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Doom
Dennis Doom, Redmond, WA US
| Patent application number | Description | Published |
|---|---|---|
| 20100318849 | RUNTIME BEHAVIOR ALTERATION USING BEHAVIOR INJECTION HARNESS - Behavior Request is passed by a behavior injection harness specifying a particular behavior point, component, configuration or machine state, iteration (or sequence) to execute, product-independent atomic operation or to send data to be consumed by product code. Behavior requests can be configured and passed to a product process during runtime to change the state of a thread without affecting rest of deployment or configuration. | 12-16-2010 |
Ronald Doom, Spring, TX US
| Patent application number | Description | Published |
|---|---|---|
| 20090205732 | ORIFICE PLATE CARRIER - An orifice plate carrier for positioning an orifice plate within an orifice fitting to measure fluid flow rate through a conduit is disclosed. In some embodiments, the plate carrier has an opening therethrough and an inner surface surrounding the opening. A lip extends radially from the inner surface to support an orifice plate assembly with an orifice plate disposed therein. At least one flow port extends through the body. Each flow port is configured to allow fluid therethrough and to reduce a pressure differential between fluid up and downstream of the orifice plate during installation and extraction. At least two notches, each notch extending radially from the inner surface, engage the orifice plate and maintain the concentric position of the orifice plate within the fitting. | 08-20-2009 |
Ronald Gwen Doom, Spring, TX US
| Patent application number | Description | Published |
|---|---|---|
| 20100229988 | Dual Chamber Orifice Fitting Plate Support - Methods and apparatus for positioning an orifice plate within a body having a straight flowbore. One embodiment includes a carrier supporting the orifice plate and a drive member operable to engage the carrier and move the carrier along a first axis perpendicular to the flowbore. The drive member is also operable to limit the movement of the carrier along a second axis perpendicular to the flowbore and perpendicular to the first axis. A pin is operable to engage the carrier so as to limit movement along the first axis. | 09-16-2010 |
Troy Doom, Ann Arbor, MI US
| Patent application number | Description | Published |
|---|---|---|
| 20090085366 | Device Holder And Storage Drawer - Disclosed is a device holder and storage compartment for use in a motor vehicle. The device holder and storage compartment are in the form of a slidable drawer that is concealed within a dashboard when in a closed position and extended from the dashboard when in an open position. The drawer has a generally horizontal bottom surface, a front end wall, a back end wall oppositely disposed from the front end wall, a first side wall and a second side wall adjoining the front end wall and the back end wall. All the walls are generally vertical in orientation. The drawer also has a generally vertical dividing wall spaced apart from the front end wall. The dividing wall defines a front region between the dividing wall and the front end wall and a rear region between the dividing wall and the back end wall. A front cover can be moveably attached to the drawer proximate the front end wall and move between a closed position and an open position. When in the closed position, the front cover is generally vertical and adjacent to the front end wall. In the open position, the front cover is spaced apart from the front end wall and affords viewing of a front surface of a device held in the front device holder region of the drawer. The front end wall of the drawer can have a cut-away portion which allows viewing of a bottom portion of the front display of the device. | 04-02-2009 |
| 20090134654 | GLOVE BOX ENERGY ABSORBING STRUCTURE - A glove box energy absorbing structure that does not use braces to attach to an instrument panel or instrument panel reinforcement is provided. The energy absorbing structure includes a selectively collapsible pillar proximate to a bottom region of an upper glove box and a selectively collapsible pillar as part of a top wall of a lower glove box. The selectively collapsible pillar of the lower glove box is oppositely disposed from and adjacent to the selectively collapsible pillar of the upper glove box. The two selectively collapsible pillars afford for engagement with each other and thereby afford for energy to be absorbed during an accident when the lower glove box is impacted by the knee of a passenger sitting in the front seat of a motor vehicle. | 05-28-2009 |