Method and arrangement for calibrating sensors in drilling equipment

The invention claimed is: 1. An arrangement for calibrating sensors in a drilling equipment comprising: a movable carrier; a frame; a boom assembly mounted to turn about a turning axis vertical to the frame; an angle sensor for measuring a turning angle of the boom assembly in relation to the frame; gravity-based inclination sensors mounted to the boom assembly and rotating with the boom assembly about the turning axis for measuring inclination in the direction of two co-ordinate axes that are perpendicular to each other; inclination sensors mounted to the frame, which remain stationary with the frame during turning of the boom assembly; and a control unit arranged, when turning the boom assembly about the turning axis to a plural number of different turning angle positions in relation to the frame, to measure the value of the turning angle and the inclination values provided by the gravity-based inclination sensors for each turning angle position and calculate, on the basis of the measured turning angle value and the inclination values provided by the gravity-based inclination sensors, deviations of the values provided by the inclination sensors from the actual inclination angle, and to measure, during calibration, inclination values of inclination sensors mounted to the frame and remaining stationary with the frame during the turning of the boom assembly to measure the inclination of the frame, and to calculate by means of the gravity-based inclination sensors of the boom assembly, deviations of the inclination sensors mounted to the frame to measure the inclination of the frame. 2. An arrangement as claimed in claim 1 , wherein the gravity-based inclination sensors used in calibration are sensors mounted to the turning axis end of the boom assembly to measure the inclination of the frame, and mounted to the boom assembly so as to turn about the turning axis with the boom assembly when the boom assembly is turned, whereas otherwise staying in the same position in relation to the turning axis irrespective of the boom assembly movements. 3. An arrangement as claimed in claim 2 , wherein the control unit is arranged to calculate the values of deviation of the gravity-based inclination sensors by using the measured angle values and by applying the least squares method. 4. An arrangement as claimed in claim 2 , wherein the control unit is arranged for calibrating, after the calibration of the inclination sensors, a turning sensor of the turning axis, the boom assembly being kept in the same position in relation to the drilling arrangement and non-turnable in place in relation to the drilling arrangement frame, to read the value of the turning angle of the turning sensor, when tilting the frame to different inclination angles in relation to the carrier about a transverse axis between them, to measure the inclination values of the gravity-based inclination sensors of the inclination measuring device and to calculate on the basis of the measured values of the turning angle and the inclination angles the turning angle deviation provided by the turning sensor from the actual turning angle value. 5. An arrangement as claimed in claim 1 , wherein the gravity-based inclination sensors used in the calibration are sensors mounted to a feed beam provided at the end of the boom assembly to measure the inclination of the feed beam and when the boom assembly and the feed beam are kept in the same position in relation to one another throughout the calibration, the gravity-based inclination sensors turn about the turning axis with the boom assembly as the boom assembly is turned, whereas otherwise staying in the same position in relation to the turning axis. 6. An arrangement as claimed in claim 5 , wherein the control unit is arranged to calculate the values of deviation of the gravity-based inclination sensors by using the measured angle values and by applying the least squares method.