SU1166911A1 - Faceplate of boring machine - Google Patents

Abstract

SCRIPTING BORNING MACHINE, made in the form of a housing carrying a radial caliper with a feed drive, designed to communicate with the machine spindle and including a gear mounted on the axle that engages with a rail rigidly connected to the radial caliper, bushing installed in the faceplate with the possibility of axial movement, and the locking device, made in the form of a mandrel with a shoulder, interacting at the end with a shoulder, made on the inner surface of the sleeve hub and designed to Equip with the cams placed in the mandrel, by means of the conical surface of the sleeve bush and the intended interaction with the cams placed in the mandrel by means of the conical surface, which is designed to increase accuracy and reliability. the work of the faceplate, the drive-. cottages equipped with a second gear wheel mounted on an axis rotatably relative to the first gear and gearing with the sleeve, and the second gear rack mounted with the possibility of longitudinal movement on the radial (L. caliper parallel to the first gear rail, and the interacting ends of the flanges of the mandrel and sleeve the slats are made in the form of conical surfaces, and both the conical surfaces of the collar of the sleeve hub are inclined to one side o: Oi 0

Description

The invention relates to a machine tool industry and can be used mainly in horizontal cutting machines.

The purpose of the invention is to improve the accuracy and reliability of the faceplate due to the selection of gaps in the kinematic chain of the feed drive of the radial caliper and the elimination of the deformation of the sleeve rail in the radial direction.

Figure 1 shows the faceplate of the boring machine, General view; in fig. 2 .- section A-A in FIG. 1, in FIG. 3 — section B — B in FIG. 1.

The facer of the boring machine has a radial caliper 1 with a feed drive from spindle 2, including sleeve rail 3, which engages with gear wheels 4 and 5 installed in the housing of the spindle 6 attached to the hollow spindle of the machine. The sleeve rail 3 is installed in the case of the faceplate 6 coaxially with the spindle 2 movably along its axis and fixed against rotation by means of a key. The gear wheel 5 is designed as a gear shaft, and the wheel 4 is mounted on the shaft and can be rotated relative to the wheel 5. In the radial caliper 1, the racks 7 and 8 are parallelly mounted.

With the gear wheel 4, the longitudinally-movable rail 7 engages, and with the wheel 5, the foam rail 8 is rigidly secured. The position of the rail 7 is adjusted by known means, for example, adjustment BINT.

The washer 6 is provided with a removable, backlash-free spindle 2 with a rail hub 3 with a locking device made in the form of a mandrel 9, the shank 10 of which is inserted into the spindle 2 socket. the axis of the mandrel 9 by a screw 12, and two diametrically arranged cams 13d interacting with its conical surface 13d inserted into the holes of the mandrel 9. The cams 13 interact with the conical surface p of the flange 14, made on the inside Sleeve bushes 3.

In the case of the mandrel 9 there is a flange 15 with a conical surface, which interacts with the conical surface L of the flange 14 corresponding to it.

Facer boring machine works as follows.

When assembling the faceplate 6 in the kinematic chain of the feed drive of the radial support 1 from the spindle 2, the clearance is selected by shifting the rail 7, for example, with an adjusting screw relative to the rail 8. In this case, the rail 7 rotates the wheel 4

relative to the wheel 5, forming a backlash-free connection in the feed drive, at the same time choosing a gap in connection with the sleeve sleeve 3 common to them.

When operating the machine with a removable faceplate 6, it is installed on the hollow spindle. The radial caliper 1 is fixed in the faceplate case in a certain initial

a position allowing it to be linked to the spindle 2.

The connection of the faceplate 6 with the spindle 2 is carried out using a locking device as follows: the mandrel 9 with its taper shank 10 is inserted into the slot of the spindle 2. By rotating the screw 12, the tapered sleeve 11 moves in the hole of the mandrel 9 to the right, applying a tapered surface to the cams 13, which moving radially from the axis of the spindle 2, transfer the force through the surface a to the flange 14, pressing it with the surface L to the shoulder 15 of the locking device. In this case, the shoulder 14 is clamped between the cams 13 and the shoulder-15. The clamping force in this

The case is directed along the axis of the sleeve 3, without causing its radial

deformations. A gapless connection of the bushes-3 is formed along the surfaces a and b with the mandrel 9. When operating with the radial caliper 1, the kinematic chain is adjusted 3-4-7-8-5-5-3. Dp this longitudinally movable rail 7 is shifted relative to the rail 8, for example, with an adjusting screw until the gap in this circuit is completely selected and rigidly fixed in that position. At the same time, wheel 4 interacts with the left tooth profile of the hub reiki 3, and korierie 5 interacts with its right profile or

on the contrary, depending on the direction of displacement of the rail 7.

For example, when applying a radial caliper from the center of rotation of the faceplate, the spindle 2 is moved to the left. In this case, the force through the locking device 9 and the hub rail 3 is transmitted by the left tooth profile of the rail 3 to the wheel 4 and the rail 7 to the radial caliper 1.

With reverse effort, i.e. supplying the radial caliper 1 to the center of the faceplate, the force from the spindle 2 is transmitted through the locking device-mandrel 9, the bushing-rail 3 by the right profile of its tooth on the wheel 5 and the rail 8. There is no gap in the gearing, as it was selected during adjustment kinematic chain radial caliper 1.

The movement of the spindle 2 is transmitted through the locking device, the bushing rail 3, the wheels 4 and 5, the rails 7. and 8 to the radial support 1,

669114

carried out the radial feed of the cutter during operation by the faceplate 6, the rotation of which is transmitted from the hollow spindle.

5 When operating a boring spindle without removing the faceplate 6, it is necessary to break the kinematic connection between the spindle 2 and the radial support 1 of the faceplate 6. Dp this radial is

10, the caliper 1 is returned to its original fixed position and the locking device is removed. By turning the screw 12, the cams 13 are retracted and the mandrel 9 is taken out of the spindle 2. At this, the kinematic chain between the radial support 1 and the spigot bushing 3 consisting of the gear joints is not disturbed.

The spindle 2 freely passes through the hole of the spigot 3 and is brought out of the bounds of the faceplate 6 for the further operation of the machine by the boring spindle.

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Claims (1)

BORN STYLE-'' KA PLANE, made in the form of a housing carrying a radial support with a feed drive, designed to communicate with the machine spindle and including a gear fixed to the axis that engages with a rail rigidly connected to the radial support, sleeve-rail, mounted in the faceplate with the possibility of axial movement, and the locking device, made in the form of a mandrel with a shoulder, interacting along the end with a shoulder, made on the inner surface of the sleeve-rail and designed to interact I with cams arranged in the mandrel, by the conical surface of the sleeve rail minutes intended for interacting with cams arranged in the mandrel by means of a conical surface, characterized in that, in order to increase accuracy and reliability. the work of the faceplate, drive-. the cottage is equipped with a second gear wheel mounted on the axis with the possibility of rotation relative to the first gear wheel and meshing with the sleeve, and a second gear rack mounted with the possibility of longitudinal movement on the radial support parallel to the first gear rack, and the interacting ends of the mandrel flanges and the sleeve-rack are made in the form of conical surfaces, both conical surfaces of the flange of the sleeve-rail made with an inclination in one direction. SU. 1166911