Abstract: The invention relates to an apparatus and a method for the sensing of objects moved through the field of view of an optical sensor comprising a device for the selection of regions of interest which are each associated only with a part of the field of view of the optical sensor, wherein a distance measurement device and/or a remission measurement device is/are integrated into the optical sensor or is/are connected in front of it or after it in the direction of movement of the objects, with the distance measurement device and/or the remission measurement device being designed for the determination of the spacing and/or of the remission of the object surfaces facing the distance measurement device and/or the remission measurement device and being coupled to an evaluation circuit for the calculating of the regions of interest in dependence on the determined spacings and/or remissions.

Abstract: A laser scanner which operates pursuant to the elapsed time principle and which has a pulsed laser that directs successive light pulses into a monitored region. The laser scanner further has a light receiving arrangement for receiving light pulses reflected by an object in the monitored region and that generates electric received signals which are fed to an evaluation unit for determining a distance between the object and the laser scanner based on the elapsed time between the emission of the light pulse and the receipt of the reflected pulse and the speed of light from which a distance signal is formed that is representative of the distance between the object and the scanner. There is a light diverter unit between the pulsed laser and the monitored region which continuously directs light pulses along different directions into the monitored region.

Abstract: A laser scanner which operates pursuant to the elapsed time principle and which has a pulsed laser that directs successive light pulses into a monitored region. The laser scanner further has a light receiving arrangement for receiving light pulses reflected by an object in the monitored region and that generates electric received signals which are fed to an evaluation unit for determining a distance between the object and the laser scanner based on the elapsed time between the emission of the light pulse and the receipt of the reflected pulse and the speed of light from which a distance signal is formed that is representative of the distance between the object and the scanner. There is a light diverter unit between the pulsed laser and the monitored region which continuously directs light pulses along different directions into the monitored region.

Abstract: The invention relates to an apparatus and a method for the sensing of objects moved through the field of view of an optical sensor comprising a device for the selection of regions of interest which are each associated only with a part of the field of view of the optical sensor, wherein a distance measurement device and/or a remission measurement device is/are integrated into the optical sensor or is/are connected in front of it or after it in the direction of movement of the objects, with the distance measurement device and/or the remission measurement device being designed for the determination of the spacing and/or of the remission of the object surfaces facing the distance measurement device and/or the remission measurement device and being coupled to an evaluation circuit for the calculating of the regions of interest in dependence on the determined spacings and/or remissions.

Abstract: The invention relates to an optoelectronic sensor which has a transmission device for transmitting a strip illumination in the direction of an object zone, a reception device for receiving light reflected or remitted from the object zone and for outputting at least one corresponding reception signal and an evaluation device for evaluating the at least one reception signal. A division of the strip illuminated object region into a plurality of monitoring segments is provided. Furthermore, a distance measuring device is provided by which, for at least one monitoring segment, the distance to an object disposed therein can be determined.

Abstract: Techniques for determining the distance between a measuring apparatus and an object are provided. The measuring apparatus includes a transmitter, a receiver and a filter module having a defined phase frequency characteristic, in which a modulated signal, in particular a light signal, is transmitted in the direction of the object by the transmitter, the signal reflected by the object is received by the receiver and the output signal of the receiver is delivered to the transmitter at least via the filter module, wherein at least the transmitter, the receiver and the filter module form a resonant circuit, the frequency of resonance of the resonant circuit is measured and the distance is determined from the frequency of resonance. The respective frequency of resonance of the resonant circuit is determined for at least two different phase frequency characteristics.

Abstract: An optical scanning device has a light transmitter and a light receiver which are arranged in spatial proximity to one another and which each comprise a deflecting device with which a scanning light beam emitted by a transmitter unit is directable along a transmission path onto an object to be scanned and, after reflection at said object, along a reception path onto a receiving unit, with the transmission path and the reception path being optically separated from one another in the region of the light transmitter and the light receiver.

Abstract: A method is described for the identification and localization of objects, where at least one transponder provided on the respective object is excited to emit transponder data stored in the transponder which characterize the respective object and where the transponder data emitted are detected. The object is additionally scanned by at least one optical sensor. Furthermore, the object is identified and its location determined from a combination of optical data detected by the optical sensor and the transponder data identified. Furthermore, a corresponding apparatus for the performance of the method is described.

Abstract: The invention relates to a method of determining the distance between a measuring apparatus and an object, the measuring apparatus comprising a transmitter, a receiver and a filter module having a defined phase frequency characteristic, in which a modulated signal, in particular a light signal, is transmitted in the direction of the object by the transmitter, the signal reflected by the object is received by the receiver and the output signal of the receiver is delivered to the transmitter at least via the filter module, wherein at least the transmitter, the receiver and the filter module form a resonant circuit, the frequency of resonance of the resonant circuit is measured and the distance is determined from the frequency of resonance. The respective frequency of resonance of the resonant circuit is determined for at least two different phase frequency characteristics. The invention further relates to a corresponding apparatus.

Abstract: A method is described for detecting the distance between a measuring device comprising a transmitter and a receiver and an object, in which a modulated light signal is emitted by the transmitter in the direction of the object, the light signal reflected at the object is received by the receiver and is converted into a reflection signal, and the distance between the measuring device and the object is determined from the light transit time of the light signal received. In addition to the light signal reflected at the object, at least a part of the light signal emitted is received as a reference light signal by a receiver without reflection at the object and is converted into a reference signal. Subsequently the phase shift between the reflection signal and the reference signal is determined for the determination of the light transit time. Moreover, a distance measuring device working in accordance with the method of the invention is described.

Abstract: The invention relates to an optoelectronic sensor comprising a transmission device for transmitting a strip illumination in the direction of an object zone; a reception device for receiving light reflected or remitted from the object zone and for outputting at least one corresponding reception signal and an evaluation device for evaluating the at least one reception signal. A division of the strip illuminated object region into a plurality of monitoring segments is provided. Furthermore, a distance measuring device is provided by which, for at least one monitoring segment, the distance to an object disposed therein can be determined.

Abstract: A method is described for detecting the distance between a measuring device comprising a transmitter and a receiver and an object, in which a modulated light signal is emitted by the transmitter in the direction of the object, the light signal reflected at the object is received by the receiver and is converted into a reflection signal, and the distance between the measuring device and the object is determined from the light transit time of the light signal received. In addition to the light signal reflected at the object, at least a part of the light signal emitted is received as a reference light signal by a receiver without reflection at the object and is converted into a reference signal. Subsequently the phase shift between the reflection signal and the reference signal is determined for the determination of the light transit time. Moreover, a distance measuring device working in accordance with the method of the invention is described.

Abstract: The invention relates to an optical scanning device comprising a light transmitter and a light receiver which are arranged in spatial proximity to one another and which each comprise a deflecting device with which a scanning light beam emitted by a transmitter unit is directable along a transmission path onto an object to be scanned and, after reflection at said object, along a reception path onto a receiving unit, with the transmission path and the reception path being optically separated from one another in the region of the light transmitter and the light receiver.

Abstract: A method is described for the determination of the position of the focus of an opto-electronic apparatus, in particular of a bar code reader, which transmits a light beam through a focusing lens. In the method the width of the transmitted light beam is determined at a specific reference position and the position of the focus is determined from the width that is found. Furthermore the invention is directed to an opto-electronic apparatus, in particular to a bar code reader for carrying out the method.

Abstract: The invention relates to an optoelectronic sensor, in particular a bar code reader, with an optical receiving system positioned in front of a light receiver for the deflection of a light beam reflected from an object, in particular a bar code, onto the light receiver. Through the provision of aperture diaphragms, or a plurality of light receivers, or regions with different image forming characteristics in the optical receiving system, a situation is achieved in which the receiving characteristics of the overall system, which result by reason of the shape of the sensing laser beam, as a result of the characteristics of the electronic evaluation system and as a result of different light intensities of the light returned, for example from a bar code, are optimized for different sensing distances.

Abstract: The invention relates to an optical code reader comprising an optical scanning device (11) having a light transmitter (27) and a photoreceiver arrangement (19), said scanning device (11) transmitting a light beam (12) executing a scanning movement into a reading zone (14) provided at a reading distance ((L) from the scanning device (11). The reading zone preferably has a substantially planar front surface (13) and, moreover, a predetermined depth. Articles (16) carrying an optically detectable article code (15) are moved through the reading zone (14) and an electronic evaluation system (17), which is provided at the output of the scanning device (11), evaluates electrical signals formed by the photoreceiver arrangement (19) from the light reflected from the code (15) to the scanning device (11) and identifies the article code (15).

Abstract: The invention relates to a method and to an apparatus for measuring the distance between a measuring device and an object in which a light signal transmitted over the measurement path undergoes a phase shift which is converted into a frequency change in an oscillating circuit.