CZ285560B6 - High-speed bearing with resilient element, particularly for spindleless spinning machine - Google Patents

Abstract

A high-speed bearing with a resilient member (8), in particular an open-end spinning machine, comprises a housing (1) which is housed in a tube (80) of a resilient member (8) provided with resilient sleeves (81) at both ends thereof; (8) is provided with at least one through hole (6). At least one passage aperture (6) is located between at least a portion of its surface between the flexible sleeves (81) in the tube (80) of the resilient member (8), wherein the high speed bearing sleeve (1) is provided on its outer periphery from its front side (10) a relief (2) extending at least at a level closer to the edge of the through hole (6) in the tube (80) of the resilient member (8). ŕ

Description

High-speed bearing with flexible member, especially open-end spinning machine

Technical field

The invention relates to a high-speed bearing with a resilient member, in particular an open-end spinning machine, which comprises a housing which is housed in a resilient member tube which is provided with resilient bushes at both ends, the resilient member having at least one through hole.

BACKGROUND OF THE INVENTION

High speed bearings, in particular for storing the rotor spinning machine are for speeds greater than 40 000 min ^-1 for functional reasons, stored in the flexible member. For speeds up to 80,000 rpm, ^one elastic member is used by MS. author's certificate no. 238202, and for speeds greater than 80 000 min ^-1 is used the flexible member by MS. No. 256 305, or a flexible member conceptually based thereto. Both of these types of resilient members are provided with short-circuit openings to prevent undesired air flow through the bearing.

The elastic member according to MS. No. 238,202, these short-circuit openings are formed in the central part of its pipe.

The elastic member according to MS. No. 256,305 due to the longer bearing housing length for higher speeds, with the limited possibility of increasing the length of the resilient member, which is limited by the length of the storage space in the bearing housing, these short-circuit apertures in the front of the resilient member, i.e. flexible housing. Here, these openings are led through the rubber part of the flexible sleeve and open into the receiving surface. For dimensional reasons, it was then necessary to orient the front elastic member of the elastic member with the open side of the rubber portion toward the rear elastic member of the elastic member. However, the formation of such short-circuit openings places higher demands on manufacturing technology, and the orientation of the front flexible bushing of the flexible member is sometimes the cause of its damage during disassembly from the machine. Last but not least, this arrangement can negatively affect the dynamic characteristics of the spinning rotor bearing with all the negative consequences.

The invention aims to eliminate the drawbacks of currently used elastic members for speeds greater than 80 000 min ^-1, and permit use of resilient members used hitherto for speeds less than 80 000 min ^-1 or elastic members based thereon at a speed of greater than 80 000 min. * ¹

SUMMARY OF THE INVENTION

The object of the invention is achieved by a high-speed bearing with a resilient member, in particular an open-end spinning machine, characterized in that at least one through hole is at least part of its surface situated between the resilient bushes in the resilient member tube. provided at the front with a strain relief that extends at least beyond the proximal edge of the through hole in the tube of the resilient member.

Overview of the drawings

An exemplary embodiment of the invention is shown schematically in FIG. 1, which shows a cross section of a bearing housing for accommodating a spinning rotor of an open-end spinning machine.

- 1 GB 285560 B6

DETAILED DESCRIPTION OF THE INVENTION

An exemplary embodiment of the invention will be described on the bearing of the spinning rotor 4 of an open-end spinning machine.

The high-speed bearing comprises a sleeve 1 which is housed in the cavity of the resilient member 8. The resilient member 8 is formed by a tube 80 at the ends of which known elastic bushes 81 are situated.

In the part of the tube 80 between the two flexible bushes 81, this tube 80 is provided with through holes 6. The high-speed bearing housing 1 situated in the cavity of the resilient member 8 is on its outer periphery on its front side 10 i.e. in the illustrated embodiment on the side adjacent to the spinning. The rotor 4 is provided with a relief 2 extending at least beyond the edge of the through holes 6 in the tube 80 of the resilient member 8, which is closer to the front 10 of the high-speed bearing housing 1, thereby freely connecting the space 3 inside the tube 80 with the space 5 outside the tube 80 both resilient bushes 81, i.e. in the illustrated embodiment, the space 3 downstream of the spinning rotor 4 with the space 5 defined by the tube 80 of the resilient member 8, both resilient bushings 81 of the resilient member 8 and the bearing housing wall 7 provided with an air leak opening 70 as shown in the drawing. In this way, air from the tube 80 flows from the front side 10 of the high-speed bearing into the aforementioned space 5 between the flexible bushes 81 outside the tube 80, i.e. in the illustrated embodiment from the space around the spinning rotor 4 to the free space outside the bearing body 7. while passing through the interior of the high-speed bearing with all the negative consequences such as drying and shifting of the lubricant.

The relief 2 on the outer periphery of the front side 10 of the high-speed bearing housing 1 is formed by reducing the outer diameter of the high-speed bearing housing 1 over the respective length of the housing 1 from its front side 10.

In the exemplary embodiment shown in the drawing, the tube 80 of the resilient member 8 is provided with through holes 6 already at the point where the resilient bush 81 of the spinning rotor 4 terminates, the rear of the spinning rotor 4 being inserted in the tube 80 and the high-speed bearing bush 1 on its an outer circumference on its front side 10 adjacent to the spinning rotor 4 provided with a relief 2 extending into one half of the through hole 6 in the direction of the length of the tube 80 of the resilient member 8. In another not illustrated embodiment the through hole 6 and its corresponding position the length of the relief 2 on the outer periphery of the front side 10 of the high-speed bearing housing 1 is different, corresponding to the length of the high-speed bearing housing 1 and its position in the tube 80 of the resilient member 8.

The ratio between the size of the through holes 6 and the unloading size 2 of the high-speed bearing housing 1 corresponds to the known requirements for the volume of airflow that must be passed through the "short-circuited" channel per unit of time.

Claims (1)

A high-speed bearing with a resilient member, in particular an open-end spinning machine, comprising a sleeve which is housed in a resilient member tube having resilient sleeves at both ends thereof, the resilient member having at least one through hole, characterized in that the at least one through hole (6) is at least a portion of its 10 surface situated between the resilient bushes (81) in the tube (80) of the resilient member (8), the high-speed bearing bush (1) at its outer periphery from its front side (10) provided with a relief (2) that extends at least beyond the proximal edge of the through hole (6) in the tube (80) of the resilient member (8).