SU679844A1 - Instrument testing device - Google Patents

Description

I

The invention relates to a technique for testing measuring instruments, in particular to the study of the dynamic errors of devices installed on a rocking base.

There are known devices for investigating devices on a swinging base as a platform in a three-wall gimbal with a table for installing devices and mechanisms for swinging platforms. The latter are completed in the form of three, associated with the platform, gear sectors, the axis of rotation of which coincides with the axis of the platform gimbal, and three gears mounted on the shafts of reversible electric motors and engaged with the gear sectors. The rotation of the electric motors is set by a program block with switches II).

The disadvantages of this device are the impossibility of smoothly adjusting the amplitude of the slopes of the platform, and the ability to: adjust the peak speeds and accelerations of the instruments.

The closest in technical essence to the proposed invention is a device comprising a swinging platform, a swing mechanism in the form of a shaft with an adjustable eccentricity and an actuator and an actuator 21.

The disadvantage of this device is that each platform can oscillate. only in one plane, which significantly reduces the efficiency of testing instruments.

The purpose of the invention is to increase the efficiency of devices.

The goal is achieved by the fact that the device for splicing devices, comprising swinging platforms, a swing mechanism in the form of a shaft with an eccentric of an adjustable eccentricity, and an actuator, is equipped with reciprocating reciprocating mechanisms connecting the platforms with the swing mechanism shaft.

FIG. 1 shows a diagram of the device; in fig. 2 - device, general view; in fig. 3 - the same, side view.

On a base 1 regulated relative to the horizontal plane, core supports 2 of two platforms 3 are installed with adjusting screws 4 of the platform supports. The front ends of the platforms 3 rest on the outer rings of 5 eccentrics, the inner rings 6 of which are fixed on the shafts 7 of the swing mechanisms of the platform 3. On the latter, they are installed with the possibility of linear movement

On them, on the ball lines 8, the angles 9, which have sinus crank-and-crank mechanisms of reciprocating movement, consisting of backstage W, roller stones AND and crankshaft 12, fixed on the shafts 7 by fixing screws 13. The cranks are aligned perpendicular to the rio acting radius - to eccentric vectors of corresponding eccentrics. The crank lengths are adjusted by screws 14. Shafts 7 receive rotation from a single drive 15. The shafts of the drive 15 are connected to shafts 7 by means of sleeves 16 with locking screws 17. The sleeves are calibrated to accurately align the shafts 7 relative to each other in a circle.

The device is configured to the specified test parameters of the devices as follows. The screws 14, adjust the lengths of the cranks 12, thereby setting the amplitudes of the linear oscillations of the tables, which means the speed and acceleration of their linear displacements. On shafts 7, rings 5 and 6 set the amplitude of the slopes of the platform 3 and, therefore, of the tables 9. Turning the driving and driven elements of the OD1Sh couplings relate to another, setting the mutual twist of the shafts .7 or the phase shift of the oscillations of the platforms and tables. The oscillation frequency and their nature are set by the law of rotation of the output shaft of the drive. With a uniform rotation of the output shaft of the drive, it simulates the rolling of a given frequency and amplitude, as well as the equal height

installation of devices relative to the center of swing of the object and the phase shift due to the lack of rigidity of the object.

The proposed device allows the linear accelerations, as well as the amplitude and phase shift by the inclination of the investigated devices, to be continuously adjusted within wide limits.

The use of the proposed device makes it possible to carry out complex investigations of the means and by controlling the mutual position of the two stations on the rocking vessel-type object, which, in turn, makes it possible to create highly accurate control means for the installation of shipboard equipment afloat.

Claims (2)

1. Author's certificate No. 139114, cl. G 01 M 7/00, 1960. 2. Author's certificate No. 142447, cl. G 01 M 7/00, 1959.