Patent application number | Description | Published |
20090044918 | METHOD OF LATCHING AN ACCORDIAN FOLDING PARTITION - A partition system is provided as well as an apparatus and method for securing movable partitions. In one embodiment, a movable partition, such as a folding door, includes a post member (e.g., a lead post) having a latching structure associated therewith. Another post member, such as associated with a wall or another movable partition, includes a latching structure configured to form a magnetic coupling with the first latching structure. One of the latching structures may be slidingly displaced relative to its associated post member so as to selectively bring the two latching members into or out of alignment with one another. When a magnetic coupling has been formed, relative displacement of the two latching structures results in the weakening, if not defeat, of the magnetic coupling so that the post members, and their associated partitions, may be displaced away from one another. Other latching structures are also disclosed. | 02-19-2009 |
20100257793 | MOVABLE PARTITIONS, PROTECTIVE CLIPS FOR MOVABLE PARTITIONS, AND RELATED METHODS - Protective clips for movable partitions include a guard portion that protrudes from a top major surface of a base portion. The guard portion extends along the top major surface proximate to a front side of the base portion. The guard portion also may extend along the top major surface proximate to at least one end side surface a longitudinal end of the base portion. Movable partitions include one or more such protective clips. The protective clips optionally may be used to attach a sweep strip to panels of a movable partition. Methods of forming such protective clips include molding the clips within a mold cavity. | 10-14-2010 |
20110024061 | MOVABLE PARTITIONS, HEADER ASSEMBLIES FOR MOVABLE PARTITIONS, AND METHODS OF FORMING HEADER ASSEMBLIES FOR MOVABLE PARTITIONS - Movable partitions and movable partition system include a header assembly and a movable partition. The header assembly may comprise an elongated overhead track including a first channel, a second channel, and a central channel between the first and second channels. A plurality of support bracket attachment features may be included with at least one support bracket attachment feature on each of an outer surface of the first channel and an outer surface of the second channel. A support bracket may be coupled to each of the support bracket attachment features. The movable partition may comprise a plurality of panels connected to one another with hinge-like member and may be suspended from the overhead track. Embodiments of overhead tracks and methods of forming header assemblies are also disclosed. | 02-03-2011 |
20120055004 | METHODS OF FORMING PROTECTIVE CLIPS FOR MOVABLE PARTITIONS AND METHODS OF INSTALLING PROTECTIVE CLIPS FOR MOVABLE PARTITIONS - Protective clips for movable partitions include a guard portion that protrudes from a top major surface of a base portion. The guard portion extends along the top major surface proximate to a front side of the base portion. The guard portion also may extend along the top major surface proximate to at least one end side surface at a longitudinal end of the base portion. Movable partitions include one or more such protective clips. The protective clips optionally may be used to attach a sweep strip to panels of a movable partition. Methods of forming such protective clips include molding the clips within a mold cavity. | 03-08-2012 |
20120055638 | MOVABLE PARTITIONS AND PROTECTIVE CLIPS FOR MOVABLE PARTITIONS - Protective clips for movable partitions include a guard portion that protrudes from a top major surface of a base portion. The guard portion extends along the top major surface proximate to a front side of the base portion. The guard portion also may extend along the top major surface proximate to at least one end side surface at a longitudinal end of the base portion. Movable partitions include one or more such protective clips. The protective clips optionally may be used to attach a sweep strip to panels of a movable partition. Methods of forming such protective clips include molding the clips within a mold cavity. | 03-08-2012 |
20120124923 | MOVABLE PARTITION SYSTEMS INCLUDING INTUMESCENT MATERIAL AND METHODS OF INSTALLING SUCH MOVABLE PARTITION SYSTEMS - Movable partition systems comprise a movable partition. A track may be configured to engage with the movable partition such that the movable partition is extendable along the track. A first mass of intumescent material may be positioned adjacent the track on a first side of a gap defined by the track. A second mass of intumescent material may be positioned adjacent the track on a second, opposing side of the gap defined by the track. At least one shroud may at least partially surround the track and may be configured to confine expansion of the first and second masses of intumescent material toward one another across the gap. An intumescent material may be sandwiched in a gap between a leading end of a lead post at a distal end of the movable partition and a cap at least partially surrounding the leading end to define the gap. | 05-24-2012 |
Patent application number | Description | Published |
20090188633 | FOLDING PARTITIONS, COMPONENTS THEREFOR AND RELATED METHODS - Folding partitions and related methods and components are provided and may include accordion-style folding doors or partitions having multiple folding panels. In one embodiment, a folding partition includes one or more baffling devices. The baffling device may include an elongated enclosure having a first opening proximate a first longitudinal end of the elongated enclosure, a second opening proximate a second longitudinal end of the elongated enclosure, and a flow path extending from the first opening to the second opening. A sound attenuation chamber may be disposed adjacent the at least one insulative channel disposed adjacent at least a portion of the flow path. In one embodiment, the baffling device may be disposed in, or otherwise associated with, a jamb component of the partition. In another embodiment, the baffling device may be disposed in, or otherwise associated with, the hinged connection of panel sections of a partition panel. | 07-30-2009 |
20120031002 | APPARATUS AND METHOD FOR PREASSEMBLING, SHIPPING, AND INSTALLING A MOVABLE PARTITION SYSTEM - An at least partially preassembled and packaged movable partition system is disclosed. The at least partially preassembled and packaged movable partition system includes a shipping box including a plurality of pocket walls defining a pocket therein, at least a portion of a track located within the pocket, the at least a portion of the track coupled to at least one pocket wall of the plurality of pocket walls, and a door coupled with the at least a portion of the track. Methods of packaging and installing an at least partially preassembled and packaged movable partition system are further disclosed herein. | 02-09-2012 |
20120187703 | SECURING MECHANISMS FOR PARTITIONS, PARTITION SYSTEMS INCLUDING SAME, AND RELATED METHODS - Partition systems comprise a first post member attached to a foldable partition, a securing mechanism attached to the first post member and comprising at least one permanent magnet switch configured to selectively apply a significant attractive magnetic force, and at least another post member comprising a material responsive to the applied significant attractive magnetic force of the at least one permanent magnet switch. Methods of securing a partition system comprise bringing a first post member of a foldable partition proximate at least another post member; and manipulating at least one permanent magnet switch attached to the first post member to selectively apply a significant attractive magnetic force to the at least another post member. | 07-26-2012 |
20120199295 | STRUCTURES AND METHODS FOR SECURING INSULATION TO PARTITIONS - Movable partitions comprise a plurality of interconnected panels, at least one sheet of insulation adjacent the plurality of interconnected panels, and at least one hinge member connecting adjacent panels of the plurality of interconnected panels. The at least one hinge member comprises at least one pointed member that extends therefrom. The pointed member is at least partially inserted into the at least one sheet of insulation, and the at least one sheet of insulation is supported by a surface of the at least one pointed member that has a width that is greater than a thickness of the at least one pointed member. | 08-09-2012 |
Patent application number | Description | Published |
20140315704 | AUTOMATIC, ON-THE-FLY, SEPARATOR OPTIMIZATION APPARATUS AND METHOD - A system operating as a centrifugal, liquid-liquid separator may be controlled, and even optimized, by automatic control of back pressure to establish an optimum position of the dispersion band therein. Optimizing to minimize impurities (from each other) in each of two separated phases is possible, even simultaneously, by reliance on a processor setting the settling lengths of both heavy and light phases at the same value. Settling length, defined in accordance with the invention, reflects a settling velocity multiplied by a residence time. Equating these lengths, for droplets of each in the other liquid, provides superior results over conventional settling theory maximizing settling area. Equalization of residence times did not provide an improvement over conventional settling theory. | 10-23-2014 |
20140315705 | DYNAMIC, INFLUENT-CONSTITUENT-BASED, SEPARATOR CONTROL APPARATUS AND METHOD - A system operating as a centrifugal, liquid-liquid separator may be controlled, and even optimized, by automatic control of back pressure to establish an optimum position of the dispersion band therein. Optimizing to minimize impurities (from each other) in each of two separated phases is possible, even simultaneously, by reliance on a processor setting the settling lengths of both heavy and light phases at the same value. Settling length, defined in accordance with the invention, reflects a settling velocity multiplied by a residence time. Equating these lengths, for droplets of each in the other liquid, provides superior results over conventional settling theory maximizing settling area. Equalization of residence times did not provide an improvement over conventional settling theory. | 10-23-2014 |
Patent application number | Description | Published |
20100175983 | Mutual Remediation of Effluents of Petroleum Production - Petroleous production is associated with effluents well known to foul lines, nozzles, and containers while consuming substantial energy to assist in both production and remediation. A heat exchanger and manifold system maximizes flows, minimizes changes in flow cross-section, and maximizes heat transfer area, while recycling both water and heat between processes. Dirty regions and clean regions result from scrubbing horizontal exhaust stacks and evaporation of production water in concert to remediate one another, while recycling a significant portion of the energy consumed by each. The heat exchanger relies on a manifold having many layered conduits, each connected to a single layer level of one or more cylindrical conduits in the exchanger. The cylinders of the exchanger themselves are arranged in multiple layers, each layer of a heat exchanger element being connected to a single layer of the manifold. Any shape of cylinder may work, but a right circular cylinder having corrugated sheets spacing the layers may be simple to construct. | 07-15-2010 |
20100176064 | Back Pressure-Matched, Integrated, Environmental-Remediation Apparatus and Method - Production brines are used to scrub a horizontal stack receiving exhaust from an energy source, controlling, reducing, or both noxious chemicals. Mutual remediation of flows from petroleous production cool and scrub exhausts from flares burning waste hydrocarbons, heaters lowering viscosity of crude oil, engines driving oil pumps or natural gas compressors, and the like. Resulting evaporation of production brines results in distilled water, more concentrated brines to reduce hauling, or, optionally, dehydrated dry waste minerals from the brines. Year-round operation of brine evaporation ponds is facilitated, and may be another source of process pre-heating. | 07-15-2010 |
20100257781 | SOLAR-AUGMENTED, NOX- AND CO2-RECYCLING, POWER PLANT - Stack gases of a burner, such as a power plant or other combustion source, may be remediated by a captive algae farm cycling some portion of the stack gases through a scrubber, and ultimately out into a manifold feeding a farm composed of tubes hosting the growth of algae. Liquids from the scrubber, including water capturing volatile organic compounds, solid particulates, nitrogen compounds, sulfur compounds, carbon dioxide, and the like, remediate the water and feed the algae farm. Meanwhile, the vapors and other gases provide an environment rich in water vapor, nitrogen compounds acting as fertilizer, and carbon dioxide to feed the algae to promote increased rates of growth. The algae may be recycled as a fuel itself, or may be harvested for use as a soil amendment to enrich the organic content of soils. | 10-14-2010 |
20110080819 | SYSTEMS AND METHODS FOR RELIABILITY TESTING OF OPTICAL MEDIA USING SIMULTANEOUS HEAT, HUMIDITY, AND LIGHT - Methods and systems for the rapid evaluation of optical media reliability are disclosed. Simultaneous exposure of optical media to heat, humidity, and light has been found to be an effective test to differentiate more stable media from less stable media in a reasonable amount of time. | 04-07-2011 |
20120205231 | CONTROLLED-GRADIENT, ACCELERATED-VAPOR-RECOMPRESSION APPARATUS AND METHOD - An accelerated vapor recompression apparatus | 08-16-2012 |
20120205232 | CONTROLLED-GRADIENT, ACCELERATED-VAPOR-RECOMPRESSION APPARATUS AND METHOD - An accelerated vapor recompression apparatus | 08-16-2012 |
20120205235 | CONTROLLED-GRADIENT, ACCELERATED-VAPOR-RECOMPRESSION APPARATUS AND METHOD - An accelerated vapor recompression apparatus | 08-16-2012 |
20130125643 | Thermal Pulse Flow Meter - An apparatus and method are disclosed for using a thermally active device as a flow meter. The flow meter may have an extremely low mass, rapid response time, and use minimal energy. The flow meter may be located near a flow-side surface of a conduit wall, flush with the surface of a wall, or within a boundary layer of a flow in a conduit. In these locations, the device may present virtually no obstruction to the flow. In certain embodiments, the device may use a resistance temperature device (RTD) heated by a known current, and then tested for resistance at a comparatively much lower (nominally zero) value. A flow rate may be calculated as a function of temperature measurements taken at different steady-state conditions. Flow rates may be so measured at any desired frequency, including very infrequently, such as seconds, minutes, or days apart. | 05-23-2013 |
20130186741 | CONTROLLED-GRADIENT, ACCELERATED-VAPOR-RECOMPRESSION APPARATUS AND METHOD - An accelerated vapor recompression apparatus | 07-25-2013 |
20140329657 | UNVENTED, BACK-PRESSURE-CONTROLLED, LAMINAR-ANNULAR-VELOCITY-DISTRIBUTION, CONTINUOUS CENTRIFUGAL SEPARATOR APPARATUS AND METHOD - A continuous centrifugal separator (CCS) system provides a laminar, annular, velocity distribution (LAVD) throughout, using axially staged and radially staged distribution of incoming flows. Diffuser plates help establish the LAVD at comparatively low (stably laminar) Reynolds numbers in axial flow through a trapezoidal (trapezoid of rotation) rotor shell. Dynamic cleaning (during uninterrupted operation) by feedback control of fluid and system conditions (e.g., turbidity, vibration) may be set and reset by feedback control. Static cleaning removes deposits not flushed by dynamic cleaning. A coalescence plate encourages collapse of the dispersion band to a thin boundary between separated species at a central radius optimized by operating parameters, such as mass flow rate and rotational velocity. | 11-06-2014 |
20150014149 | CONTROLLED-GRADIENT, ACCELERATED VAPOR-RECOMPRESSION APPARATUS AND METHOD - An accelerated vapor recompression apparatus | 01-15-2015 |
20150021281 | HYBRID-SCAVENGER, SEPARATOR SYSTEM AND METHOD - A hybrid scavenger operates downstream of a separator such as a gunbarrel separator for petroleum production. The separator may be overdriven to maximize use of a permitted reinjection rate. The hybrid scavenger then extracts water from the oil and oil from the water without having to treat the entire stream of incoming production fluids. | 01-22-2015 |
20150076077 | HYDRODYNAMICALLY ISOLATED, ION-GENERATOR APPARATUS AND METHOD - An apparatus and method isolating ion generation from target metal precipitation and flocculation rely on an ion generator and a precipitation reactor distinct, separated, optimized, and otherwise independent from each other as to flow regime and contained fluid at all times. No co-habitation of ion generation and precipitation nor their flow regimes is permitted in a single unit. Plug flow at hyper turbulence in the ion generator contrasts with quiescent to laminar flows in the precipitation reactor. Coating sacrificial anodes is avoided by avoiding over driving currents for ionization at the anode. A precipitation reactor is optimized by a dwell time effective to precipitate and flocculate heavy target metal precipitants and sacrificial ions relying on weak forces not tolerated by inertial forces in the ion generator. | 03-19-2015 |
Patent application number | Description | Published |
20090016322 | Selecting Transport Addresses to Route Streams Between Endpoints - Selecting a transport address for a call session between a first endpoint of a first region and a second endpoint of a second region includes determining that the call session is being initiated. A relationship between the first region and the second region is determined. One or more transport addresses of the first endpoint are identified in accordance with the relationship to yield one or more selected transport addresses. | 01-15-2009 |
20090325491 | SYSTEM FOR UTILIZING IDENTITY BASED ON PAIRING OF WIRELESS DEVICES - In one embodiment, an apparatus may include a memory and a processor. The processor may be operable to create a wireless connection to a wireless device. The processor may be operable to form a pairing with the wireless device based on a unique identifier of the wireless device. The unique identifier may be received from the wireless device. The unique identifier may identify the wireless device in the pairing. The processor may be operable to receive user data associated with the unique identifier from a database. The processor may be operable to initiate configuration of an IP telephony service, where the configuration based, at least in part, on the user data. | 12-31-2009 |
20100205280 | System and Method for Performing Signaling on Behalf of a Stateless Client - A system for, and method for, performing state-based signaling on behalf of a stateless client. In one embodiment, the system includes a controller, couplable to a state-based terminal, that translates at least one stateless signaling message received from the stateless client to at least one state-based signaling message for presentation to the state-based terminal thereby facilitating a media stream communications session between the stateless client and the state-based terminal over an Internet Protocol (IP)-based network. | 08-12-2010 |
20110075883 | Method and System for Recording Automatic Call Distributor Calls - A method for recording automatic call distributor calls includes receiving from a caller a call for distribution to one of a plurality of agents and distributing the call to a first agent of the plurality of agents for handling. The method includes creating a call signature associated with the call for recording verification and recording communications of the call to a recording file. The method also includes embedding the call signature in the recording file. | 03-31-2011 |
20110302400 | SECURE VIRTUAL MACHINE BOOTSTRAP IN UNTRUSTED CLOUD INFRASTRUCTURES - Techniques are described for securely booting and executing a virtual machine (VM) image in an untrusted cloud infrastructure. A multi-core processor may be configured with additional hardware components—referred to as a trust anchor. The trust anchor may be provisioned with a private/public key pair, which allows the multi-core CPU to authenticate itself as being able to securely boot and execute a virtual machine (VM) image in an untrusted cloud infrastructure. | 12-08-2011 |
20120219153 | Intercepting a Communication Session in a Telecommunication Network - Intercepting a secure communication session includes distributing a key from a key distribution point to establish a secure communication session between a first endpoint and a second endpoint. A secure channel is established between the key distribution point and an intercepting point. The intercepting endpoint may be determined to be authorized to intercept the secure communication session. The key is provided to the intercepting endpoint only if the intercepting endpoint is authorized to intercept the secure communication session, where the key provides the intercepting endpoint with access to intercept the secure communication session. | 08-30-2012 |
20120303941 | METHOD AND APPARATUS FOR SECURING CPUS BOOTED USING ATTACHED FLASH MEMORY DEVICES - The present disclosure describes techniques evaluating compute and/or thermal loads (among other things) to aid in managing a collection of one or more containerized or modular data centers. For example, forecasts (or real-time measurements) of environmental factors (as well as projected computing demands) may be used to tailor the compute loads, cooling strategies or other metric of data center operations for a network of containerized or modular data centers. Doing so allows an operator of such a data center network to manage specific operational goals in real time. | 11-29-2012 |
20130142329 | UTILIZING PHYSICALLY UNCLONABLE FUNCTIONS TO DERIVE DEVICE SPECIFIC KEYING MATERIAL FOR PROTECTION OF INFORMATION - A device specific key is generated within an electronic device by providing a challenge to a physically unclonable function (PUF) structure integrated within the electronic device, where the PUF structure outputs a specific response based upon a specific challenge provided to the PUF structure. The PUF response is provided to a cryptographic module integrated within the electronic device, and a device specific key is generated by the cryptographic module utilizing a cryptographic key generation algorithm. The device specific key is generated based upon a combination of input data including the PUF response and data that is specific to the electronic device. | 06-06-2013 |
20140223530 | Secure Network Deployment - In one embodiment, a Manufacturer Installed Certificate (MIC) and a personal identification number are sent to a call controller to request a configuration profile. When the configuration file is received, the IP phone is provisioned according to the configuration profile. | 08-07-2014 |