DE2301412B2 - Storage for spinning and twisting spindles - Google Patents

Description

- - a compression spring 12 of the ge Fußlagerbuchse 7

separates The compression spring 12 supported on the foot bearing bush 7 urges the foot bearing sleeve 11 into contact

It is known that the spring bar, in addition to its spring tube 8, which is attached to a spring ring 13 in a groove of the guide by bending and stretching. The spring force of the compression spring 12 is so acting in the axial direction of the spindle shaft that the contact of the foot bearing sleeve 11 has the task of elastically holding the foot bearing in the radial spring ring 13 at all during operation of the direction. Axial loads occurring in a known spindle guarantee storage of this type (IT-PS 310 551, Fig. 3) provides is the spring travel on a support bearing, which is elastically ab-spherical surface on the foot bearing body and a counter-supported by a spring rod 5 to spindle bearing housing 1 and whose lateral movements are formed by the spherical surface on the bearing housing, with damping spirals 9 being damped,
then by rolling these surfaces on top of each other. The embodiment shown in FIG. 2 also differs from the one shown in FIG H from the foot almost without elastic * support in the axial direction bearing bush 7 separating elastic intermediate layer tttflg. This admittedly reduces the fact that one does not have a compression spring, but rather a raw material 16 with the same suspension properties in the axial direction with regard to the overloading of the filling position overloading of the spring letter could "take place, JE six $ elastic material such. as a Ölbeatändigeii but at the same time is thus lost the advantage, rubber, is

to a fa axial elastic "step bearing for the case of excessive STALER palpation of the feet by running the spindle has ms sliding friction on the ball · camp 3, the Fußlagefhülse can against the U

Spring force of the compression spring 12 or the cane 16 move in the guide tube 8 and absorb this load elastically. Since the spring force of the Compression spring 12 and the cane 16 but weaker is chosen as the force that, when axially acting on the spring bar 5, its permanent deformation result in dsm ent against the compression spring 12 or the pipe piece 16 taking place displacement of the Fußlagerhulse U none Overload of the spring bar S.

Overloading is avoided by that on the spindle shaft 4 a collar 14 and on the spindle bearing housing 1 a stop 15 assigned to it are designed as a cover disk. The collar 14 and the stop IS are, as shown in FIG. 1 can be seen in Normal state of the spindle inserted into the housing 1 separated from one another. The collar 14 comes only then to rest on the stop 15 when

the spindle suddenly puts an axial load on the foot support 3. This touching the parts 14 and 15 takes place before the compression spring 12 or the pipe section 16 reach their elastic limit,

ib. before the compression spring 12 by placing its windings on one another to form one in the axial direction rigid body or before the pipe section 16 is its shortest possible by compression Length reached. The federal government 14 also comes to

Rest on the stop 15 before the foot bearing oil 11 could come into direct contact with the Fußlagererbubse7. So it's through the collar 14 and the stop 15 avoided that the spindle shaft 4 in the direction of its axis

is so great a force can exert on the footrest 3, that this becomes a component that is rigid in the axial direction and then a permanent deformation of the spring rod 5 could cause.

1 sheet of drawings

Claims (6)

flat reduces zugteteto the petartes sayings given by the feather tab: given Kwtidtlt, The invention is based on the object X, storage tier for spinning or twin treads to create a simply designed footer in which with a shark "- and a footrest for the 5 despite unlimited use of the" W "w" I SpmdeteRhaft. where the foot bearing, due to a radial elasticity of the spring tab, loads the footrest which extends over a period of time and coaxially to the spindle stem Spring bar at the bottom of the spindle bearing housing spring bar certainly avoided fet. is supported, characterized in that this object is achieved by the invention in claim 1, the end of the spring rod (5) on the foot bearing side. Advantageously, a foot bearing bushing (7) is used, which is related to the invention and the dependent claims called a foot receiving the spindle (4) bearing sleeve fill) by one in the axial direction of the The invention is macMolgena on the basis of two Spindle shaft (4) elastic intermediate layer (12; examples explained in more detail. It shows 16) separately t5 Fig. 1 is shown partially in section 2. Storage according to claim 1, characterized in that Spmdellagergehäuses, indicates that cfie foot bearing bushing (7), the Fig. 2 to longitudinal section only the area of the foot Elastic intermediate layer (13; 16) and the foot bearing of a spindle bearing housing with a second bearing sleeve (U) in an adjoining guide example of a foot bearing housing.
Rungsrohr (8) are used, which is supported by a »A SpindeQagergehäuses 1 contains a neck bearing 2 known damping spiral (9) radially to and a pedestal bearing designated 3 iur the spindle-spindle bearing housing (1) shaft 4. In the neck bearing 2 is the spindle shaft 4 3. Storage according to claim 1 and 2, thereby guided radially, also in the foot bearing 3, which also characterized in that the foot bearing sleeve (11) axially still supports the axial support of the spindle shaft 4 slidable to the guide tube (8) is held as serves While the neck bearing 2 is rigid to the spindle 4. Storage according to claims 1 to 3, the bearing housing 1 is set, the foot bearing is 3 in characterized in that the spindle bearing is elastic in the radial and axial direction to the spindle housing (1) for a bearing housing 1 held on the spindle shaft (4). formed collar (14) a stop (15) on the bracket of the foot bearing 3 is a spring point, the stop (15) and the collar 30 rod 5, one end of which is in a base piece 6 (14) are assigned to one another in such a way that they are first determined, e.g. by flanging the joints together rest when the elastic intermediate edge, to Spinde: bearing housing 1 is attached Scheme layer (12; 16) by pressure on the border. With its other end, the spring bar 5 is firmly in place its deformability device and the Fußlagerhülse a Fußlagerbuchse 7 used the, z. B. by (11) and the FußlagerbucL se (7) is set in a guide tube 8 shortly before their 35 press fit. That mutual contact. Guide tube 8 is from a damping spiral 9 5. Enclosed storage according to one of claims 1, which is located on the inner wall of the Spindelbis 4, characterized in that the elastic bearing housing 1 is supported. In the axial direction is the The intermediate layer is a compression spring (12) (Fig. 1). Damping spiral 9 between the bottom piece 6 6. Storage according to one of claims 1 · · »and a feather bis inserted into a Gdiänsvaut 4, characterized in that the elastic ring 10 is fixed. Liner a pipe piece (16) made of elastic into the guide tube H is a Fußlagerhülse 11 Material is (Fig. 2). used, the end of the spindle shaft 4 un indirectly encloses. The foot bearing sleeve 11 is held axially 45 displaceable to guide tube 8 and through