Patent application number | Description | Published |
20130248339 | ELECTRICAL SWITCH ARRANGEMENT - An electrical switch arrangement has a switch housing and a button guided in the switch housing. The button can be brought into two fixed switching states. A display indicates when at least one of the switching states is reached. A U-shaped spring is arranged inside the button approximately at right angles to the direction of movement the button. The spring is guided in a guide track formed in sections of the switch housing. | 09-26-2013 |
20130248342 | FOIL SWITCH FOR ELECTRIC CURRENTS - A switch arrangement for electric currents, has a switch housing; a switching element slidably received in the switch housing; a foil, having electrically conductive pathways for carrying the electric currents, attached to the housing; and at least two contacts that are to be short-circuited and/or opened. At least one of the contacts is formed by a section of the pathway of the foil. The switching element is movable to short-circuit or open the at least two contacts and has a travel path of ≧ | 09-26-2013 |
20130269987 | ELECTRICAL COMPONENT - In an electrical component having at least one flexible carrier material, the connecting surfaces formed on conductive pathways thereof are joined to the connecting surfaces of individual metal bodies via individual bonded connections. At least one rail profile is conformed in the surface structure of each bonded connection; each bonded connection having at least one ultrasonic welding bond. In order to produce the electrical component, individual metal bodies are arranged on the conductive pathways of a flexible carrier material. Connecting surfaces of the individual metal bodies and connecting surfaces of the conductive pathways are materially bonded to each other. One of the connecting surfaces to be bonded is produced from a foil that is fully furnished with conductive pathways, and energy directors made from aluminium are integrated in the conductive pathway or the metal body. | 10-17-2013 |
20130271246 | SWITCH ARRANGEMENT - A switch arrangement for electric currents has at least two contacts to be closed and opened. At least one of the contacts is formed by sections of an electrically conductive pathway of a foil. At least one magnet assigned to the foil. At least one magnetic component is placeable in the magnetic field of the magnet and facing the magnet on the other side of the foil. When the magnetic body is placed in the magnetic field of the magnet it is attracted to the magnet causing the foil to be squeezed and the contacts to make contact, closing the switch. | 10-17-2013 |
20130284574 | Switch for an Electric Device - A switch has a housing and an actuating element retained on a travel path in the Housing. A restoring member ( | 10-31-2013 |
20140357102 | Electrical Circuit Terminal Arrangement - In an electrical circuit with at least one flexible sheet element with electrical conductor tracks, at least one terminal arrangement for connection to a power supply and/or for data transmission, provision is made for the terminal to be formed by a portion of the sheet element with exposed conductor tracks, against which counter-contacts are positioned. | 12-04-2014 |
20140360852 | ELECTRICAL SWITCH - An electrical switch for mounting into a surface of a component, has at least one shoulder region to be brought closer to this surface and which has at least one seal, which is assigned to an opening in the surface. The shoulder region has at least one region with at least one assigned indicator component, wherein this assignment is changed in terms of position in the case of complete sealing action of the seal compared to an incomplete sealing action of the seal. | 12-11-2014 |
20150021154 | Device for Switching and Controlling Electrical Apparatuses - A device for switching and controlling electrical apparatus, has a guide bearing for creating haptics indicating the position of the device. The guide bearing has one bearing part constructed as a switch housing and one bearing part constructed as an actuating element. The guide bearing has a control path formed on one of the bearing parts and a rolling-body mount constructed on the other bearing part. A rolling body is held in the rolling-body mount. A haptic spring presses the rolling body onto the control path. The structure of this device is suitable for creating haptics, without the operational reliability and service life of the guide bearing being appreciably impaired. | 01-22-2015 |