SU837747A2 - Apparatus for afterturning spindle - Google Patents

Description

(54) DEVICE FOR SPINDLE TURNING

one

The invention relates to a machine tool industry and can be used primarily in diamond boring machines.

According to the main auth. No. 703301, a device for turning a spindle, comprising a turning-up drive, made in the form of a horseshoe-shaped electromagnet installed outside the spindle, and a driving element through which said drive interacts with the spindle during the turning-off.

The driver element is placed between the poles of an electromagnet and made in the form of a permanent magnet connected to the spindle, the poles of which are located on a spherical axis of rotation of the spindle l3. The disadvantage of such devices is the limited scope

The purpose of the invention is to expand the scope.

This goal is achieved by the fact that: the permanent magnet, which serves as the lead element, is formed by a system of two magnets and a magnetic circuit, the magnets are installed diametrically opposite to. an intermediate element made of a nonmagnetic material, for example, a driving pulley, which surrounds the spindle, and the magnetic circuit is made in the form of a concentric ring spindle connecting the opposite poles of the magnets facing each other.

FIG. 1 shows the proposed device, a general view) in FIG. 2 is a section A-A in FIG.

The device is mounted from the rear end of the boring head 1. On the shank 2 of the spindle head, there is a drive pulley 3 and a radial feed drive for the cutting cutter. In diametrically opposite radial holes of the pulley 3, magnets 4 and 5 are fixed, opposite each other opposite poles are connected by a magnetic circuit, made in the form of a ring, mounted on a concentric spindle. A system of magnets 4 and 5 and a ring 6 connecting them form a permanent magnet, the poles 7 and 8 of which are located symmetrically relative to the axis of rotation of the spindle.

On a fixed relative to the head 1 bracket 9 is installed an electromagnet 10 with a horseshoe

A core with poles located on both sides of the spindle axis and with equal radial gaps covers a permanent magnet. The winding 11 of the electromagnet 10 is connected to a direct current source (not shown) by means of the contactor 12.

The radial feed drive of the scoring cutter is designed as a non-rotating cylinder 13, mounted on the shank 2 spindles on bearings 14. The stem 15 of the cylinder 13 is connected by means of a slide 16 passed through the spindle with a slider supporting the cutting bar mounted on the flange mounted on the flange spindle from the front end (not shown) of the head 1.

The drive pulley 3 and the bracket 9 are made of a nonmagnetic material, and the ring 6 is made of a ferromagnetic material.

During the working rotation of the spindle (i.e., in the course of processing, including, for example, boring the hole and cutting the face using the radial feed method), the winding 11 of the electromagnet 10 is disconnected from the power source. After finishing the processing and turning off the spindle rotation, the winding 11 of the electromagnet 10 is connected to the direct current source by means of the contactor 12, as a result of which a magnetic field is created between the poles of the electromagnet. This acts on the poles 7 and 8 of a permanent magnet formed by magnets 4 and 5 and ring 6, with equal parallel and oppositely directed forces.

creating a torque, under the action of which the permanent magnet with the driving pulley 3 and the spindle rotates around the spindle until poles 7 and 8 are installed against the opposite poles of the electromagnet 10. In this case, the spindle will take a certain predetermined angular position.

Due to this arrangement of the device for turning the spindle, the area of its application is expanded, since it becomes possible to use it in machines equipped with additional mechanisms placed on the spindle.

Claims (1)

1. USSR author's certificate number 703301, cl. In 23 C 5/20, 1978.