SU63673A1 - Device for measuring the rigidity of machine tools - Google Patents

Description

The forces arising from the cutting of metals deform the product, the tool and those parts of the machine to which they are attached. As a result of these deformations, the product and the tool are not moved from the original position. The magnitude of this movement depends on the rigidity of the product, tool and machine. The movements violate the accuracy of processing (the shape and size of the product), the greater the greater the magnitude of them. Due to the mutual displacement of the product and the tool, not only the machining accuracy is impaired, but the surface quality of the product is deteriorated, and the tool life is reduced.

The higher the rigidity of the machine, the higher the quality of the product, the more productive the work of the machine. Measuring the rigidity of machine tools is very important for assessing the quality of machines, and is also necessary for developing measures to improve their quality by increasing the rigidity.

Due to the absence of simple instruments up to now, the rigidity of machine tools is measured only in laboratory x. At the same time to excite efforts

Dynamometers are used in a special design, and movements are measured by ordinary indicators, the posts of which are mounted on the frame. This method of measurement is very laborious, since in addition to the need to install various devices, it is necessary to measure the coordinates of the points to which the measuring pins of the indicators are attached, the places that contain the plates of the indicator racks, and the points where the forces are applied. All this and a number of other factors that are difficult to take into account make it extremely difficult to measure, calculate and be able to accurately diagnose the quality of machines and compare the quality of machines of various factories and firms.

The proposed device aims to simplify the measurement and computation of the rigidity of machine tools, to make the detection of rigidity under production conditions accessible.

This is achieved by the fact that the device is designed as a jack for creating pressures on the tested part of the machine.

The jack is equipped with a dynamometer and indicator that drive the CS when moving the BiiHia jack.

In the drawing, the proposed device. Depicted in longitudinal section.

The device is a co6oii screw jack consisting of a cnvca, connected to sashon 2 by means of a flange 3 and with a screw 5 iipH using a key 4. Through a screw, rod 6 is passed through, fixed about the tip 7.

At the single end of the screw 5, a spring 1 zP1 dynamometer 8 is placed. On the rod 9 screwed into the housing 1, an indicator 10 is fixed, the measuring pin 11 of which rests against the end face of the rod 6.

The housing 1 is fixed in the tool holder, and the tip 7 of the rod 6 is brought into contact with the manufacturer or any part of the machine, the total stiffness of which and the tool holder need to be determined (center, ninol, 1, the body of the headstock .).

Rotating the nut 2, unclench the tool holder and the product, compressing the spring 12 of the dynamometer 8. The amount of deformation of the spring is transmitted to peiiKoii 13, through the gear 14 on the axis 14, arrow 15, indicating the magnitude of the spring tension on the dial of the dynamometer, which is proportional to the spring deformation.

The mutual movements of the toolholder and the product, arising from the applied force, are equal to the movement of the end of the rods 6 relative to the housing 1. The values of nx are indicated by an indicator 10,

PREDIMENT OF THE INVENTION

Instrument for measuring the rigidity of machine tools, t, l and h a and y with. that it is to create pressure on the test part, made in the form of a jack, which is supplied with a dynamometer and indicator, which are brought into play when moving up to the surface.