TECHNISCH ADVIESBUREAU "EARLY MINUTE" B.V. Patent applications |
Patent application number | Title | Published |
20130278365 | MAGNETIC CLIMBING SYSTEM - A magnetic climbing system comprising a plurality of magnet units adapted to be attached to the body of a user or to a robot or robot platform is described. The magnet units each comprise a permanent magnet unit for generating an attractive force between the magnet unit and a ferrous or magnetic structure. The magnet units further comprise an electromagnet arranged to operate in a first and a second state thereby generating a different magnetic flux leaving the magnet unit (and thus required for generating the attractive force). As such, the magnetic climbing system as described enables the generation of larger attractive forces, compared to known climbing systems. As a consequence, the climbing system according to the present invention may pose less stringent conditions to the friction coefficient of the surface that is climbed. It also creates the possibility of ceiling walking. | 10-24-2013 |
20120305728 | MOBILE ANCHORING DEVICE FOR ATTACHMENT TO A WALL STRUCTURE - A magnetic anchoring method and device provides a support on a wall structure comprising a magnetizable material. The magnetic anchoring device comprises a magnet unit configured to generate a magnetic field to develop an attracting force between the magnet unit and the wall structure. The magnetic anchoring device further comprises a force generating device configured to engage the magnet unit, and to generate a test force in a predetermined direction between the magnet unit and the wall structure, and a force measuring device connected to the force generating device, and configured for measuring the test force. | 12-06-2012 |
20110234341 | MAGNETIC CLIMBING SYSTEM - A magnetic climbing system comprising a plurality of magnet units adapted to be attached to the body of a user or to a robot or robot platform is described. The magnet units each comprise a permanent magnet unit for generating an attractive force between the magnet unit and a ferrous or magnetic structure. The magnet units further comprise an electromagnet arranged to operate in a first and a second state thereby generating a different magnetic flux leaving the magnet unit (and thus required for generating the attractive force). As such, the magnetic climbing system as described enables the generation of larger attractive forces, compared to known climbing systems. As a consequence, the climbing system according to the present invention may pose less stringent conditions to the friction coefficient of the surface that is climbed. It also creates the possibility of ceiling walking. | 09-29-2011 |