Patent application number | Description | Published |
20110040403 | SYSTEM FOR HANDLING AND/OR TREATING PACKAGING MEANS AND METHOD FOR THE FORMAT-COMPATIBLE ADJUSTMENT OF SUCH A SYSTEM, A METHOD FOR ADJUSTING THE FORMAT OR CHANGING-OVER THE FORMAT OF A SYSTEM CONFIGURED TO TREAT, HANDLE, AND PROCESS CONTAINERS OR GROUPS OF CONTAINERS, AND AN ARRANGEMENT THEREFOR - A system for handling and/or treating packaging means and method for the format-compatible adjustment of such a system, a method for adjusting the format or changing-over the format of a system configured to treat, handle, and process containers or groups of containers, and an arrangement therefor. The abstract of the disclosure is submitted herewith as required by 37 C.F.R. §1.72(b). As stated in 37 C.F.R. §1.72(b): A brief abstract of the technical disclosure in the specification must commence on a separate sheet, preferably following the claims, under the heading “Abstract of the Disclosure.” The purpose of the abstract is to enable the Patent and Trademark Office and the public generally to determine quickly from a cursory inspection the nature and gist of the technical disclosure. The abstract shall not be used for interpreting the scope of the claims. Therefore, any statements made relating to the abstract are not intended to limit the claims in any manner and should not be interpreted as limiting the claims in any manner. | 02-17-2011 |
20140290178 | DEVICE AND METHOD FOR FOLDING OUTER PACKAGING - An apparatus for at least partially folding outer packaging includes a conveyor that transports the outer packaging, a first folder, a second folder, and a set of one or more rotating folders that are part of the second folder. The first folders swivel on the conveyor and fold a front side segment of the outer package that adjoins its base segment and connecting segments that are hinged relative to the base segment. The second folders are above the conveyor device and are configured to fold connecting segments that are hinged relative to the base segment of the outer package. The second folders act on the front side segment of the outer package in a direction oriented against an effective direction of the first folding device around a fold line running in the particular connecting segments. | 10-02-2014 |
Patent application number | Description | Published |
20090294651 | EVALUATION OF FREQUENCY MASS SPECTRA - The invention relates to the evaluation of mass spectra from mass spectrometers in which ions are excited to mass-specific oscillating or orbiting motions, and the ion motion is recorded as a time signal. The invention provides methods to detect parameter drift that occurs during the recording of a time signal in such a “frequency mass spectrometer” by analyzing the instantaneous frequency or the phase spectrum of a frequency component, and provides a method to correct for influence of the frequency drift on the mass spectrum correspondingly. In one embodiment a Fourier transformation converts a measured time signal into a frequency spectrum and examines the phase spectrum of a frequency component to establish whether this phase spectrum deviates from the phase spectrum of a harmonic time signal. The phase spectrum of a harmonic time signal is either linear or constant. In another embodiment the time domain signal is processed using a Short Time Fourier Transformation function to determine an instantaneous frequency, which can be used to correct the parameter drift, yielding a corrected time signal. From the corrected time signal a mass spectrum with better mass resolution can be derived, as can be seen from corrected mass signal profile compared with uncorrected mass signal profile. | 12-03-2009 |
20090294656 | FRAGMENTATION OF IONS IN KINGDON ION TRAPS - Fragment ion spectra are acquired in Kingdon ion traps that have a potential well for harmonic oscillations of the ions in the longitudinal direction and in which the ions can oscillate radially in a plane between two or more inner electrodes. Metastable ions, preferably produced by laser desorption, are introduced into the Kingdon ion trap close to the minimum of the longitudinal potential well and stored there locally for a predetermined time period. Excess internal energy in the metastable ions causes most of the ions to decompose ergodically to fragment ions. Then the fragment ions and any remaining analyte ions are excited to execute harmonic oscillations in the longitudinal potential well. The harmonic oscillations are measured as image currents, from which a high-resolution mass spectrum of the fragment ions can be calculated. | 12-03-2009 |
20100301204 | INTRODUCTION OF IONS INTO KINGDON ION TRAPS - In a Kingdon ion trap in which harmonic ion oscillation in a potential well in a longitudinal direction is completely decoupled from ion oscillation in a direction transverse to the longitudinal direction, ions enter the trap via an entrance tube extending through, but electrically insulated from, one of the Kingdon trap housing electrodes and located outside the minimum of the potential well in the longitudinal direction. The geometry of the Kingdon trap is arranged so that the oscillating ions introduced through the entrance tube cannot return to the entrance tube until they have performed several longitudinal oscillations during which time heavy ions can be introduced into the trap. | 12-02-2010 |
20110036974 | GUIDING SPRAY DROPLETS INTO AN INLET CAPILLARY OF A MASS SPECTROMETER - Charged droplets are guided along a defined path from a droplet source to a droplet sink. A focusing pseudopotential distribution generated by audio frequencies on electrodes of a guiding device guide the charged droplets from the droplet source to the droplet sink with low loss. The droplets can be driven along the droplet guide by a gas flow, an axial electric field or a combination of both. For example, charged droplets from a spray capillary of an electrospray ion source at atmospheric pressure may be introduced into the inlet capillary leading to the vacuum system of ion analyzers, a procedure similar to that used up to now in nanoelectrospraying, but with substantially higher flow rates. In the guiding device, the droplets can be manipulated in different ways, for example evaporated down to a desired size. The introduction of small droplets into gas-aspirating capillaries is of interest because it is possible to keep the droplets on axis by Bernoulli focusing and to guide them in large quantities and with low loss through the capillary. The ability to guide the droplets makes it also possible to install a segmented inlet capillary with intermediate pumping, which allows pumping capacity to be saved. Advantageously, the sensitivity of ion analyzers such as mass spectrometers or ion mobility spectrometers by at least one order of magnitude. | 02-17-2011 |
20110042562 | MASS SPECTROMETER WITH AN ELECTROSTATIC ION TRAP - In a mass spectrometer with an electrostatic ion trap, the electrostatic ion trap has an outer electrode with an ion-repelling electric potential applied to it and a plurality of inner electrodes with ion-attracting potentials applied to each inner electrode. The outer electrode and the inner electrodes are shaped and arranged in such a way that a harmonic electric potential is formed in one spatial direction and, perpendicular to this spatial direction, an electric potential is formed in which ions move in stable, radial trajectories. | 02-24-2011 |
20130037711 | INTRODUCTION OF IONS INTO ELECTROSTATIC ION TRAPS - Ions are introduced into a Kingdon ion trap in which the ions can oscillate harmonically in a potential well in the longitudinal direction, essentially decoupled from their transverse motion by a Kingdon ion guide, which can consist of a drill-hole through the wall of the ion trap housing electrodes and a central wire. An injection potential is first applied to the wire, but once the heaviest ions of interest have been injected into the trap, the potential of the wire is switched to the potential of the housing electrodes, to trap the ions in the trap. The ions introduced into the Kingdon ion trap may come from a small ion cloud, located in a Paul trap. | 02-14-2013 |
20130112863 | GENERATION OF HARMONICS IN OSCILLATION MASS SPECTROMETERS - The invention relates to measuring cells and measuring methods in oscillation mass spectrometers in which clouds of the same species of ion oscillate harmonically in a potential well in a longitudinal direction, decoupled from their motion transverse to this direction. A frequency analysis of the longitudinal oscillations of these ion clouds, which is carried out by a Fourier analysis of the induced image currents between two detection electrodes, leads to frequency spectra of the ions and hence to mass spectra. The position of the ion trajectories relative to the detection electrodes and the design of the measuring cells in the oscillation mass spectrometers is used to generate large proportions of harmonics in the image currents, and evaluate the frequency signals of the harmonics. The frequency signals of these harmonics have a higher resolution in the frequency spectrum (and hence in the mass spectrum), and allow resolution of the signals from ionic species of very similar mass which are not resolved in the fundamental oscillation. The accuracy of the mass determination increases proportionally | 05-09-2013 |
20130146761 | INTRODUCTION OF IONS INTO KINGDON ION TRAPS - The geometry of a Kingdon ion trap, in which harmonic ion oscillation in a potential well in a longitudinal direction is completely decoupled from ion oscillation in a direction transverse to the longitudinal direction, is arranged so that the oscillating ions introduced through the entrance tube cannot return to the entrance tube until they have performed several longitudinal oscillations during which time heavier ions can be introduced into the trap. In one embodiment, ions enter the trap via an entrance tube extending through, but electrically insulated from, one of the Kingdon trap housing electrodes and located outside the minimum of the potential well in the longitudinal direction. | 06-13-2013 |
20140117220 | VOLTAGE SUPPLIES FOR MASS SPECTROMETERS - The invention relates to the voltage supply of mass spectrometers, particularly electrostatic Kingdon ion analyzers, requiring extremely noise-free operating voltages. The invention proposes the use of passive charge storage devices, which operate without any feedback control and display no measureable noise or ripple if they are well shielded, instead of the usual actively operating high-voltage generators. Chemical charge storage devices or capacitors with good insulation can be used for this purpose. These may display slight voltage decreases due to continuous discharge, depending on their quality, but these decreases can be mathematically compensated. | 05-01-2014 |
Patent application number | Description | Published |
20110036974 | GUIDING SPRAY DROPLETS INTO AN INLET CAPILLARY OF A MASS SPECTROMETER - Charged droplets are guided along a defined path from a droplet source to a droplet sink. A focusing pseudopotential distribution generated by audio frequencies on electrodes of a guiding device guide the charged droplets from the droplet source to the droplet sink with low loss. The droplets can be driven along the droplet guide by a gas flow, an axial electric field or a combination of both. For example, charged droplets from a spray capillary of an electrospray ion source at atmospheric pressure may be introduced into the inlet capillary leading to the vacuum system of ion analyzers, a procedure similar to that used up to now in nanoelectrospraying, but with substantially higher flow rates. In the guiding device, the droplets can be manipulated in different ways, for example evaporated down to a desired size. The introduction of small droplets into gas-aspirating capillaries is of interest because it is possible to keep the droplets on axis by Bernoulli focusing and to guide them in large quantities and with low loss through the capillary. The ability to guide the droplets makes it also possible to install a segmented inlet capillary with intermediate pumping, which allows pumping capacity to be saved. Advantageously, the sensitivity of ion analyzers such as mass spectrometers or ion mobility spectrometers by at least one order of magnitude. | 02-17-2011 |
20120181423 | KINGDON ION TRAPS WITH HIGHER-ORDER CASSINI POTENTIALS - An electrostatic Kingdon ion trap in which ions can oscillate harmonically in the longitudinal direction, decoupled from their motions in the transverse direction is formed from at least three inner electrodes located inside a hollow outer housing electrode. The inner surface of the housing electrode and the outer surfaces of the inner electrodes are formed so that when a potential is applied between the housing and the inner electrodes, the potential distribution inside the housing contains not only a term for a harmonic potential well in the axial direction, but also a term for the potential distribution in the radial direction, that contains, independent of the axial coordinate, the equations for a family of Cassini curves of at least the third order. | 07-19-2012 |
20130037711 | INTRODUCTION OF IONS INTO ELECTROSTATIC ION TRAPS - Ions are introduced into a Kingdon ion trap in which the ions can oscillate harmonically in a potential well in the longitudinal direction, essentially decoupled from their transverse motion by a Kingdon ion guide, which can consist of a drill-hole through the wall of the ion trap housing electrodes and a central wire. An injection potential is first applied to the wire, but once the heaviest ions of interest have been injected into the trap, the potential of the wire is switched to the potential of the housing electrodes, to trap the ions in the trap. The ions introduced into the Kingdon ion trap may come from a small ion cloud, located in a Paul trap. | 02-14-2013 |
Patent application number | Description | Published |
20090107946 | Crane, In Particular Mobile Crane With a Narrow Track and Enlarged Supporting Base - A mobile crane includes an undercarriage with a middle section and two parallel crawler carriages; a superstructure on which a boom is mounted, the superstructure being connected to the undercarriage by a rotary joint; two longitudinal outriggers connected to the undercarriage and extending in the longitudinal direction between the crawler carriages; and two transverse outriggers connected to the undercarriage and extending outside the crawler carriages. One of the longitudinal outriggers has an end with a transverse beam supported by spaced apart outrigger cylinders which provide an extended tipping edge to further stabilize the crane. | 04-30-2009 |
20090272708 | Modular Counterweight Carriage for Cranes, in Particular for Large Crane - A large mobile crane includes a revolving superstructure, a main boom hinged to the superstructure, and a derrick boom hinged to the superstructure. A modular counterweight system includes a traveling counterweight and a non-traveling counterweight connected to a crossbeam suspended from the distal end of the derrick boom so that the non-traveling counterweight is activated before the traveling counterweight. | 11-05-2009 |
20090289495 | Large Mobile Crane - The object of the invention is to reduce the amount of investment required for the usage-optimized configuration and installation of large cranes. This object is achieved by a large mobile crane having an undercarriage, a drive unit ( | 11-26-2009 |
20100320166 | CRANE, IN PARTICULAR MOBILE CRANE WITH A NARROW TRACK AND ENLARGED SUPPORTING BASE - A mobile crane includes an undercarriage with a middle section and two parallel crawler carriages; a superstructure on which a boom is mounted, the superstructure being connected to the undercarriage by a rotary joint; two longitudinal outriggers connected to the undercarriage and extending in the longitudinal direction between the crawler carriages; and two transverse outriggers connected to the undercarriage and extending outside the crawler carriages. One of the longitudinal outriggers has an end with a transverse beam supported by spaced apart outrigger cylinders which provide an extended tipping edge to further stabilize the crane. | 12-23-2010 |
20140209553 | LARGE MOBILE CRANE - A large mobile crane including an undercarriage. The undercarriage includes a middle section between tracks, wherein a distance between the tracks can be increased or decreased by the insertion or removal of expansion parts. The two tracks are connected on opposite sides of the undercarriage to permit movement of the large mobile crane. The undercarriage also includes a drive unit, a superstructure, one or more control stations, at least two main booms, at least one derrick boom, and at least two lifting devices and counterweights. The counterweights are either arranged separately of or mounted on the undercarriage. The large mobile crane further includes a circular track, and support rollers attached to the superstructure, wherein the support rollers ride on the circular track, and wherein the circular track is an integral part of the expansion parts. | 07-31-2014 |
Patent application number | Description | Published |
20110029574 | METHOD AND DEVICE FOR RECOGNIZING STRUCTURES IN METADATA FOR PARALLEL AUTOMATED EVALUATION OF PUBLICLY AVAILABLE DATA SETS AND REPORTING OF CONTROL INSTANCES - In a method for simultaneous observation and analysis of a plurality of data sets, in particular from webcams or sensors published over the Internet, atypical situations can be detected from a plurality of data sets of mostly low quality by producing metadata that are investigated for critical structures. Moreover, atypical situations can be recognized by comparing actual object mass properties of a data set with the target object mass properties of a data set. In this way, for example, human crowds or masses in pedestrian zones, football stadiums or subway stations can be effectively monitored and the large number of freely available internet cameras can be utilized. | 02-03-2011 |
20110063439 | METHOD FOR IDENTIFYING ANOMALIES IN OBJECT STREAMS USING THE PHENOMENON OF GROUP SPEED - In a method and an apparatus for identifying, measuring and assessing anomalies in the behaviour of streams of people or objects, anomalies are identified, measured and assessed reliably and in all of their possible forms. At least one group in a stream of people or objects is statically identified at a particular time, the group is observed in a time profile, the group speed is measured and the streams of people or objects are assessed using the group speed. Various methods for detecting the group speed and various cases for assessing the group speed are shown. The method and apparatus is suitable for observing object streams in order to prevent accidents, for example. | 03-17-2011 |
20110191078 | Calibration of Stream Models and Stream Simulation Tools - Every year people die at mass events when the crowd gets out of control. Urbanization and the increasing popularity of mass events, from soccer games to religious celebrations, enforce this trend. Thus, there is a strong need to gain better control over crowd behavior. Simulation of pedestrian streams can help to achieve this goal. In order to be useful, crowd simulations must correctly reproduce real crowd behavior. This usually depends on the actual situation and a number of socio-cultural parameters. In other words, what ever model we come up with, it must be calibrated. Fundamental diagrams capture a large number of the socio-cultural characteristics in a very simple concept. Accordingly, a method to calibrate a pedestrian stream simulation tool is described to reproduce arbitrary fundamental diagrams (e.g. Waldmann diagram) with high accuracy. That is, it correctly reproduces a phenomenon (e.g. a given dependency of pedestrian speed on the crowd density). | 08-04-2011 |
20110246152 | Apparatus and Method for Improving the Simulation of Object Streams in the Case of Opposed Object Streams and, in Particular, to Drive Control Centers - A method and apparatus for the simulation of object streams moving in an area based on cellular state machines can be improved such that the simulation maps the object streams as realistically as possible. It is also being proposed that the norm of a difference vector having direction of movement of an object and the direction of movement of a neighboring object is also incorporated as a weighting factor in a calculation of the object potential. Thus, conventional methods for the simulation of object streams are improved. The method and apparatus is particularly suitable for streams of people. | 10-06-2011 |
20110251723 | Method for Improving the Simulation of Object Flows using Brake Classes - A method for simulating object flows which move in an area, the method being based on cellular automata is improved in such a way that the simulation depicts the object flows as realistically as possible. It is further proposed that based on a desired speed of an object, the speed is lowered as the object density increases using a brake class table having a plurality of brake classes in such a way that a relationship between the object density and the object speed results according to a fundamental diagram. Thus, conventional methods for simulation of object flows are improved. The method is suitable in particular for flows of persons. | 10-13-2011 |