RU2710100C1 - Angular accelerometer sensitive element - Google Patents

Abstract

FIELD: measuring equipment.

SUBSTANCE: invention relates to measurement equipment and can be used in integral accelerometers. To measure angular acceleration, an inertial mass is used, on which the feedback torque sensor coils and the bush with two adjusting screws are installed.

EFFECT: increases impact strength, widens frequency range of measuring angular acceleration.

1 cl, 1 dwg

Description

The invention relates to measuring equipment and can be used in integrated accelerometers.

A known sensor of angular accelerations [1], containing a base, a planar inertial mass on elastic suspensions, a second planar inertial mass on elastic suspensions, located so that the axis of the suspensions is perpendicular to the axis of the elastic suspensions of the annular planar inertial mass and is located inside it, a capacitive position sensor.

This sensor has the ability to measure angular acceleration along two axes of sensitivity. When one of the sensitivity axes of angular acceleration acts on the sensor, the planar inertial mass rotates a certain angle around the axis of the elastic suspensions. As a result, the distance between the plates of the capacitive position sensor changes, as a result, and the capacitance of the capacitor of the capacitive sensor changes. By changing this capacity, the measured acceleration is judged.

The disadvantages are the low accuracy of the measurement, the small frequency range of the measured impact.

A known element of a microsystem accelerometer [2], containing a silicon frame frame, in which an anisotropic etching method is made of a silicon conductive pendulum connected by elastic suspensions to the frame frame, the central mounting support, rigidly connected to a fixed base. The pendulum includes two rigidly connected first and second plates of the same length and thickness, but of different widths. The sensitive element has the ability to measure both angular and linear acceleration. Since the pendulum plates have different widths, the sensitivity to angular acceleration will be much lower than to linear. The device operates as follows. In the initial state, in the absence of acceleration, the gaps between the plates of the conducting pendulum and the plates-plates are the same. Under the action of acceleration of the pendulum plate, having overcome the elasticity of the suspensions, they begin to move in opposite directions, while changing the gaps. By measuring the gap difference, one can judge the current acceleration.

The disadvantage is the low sensitivity to angular acceleration.

Closest to the claimed device is a sensitive element [3], containing a planar inertial mass connected by elastic suspensions with a central mounting support, located at the center of gravity of the planar inertial mass with a metal ring fixed to the inertial mass, on which several pairs of adjusting screws are radially located .

Under the action of measured angular acceleration, the planar inertial mass, in the composition of the metal ring and the adjusting screws, rotates by a certain angle, the value of which depends on the stiffness of the elastic suspensions. By measuring the deviations of the planar inertial mass, the effective angular acceleration can be determined.

The disadvantages are the low frequency range of the measurement of angular acceleration, low impact resistance.

The problem to which this invention is directed is to increase the impact resistance of the sensing element and expand the frequency range of the measurement of angular acceleration. To achieve the task, on a sensitive element containing a frame frame, in which an inertial mass is made, connected with a frame by elastic suspensions located on the axis of symmetry of the inertial mass on one side of the inertial mass, according to the invention, is fixed at the same distance relative to the specified axis of the sensor coil feedback moment, and on the opposite side of the inertial mass on the same axis fix the sleeve with two mutually perpendicular threaded holes in which s located adjusting screws.

A significant difference of the claimed device in comparison with the known one is that the presence of a feedback torque sensor increases the frequency range of measuring angular acceleration due to the stiffness of the electric spring, which is created by the coil of the feedback torque sensor when interacting with a magnetic field created by permanent magnets, and the presence of a sleeve with adjusting screws significantly reduce the effect of linear acceleration on the planar inertial mass, while facilitating the mass of the sensing element, thereby suspended increasing its impact resistance.

The proposed SE of the angular accelerometer is illustrated by the drawings shown in FIG. 1

An example implementation of the claimed device.

The inertial mass 1 is connected to the frame frame 2, in which the inertial mass is made by elastic suspensions 3 located on the axis 4 passing through the center of gravity 5 of the inertial mass 1. On one side of the inertial mass 1 are the feedback moment sensor coils 6, and on the opposite side the inertial mass side is fixed sleeve 7 with adjusting screws 8.

The device operates as follows. Under the action of the measured angular acceleration, the planar inertial mass 1, consisting of the coils of the feedback moment sensor 6 and the sleeve 7 with adjusting screws 8, rotates by a certain angle, the value of which depends on the stiffness of the elastic suspensions 3. The measuring signal of the inertial mass deviation is also converted into a current enters the coils of the feedback torque sensor, which, when interacting with the magnetic field, create an electric spring that compensates for the inertia mass deflection angle, forcing them to return her to the starting position. The magnitude of the current flowing in the coils of the feedback torque sensor can determine the effective angular acceleration.

The adjustment is as follows.

Adjusting screws 8 reduce the center of gravity of the sensing element to the axis of symmetry of the inertial mass, thereby eliminating the effect of linear acceleration.

Sources of information

1. US patent No. 5349858 IPC G01P 15/08, 1994.

2. RF patent No. 2426134, IPC G01P 15/08, 2006.01

3. RF patent No. 2489722, IPC G01P 15/08, 2006.01 (the closest analogue).

Claims (1)

The angular accelerometer sensitive element containing a frame frame in which an inertial mass is made, connected to the frame by elastic suspensions located on the axis of symmetry of the inertial mass, while on one side of the inertial mass the feedback moment sensor coils are fixed at the same distance relative to the axis of symmetry of the inertial mass, and on the opposite side of the inertial mass on the same axis is fixed a sleeve with two mutually perpendicular threaded holes in which ozheny adjusting screws.

Images