Patent application number | Description | Published |
20120273020 | DEVICE FOR GENERATING ELECTRIC ENERGY FROM A HEAT-CONDUCTING MATERIAL - A device for generating electric energy includes at least one heated heat-conducting main body, at least one projection and thermoelectric elements laterally attached to the at least one projection. A thermoelectric efficiency of each thermoelectric element and a heat output of the at least one projection are matched to each other. | 11-01-2012 |
20120308455 | DEVICE HAVING AN INJECTOR FOR A LIQUID REDUCING AGENT, CONFIGURATION HAVING THE DEVICE AND METHODS OF USING THE DEVICE AND THE CONFIGURATION - A device includes an injector for a liquid having at least one pressure sensor, preferably an integrated pressure sensor. The device is used, in particular, for adding liquid reducing agent to an exhaust gas line of a motor vehicle. A configuration having the device and methods of using the device and the configuration are also provided. | 12-06-2012 |
20130028804 | DEVICE FOR EVAPORATING A FLUID - A device for evaporating a predeterminable volume of fluid provides for successive addition of partial volumes of the predeterminable volume to a supply line at different adding rates, at least partially evaporating the partial volumes forming a vapor film between them and a supply line wall, conveying the partial volumes through the supply line to an evaporator surface, and applying the partial volumes to an evaporator surface region varying as a function of mass and/or volume adding rate of the partial volume, permitting effective evaporation of fluid, particularly urea/water solution. Utilization of the highest possible proportion of evaporator surfaces is achieved by mass and/or volume addition rate-dependent distribution of impingement surfaces on the evaporator surface. This heating strategy in the supply line region ensures the Leidenfrost effect when individual partial volumes are added. As even a distribution as possible is achieved using a corresponding geometrical configuration of the evaporator channel. | 01-31-2013 |
20130061951 | CONTAINER HAVING A DISCHARGE LINE FOR AN OPERATING LIQUID OF A MOTOR VEHICLE, METHOD FOR PRODUCING THE CONTAINER AND MOTOR VEHICLE HAVING THE CONTAINER - A container for an operating liquid or fluid for a motor vehicle includes a container wall which delimits an interior space or chamber of the container. The container has a first wall section, a second wall section and at least one discharge line for discharging the operating liquid out of the container. The discharge line extends from the first wall section to the second wall section and can be adjusted in its length to a distance between the first wall section and the second wall section. A method for producing the container and a motor vehicle having the container are also provided. | 03-14-2013 |
20130098006 | DEVICE, HAVING A SYSTEM HEATING UNIT, FOR PROVIDING A REDUCING AGENT, HEAT TRANSFER METHOD AND MOTOR VEHICLE - A device for providing a reducing agent for an exhaust gas system includes a system heating unit for heating a reducing agent and at least one heat conduction element transmitting heat from the system heating unit to at least one of the following components: a tank, a delivery line, a filter, a pump, a valve or a sensor. A thermal heating method using a heat pipe and a motor vehicle having the device are also provided. | 04-25-2013 |
20130145932 | METHOD AND APPARATUS FOR REDUCING SOOT PARTICLES IN THE EXHAUST GAS OF AN INTERNAL COMBUSTION ENGINE - An apparatus for reducing soot particles in exhaust gas, particularly of an internal combustion engine, includes first and second at least partially electrically conductive structures with an intermediate space therebetween, a high voltage source forming a potential between the first and second structures and at least one at least partially electrically conductive intermediate structure in the intermediate space receiving an intermediate potential. A method for treating the exhaust gas includes conducting exhaust gas from the first to the second structure and applying a high voltage at least temporarily between the first and second structures. At least part of the soot particles in the exhaust gas is ionized or agglomerated and deposited on the second structure. A high voltage between potentials of the first and second structures is applied at least temporarily to the intermediate structure. An electric field is influenced favorably and disruptions from undesirable voltage flashovers are reduced. | 06-13-2013 |
20130152554 | METERING UNIT FOR A REDUCING AGENT, METHOD FOR METERING REDUCING AGENT AND MOTOR VEHICLE HAVING A METERING UNIT - A metering unit for a reducing agent includes an injector for supplying the reducing agent to an exhaust gas treatment device. A temperature sensor is disposed at the injector. A method for metering reducing agent and a motor vehicle having a metering unit are also provided. | 06-20-2013 |
20130153059 | HOLDER FOR AT LEAST ONE ELECTRODE IN AN EXHAUST-GAS LINE AND APPARATUS HAVING AT LEAST ONE HOLDER - A holder for at least one electrode, in particular a discharge electrode which is suitable for producing a corona discharge, in an exhaust-gas line, includes a body through which an exhaust gas can flow and at least one electric contact for the at least one electrode. Preferably, the at least one electric contact is integrated into the body. An apparatus for fixing at least one electric electrode in an exhaust-gas line is also proposed. The apparatus has at least one such holder and the apparatus has a particle separator disposed downstream in exhaust gas flow direction. | 06-20-2013 |
20130160807 | SEMICONDUCTOR ELEMENT FOR A THERMOELECTRIC MODULE, METHOD FOR PRODUCING THE SEMICONDUCTOR ELEMENT AND THERMOELECTRIC MODULE - A semiconductor element includes at least a thermoelectric material and a first frame part which are force-lockingly connected to one another, with the frame part forming a diffusion barrier for the thermoelectric material and an electrical conductor. A method for producing the semiconductor element as well as a thermoelectric module having at least two semiconductor elements, are also provided. | 06-27-2013 |
20130167512 | METHOD FOR OPERATING AN EXHAUST GAS TREATMENT DEVICE AND MOTOR VEHICLE HAVING THE DEVICE - A method for operating an exhaust gas treatment device having at least one reservoir for a reducing agent and at least one delivery device for a reducing agent, includes at least checking a filling level of the at least one reservoir, checking a current exhaust gas mass flow, and delivering reducing agent if the filling level of the at least one reservoir is below a minimum filling level and the exhaust gas mass flow is in a low-load range. A motor vehicle having the exhaust gas treatment device is also provided. | 07-04-2013 |
20130167894 | ANNULAR SEMICONDUCTOR ELEMENT AND ANNULAR INSULATION MATERIAL FOR A THERMOELECTRIC MODULE, THERMOELECTRIC MODULE AND METHOD FOR MANUFACTURING THE MODULE - An annular semiconductor element for producing a thermoelectric module includes at least one groove extending in a radial direction from an internal circumferential face to an external circumferential face. An annular insulation material insulates n-doped and p-doped semiconductor elements and is accordingly disposed on a lateral face of the semiconductor elements. The insulation material has a slit which extends in the radial direction and divides the insulation material. A thermoelectric module and a method for manufacturing the thermoelectric module are also provided. | 07-04-2013 |
20130175174 | DEVICE HAVING AN ANNULAR ELECTRODE FOR DECREASING SOOT PARTICLES IN THE EXHAUST GAS OF AN INTERNAL COMBUSTION ENGINE - A device for decreasing soot particles in exhaust gas, especially from an internal combustion engine, includes concentric outer and inner tubes forming an intermediate space through which the exhaust gas can flow. At least one annular electrode with a multiplicity of electrode tips protruding radially into the intermediate space is disposed on the inside of the outer tube. Terminals can connect the annular electrode and inner tube to a high voltage source forming an electric field in the intermediate space. At least two electrodes are preferably disposed axially at an electrode spacing of preferably 10 to 30 mm. The electrode tips can be approximately conical or pin-shaped with a radial length of 3 to 10 mm. The electrode tips of each electrode have a tip spacing in circumferential direction of 3 to 20 mm or 5 to 10 mm creating a very effective and uniform radial electric field for ionization. | 07-11-2013 |
20130199590 | THERMOELECTRIC MODULE FOR A THERMOELECTRIC GENERATOR OF A VEHICLE WITH A SEALING ELEMENT AND VEHICLE HAVING THE THERMOELECTRIC MODULE - A thermoelectric module includes an inner circumferential surface and an outer circumferential surface each being assigned to a respective hot side or cold side and forming an intermediate space therebetween, a geometric axis and at least one sealing element. The sealing element at least partially forms the inner circumferential surface or is separated from the hot side or cold side disposed there only by an electric insulation layer. The sealing element seals the intermediate space at least with respect to the cold side and has at least one electric conductor connecting at least one thermoelectric element disposed in the thermoelectric module to at least one other electric conductor disposed outside the thermoelectric module. A vehicle having the thermoelectric module is also provided. | 08-08-2013 |
20130199838 | CONFIGURATION FOR A POWER SUPPLY OF A COMPONENT IN AN EXHAUST GAS SYSTEM - A configuration for a power supply of a component in an exhaust gas system includes at least one electrical contact disposed at an exhaust gas line. The at least one electrical contact is surrounded by an electrical insulation material. | 08-08-2013 |
20130216440 | DEVICE FOR TREATING EXHAUST GAS CONTAINING SOOT PARTICLES - A device for treating exhaust gas containing soot particles includes at least one ionization element for ionizing soot particles, at least one filter element having at least one section to which an electrical potential can be applied, and at least one flow-directing device. The flow-directing device can influence a flow of the exhaust gases in such a way that the soot particles can be prevented from being deposited on at least one electric insulation of the ionization element or of the filter element or can be removed therefrom. Soot particles are therefore effectively prevented from being deposited on electric insulation of exhaust gas cleaning components, thereby preventing short-circuits from being produced and permitting exhaust gas systems to be safely operated. | 08-22-2013 |
20130219869 | DEVICE FOR CONVEYING LIQUID REDUCING AGENT AND MOTOR VEHICLE HAVING THE DEVICE - A device for conveying a liquid reducing agent from a tank to a supply element includes a connecting element for connecting a reducing agent line, a system heating unit and a heat-conducting structure configured to transport heat from the system heating unit to the connecting element. A motor vehicle having the device is also provided. | 08-29-2013 |
20130228204 | SEMICONDUCTOR ELEMENT FORMED OF THERMOELECTRIC MATERIAL FOR USE IN A THERMOELECTRIC MODULE AND THERMOELECTRIC MODULE HAVING SEMICONDUCTOR ELEMENTS - A semiconductor element is formed of a thermoelectric material having at least one aperture, a first end face and an opposite second end face. A cross-sectional surface which is parallel to the first end face or to the second end face extends through the thermoelectric material and through the aperture and has an area which is at most 20% greater than the first front surface and is smaller than the second end face. A thermoelectric module having at least two semiconductor elements is also provided. | 09-05-2013 |
20130232954 | METHOD FOR OPERATING A METERING APPARATUS, METERING APPARATUS AND MOTOR VEHICLE HAVING A METERING APPARATUS - A method for operating a metering apparatus for reducing agent includes providing the metering apparatus with at least one movable pump element movable between upper and lower reversal points to convey reducing agent into an exhaust-gas treatment component, and at least one position transmitter for determining a pass of the movable pump element. In the method, a first detection of a position of the movable pump element is provided by the position encoder. Subsequently, the movable pump element is moved and reducing agent is metered into the exhaust-gas treatment component. Thereupon, a second detection of a position of the movable pump element is provided by the position encoder, and subsequently a first quantity of reducing agent which is metered between the first and second detections is determined. A metering apparatus and a motor vehicle having a metering apparatus are also provided. | 09-12-2013 |
20130232957 | DELIVERY UNIT FOR A LIQUID ADDITIVE, METHOD FOR OPERATING A DELIVERY UNIT AND MOTOR VEHICLE HAVING A DELIVERY UNIT - A delivery unit for a liquid additive includes a first pump with a first suction port and a first pressure port, a second pump with a second suction port and a second pressure port, and a feed device. The feed device is connected to the first pressure port through a first line system and the first suction port is connected to a tank for the liquid additive through a second line system. The second pressure port is connected to the tank through a third line system and the second line system and the third line system are separated from one another. A method for operating a delivery unit and a motor vehicle having a delivery unit are also provided. | 09-12-2013 |
20130255231 | DEVICE FOR TREATING EXHAUST GAS CONTAINING SOOT PARTICLES AND MOTOR VEHICLE HAVING THE DEVICE - A device for treating exhaust gas containing soot particles includes at least one ionization element for ionizing soot particles, at least one filter element having at least one section to which an electric potential can be applied and at least one agglomeration unit for at least partial agglomeration of electrically charged soot particles. The agglomeration unit is disposed between the ionization element and the filter element and the agglomeration unit has at least one outer pipe and at least one inner element. The filtering power of an exhaust system of an internal combustion engine is therefore increased by an increase in the agglomeration rate of the soot particles. A motor vehicle having the device is also provided. | 10-03-2013 |
20130255235 | METHOD FOR OPERATING AN EXHAUST-GAS TREATMENT DEVICE AND MOTOR VEHICLE HAVING THE DEVICE - A method for operating an exhaust gas treatment device having at least one heater and at least one supply device for a reducing agent includes initially carrying out a test in order to determine if the reducing agent is to be supplied, and subsequently implementing different heating strategies in each case. In the event that the reducing agent is to be supplied, the exhaust gas treatment device is heated with the heater until a first threshold temperature is reached, if a first temperature lies below the first threshold temperature. In the case when no reducing agent is to be fed, the exhaust gas treatment device is heated with the heater until a second threshold temperature is reached, if a second temperature lies below the second threshold temperature. A motor vehicle having the device is also provided. | 10-03-2013 |
20130259751 | EXHAUST GAS SYSTEM WITH A REDUCING AGENT SUPPLY - A method for feeding reducing agent or reducing agent precursor into exhaust systems of mobile internal combustion engines and an exhaust system are preferably used for internal combustion engines with high nitrogen oxide compound emissions. A feed time is established. An exhaust parameter and/or necessary quantity of reducing agent is determined and a feed state of the reducing agent is defined. The reducing agent is treated if the feed state does not correspond to a stored state. The reducing agent feed to the exhaust system takes place last. The steps are repeated multiple times. This permits reducing agent to be fed into an exhaust system in a state suitable for the exhaust temperature, so that complete conversion of reducing agent takes place and selectively catalytic reduction is also ensured. This reduces the quantity of electrical energy necessary for converting reducing agent. A motor vehicle having the system is also provided. | 10-03-2013 |
20130259759 | CONFIGURATION HAVING TWO INTERCONNECTED EXHAUST GAS TREATMENT DEVICES - A configuration includes two exhaust gas treatment devices disposed in succession in an exhaust gas line. A first exhaust gas treatment device has a first subregion connected through at least one support body to a second subregion of a second exhaust gas treatment device. The support body has opposite ends connected by connections points to respective subregions. At least the second subregion is formed by metallic components that contact one another to form contact surfaces and at most 20% of the area of the contact surfaces have brazed or solder connections and/or diffusion connections. | 10-03-2013 |
20130276853 | THERMOELECTRIC MODULE FOR A THERMOELECTRIC GENERATOR OF A VEHICLE AND VEHICLE HAVING THERMOELECTRIC MODULES - A thermoelectric module includes an inner circumferential surface, an axis and an outer circumferential surface. A plurality of semiconductor elements is disposed with thermoelectric material in the direction of the axis and between the inner circumferential surface and the outer circumferential surface and are electrically interconnected in an alternating manner. At least one part of the semiconductor elements has at least one inner frame part or an outer frame part. At least some of the inner frame parts form an interrupted inner circumferential surface or outer frame parts form an interrupted outer circumferential surface. | 10-24-2013 |
20130298955 | THERMOELECTRIC MODULE WITH THERMAL EXPANSION COMPENSATION, METHOD FOR PRODUCING A THERMOELECTRIC MODULE AND THERMOELECTRIC GENERATOR - A thermoelectric module extends in a longitudinal direction and includes an outer tube, an inner tube disposed within the outer tube and an interspace between the tubes. At least one first strip-shaped structure and one second strip-shaped structure are provided. The first strip-shaped structure extends from a first connection on the inner tube and the second strip-shaped structure extends from a second connection on the outer tube in opposite directions in at least one circumferential direction or in the longitudinal direction and at least partly form an overlap at least in the circumferential direction or in the longitudinal direction. At least one pair of semiconductor elements is disposed in the region of the overlap. A method for producing a thermoelectric module and a thermoelectric generator are also provided. | 11-14-2013 |
20130305690 | EXHAUST SYSTEM, MOTOR VEHICLE HAVING AN EXHAUST SYSTEM AND METHOD FOR OPERATING A MOTOR VEHICLE - An exhaust system includes at least one exhaust gas purification component, at least one exhaust line, at least one connecting device for connecting the exhaust system to an internal combustion engine of a motor vehicle and at least one fastening element for additionally fastening the exhaust system to the motor vehicle. The purification component can oscillate at a first resonance frequency range of less than 150 Hz in a fastened state. The purification component can oscillate due to vibrations of the engine at least when the engine is started or switched off. This, in particular, allows ash residues to be removed from a purification component during starting of the motor vehicle, so that maintenance expense for the purification component is reduced and effective operation thereof is possible over the long term. A motor vehicle having an exhaust system and a method for operating the motor vehicle are also provided. | 11-21-2013 |
20130305691 | METHOD FOR OPERATING AN EXHAUST GAS SYSTEM, METHOD FOR OPERATING A MOTOR VEHICLE AND MOTOR VEHICLE HAVING THE SYSTEM - A method for operating an exhaust gas system of an internal combustion engine having at least one adsorber for the adsorption of hydrocarbons, a catalytic converter disposed downstream of the adsorber for converting hydrocarbons and at least one heating device disposed between the adsorber and the catalytic converter, includes adapting operation of the heating device in dependence on a state of aging of the catalytic converter. A method for operating a motor vehicle and a motor vehicle having the system are also provided. | 11-21-2013 |
20130305743 | THERMOELECTRIC MODULE WITH A HEAT CONDUCTING LAYER AND METHOD OF MANUFACTURING A THERMOELECTRIC MODULE - A thermoelectric module includes a cold side, a hot side and thermoelectric elements disposed between the two sides. At least one heat conducting layer is disposed between the thermoelectric elements and at least the cold side or the hot side and the heat conducting layer can be compressed. A method for producing a thermoelectric module having at least one heat conducting layer is also provided. | 11-21-2013 |
20130340803 | THERMOELECTRIC MODULE FOR A THERMOELECTRIC GENERATOR OF A VEHICLE AND VEHICLE HAVING THERMOELECTRIC MODULES - A thermoelectric module includes an interrupted inner circumferential surface, an axis and an outer circumferential surface. A plurality of semiconductor elements having thermoelectric material are disposed in direction of the axis and between the inner circumferential surface and the outer circumferential surface and are electrically alternately connected to each other. At least some of the semiconductor elements include at least one inner frame part or an outer frame part and at least the inner frame parts form the interrupted inner circumferential surface. The inner circumferential surface also forms a cold side of the thermoelectric module and a dimensionally unstable sheath is provided at least at the interrupted inner circumferential surface. A vehicle having a plurality of thermoelectric modules is also provided. | 12-26-2013 |
20140033702 | DEVICE HAVING A HEAT EXCHANGER FOR A THERMOELECTRIC GENERATOR OF A MOTOR VEHICLE AND MOTOR VEHICLE HAVING THE DEVICE - A device having a heat exchanger includes a housing having an inlet and an outlet for a fluid and an inner tube having a first end face extending in axial direction, an opposite second end face and a circumferential surface having openings. A plurality of heat exchanger tubes is disposed parallel to the axial direction on the outside of the circumferential surface. The housing encloses the heat exchanger tubes and the inner tube and the inlet is fluidically connected to the first end face. Guide elements are disposed between the heat exchanger tubes so that the fluid entering the inner tube through the first end face flows out across the heat exchanger tubes in radial direction starting from the inner tube. The device is used particularly for constructing a thermoelectric generator for positioning in the underbody of a motor vehicle. A motor vehicle having the device is also provided. | 02-06-2014 |
20140033703 | DEVICE HAVING A HEAT EXCHANGER FOR A THERMOELECTRIC GENERATOR OF A MOTOR VEHICLE AND MOTOR VEHICLE HAVING THE DEVICE - A device having a heat exchanger includes a housing having a first end side and a second end side disposed along an axial direction, an inlet at the first end side and an outlet at the second end side for a fluid, a first annular channel connected to the inlet and a second annular channel upstream of the outlet, at least one outer jacket tube and at least one inner jacket tube disposed mutually concentrically and defining an intermediate space therebetween, a plurality of flow paths for the fluid extending in the axial direction in the intermediate space and interconnecting the first channel and the second channel, and at least one heat exchanger tube disposed in each of the plurality of flow paths. A motor vehicle having the device is also provided. | 02-06-2014 |
20140109555 | METHOD FOR TREATING EXHAUST GAS CONTAINING SOOT PARTICLES - A method for converting soot particles of an exhaust gas includes providing at least nitrogen dioxide or oxygen in the exhaust gas, ionizing soot particles with an electric field, depositing electrically charged soot particles on inner channel walls of at least one surface precipitator, and bringing at least nitrogen dioxide or oxygen into contact with the deposited soot particles on the inner channel walls of the at least one surface precipitator. A device for carrying out the method includes at least one surface precipitator having a plurality of channels through which the exhaust gas can flow and extending between an inlet region and an outlet region, and at least one deposit inhibitor for electrically charged soot particles provided in at least part of the inlet region, especially allowing the soot particles to be evenly deposited and the surface precipitator to be continuously regenerated. | 04-24-2014 |
20140178266 | DEVICE WITH A PARTICLE SCREEN FOR PROVIDING LIQUID REDUCING AGENT - A device for providing a liquid reducing agent includes a tank having an interior space, a vessel at least partly disposed in the inner space of the tank, the vessel being at least partly surrounded by a particle screen through which a liquid can flow, and a delivery unit located in the vessel and configured for delivering reducing agent from the tank, through the particle screen and then out to a take-off or delivery point for reducing agent. | 06-26-2014 |
20140245720 | METHOD FOR OPERATING A DOSING DEVICE AND MOTOR VEHICLE HAVING A DOSING DEVICE - A method for operating a dosing device for metering an additive to an exhaust-gas treatment device includes determining a dosing amount of additive required by the exhaust-gas treatment device in step a). Subsequently, in step b), an operating mode for the dosing device is determined by carrying out at least steps b.1) and b.2). In step b.1), at least one characteristic operating value of at least one component of the dosing device is provided being definitive of a degree of aging of the dosing device. In step b.2), an operating mode for the dosing device is set in dependence on the characteristic operating value from step b.1). In step c), the dosing device is operated with the set operating mode so that the dosing amount required in step a) is supplied to the exhaust-gas treatment device. A motor vehicle having a dosing device is also provided. | 09-04-2014 |
20140283505 | INJECTION DEVICE FOR METERING A LIQUID ADDITIVE, METHOD FOR FREEZING AN INJECTION DEVICE, METHOD FOR PRODUCING AN INJECTION DEVICE AND MOTOR VEHICLE - An injection device for the metering or addition of a liquid additive into an exhaust gas treatment device, includes an outlet region to be brought into contact with the exhaust gas treatment device, a connector region spaced apart from the outlet region and having a fluid-line connector, and a duct or channel for the additive extending from the connector region to the outlet region. A valve controls the metering or addition of the additive, and at least one heat-flow adjustment device defines a direction of freezing in the duct from the outlet region towards the connector region. A method for freezing an injection device, a method for producing an injection device and a motor vehicle are also provided. | 09-25-2014 |
20140322090 | ELECTRICALLY HEATABLE HONEYCOMB BODY WITH MULTIPLE SHEET METAL LAYERS ELECTRICALLY CONNECTED WITH A CONNECTING PIN - A honeycomb body includes sheet metal layers forming a central current path to a radial connecting pin. A metal casing has an inner periphery and a feedthrough guiding and insulating the pin. The layers are alternate coarsely structured and finely structured or smooth sheets forming a stack with uppermost and lowermost layers forming axial gas channels. The pin is metallically connected to two or all of the layers directly or through an intermediate piece by an electrically conductive or welded connection. The current path has an electrical resistance per unit length in the connection region being greater than an average electrical resistance per unit length in the stack. The uppermost layer runs approximately parallel to the casing over 35% or 40% of the inner periphery and is separated from the casing by an air gap. Simple manufacture of a highly uniform, reliably operating, electrically heatable honeycomb body is thus possible. | 10-30-2014 |
20140326288 | SEMICONDUCTOR ELEMENT, THERMOELECTRIC MODULE, METHOD FOR PRODUCING A TUBULAR THERMOELECTRIC MODULE AND MOTOR VEHICLE - A semiconductor element for a thermoelectric module has opposite ends and is made of an n-doped or p-doped semiconductor material and at least one foreign material. The foreign material is mixed with the semiconductor material and forms a fraction of 25 to 75 vol % of the semiconductor element. A method for producing a tubular thermoelectric module includes providing an inner tube having an axis, an inner circumferential surface and a first outer circumferential surface, alternately placing n-doped and p-doped semiconductor elements in direction of the axis, placing second electrical conducting elements radially outwardly of the semiconductor elements so that pairs of adjacent semiconductor elements are electrically conductively connected to each other at the outside to then form a second outer circumferential surface, and compressing the thermoelectric module. A motor vehicle having a thermoelectric module is also provided. | 11-06-2014 |
20140338311 | METHOD FOR OPERATING A DOSING APPARATUS AND MOTOR VEHICLE HAVING A DOSING APPARATUS - A method for operating a dosing apparatus for providing a liquid additive includes providing the dosing apparatus with at least one pump for pumping the additive from a tank into a pressure accumulator, a dosing valve for providing additive present in the pressure accumulator in a dosed manner, and a return valve through which additive present in the pressure accumulator can be led back into the tank. A dosing demand is established, subsequently the pump is activated to build up a pressure in the pressure accumulator, then the pressure in the pressure accumulator is set to a desired metering pressure, and thereafter the liquid additive is dispensed by the dosing valve. A motor vehicle having a dosing apparatus is also provided. | 11-20-2014 |
20140338630 | DOSING VALVE FOR ADDITIVES AT RISK OF FREEZING, METHOD FOR PRODUCING A DOSING VALVE AND MOTOR VEHICLE - A dosing valve includes at least a valve housing with a duct, a valve body being movable in order to open and close the dosing valve and a spring exerting a spring force on the valve body and thus holding the valve body in a rest position. The spring is supported on at least one calibration body. The valve body, the spring and the at least one calibration body are disposed in the duct. The at least one calibration body is fastened in the valve housing at least by using a cohesive or material connection. A method for producing the dosing valve and a motor vehicle having the dosing valve are also provided. | 11-20-2014 |
20140366513 | DEVICE FOR EXHAUST-GAS PURIFICATION AND MOTOR VEHICLE HAVING THE DEVICE - A device includes a pipeline section for an exhaust gas flow. The pipeline section has an inlet end, an outlet end, a rectilinear section and a protuberance having an opening for installing a metering device for a liquid additive (in particular urea/water solution) in the rectilinear section. The protuberance has a height and an extent and the extent is at least twice as large as the height. At least one respective disk-shaped honeycomb body is disposed at each of the inlet end and the outlet end. A central axis of the opening is oriented toward one of the disk-shaped honeycomb bodies. A motor vehicle having the device is also provided. | 12-18-2014 |
20140373513 | HONEYCOMB BODY FOR EXHAUST-GAS AFTERTREATMENT, METHOD FOR PRODUCING A HONEYCOMB BODY AND MOTOR VEHICLE HAVING A HONEYCOMB BODY - A honeycomb body for exhaust gas aftertreatment includes a first end face, a second end face, a central axis that penetrates the two end faces and a length. The honeycomb body has at least one at least partially structured metallic layer which is disposed about the central axis. A structure of the at least one metallic layer has elevations and depressions which extend at least over part of the length of the honeycomb body and run obliquely to the central axis. At least one metallic connecting strip is provided between adjacent regions of the at least one metallic layer. The metallic connecting strip is shorter than the length of the honeycomb body and forms a brazed connection or welded connection to the adjacent regions. A method for producing such a honeycomb body and a motor vehicle having the honeycomb body are also provided. | 12-25-2014 |
20150030509 | ELECTRICALLY HEATABLE HONEYCOMB BODY ASSEMBLY HAVING AN ELECTRICAL CONNECTION OF A PLURALITY OF SHEET METAL LAYERS - An electrically heatable honeycomb body assembly includes an electrical connection of sheet metal layers at a connection pin. A honeycomb body has a metal casing with an inner periphery, through which the connection pin is led in a bushing and electrically insulated. The sheet metal layers are alternately coarsely structured and finely structured or smooth sheets together forming a stack with uppermost and lowermost layers and channels for an axial gas flow between the layers. The connection pin runs radially approximately perpendicular to the layers and is metallically connected to at least two or all of the layers through at least one intermediate piece. The uppermost sheet metal layer preferably runs approximately parallel to the metal casing over at least 35% of the inner periphery and is separated therefrom only by an air gap. Simple production of an operationally safe and very uniformly electrically heatable honeycomb body is provided. | 01-29-2015 |
20150033713 | DEVICE FOR SUPPLYING A LIQUID ADDITIVE AND MOTOR VEHICLE HAVING THE DEVICE - A device for supplying a liquid additive for a motor vehicle includes a tank for storing the liquid additive and a delivery unit for delivering the liquid additive out of the tank. A sensor emits and receives waves and is configured to measure a fill level of the liquid additive in the tank by way of a propagation time measurement of the waves along a measurement path to a liquid surface in the tank and back to the sensor. The measurement path runs at least partially through a measurement duct. At least one back-flushing line ends in the measurement duct so that flushing of the measurement duct to the tank can be performed, in such a way that the measurement duct is kept clean and/or is cleaned. A motor vehicle having the device is also provided. | 02-05-2015 |
20150059820 | SEMICONDUCTOR ELEMENT FOR A THERMOELECTRIC MODULE, AND THERMOELECTRIC MODULE - A semiconductor element includes at least a thermoelectric material and a first frame part which are connected to each other in a force-locking manner. The first frame part forms an electrical conductor and is made of a ferritic steel which, in particular, has good thermal conductivity and low thermal expansion in addition to good electrical conductivity. A thermoelectric module having semiconductor elements is also provided. | 03-05-2015 |
20150075141 | CONTAINER HAVING A HEATING DEVICE FOR A TANK FOR STORING A LIQUID ADDITIVE AND MOTOR VEHICLE HAVING A TANK - A container for a tank for storing a liquid additive includes a housing having a heater and at least one drivable apparatus for promoting convection in the housing. A motor vehicle includes a tank for storing a liquid additive and an exhaust gas system having a metering or adding device for the liquid additive. A container is inserted into the tank wall and a plurality of functional components is provided in the container for conveying the liquid additive from the tank through the container to the metering or adding device. | 03-19-2015 |