Produits et services

Apparatus and instruments for conducting, switching, transforming, accumulating, regulating or controlling the distribution or use of electricity; the aforementioned apparatus and instruments for vehicles, in particular for bikes, bicycles, tricycles, cargo bikes, scooters, motorcycles and motor scooters; switches and control buttons for the electronic control of the aforementioned apparatus and instruments; electric cells (batteries); electric batteries; electric accumulators for vehicles; the aforementioned cells and batteries for bikes, bicycles, tricycles, cargo bikes, scooters, motorcycles and motor scooters, including the aforementioned electric vehicles; cells, batteries and electronics for vehicles, in particular for controlling lights and direction indicators; mileage recorders for vehicles/kilometer recorders for vehicles; GPS for vehicles; the aforementioned apparatus, instruments, cells, batteries, electronic meters and GPS for bikes, bicycles, scooters, tricycles, cargo bikes, motorcycles and motor scooters, e-bikes, electric bicycles, electric tricycles, electric cargo bikes, electric scooters, electric motorcycles and electric mopeds; protective head guards, helmets and clothing, in particular for use with the aforementioned vehicles; head guards, protective helmets, and clothing for protection against accidents. Lights, in particular for vehicles; lights for bikes, bicycles, scooters, motorcycles and motor scooters, including the aforementioned electric vehicles and vehicles powered by other energy sources; lamps for vehicles; lights for lighting and direction indicator lights, indicators, for vehicles; lamps, front and rear, lights and direction indicators for bikes, bicycles, tricycles, cargo bikes, scooters, motorcycles and motor scooters, including the aforementioned electric vehicles; electrically heated clothing. Vehicles and apparatus for the transport of people or merchandise by land, air or water; bikes, bicycles, cargo bikes, tricycles, scooters, motorcycles and motor scooters; electric bikes, electric bicycles, electric tricycles, electric cargo bikes, electric scooters, electric motorcycles and electric motor scooters; parts and components for the aforementioned vehicles; handlebars, handles, lights, lamps, indicators, tools, bags, padlocks, rearview mirrors, bells, reflectors, water bottles, wheels, gears, brakes, protective covers for the aforementioned parts, for the aforementioned vehicles.

Abrégé

A method for localising and characterising one or more electromagnetic radiation sources is proposed. The method comprises the steps of: measuring one or more electrical signals received from the one or more sources placed in an observation region in front of a sampling apparatus; time-reversing the measured one or more electrical signals; inputting the one or more time-reversed electrical signals into an electromagnetic field solver modelling the sampling apparatus, and configured to solve Maxwell's equations; determining a reconstructed electromagnetic field by running the electromagnetic field solver with the one or more time-reversed electrical signals as one or more input signals; identifying one or more focal spots in the reconstructed electromagnetic field to thereby locate one or more modelled sources in a simulated observation region; and obtaining a respective far-field radiation pattern for the one or more modelled sources directly or indirectly from the reconstructed electromagnetic field.

Classes IPC  ?

• G01R 29/10 - Diagrammes de rayonnement d'antennes

Abrégé

The present invention concerns a device (1) for removing particles from a material in movement, wherein said particles comprise or are made of a substance that is attracted by a magnet (5). In a practical embodiment, the device (1) is used to remove iron particles from a stream of flour, for example flour produced in a mill and being dropped by way of gravity through the device (1) of the invention. The device (1) comprises a trapping arrangement (7) that is movably connected with respect to the device (1) in such a manner that a first trapping area (7a) is in a trapping position inside a channel (4) of the device (1) while a second trapping area (7b) is in a release position, releasing trapped particles. The trapping arrangement (7) moves such that said second area (7b) gets into the trapping position and the first area (7a) to the release position. The device (1) is self-cleaning and allows continuous removal of iron particles.

Classes IPC  ?

• B03C 1/027 - Séparateurs magnétiques à gradient de champ élevé avec des récipients animés d'un mouvement de va-et-vient
• B03C 1/033 - Éléments constitutifsOpérations auxiliaires caractérisés par le circuit magnétique
• B03C 1/034 - Éléments constitutifsOpérations auxiliaires caractérisés par le circuit magnétique caractérisés par les éléments de matrice
• B03C 1/28 - Bouchons et jauges magnétiques

Abrégé

The present invention provides an embedded system for operating a peripheral, wherein said peripheral may be any electronically supported device, in particular a device 5 that is operated by firmware. The embedded system is external to the peripheral and contains an interface for connection to the peripheral. Each of said external embedded systems comprises a dedicated communication module, which allows it to build up a network with one or more other embedded systems of the same type, in as far as such other systems are in reach to build up the network. The embedded system is configured to transmit and receive 10 mobile software entities (MEs), each containing an own operating system (OS). As an advantage, the present invention provides a new model or platform enabling efficient dissemination of software and highly collaborative environments. The invention provides a powerful and permanent dissemination of complete execution environments over distributed platforms.

Classes IPC  ?

• G06F 9/445 - Chargement ou démarrage de programme
• G06F 9/455 - ÉmulationInterprétationSimulation de logiciel, p. ex. virtualisation ou émulation des moteurs d’exécution d’applications ou de systèmes d’exploitation
• G06F 9/44 - Dispositions pour exécuter des programmes spécifiques
• H04L 29/08 - Procédure de commande de la transmission, p.ex. procédure de commande du niveau de la liaison

Abrégé

The present invention provides novel, multielectrode arrays (MEAs) for in vitro applications. In an aspect, array electrodes are provided on a membrane containing a plurality of nanowires for each electrode. The nanowires are preferably grown in nanopores produced by ion track lithography. Furthermore, the present invention provides portable devices for operating a MEA. In preferred embodiments, the device comprises an on-device controller equipped with a temporary data storage unit, the controller being configured to transmit measurements of electric characteristics of a sample to a server by a wireless connection.

Classes IPC  ?

• G01N 33/483 - Analyse physique de matériau biologique

Produits et services

Computer software applications; downloadable computer software applications; data processing equipment; interfaces (for computers); computers; portable computers; processors (central processing units); integrated circuits; printed circuits; hardware; computer hardware; computer peripheral devices; recorded computer operating system programs; recorded computer programs; computer programs; chips for integrated circuits; embedded systems; embedded devices; embedded computer devices; electronic and computer systems, namely embedded execution environment, embedded environment for applications, embedded computer execution environment. Installation and maintenance of embedded systems (computer hardware, hardware); installation and maintenance of computer devices; installation and maintenance of embedded computer devices (computer hardware, hardware). Communications via computer terminals; wireless broadcasting services; provision of access to databases; transmission of digital files; computer-aided transmission of messages and images. Computer system analysis; software consultancy; consultancy in the design and development of computers; installation of software; rental of computer software; installation and maintenance of embedded systems (software); installation and maintenance of computer devices (software); installation and maintenance of embedded computer devices (software); installation and maintenance of embedded execution environments (electronic and computer systems); installation and maintenance of embedded computer execution environments (electronic and computer systems); maintenance of computer software; updating of software; programming for computers; recovery of computer data.

Abrégé

The invention relates to a device for measuring the intraocular pressure of an eye of a human or animal, having a resonator (12) designed to cause vibration of the eyeball (10) in which the intraocular pressure is to be measured, a generator (21) for generating a laser beam to be sent to said eyeball, and an interferometer (15) for producing a network of interferences between a laser half-beam (17) emitted by the generator (21) and a laser half-beam (16) reflected by said eyeball, and means for interpreting said interferences in order to deduce therefrom the intraocular pressure of said eyeball. The measuring method involves analyzing said network of interferences caused by the phase shift between the two half-beams, and deducing the modes of vibration of the eyeball, which depend on the intraocular pressure, by processing the signal corresponding to said interferences.

Classes IPC  ?

• A61B 3/16 - Appareils pour l'examen optique des yeuxAppareils pour l'examen clinique des yeux du type à mesure objective, c.-à-d. instruments pour l'examen des yeux indépendamment des perceptions ou des réactions du patient pour mesurer la pression intraoculaire, p. ex. tonomètres
• A61B 8/10 - Examen de l'œil
• G01B 9/02 - Interféromètres

Abrégé

The invention relates to a magnetic field generator (10) comprising an assembly of anisotropic permanent magnets (30) that define air gaps (40) within which the magnetic flux is concentrated. The permanent magnet assembly consists of two assembly elements (21, 22) mounted on a carrier (50) symmetrically relative to a central axis of symmetry (A-A) and perpendicular to a middle plane (B-B) of the air gaps (40). The carrier (50) includes two substantially identical portions, i.e. an upper portion (50a) and a lower portion (50b). The upper portion (50a) consists of two identical arms (51a, 51b) arranged symmetrically relative to the central axis of symmetry (A-A). The lower portion (50b) consists of two identical arms (52a, 52b) arranged symmetrically relative to the central axis of symmetry (A-A). The ends of the identical arms (51a, 51b) have two anisotropic permanent magnets (30), respectively, wherein said permanent magnets are provided in the form of parallelepiped or cubical blocks. The magnetic circuit generated in each of the arms is closed by an arcuate block (61, 62) that is made of a ferromagnetic material and mounted on the end faces of the corresponding permanent magnets (30).

Classes IPC  ?

• H01F 1/01 - Aimants ou corps magnétiques, caractérisés par les matériaux magnétiques appropriésEmploi de matériaux spécifiés pour leurs propriétés magnétiques en matériaux inorganiques
• H01F 7/02 - Aimants permanents

Abrégé

The invention relates to a magnetic field generator (10) comprising an assembly (20) of anisotropic permanent magnets (30) defining an air gap (40) inside which the magnetic flux concentrates. Said assembly comprises a first element (21) and a second element (22) mounted opposite one another and including at least three permanent magnets (30). The two elements (21) and (22) are arranged substantially in the same plane and respectively surrounded by closing mechanisms (51, 52) of the magnetic field. The permanent magnets (30) of the first (21) and second (22) elements are made up of parallelepipedal blocks, arranged substantially in an arc of circle according to three areas: a central area (60) opposite the air gap (40), a first side area (70) on one side of the central area (60), and a second side area (80) on the other side of the central area (60). The permanent magnets (30) of the first (70) and second (80) side areas have opposite directions of magnetisation. Two parts (91) and (92) of a ferromagnetic material forming a magnetic flux concentrator (90) are arranged on either side of the air gap (40).

Classes IPC  ?

• G01R 33/383 - Systèmes pour produire, homogénéiser ou stabiliser le champ magnétique directeur ou le champ magnétique à gradient utilisant des aimants permanents
• H01F 7/02 - Aimants permanents

Abrégé

The invention concerns a permeable-magnetocaloric material designed for an application in thermo-magnetic devices such as magnetic refrigerators, magnetic heat pumps or magnetic power generators. This permeable- magnetocaloric material (10a) comprises an hybrid material including at least one soft magnetic permeable material consisting of particles (11a) embedded in a magnetocaloric material (12a). The particules (11a) present a disk or sphere shape, and first sizes which may be in the range of one to several hundred millimeters.

Classes IPC  ?

• H01F 1/01 - Aimants ou corps magnétiques, caractérisés par les matériaux magnétiques appropriésEmploi de matériaux spécifiés pour leurs propriétés magnétiques en matériaux inorganiques
• F25B 21/00 - Machines, installations ou systèmes utilisant des effets électriques ou magnétiques

Abrégé

The present invention concerns a magnetic refrigerator and/or a heat pump using a magnetocaloric fluid as refrigerant having an efficiency which is large enough for home and industrial applications such as industrial thermal processes, refrigerator manufacturing, automobile, train and aircraft industries. This magnetic refrigerator and/or heat pump (10) comprises one hot circuit (11) and one cold circuit (12) for transporting a magnetocaloric fluid (11a and 12a): The hot circuit (11) includes means (13) for generating a magnetic field and comprises one magnet, a hot heat exchanger (11b) and a first pump (11c). The cold circuit (12) includes a cold heat exchanger (12b) and a second pump (12c), and the hot circuit (11) includes a first mixing element (11d) and a first carrier fluid particle separator (11e). The cold circuit (12) includes a second mixing element (12d) and a second carrier fluid particle separator (12e), the first mixing element (11d) of the hot circuit (11) being connected to the second carrier fluid particle separator (12e) of the cold circuit (12) through a first transport conduit (14a) for particles, and the first carrier fluid particle separator (11e) of the hot circuit (11) being connected to the second mixing element (12d) of the cold circuit (12) through a second transport conduit (15a) for particles.

Classes IPC  ?

• F25B 21/00 - Machines, installations ou systèmes utilisant des effets électriques ou magnétiques