| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 180164000 | WITH POWERED MEANS FOR CREATING FLUID FORCE TO ATTRACT VEHICLE TO SURFACE OF TRAVEL | 13 |
| 20110017538 | Arrangement for Strengthening the Road Grip for a Vehicle - In an arrangement for strengthening the road grip for a vehicle, particularly for a passenger car, air can be sucked from a vacuum chamber arranged under the vehicle and closed off with respect to the ambient atmosphere. As a result, a vacuum can be generated in a vacuum chamber arranged in a braking plate, and the latter can be changed from an inoperative position away from the ground into a operative position close to the ground, as a result of the generated vacuum. | 01-27-2011 |
| 20110024215 | TRACTION ROBOT - A traction unit has carrier sections on which suction cups are mounted that are connected to a vacuum source. The carrier units are driven around the frame by a chain driven by a motor. The frame has sections which move relative to one another in order to permit turning control of the traction unit. | 02-03-2011 |
| 20110192665 | NON-CONTACT LIFTING AND LOCOMOTION DEVICE - A Bernoulli-type non-contact adhesion pad comprises a pad area which includes an outer section of the pad area and an inner section of the pad area which is undercut relative to the outer section, at least one aperture in the inner section of the pad area for introducing a pressurised fluid flow from the aperture in use between the pad area and a surface for non-contact adhesion of the pad to the surface, an element extending from the aperture beyond the periphery of the aperture, but not the outer section of the pad area, so that the flow of fluid from the aperture is between and around the element and the periphery of the aperture, the element including an edge around the element at or beyond the aperture. A wall climbing robot using the Bernoulli-type non-contact adhesion pads is also disclosed. | 08-11-2011 |
| 20120285760 | TRACTION ROBOT - A traction unit has carrier sections on which suction cups or suction pads are mounted that are connected to a vacuum source. The carrier units are driven around the frame by a chain or belt driven by a motor. The frame has sections which move relative to one another horizontally and/or vertically in order to permit turning control of the traction unit and allowing for traversing of curved surfaces. | 11-15-2012 |
| 20130206492 | CLEANING DEVICE FOR WINDOW GLASS - [OBJECT] To provide a device which is held by vacuum on a wall surface or a window surface of glass of a building, and which is moved along the surface, thereby performing the cleaning operation. | 08-15-2013 |
| 20140014430 | TRAVELLING DEVICE EQUIPPED WITH DUAL, ROTATING, NEGATIVE-PRESSURE SUCTION SEALS - To improve the traveling functionality of a traveling device equipped with dual, rotating, negative-pressure suction seals. Provided is a traveling device equipped with dual, rotating, negative-pressure suction seals, which is characterized in that: a single, rotating, negative-pressure suction seal is respectively provided to the left and the right of the axis of travel of the traveling device; the distance between the rotational axis of one of the negative-pressure suction seals and the axis of travel is substantially equal to the distance between the rotational axis of the other negative-pressure suction seal and the axis of travel; the outer peripheral shape of each negative-pressure suction seal forms a shape comprising a farthest outer peripheral end portion, which is the outer peripheral end portion farthest from the rotational axis, and a nearest outer peripheral end portion, which is the outer peripheral end portion nearest to the rotational axis; and a driven wheel is provided inside each negative-pressure suction seal. | 01-16-2014 |
| 20140027191 | TRACTION ROBOT - A traction unit has carrier sections on which suction cups are mounted that are connected to a vacuum source. The carrier units are driven around the frame by a chain driven by a motor. The frame has sections which move relative to one another in order to permit turning control of the traction unit. | 01-30-2014 |
| 20140216836 | ROBOTIC CLIMBING PLATFORM - A robotic climbing platform has a chassis and a carriage adapted to support and move the chassis relative to a climbing surface. An adhesion mechanism provides an adhesion force between the climbing platform and the climbing surface. The adhesion mechanism has one or more suction pads adapted to retain an adhesion force between the climbing platform and the climbing surface during movement of the chassis relative to the climbing surface. | 08-07-2014 |
| 20140299397 | TRACTION ROBOT - A traction unit has carrier sections on which suction cups are mounted that are connected to a vacuum source. The carrier units are driven around the frame by a chain driven by a motor. The frame has sections which move relative to one another in order to permit turning control of the traction unit. | 10-09-2014 |
| 20140339002 | APPARATUS FOR FORMING A VACUUM ADHESION - A method, apparatus, and system for adhering a vacuum to a surface is provided. A seal is positioned relative to a surface. The seal is associated with a structure and is in communication with a channel within the structure. The seal is rotated relative to the structure such that the seal at least partially conforms to the surface. Air is drawn into the channel within the structure through the seal such that the seal adheres to the surface. | 11-20-2014 |
| 20150114738 | TRACTION ROBOT - A traction unit has carrier sections on which suction cups are mounted that are connected to a vacuum source. The carrier units are driven around the frame by a chain driven by a motor. The frame has sections which move relative to one another in order to permit turning control of the traction unit. | 04-30-2015 |
| 20150375814 | ROBOTIC DEVICE FOR NAVIGATING INCLINED SURFACES - A drive unit for driving a robot along an inclined surface is disclosed. An endless tread engages a pair of wheels to define a planar bottom surface of the endless tread. A vacuum motor pulls air through holes in the endless tread when the holes are aligned with a vacuum opening. | 12-31-2015 |
| 20160039483 | VACUUM WALL CRAWLER - The present invention relates to a vacuum wall crawler having at least one vacuum track unit comprising a track frame, two pulleys provided in opposite ends of the track frame, and defining a wheelbase, an endless track arranged to circulate on the two pulleys, and comprising a flexible band, said flexible band comprising a plurality of apertures, and having a thickness, a vacuum distribution box provided in said track frame wherein the vacuum distribution box is in communication with a portion of the apertures to distribute a vacuum to the portion of apertures as the endless track circulates, where the thickness of the flexible band is 5-20% of the wheel base. | 02-11-2016 |
