Krumbacher
Erich Krumbacher, Ludwigshafen DE
Patent application number | Description | Published |
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20080248321 | Method for the Production of Single-and/or Multiple-Coated Substrates - A process for the production of singly and/or multiply coated paper and/or board, except for photographic papers and self-adhesive labeling papers, which are particularly suitable for printing, packaging and inscription, is described. The substrate, for example base paper or board, is coated once or several times with a free-falling liquid curtain, the coating liquid having in particular an extensional viscosity of from 1 to 1000 Pa·s at a Hencky strain of from 1 to 15. | 10-09-2008 |
20100080919 | METHOD FOR PRODUCING SINGLE OR MULTIPLY COATED SUBSTRATES WITH THE AID OF A COLOURED COATING COMPOSITION COMPRISING A BINDING AGENT FOR ADHESION - A coating slip composition which can be applied by the curtain coating method to substrates to be coated, for example base paper or cardboard, is described. The substrate, which may be base paper or cardboard, is coated with one or more free-falling liquid curtains, a binder being added to the coating liquid. The binder is selected from the group comprising styrene/butadiene latex binders, styrene/acrylate latex binders, styrene/butadiene/acrylonitrile latex binders, styrene/maleic anhydride binders and styrene/acrylate/maleic anhydride binders, the binder having a particle size of <130 nm. | 04-01-2010 |
Rainer Krumbacher, Rettenbach A.a. DE
Patent application number | Description | Published |
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20110127083 | Cable Protection Device For An Industrial Robot And Industrial Robot With Such A Cable Protection Device - The invention relates to a conducting line protection device for an industrial robot having at least one power line, having a basic ring section, a hollow cylinder section whose diameter is matched to an inside diameter of a pipe component of the industrial robot that rotates relative to the conducting line protection device, an inner edge rounding section whose rounding radius is matched to a diameter of the power line, and a radial bearing section for rotatable support of the conducting line protection device relative to the pipe component of the industrial robot. The invention also relates to an industrial robot having such a conducting line protection device. | 06-02-2011 |
Rainer Krumbacher, Rettenbach DE
Patent application number | Description | Published |
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20130305866 | Industrial Robot With A Ring-Shaped Trailing Stop - The invention relates to an industrial robot which comprises a robot arm having multiple connecting links that are connected by means of joints, in which at least two adjacent connecting links, respectively, are connected by means of a joint, which is designed as a swivel joint, can be adjusted by means of a motor and is defined in its maximum rotatable adjustment angle by means of a mechanical stop device, which connecting links comprise a stop projection which is connected to one of the two adjacent connecting links, an engaging piece which is connected to the other one of the two adjacent connecting links and a drag stop which can be adjusted by the engaging piece, which drag stop comprises a drag stop body and an annular body which is connected with the drag stop body which is pivoted in an annular groove in an inner wall of a housing component of one of the two adjacent connecting links. | 11-21-2013 |
20130305869 | INDUSTRIAL ROBOT WITH ACTUATORS EXTENDING IN A PRIMARY HAND ENCLOSURE - An industrial robot has a robot arm with a linkage and an arm extension that is pivotable at the linkage. The arm extension has an arm enclosure that is pivotable at the linkage. The arm extension has a primary hand enclosure that can rotate, means of a first actuator that has a first drive shaft, at the arm enclosure around an arm axle extending in the longitudinal dimension of the arm extension. The arm extension has a first-hand element that is adjustable around a first-hand axle relative to the primary hand enclosure by means of a second actuator that has a second drive shaft, and a second-hand element that is adjustable around a second-hand axle relative to the first-hand element by means of a third actuator that has a third drive shaft. The first, second and third actuators are arranged in the primary hand enclosure with their respective drive shafts extending essentially parallel to and at a distance from the arm axle. | 11-21-2013 |