SU1047617A1 - Guiding device for tool for working deep bores - Google Patents

Abstract

Guiding device TOOL FOR TREATMENT OF DEEP HOLE comprising sequentially located on the tool shank fixed and movable support members with treadmills that are running radialnopodvizhnye rolling bodies held by the separator, and a pressing unit consisting of a spring, located on the part of the movable member, and a nut , characterized in that, in order to increase the machining accuracy by ensuring the speed of the device and increasing the accuracy of the tool base, The unit is equipped with a second row of support elements with rolling elements, and each movable element is made up of two rings, an outer one with a treadmill and a conical boring and installed in the last inner conical ring in contact with the pressure spring, with outer and inner protrusions on the conical ring respectively designed for contact with the conical bore of the outer ring and the surface with S of the shank.

Description

The invention relates to metal cutting, in particular to tool guides for deep holes.

A guiding device for machining deep holes is known that contains fixed and movable support elements in series with a tool shank with treadmills on which radially movable rolling bodies supported by a separator are mounted, and a pressure assembly consisting of a spring located on the side of the movable rings and nuts 1.

However, the known device is characterized by insufficient accuracy of the base of the movable ring in the radial direction, due to the presence of a gap between the ring and the surface of the tool shank.

The aim of the invention is to increase the machining accuracy by ensuring the speed of the device and increasing the accuracy of the tool base.

This goal is achieved by the fact that the guide device of a tool for machining deep holes contains sequentially located on the tool shank stationary and movable support elements with treadmills on which radial-like rolling bodies held by a separator are installed, and a pressure unit consisting of a spring located from the side of the movable element, and the nut, is provided with a second row of supporting elements with rolling elements, each movable element is made of a composite of two rings, zhnogo treadmill and the conical bore in the latter and the set of internal conical ring in contact with the compression spring, and on the conical ring formed inner and outer protrusions, respectively, intended for contact with the tapered bore of the outer ring and the tool shank surface.

FIG. 1 shows a guide, general view; with partial cut; in fig. 2 — node I in FIG. one; in fig. 3 - spring ring, end view; in fig. 4 shows section A-A in FIG. 3; in fig. 5 - a variant of the design of the device; in fig. 6 is a section BB in FIG. five.

The guide device of the tool for machining deep holes has consistently located stationary 2 and movable support elements located on the shank of the tool I. Each movable element consists of two rings, an outer 3 with treadmills 4, on which rolling bodies (for example, shchara) are mounted 5. held by a separator 6, and an inner 7. The device includes

also a pressure unit consisting of a spring 8 installed on the side of the ring 3 and a nut 9.

In the ring 3, on the side of the spring 8, there is a conical bore 10 concentric with the surface 11 of the shank I. A spring-loaded conical ring 7 mounted on the shank I and located in the conical bore 10 of the movable support member is adjacent to the spring 8.

0 The spring conical ring 7 has external projections 12 in contact with the conical bore 10 of the movable ring 3, and internal projections 13 resting on the side surface 11 of the shank I. The projections 12 and 13 alternate with depressions 14 to provide compression and expansion of the spring conical ring 7. In addition, the ring 7 may have, slot 15,

The tilting angles of the contacting surfaces of the conical bore 10 and the spring ring 7 to the generatrix of the bearing surface of the spring ring 7 are made larger than the friction angle, which ensures the mobility of the ring relative to the shank I without jamming in the case of decreasing the diameter of the hole being machined due to blunting or removing the cutting edge 16 For this design, the angles of inclination are in the range of 30-45 °.

When setting up such a device for

The Q operations of screwing the nut 9 of the pressure assembly through the spring 8 exert pressure on the conical spring ring 7, wedging it in the conical bore 10 of the movable ring 3. This eliminates the gap between the conical bore 10 and the surface 11 of the shank 1.

In the case of the device with the angles of inclination of the above surfaces smaller than the friction angle, the radial gap between the conical bore 10 of the ring 3 and the surface 11 of the shank 1 is also eliminated by a spring conical ring 7. At the same time, the latter has a thread 17, a nut 18 and a stopper plate 19, with which adjustment of the fit of the spring conical ring 7 is provided on

5, the surface 11 of the shank I of the tool (sliding or dense), as well as the elimination of self-sealing of the spring taper ring 7 on the surface 11 of the shank 1 of the tool.

The device works as follows.

Balls 5, which are in contact with the treated surface of the pipe (not shown), perceive the loads that arise during the processing and transfer them to the C-tracks 4 of the fixed 2 and rolling support elements. Since the treadmills 4 are inclined to the tool axis at an angle, the load acting in the radial direction is decomposed into two components, radial and axial. Therefore, in the case of the increase of the radial Harjpy30K on the balls 5, the ring 3 under the action of the axial component of these loads together with a spring-loaded conical ring 7,

overcoming the force of the spring 8, moves along the axis of the shank I of the tool. In this case, the outer protrusions 12 are pressed against the bore 10, and the inner 13 to the surface II of the shank I, increasing the accuracy of the base of the tool along the machined hole.

With an increase in the frictional force between the inner bearing protrusions 13 and the surface 11 of the shank I of the tool, it is possible to reduce the mechanical vibrations arising during the operation of the tool.

If the angles of inclination of the above surfaces are less than the friction angle.

Since the gap between the movable collar and the shank I of the tool is eliminated by a spring conical ring 7, as the radial loads increase, the movable support element together with the spring conical ring 7 overcomes the force of the spring 8 and the frictional force between the support lugs 13 and the surface 11 the shank I, moves coaxially with the axis of the shank I until such time as the friction forces and the force of the spring 8 are in equilibrium with increasing loads on the movable support element. Maintaining the coaxiality of the movement of parts 3 and 7 increases the accuracy of the tool based on the hole being machined, and the presence of a pair of friction in the device helps to reduce the mechanical vibrations arising during the operation of the tool, which increases the accuracy of processing reduces the amount of slip and curvature of the axis of the hole.

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Claims (1)

GUIDE DEVICE FOR TOOLS FOR PROCESSING DEEP HOLES, containing fixed and movable support elements with treadmills sequentially located on the tool shank, on which radially movable rolling bodies are held by a separator, and a pressure unit consisting of a spring located on the side of the movable element and a nut characterized in that, in order to increase the accuracy of processing by ensuring the speed of the device and increase the accuracy of the base of the tool, the device in is equipped with a second row of support elements with rolling bodies, and each movable element is made up of two rings, an outer one with a treadmill and a conical bore and installed in the last inner conical ring in contact with the pressure spring, and the outer and inner protrusions are made on the conical ring, designed respectively for contact with the conical bore of the outer ring and the surface of the shank. J SU „„ 1047617