SU1236381A1 - Stand for reproducing constant angular accelerations - Google Patents

Abstract

The invention relates to a measurement technique and can be used in the calibration of angular accelerometers. The chain of the invention is to simplify the construction and repeat the accuracy of the reproduction. The device comprises mounting a movable platform 4 with a pneumatic drive of its rotation in a housing on a radial-axial bearing 2. The driver 6 is made in the form of a sprocket wheel, pneumatically connected to the source 12 of the pressure of the axial air duct. The change in the angular acceleration value, reproducible by the shaft 3 of the stand, can be achieved by changing the air pressure, the cross section of the propeller nozzles, the nozzle distance from the center of rotation, the number of nozzles, as well as the moment of inertia of the rotational parts 8. By adjusting the number of inertial disks 8. silt with S (L SO 9d: A EO ag. /

Description

I

The invention relates to a measurement technique and can be used in the calibration of angular accelerometers.

The purpose of the invention is to simplify the design and improve accuracy.

FIG. 1 shows a stand for reproducing constant angular accelerations; in fig. 2 - propulsion device - Segner wheel.

The bench for reproducing constant angular accelerations contains a stationary base 1, in which a radial-axial aerostatic bearing 2 is installed. A shaft 4 is fixed on the shaft 3 of the bearing to install a rotatable angular accelerometer 5, a propulsion 6 of the type Segner wheel, a brake disk 7, inertial disks 8. Based on 1, there are brake pads 9 and an inlet 10, which connects the propeller 6 through the air gap 11 to the exemplary air pressure source 12, represented by, for example, tsovy zoporshnevoy coarse-gauge.

The Segner wheel type propulsion device (Fig. 2) has from one to four nozzles 13. The nozzles are interchangeable and have different diameters of the outlet opening 14. Instead of the absence of nozzles, plugs 15 are placed.

The bench for reproducing constant angular accelerations operates as follows.

Air under highly stabilized pressure (for example, from a cargo-piston pressure gauge that creates pressure with a stabilization error of 0.02%) enters the inlet 10 and then passes through the gap 11

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to jet propulsion 6, which creates a torque of rotation M F-r, where r is the radius on which the nozzles are located; F is the reactive force created by air flowing out of the nozzle. Since there is practically no mechanical friction in the bearing of the stand shaft, the stand shaft reproduces a constant angular acceleration t, equal to:

to

-, I

where I - r oment inertia rotate cich

parts of the stand.

The change in the magnitude of the angular acceleration reproduced by the bench is achieved by changing the air pressure, the cross section of the nozzles, the distance of the nozzles from the center of rotation, the number of nozzles, and the moment of inertia of the rotating parts with the help of additional weights.

Claims (1)

Invention Formula Stechka for reproducing constant angular accelerations, containing a stationary base — a housing, a movable platform mounted on a radial-axial bearing with nodes for adjusting its inertia moment, and a pneumatic rotation drive of the platform with an air pressure source characterized by the fact that in order to simplify the design and improve accuracy, the pneumatic drive propulsion device is designed as a Segner wheel mounted on a platform and pneumatically connected to a source of air pressure. sial air duct through the air gap. FIG 2 VKIIPI Order 3084/47 Circulation 778 Subscription Proizv.-polygr. pr-tie, Uzhgorod, st. Project, 4