in ring spinning machines and twisting machines, with a throat bearing and a foot bearing in an inner bearing housing, which is surrounded by an outer bearing housing, the inner bearing housing having a pin at its lower end.

BACKGROUND OF THE INVENTION

For spindle bearings, especially for ring spinning machines and twisting machines, appropriate damping devices must be used due to the high rotational speed of the continuously occurring and radially acting oscillations. For this reason, the spindle bearings in the upper region have, as a rule, radially acting springs. In the known solution which avoids these springs, the inner bearing shell and the outer bearing shell are connected by means of darkness to a resiliently elastic constricted zone, as disclosed, for example, in DE 40 36 353 A1. However, this solution leads to a bearing which is very time-consuming to manufacture.

DE 195 34 339 discloses a spindle bearing with an outer bearing housing and an inner bearing housing in which a foot bearing for a spindle shaft is fitted. The inner shell is anchored in the bottom hole of the outer shell by means of a pin when the spring is inserted. In this case, the pin is provided with a pin guided with a clearance in the bottom of the outer bearing housing, to which the nut is screwed from the outside. By means of a pin guided with clearance through the opening in the bottom, it is possible to adjust the inner shell relative to the outer shell. The bottom of the outer bearing shell is made of thick-walled. Here, the elastic elasticity of the spindle in the radial direction is achieved by springs in the region of the cervical bearing and in the area of the foot bearing.

DE 195 36 874 A1 discloses spindle bearings in which the inner shell with the spindle foot bearing is anchored in the bottom opening of the outer bearing shell by means of pins having a constriction. The pins are again provided with threaded pins which are guided through the bottom opening with play and serve together with the nut screwed from the outside to adjust the inner casing relative to the outer casing. The bottom of the outer shell has the shape of a dome and is made of thick-walled. The pin therefore touches the bottom of the outer shell annularly and on the outer side radially very far. The elastic elasticity in the radial direction is produced here solely by means of a taper on the pin. Even in the case of a thick-walled design of the bottom of the outer sheath, this could not act as a hinge due to the radially very far outer edge of the pin-lying contact line.

DE 44 43 631 A1 of the same Applicant describes a spindle bearing in which the inner shell is also articulated in the outer shell. The hinge is formed by a top on the bottom of the inner bearing housing and a correspondingly shaped cavity on the outer bearing housing. In another embodiment, the outer bearing housing has an elastic membrane on which the heel region of the inner housing acts. Therefore, also in these spindle bearings, additional elements are required to form a hinge between the inner shell and the outer shell.

SUMMARY OF THE INVENTION

SUMMARY OF THE INVENTION The object of the present invention is to improve the spindle bearing of the aforementioned type so that the elastic elasticity of the spindle in the radial direction can be solved by lower construction costs than before and with less space.

-1 CZ 297128 B6

The invention solves this object by supporting a spindle of the aforementioned type in that the outer bearing housing has a tapered extension or bore on its bottom, the pin of the inner bearing housing being anchored in the extension or bore of the outer bearing housing, for example by compression or threaded connection; wherein the bottom of the outer bearing housing is formed thin-walled, wherein the anchoring points of the inner bearing housing form a hinge around which the inner bearing housing is rotatably mounted within the outer bearing housing with a defined torsional stiffness. As a result, the construction length of the spindle bearing can be shortened. By eliminating the elastically elastic darkness disclosed in DE 40 36 353 A1 and DE 195 36 874 A1 the construction length of the spindle is reduced. Instead of anchoring the inner bearing housing and the outer bearing housing, it acts as a hinge around which the inner bearing housing is rotatable within the outer bearing housing.

The inner bearing housing may have a relatively thin-walled bottom. As a result, the thin-walled bottoms act as membrane discs. The desired stiffness of the neck bearing can be adjusted by the thickness and shape of each bottom. In this way, the relatively thin-walled bottoms can be interpreted in such a way that, together with the bending strength of the journal of the inner bearing housing, they achieve the stiffness required for the cervical bearing.

Due to the cost-effective construction, the inner bearing journal can be pressed or screwed into the inner bearing extension.

For ease of assembly and disassembly, the inner bearing housing pin, which can be guided through the bottom of the outer bearing housing and onto which nuts can be screwed, may have an external thread.

For simple centering of the inner bearing housing on the outer bearing housing, the outer bearing housing extension may have a constriction followed by an annular extension with an external thread to fix the centering device for the inner bearing housing.

For the same reasons, a nut with a point projection can be screwed onto the annular extension with an external thread. When the nut is tightened, the point protrusion is pressed against the bottom of the outer bearing housing, whereby the outer bearing housing extension is pressed to the side and the inner bearing housing is tilted.

For further damping of the oscillation, a damping medium may be provided between the inner bearing housing.

BRIEF DESCRIPTION OF THE DRAWINGS

In the following, an exemplary embodiment of a spindle receptacle formed in accordance with the invention is illustrated in more detail by the accompanying drawings. The drawings show:

FIG. 1 is a cross-sectional view of a spindle bearing; FIG. 2 is a cross-sectional view of a second embodiment of a connection point between an inner bearing housing and an outer bearing housing; FIG. FIG. 4 is a cross-sectional view of a fourth embodiment of a connection between an inner bearing housing and an outer bearing housing.

-2GB 297128 B6

DETAILED DESCRIPTION OF THE INVENTION

Giant. 1 shows a spindle bearing 10 with a throat bearing 11 and a foot bearing 12. The spindle bearing 10 has an inner bearing housing 13 which is surrounded by an outer bearing housing 14. The inner 5 bearing housing 13 has a pin 15 at its lower end. a tapered extension 17 in which the pin 15 is pressed in is at the bottom of the outer bearing housing 14. This is very simple to manufacture. The bottom 16 of the outer bearing housing 14 and the bottom 18 of the inner bearing housing 13 are formed as relatively thin-walled. In this connection, the relatively thin-walled bottoms 16 and 18 act as membrane disks or as cardan joints. Relatively, the bones 16 and 18 and the pin 15, due to their bending stiffness, can spring the inner bearing housing 18 with the neck bearing 11 and the foot bearing 12 in the radial direction. The desired radial stiffness can be provided by the thickness and shape of the bottom 16, 18. Between the outer bearing housing 14 and the inner bearing housing 13, a damping medium 19 is provided, which is intended to dampen additional radial oscillations.

Giant. 2 shows a second alternative connection between the second outer bearing housing 20 and the second inner bearing housing 21. The second inner bearing housing 21 has at its lower end a second male threaded pin 22. The outer bearing shell 20 has at its lower end a tapered second threaded adapter 23. By means of threads, the second inner bearing 20 can be screwed into the outer bearing 20.

Giant. 3 shows a third inner bearing housing 30 having a third male threaded end 31 at its lower end. The third outer bearing shell 32 has an opening 33 at its lower end. By means of a third pin 31 which is received in the hole 33 and a nut 34 which is screwed from outside 25 to the third pin 31, the third inner bearing housing 30 and the third outer bearing shell 32.

Giant. 4 shows a fourth outer bearing shell 40 with an annular extension 41 on a tapered extension. A further nut 42 is screwed onto the extension 41. Between the other nut 42 and the bottom 43 of the fourth outer bearing shell 40 is a ring 44 having point projections 45. When the other nut 42 is tightened, the ring 44 is pressed against the bottom with its point projections 45. 43 of the fourth outer bearing shell 40, thereby compressing the extension 41 to the side, thereby allowing the fourth bearing shell 46 to tilt in the desired direction. In this way, the centering of the fourth outer bearing housing 40 and the fourth inner bearing housing 35 46 is easy to implement.

Claims (7)

1. Spindle bearing, in particular for ring spinning machines and twisting machines, with a throat bearing (11) and a foot bearing (12) in an inner bearing housing (13, 21, 30, 46) surrounded by an outer bearing housing (14, 20, 32, 40), wherein the inner bearing housing (13, 21, 30, 46) has a pin (15, 22, 31) at its lower end, characterized in that the outer bearing housing (14, 20, 32 40) has a tapered extension (17, 23) or hole 10 (33) on its bottom (16, 43), the pin (15, 22, 31) of the inner bearing housing (13, 21, 30, 46) being anchored in an extension (17, 23) or an opening (33) of the outer bearing housing (14, 20, 32, 40), for example by means of a press fit or a threaded connection, and wherein the bottom (16, 43) of the outer bearing housing (14, 20, 32, 40) is made of thin-walled, the anchoring points of the inner bearing housing (13, 21, 30, 46) form a hinge around which the inner bearing housing (13, 21, 30, 46) is rotatably mounted 15 within the outer bearing housing (14, 20, 32, 40) with defined torsional stiffness. Spindle bearing according to claim 1, characterized in that the inner bearing housing (13, 21, 30, 46) has a thin-walled bottom (18). 20 May Spindle bearing according to claim 1 or 2, characterized in that the pin (15, 22) of the inner bearing housing (13, 21) is pressed or screwed into the extension (17, 23) of the outer bearing housing (14, 20). Spindle bearing according to one of Claims 1 to 3, characterized in that the pin (31) 25 of the inner bearing housing (30) is received in the bore (33) of the outer bearing housing (32) and on which the nut is screwed (34), is provided with an external thread. Spindle bearing according to one of Claims 1 to 4, characterized in that the outer bearing shell extension (40) has a constriction, behind which an annular extension (41) is formed. 30 with an external thread for fixing the centering device for the inner bearing housing (46). A spindle bearing according to claim 5, characterized in that a pointed projection nut or another nut (42) is screwed onto the annular extension (41) with an external thread between which an annular ring (44) is located between the outer bearing housing (40). ) with point projection 35 (45). Bearing arrangement according to one of Claims 1 to 6, characterized in that a damping medium (19) is arranged between the inner bearing housing (13, 21, 30, 46) and the outer bearing housing (14, 20, 32, 40).