Patent application number | Description | Published |
20090000366 | FLOW RATE MEASURING APPARATUS - A flow rate measuring apparatus can reduce flow rate detection errors resulting from a temperature difference between an inside and an outside of piping. A base has a base main body which is formed at its base end with a connector protruding to the outside of the piping, and a flange which is formed on the base main body and is fitted into an insertion hole in the piping. A plate made of PBT resin is arranged on the base, and a flow rate detection element is formed on the plate so as to be exposed therefrom. A circuit board is arranged at a side of the plate opposite to the connector. A housing has a fluid passage groove that cooperates with the plate to form a measuring passage in which the flow rate detection element is disposed, and an enclosure portion enclosing the circuit board. A cover closes the enclosure portion. | 01-01-2009 |
20100000308 | FLOW RATE MEASURING APPARATUS - An inflow port and an outflow port of a bypass passage have openings on a front surface near a projecting end and on a bottom surface, respectively, of a bypass passage forming member. A recess portion is disposed on the front surface of the bypass passage forming member on a circuit housing portion side of the inflow port so as to extend at a predetermined depth over an entire region in a longitudinal direction of a short side of a rectangular cross section of the bypass passage forming member. | 01-07-2010 |
20100095761 | FLOW RATE MEASURING DEVICE - In a flow rate measuring device including a bypass channel having at least one bending portion and at least one channel portions, a detecting element is disposed in the bypass channel to detect the flow rate of measurement target fluid, a ratio L/H of a width H of the channel portion in which the detecting element is disposed, and a distance L from the bending portion at the upstream side of the detecting element to the upstream end portion of the detecting portion is set in range from 0 to 0.7, and a ratio D/H of a distance D from the wall surface of the base side of the detecting element to the center of the detecting portion of the surface of the detecting element and the width H of the channel portion is set in the range from 0.22 to 0.33. | 04-22-2010 |
20100313651 | FLOW ELEMENT - Although flow detection accuracy deterioration due to a subject fluid inflow into a gap between a sensor device and an engaging portion is prevented by an underflow inhibitor, the underflow inhibitor overflow to a sensor device surface results in the subject fluid turbulence, causing a flow element output fluctuation risk. One solution is a configuration comprising a sensor device made of a planar semiconductor material with a heating element and an intake air temperature detection element formed thereon, a support member containing an engaging portion the sensor device is engaged to, which is placed at a passage the subject fluid circulates and underflow inhibitor being filled into a void between the sensor device and the support member to prevent the subject fluid from flowing into the void, and a pooling portion being placed to prevent the under flow inhibitor from overflowing out of the void. | 12-16-2010 |
20110088464 | FLOW RATE MEASURING APPARATUS - The flow rate measuring apparatus includes a connector portion, a main body portion, a bypass passage, a flow rate sensing element having a flow rate detection portion, a control circuit, a pair of metal terminals having end portions connected to a connector, embedded portions molded integrally with a resin portion constituting the main body portion, and exposed portions exposed in the main passage, which are connected to each other in a cascade manner, and a fluid temperature sensing element having a temperature sensing portion. The fluid temperature sensing element is arranged at a position apart from an outer wall surface of a side face of the bypass passage, and the temperature sensing portion is arranged at the center between the pair of metal terminals that are exposed in the main passage by the same length or between extension lines thereof. | 04-21-2011 |
20120000280 | FLOW RATE MEASURING APPARATUS - Provided is a flow rate measuring apparatus which prevents a reduction in flow-rate detection accuracy through reducing stress applied to a flow rate detection element. The flow rate measuring apparatus includes a support member ( | 01-05-2012 |
20120273388 | ELECTRONIC CIRCUIT STORAGE CASE AND MANUFACTURING METHOD THEREOF - An electronic circuit storage case includes a housing made of resin and having a case portion storing an electronic circuit board and a connector portion extending in a direction perpendicular to a board attachment surface of the case portion and incorporating a connector. Interior and exterior opening holes communicate at bottoms via a communication hole. A ventilating hole continuing from the interior of the case portion to the exterior of the connector portion is provided in a solid portion of the housing. The interior opening hole and the communication hole are bent in an L shape and provided to a primary resin mold part forming the housing. The exterior opening hole is provided to a secondary resin mold part of the housing enclosing the primary resin mold part and forming the connector and case portions so as to communicate with one end of the L-shaped communication hole substantially perpendicularly. | 11-01-2012 |
20150101402 | FLOW RATE MEASURING APPARATUS - Dust with various particle diameters entering a bypass passage, particularly, relatively large dust with a particle diameter of 100 to 200 μm or so, is reliably caused to collide with a first step-shaped part, a second step-shaped part and a plate-like member to be sufficiently decelerated and reach a flow rate detecting device with low collision energy. This can prevent the flow rate detecting device from being damaged by collision of dust. Furthermore, the placement position of the plate-like member is optimized to suppress air turbulence at a flow rate detecting part, which achieves a good balance between flow rate detection accuracy and dust tolerance. | 04-16-2015 |