SU410870A1 - - Google Patents

Description

I

The invention relates to the field of machine tools and is intended for use in machine tools.

Known spindle headstock machine tools, for example, turning with belt drives, located between the supports of the spindle, in which the drive pulley is mounted on separate bearings mounted in the housing.

However, in the known structures, a sufficiently high level of vibrations and noise is due to a number of factors, including the use of bearings to install the drive pulley. In addition, in known designs, the rigidity of the headstock is relatively low, the issue of lubrication of spindle bearings is poorly resolved, which leads to their fast and high heating, and this, in turn, leads to loss of accuracy and reduced durability of the machine.

The aim of the invention is to improve the machining accuracy and increase the service life of the machine.

This goal is achieved by installing a gear sleeve directly on the spindle with a driving pulley attached to it and introducing special damping elements to reduce the level of spindle vibrations, improve the accuracy of its rotation, and with an appropriate structural solution to the issue of lubricating spindle bearings (spindle supports).

The drawing schematically shows the proposed device.

A spindle head of a high-precision machine, for example, a turning machine, in which a floating sleeve gear I is used and provided (alternatively not shown), installs an angular contact bearing in front support instead of thrust bearings 2, and the issue of spindle bearing lubrication is solved by applying a certain dose of consistent lubricants. Such a lubricant in this case is a one-off, it is retained for the full period of operation of the machine and ensures minimum heating of the spindle supports, increasing the durability of maintaining accuracy.

The sleeve gear, the hole of which is filled with babbit or other antifriction alloy, is mounted directly on the spindle 3. Pulley 4 is fixed on the gear sleeve, which receives rotation from a flat, notched or multi-ribbed belt 5. Axially displaces the gear sleeve along the spindle prep Ring 6 and gear 7, which play the role of thrust hydrodynamic bearings, exist. In the plane perpendicular to the spindle axis, the sleeve-gear is locked with two sleeves 8 - damping friction dampers. Oil or other liquid is channeled through the channels (shown by arrows) into the gaps between gi 4 e9-yes§tern, bushings 8, ring g and gear 7. Moreover, it falls into the gap between the gear sleeve and the spindle.

In the second embodiment, a grease is provided for the rotor spindle.

The operation of the device is as follows.

The belt 5 drives the pulley 4, which is rigidly connected to the sleeve-gear 1, to pass, passing it, in turn, to the spindle 3 through brute force or directly. Movement through the search is carried out by jagged Lands 9 and 10. The oil flowing through the channels of the sleeves 8 fills the gaps between the gear sleeve 1, the sleeves 8, the ring 6 and the gear 7. When the spindles rotate, the oil wedges play a role in the gaps. hydrodynamic bearings with high damping capacity due to selection of the optimal size of the gaps and by changing the viscosity of the oil, resulting in a sleeve-gear with a drive pulley and a spindle being centered, while in a suspended state. Ring 6 and gear 7 at the same time play the role of thrust hydrodynamic bearings, stabilizing the position of the sleeve-gear with a pulley in the axial position relative to the spindle. Seals 11 prevent oil from entering the belt drive 4 and 5.

The headstock allows the cutting of ordinary threads and threads with increased pitch, with the movement being transmitted to the feed chain, respectively, with gears 7 and 12.

Instead of a combination of bearings 13, 2 and 14, it is possible to use Gamete type bearings with the use of grease analrgi but mercury option.

By using a consistent lubricant for spindle bearings (for .ptopOMy rariant), it is envisaged that the heating of the spindle supports will be reduced to a minimum of a long time, which the high precision will be designed for a long time.

machine, increase the durability of its work and simplify the design of the spindle head. The design of the headstock and the spindle provides the possibility of installing a mechanized drive to the wedge cartridge 15 or the collet.

Subject invention

Claims (3)

1. A spindle head of a high-precision machine, for example, a lathe, with a belt drive located between the spindle bearings, characterized in that, in order to increase machining accuracy and increase the service life of the machine, the drive pulley is mounted on a floating sleeve gear, on which there are gaps , filled with liquid, installed damping elements built into the body of the spindle head. 2. Spindle head according to claim 1, characterized in that the sleeve-gear is made fixed in the axial direction along the spindle with the help of restrictive elements that play the role of hydrodynamic support sub-supports. 3. Spindle grandmother on PP. 1 and 2, characterized in that the spindle bearings are additionally provided with grease-lubricated angular contact bearings.