Patent application number | Description | Published |
20100037870 | INTAKE MANIFOLD CONFIGURATION - An intake manifold configuration is provided for a chargeable internal combustion engine. The intake manifold configuration includes, but is not limited to an intake pipe leading to a turbocharger, an intake manifold leading from the turbocharger to the internal combustion engine, and a first blow-by channel leading from a crankcase of the internal combustion engine to the intake manifold, the first blow-by channel being connected via a valve to the intake manifold, and the intake manifold configuration comprising a second blow-by channel, which runs from the first blow-by channel to the intake pipe. In this way, on the one hand, a more compact construction of the internal combustion engine is made possible and, on the other hand, the susceptibility to frost is minimized and thus sufficient crankcase ventilation is ensured. | 02-18-2010 |
20110094472 | COMPONENT UNIT FOR A FUEL SYSTEM OF AN INTERNAL COMBUSTION ENGINE AND INTERNAL COMBUSTION ENGINE - A component unit is provided for a fuel system of an internal combustion engine, in particular for use in an internal combustion engine having direct injection, having at least one injector, which injects fuel, and/or at least one mounting, on which at least one injector, which injects fuel, is fixable, and having at least one fuel line, using which the injector or the mounting is connectable to a fuel distributor. It is provided that the injector or the mounting is connected to the fuel line using a plug connection. Furthermore, at least one positioning aid is provided, which holds the injector or the mounting in a specified location. | 04-28-2011 |
Patent application number | Description | Published |
20080307750 | System for Filling Pharmaceutical Products into Bottle-Shaped Containers - The invention pertains to a system for filling bottle-like containers with tablets, which comprises various devices for specific processes, wherein most of the devices have a transport mechanism for positively guiding the movement of each container by itself in a continuous manner, whereas at least the device for dosing the pharmaceutical products and for introducing the pharmaceutical products into the containers has a transport mechanism for positively guiding the movement of each container by itself in a clocked manner in certain sections. The transport mechanisms of the devices are connected to each other in series, which ensures the positive guidance of each individual container by itself through the entire system. | 12-18-2008 |
20080307757 | Device for Conveying Tablets - A device for conveying tablets has a lower part, an upper part with at least one guide channel for holding and conveying the tablets, and several elastic elements, arranged a certain distance apart, on each of which at least one piezoelectric vibratory element is mounted, wherein the elastic elements are arranged between the upper part and the lower part and connect the two parts together. In addition, the device has at least one control unit for exciting the piezoelectric vibratory elements and thus the elastic elements and a sorting device installed in the area of the guide channel to separate the good tablets from the bad. | 12-18-2008 |
20100037981 | Method and device for filling containers - A method for filling a plurality of containers in cycles at a predetermined number of stationary filling units arranged in a row with a first spacing from each other. The method includes providing a plurality of positively guided containers in a row, one-by-one, wherein the containers have a uniform second spacing from each other, wherein the first spacing of the individual filling units is a whole-number multiple of the second spacing of the containers, and filling a predetermined number of the containers simultaneously at the filling units. The containers are shifted in cycles along the filling units in a transport direction by a step length, which is a whole-number multiple of the second spacing of the containers and which is shorter than a third spacing between a first filling unit and a last filling unit steps of filling and shifting are repeated over a predetermined number of iterations. | 02-18-2010 |
20120222388 | DEVICE FOR SEALING CONTAINERS - The device for sealing containers comprises a container feeding device for an intermittent feed of containers in a transport direction, a cap feeding device having a plurality of cap gripper units; and a capping device movable in and opposite to a lowering direction. The capping device has a plurality of capping units corresponding to the plurality of cap gripper units in the cap feeding device. Each capping unit has a screwing-on mechanism at one end. Each screwing-on mechanism is adapted to pick up a cap and to seal the container with the cap in a lowered position of the capping device. The capping device and the plurality of cap gripper units of the cap feeding device are configured and arranged such that the plurality of cap gripper units of the cap feeding device are positively guided in the lowering direction. | 09-06-2012 |
20120222939 | DEVICE FOR CHANNELING OUT CONTAINERS - The device for channeling out upright containers from a first transport device, which moves the container in a transport direction, includes a lateral guide section, which extends in the transport direction, and a gripper unit, which has a plurality of grippers for gripping the containers. The lateral guide section and the gripper unit are moved from a pickup position for the containers jointly in a direction transverse to the transport direction. After this joint movement the gripper unit is moved towards a discharge position for the containers. The lateral guide section and the gripper unit are then moved back to the pickup position. | 09-06-2012 |
20130306193 | DEVICE FOR THE QUANTITATIVELY REGULATED DELIVERY OF BULK PRODUCT - The device for the quantitatively regulated delivery of bulk product includes a supply tank for the bulk product and a slider element, which forms the boundary of an outlet gap on one side. The slider element comprises on its front end an elastic, U-shaped loop, the upper part of which is fixed in position, whereas a rear portion of the lower part of the loop is connected to a linear drive. The linear drive can be used both to adjust the width of the outlet gap by translational movement of the lower section of the loop and to produce a small-amplitude back-and-forth movement of the lower section of the loop. In this way, it is possible to release bulk product of various shapes and sizes reliably and without damage in a quantitatively regulated manner. | 11-21-2013 |