SU482681A1 - Angular accelerometer - Google Patents

Description

one

The invention relates to the field of measurement technology and can be applied when measuring accelerations.

The known angular accelerometers containing inertial mass in the form of a rod with weights along the edges, suspended in the middle of the torsion, and four elastic plates with resistance strain gauges, have a significant error due to the effect of linear accelerations.

The proposed accelerometer differs from the known ones in that the attachment points of each elastic plate to the body and the load are located on opposite sides of the torsion.

Due to this, the error due to line acceleration is reduced.

The drawing shows the design of the angular accelerometer.

An inertial mass consisting of a rod i and two weights 2, podshchepepa to the body 3 with the help of a torsion 4 and four elastic plates 5, on which are attached semiconductor strain gauges 6 resistance. The internal cavity of the accelerometer is filled with damping fluid. Membrane 7 serves as a compensator for the change in the volume of fluid when ambient temperature fluctuates.

When acting on an angular accelerometer

the acceleration rod 1 rotates around the longitudinal axis of the accelerometer (sensitivity axis) by an angle, the magnitude of which is proportional to the angular acceleration acting around the sensitivity axis, thus deforming the plates 5. As a result, the two strain gauges are compressed, and the other two oppositely arranged are stretched. In this case, a signal appears in the output diagonal of the bridge circuit. Its value is a measure of the effective angular acceleration.

When exposed to linear acceleration, strain gauges located in adjacent diagonals of the bridge are compressed and tightened, which does not cause its imbalance.

Subject invention

The angular accelerometer, containing an inertial mass in the form of a rod with weights along the edges, suspended in the middle of the torsion, and four elastic plates with resistance strain gauges, differ from the fact that, with

in order to reduce the error from the effect of linear accelerations, the attachment points of each elastic plate to the body and the load are located on opposite sides of the torsion.

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