Bland, TX
Edwin Bland, Mansfield, TX US
Patent application number | Description | Published |
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20100032888 | PICKOFF MECHANISM FOR MAIL FEEDER - A pickoff system for removal of mail pieces one at a time from the end of a stack includes a pickoff belt mechanism positioned to frictionally engage an outer surface of a mail piece at the end of the stack and transport it transversely to a thickness direction of the stack, which mechanism includes one or more belts mounted on rollers and driven by a drive motor. A sensor is positioned to determine mail piece movement speed as it is being transported by the pickoff belt mechanism, and a measurement device determines belt movement speed during operation of the pickoff belt mechanism. A system is provided for reducing or stopping slipping of the mail piece relative to the belt during transport by the belt pickoff mechanism. A controller is connected to the sensor and the belt movement speed measurement device. The controller is configured to compare the belt movement speed and the mail piece movement speed during operation, and when mail piece movement speed is slower than belt movement speed, indicating slipping of the mail piece relative to the belt of the pickoff belt mechanism, the controller actuates the means for stopping slipping of the mail piece relative to the belt. | 02-11-2010 |
20100034623 | PICKOFF MECHANISM FOR MAIL FEEDER - A pickoff system for removal of mail pieces one at a time from the end of a stack includes a pickoff belt mechanism, a sensor positioned to determine mail piece movement speed, and a measurement device determines belt movement speed during operation of the pickoff belt mechanism. A vacuum system includes a vacuum pump and a vacuum manifold positioned to apply suction to the mail piece in a direction that tends to hold the mail piece against the belt of the pickoff belt mechanism. A controller is configured to compare the belt movement speed and the mail piece movement speed during operation, and when mail piece movement speed is slower than belt movement speed, indicating slipping of the mail piece relative to the belt of the pickoff belt mechanism, the controller temporarily increases suction force applied to a mail piece being transported by the pickoff belt mechanism. | 02-11-2010 |
James A. Bland, Rhome, TX US
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20100109171 | TOWER/FRAME STRUCTURE AND COMPONENTS FOR SAME - A tower/frame structure of interconnected columns and beams (which may be used in a cooling tower) and novel columns, beams, connection mechanisms and other components are provided. In one embodiment, a column and a beam are constructed of pultruded composite fiber-reinforced plastic (FRP) materials. The beam includes two sidewall extensions or flanges (each having one or more attachment apertures) at one end and which are integral with the beam for connection to the column (having one or more corresponding attachment apertures). The dimension/spacing between the inner walls of the two flanges substantially equals or is slightly larger than the outer dimension of the column. The attachment holes are aligned and a fastener is inserted through the extensions and column for attaching the column and beam. The C-shaped end of the beam substantially conforms to the cross-sectional shape and dimensions of the column. Additional plastic components, such as a firewall and toe/trim member, for use in a cooling tower are also provided. | 05-06-2010 |
20110241232 | HOT WATER DISTRIBUTION SYSTEM AND METHOD FOR A COOLING TOWER - A cooling tower with a hot water distribution system includes a distribution lateral disposed above a hot water basin. The distribution lateral discharges fluid into the hot water basin, which in turn, releases the fluid through a plurality of orifices. As the fluid is released, it falls on heat-exchanging fill material that assists in increasing the cooling rate of the fluid. The distribution lateral is configured structurally to discharge the fluid through a plurality of outlets at one or more angles (as compared to the horizontal) into the hot water basins. In one embodiment, the outlets are arranged into one or more rows that extend along a substantial length of the distribution lateral. Discharging the fluid in this manner enhances and promotes a more even fluid flow within the hot water basin, which results in a more even fluid flow over and onto the fill material, thereby increasing thermal efficiency. | 10-06-2011 |
20120032360 | TOWER/FRAME STRUCTURE AND COMPONENTS FOR SAME - A tower/frame structure of interconnected columns and beams (which may be used in a cooling tower) and novel columns, beams, connection mechanisms and other components are provided. In one embodiment, a column and a beam are constructed of pultruded composite fiber-reinforced plastic (FRP) materials. The beam includes two sidewall extensions or flanges (each having one or more attachment apertures) at one end and which are integral with the beam for connection to the column (having one or more corresponding attachment apertures). The dimension/spacing between the inner walls of the two flanges substantially equals or is slightly larger than the outer dimension of the column. The attachment holes are aligned and a fastener is inserted through the extensions and column for attaching the column and beam. The C-shaped end of the beam substantially conforms to the cross-sectional shape and dimensions of the column. Additional plastic components, such as a firewall and toe/trim member, for use in a cooling tower are also provided. | 02-09-2012 |
20140138859 | HOT WATER DISTRIBUTION SYSTEM AND METHOD FOR A COOLING TOWER - A cooling tower with a hot water distribution system includes a distribution lateral disposed above a hot water basin. The distribution lateral discharges fluid into the hot water basin, which in turn, releases the fluid through a plurality of orifices. As the fluid is released, it falls on heat-exchanging fill material that assists in increasing the cooling rate of the fluid. The distribution lateral is configured structurally to discharge the fluid through a plurality of outlets at one or more angles (as compared to the horizontal) into the hot water basins. In one embodiment, the outlets are arranged into one or more rows that extend along a substantial length of the distribution lateral. Discharging the fluid in this manner enhances and promotes a more even fluid flow within the hot water basin, which results in a more even fluid flow over and onto the fill material, thereby increasing thermal efficiency. | 05-22-2014 |
Jeremy M. Bland, Magnolia, TX US
Patent application number | Description | Published |
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20150139769 | SYSTEM AND METHOD FOR A SELF-CONTAINED LIFTING DEVICE - A modular lifting system, including an enclosable lifting device support structure. The enclosable lifting device support structure includes a deployable top, a plurality of lateral sides, a base coupled to the plurality of lateral sides, and a plurality of extension arms. The deployable top is configured to support a lifting device on a first side of the deployable top. The plurality of extension arms are configured to extend and support the deployable top when the deployable top is deployed. | 05-21-2015 |
Ronald G. Bland, Houston, TX US
Patent application number | Description | Published |
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20090152007 | OPTIMIZING DRILLING PERFORMANCE USING A SELECTED DRILLING FLUID - To improve drilling performance, a drilling fluid is selected based on one or more criteria and to have at least one target characteristic. Drilling equipment is used to drill a wellbore, and the selected drilling fluid is provided into the wellbore during drilling with the drilling equipment. The at least one target characteristic of the drilling fluid includes an ability of the drilling fluid to penetrate into formation cuttings during drilling to weaken the formation cuttings. | 06-18-2009 |
20140158360 | DRAG REDUCING AGENTS FOR OIL- AND SYNTHETIC-BASED FLUIDS - Minimizing circulating pressure loss and/or reducing friction in drilling fluid operations to minimize equivalent circulating density (ECD) and maximize flow for borehole cleaning, tool optimization and efficient drilling may be achieved by the addition of friction improvers or drag reducers while circulating drilling fluids. Suitable drag reducers may include, but not necessarily be limited to, poly(alpha-olefins); polyisobutylene; condensation polymers of dicarboxylic acids or anhydrides, or polyols and monocarboxylic acids, addition polymers of unsaturated esters; copolymers of alpha-olefins with unsaturated esters; polystyrene acylated with long chain fatty acids; polyalkylene oxides; copolymers of alkyl acrylates with N-containing olefins; and combinations thereof. | 06-12-2014 |
Ronald Gene Bland, Houston, TX US
Patent application number | Description | Published |
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20090205828 | Production and Delivery of a Fluid Mixture to an Annular Volume of a Wellbore - The methods described herein generally relate to preparing and delivering a fluid mixture to a confined volume, specifically an annular volume located between two concentrically oriented casing strings within a hydrocarbon fluid producing well. The fluid mixtures disclosed herein are useful in controlling pressure in localized volumes. The fluid mixtures comprise at least one polymerizable monomer and at least one inhibitor. The processes and methods disclosed herein allow the fluid mixture to be stored, shipped and/or injected into localized volumes, for example, an annular volume defined by concentric well casing strings. | 08-20-2009 |
Ronald L. Bland, Celina, TX US
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20090183149 | DATA IMAGING SYSTEM AND METHODS - A method performed by a network device may include receiving index information from a second network device identifying an updated application, querying a third network device for the identified updated application, receiving the identified updated application from the third network device, storing the identified updated application received from the third network device and applying stored application user settings from memory to the stored updated application. | 07-16-2009 |
20120331531 | CUSTOM DATA IMAGE BUILDING - A first server is configured to receive an image from a first client device. The image may include an instruction to provide a second client device with a computer file. The first server is further configured to store the image, receive a task query from the first client device, and provide a task query response to the first client device based on receiving the task query. The task query response may include an indication that the first server is storing a task associated with the second client device. The first server is further configured to receive an image request from the second client device, communicate with a second server to identify whether the second client device is authorized to receive the image, and provide, to the second client device, the computer file associated with the image based on identifying that the second client device is authorized to receive the image. | 12-27-2012 |
Ross E. Bland, Dallas, TX US
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20100159866 | Systems and methods for interference cancellation - Systems and methods for interference cancellation in which a first signal having a first frequency may be cancelled with a second frequency having a second and different (e.g., lower) frequency by employing sampling to cancel the first signal with the separate signal at the sample instances. | 06-24-2010 |
20100202566 | System and method for improved spur reduction in direct RF receiver architectures - Improved spur reduction architectures that improve linearity in direct radio frequency (RF) receiver architectures. Non-uniform sampling in the form of sampling clock phase (or frequency) modulation is used to induce phase (or frequency) modulation on signals that are being received from a given Nyquist zone. At the output of the ADC (analog-to-digital converter), the signals are de-modulated to remove the induced modulation based on the Nyquist zone that is being received. The de-modulation process results in non-desired spurious artifacts (interfering leakage signals and ADC spurs) being spread in the frequency domain. Strong spurious artifacts may be removed after measuring the induced modulation and de-modulating. For the case of weak spurious artifacts, the de-modulation for the desired Nyquist zone spread these signals in the frequency domain. Induced modulation on signals may also provide a dithering effect on the ADC. | 08-12-2010 |