Patent application number | Description | Published |
20100136563 | SYSTEM AND METHOD FOR NUCLEIC ACIDS CONTAINING FLUID PROCESSING - A system and method for the processing of nucleic acids containing fluids involving manipulation of magnetically responsive particles contained therein are disclosed. In the system, a holder holds a plurality of containers containing the fluids, a heating device applies thermal energy to the fluids for incubation, and a separating device magnetically separates the particles. The heating and separating devices move into at least one operative position for processing the fluids and at least one inoperative position with respect to the containers, in which the containers are kept stationary at least during and in-between incubating the fluids and manipulating the magnetically responsive particles. | 06-03-2010 |
20110203997 | MAGNETIC SEPARATION SYSTEM COMPRISING FLEXIBLE MAGNETIC PINS - A magnetic separation plate for use in methods employing magnetic particles, said magnetic separation plate comprising a support plate and magnetic pins in a predetermined geometrical arrangement, said magnetic pins having a fastening portion, an intermediate portion and a separation portion and being fastened to said support plate at their fastening portion, wherein said magnetic pins are individually displaceable at their separation portion. The invention further provides a method for the separation of magnetic particles using the separation plate. | 08-25-2011 |
20150079586 | System and Method for Nucleic Acids Containing Fluid Processing - A system and method for the processing of nucleic acids containing fluids involving manipulation of magnetically responsive particles contained therein are disclosed. In the system, a holder holds a plurality of containers containing the fluids, a heating device applies thermal energy to the fluids for incubation, and a separating device magnetically separates the particles. The heating and separating devices move into at least one operative position for processing the fluids and at least one inoperative position with respect to the containers, in which the containers are kept stationary at least during and in-between incubating the fluids and manipulating the magnetically responsive particles. | 03-19-2015 |
Patent application number | Description | Published |
20090065991 | Self-Pumping Hydropneumatic Spring Strut - A self-pumping hydropneumatic spring strut with internal leveling control, particularly for motor vehicles, has an outer tube having an oil-filled high-pressure work space in the work cylinder, which high-pressure work space is under pressure by at least one gas cushion which is arranged in a high-pressure chamber and acts as a spring, a second work space on the piston rod side, and a piston which is supported by a hollow piston rod and which is axially displaceable in the work cylinder in a sealed manner, a piston pump which is driven by the spring movement of the vehicle and pumps oil out of a low-pressure chamber into the work space connected to the high-pressure chamber and which comprises a pump rod and a pump cylinder which is formed by the hollow piston rod, and the high-pressure chamber can be connected to the atmosphere by a flow connection which is arranged in the piston rod guide and has a closing element. The piston rod is sealed in the piston rod guide by means of at least two seals which are arranged one behind the other axially. A flow connection extends from between two adjacent seals into the low-pressure chamber. The flow connection is acted upon by a check valve which passes damping medium only in direction of the low-pressure chamber. | 03-12-2009 |
20090066041 | Self-pumping hydropneumatic spring strut - A self-pumping hydropneumatic spring strut is provided to have internal level control. The spring strut has an outer tube having one end sealed by a piston rod guide, a working cylinder received inside the outer tube, and a hollow piston rod extending into the working cylinder through the piston rod guide. The piston rod carries a piston, which is operable to travel axially inside the working cylinder in a sealing manner and separates the working cylinder into first and second working spaces. The first working space is under a high-pressure from a high-pressure chamber and acting as a spring and the second working space is located on a piston rod-side. The spring strut also has a pump rod received inside the hollow piston rod. The pump rod and the hollow piston rod form a piston pump, which, in response to sprung movements acted thereonto, conveys a damping media from a low-pressure chamber into the first working space connected to the high-pressure chamber. The high-pressure chamber and the low-pressure chamber are each connected to the atmosphere by a filling connection formed in the piston rod guide and a check valve operable to selectively communicate the high-pressure or the low-pressure chamber to the atmosphere. | 03-12-2009 |
20100116351 | Process For Producing A Pressure Vessel - Process for producing a pressure vessel having an enveloping body which occupies an arch shape in its predetermined installation position. The enveloping body has pillow-shaped portions which are connected to one another by stamped transitions at the inner diameter area of the enveloping body. The enveloping body for the intended installation position is placed with its inner diameter area one-sidedly on a die having a raised wedge-shaped profile. A designated outer diameter area of the enveloping body contacts a supporting surface, and the enveloping body is filled with a pressure medium so that the enveloping body is tensioned on the die and, in so doing, is plastically deformed in the area of the wedge-shaped profile. | 05-13-2010 |
20120312005 | Self-Pumping Hydropneumatic Piston-Cylinder Unit With Adjustable Level Position - Self-pumping hydropneumatic piston-cylinder unit comprising a working cylinder in which a piston rod with a piston is guided so as to be axially movable, wherein the working cylinder carries a hollow pump rod aligned in the longitudinal axis of the piston-cylinder unit, wherein a radial control bore in the pump rod cooperates with a pump sleeve on the piston rod side, wherein the pump rod and the pump sleeve are connected to a fluid reservoir and form a pumping device by which a determined level position is automatically adjusted, wherein the pump sleeve is controllable by an actuator to adjust the determined level position, characterized in that the axial position of the pump sleeve relative to the control bore is adjustable by means of the actuator. | 12-13-2012 |
Patent application number | Description | Published |
20090246255 | Pharmaceutical Compositions for the Treatment of Inner Ear Disorders - The present invention provides compositions containing (i) a pharmaceutically active agent selected from a group consisting of an arylcycloalkyamine or a derivative, analogue or pharmaceutically active salt thereof, and (ii) a biocompatible polymer or a combination of biocompatible polymers. These compositions or medicaments containing these compositions may be used for the prevention and/or treatment of inner ear diseases, e.g. tinnitus. | 10-01-2009 |
20090281036 | FUSION PEPTIDE FOR INHIBITING INTERACTION OF NEURONAL NMDA RECEPTOR (NMDAR) AND NMDAR INTERACTING PROTEINS - The present invention provides a fusion peptide comprising at least a component (I), wherein component (I) comprises a transporter peptide, and a component (II), selected from a peptide inhibiting interaction of neuronal N-methyl-D-aspartate receptor (NMDAR) with NMDAR interacting proteins, wherein component (II) entirely consists of D-enantiomeric amino acids. The present invention furthermore provides an inventive pharmaceutical composition, comprising the inventive fusion peptide and methods for administering the same as well as kits and uses employing the inventive fusion peptide. | 11-12-2009 |
20140364836 | PHARMACEUTICAL COMPOSITIONS FOR THE TREATMENT OF INNER EAR DISORDERS - The present invention provides compositions containing (i) a pharmaceutically active agent selected from a group consisting of an arylcycloalkyamine of a derivative, analogue or pharmaceutically active salt thereof, and (ii) a biocompatible polymer or a combination of biocompatible polymers. The compositions or medicaments containing these compositions may be used for the prevention and/or treatment of inner ear diseases, e.g. tinnitus. | 12-11-2014 |
20150196569 | PHARMACEUTICAL COMPOSITIONS FOR THE TREATMENT OF INNER EAR DISORDERS - The present invention provides compositions containing (i) a pharmaceutically active agent selected from a group consisting of an arylcycloalkyamine or a derivative, analogue or pharmaceutically active salt thereof, and (ii) a biocompatible polymer or a combination of biocompatible polymers. These compositions or medicaments containing these compositions may be used for the prevention and/or treatment of inner ear diseases, e.g. tinnitus. | 07-16-2015 |
Patent application number | Description | Published |
20090168837 | METHOD FOR THE TEMPERATURE MEASUREMENT OF SUBSTRATES, AND VACUUM PROCESSING APPARATUS - A method for measuring the temperature of substrates to be coated is disclosed. The substrates have an opening or a cavity, and the substrates are successively moved past a source of coating material. At least one substrate's temperature is measured during coating by at least one temperature sensor and the measured temperature value is transmitted to a measuring device. The temperature sensor is disposed inside the substrate's opening or cavity so as to prevent coating of the temperature sensor. | 07-02-2009 |
20120118541 | DEVICE FOR CONTROLLING THE TEMPERATURE OF SUBSTRATES - A device for controlling the temperature of substrates in a substrate-treatment system, in which a substrate can be guided in the longitudinal extension of the substrate-treatment system in a substrate transport plane within a vacuum chamber past a treatment device, solves the problem of dynamically shaping a dynamic change of the thermal insulation to control the heat transfer in the substrate and thereby, reduce, in particular, thermal inertias by providing a heat-absorbing cooler side of the substrate transport plane. The heat-absorbing cooler can be shielded, at least partially from the substrate transport plane, using an insulation member. | 05-17-2012 |
20120281975 | SURFACE HEATING DEVICE FOR A SUBSTRATE TREATMENT DEVICE AND SUBSTRATE TREATMENT DEVICE - A surface heating device for a substrate treatment device with increased power density and improved homogeneity of heat radiation includes a jacket tube heater with straight tube sections and bent tube sections in which straight tube sections are arranged parallel to each other in a main plane and straight tube sections are connected to each other by bent tube sections, so that at least part of the bent tube sections are aligned sloped relative to the main plane. | 11-08-2012 |
20120292289 | TRANSPORT ROLLER FOR THE VACUUM TREATMENT OF SUBSTRATES - A transport cylinder for the vacuum treatment of substrates includes a roll body and at least one spacer element arranged on the roll body and enveloping the roll body. The spacer element is made of a knitted tube containing metallic or/and metallic threads. | 11-22-2012 |
20140076362 | CONTINUOUS SUBSTRATE TREATMENT PLANT AND CLEANING METHOD - A substrate treatment plant includes a process chamber delimited by chamber walls and in the process chamber a substrate conveying unit for the horizontal conveyance of slab-shaped substrates in one conveying plane and in one conveying direction. The substrate conveying unit includes an arrangement of rotatably mounted, cylindrical conveying rollers transversely arranged to the conveying direction, the topmost generatrices of the conveying rollers defining the conveying plane, and at least one substrate treatment unit, which is located above the conveying plane, and at least one gas inlet. In the region of the substrate treatment unit at least one additional heating unit is located below the conveying plane and a condensation unit is located under the substrate conveying unit. | 03-20-2014 |
20150044621 | SUBSTRATE TREATMENT PROCESS - In a substrate treatment process, substrates are moved by a transporting device in a transporting direction through a substrate treatment installation having a number of chambers. The substrates are moved by transporting sections of the transporting device driven independently of one another. The transporting sections are driven such that, if substrates dwell temporarily in the transporting section, they are moved back and forth. Stresses in a substrate brought about by differing inputs of heat as a result of both process-induced and malfunction-induced dwell times of the substrate in a chamber are reduced by compensating within the chamber for a structurally brought about input of heat into the substrate, varying periodically over the length of the chamber, during temporary dwelling of the substrate in the chamber by moving the substrate back and forth over at least one period of the heat input by a change of the transporting direction. | 02-12-2015 |
Patent application number | Description | Published |
20110194222 | OVERVOLTAGE PROTECTION ELEMENT - An overvoltage protection element with a housing, with at least one overvoltage limiting component which is located in the housing, with terminal elements for electrical connection of the overvoltage protection element to the current or signal path which is to be protected, and with a state display which has a display element for display of the state of the overvoltage protection element. A conclusion about the state of the overvoltage protection element is easily possible as a result of a thermally activatable, endothermic material being both in thermal contact with the overvoltage limiting component and also in mechanical contact with the display element of the state display. When the overvoltage limiting component is heated above a certain minimum temperature, expansion of the thermally activatable, endothermic material produces a change in position of the display element whose magnitude is a measure of the heating of the overvoltage limiting component. | 08-11-2011 |
20120229246 | OVERVOLTAGE PROTECTION ELEMENT - An overvoltage protection element with a housing, an overvoltage-limiting component arranged in the housing, and with two connection elements for electrically connecting the overvoltage protection element to the current or signal path to be protected, wherein, normally, the connection elements are each in electrically conductive contact with a pole of the overvoltage-limiting component. Reliable and effective electrical connection in the normal state and reliable isolation of a defective overvoltage-limiting component are ensured by the fact that a thermally expandable material is arranged within the housing in a way that, in the event of thermal overloading of the overvoltage-limiting component, the position of the overvoltage-limiting component is changed by expansion of the thermally expandable material relative to the position of the connection elements in a way that causes at least one pole of the overvoltage-limiting component to be out of electrically conductive contact with the corresponding connection element. | 09-13-2012 |
20120243138 | SURGE PROTECTOR - A surge protection device (SPD) includes a spark gap (SG) and in series to the spark gap (SG) a temperature-dependent resistance element (R) with positive temperature coefficient, wherein the spark gap (SG) has a certain holding current, wherein the resistance element (R) is sized such that when a switching temperature is reached, the current is limited such that the holding current of the spark gap is undercut and is switched off, and wherein the resistance element is sized such that in the case of a transient event, the switching temperature is not reached. | 09-27-2012 |
20130033355 | THERMAL OVERLOAD PROTECTION ARRANGEMENT - A thermal overload protection arrangement for protection of an electrical component, which is arranged on a mount device having current-carrying elements, has a plurality of soldered connections, which make electrical contact between in each case on of the current-carrying elements and an associated connection of an electrical part and melt if the component is overloaded, and a disconnection apparatus for disconnection of at least one of these connections. The part is or at least has the component, and the disconnection apparatus is a disconnection apparatus which prestresses the component with respect to the mount device at least when it is heated for the physical separation of the component from at least one of the current-carrying elements, which trips when the soldered connections melt. The invention also relates to a corresponding method for protection of a component. | 02-07-2013 |
20130063845 | OVERVOLTAGE PROTECTION EQUIPMENT - Overvoltage protection equipment may include: a first connection; a second connection; a first discharge path disposed between the first and the second connections, wherein the first discharge path comprises a spark gap; a second discharge path disposed between the first and the second connections, wherein the second discharge path comprises a triggerable circuit breaker and a thermistor connected in series; and a control device that induces the triggerable circuit breaker to switch on, based on at least one of a state or a state path of the first discharge path as a result of a discharge event. | 03-14-2013 |
20130099889 | THERMAL FUSE SYSTEM FOR AN ELECTRICAL DEVICE - The invention concerns a system for thermal safeguarding of an electric device comprising several monitored components and/or monitoring points. According to the invention, the system comprises at least one thermosensitive element and one actuator coordinated with this thermosensitive element, wherein the thermosensitive element is configured as a sleeve or tube, to which the monitored components or monitoring points are thermally coupled, such that it undergoes a change in length or volume above a threshold temperature, and is connected to the actuator such that the actuator triggers an action in dependence on the change in length or volume of the thermosensitive element. | 04-25-2013 |
20130194710 | THERMAL OVERLOAD PROTECTION APPARATUS - The object of the invention is a thermal overload protection device ( | 08-01-2013 |
20130200983 | THERMAL OVERLOAD PROTECTION APPARATUS - A thermal overload protection apparatus for protection of an electrical component is disclosed. In one exemplary implementation, such apparatus may comprise a switching element for short-circuiting or disconnecting electrical connections, an actuator apparatus for switching the switching element to a short-circuit or disconnect position, and a tripping element which trips the actuator apparatus on a thermally sensitive basis. In some implementations, the actuator apparatus may be configured to be switched over for activation from an inactive state, in which the switching element cannot be switched by the actuator apparatus, into a trippable state, in which the switching element is capable of being switched by the actuator apparatus. Innovations herein also relate to corresponding arrangements having a conductor track mount, at least one component arranged thereon, and at least one associated overload protection apparatus. | 08-08-2013 |
20140218201 | OVERVOLTAGE PROTECTION DEVICE WITH A MEASURING DEVICE FOR MONITORING OVERVOLTAGE PROTECTION ELEMENTS - Systems and methods for overvoltage protection are disclosed. According to one illustrative implementation, an overvoltage protection device is provided having one or more overvoltage protection elements and a measuring device for monitoring the overvoltage protection elements. Further, the measuring device may include an evaluation device, which is designed to count pulse-like overvoltage events which are arrested by the overvoltage protection element, wherein the evaluation device is connected to the overvoltage protection element via a light-measuring device and/or a device for identifying a current flow. In further implementations, overvoltage protection devices may comprise an evaluation device which, on the basis of the counted pulses and/or an identified current flow, may determine whether the overvoltage protection element is still operational, is previously damaged, or is unusable, and/or an alarm device, which indicates whether the overvoltage protection element is still operational, is previously damaged, or is unusable. | 08-07-2014 |
20140232511 | THERMAL OVERLOAD PROTECTION APPARATUS - Systems and methods are disclosed relating to a thermal overload protection apparatus and processes for protecting an electrical component. In one illustrative implementation, a thermal overload protection apparatus includes a switching element for short-circuiting connections of the component or for isolating an electrically conductive connection between at least one of the connections and a current-carrying element of the overload protection apparatus, an actuator for switching the switching element into a corresponding short-circuiting position or isolating position, and a tripping element that thermosensitively trips the actuator apparatus. and is formed as a separating element. According to further implementations, various other arrangements and methods for producing devices are disclosed. | 08-21-2014 |
20140253164 | BASE ELEMENT FOR ACCOMMODATING AN OVERVOLTAGE PROTECTION MODULE, AND MODULAR BUS SYSTEM - The invention relates to a base element (ST | 09-11-2014 |
20150180223 | DEVICE FOR PROTECTING A COMPONENT AGAINST THERMAL OVERLOAD - The object of the invention is a device ( | 06-25-2015 |