SU1629772A1 - Device for determining dynamic characteristics of entities - Google Patents

Abstract

The invention relates to the testing of materials and structures, in particular to hydraulic, mechanical and electromagnetic devices for determining the dynamic characteristics of objects. The purpose of the invention is to expand technological capabilities and simplify the design. The device contains a base 1, on which a vibrator is rigidly mounted, the movable part of which is connected to the fixed part by flat springs 2, on one or several lobes of which are mounted strain-retardant sensors 4, 3 Il.

Description

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The invention relates to the field of testing materials and structures, in particular, to hydraulic, mechanical, electromagnetic, etc. devices for determining the dynamic characteristics of objects.

The purpose of the invention is to expand technological capabilities and simplify the design.

Fig. 1 shows the structure of the device in hydraulic form; Fig. 2 shows the structure of the device in electromagnetic form; in Fig about 3 - section aa in fig 0 1c 15

A device for determining the dynamic characteristics of an object contains a base 1 on which a vibrator with an elastic suspension of a movable part is installed. The elastic suspension is made in the form of flat springs 2, between the petals 3 of which there are openings designed to pass communications through them (hydraulic hoses, electrical wiring, etc.) Do) o On one or several petals 3 springs 2 tensor-resistance sensors 4 (one or several) are installed (glued). The springs 2 are elastic elements of the sensors 4.

The vibrator can be made hydraulic, mechanical, electromagnetic, etc.

The hydraulic vibrator (figs 1) has a hydraulic cylinder 5, the piston rod 6 of which 7 is rigidly fixed to the base 1 o On the hydraulic cylinder 5 by means of flat springs 2 a movable part 8 is installed, on which a tip 9 is installed, which is intended to interact with the object under study 10. Hydraulic cylinder 5 by means of hydraulic hoses 11, it is connected with a generator of 2 vibrations, which, by supplying fluid alternately to one or another cavity of the hydraulic cylinder 5, excites its oscillations. The tip 9 can be made as a dynamic force sensor, the impedance head, piezo accelerometer, etc. or in the form of a nozzle that does not have additional functionality.

In addition, the device contains a series of sensors 13, designed for installation on the test object 10. Strain gauge sensors 4 are connected to a recording device 14

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(RU 1) -4 The remaining sensors are connected to the recording device 15. The recording devices 14 and 15 are connected to the analyzer 16, which can be connected to the generator of 12 vibrations.

In devices with an electromagnetic vibrator (Fig. 2), the vibrator stator 17 is made in the form of a cylindrical permanent magnet rigidly mounted on a base 1 ". The rotor 18, made in the form of an electromagnetic coil, is connected to the stator 17 by means of flat springs 20. The rotor 18 is connected a generator (t2 of vibrations by means of electric wires 19 o) Ostapnye communications and aggregates of the device are similar to those considered. In addition, when using an electromagnetic vibrator, the device has an adjustment mechanism 20

The device works as follows.

The tip 9 of the device is brought into contact with the object under study. 10 In this case, under the action of the static force of the initial pressing, the springs deform. Moreover, for flat springs, the relationship between the value of static pressure and the spring defomation is linear. The deformation of the springs 2 is fixed by a strain-resistant sensor 4, and the signal is fed to the recording device 14. The placement of the strain-resistant sensor 4 on the spring 29, in addition to the linear relationship between the pressing force and the deformation of the spring, ensures the impedance of the force sensor between the tip 9 and the object under study 10 requires the installation of an additional strainer, resulting in a change in the impedance of the system. After the required pressing force is applied by the vibration generator 12, oscillations are excited that are transmitted from the vibrator to the object under study, 10 through the tip 90. transferred to the analyzer 16. In addition, the analyzer 16 from the recording device 14 receives information from the sensor 4

about the vulture squeeze during the VSRGO dynamic test period

In a number of cases due to rheology

of an object or for other reasons due to the physicomedical properties of the objects under study, during testing from alternating loads, the magnitude of static pressure changes In known devices, the error of this factor is somewhat eliminated by a large number of tests sensor 4 - recording device 14 - analyzer 16 - vibration generator 12 to provide feedback with a constant fixation of the static pressing force and its maintenance for a given level by changing the generated vibrations (for the hydraulic circuit) "In this vibration generator delivers to the lower cylinder chamber 5 dotsolnntelnoe amount of liquid and the vibration wasp

it exists in the previous mode, according to the signals from the i3 sensors. If the electromagnetic vibrator is used, a static preload cannot be provided with it, and then it is advisable to introduce an adjustment mechanism 20 into the device, which ensures the specified movement of the device (base 1) according to the signals of the 4 "sensor

Claims (1)

Apparatus of the Invention A device for determining the dynamic characteristics of an object, comprising a vibrator with an elastic suspension of a movable part in the form of flat springs and a measuring system including a force sensor, which is so that, in order to expand technological capabilities and simplify design, the force sensor is made of a strain gauge, and as the elastic element of the sensor used spring elastic suspension of the movable part of the vibrator " FIG. 2 OGG8 jbL 6 MW1 9m.Z