SU914257A1 - Apparatus for monitoring grinding wheel wear - Google Patents

Description

The invention relates to the mechanical processing of metals, in particular to grinding with abrasive and diamond stones.

A device for monitoring the wear of a grinding wheel, containing a sensor made in the form of an electrical conductor, intersects the layer of the wheel, is subject to wear, and exits at two points on its working surface at two points, as well as a source of electrical voltage connected to the workpiece and the conductor. The conductor is made in the form of two symmetric segments of the Archimedes spiral, emanating from a point lying on the axis of symmetry at a distance of the minimum allowable radius from the center of the circle, and converging at a point diametrically opposite the first point [1].

The disadvantage of this device is the low accuracy control of the wear of the grinding wheel, due to the fact that the conductor helix can not be in the wave 2

on multiturn. If it is performed in a multi-turn configuration, then in those places where the projections of the branches on the end of the circle would coincide, the device would fail

At the same time, the execution of a multi-turn conductor could increase the accuracy of control; one turn would have, for example, not 5 mm, but 0.5 mm, i.e. with the same circle wear, the change in the time interval will be 10 times greater, and therefore the control accuracy will be greater.

The purpose of the invention is to improve the accuracy of monitoring the wear of the grinding wheels

This goal is achieved by the fact that the segments of the spiral are electrically isolated from each other and made multi-turn, and the device is equipped with a second source of electrical voltage connected to the workpiece and the second segment of the helix, and the voltage sources are different.

The drawing shows a diagram of the device.

3 914257 4

The apparatus comprises a nonconductive grinding wheel 1 and incorporated into the body of a circle or fixed at its end surfaces isolated from each other by the conductors 2 and 3 made in the form of segments ₅ Archimedes spiral. · The direction of winding the conductors 2 and 3 reversed. The voltage source 4 is connected to the conductor 2 and through the registering device 5 to the treated part 6. The voltage source 7 is connected to the conductor 3 and through the recording device 5 to the workpiece 6. The voltage source 7 is connected to the “5 conductor 3 and through the recording device 5 to the workpiece 6. The voltages generated by sources 4 and 7 are different, and the recording device 5 is provided with a device for distinguishing them. 20

The device works as follows.

When the circle 1 rotates, the ends A and B of the conductors 2 and 3, respectively, are sequentially in contact with the part 6 to be processed. At the same time, a current impulse is sent to the component 6 each time the circuit is closed. The device 5 measures the interval between pulses of different types (since the voltage generated by sources 4 and 7 is different, the type of pulses is different when the conductors 2 and 3 are closed) and by changing the value of this interval one can judge about the wear of the grinding surface _. the circle. The change in the degree of wear of the circle 1 leads to the fact that the ends of the conductors 2 and 3 facing the working surface of the circle are shifted. Two consecutive half ₄₀ zheniya points A shown in the drawing and B - A _and B "and Αιχ, Bj, and hence changes and the interval between the passage of these points of the surface of the workpiece 6. Upon reaching the maximum permissible wheel wear interval stops changing.

The device allows to increase the accuracy of control. If, in a known device, with a 5 mm thick section of a circle exposed to wear, only one turn of the conductor could be laid on it, in the proposed 25 or more βη · ρkov in each direction. This allows you to increase the interval when the wheel is worn, and with it the measurement accuracy is 50 or more times.

Claims (1)

Claim A device for monitoring the wear of the grinding wheel, which contains a sensor and a power source, the sensor being made as a conductor, crossing the layer is steep and consisting of two pieces of ArchiMedoid spiral, each of which comes out of a point lying at a distance of the minimum allowable radius from the center of the circle so that the ends of the conductor are located on the working surface of the circle, and the power source is connected to the workpiece and to one of the segments of the helix, characterized in that, in order to improve the accuracy of control, the helix segments They are isolated from each other and made multi-turn, and the device is equipped with a second power source connected to the part and to the second segment of the helix, the voltages of the sources being different.