SU91270A1 - Device for calibrating elastic elements of induction sensors - Google Patents

Description

The subject of the invention is a device for calibrating induction sensors by the method of falling cylinders of a certain weight, dropped from a precisely defined height onto the membrane of a calibrated sensor.

The proposed device differs from this kind of known devices intended for dynamic calibration of elastic elements of induction sensors in that an electromagnetic device with a signaling device is used for raising and lowering the cylinder, and the cylinder is set to the required height using micrometers.

Such a device makes it possible, with a simple construction, to maintain an approximate equality of the frequencies of the disturbing force during calibration and forced vibrations of the membrane during its operation, which improves the accuracy of the calibration.

FIG. 1 shows a device with which it is possible to make an exact installation of a cylinder above the sensor membrane; in fig. Figure 2 shows the general electrical layout of the device.

In order to obtain the frequency of the disturbing force of the same order as the frequency of the forced oscillations of the sensor membrane, the elevation of the cylinder above this membrane must be low (from 50 to 500 microns).

In the described device (Fig. 1), installation of cylinders 1 of the desired weight 1 above the diaphragm 2 of the calibrated sensor is performed by two special micrometers 3. The plate 4, to which the cylinder 1 is attached, is connected through steel thread 5 and spring 6 to the steel ball 7, which is attracted an electromagnet, and the pack is pushed into the legs of micrometers 3. A cylinder / is provided with a tip .9 for receiving a blow at the center of membrane 2. A tated induction sensor consists (Fig. 2) of membrane 2, W bracket, coils 7 / with feed winding and J2 с catchers measuring winding, with ed1gnennop through

№ 91270

throttle integrator 13 CQ loop-loop oscilloscope 14. When connecting the winding of Katus and 1 to the current source 15B, the winding of the coil U will be induced by the voltage recorded by the oscilloscope.

Tarirosh induction sensors are manufactured as follows.

Rotating the micrometer screws 3, bring the cylinder 1 closer to the membrane 2 of the sensor. The moment of co-operation with a membrane with a membrane is recorded by a signal voltmeter. The readings are taken from the micrometer heads and, rotating the micrometer screws in the opposite direction, the cylinder is moved away from the membrane to the distance I determined by the formula: where: K is the frequency of forced oscillations of the membrane when it is operated;

f - dynamic, membrane deflection; g is the acceleration of the force of gravity.

Then open the circuit of the electromagnet and the cylinder falls freely on the sensor membrane. Under the action of the load, the membrane bends. Due to the deflection of the membrane, the magnetic flux and the voltage induced in the measuring winding and recorded by an oscilloscope change.

Each definite height of the cylinder's fall (for a given weight) corresponds to a certain force of dynamic impact on the membrane, and as a result, a certain recording amplitude on the oscillogram.

Subject invention

Claims (3)

1. A device for calibrating elastic elements of induction sensors, based on the use of falling bodies, for example cylinders of known weight, characterized in that, in order to obtain dynamic pulses of the required force and frequency, the falling body is connected via a string and spring to the electrodes for holding this body at a predetermined height and dumping it onto the elastic element of the calibrated sensor when the electromagnet's power circuit is opened. 2. In the device according to claim 1 the use of micrometers to accurately set the desired height of the falling body. 3. In fixture on PP. 1-2 application of an electromagnetic device, which closes the signal device circuit at the moment of contact of the falling body with the elastic element of the calibrated sensor. , 16CL H-F,. 2g