Abstract: The invention relates to an optoelectronic sensor for detecting objects in a monitored zone that has a light transmitter; a deflection unit for deflecting the transmission light beam without mechanical moving parts or at most with micromechanical moving parts to scan the monitored zone; a light receiver; and a control and evaluation unit that is configured to determine information on the objects by means of the reception signal received by the light receiver. The sensor has at least one reference target that receives at least a portion of the deflected transmission light beam at at least one deflection angle of the deflection unit or returns it to the light receiver in order to generate a reference signal; and the control and evaluation unit is configured to check the operability of the deflection unit by means of the reference signal.

Abstract: The invention relates to an optoelectronic sensor for detecting objects in a monitored zone that has a light transmitter; a deflection unit for deflecting the transmission light beam without mechanical moving parts or at most with micromechanical moving parts to scan the monitored zone; a light receiver; and a control and evaluation unit that is configured to determine information on the objects by means of the reception signal received by the light receiver. The sensor has at least one reference target that receives at least a portion of the deflected transmission light beam at at least one deflection angle of the deflection unit or returns it to the light receiver in order to generate a reference signal; and the control and evaluation unit is configured to check the operability of the deflection unit by means of the reference signal.

Abstract: An optoelectronic sensor (10), in particular a laser scanner, for the detection of objects in a monitored zone (20) having a more than one scanning plane is provided which comprises a light transmitter (12) for the transmission of a light beam (16), a drive (28) for generating a rotational movement, a deflection unit (18, 62) rotatable about an axis of rotation (30) by the drive (28) for the periodic deflection of the light beam (16), a light receiver (26) for generating a received signal from the light beam (22) remitted or reflected from the monitored zone (20), and comprising an evaluation unit (46) which is configured for the detection of the objects on the basis of the received signal, wherein the deflection unit (18, 62) can be tilted in order to vary the scanning plane. In this connection the drive (28) tilts the deflection unit (18, 62) at the same time as the rotational movement.

Abstract: An optoelectronic sensor (10), in particular a laser scanner, for the detection of objects in a monitored zone (20) having a more than one scanning plane is provided which comprises a light transmitter (12) for the transmission of a light beam (16), a drive (28) for generating a rotational movement, a deflection unit (18, 62) rotatable about an axis of rotation (30) by the drive (28) for the periodic deflection of the light beam (16), a light receiver (26) for generating a received signal from the light beam (22) remitted or reflected from the monitored zone (20), and comprising an evaluation unit (46) which is configured for the detection of the objects on the basis of the received signal, wherein the deflection unit (18, 62) can be tilted in order to vary the scanning plane. In this connection the drive (28) tilts the deflection unit (18, 62) at the same time as the rotational movement.

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 for the determination of the focal distance of an optical imaging system comprising a first partly reflecting element and a second partly reflecting element which are arranged in the beam path at an angle to the optical axis such that a first portion of the light is reflected at the first element into a first light field, a second portion of the light is reflected at the second element into a second light field and a third portion of the light passes through both elements to form a third light field, and an optical detection device to register at least a part of an interference pattern in the overlap region of the first and second light fields. The invention furthermore relates to an optical imaging system comprising an apparatus in accordance with the invention for the determination of the focal distance and a laser scanner having an optical imaging system in accordance with the invention.

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: 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: 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: The invention relates to a bar code reading apparatus of the sensing for a bar code along a scanning direction, comprising a light source to produce a transmitted light beam and a diaphragm to restrict the cross-section of the transmitted light beam, wherein the diaphragm has a diaphragm aperture, the boundary of which has four adjoining sections, of which two sections lie opposite to one another and extend substantially transverse to the scanning direction (transverse sections), and of which two sections lie opposite to one another and extend substantially along the scanning direction (longitudinal sections).