Patent application number | Description | Published |
20080217439 | Fuel injector - A fuel injector for fuel-injection systems of internal combustion engines has a solenoid coil; a valve needle that is operatively connected to the solenoid coil and acted upon by a restoring spring in a closing direction, in order to actuate a valve-closure member which, together with a valve-seat surface formed at a valve-seat member, forms a sealing seat; and at least two spray-discharge orifices which are formed in the valve-seat member. The spray-discharge orifices are formed in the valve-seat member in such a way that they are shielded from mixture flows circulating in a combustion chamber of the internal combustion engine. | 09-11-2008 |
20090032623 | Fuel Injector - The fuel injector includes an orifice plate being situated downstream from a valve-seat body having a fixed valve seat, the orifice plate having at least one outlet opening. Provided directly upstream from the outlet openings is an inflow opening having an annular inflow cavity. The valve-seat body covers the inflow cavity in such a way that the downstream outlet openings of the orifice plate are covered. A boundary surface of the valve-seat body lying opposite the orifice plate is designed such that, beginning at an exit opening, the height of the inflow opening decreases continuously in a first section up to the at least one outlet opening, while the height of the inflow opening in a second, radially outer section remains largely constant. The fuel injector is particularly suitable for use in fuel injection systems of the mixture-compressing internal combustion engines having external ignition. | 02-05-2009 |
20090057444 | Fuel injector - The fuel injector configured according to the invention is characterized by an orifice plate being situated downstream from a valve-seat body having a fixed valve seat, the orifice plate having at least one outlet opening. Directly upstream from the outlet openings is an inflow opening having an annular inflow cavity. The valve-seat body covers the inflow cavity in such a way that the downstream outlet openings of the orifice plate are covered. The flow-exposed flow-through area above each outlet opening, which is calculated as the product of the circumference of the outlet opening in the region of its entry plane and the free height in the inflow cavity, is smaller than the area of the inflow plane of the outlet opening. The fuel injector is particularly suitable for use in fuel injection systems of the mixture-compressing internal combustion engines having externally supplied ignition. | 03-05-2009 |
20090200402 | Fuel injector - The fuel injector including an orifice plate which is provided with a multitude of outlet openings and situated downstream from a valve-seat body having a fixed valve seat. Directly upstream from the outlet openings is an inflow opening having an annular inflow cavity. The valve-seat body covers the inflow cavity in such a way that the downstream outlet openings of the orifice plate are covered. The outlet openings each have an inflow region whose diameter D | 08-13-2009 |
20090206181 | Fuel Injector - A fuel injector includes an orifice plate situated downstream from a valve-seat body having a fixed valve seat, the orifice plate having at least one outlet opening. Provided directly upstream from the outlet openings is an inflow opening having an annular inflow cavity. The valve-seat body covers the inflow cavity in such a way that the downstream outlet openings of the orifice plate are covered. The inflow cavity directly upstream from the at least one outlet opening is configured such that the flow approaches the at least one outlet opening largely at a right angle to the longitudinal extension of the outlet opening. With regard to the cross section, the at least one outlet openings has a polygonal form, in particular one that encloses at least one triangle, or it has a meander shape with a plurality of curves in the outer contour. The fuel injector may be particularly suitable for use in fuel injection systems of the mixture-compressing internal combustion engines having external ignition. | 08-20-2009 |
20090321540 | Fuel Injector - A fuel injector has an orifice plate including a plurality of spray-discharge orifices, which orifice plate is situated downstream from a valve seat member having a fixed valve seat. An inflow opening, which is provided directly upstream from the spray-discharge orifices as incident-flow cavity, is designed in such a way that an incident flow to the spray-discharge orifices takes place largely at a right angle to the longitudinal extension of the spray-discharge orifices. The spray-discharge orifices are placed and oriented in such a way that at least one fuel spray in the form of a hollow cone lamella or full cone lamella is able to be spray-discharged, in which a radially outer region is made up of larger droplets than a radially inner region of the spray. | 12-31-2009 |
20090321541 | Multi-fan jet nozzle and fuel injector having a multi-fan jet nozzle - The fuel injector is characterized in that a multi-fan jet nozzle is disposed downstream of a valve-seat member having a fixed valve seat. The multi-fan jet nozzle is disk shaped, having a middle, bulged, crest-like nozzle area that has an elliptical elongation. In the nozzle area of the multi-fan jet nozzle used as an atomizer device, a plurality of directionally parallel spray-discharge slots is provided, which, for example, are arranged in a row. The fuel injector is particularly suitable for use in fuel-injection systems of mixture-compressing internal combustion engines having externally supplied ignition. | 12-31-2009 |
20100269788 | FUEL INJECTION VALVE - A fuel injection valve is characterized in that a multi-fan stream nozzle is shaped, downstream from a fixed valve seat that is provided on the inner wall of a valve sleeve, directly into the valve sleeve itself. The multi-fan stream nozzle is integrated directly in the region of a bulge formed at the downstream end of the valve sleeve. The multi-fan stream nozzle, serving as an atomization device, possesses a plurality of slit-shaped spray openings, so that from the sheets of liquid emerging from the spray openings, sheet packets are formed in which individual sheets of liquid extend divergently from one another. Introduction of the spray openings into the deep-drawn valve sleeve is effected using ultrashort-pulse laser technology. The fuel injection valve is suitable in particular for use in fuel injection systems of mixture-compressing spark-ignited internal combustion engines. | 10-28-2010 |
20110163187 | VALVE FOR ATOMIZING A FLUID - A valve for atomizing fluid is specified, in particular an injection or metering valve for fuel injection or exhaust-gas systems of motor vehicles, which valve has a valve seat body (11) with a valve seat (14) which surrounds a valve opening (13), a perforated injection disc (17) which bears against the front side of the valve seat body present between the valve opening (13) and (12) downstream of the valve opening (13) and has at least one spray hole (18) which is offset radially with respect to the valve opening (13), and an inflow cavity (19) which is the at least one spray hole (18). For the inexpensive and reproducible production of a stable, corrosion-resistant perforated injection disc (18) with improved atomization of the ejected fluid, the inflow cavity (19) is formed by at least one depression (20) which is made in that disc face of the perforated injection disc (17) which faces the valve seat body (12), in such a way that part of the depression (20) protrudes into the valve opening (13) and the remaining part of the depression (20) is covered by the valve seat body (12). The at least one spray hole (18) is made in that part of the depression (20) which is covered by the valve seat body (12), close to the depression wall, which faces away from the valve opening (13), into the bottom (201) of the depression (20). | 07-07-2011 |
20120043400 | ATOMIZER FOR LIQUIDS, METHOD FOR THE MANUFACTURE THEREOF, AND USE THEREOF - An atomizer is described for liquids, in particular for delivering water in a shower, having an outlet on a liquid supply line for spraying liquids at a low flow rate, the outlet having at least two nozzles for generating liquid jets and for atomizing. The present atomizer is based on the object of optimizing a washing device for delivering water, in particular in a shower, and providing a cost-effective embodiment of a shower head. The atomizer is characterized in that at least one atomizer attachment is provided, which includes at least one atomizer plate, which is convexly curved in the jet direction, and is inserted into the outlet, and at least one slot or multiple slots positioned in parallel directions to one another are introduced into the atomizer plate. The atomizer plate, which is convexly curved in the jet direction, is bent in a shell shape and/or channel shape. | 02-23-2012 |
20130283842 | CLIMATE-CONTROL DEVICE FOR A VEHICLE, AND METHOD FOR REGULATING A CLIMATE IN A PASSENGER COMPARTMENT OF A VEHICLE - The invention relates to a climate-control device ( | 10-31-2013 |
20130319096 | METHOD FOR DETERMINING HEADWIND VELOCITY - A method for determining a velocity of headwind flowing in the direction of a vehicle, based on a coolant mass flow of a coolant flowing through a heat exchanger of a cooling device of the vehicle, and an air mass flow flowing through the heat exchanger and triggered by the headwind, includes: determining a temperature drop of the coolant mass flow; determining the air mass flow responsible for the temperature drop of the coolant mass flow; and determining the velocity of the headwind flowing in the direction of the vehicle, based on the air mass flow responsible for the temperature drop of the coolant mass flow. | 12-05-2013 |
20140014298 | CONDENSING DEVICE AND METHOD FOR CONDENSING MOISTURE IN A VEHICLE BATTERY - A condensing system for a battery in a vehicle and a method for condensing moisture in a battery are provided. In one embodiment, the condensing system includes a battery housing, which surrounds a battery interior. At least one battery cell is arranged in the interior. An inlet opening is arranged in the battery housing, for a cooling fluid entering the battery interior. A first outlet opening and a second outlet opening are both arranged in the battery housing. The first outlet opening is in fluid communication with the cooling fluid emerging from the battery interior. A condensing device is arranged in the battery interior and is in fluid communication with the cooling fluid and causes moisture present in the battery interior to condense. The condensed moisture emerges into the environment through the second outlet opening. | 01-16-2014 |
20140097261 | HEAT TRANSPORTING ARRANGEMENT AND METHOD FOR THE EXCHANGE OF HEAT IN A MOTOR VEHICLE BY MEANS OF THE HEAT TRANSPORTING ARRANGEMENT - A heat transporting arrangement ( | 04-10-2014 |