Gravitational Droop in Side-Mounted Alt-Azimuth Instruments

Publication Details

Abstract

Alt-azimuth instruments such as theodolites and tracking interferometers are generally designed to be operated in an upright position. There is typically an alidade with a single azimuth bearing for the horizontal axis and a laser or telescope trunnion having two bearing for the zenith (i.e., elevation) axis. When operated in an upright position, the center of gravity (CG) is over the azimuth bearing and is essentially a compressive load. In a non-upright position, the CG shifts off the bearing, adding tension and shear loads to the azimuth bearing loads (as seen in figure 1). Depending on the bearing preload during its construction, the non-upright azimuth bearing can “open up,” causing imperfection in the axis normal to the azimuth bearing, in what herein is referred to as “gravitational droop.” This article analyzes gravitational droop, which is a function of gravitational direction and azimuth angle, thereby creating bias errors in the measured space.