Patent application number | Description | Published |
20130241700 | DEVICE AND METHOD FOR THE AUTOMATED READING/WRITING OF RFID TAGS - A device is provided for reading/writing RFID tags, and includes a so-called pre-defined reading site, on/in which at least one object bearing an RFID tag is to be places; at least one RFID antenna; and at least one RFID reader co-operating with the RFID antenna; the at least one RFID antenna being arranged in such a way as to read the at least one RFID tag of the at least one object placed on/in the reading site. A method for reading RFID tags is also provided. | 09-19-2013 |
20130339221 | METHOD AND SYSTEM FOR THE AUTOMATED MANAGEMENT OF OBJECTS PROVIDED WITH RFID TAGS - An automated method is provided for managing objects each provided with an RFID tag having at least one item of identification data associated with the object, the method including a step of reading at least one item of identification data stored in at least one RFID tag arranged on at least one object positioned at the reading site, and further including a deactivation of at least one RFID tag the item of identification data of which has been read so that it is not detected during a fraud detection step. | 12-19-2013 |
20140158772 | DEVICE FOR READING/WRITING RFID TAGS AND COLLECTION TERMINAL COMPRISING SUCH A DEVICE - A device is provided for reading/writing at least one RFID tag carried by at least one object, including:
| 06-12-2014 |
20140353383 | MATRIX OF ADHESIVE RFID TAGS - A matrix of tags is provided including a plurality of RFID identification tags, each RFID tag having an identification layer, arranged on an object to be identified, the identification layer bearing at least one antenna and at least one chip including capacity for storing an item of identification data, the identification layer containing a bonding face arranged on a wall of the object; a backing layer, arranged on the side of the bonding face of the identification layer; a transfer layer, arranged on the side opposite to the backing layer relative to the identification layer, the transfer layer being provided for transferring the identification layer onto the object and a protective layer, arranged between the identification layer and the transfer layer, provided for protecting the identification layer when the tag is put in place; the transfer layer is produced in a single piece for the set of tags. | 12-04-2014 |
Patent application number | Description | Published |
20090142131 | CONNECTION SYSTEMS INTENTED FOR EQUIPPING PLATES, ESPECIALLY GLASS PLATES, FOR THE PURPOSE OF FASTENING THEM, AND THE PLATES THUS EQUIPPED - A connecting system configured to secure at least one cavity including curved and retaining walls and positioned on a surface portion located on an edge of a substrate made of a fragile material of glass type and a support member. The connecting system includes a shoe including at least one appendage projecting from at least one of faces of the shoe, the appendage having a profile that complements the profile made on the surface portion situated on the edge of the substrate. | 06-04-2009 |
20090145063 | LINKING ELEMENTS DESIGNED TO EQUIP PANELS, IN PARTICULAR GLASS PANELS, FOR FIXING AND PANELS EQUIPPED WITH SAME - A system for assembly between a connecting element and at least one cavity positioned on a surface portion situated on an edge face of a substrate, particularly made of a fragile material of glass type. The connecting element is configured to be accommodated in the cavity that has curved and retaining walls, the cavity being made at the edge face of the substrate. | 06-11-2009 |
20090174300 | Luminous Structure Comprising at Least One Light-Emitting Diode, Its Manufacture and Its Applications - The present invention relates to a luminous structure ( | 07-09-2009 |
20110200831 | PROCESS FOR MANUFACTURING A LAMINATED GLAZING - A process for manufacturing a laminated glazing, in which a lamination interlayer is interposed between two substrates having a glass function, including: making a measurement of Young's modulus E on a sample of the interlayer, using a viscoanalyzer, by varying temperature and frequency while imposing a constant dynamic displacement; making a numerical treatment of curves obtained, using WLF (Williams-Landel-Ferry) equations, to establish a law E(f) governing behavior of a material constituting the interlayer sample at a given temperature; producing a numerical model based on a finite-element method in bending of a laminated glazing panel, wherein mechanical properties of the sample result from the preceding operations; comparing results of the numerical calculation with those obtained with analytical formulae in which participation of the interlayer in transferring shear in the laminated glazing is represented by a transfer coefficient ω; varying the transfer coefficient ω in the analytical formulae until results converge; and constructing a transfer function ω32 f(E) by successive iterations. | 08-18-2011 |
20120034439 | PROCESS FOR MANUFACTURING A LAMINATED GLAZING UNIT AND LAMINATED GLAZING UNIT - According to this process for manufacturing a laminated glazing unit so that it withstands predetermined stresses, a reference laminated glazing unit is identified that withstands the predetermined stresses and that comprises at least one substrate and one interlayer having the same chemical compositions as those of the laminated glazing unit to be manufactured; the tear strength (J | 02-09-2012 |
20120135248 | PROCESS FOR MANUFACTURING A LAMINATED GLAZING UNIT - A process for manufacturing a laminated glazing unit so that it withstands a predetermined load, in which the unit includes at least one substrate having a glass function and at least one layer of polymeric interlayer. The process: obtains viscoelastic behavior of constituent material of the interlayer; calculates maximum value of at least one quantity representative of the loading resistance of the laminated glazing unit subjected to the predetermined load; adjusts dimensions of the unit such that the calculated maximum value of the quantity representative of the loading resistance of the unit is less than or equal to a permissible maximum value; and the or each substrate and the or each layer of interlayer are prepared and assembled to the adjusted dimensions. | 05-31-2012 |