Patent application number | Description | Published |
20100102493 | SPRING-MOUNTED VIBRATION SYSTEM TO REDUCE VIBRATION - Spring-mounted vibration system to reduce vibration with a first spring-mounted part and a second spring-mounted part, wherein the first spring-mounted part and the second spring-mounted part can oscillate relative to each in at least one vibration direction and at least one of the spring-mounted parts can be exposed to a return force on a vibration movement. A control unit is arranged with at least one travel linkage which is connected with at least one of the spring-mounted parts and in which is arranged displaceably at least one guide element connected with a spring element generating the return force and/or the other spring-mounted part. | 04-29-2010 |
20100117428 | SCISSORS-TYPE FRAME FOR A VEHICLE SEAT AND METHOD FOR PRODUCING A SUBSTRUCTURE OF A VEHICLE SEAT - To be able to produce a scissors-type frame of a vehicle seat in a quick and easy manner, the present invention is directed to a scissors-type frame for a vehicle seat, in particular for a motor vehicle seat, comprising a first scissors element and a second scissors element, wherein the scissors-type frame is height-adjustable by means of the two scissors elements, and wherein the scissors-type frame is characterized in that one of the two scissors elements passes through the other of the two scissors elements. | 05-13-2010 |
20110001033 | CHANGE OF SPRING FORCE BY MEANS OF LEVERS - The invention concerns a spring system for use in vehicles for adjustment of the suspension characteristics, comprising at least one spring element to provide a spring force, an upper and a lower arrangement area to receive forces, a scissors-type frame arranged between the upper and the lower arrangement area for coupling the spring element with at least one force acting on one of the arrangement areas. According to the invention the spring element is coupled with a deflection means to influence the spring force and between the deflection means and a segment of the scissors-type frame an active connection can be created to transmit forces. | 01-06-2011 |
20110001342 | Vehicle Seat with Vibratory Motion in the Height Direction - What is shown is a vehicle seat having parts for carrying out a vibration movement in the height direction, with the parts comprising the following:
| 01-06-2011 |
20110024958 | Control Device to Reduce Vibration Movement on a Device Vibrating Under Spring Force - A control device is shown to reduce a vibration movement of a device vibrating under spring force with at least two mobile parts vibrating in relation to each other, wherein the parts are connected together by means of mobile connecting arms, at least one of the connecting arms is connected with a first spring element end of at least one spring element and between the parts is arranged at least one damping element. | 02-03-2011 |
20120261966 | PADDING OVERLAP - The invention relates to a vehicle seat ( | 10-18-2012 |
20120261972 | Vehicle seat with a support structure - The invention relates to a vehicle seat with a seat part, with a backrest and with a support structure for supporting the seat part as well as the backrest, in which the support structure is capable of being fastened to a bodywork component and in which forces acting upon the vehicle seat by means of the support structure are capable of being introduced into the bodywork component, and in which the support structure has an asymmetrical framework with main force braces extending substantially vertically. | 10-18-2012 |
20120261976 | Belt Fastening on the Rear Main Tube of the Backrest, Ideally on the Rear Foot Situated at the Bottom - Disclosed is a vehicle seat with seat part, backrest, belt restraining system and support structure supporting the seat part and backrest. Belt restraining system comprises belt reversal means and belt lock. Belt reversal means is positioned in an upper corner region of the backrest and belt lock positioned in seat area of seat part. Support structure has asymmetrical framework with main force braces extending substantially vertically. Main force braces converge in junction region and underside of support structure a first, second and third one of main force braces is arranged on the side towards the junction region as a thrust brace guided forwards as far as a front foot; on a side towards the junction region as a tension brace at the rear guided as far as a first rear foot; tension/thrust brace at the rear guided as far as a further rear foot. | 10-18-2012 |
20130020458 | SPRING-MOUNTED VIBRATION SYSTEM TO REDUCE VIBRATION - Spring-mounted vibration system to reduce vibration with a first spring-mounted part and a second spring-mounted part, wherein the first spring-mounted part and the second spring-mounted part can oscillate relative to each in at least one vibration direction and at least one of the spring-mounted parts can be exposed to a return force on a vibration movement. A control unit is arranged with at least one travel linkage which is connected with at least one of the spring-mounted parts and in which is arranged displaceably at least one guide element connected with a spring element generating the return force and/or the other spring-mounted part. | 01-24-2013 |
Patent application number | Description | Published |
20110053828 | Use of Urea-Adjuvated Polypeptides for Diagnosis, Prophylaxis and Therapy - The invention relates to a method for infiltration of polypeptides in cells. The invention further relates to the use of the cells and urea-adjuvated polypeptides for the diagnosis, treatment or prevention of diseases. The invention further relates to the detection of polypeptide-specific immune cells. | 03-03-2011 |
20120093872 | Method For Polypeptide Transfer Into Cells - The present invention relates to a method for polypeptide transfer into cells. The present invention further relates to the detection of polypeptide-specific immune cells and the priming, expansion and reactivation of polypeptide-specific T cells. Moreover the present invention relates to polypeptides of the methods of the present invention in combination with urea and their use for research, diagnosis or treatment and prevention of diseases in animals and humans. | 04-19-2012 |
20130288229 | METHOD FOR DETECTION, DIFFERENTIATION AND QUANTIFICATION OF T CELL POPULATIONS BY WAY OF REVERSE TRANSCRIPTION QUANTITATIVE REAL TIME PCR (RT-qPCR) TECHNOLOGY - The present invention relates to a method for detection, differentiation and quantification of T cell populations, comprising the following steps a) contacting a first aliquot of a body fluid of an individual with at least one antigen, wherein the body fluid contains antigen presenting cells (APC) and T cells, b) incubating the first aliquot with at least one antigen for a certain period of time, c) detection and differentiation of the T cell population by detecting in the first aliquot and in a second aliquot of the body fluid of the individual, which has not been incubated with the at least one antigen, at least a first marker of the APC induced by T cells in a specific T cell population using reverse transcription quantitative real time-time polymerase chain reaction (RT-qPCR), and d) detection and quantification of the T cell population by determining the ratio of the detected marker of the APC of the first aliquot to the second aliquot as well as a kit for performing the method. | 10-31-2013 |
Patent application number | Description | Published |
20140062536 | OUTPUT MODULE AND METHOD FOR OPERATING THE OUTPUT MODULE - A method for operating an output module having an output circuit by which a voltage resulting in a current is connected to a load connected to an output, wherein a first driver module is operated and activated via a first control input to connect a voltage to the output, a second driver module is operated in parallel with the first driver module and activated via a second control input to also connect a voltage to the output, at a start time a control circuit receives a switching command for switching the voltage to the output, and wherein the control circuit initially starts by reciprocally activating the first and second control inputs respectively for a first time period, and wherein during this reciprocal activation, the first and second driver modules conduct the current for each respective duration of first and second activation periods. | 03-06-2014 |
20140062540 | OUTPUT SUBASSEMBLY AND METHOD OF OPERATING THE OUTPUT SUBASSEMBLY - A method for operating an output subassembly in which a first driver module is operated between a power supply connection on the output subassembly, and an output and is actuated via a first control input to connect the voltage to the output, wherein a second driver module is operated in parallel with the first driver module and is actuated, via a second control input, to connect a voltage to an output, where at an initial time a control circuit receives a command to switch the voltage to the output and the control circuit thereupon initially actuates the second control input for a predefined first length of time, so that the second driver module is operated with current limitation up to a maximum current and, after a predefined second length of time, measured from the initial time, the control circuit actuates the first control input when the command is in effect. | 03-06-2014 |