SU1002862A1 - Moment of inertia determination device - Google Patents

Description

(54) DEVICE FOR DETERMINING THE MOMENT

Inertia.

Claims (2)

The invention relates to a bansing technique and can be used in measurement techniques to determine the moment of inertia of products. A device for determining the moment of inertia is known, which contains an ocHOBafflar mounted on it a mechanical axio-oscillating system with a vertical axis, the upper part of which is loaded with a measuring part, a system oscillation sensor, a pulse counter, a sensor input and a measuring time for the passage of a pulse counter given by the pulse til. The closest in technical terms to the invention is a device for determining the moment of inertia, comprising, with a base, a housing mounted on it, a vertical torsion shaft, the lower end of which is fixed in the cortex, an oscillation sensor, an electromagnetic torsional oscillator, the movable part of which is fixed on the shaft, and the excitation winding through an amplifier is connected to an oscillation sensor, a frequency meter connected to an amplifier, and a compensation link connected to the torsion bar, made in the form of two rings, One of the rings is fixed on the shaft and has openings for supplying compressed air through them, and the other is mounted for movement in the axial direction on the shaft and is fixed on the hinged part of the torsional vibrator 23. The disadvantage of the device is insufficient accuracy determine the moment of inertia due to the fact that during the determination of the division does not take into account changes in the ambient temperature, which reduces the accuracy of determining the moment of inertia. The aim of the invention is to improve the accuracy of determination. The goal is achieved by the fact that a device for determining the moment of inertia, comprising a base, a housing mounted on it, a vertical TOJV ciromibifl shaft, the lower end of which is fixed in the housing, an oscillation sensor, an electromaterial torsional vibration, the movable part of which is fixed to the shaft, and The exciter winding & through an amplifier is connected to an oscillation sensor, a frequency meter connected to an amplifier, and a compensation link connected to the torsion, equipped with a temperature sensor and a high-voltage source. and the compensation link is made in the form of a piezoceramic cylinder with a radial polarization in the internal electrode of which the lower end of the torsion shaft is placed, and the external electrode is made in the form of rings connected to the high voltage source through a switch unit . The drawing shows a device for determining the moment of inertia, the view. The device comprises a base 1, a housing 2 mounted on it, a vertical torsion shaft 3, the lower bucket of which is fixed in Kopnytse 2, and the product, the vibration sensor 5, the electromagnetic torsional oscillator, the movable part 8 of which is fixed on the shaft 3, is placed on the upper end and the excitation winding 7 through the amplifier 8 is connected to an oscillation sensor, a frequency meter 9 connected to the amplifier 8, a compensation link, made in the form of a piezoceramic cylinder 1O with radial portions, in an internal grounded electric De 11 of which is located the lower end of the torsion shaft 3, and the external electrode 12 is made in the form of rings, a temperature sensor 13 connected to the product 4, and a high voltage source 14 14, reduced to the rings of the external electrode 12 through a switch block 15 connected to sensor 13 temperature. The device works as follows. The products 4 are placed on the torsion shaft 3, the amplifier 8 is turned on and the system the torsion shaft 3 of the product 4 is communicated with an oscillating mode from a torsional vibrator. A signal from the temperature sensor 13, proportional to the temperature of the product 4, is supplied to a switching unit 15, to another input of which a voltage is supplied from a source 14, which, depending on the temperature of the product 4, is applied to the rings of the electrode 12 through various voltages that act through. Rings per cylinder 10 in one of the zones create a tension between the inner electrode 11 and the torsion shaft, and in the other zone create a certain size gap, which causes changes in the length of the horizon-3, causing a change in the resonant frequency of the oscillations of the horizons 3 environment, and consequently the temperature of the product, the voltage applied to the rings of the electrode 12 is changed so that the tension zone moves in one direction or the other along the axis of the torsion shaft 3, maintaining a constant resonant frequency These oscillations of the torsion shaft 3 with the product are recorded by the frequency meter 7, after which the inertia moment of the product 4 is determined. This leads to the elimination of the influence of the change in ambient temperature on the oscillation frequency of the torsion 3 by the product, and hence on the determination of the moment of inertia of the products. Elimination of the influence of ambient temperature changes on the moment of inertia improves the accuracy of determining the latter. The invention The device for determining the moment of inertia, comprising a base, a housing mounted on it, a vertical torsion shaft, the lower end of which is fixed in the housing, an oscillation sensor, an electromagnetic torsional vibration pathogen, the movable part of which is fixed on the shaft, and the field winding is connected through an amplifier through an oscillation sensor, a frequency meter connected to d & litelette, and a torsion-related compensation link, characterized in that, in order to improve the exact definition, it is equipped with The temperature sensor and high voltage source are supplied, and the compensation link is made in the form of a piezoceramic cylinder with radial polarization, in the internal electrode of which the lower end of the torsion shaft is placed, and the external electrode is made in the form of rings connected to the source of high voltage through the switch unit. associated with a temperature sensor. Sources of information taken into account in the examination. 1. USSR author's certificate No. 238202, cl. G 01 M 1/10, 1966. 2. USSR author's certificate No. 457904, cl. Q 01 M 1/10, 1973 (prototitsh). Have 7 / -JLG