SU1611543A1 - Spindle unit mounted on hydrostatic bearings with unloaded pulley - Google Patents

Abstract

FIELD: machine tool industry. The aim of the invention is to improve the manufacturability and reliability of operation of the site. This goal is achieved due to the quick-release and backlash-free connection of the pulley with the shaft. The spindle unit on hydrostatic bearings with an unloaded pulley comprises a housing, a shaft mounted in a housing on axially hydrostatic bearings with axial movement, and a pulley mounted on the housing on an additional bearing support that can interact with the shaft. The assembly is equipped with spring-loaded balls, installed in radial holes made in the pulley with adjustable pressure force and designed to interact with grooves of the radial hydrostatic pockets of the nearest bearing made at the shaft end. During the assembly, an individual sample of the gap is made for each ball. During the operation of the pulley, with the axial movement of the shaft, the balls slide along the grooves, providing a gapless connection. 2 Il.

Description

FIELD: machine tool industry.

The purpose of the invention is to improve the manufacturability and reliability of operation of the site.

This goal is achieved due to the quick-release and backlash-free connection of the pulley with the shaft.

On fi: 1 shows a spindle assembly, a section; in fig. 2 is a section A-A in FIG. one.

The spindle assembly consists of a housing 1 in which a working gap / g is mounted on two angular contact hydrostatic bearings 2 and 3 and a shaft 4 with a pulley 5. The pulley 5 is mounted on angular contact ball bearings 6 mounted in a glass 7 rigidly connected with the housing 1, on the shaft 4, from the side of the pulley 5, triangular grooves 8 are projectile in accordance with the number of radial pockets 9 of the nearest radial-thrust hydrostatic bearing 2 and with an angular spacing equal to it. On the pulley 5, with an accuracy equal to the angular interval of the grooves 8 of the shaft 4, there are threaded holes 10, in the cylindrical part 11 of which balls 12 are placed, recessed into the grooves 8 of the shaft 4. The balls 12 with the ends of the stops 13 through the spring springs 14 are tucked to the grooves 8 shaft 4 screws 15.

Adjustment and operation of the device. Before adjusting the input resistances of 16 hydrostatic bearings 2 and 3, screws 15 are loosened. After adjusting the input resistances of the 16 hydrostatic bearings 2 and 3 are pressed evenly with screws 15 balls 12 to the grooves 8,

05

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Nt

with

however, the shaft 4 can easily move from one hydrostatic thrust bearing to another. The stiffness of the disc springs 14 is assigned significantly less than the radial stiffness of the hydrostatic bearings 2 and 3, but sufficient to transmit torque. In operation, the shaft 4 performs a rotational and reciprocating motion, wherein the rotation is performed through the unloaded pulley 5, and the axial movements are provided by the pressure of the working fluid supplied along arrows B and C (Fig. 1). Due to the fact that the balls 12 do not play well along the grooves 8 of the shaft 4, the rotational accuracy of the latter does not decrease, and the torque is transmitted without jerks evenly, which is important when shuffling intermittent rotation bodies (tools).

At the same time, when the radial load is perceived, the operation of the hydrostatic bearings 2 and 3 is not distorted, i.e., the rigidity of the disc springs 14, pressing the balls 12, is significantly lower than

logical rigidity of hydrostatic bearings 2 and 3.

Claims (1)

Invention Formula A hydrostatic spindle assembly with an unloaded pulley, comprising a housing, a shaft mounted on a housing on axially hydrostatic axial supports with axial displacement, and an embroidery mounted on the housing by means of an additional bearing support capable of interacting with a shaft, characterized by that, in order to improve manufacturability and reliability of operation of the site. The spindle assembly is provided with spring-loaded balls installed in radial holes made in the pulley with adjustable pressure force and designed to interact with triangular profile grooves at the shaft end, the number of which is equal to the number of radial hydrostatic pockets of the nearest shaft bearing. five And 6 7 76 9 FIG. 7 12