Abstract: A device for quantitative assessment of the aligned position of two machine parts, workpieces or the like is used especially for purposes of axis alignment or spindle alignment. A light beam is incident on an optoelectronic sensor which can be read out two-dimensionally and the impact point there is determined by the sensor. Part of the light beam is preferably reflected by the sensor directly onto a second optoelectronic sensor. The impact point of the reflected light beam there is determined in a feasible manner by the second sensor. The orientation of at least the first sensor relative the location of the light beam is determined from the signals of the two sensors.

Abstract: The three-dimensional orientation of a body relative to a reference direction is determined with increased accuracy by using a gyro-based azimuth and elevation measurement device which has at least four and preferably eight individual gyros. The individual gyros are positioned such that they react to rotary motions in different directions of space. In a first step all orientation measurement values are determined which are made available by three gyros at a time combined into a so-called triad. In a second step these measured values are combined in evaluated or unevaluated form into an overall measurement value of higher precision.

Abstract: The effectiveness of a method for checking for exact alignment of two successive shafts, axles or the like is improved by the fact the no measures with respect to linearization or temperature compensation are necessary any longer by using a light-sensitive array as the light-sensitive sensor. The effects of outside light and reflections can be suppressed. The cross section and the quality of a detected laser beam can be checked especially by visual inspection. Production of the corresponding device for executing this process is facilitated. By using matched beam splitters and reflectors as well as light sources of different colors the number of optoelectronic sensors necessary can be significantly reduced.

Abstract: The shock protection device prevents damage to optically and micromechanically acting gyroscopes. The gyroscope or precision instrument to be protected can be located in an inner housing shell which is spaced apart from an outer housing shell by elastic elements, and is thereby protected against shock. The inner housing shell can be brought temporarily into accurate mechanical contact with the outer housing shell by an electromechanical device. The spatial orientations of the inner and outer housing shells then correspond with high precision. In a further embodiment of the invention, the electromechanical device can be used precisely conversely to deactivate an existing shock protection and temporarily to bring about direct contact between a sensing element and an object to be checked on the occasion of a measuring operation.

Abstract: A process and device are provided for determining the axial position of two spindles or shafts, for example on machine tools, with respect to parallel offset and angular offset. The process includes moving both an optical transmitting device and also an optical receiving device each into at least three different rotary positions. In this way, pertinent circles can be defined by which the location of the axis of rotation of the first spindle or the center of rotation of the second spindle can be computed in relation to one another. The parallel offset of the spindles can thus be determined in the horizontal and in the vertical plane. To determine the angular offset of the two spindles, another measurement of this type must be taken in which the optical transmitting device and the receiving device are mounted interchanged with one another on the spindles.

Abstract: Data obtained by rotating a set of sensors attached to rotatable parts or the like, in order to perform an alignment of such rotatable parts, is organized in three dimensional vector form (triplets). Two components of such a three dimensional vector will relate to observed apparent geometrical shifts and one component relates to an angle of rotation. In order to arrive at an improved “best fit” when evaluating the data, a three dimensional analysis is performed, based on the concept of an elliptical helix, and using spatial filtering or a neural network. For spatial filtering, three dimensional Fourier transforms are used.

Abstract: An eddy current-based test probe is used for checking especially the edges of rolled steel rods. It detects defects both in the transverse and also the longitudinal direction of these rods. The probe has a combination of several coils with which magnetic flux differences can be detected. The simultaneous sensitivity of the probe in the transverse and longitudinal directions of the test specimen is induced by its executing rotary motion around its vertical axis. An electrical induction motor is used as the drive for rotary motion. The electrical feed and receiving signals of the probe system are coupled and decoupled without contact via a rotary transformer.

Abstract: An orientation measuring device with a plurality of precision tooled grooves, indentations or the like. Two precision tooled adaptor bodies, preferably of cylindrical shape, are removably mountable in the indentations, where appropriate, for a given measuring task. The adaptor bodies are held in place by, e.g., magnets. The device is capable of determining the spatial orientation of rolls, bars, hollow or solid cylinders, ranging from small to large diameters by appropriately selecting in which of the grooves or indentations the adaptor bodies are mounted.

Abstract: A laser head is placed roughly centrally in a hollow cylinder with the capacity to rotate. The pertinent rotation motion of the laser head takes place essentially around the lengthwise axis of the hollow cylinder, while the alignment of the laser beam agrees only approximately with the lengthwise axis of the hollow cylinder. When the laser head turns, a hyperboloid-shaped family of light beams is generated. These light beams produce an essentially circular projection pattern on a target attached outside of the hollow cylinder. The projection pattern with its center defines a point on an ideal axis (core) which is assigned to the hollow cylinder. The invention is suitable especially for measuring shaft tunnels of ships, but also for laying piping systems with large dimensions such as pipelines.

Abstract: A device is proposed, which makes it possible to ascertain the relative position of the reference axis BA of an object relative to a reference beam Rp of an electro-magnetic radiation, in particular a laser beam. The device displays a spatially fixed radiation transmitter S and at the object end a splitting mirror 22 as well as two position detectors 23 and 25. The splitting mirror branches a partial beam Rp′ off from the reference beam. The reference beam passing rectilinearly through the splitting mirror impinges on the one position detector and the partial beam on the other. The position detectors supply electrical signals, from which the position of the reference axis is ascertainable by means of a computer. The known devices of this species have an appreciable space requirement. This defect is eliminated by particular structuring of the beam conduction and the additional use of special optical means.

Abstract: A system for monitoring units excited by oscillations, having a computer-controlled central processing unit and a computer-controlled, transportable measuring apparatus. The measuring apparatus is programmed by the central processing unit, by way of a data transmission, with at least some measuring points which can be inspected in a prescribable time period within prescribable time limits from a total number of measuring points assigned to the units. The measuring points are automatically displayed in the measuring apparatus and are processed using the measuring apparatus, in order to execute a measuring task determined by the central processing unit. After ending the route, the measuring apparatus transmits the measured data to the central processing unit by way of a data transmission. The central processing unit has an evaluator and/or display for the measured data.

Abstract: A method and an apparatus are specified for alignment of the shaft W1 of a rotating machine M1 in a predetermined nominal position by moving the machine M1 on the base, as well as an apparatus for carrying out the method. The instantaneous position of the shaft W1 is detected in a known manner by a sensor device 7, which provides electrical position signals corresponding to the difference between the instantaneous position of the shaft W1 and the shaft nominal position. These position signals, the known relative position of the mounting points 6 of the machine M1 on the base with respect to the predetermined reference points on this base, and other geometric measurement data are used by a computer to calculate correction values for position corrections to be made at the individual mounting points 6 of the machine M1, and these correction values are brought to the attention of the alignment technician 4, for the magnitude and direction for each mounting point 6.

Abstract: A portable electronic vibration measurement device, detects a large number of structure-borne sound signals using a predetermined sequence of a plurality of specific individual measurements each plurality of measurements taken at a different sampling frequency.

Abstract: The invention concerns a method of mutually aligning bodies, in particular for the parallel alignment of shafts, rollers and the like, which can be carried out economically and simply in a substantially shorter time than the known methods used for this purpose. The essence of the invention is the use of an optical gyroscope, for example a fiber-optic gyroscope (5), in a position-measuring sensor (4) which is placed in turn in a specific position on the bodies (1, 2, 3) to be mutually aligned for a given time interval to measure the relative angular position. The position-measuring sensor (4) supplies angle data on the basis of which it can be established whether, and if necessary which, position corrections have to be made at the bodies in order to bring them into the desired state of alignment. The invention further concerns a position-measuring sensor which can be used in the method according to the invention.

Abstract: A device for rotating an emitter device emitting a laser beam L about a rotation axis for the purpose of generating a plane or a conical surface has an elongated body of revolution 2 which carries the emitter device 1 and is held rotatably at the ends on a fixed holder 5 by means of a pivot bearing 3, 4 in each case, the pivot bearing 3, 4 comprising a conical seat 16 and a bearing member 17 engaging in the latter and having a rounded outer surface concentric with the rotation axis, and the conical seat 16 and the bearing member 17 being prestressed (20) against one another.

Abstract: The spatial position of rollers or other mutually adjacent articles is measured or examined by indirect transport of a reference direction. To this end, an adaptor is placed on one of the rollers. The adaptor is equipped with a light source which emits a light beam substantially parallel to the axis of rotation of a roller. The light beam is sensed by a movable sensor unit. The latter determines, at the same time, the angle of incidence of the light beam according to two axes, relative to the sensor unit, and the orientation of the sensor unit relative to a reference axis system (laboratory system). A multi-axially operating gyroscope is used for the last-mentioned measurement. A suitably programmed electronic system or computer determines, from the two measured values, the orientation of the adaptor and of the roller with respect to azimuth and elevation in the laboratory system.

Abstract: A device for ascertaining misalignments of two shafts (1, 2) arranged one behind the other has a light emitter (6) rigidly fixed on one shaft (1) and which transmits in a manner known per se an alignment measurement beam (F) onto a detector surface (8a) of an optoelectronic position detector (8). According to the invention, the position detector (8) has another detector surface (8b) located next to the first detector surface (8a) and parallel thereto, and in front of which is mounted an optical inclinometer (9) to ascertain the momentary angle .alpha. of a predetermined radial reference direction of the shaft with respect to the earth perpendicular. The optical inclinometer (9) transmits the angle information as an angle-dependent position of a light spot on said second detector surface (8b). The angle .alpha.

Abstract: Proposed for detecting the relative position of two bodies (2, 3) or surface regions of bodies is an electro-optical measuring instrument which has, in a known way, a light beam transmitter (4), which can be attached to the one body (3) or surface region and transmits a focused light beam (L), and a single-axis or multi-axis optoelectronic position detector with a light-sensitive measuring surface (5). During measurement of the bodies (2, 3) or surface regions, the light beam (L) impinges on the measuring surface (5), and its point of impingement (LA) moves over the light-sensitive surface (5), during execution of a measuring movement, in a way which is characteristic of the current mutual alignment of the bodies (2, 3) or surface regions.

Abstract: A system and method for detecting a soft foot condition of one or more machines. Several measurements of a soft foot condition of a machine to be tested are made and the numerical output of the measuring device is stored in a memory of the device of the present invention. This information is used to systematically diagnose (or assist in diagnosing) possible causes of such soft foot condition and to provide general or numerical advice on possible corrective action. Such advice will be systematically derived by a computer and will relate to remedies considered to be most effective or important, and will be provided to the operator of such instrument either by a readout on a screen or a display of an instrument employed for this purpose.

Abstract: The proposal is for a process and device making it possible to determine the condition of one or more machines (3) at several measuring points by means of a measuring head (MK) with measurement transducers (MW) which can be releasably fitted there and to supply to a computer the relevant measurement signal together with the characteristic data therefore obtained at the measuring point concerned. The invention lies in the special nature of the obtaining of the characteristic data.