SU853435A1 - Alternating tilting moment determination method - Google Patents

Description

(54) METHOD FOR DETERMINING A VARIABLE TOMING MOMENT

The invention relates to technical dynamics and can be used in the study and fine-tuning of piston machine units.

There is a known method for determining the variable component of the torque G1, which consists in registering the rotor angular accelerations by measuring the stresses in the spokes of the flywheel mounted coaxially with the shaft of the machine under investigation.

The disadvantage of this method is that it is necessary to place a flywheel with load cells and current collectors on the shaft or a contactless radio transmitting device to remove the signal from the rotor. It is costly to prepare the machine aggregate, increases the duration of the study and makes it difficult to measure at sites in operation.

The closest in terms of their nature and effect to the invention is a method for measuring the torque component of the imbalance of rotors 2, which consists in measuring the amplitude and phase of vibration along two parallel

directions when the rotor rotates on the balancing machine.

The disadvantage of this method is the impossibility of measuring the overturning moment.

The aim of the invention is to simplify and speed up the process of measuring a variable tilting moment.

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The goal is achieved by determining the vibration acceleration of an aggregate at frequencies multiple to the first-order frequency in the plane perpendicular to the axis.

15 rotary oscillations along two parallel directions, one of which passes through the axis of rotary oscillations caused by the tilting moment, and then determine the variable component of the overturning moment from the vector difference of the measured accelerations at each of multiple frequencies.

Figure 1 shows an example of the implementation of the proposed method in determining the overturning moment of an electro-compressor unit; Fig. 2 illustrates an example of the determination of the torque component of the vibration acceleration.

The unit mounted on vibroelectric radiation consists of a piston compressor 1 and an electric motor 2 mounted on frame 3.

The installation points of the vibration sensor 4 are selected on the body of the unit. Point 5 of the frame is located in the vertical plane of symmetry of the unit, which passes through the axis of its rotation from the tilting moment. Point 6 of the frame is located on the peripheral part of the frame at some distance from the plane of symmetry.

After starting the unit, setting sensor 4 to point 5 of the frame, record the level and phase of vibration at frequencies multiple to the first frequency of the tilting moment. At the same time, the vertical vibration of the unit recorded by sensor 4 in the direction of its main axis does not contain a turning point of the tipping moment, since the main axis of the sensor intersects with the axis of rotation. All other influences (for example, residual static and momentary imbalances, unbalanced inertia forces from progressively moving parts) cause accelerations detected by the sensor at point 5.

After that, the sensor 4 is transferred to the frame point and similar measurements are made. The vibration at point 6 is the vectorial (in time) sum of the vibration recorded at point N5, and the rotational vibration of the body from the tilting point.

Then (Fig. 2), for each of the frequencies of interest, a vector subtraction is performed, for example graphic, the acceleration of Wg. Point 5 from the acceleration Wf, points b.

The difference vector module shows the magnitude of the rotational acceleration of the body from the action of the tilting moment on a radius, equal to the distance h between points 5 and b.

Knowing the moment of inertia of the unit's power unit relative to the axis of its oscillation, determine the amplitude of the harmonics tilting the moment using the formula

In order to improve measurement accuracy by duplicating, points 6 can be positioned on either side of point 5, and measurements can be made in several cross sections of the housing of the unit.

Claims (2)

1. USSR author's certificate No. 409135, class, G 01 R 15/08, 1973. 2.Isakovi M.M. and others. Elimination of vibration of electrical machines. M., Energie, 1979, pp. 133-134 (prototype). ff.