Abstract: A method of calibrating an apparatus for pointing spatial coordinates, wherein said apparatus comprises a moveable hand-held probe, having a pointing tip for pointing at said spatial coordinates, and a portable base unit, wherein said portable base unit is provided with sensors for measuring, in a predefined three dimensional, 3D, working area surrounding said portable base unit, a relative position of said pointed spatial coordinates with respect to said portable base unit, wherein said method comprises the steps of determining an actual 3D working area for a particular measurement, wherein said actual 3D working area is a sub-area of said predefined 3D working area, calibrating said apparatus in said actual 3D working area.

Abstract: The present invention relates to a mobile cleaning unit for dilution, storage and dispensing of cleaning products (10), that forms a storage-organization cabinet unit (1) mounted on castor wheels (1e) comprising: at least one dilution and dispensing device (2) and a plurality of supply pipes (2-2a, 2-2b, 2-2c) for supplying a plurality of concentrated detergent products stored in a plurality of large reservoirs (8) filled at least in part with various different concentrated detergent products, and a plurality of label dispensers (3) for dispensing labels of various types, and a plurality of compartments (7b) each adapted so as to contain a plurality of the said small container (7) bearing labels of one of the different said cleaning products respectively in the said different compartments.

Abstract: A method of determining a target spatial coordinate using an apparatus comprising a movable hand-held probe, having a body and a pointing element for pointing the target spatial coordinate, and a portable base unit provided with line-of-sight distance coupling means, wherein the hand-held probe is coupled to the base unit by said line-of-sight distance coupling means, coupled to the body at an attachment point, and wherein the base unit is provided with sensors providing measuring signals for measuring length or a change in length of the line-of-sight distance coupling means and rotation of said line-of-sight distance coupling means in at least one degree of freedom. Computer-controlled processing means are arranged for processing measuring signals. The method further comprising retrieving measuring signals wherein the target spatial coordinate is appointed from different orientations of the hand-held probe, and determining the target spatial coordinate from the measuring signals.

Abstract: An apparatus for pointing spatial coordinates, comprising a movable hand-held probe, having a pointing tip, and a portable base unit provided with a rotatably supported elongated arm, wherein the hand-held probe connects to the portable base unit by means of a cord or a wire via the elongated arm and wherein the base unit is provided with sensors for measuring length or a change in length of the cord or the wire and rotation of the arm in at least one degree of freedom, and computer-controlled processing means for processing measuring signals delivered by the sensors into position data of the hand-held probe.

Abstract: A method of determining a target spatial coordinate using an apparatus comprising a movable hand-held probe, having a body and a pointing element for pointing the target spatial coordinate, and a portable base unit provided with line-of-sight distance coupling means, wherein the hand-held probe is coupled to the base unit by said line-of-sight distance coupling means, coupled to the body at an attachment point, and wherein the base unit is provided with sensors providing measuring signals for measuring length or a change in length of the line-of-sight distance coupling means and rotation of said line-of-sight distance coupling means in at least one degree of freedom. Computer-controlled processing means are arranged for processing measuring signals. The method further comprising retrieving measuring signals wherein the target spatial coordinate is appointed from different orientations of the hand-held probe, and determining the target spatial coordinate from the measuring signals.

Abstract: An apparatus for pointing spatial coordinates, comprising a movable hand-held probe, having a pointing tip, and a portable base unit provided with a rotatably supported elongated arm, wherein the hand-held probe connects to the portable base unit by means of a cord or a wire via the elongated arm and wherein the base unit is provided with sensors for measuring length or a change in length of the cord or the wire and rotation of the arm in at least one degree of freedom, and computer-controlled processing means for processing measuring signals delivered by the sensors into position data of the hand-held probe.

Abstract: A device, a method and a guiding device for setting out contours, points or works, including a computer-controlled measuring device provided with a movable measuring probe and a portable base unit provided with a rotatably supported elongate arm. The measuring probe is connected to the measuring device by means of a cord or a wire via the elongate arm, and the measuring device is provided with sensors for measuring a length or a change in the length of the cord or the wire and rotation of the arm in at least one degree of freedom for providing position data of the measuring probe.

Abstract: A device, a method and a guiding device for setting out contours, points or works, comprising a computer-controlled measuring device provided with a movable measuring probe and a portable base unit provided with a rotatably supported elongate arm. The measuring probe is connected to the measuring device by means of a cord or a wire via the elongate arm, and the measuring device is provided with sensors for measuring a length or a change in the length of the cord or the wire and rotation of the arm in at least one degree of freedom for providing position data of the measuring probe. A guiding device communicatively connected to the measuring device is designed for providing guidance for positioning the measuring probe for the purpose of reducing a difference between a measured position of the measuring probe and a desired position of the measuring probe in accordance with a contour, point or work to be set out.