Abstract: A device according to the related art for determining at least one parameter of a medium flowing in a line is unable to prevent pollutants from getting out of the line into the atmosphere. The device of the present invention has a filter which is able to take up the pollutants and thus prevent them from getting into the atmosphere.

Abstract: A vibration pickup has a pressure sleeve which is placeable on a component causing vibrations, a sensor element which detects the vibration, a seismic mass which is placeable outside of the sleeve on a support surface of the sensor element with an axial pretensioning, so that the sensor element is held between the seismic mass and a flange-like segment of the pressure sleeve, the seismic mass and the pressure sleeve being formed as a one-piece integral component.

Abstract: In devices for measuring the mass of aspirated air of an internal combustion engine, for instance, via a line, it is already known to provide a tubular body inside this line and to provide a temperature-dependent measuring element inside the tubular body. In order that dirt particles and liquid droplets entrained by the aspirated air will be kept away from the measuring element, in accordance with the invention, a protective screen is disposed inside the tubular body, upstream of the measuring element; the screen extends in inclined fashion in the flow direction, and dirt particles and liquid droplets are deposited on it and carried to a downstream end of the protective screen, so that via an outflow opening they can reach the inner conduit wall of the tubular body and be made to bypass the measuring element.

Abstract: A device and method for determining at least one parameter of a flowing gas-liquid mixture, including parameters of the intake air of internal combustion engines, uses a condensation trap to protect a measuring element from back flowing liquids, downstream from the measuring element.

Abstract: A device for measuring at least one parameter of a medium flowing in a line, particularly the intake-air volume of an internal combustion engine. Liquid particles contained in the line act upon a measuring element and influence a characteristic curve of the measuring element which is used to determine parameters of the flowing medium. The characteristic curve of the measuring element can be changed disadvantageously by solid-matter particles. In order to reduce the action of solid-matter particles on the measuring element, a protective grating is proposed in which side walls of channels of the protective grating form various angles of intersection with the flow direction. Solid-matter particles are thereby diverted into a path of motion around the measuring element.

Abstract: Methods and/or devices for detecting the flow rate of a flowing medium, in particular the flow rate of a flowing air mass, are described, in which the flowing medium is detected with two evaluation methods that operate according to different principles and the two measurement signals obtained are set in relation to each other in order to determine correction methods. Since the two measurement methods react differently to interference effects, the comparison of the two output signals permits conclusions to be drawn as to the type and the order of magnitude of the interference effects and a corrected measurement signal can be obtained, which is independent of the interference effects.

Abstract: The invention relates to a device for separating gas and liquid from a medium flowing in a line, and to a method for separating such a medium, in particular a gas-liquid mixture, in the device, which separates gas and liquid particles from one another at high and low flow speeds. High-quality phase separation that is independent of the flow speed is achieved in that both a surface tension of the liquid and different forces of inertia of the liquid and gas prevent a flow of the liquid through openings of a separator element.

Abstract: The invention relates to a device for measuring at least one parameter of the intake air mass flow of an internal combustion engine. Fluid particles contained in the line act on a measuring element and influence a characteristic curve behavior of the measuring element used to determine parameters of the flowing medium. In order to reduce the action of fluid on the measuring element, the measuring element is disposed in a line or a tubular body, downstream of a protective screen, which deflects the medium flow and deflects the fluid particles. Downstream of the protective screen, longitudinal ribs, a suction opening, or a turbulence generator reduce the release of uncontrolled eddies.

Abstract: A sensor sheath for a thermal air flow rate sensor that is intended for disposition in a pipeline through which a fluid flows. In order to prevent the spread of ignition to the remainder of the fluid upon ignition of the fluid in the surroundings of the sensor, a wire grid is provided with meshes which are embodied such that a fluid flows substantially unimpeded through the wire grid, and which has an opening through which the sensor to be sheathed can be introduced into the wire grid.

Abstract: In a sensor chip according to the existing art, contaminants in the medium flowing past the sensor chip result in deposits in the sensor region.

Abstract: A device for determining a parameter of a medium flowing in a line, according to the related art, does not offer sufficient protection for a measuring element from liquid or solid particles which may dirty or damage the measuring element in an unwanted way.

Abstract: In the case of a sensor chip according to the related art, impurities in a flowing medium may be deposited in the area of a sensor area and may permanently soil it, resulting in a negative effect on the measurement response of the membrane.

Abstract: A gas flow determination method and a corresponding gas flow determination device are described.

Abstract: The invention relates to a device having a sensor carrier, which comprises a sheet-metal element and a plastic element and on which a measuring element introduced into the flowing medium is disposed. The use of plastic, which for the most part covers the sheet-metal element, means closer tolerances, which improve the performance of the sensor carrier both in terms of its facing into the flow and experiencing a flow around it, for instance by providing it with an improved aerodynamic leading edge, or the measuring element can be mounted flush to the surface and flush with edges of a sensor cavern, so that no turbulence occurs in the medium in the region of the measuring element or flow under the measuring element. The sensor region of the measuring element is reliably protected by recesses in the longitudinal edges and by a special adhesive bonding process from a gel emerging from the electronic evaluation circuit, so that the measuring characteristic curve behavior is not altered.

Abstract: The present invention relates to a device for measuring at least one parameter of a medium flowing in a line, particularly the intake-air volume of an internal combustion engine. Liquid particles contained in the line act upon a measuring element and influence a characteristic curve of the measuring element which is used to determine parameters of the flowing medium. The characteristic curve of the measuring element can be changed disadvantageously by solid-matter particles. According to the present invention, to reduce the action of solid-matter particles on the measuring element (23), a protective grating (15) is proposed in which side walls (36) of channels (43) of the protective grating (15) form various angles of intersection with the flow direction (6, 12). Solid-matter particles are thereby diverted into a path of motion (53) around the measuring element (23).

Abstract: In a method for determining the air aspirated by an internal combustion engine, in which the air flow rate is detected by an air flow rate meter, simultaneously with the detection of the air flow rate, the humidity and/or pressure of the air is detected by a humidity and/or pressure sensor and evaluated in an evaluation circuit.

Abstract: A measuring element in a device for determining at least one parameter of a medium flowing in the line according to the related art is not sufficiently protected from foreign particles, such as solid particles.

Abstract: The match with a measurement characteristic curve of a device for air flow measurement is disturbed by pulsations, soiling and poor flow behavior. An improvement in the measuring performance of the device is achieved by provisions, which are adapted to one another, for reducing these sources of trouble, according to which the flow cross section of an inlet conduit narrows in a flow direction in the inlet conduit toward a deflection conduit, and a peripheral face of a first portion of the deflection conduit is embodied in inclined fashion, and at least one outer face of a sensor carrier, together with a peripheral face, closer to an outlet conduit, of the inlet conduit, forms a flush transition.

Abstract: A device for detecting a pulsating variable, for instance the air flowing in the intake tube of an engine, is disclosed in which the signal processing and the correction of the pulsation error are done in an evaluation device which is a constituent of the sensor. At the output of the signal processor, the sensor, for instance a hot-film air flow rate meter, outputs a corrected output signal, which is directly a measure of the variable to be determined, such as the mass of the air flowing in the intake tube of an internal combustion engine.

Abstract: Devices for determining at least one parameter of a flowing medium according to the related art do not offer sufficient protection of a measuring element from contamination by foreign particles. A device (1) is disclosed having an element (55), for example in the form of a bulge (60), in the channel (20) in which the measuring element (10) is positioned, which deflects the foreign particles and thus protects the measuring element (10).