SU833427A1 - Method of increasing working accuracy - Google Patents

Description

The invention relates to precision metalworking and can be applied to high-precision metal-cutting machines, for example, machines for ultra-precise diamond turning. A known method of enhanced machining involves installing a high-precision flywheel on the spindle, ensuring uniform rotation, which means that the spindle with the flywheel is accelerated before starting, and then, disabling the drive and stopping the engine, processing is carried out due to the kinetic energy stored by the spindle and The flywheel II A well-known method for improving the accuracy of machining has the following drawback. When the set speed is reached, the power supply to the electrical spindle is turned off. In the case of an ordinary abrupt shutdown by a power supply contactor (for example, a three-phase current), residual magnetization of body parts and spindles takes place, i.e. stator and rotor. This residual magnetization corresponds to the current values of the current and voltage in the stator windings at the time of power failure. Fixed fields of residual magnetism non-rotating body parts interact with fields of residual magnetism. Spinning spindle parts, which causes the spindle to slow down and lead to disturbances in the process when the power supply is turned off. These disturbances, although insignificant, but nevertheless noticeable during processing, for example, with an accuracy of one thousandth of a micrometer, i.e. ten angles. Rep A}, the purpose of the invention is to increase the rotational accuracy of the electrical spindle of alternating current. The rolling target is achieved by turning off the AC power supply by stepping or staggeringly reducing the nominal voltage and the alternating current of the power supply to zero for at least two periods of alternating current oscillation. The essence of the method is that the voltage reduction to zero is produced by means of a rheostat. In this case, the less sharply the voltage decreases, the more precisely, the greater the number of periods of oscillations of the alternating current occurring during the time of decreasing the voltage, the better the demagnetization effect, which is noticeable already at two periods. For example, when the frequency of the Pick-up current is 50 Hz with a continuous decrease in voltage and to zero, 50 oscillations of the magnetic field occur in 1 s, the intensity of which, together with the voltage, drops to zero, which almost completely eliminates the effects of residual magnetism and their effect spindle inertial rotation

In this way, the accuracy of product processing and control operations is improved with the electrical spindle off.

As follows from the above, the proposed method allows to increase the accuracy of processing and control operations.

Claims (1)

1. USSR author's certificate 229916, cl. B 23 B 1/06, 1963.