Kimmerle
Klaus Kimmerle, Homburg DE
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20130232927 | SEPARATING DEVICE COMPRISING A CYCLONE SEPARATING DEVICE - The invention relates to a separating device for separating a multiphase medium, comprising a cyclone separating device ( | 09-12-2013 |
Kyle Kimmerle, Portland, OR US
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20140026977 | CHEMICAL PRECURSOR BUBBLER ASSEMBLY - One or more techniques and/or systems are disclosed for saturating a gas with a liquid-borne compound. A bubbler container may be configured to contain a carrier liquid, which comprises a desired compound. The container may comprise at least one routing plane, disposed between the top and bottom of the container, which may be configured to allow gas bubbles to travel through a circuitous, routing route. The gas can be introduced to the container at a bottom portion of the container, into the carrier liquid comprising the compound. Carrier gas bubbles formed in the liquid may be forced to travel the routing route to a top portion of the container, where gas saturated with the compound may be collected. | 01-30-2014 |
20140029374 | CHEMICAL PRECURSOR BUBBLER - One or more techniques and/or systems are disclosed for saturating a gas with a liquid-borne compound. A bubbler container may be configured to contain a carrier liquid, which comprises a desired compound. The container may comprise at least one channeling plane, disposed between the top and bottom of the container, which may be configured to allow gas bubbles to travel through a circuitous, channeling route. The gas can be introduced to the container at a bottom portion of the container, into the carrier liquid comprising the compound. Carrier gas bubbles formed in the liquid may be forced to travel the channeling route to a top portion of the container, where gas saturated with the compound may be collected. | 01-30-2014 |
Mathias Kimmerle, Steinheim DE
Patent application number | Description | Published |
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20140043019 | ANGLE SENSOR, GEAR WHEEL FOR AN ANGLE SENSOR AND METHOD FOR PRODUCING SUCH A GEAR WHEEL - An angle sensor for determining a rotation angle of a rotatable body, such as a steering column in a motor vehicle, includes a gear wheel. The orientation of a magnetic field generated by the gearwheel is configured to be detected by a magnetic field sensor. The gear wheel is comprised of a magnetisable material, such as hard ferrite, into which a magnetisation is introduced. The gear wheel is stronger in a central region than in an edge region in which the teeth are arranged. In order to weakly magnetise the edge region, which minimizes a negative influence of the teeth on the homogeneity of the generated magnetic field, the front face of the gear wheel is configured to be magnetized. The magnetisation process advantageously takes place at the same time as an injection moulding process to form the gearwheel. A method is implemented to produce the gear wheel. | 02-13-2014 |
20150211890 | Sensor Arrangement for Detecting Angles of Rotation on a Rotated Component - A sensor arrangement for detecting angles of rotation on a rotated component, comprising a measurement value transmitter having at least one permanent magnet with magnetic north and south pole regions and which is arranged at a specified first radial distance to the rotational axis of the rotated component, and comprising a measurement value sensor, which comprises at least one sensor element for detecting at least one magnetic variable, said sensor element being arranged at a specified second radial distance to the rotational axis of the rotated component. A movement of the rotated component causes a change of the at least one magnetic variable, which can be evaluated in order to ascertain the rotational angle. The permanent magnet is polarized in a circumferential direction along a circular arc about the rotational axis or tangentially thereto, and a magnetic vector is generated on a detection plane perpendicular to the magnet surface. | 07-30-2015 |
Stefan Kimmerle, Neuffen DE
Patent application number | Description | Published |
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20110067506 | METHOD FOR CARRYING OUT A SELF-TEST FOR A MICROMECHANICAL SENSOR DEVICE, AND CORRESPONDING MICROMECHANICAL SENSOR DEVICE - A method for carrying out a self-test for a micromechanical sensor device, and a corresponding micromechanical sensor device. The method has the following steps: exciting the sensor device using a first excitation signal variation in a first self-test; storing a corresponding first response signal variation of the sensor device; exciting the sensor device using a second excitation signal variation in a second self-test; storing a corresponding second response signal variation of the sensor device; analyzing the first and second response signal variations with regard to at least one predefined criterion; and preparing a self-test result based on the analytical result of the first and second response signal variations. | 03-24-2011 |
William Kimmerle, Hudson, OH US
Patent application number | Description | Published |
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20140026977 | CHEMICAL PRECURSOR BUBBLER ASSEMBLY - One or more techniques and/or systems are disclosed for saturating a gas with a liquid-borne compound. A bubbler container may be configured to contain a carrier liquid, which comprises a desired compound. The container may comprise at least one routing plane, disposed between the top and bottom of the container, which may be configured to allow gas bubbles to travel through a circuitous, routing route. The gas can be introduced to the container at a bottom portion of the container, into the carrier liquid comprising the compound. Carrier gas bubbles formed in the liquid may be forced to travel the routing route to a top portion of the container, where gas saturated with the compound may be collected. | 01-30-2014 |
20140029374 | CHEMICAL PRECURSOR BUBBLER - One or more techniques and/or systems are disclosed for saturating a gas with a liquid-borne compound. A bubbler container may be configured to contain a carrier liquid, which comprises a desired compound. The container may comprise at least one channeling plane, disposed between the top and bottom of the container, which may be configured to allow gas bubbles to travel through a circuitous, channeling route. The gas can be introduced to the container at a bottom portion of the container, into the carrier liquid comprising the compound. Carrier gas bubbles formed in the liquid may be forced to travel the channeling route to a top portion of the container, where gas saturated with the compound may be collected. | 01-30-2014 |
William L. Kimmerle, Hudson, OH US
Patent application number | Description | Published |
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20150208889 | BRUSH ROLLER MAGNET ASSEMBLY - Provided is a brush roller magnet assembly which may be utilized on various types of mechanical devices such as a vacuum cleaner. The brush roller magnet assembly includes a brush roller having a first end, a second end, a cylindrical lateral outer surface and an opening positioned at any point along the cylindrical lateral surface of the brush roller. The opening of the brush roller opening has at least one side surface, a bottom surface, a width, a depth and a borehole positioned at the bottom surface of the opening. A magnet having an opening is positioned within the brush roller opening and a connector is received within the magnet opening to fasten the magnet to the brush roller. The position of the magnet inserted within the brush roller opening is adjustable through various means disclosed herein. | 07-30-2015 |
William R. Kimmerle, Hudson, OH US
Patent application number | Description | Published |
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20150208889 | BRUSH ROLLER MAGNET ASSEMBLY - Provided is a brush roller magnet assembly which may be utilized on various types of mechanical devices such as a vacuum cleaner. The brush roller magnet assembly includes a brush roller having a first end, a second end, a cylindrical lateral outer surface and an opening positioned at any point along the cylindrical lateral surface of the brush roller. The opening of the brush roller opening has at least one side surface, a bottom surface, a width, a depth and a borehole positioned at the bottom surface of the opening. A magnet having an opening is positioned within the brush roller opening and a connector is received within the magnet opening to fasten the magnet to the brush roller. The position of the magnet inserted within the brush roller opening is adjustable through various means disclosed herein. | 07-30-2015 |