SU402805A1 - FREQUENCY SENSOR OF LINEAR ACCELERATIONS - Google Patents

Description

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The device relates to systems for the automatic monitoring and control of non-electrical quantities.

Frequency linear acceleration sensors are known that contain a frame body fixed by butt ends in an outer base, rod resonators located inside the frame body and connected at one end to the frame, and the other with inertial masses fixed in directional elastic suspensions.

The disadvantages of the known devices include the instability of the sensor readings associated with the effect of mounting the bodies, which is most pronounced when the sensors are fixed with the help of threaded elements, since they do not provide a sufficiently stable acoustic contact for elastic waves generated by the resonator, and these waves through the threaded fastening elements go into the outer case in which the sensor is fixed.

The described device is characterized in that slots are made parallel to the ends of the sensor housing, and crackers and clips are inserted between the ends of the housing and the outer base, separated by gaps filled with rubber mass. The crackers are rigidly connected to the ends of the case, and the clips are rigidly connected to the external base of the sensor.

This arrangement made it possible to eliminate the effect of fixing the case and thereby increase the stability of the sensor. The drawing shows a schematic depiction of the described device.

The linear acceleration frequency sensor contains two high-Q-core resonators 1, connected, on the one hand, to the inner wall of the frame body 2, and with

the other, respectively, with inertial masses 3 fixed in directional elastic suspensions 4, with slots 5 being made in the sensor body 2. In addition, the sensor contains a base 6, metal crackers 7,

rubber plates 8, metal plates 9, holes 10, magnetic exciter And, and electromagnetic adapter 12. Transverse slots 5 provide a preliminary attenuation of elastic waves at its ends, for which it is attached. The heeling of the ends of the sensor body 2. To the base 6 is carried out with the help of metal crackers 7, rubber plates 8 and metal clips 9. The execution of rubber plates 8 in

The gaps between the breadcrumbs 7 and the sleeves 9 are produced by the method of hot vulcanization. For the new strength of the combination of these elements, special holes Ю are provided in the cracks x 7 and the sleeves 9, which

also filled with rubber. Spaced by