SU159300A1 - - Google Patents

Description

To measure torsional vibrations (accelerations, velocities, and angular displacements), devices made in the form of an inertial mass suspended by a pair of stretched elastic nit: x are used.

A device is proposed that differs from those known to a sufficient degree of accuracy and sensitivity, which is a flywheel attached to extended wires, like on a network, and placed in a balancing fluid. As a result, the flywheel is insensitive to linear vibrations and static overloads. Under the action of torsional vibrations, the wire twists and the movement of the flywheel relative to the body of the device is recorded.

The drawing schematically shows a device for measuring torsional vibrations.

The inertial mass — the flywheel fastened on the wire stretch 2, which serves as an elastic element of the device and is fixed in the center of gravity of the flywheel, is placed in the working space of the housing 3, filled with liquid or liquid metal 4. The specific gravity of the liquid is selected so that the weight of the flywheel is equal to the weight extruded fluid. The flywheel needs to be balanced with maximum accuracy, since the difference in weights between the two halves of the flywheel will cause an error in the operation of the device. The imperative mass is made in the form of a hollow cylinder and has processes 5, which are located in the gap of the magpipe line 6 of an inductive sensor rigidly attached to the body of the device. On magititoprovody, made of transformer iron, put on the coils 7, connected by a bridge circuit. This type of cutters allows automatic compensation of the output sigpal during linear displacement of the core (both steel jumpers in the magnetic core conductor along all three axes), i.e. the displacement of the flywheel caused by the action of linear overloads and vibrations on it.

The housing of the device is closed by covers 5 and 5. In cover 9 there is a chamber for maintaining a constant pressure of the fluid in the device with changes in temperature (not shown in the drawing). The nut 10 is designed for stretching the wire, and is screwed onto the sleeve //. The design of the device is sealed.

The signal is removed by an inductive sensor. The sensitivity of the sensor is determined by the inertial mass of the flywheel, the thickness and degree of tension of the wire on which the flywheel is fitted, the gap between the magnetic cores and processes, the value of the supply voltage.

Since the weight of the flywheel is balanced by the fluid in which it is located, during linear movements of the device, the flywheel moves with the housing. At angular displacements of the instrument, the flywheel due to the inertia no. 159300

for example, lags behind body movement. As a result, the gap between the jumper and the magnetic cores changes, which leads to a change in the output voltage. The magnitude of the output voltage is proportional to the change in the gap between the jumper and the magnetic circuit, i.e., proportional to the change in torsional vibrations.

The proposed device allows the lower limits of torsional vibration measurement to be expanded.

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Subject invention

A device for measuring torsional vibrations, containing an inertial mass on tension, placed in a balancing fluid, characterized in that, in order to extend the lower limit of measurement, it uses an inertial mass made in the form of a hollow cylinder with diametral branches located in the inductive magnetic core. sensor rigidly bonded to the instrument housing.

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