CS265390B3 - Micro spindle with air mount for dental drills - Google Patents

Abstract

Previously known microspindle designs use separate axial bearings connected to the upper or lower part of the radial aerostatic bearing. One of the axial bearings is formed directly in the radial bearing. This arrangement shortens the functional length of the radial bearing and increases the size of the spindle. The new arrangement is formed in such a way that a recess is formed on the outer face of the radial aerostatic bearing, in which a flexible ring is placed, abutting the bottom of the microspindle body. A guide sleeve of the collet, formed on the inner face of the rotor housing, is seated in the bottom of the microspindle. A limiting ring is built into the bottom of the microspindle body. The collet for holding the working tool is formed as one piece with the rotor housing.

Description

The invention ββ relates to a micro-spindle ee by air bearing, which is intended especially for use in dental drills.

The prior art micro-spindle design according to A. No. 171-573 uses two separate thrust bearings connected to the upper and lower portions of the radial aerostatic bearing respectively one of the thrust bearings being formed directly in the radial bearing. This arrangement reduces the functional length of the radial bearing or increases the dimension of the spindle in the direction of the axis of rotation, which is particularly unfavorable for dental drills. The lower thrust bearing is only exceptionally loaded with a relatively low force. The prior art micro-spindle design further utilizes a working tool collet which, in order to achieve the required functional length, is held in the rotor by means of an intermediate sleeve. This arrangement increases the cost of production and increases the risk of misalignment of the working tool axis with the rotaoe axis, which is very unfavorable in terms of balancing.

These disadvantages are overcome by the arrangement according to the invention, which is based on the fact that a recess is formed on the outer face of the radial aerostatic bearing in which a resilient ring is seated against the bottom of the micro-spindle body. A collet guide sleeve formed on the inner face of the rotor housing is seated in the bottom of the micro-spindle body. * A spacer ring is incorporated in the bottom of the micro-spindle body.

By providing a sliding surface to limit the axial movement of the rotor directly in the micro-spindle body, a significant reduction in dimension in the direction of the axis of rotation is achieved. This treatment is particularly beneficial for dental drills, where the high body height impairs the handling at the back of the oral cavity. The design of the rotor housing integral with the tool holding collet makes it possible to increase the functional length of the collet without increasing the length of the rotor. The manufacturing intensity of the components does not increase, on the contrary, the probability of misalignment of the tool axis with the axis of rotation is reduced.

The accompanying drawings show, in cross-section, an example of a micro-spindle construction with an air bearing.

The rotor 2 is mounted in the thrust bearing 4 and the radial aerostatic bearing χ in the micro-spindle body J. At the outer face of the radial aerostatic bearing X is formed a recess, which accommodates a spring ring 8 which abuts the bottom of the micro-spindle body 1.

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At the opposite end of the radial aerostatic bearing 3, the elastic ring 8 is inserted between the thrust bearing 4 and the micro-spindle body 1. In the bottom of the micro-spindle body 2 a guide sleeve 10 of the collet 7 formed on the inner sele of the sleeve 6 is formed. The housing 6 and the guide housing 10 are pressed in the rotor 2. The axial sliding surface 9 of the radial aerostatic bearing 3 is formed in the bottom of the micro-spindle body 2, or in the spacer ring χ, which is incorporated in the bottom of the micro-spindle body J. This reduces the height of the micro-spindle body J by approx. Alternatively, the length of the radial aerostatic bearing 3 can be increased by the same dimension with the same dimension of the micro-spindle body 2, thereby increasing the radial load capacity of the tool. The length of the working portion of the collet 7 may be longer than in the original embodiment, which improves its functional properties. The outer surface of the sleeve 6 is centered directly by the inner surface of the rotor 2 so that both the tool holding surface and the collet 7 exhibit minimal runout relative to the axis of rotation.

Claims (1)

Airborne micro-spindle for dental drills, consisting of a housing with a power supply aperture, a radial aerostatic bearing integral with the distributor around the turbine, thrust bearing and spring ring according to Author Certificate No.171 5é7, characterized in that on the outer face of the radial aerostatic bearing ) is formed a recess in which a spring ring (8) abuts against the bottom of the micro-spindle body (1), in which the guide sleeve (10) of the collet (7) formed on the inner face of the rotor sleeve (6) is seated; a spacer ring (5) is incorporated in the bottom of the micro-spindle body (1).