SU1460595A1 - Device for measuring transverse deformation of cylindrical parts - Google Patents

Abstract

The invention relates to instrumentation technology, namely to measuring the lateral deformation of a part. The aim of the invention is to improve the accuracy by ensuring the alignment of the monitored part and the device and the convenience of operation. The housing 1 of the device is made in the form of a ring covering the test piece. At the ends of the ring around the perimeter and parallel to its axis there are fixed plate springs 5 designed to fasten the ring to the part. The free ends of the leaf springs are made in the form of a core and bent. The sensor is mounted in a ring so that the measuring tip is in contact with the part. To increase the information content, it is possible to install several sensors around the perimeter of the ring. 1 з.п..ф-л, 2 Il.

Description

Phie.1

The invention relates to a control and measurement technique, namely to measuring the lateral deformation of a part.

The purpose of the invention is to improve accuracy by ensuring the alignment of the monitored part and device, as well as increasing the ease of operation.

Figure 1 presents the device, General view, section; figure 2 - view And figure 1.

The device consists of a body 1, made in the form of a ring, a sensor 2 with a measuring tip 3, designed to interact with the test piece 4, lamellar springs 5j fixed at the ends of the ring 1 along the perimeter and parallel. .: its axis. The free ends of the npy-i jin are made in the form of cores 6 and are bent.

With the aid of the pressing shaft 7, lateral deformation is created in the part 4.

The device works as follows.

When mounted on the measured part 4, the leaf springs 3, interacting with the cores 6 with the measured part 4, are released and the elastic forces capture it around the perimeter of the outer surface, and the sensitive element 9 of the sensor 2 is pressed into the measured part 4.

Since the elastic elements 5 are evenly spaced around the perimeter of the rigid ring 1, the center of the measured part 4 is aligned with the center of the device.

After installing the device on the measured part 4, the reading of the sensors 2 is set to the zero position.

When pressing the shaft 7, the radius of the outer surface of the part 4 will increase by the amount A and move the sensitive element 3 of the sensor 2, while the elastic elements 5 will be disconnected by the same value L, and the center position of the part 4 will not change relative to the device. In this connection, the measurement accuracy will depend only on the accuracy of the readings of sensor 2. To measure the magnitude of the change in the diameter of the part 4, it is necessary to take readings of the diametrically opposite sensors.

If it is necessary to measure the deformation of the part 4 in different radial directions, then along the perimeter of the rigid ring 1 the required number of sensors 2 is installed and, removing them

readings track uneven radial deformation (change in shape) of the outer surface of the part 4.

Thus, the use of the proposed device will improve the accuracy of strain measurement by eliminating the analytical recalculation of the sensor reading, due to the constant position of the center of the measured part relative to the device.

Claims (2)

1. Device for measuring pop. river deformations of cylindrical parts, comprising a body made in the form of a rigid ring, a sensor with a measuring tip, the body of which is fixed to the ring, and from the measuring tip is designed to interact with the part, and means of attaching the ring to the part, which is in order to increase accuracy and convenience operation, the means of fastening the ring to the part are made in the form of rings fixed at the ends along the perimeter and parallel to its axis, plate springs, the free ends of which bent and designed to come into contact with the part. 2. The device according to claim 1, which is based on the fact that, in order to increase the information content, it is equipped with a set of sensors fixed similarly to the first one. Fi9.2