Baumer GmbH

Friedberg, Germany

Baumer GmbH

Friedberg, Germany

Time filter

Source Type

Automated image processing and digital industrial cameras offer optical inspection systems that work economically for running web and belt systems.


Trademark
Baumer GmbH | Date: 2012-02-28

Computer hardware and electronic equipment used for inspection and identification of defects and deviations of surfaces and colors of objects, namely, computer peripherals, computer interface boards, actuators, receivers, sensors, cameras, and transducers; Computer software for operating electronic inspection equipment.


Trademark
Baumer GmbH and Massen Machine Vision Systems Gmbh | Date: 2011-07-05

Control and regulating apparatus and instruments in the form of computer hardware for the operation of automated visual inspection systems; electric, electronic and optical measuring apparatus and instruments for measuring esthetic and physical surface quality parameters; cameras and image capture devices in the nature of cameras, scanners and software to create digital image files; software for systems control, data acquisition and evaluation for use in the field of automated visual inspection and monitoring of production processes; quality monitoring systems for use in production facilities, consisting primarily of control and regulating apparatus in the form of computer hardware for the operation of automated visual inspection systems, measuring apparatus for measuring esthetic and physical surface quality parameters, cameras and automated imaging devices; and software for systems control, data acquisition and evaluation for use in the field of automated visual inspection systems and monitoring of production processes.


Trademark
Baumer GmbH | Date: 2012-12-04

Scientific, surveying, photographic, cinematographic, optical, measuring, signalling, checking and teaching apparatus and instruments, namely, code readers, especially bar code readers and matrix code readers, and sensors for detection of position and/or shape of goods and parts of all types of goods including angle, length, thickness, height, inclination, position, shape, size, edge, presence, distance, circle, number of edges, points, contours, areas, pattern or positioning of goods themselves or within their product packaging or without their product packaging, especially goods produced in great quantities in assembly lines; digital cameras, digital sensors for optical detection of position and/or shape of goods and parts of all types of goods including angle, length, thickness, height, inclination, position, shape, size, edge, presence, distance, circle, number of edges, points, contours, areas, pattern or positioning of goods themselves or within their product packaging or without their product packaging, especially goods produced in great quantities in assembly lines; data processing apparatus; computers; peripheral component interface (PCI) hardware, namely, PCI boards; computer software for optical detection of position and/or shape including angle, length, thickness, height, inclination, position, shape, size, edge, presence, distance, circle, number of edges, points, contours, areas, pattern or positioning of goods and parts of all types of goods themselves or within their product packaging or without their product packaging, especially goods produced in great quantities in assembly lines. Scientific and industrial research for others concerning new products in the field of sensor systems and optoelectronic information acquisition and information processing; writing of data processing programs, especially for digital information acquisition with sensors and the control of actors; technical consultation in the fields of sensor systems and optoelectronic and information processing.


Hhs

Trademark
Baumer GmbH | Date: 2012-05-14

Pressurized containers of metal for liquids, sold empty, namely, for adhesives, melts, namely, melted solids and solids that have been liquefied as a result of heat, and printing ink, and excluding general purpose adherent lubricants in spray form; containers of metal for adhesives, sold empty, and excluding general purpose adherent lubricants in spray form. Machines and mechanical equipment for applying multiple-component materials to surfaces, namely, pumps for machines, valves being parts of machines, heated valves being parts of machines, nozzles which are machines parts for power operated sprayers, spray nozzles which are machine parts for power operated sprayers, parts for compressed air tools, namely, hoses, parts for hot melt guns, namely, hot melt hoses, hot melt gun parts, namely, heaters, hot melt gun parts, namely, melters, hot melt guns, and excluding general purpose adherent lubricants in spray form; machines and mechanical equipment for applying materials in liquid and paste form to surfaces, namely, pumps for machines, valves being parts of machines, heated valves being parts of machines, nozzles which are machines parts for power operated sprayers, spray nozzles which are machine parts for power operated sprayers, parts for compressed air tools, namely, hoses, parts for hot melt guns, namely, hot melt hoses, hot melt gun parts, namely, heaters, hot melt gun parts, namely, melters, hot melt guns. Glue applicators monitoring apparatus and instruments and installations composed thereof, all included in this class, namely, electrical controllers, camera systems comprised of cameras, lighting, data evaluation controllers, and screens, touchscreens, computer monitors, detectors for product length, folding accuracy, adhesive application, motion, the presence of applied two-dimensional articles, namely, labels, RFIDs, foils, bar codes, brail, slot depth, slot width, slot length, and print selection and positioning, laser scanners, kickers, namely, means to remove products from a product line by pushing, ejectors, namely, means to remove products from a product line by pulling, marker systems comprised of marking fluid and a fluid application device, and radio receivers, and excluding general purpose adherent lubricants in spray form; optical sensors, cameras, all included in this class, excluding general purpose adherent lubricants in spray form.


Patent
Baumer GmbH | Date: 2014-05-07

A sensing head (1) for a transducer for capturing rotation or linear parameters, of a rotatable or linearly movable component, in particular of a shaft (13), includes a housing (2), a first sensor unit (3) and a second sensor unit (5) arranged on the housing (2) and arranged in a circumferential direction (U) of the rotatable component offset in relation to each other. The first sensor unit has a first sensor surface (4) and the second sensor unit has a second sensor surface (6). Each of the sensor units (3, 5) can be rotated about a rotation axis (7, 30) such that the sensor surfaces (4, 6) are pivotable to each other in at least two different angular positions. The rotation axes (7, 30) of the sensor units (3, 5) are located on the sides (34, 36) of the sensor units (3, 5); forming the sensor surfaces (4, 6).


A hot glue application system includes a melter and components attached to the melter. The components comprise at least one heatable feed hose, and at least one heatable application valve. The components comprise a data storage medium which is configured to be machine-readable which comprises on at least one of data transmitted for a component-specific control parameter, during an initialization, cyclically, and when a change is made in a system configuration.


A Multisensor array optically inspects and sorts bulk materials into different fractions, in which the bulk material stream is detected from a short distance compared to the width of the bulk material stream with at least two identical camera and lighting modules arranged adjacent to each other. The width of the image of the cameras is smaller than the width of the bulk material stream. The image sensors and lighting devices are limited to the range of the wavelengths of 380 nm to 1,000 nm covered by CMOS and/or CCD image sensors. Each camera is connected by a mechanical bracket and is equipped with at least one and preferably with a set of linearly lighting semiconductor light sources, which emit in a narrow band and are pulsed synchronously with the line frequency of the camera. The linearly lighting light sources can be replaced by a changing mechanism of the bracket, which mechanism is connected to the camera, to other light sources, especially ones having different system parameters. The actuating signals of the lighting sources pulsed synchronously with the line cycle of the image sensors can be generated by an electronic device according to a variable synchronization diagram, which can be optimized for the discrimination of the fractions of the bulk material stream. The signals of the camera or cameras are analyzed by at least one image computer by pattern recognition and classification for recognizing, assigning and rating the particles of the at least two fractions. Timely ejection signals are generated by a control device by real-time image processing operators in order to remove particles of at least one fraction to be removed from the bulk material stream with ejectors.


Patent
Baumer GmbH | Date: 2010-03-23

The invention generally relates to the determination of particle sizes. The invention relates, in particular, to the determination of the sizes of particles in a particle stream. For this purpose, a first optical measuring system having a first matrix sensor and a lighting means which lights up the measurement volume are provided, wherein the first matrix sensor and the lighting means form a transmitted-light arrangement, and wherein the computation device is set up to use the image data from the first matrix sensor to determine projection surfaces of particles inside the measurement volume which has been lit up, and wherein the optical measuring arrangement comprises a second optical measuring system having a second matrix sensor for detecting the diffraction pattern of the particle, and wherein the computation device is set up to use the projection surfaces and the diffraction pattern to determine a size distribution of the particle in the measurement volume, wherein the computation device is set up to form the size distribution from particle sizes determined using the projection surfaces and from particle sizes determined using the diffraction pattern.


Patent
Baumer GmbH | Date: 2011-11-28

A device for applying a fluid media onto a substrate as the substrate is moved past the device in an advancement direction includes a channel. A slot nozzle is arranged downstream of the channel in a flow direction of the fluid media. A nozzle body comprises dispensing nozzles. Each dispensing nozzle comprises a dispensing opening which leads into the channel. The dispensing openings are arranged on a line extending transverse to the advancement direction. Application modules are configured to intermittently dispense the fluid media onto the substrate via the dispensing nozzles. The application modules are arranged on the nozzle body in at least two rows offset from each other transverse to the advancement direction of the substrate. Adjacent rows of the at least two rows are inclined towards one another at an inclination angle. The at least two rows are arranged to incline along the line.

Loading Baumer GmbH collaborators
Loading Baumer GmbH collaborators