SU161579A1 - - Google Patents

Description

Electromechanical accelerometers of compensation type are known, the sensitive element of which has an unbalanced load and responds to linear accelerations. Such accelerometers have a narrow measuring frequency range. In addition, when a single-mass accelerometer is operating on a vibrating base, the device measures not only the actual acceleration, but also the vibration amplitude when the vibration frequency is higher than the natural frequency of the device.

In the proposed accelerometer, two series-connected sensitive elements are used, the second of which is balanced. Such an embodiment of the device contributes to the expansion of the range of measured frequencies and the elimination of the amplitude of the base vibration in the output signal.

The drawing shows a pripipialny scheme of the device.

The accelerometer contains two sensitive elements / and 2, freely rotating around the axes 00 and fjOj. The first of these consists of a frame 3 rigidly connected to the axis 00 of the frame 3 with a feedback coil 4 mounted on it and the sliders 5 of the potentiometers 6 mounted on the same axis. The second sensing element also contains a frame 7 fixed on the axis OiOi with a catup.1 8 feedback and 9 sliders of potentiometers 10. On the frame 7 there is a coil // of the torque sensor. The rotation of the rollers occurs in the field of the permanent magnet 12. With the frame 3 is rigidly connected

mass 13, creating D1 balance of the first sensitive element. The second sensing element is balanced relative to the OiO-i axis and does not respond to linear accelerations.

Under the action of acceleration on mass 13, the sensing element / is rotated about the axis 00 and a signal proportional to the angle of rotation of the sensing element is removed from potentiometers 6. The signal is applied to a feedback coil 4 connected in series with the driving torque sensor // coil of the second sensing element. The current in the coil 4 of the feedback, interacting with the field of the permanent magnet 12, creates a force, the moment of which relative to the axis 00 will balance the moment caused by the action of acceleration. At equilibrium, the current in the coil 4 of the feedback, and hence the moment developed by the sensor of the second sensing element, will be proportional to the magnitude of the effective acceleration. The second sensing element works in a similar way. When choosing the optimal values of the attenuation coefficients of the first and second sensitive elements:, 3 and, 0, respectively, the accelerations are measured with an accuracy of 2 ° / o. The amplitude of vibration transmitted at the output of the device decreases with an increase in the frequency of the base vibration: so when the ratio of the measured accelerations to the natural frequency of the device is 3, the amplitude of vibration decreases 10 times.

Subject invention

A compensation-type accelerometer, the sensitive element of which is equipped with an unbalanced load responsive to linear accelerations, characterized in that

the purpose of extending the range of measured frequencies and eliminating in the output signal the amplitude of the vibration of the base on which the device is installed, it is connected in series with two sensitive elements, the second of which is balanced.

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