SU1392398A1 - Dynamometer for measuring cutting force - Google Patents

Abstract

The invention relates to a force-measuring technique and makes it possible to improve the measurement accuracy in a dynamic mode. The displacement transducer is a body 7 connected to the base by means of elastic struts 6, and a sleeve 12 rigidly connected to the power-receiving plate 4. Adjusting the natural frequency of the transducer of displacement transducer after installation on the plate 4 of the workpiece 5 is carried out by changing the mass of replaceable weights 14, adjusting this frequency when the mass of the part 5 changes, interleaves the moving guide 15. The impact of the cutting force on the part 5 leads to a change in capacitance due to a change in the gap between the sectors 8 sensing element of the displacement transducer and the sleeve 12. 2 silt, C s (f, s

Description

As a transducer transducer. 20 masses of moving parts. So

No capacitive sensor is used. The sensing elements of the displacement transducer are made in the form of four large sectors 8, between which are narrow sectors

9 acting as a screen. All sectors are fixed in an insulating ring

10. To the silo plate 4 with the help of plates 11 is attached movable relative

the eigenfrequencies of the moving frequencies are equal, their relative speed is zero, which reduces the dynamic error. When the machined detail of the force re acts, the relative displacement of the detail of the converter becomes away from zero. The change in the gap between the interdators 8 and the sleeve 12, caused by the measured force, leads to a capacitance measurement, which is then converted into an electrical signal by a capacitor (not shown),

body 7 sleeve 12, which is located inside the cylinder formed by sectors 8 and 9, Each of the diametrically located pairs of large sectors 8 together with the sleeve 12 and the elements of electrical balancing forms a differential capacitive half-bridge (not shown). interchangeable weights 14, which serve to correct the natural frequency of oscillations of the displacement transducer, In the movable guide rail 15, grooves covering the elastic supports 6, moving and fixing the supporting posts

five

0

five

0

the eigenfrequencies of moving parts are equal, their relative displacement is zero, which reduces the dynamic error. When the cutting force is affected by the cutting force, the relative movement of the part and the transducer becomes different from zero. A change in the gap between sectors 8 and sleeve 12, caused by the measured force, leads to a change in capacitance, which is further converted into an electrical signal by a capacitive amplifier (not shown),

Claims (1)

Invention Formula A dynamometer for measuring cutting forces, containing a base, connected to a force-receiving plate by elastic elements, characterized in that, in order to improve measurement accuracy in a dynamic mode, a displacement transducer consisting of a housing is inserted into it the sliding guide 15 along the elastic g and slightly with the base by means of sticks 6 is carried out by a micrometer screw 16, The dynamometer works as follows. Other pillars, and movable relative to the body of the sleeve, rigidly connected to the force-receiving plate, as well as interchangeable weights placed on the body, when installing the workpiece - the developer, and the movable guide. Does 5 adjust the natural frequency of the converter by changing the mass of the load 14 so that when the dynamometer rotates 90 ° around the axis of the moving converter, the force-receiving plate 4 with part 5 and the converter 7 are displaced by their own connected to elastic racks with the possibility of movement and fixation, while the natural frequency of oscillation of the receiving plate with the workpiece is chosen equal to the natural frequency of oscillation of the body of the displacement transducer with interchangeable loads. Other struts and movable relative to the body of the sleeve rigidly connected to the force-receiving plate, as well as interchangeable weights placed on the body preconnected to the elastic legs can be moved and fixed, while the natural oscillation frequency of the power-receiving plate with the workpiece is selected equal to the natural frequency of the body of the converter movement with interchangeable loads. // 12 Fi.g