CS248820B1 - Elastic fit of the high revolution rotor - Google Patents

Abstract

The invention relates to an elastic mounting of a high-speed rotor, especially of high-spinning machines. The shaft supporting the elastic mounting has a pressed-on spinning rotor at its one end, the other shaft end being trued for the attachment of a belt pulley. According to the invention, the central bush 1 engages into the rubber members 2, 3 on the spinning-rotor side and on the belt-pulley side, the rigidity of the rubber member 2 located on the belt-pulley side being higher than that of the rubber member 3 located on the spinning-rotor side. The combination of the rubber members 2, 3 of differing rigidity achieves an optimum dynamic balancing of the spinning rotor. The mounting according to the invention is suitable for fine-spinning machines having rotor speeds above 60,000 min<-1>. <IMAGE>

Description

BACKGROUND OF THE INVENTION The present invention relates to the resilient mounting of a high-speed rotor, in particular for spinning machines, with a number of revolutions in excess

000 min. ¹

In order to ensure a sufficient service life of the rotary bearings, various damping elements are used to allow reliable bearing operation despite the adverse operating imbalances of the rotors. In the new generation spinning machines, where the rotor speeds reach 60,000 to 80,000 min. ¹ , the perfect design of the damping elements is particularly important. Basic design of the flexible bearing for rotor speeds up to 60 000 min. ¹ is solved by MS. AO £ 181 015. For higher revolutions, the elastic bearing according to art. Ао <.ЛЗ £,

However, these known solutions do not fully meet the requirements for the dynamic properties of the elastic bearing of the rotors at their highest operating speeds.

The elastic bearing of the high-speed rotor according to the invention, consisting of a resiliently mounted roller bearing, with a spinning rotor pressed at one end of the shaft, while the other end of the shaft is adapted for the pulley, has improved dynamic properties. SUMMARY OF THE INVENTION The central resilient housing extends at its pulley-side end into a rubber member adjacent to a ring on the outside and a spinning rotor side to another rubber member to which another ring adjoins on the outside, the rubber side on the pulley side is higher than the stiffness of another rubber side on the spinning rotor side. It is a further object of the invention that the length of the central part of the rubber member encircled simultaneously by the ring and the middle sleeve is at least 0.5 mm greater than the length of the middle part of the other rubber member encircled by the other ring and the middle sleeve.

248 820 Another aspect of the invention is that the pulley side gap. between the first face of the center sleeve and the inner face of the ring is at least 0.5 mm smaller than another gap on the spinning rotor side between the second face of the middle sleeve and the inner face of the other ring. It is a further object of the invention that the distance on the pulley side between the front recess of the center sleeve and the top face of the ring is at least 0.5 mm smaller than the additional distance on the spinning rotor side between another front recess of the middle sleeve and the top face of the other ring. A further aspect of the invention is that the pulley side rubber member is made of rubber at least 10 Shore harder than the rubber from which another rubber member on the spinning rotor side is made. It is a further object of the invention that the central bushing is provided on the outer surface with thin-walled flanges that extend into a cylindrical portion reinforced in the middle for the thread of the clamping screw. '

Due to the combination of elastic elements of different stiffness on the pulley side and the spinning rotor, an optimal dynamic tuning of the spinning rotor is achieved by the elastic bearing according to the invention. Sufficient stiffness is achieved on the pulley side to prevent both elastic and permanent deformation of the resilient member due to the force exerted by the pulley. A resilient element of less rigidity on the spinning rotor side allows sufficient oscillation of the weighted spinning rotor, so that the forces transmitted to the bearings are maximally limited.

an example of a resilient bearing according to the invention is shown on a bead, in which the front cross-section is the overall configuration.

The shaft with the spinning rotor molded on one end thereof is supported in a resilient bearing. The other end of the shaft is provided. pro řemenáii. The central housing 1 of the spring mount is provided on the outer surface with weak-shield flanges 20, 21 which pass into the cylindrical portion 22 in the middle reinforced for the thread of the clamping screw 23. The holes 18, 19 are provided for the bearing home. On the pulley side, the central spring housing 1 extends into the rubber member 2, to which the ring χ adjoins from the outside. On the spinning rotor side, the central housing 1 of the resilient bearing engages another rubber member. to which an outer ring 11 abuts from the outside. The rubber member 2 is on the pulley side. - 3 - ·

248 820 made of rubber with a hardness of at least '10 Shore higher than the hardness of the rubber from which another rubber member 2 is made on the spinning rotor side. Length · ·. a central part of the rubber member 2 encircled simultaneously by the ring. . 2a, the central housing 1 is at least 0.5 mm larger than the length of the central portion of the other rubber member. encircling at the same time another ring 11 and a central bush 1. Pulley side gap 4 between the first face of the middle bush 1 and the inner face 6 of the ring 23e at least 0.5 mm smaller than another gap 8 on the spinning rotor side between the second face 2 of the middle bush 1 and the inner face 10 of the other ring 11. The distance 12 on the pulley side between the front recess 13 of the middle bush 1 and the upper face 14 of the ring 2 is at least 0.5 mm smaller than the additional distance 15 on the spinning rotor side between the other front recesses 16 of the central housing 1 and the upper face 17 of the further ring 11

The spring bearing according to the invention is advantageously applicable to spinning machines with rotor speeds exceeding. ⁶⁰ 0 ° ⁰ min

Claims (6)

SUBJECT OF THE INVENTION 248 820 Flexible bearing of a high-speed rotor, in particular for spinning machines, comprising a resiliently mounted roller bearing, with a spinning rotor pressed at one end of the shaft, while the other shaft end is adapted for a pulley, characterized in that the middle bushing (1) on the pulley side, to the rubber member (2) adjacent to the ring (7) from the outside, and on the spinning rotor side to another rubber member (3) to which another ring (11) adjoins from the outside, the stiffness of the rubber member (2) on the pulley side is higher than the stiffness of another rubber member (3) on the spinning rotor side. 2. The elastic support of the high-speed rotor according to claim 1, characterized in that the length (1) of the central part of the rubber member (2) _; encircled simultaneously by the ring (7) and the middle sleeve (1) is at least 0.5 mm greater than the length ( ₁₂ ) of the central portion of the other rubber member (3) encircled simultaneously by the other ring (11) and the middle sleeve (1). 3. The elastic support of the high-speed rotor according to claim 1, characterized in that the pulley side gap (4) between the first face (5) of the middle bushing (1) and the inner face (6) of the ring (7) is at least 0.5 less than a further gap (8) on the spinning rotor side between the second face (9) of the center housing (1) and the inner face (10) of the other ring (11). 4. The elastic bearing of the high-speed rotor according to claims 1 to 3, characterized in that the distance (12) on the pulley side between the front recess (13) of the middle bushing (1) and the upper face (14) of the ring (7) is at least 0.5 mm less than a further distance (15) on the spinning rotor side between another front recess (16) of the center sleeve (1) and the top face (17) of the other ring (11). 5. The elastic bearing of the high-speed rotor according to claims bodů to 4, characterized in that the pulley-side rubber member (2) is made of rubber with a hardness of at least 10 Shore higher than the rubber hardness from which the other rubber member (3) is made. on the spinning rotor side. 248 820 6. The elastic bearing of the high-speed rotor according to claims 1 to 5, characterized in that the central bushing (1) is provided on the outer surface with thin-walled flanges (20, 21) which pass into the cylindrical part (22). 23) ·