摘要:
An application controller for an application unit, for marking substances comprises a radiation sensor, by means of which the relative position of the application unit relative to a reference plane may be determined. The relative position of the application unit can be determined by means for recording the orientation of the application unit controller relative to the reference plane from the association of position with orientation information, such that control instructions, in particular for positional correction may be generated by the application unit controller. The position of the application unit can be adjusted by an actuator device according to the control instructions.
摘要:
The invention relates to a method for registering surfaces, using a scanner system comprising a radiation source for emitting electromagnetic radiation (ES), a scanning device for guiding the radiation over the surface in order to scan the latter and a receiver for receiving the radiation (RS) that is reflected by the surface. According to the invention, the radiation is spectrally separated to analyze the surface characteristics and a distance measuring unit is used to derive distance information in parallel from the received radiation.
摘要:
A force measuring device comprises at least one gauge element which, at least, in some regions, is conceived as a spring element, the deformation of which changes the volume of liquid contained in a chamber delimited by the gauge element; the spring elements are equal to each other in every respect and so positioned that the spring characteristic is the same for all of them that the deformation remains in the linear domain of the spring characteristic and that the local change of volume of the chamber is proportional to the deformation of the respective spring element.
摘要:
The invention relates to an optoelectronic angle sensor (1a) for determining a rotational angle about an axis (6), comprising a circular disk (2a) that can be rotated about the axis. Said circular disk comprises a coding, essentially over the entire surface, a flat photosensitive detector (3a), a device for producing an evaluable image of the coding on the detector and a memory and evaluation component (4a) for determining the rotational angle. A largely complete, or in particular an entire image of the coding is produced on the detector. The rotational angle is determined using a parameter-varying stochastic comparison method, from the image and a parameterised electronic reference pattern that is provided by means of the memory and evaluation component.
摘要:
The invention relates to a method for registering surfaces, using a scanner system comprising a radiation source for emitting electromagnetic radiation (ES), a scanning device for guiding the radiation over the surface in order to scan the latter and a receiver for receiving the radiation (RS) that is reflected by the surface. According to the invention, the radiation is spectrally separated to analyse the surface characteristics and a distance measuring unit is used to derive distance information in parallel from the received radiation.
摘要:
An electro-optical range finder (4) having a trapezoidal laser (1) as a laser source, a laser source controller (6) for generating pulsed laser radiation, receiving optics (7) and a detector (8) with an evaluation unit (9) for receiving and evaluating the measuring radiation (RS) reflected by a target (ZI), in order to measure distance, has a separate supply for the guided waveguide region (2) and the trapezoidal region (3) as well as transmitting optics (5) with astigmatism compensation and for collimating the laser radiation.
摘要:
The invention relates to a positioning method for determining the position and orientation of a mobile unit having a receiver (3′, whereby the receiver (3) is detected by a scanner (2), said scanner (2′ determining at least the distance and a direction in relation to the receiver (3). The radiation emitted by the sensor is detected by the receiver (3′ and the direction of incidence of radiation and the direction of incidence of radiation in relation to an axis of reception are derived while an offset of the incident radiation in relation to the axis of reception (EA) is determined. Position and orientation of the unit are derived from at least the distance, the direction in relation to the receiver (3′), the offset and the direction of incidence as the position information and the unit is optionally controlled via the optical connection (OV).
摘要:
The invention relates to a method for high-precision fixing of a miniaturized component (1), in particular having a microoptical element (2), on a predetermined fixing section (3) of a support plate (4) by a solder joint. The support plate is formed throughout from a metallic material and has a cut-out region (10) which encloses the fixing section (3), is bridged by at least one connecting web (9) of the support plate (4), keeps the heat transfer from the fixing section (3) to the remaining support plate low and compensates lateral thermal expansions of the fixing section (3). Solder material (8) is applied on the top of the fixing section (3). The method comprises in particular the steps: arrangement of the component (1) above the fixing section (3), the solder material (8) and the base (7) of the component (1) being present in opposite positions without contact and forming a space. Supply of electromagnetic radiation (12) to the bottom (6) of the fixing section (3) for melting the solder material (8′) so that, as a result of drop formation and optionally as a result of lowering of the component (1) the space fills with molten solder material (8′) for mutual fixing. Waiting for the mutual fixing by resolidification of the molten solder material (8′).
摘要:
The invention relates to a method for high-precision fixing of a miniaturized component (1), in particular having a microoptical element (2), on a predetermined fixing section (3) of a support plate (4) by a solder joint. The support plate is formed throughout from a metallic material and has a cut-out region (10) which encloses the fixing section (3), is bridged by at least one connecting web (9) of the support plate (4), keeps the heat transfer from the fixing section (3) to the remaining support plate low and compensates lateral thermal expansions of the fixing section (3). Solder material (8) is applied on the top of the fixing section (3). The method comprises in particular the steps: arrangement of the component (1) above the fixing section (3), the solder material (8) and the base (7) of the component (1) being present in opposite positions without contact and forming a space. Supply of electromagnetic radiation (12) to the bottom (6) of the fixing section (3) for melting the solder material (8′) so that, as a result of drop formation and optionally as a result of lowering of the component (1) the space fills with molten solder material (8′) for mutual fixing. Waiting for the mutual fixing by resolidification of the molten solder material (8′).