CS249724B1 - Flexible mounting of high speed rotor - Google Patents

Abstract

The solution concerns a flexible mounting of a high-speed rotor of a textile machine. The flexible mounting according to the solution consists of a double-row special ball bearing mounted by means of a solid member made of a suitable material in the cavity of the spinning unit body. The essence of the solution lies in the fact that the member is formed as a cylindrical hollow body made of plastic or light alloy and provided with a cylindrical or rotationally articulated surface at the end of the collar. The member with a cylindrical outer surface of the collar is mounted in the inner surface of the spinning unit body using a plastic or steel radially elastic ring, and the member with an articulated cylindrical surface of the collar is mounted directly in the spinning unit body, and may be provided with kidney-shaped holes passing axially through the collar, which are either blinded by a filling or by a radial wall. The solution is advantageous to use especially in spinning machines with rotor operating speeds higher than 3θ 000 min“·1·.

Description

BACKGROUND OF THE INVENTION The present invention relates to the resilient mounting of a high-speed rotor, particularly for spinning machines.

The known elastic bearings of the high-speed rotors of textile machines are solved in such a way that between the inner surface of the body of the spinning unit and the outer ring of the bearing there are arranged differently shaped elastic members damping oscillations of rotating masses. Another known solution for the resilient mounting of the high-speed rotor is arranged such that the outer ring of the bearing is supported in the spinning rotor housing by a solid plastic resilient member surrounding its cylindrical hollow body along its entire length and provided at the ends of the rings connected to the body radial walls. However, the described solution of the flexible bearing of the high-speed rotor does not show optimum vibration damping properties caused both by the dynamic imbalances of the rotor during their transition to static masses and by the vibrations of other static parts of the machine during its operation.

These drawbacks are largely eliminated by the resilient bearing of the high-speed rotor of a spinning machine consisting of two rows of special ball bearings supported by an integral member in the cavity of the spinning housing, with a spinning rotor pressed at one end of the shaft and the other end of the shaft adapted to the pulley of the invention . The object of the invention is that the member is formed as a cylindrical hollow body provided on the ends of the collar, the outer surface of which is cylindrical. Another object of the invention is that the member is made of a light alloy. Another object _and invention is that the member is made of plastic. Other bases2

249 724 to the invention is characterized in that an elastic ring is arranged between the outer surfaces of the collars and the inner surface of the spinning unit body. A further object of the invention is that the elastic ring is made of steel. A further object of the invention is that the elastic ring is made of plastic. It is a further object of the invention that the outer surfaces of the collars are provided with a periodically spaced at least three segments, the surfaces of which are in contact with the inner surface of the body of the spinning unit. It is a further object of the invention that at least three axially oriented kidney-shaped through holes are provided in the collars. It is a further object of the invention to provide in the openings fillings of a material preferably of a thickness equal to the thickness of the collar and of a compliance greater than that of the collars. It is a further object of the invention to provide a radial wall in the openings to form an integral part with the collars. It is a further object of the invention to provide a cover in the openings by means of shaped catches.

The spring bearing according to the invention has a lower weight compared to the existing types, better lubricant resistance and less production. The design of the light alloy element guarantees better heat dissipation from the bearing, while the design of the plastic element guarantees its higher resistance to atmospheric and contact corrosion. By varying the flexibility of the fillings inserted into the holes in the collars, it is also possible to regulate the compliance of the collars in the radial direction.

The resilient mounting of the high-speed rotor according to the invention is shown schematically in the accompanying drawings, in which Fig. 1 represents a front view of its overall configuration and Figs. 2, 3 and 4 show various possible embodiments of the collars.

The resilient mounting of the high-speed rotor shown in Figure 1 consists of a double row special ball bearing 2 housed in a light alloy member 1. The member 1 is provided at both ends with collars 2 with a cylindrical outer surface 6 disposed in a steel spring ring J housed in the inner surface 2 of the body 6 of the spinning unit. In another possible embodiment of the flexible bearing according to the invention, the member 1 may be made of plastic or may be of light alloy and the ring 1 may be made of plastic. The ring 2 ^{on the} outer and inner circumference is offset from each other by segmental recesses which guarantee its elasticity in the radial direction.

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FIG. 2 shows an embodiment of a plastic member 1 with collars 2 provided, on the one hand, with periodically spaced three segments 8, the surfaces of which are formed as rotary cylindrical, and on the other hand with three axially oriented openings 10 of kidney shape. 11 of a material more flexible than that of the member 1.

FIG. 3 shows an embodiment of a plastic member 1 with collars 2 provided with segments 8 and apertures 10 similar to the embodiment shown in FIG.

Fig. 4 shows an embodiment of a light alloy member 1 with collars 2 provided with apertures 10 blinded by a cover 14 secured through apertures 10 by means of positive fit 13 to the collars 2.

High-speed rotors are vibrated during operation mainly due to dynamic imbalances. In the high-speed flexible bearing rotor shown in FIG. 1, the mechanical oscillations of the rotating masses are damped at the transition to the masses of static deformation of rings J of steel or plastic cells.

When using the member 1 shown in Figures 2 and 3, much of the oscillation energy is attenuated by the deformation of the segments 8 and the collars 2 at the apertures 10, the air flow through the bearing space being prevented in the embodiment shown in Figure 2 3 shown by the walls 12.

the member 1 shown in FIG. 4 is adapted to be received in the ring J, the air flow in this embodiment being prevented by the cover 14.

The elastic mounting of the high-speed rotor according to the invention is advantageously used in particular for textile machines with an operating speed of more than 30,000 rpm.

Claims (11)

SUBJECT OF THE INVENTION An elastic bearing of a high-speed rotor of a spinning machine comprising a double-row special ball bearing supported by a member formed as an integral part in a cavity of the spinning unit body, with a spinning rotor molded on one end of the shaft and the other end of the shaft adapted for a pulley; ) is formed as a cylindrical hollow body provided at the ends of the collar (7), the outer surface (6) of which is cylindrical. 2. The elastic bearing according to claim 1, characterized in that the member (1) is made of light alloy. 3. The elastic bearing according to claim 1, characterized in that the member (1) is made of plastic. 4. The elastic bearing according to claim 1, characterized in that an elastic ring (3) is arranged between the outer surfaces (6) of the collars (7) and the inner surface (5) of the spinning unit body (4). 5. The elastic bearing according to claim 4, characterized in that the elastic ring (3) is made of steel. 6. The elastic bearing according to claim 4, characterized in that the elastic ring (3) is made of plastic. 7. The elastic bearing according to claim 1, characterized in that the outer surfaces (6) of the collars (7) are provided with circumferentially spaced at least three segments (8) whose surfaces (9) are in contact with the inner surface (5) of the body (5). 4) spinning units. Resilient mounting according to Claims 1,4 and 7, characterized in that at least three axially oriented through holes (10) of kidney shape are formed in the collars (7). 9. The elastic bearing according to claim 8, characterized in that the openings (10) are provided with fillers (11) of material of a thickness preferably equal to the thickness of the collar (7) and of a compliance greater than that of the collars (7). A spring bearing according to claim 8, characterized in that in the openings (10) 5 249 724 there is provided a radial wall (12) forming an integral part with the collars (7). Flexible bearing according to Claim 8, characterized in that a cover (14) is provided in the openings (10) by means of the shape catches (13).