Patent application number | Description | Published |
20080285060 | Measuring System for Optical Monitoring of Coating Processes - The invention concerns a measuring system for optical monitoring of coating processes in a vacuum chamber, in which the light source is arranged inside the vacuum chamber between the substrate carrier and a shutter is arranged beneath the substrate carrier and the light-receiving unit is arranged outside the vacuum chamber in the optical path of the light source. The substrate carrier is designed to accept at least one substrate, and it can move across the coasting source in the vacuum chamber, preferably revolving about an axis, whereby the substrate or substrates cross(es) the optical path between the light source and the light-receiving unit for transmission measurement, and the shutter shades a measurement area across the coating source. | 11-20-2008 |
20090214760 | Optical Monitoring System for Coating Processes - The invention concerns an optical monitoring system for the measurement of layer thicknesses of thin coatings applied in a vacuum, particularly on moving substrates, during the coating process, in which the light intensity of the light of a light source injected into a reference light guide and released by a first piezoelectric or electrostrictive or magnetostrictive light chopper is registered by a light detector unit in a reference phase, the light of the light source in a measuring phase is injected into a first measuring light guide and the light released by a second piezoelectric or electrostrictive or magnetostrictive light chopper is directed to the substrate, and the light intensity of the light reflected or transmitted from the substrate is registered by the light detector unit through a second measuring light guide, and a remaining light intensity is registered by the light detector unit in at least one dark phase, wherein the reference phase, the measuring phase, and the dark phase are shifted in time by the light chopper and are digitally adjusted depending on the position of the substrate. | 08-27-2009 |
20140375986 | Test Glass Changing - A test glass changer for optically measuring layer properties in a vacuum coating system including a movable substrate holder for guiding a substrate through a stream of coating material; a mount connected to a rotary spindle and rotatable relative to the substrate holder about the rotary spindle; and a control device directing a test glass element into a ray path of an optical measuring device and into a stream of the coating material. The mount has at least two recesses offset eccentrically with respect to the spindle for one test glass element in each case. The control device can induce a rotational movement of the mount about the spindle. The centering device can exert a torque and holding moment on the mount to bring a test glass element arranged in one of the recesses into a measuring position of the measuring device. Related methods are also provided. | 12-25-2014 |
Patent application number | Description | Published |
20140139476 | OPERATOR CONTROL DEVICE - An operator control device has an operator control element with haptic feedback. The operator element includes one or more sensors and can be activated by an operator by an inputting element. The operating control device includes first and second ferromagnetic two-dimensional components. The components are arranged in parallel and configured to move relative to each other. The first ferromagnetic two-dimensional component is configured to form the operator control element. The first ferromagnetic two-dimensional component includes at least one flat coil that is arranged on a printed circuit board and is arranged between the ferromagnetic components. The first and second ferromagnetic two-dimensional components are configured to move with respect to each other when said at least one flat coil is energized, and the printed circuit board bearing the flat coil is permanently arranged on a face of said second ferromagnetic two-dimensional component. | 05-22-2014 |
20140176478 | OPERATING DEVICE - An operator control apparatus has an operator control element with haptic feedback. The operator control element has an input area and can be operated by an operator using an input member. The operator control apparatus includes a first and second ferromagnetic areal components and a first and second flat coils that are arranged between the first and second components. The first and second components have their largest areas oriented toward each other and are configured to move relative to each other. The input area is either configured as a part of the first or second component or coupled to the first or second component using a coupling apparatus. The first coil is associated with the first component and the second coil is associated with the second component such that a flow of current through the first and second coils causes the first and second components to move | 06-26-2014 |
20140197938 | OPERATOR CONTROL DEVICE - An operator control device has an operating element with haptic feedback. The operating element has a touch-sensitive operator control area and is operated through an input element. The device includes a first and a stationary second flat component that are composed of a ferromagnetic material and arranged to face each other in parallel by way of their large areas. The operator control device also includes a coil or an electrical conductor that is arranged between the first and second flat components and associated with a first pole shoe that is connected to the second flat component and projects in relation to the first flat component. A magnetic field can be generated by applying current to the coil or to the conductor, and the first flat component is driven by the magnetic field such that the first flat component can be displaced horizontally with respect to the stationary second flat component. | 07-17-2014 |
20140207268 | Operating Arrangement - An operator control device includes an operator control element configured to provide haptic feedback to an operator. The operator control element is activatable by an input member of the operator and has: a first planar component; and a second planar component oriented in parallel with the first planar component, the first and second planar components being movable relative to one another. The first and second planar components are guidable between a position of rest and an activation position while maintaining their parallel orientation with respect to one another. In the activation position the distance between the first and second planar components is smaller than in the position of rest. The first and second planar components are spring loaded in the position of rest. | 07-24-2014 |
20140210283 | Operator control device - An operator control device includes: an activation element configured to provide haptic feedback to an operator, the activation element having a touch-sensitive operator control surface, and the activation element being configured to be activatable by an input member of the operator, triggering an activation signal; a pivoting axis to which the activation element is mounted so as to be pivotable about the axis between a position of rest and a switching position; a rotationally mounted magnetically influenceable element; and an electromagnetic actuator configured to be actuatable by the activation signal so as to generate a magnetic field that moves the rotationally mounted magnetically influenceable element from an initial position into a pivoting position. The movement of the magnetically influenceable element results in a torque sufficient to move the activation element out of the position of rest into the switching position being applied directly or indirectly to the activation element. | 07-31-2014 |
Patent application number | Description | Published |
20080277010 | Flow Regulator - A flow regulator ( | 11-13-2008 |
20080277011 | Flow Regulator - A flow regulator ( | 11-13-2008 |
20100025499 | SANITARY INSTALLATION ELEMENT - The invention relates to a sanitary installation element ( | 02-04-2010 |
20100147397 | Flow-Volume Regulator - A flow-volume regulator has an elastic throttle body which delimits, between itself and a housing wall, a control gap that changes under the pressure of a fluid flow, and at least one associated bypass and/or cleaning channel that has at least one channel inlet arranged upstream of the control gap and at least one channel outlet arranged downstream of the control gap. The bypass and/or cleaning channel contains a valve which can move against a restoring force under the pressure of the oncoming fluid, from an open position into a closed position, and seals the bypass and/or cleaning channel in its closed position. The flow-volume regulator allows an additional volume of the fluid through the bypass channel when the oncoming fluid is at low pressure, so that its flow curve is significantly increased in the low pressure range. | 06-17-2010 |
20110017322 | Flow-Volume Regulator - A fluid flow regulator includes a regulating profile which is either centrally or peripherally disposed within the flow rate regulator, and an annular restrictor which is made of an elastic material. In a functional position of the flow rate regulator, the restrictor delimits a control gap between itself and the regulating profile. In a starting position of the flow rate regulator, the flow rate regulator has an unrestricted flow cross section that is larger than the control gap. The unrestricted flow cross section of the flow rate regulator is variable by a deformation of the restrictor in response to a pressure differential that is generated when a fluid flows through the flow rate regulator. The relative position of the restrictor and the regulatory profile is variable, and moveable against a reset force, into the functional position from the starting position, in response to a flow of fluid within the flow rate regulator. The reset force may be provided in the form of a spring. | 01-27-2011 |
20130175366 | Sanitary Installation Element - A sanitary installation element that is arranged in a water line includes a mixing device with at least one throttling or closing element, which throttling or closing element can be moved under the pressure of the inflowing water from a mixing or open position into a throttling or closed position against a restoring force, wherein the mixing device offers a relatively large clear flow cross section when the at least one throttling or closing element in the mixing or open position, and, by contrast thereto, a reduced clear flow cross section when the at least one throttling or closing element is in the throttling or closed position. The installation element always offers an optimum flow cross section both in low and high pressure ranges. | 07-11-2013 |
20140217203 | SANITARY INSTALLATION ELEMENT - A sanitary insert, which is arranged in a water line, is provided. The sanitary insert includes a mixing device with at least one throttling or closing element, which can be moved under the pressure of the inflowing water from a mixing or open position into a throttling or closed position against a restoring force. The mixing device offers a relatively large clear flow cross section when the at least one throttling or closing element in the mixing or open position, and, by contrast thereto, a reduced clear flow cross section when the at least one throttling or closing element is in the throttling or closed position. The installation element always offers an optimum flow cross section both in low and high pressure ranges. | 08-07-2014 |