Patent application number | Description | Published |
20120311867 | ADJUSTABLE SEAL TRIMMER AND METHOD OF USE THEREOF - A support member having an inner sleeve portion and an outer sleeve portion defining a cavity therebetween, and a length guide portion variably disposed within the cavity of the support member is provided. Moreover, an inner sleeve portion insertable within the port seal for preventing deformation of the seal under a force of a cutting blade, an outer sleeve portion configured to radially surround a port seal, a bottom surface portion connecting the outer sleeve portion to the inner sleeve portion, wherein the bottom surface portion includes a plurality of openings, a plurality of axial fingers configured to extend from the bottom surface portion through the plurality of openings, wherein an extension of the plurality of axial fingers determines a length of a port seal is also provided. Furthermore, an associated method is also provided. | 12-13-2012 |
20130143439 | CONNECTOR ASSEMBLY HAVING DEFORMABLE CLAMPING SURFACE - A coaxial cable connector comprising a connector body having a first end and a second end, wherein the connector body is configured to receive a coaxial cable through the second end, a first cooperating surface disposed within the connector body, wherein the first cooperating surface is a surface of a clamp, the clamp is configured to threadably engage an outer conductor of the coaxial cable, and a second cooperating surface, wherein the second cooperating surface cooperates with the first cooperating surface to collapse an outer conductor of the coaxial cable, wherein at least a portion of the second cooperating surface malleably deforms to a variable axial thickness of a non-uniform collapsed portion of the outer conductor is provided. An associated method is also provided. | 06-06-2013 |
20130178097 | COMPRESSION CONNECTOR FOR CLAMPING/SEIZING A COAXIAL CABLE AND AN OUTER CONDUCTOR - A connector comprising a connector body having a first end and a second end, the connector body configured to receive a prepared coaxial cable, the prepared coaxial cable including an outer conductor and a center conductor, a clamp disposed within the connector body, the clamp including an internally threaded portion and a ramped surface, wherein the clamp threadably engages the prepared coaxial cable, a moveable ramped component disposed within the connector body, the moveable ramped component including an internally ramped surface, and a compression member configured for axial movable engagement with the connector body, wherein, upon axial compression of the compression member, the outer conductor flares out and is pressed between the ramped surface of the clamp and the internally ramped surface of the moveable ramped component is provided. Furthermore, a clamp and an associated method are also provided. | 07-11-2013 |
20130183856 | CENTER CONDUCTOR ENGAGEMENT MECHANISM - A center conductor engagement member comprising a resilient contact region having a first end and a second end, the resilient contact region being substantially curvilinear from the first end to the second end, wherein the second end of the resilient contact region is secured by a body portion, and an insert engageable with the second end of the resilient contact region to retain the second end of the resilient contact region is provided. Furthermore, an associated method is also provided. | 07-18-2013 |
20140045357 | Integrated Retainer and Seal for Coaxial Cable Connector - A coaxial cable connector including a connector body, a compression member axially movable with respect to the connector body, a clamp having a cable end, a terminal end, and an inner bore, the inner bore having a contact surface configured to contact an outer conductor of a coaxial cable, the cable end having a slot extending toward the terminal end, and a cable seal having a band, a link, and an engagement member, the band located adjacent the contact surface, the link configured to fit into the slot, and the engagement member attached to the link opposite the band, the engagement member located adjacent the clamp, wherein the engagement member provides radially inward pressure, and wherein, upon assembly to the coaxial cable, the band forms an environmental seal between the contact surface and the outer conductor of the coaxial cable is provided. An associated method is further provided. | 02-13-2014 |
Patent application number | Description | Published |
20120088381 | CONNECTOR CONTACT FOR TUBULAR CENTER CONDUCTOR - A contact assembly comprising: a contact pin having a first end and a second end, the contact pin including a ramped portion, and a contact sleeve retainably attached to the first end of the contact pin, the contact sleeve having a flanged end and a non-flanged end, wherein the contact sleeve includes a one or more fingers, wherein, when in a first position, clearance exists between the contact sleeve and the contact pin, wherein, when in a second position, the one or more fingers of the contact sleeve engage an inner surface of a tubular center conductor to increase a moving force required to displace the contact assembly within the tubular center conductor is provided. An associated method is also provided. | 04-12-2012 |
20120088404 | CONNECTOR ASSEMBLY FOR CORRUGATED COAXIAL CABLE - A connector comprising a connector body comprising a first end, a second end, and an inner bore defined between the first and second ends of the body, a compression member comprising a first end, a second end, and an inner bore defined between the first and second ends of the cap, the first end of the compression member being structured to engage the second end of the connector body, a clamp comprising a first end, a second end, an inner bore defined between the first and second ends of the clamp, wherein the clamp facilitates threadable insertion of a coaxial cable, and a compression surface disposed within the connector body, wherein axial advancement of the compression member facilitates the clamp being axially advanced into proximity with the compression surface such that the clamp and the compression surface transmit force between one another is provided. An associated method is also provided. | 04-12-2012 |
20120214338 | CONNECTOR HAVING CO-CYLINDRICAL CONTACT BETWEEN A SOCKET AND A CENTER CONDUCTOR - A connector comprising a main body having a first end and a second end, the main body configured to receive a prepared coaxial cable, a contact having a socket, the socket disposed within the main body and configured to receive a center conductor of the coaxial cable, and an insulator disposed within the main body, the insulator body having a first end and a second end, wherein a resultant contact between the socket and the center conductor is substantially co-cylindrical. Furthermore, an associated method is also provided. | 08-23-2012 |
20120252267 | CONNECTOR HAVING A TAPERED LOCK JONIT - A connector comprising a main body having a first end and a tapered second end, wherein the main body is configured to receive a prepared coaxial cable, and a front body having a tapered first end and a second end, the front body configured to be coupled to the main body, wherein the tapered first end of the front body corresponds to the tapered second end of the main body is provided. Furthermore, an associated method is also provided. | 10-04-2012 |
20130012062 | COAXIAL CABLE CONNECTOR ASSEMBLY - A coaxial cable connector is provided. The connector includes a main body, the main body configured to receive a prepared coaxial cable, a contact having a through bore, a pin having a protrusion and a socket, the through bore configured to receive the protrusion, the socket disposed within the main body and configured to receive a center conductive strand of the coaxial cable, a first insulator body disposed within the main body, the first insulator body, an outer conductor engagement member, a compression member, wherein advancing the compression member to axially advance the outer conductor engagement member also axially advances the center conductive strand into the socket, axially advances the protrusion of the pin into the through bore, and axially advances the outer conductive layer of the coaxial cable to achieve an operational state of the connector. | 01-10-2013 |
20130012064 | CONNECTOR FOR CLAMPING A COAXIAL CABLE - A connector including a main body having a first end and a second end, the main body configured to receive a prepared coaxial cable, a front body operably attached to the main body, and an outer conductor engagement member having a first end and a second end, the outer conductor engagement member having at least one axial slot to permit deflection of the outer conductor engagement member, wherein deflection of the outer conductor engagement member clamps the coaxial cable. Furthermore, an outer conductor engagement member and an associated method are also provided. | 01-10-2013 |
20130055571 | ADJUSTABLE PREPARATION TOOL AND METHOD OF USE THEREOF - Disclosed herein is a coaxial cable preparation tool that includes a main body and a cavity extending into the main body configured to accommodate insertion of a coaxial cable therein, the cavity including a first center axis. The coaxial cable further includes a first blade extending into the cavity. The first blade is rotatable about the cavity eccentric about the first center axis. The first blade is also variably securable in a fixed position with respect to the cavity and configured to cut the coaxial cable when the main body is rotated with respect to the coaxial cable. | 03-07-2013 |
20130244484 | CONNECTOR ASSEMBLY FOR CORRUGATED COAXIAL CABLE - A connector comprising a connector body comprising a first end, a second end, and an inner bore defined between the first and second ends of the body, a compression member comprising a first end, a second end, and an inner bore defined between the first and second ends of the cap, the first end of the compression member being structured to engage the second end of the connector body, a clamp comprising a first end, a second end, an inner bore defined between the first and second ends of the clamp, wherein the clamp facilitates threadable insertion of a coaxial cable, and a compression surface disposed within the connector body, wherein axial advancement of the compression member facilitates the clamp being axially advanced into proximity with the compression surface such that the clamp and the compression surface transmit force between one another is provided. An associated method is also provided. | 09-19-2013 |
20140199886 | CONNECTOR FOR A CABLE - A connector for a cable, in one embodiment, has a body configured to receive a cable. The connector has a plurality of contacts moveably positioned within the body, and the connector has a component configured to slide or axially move. | 07-17-2014 |
Patent application number | Description | Published |
20080307590 | Autonomous Floor-Cleaning Robot - An autonomous floor-cleaning robot comprising a housing infrastructure including a chassis, a power subsystem; for providing the energy to power the autonomous floor-cleaning robot, a motive subsystem operative to propel the autonomous floor-cleaning robot for cleaning operations, a command and control subsystem operative to control the autonomous floor-cleaning robot to effect cleaning operations, and a self-adjusting cleaning head subsystem that includes a deck mounted in pivotal combination with the chassis, a brush assembly mounted in combination with the deck and powered by the motive subsystem to sweep up particulates during cleaning operations, a vacuum assembly disposed in combination with the deck and powered by the motive subsystem to ingest particulates during cleaning operations, and a deck adjusting subassembly mounted in combination with the motive subsystem for the brush assembly, the deck, and the chassis that is automatically operative in response to an increase in brush torque in said brush assembly to pivot the deck with respect to said chassis. The autonomous floor-cleaning robot also includes a side brush assembly mounted in combination with the chassis and powered by the motive subsystem to entrain particulates outside the periphery of the housing infrastructure and to direct such particulates towards the self-adjusting cleaning head subsystem. | 12-18-2008 |
20100257690 | AUTONOMOUS FLOOR-CLEANING ROBOT - A floor cleaning robot includes a housing having an underside, a substantially semi-circular front portion, and a substantially semi-circular rear portion. A displaceable bumper of a substantially semi-circular leading edge is located along a front portion of the housing. A leading wheel is mounted on the underside of the housing located adjacent to a mid-point of the semi-circular leading edge, and a battery pack cover is positioned rearwardly of the leading wheel and covers a battery pack that supplies power to the robot. At least two drive wheels are positioned rearwardly of the leading wheel, and at least one main brush is positioned rearwardly of the at least two drive wheels and is configured to rotate about an axis substantially parallel to the underside. The floor cleaning robot also includes at least one side brush having at least two arms extending outwardly from a central hub located in a recess in the underside of the housing, the at least one side brush being attached to the hub such that rotation of the hub causes the brush to direct debris from a floor surface beyond the semi-circular leading edge of the robot housing for collection by the robot. An ejectable dust bin is provided that has a surface forming at least a portion of a semi-circular trailing edge of the housing. | 10-14-2010 |
20100257691 | AUTONOMOUS FLOOR-CLEANING ROBOT - A robot includes a robot housing having a substantially arcuate forward portion and a motor drive housed by the robot housing and configured to maneuver the robot on a floor surface. At least two independently driven drive wheels are moveably attached to the robot housing and biased toward the floor surface, each of the drive wheels being moveable downwardly in response to the each of the drive wheels moving over a cliff in the floor surface. A plurality of cliff sensors are disposed adjacent a forward edge of the robot housing and spaced from each other, each cliff sensor including an emitter and a detector aimed toward the floor surface and configured to receive emitter emissions reflected off of the floor surface, each cliff sensor being responsive to a cliff in the floor surface and configured to send a signal when a cliff in the floor surface is detected. The robot also includes a wheel drop sensor in communication with each drive wheel that senses when a drive wheel moves downwardly and sends a signal indicating downward movement of the pivoted drive wheel. A controller is in communication with the cliff sensors, each of the wheel drop sensors, and the motor drive to redirect the robot when a cliff in the floor surface is detected. | 10-14-2010 |
20100263158 | AUTONOMOUS FLOOR-CLEANING ROBOT - A floor-cleaning robot includes a wheeled housing having a perimeter, a motor drive operably connected to wheels of the housing to move the robot across a floor surface, and a bumper responsive to obstacles encountered by the robot. A controller is in electrical communication with both the bumper and the motor drive and is configured to control the motor drive to maneuver the robot to avoid detected obstacles across the floor surface during a floor-cleaning operation. A driven cleaning brush, rotatable about an axis substantially parallel to an underside of the housing, is disposed substantially across a central region of the underside and is positioned to brush the floor surface as the robot is moved across the floor surface. Additionally, a driven side brush extending beyond the perimeter is positioned to brush floor surface debris from beyond the perimeter toward a projected path of the driven cleaning brush. | 10-21-2010 |
20110131741 | Autonomous Floor-Cleaning Robot - An autonomous floor-cleaning robot comprising a housing infrastructure including a chassis, a power subsystem; for providing the energy to power the autonomous floor-cleaning robot, a motive subsystem operative to propel the autonomous floor-cleaning robot for cleaning operations, a command and control subsystem operative to control the autonomous floor-cleaning robot to effect cleaning operations, and a self-adjusting cleaning head subsystem that includes a deck mounted in pivotal combination with the chassis, a brush assembly mounted in combination with the deck and powered by the motive subsystem to sweep up particulates during cleaning operations, a vacuum assembly disposed in combination with the deck and powered by the motive subsystem to ingest particulates during cleaning operations, and a deck adjusting subassembly mounted in combination with the motive subsystem for the brush assembly, the deck, and the chassis that is automatically operative in response to an increase in brush torque in said brush assembly to pivot the deck with respect to said chassis. The autonomous floor-cleaning robot also includes a side brush assembly mounted in combination with the chassis and powered by the motive subsystem to entrain particulates outside the periphery of the housing infrastructure and to direct such particulates towards the self-adjusting cleaning head subsystem. | 06-09-2011 |
20130174371 | AUTONOMOUS FLOOR-CLEANING ROBOT - A floor cleaning robot comprises a housing, wheels, and a motor driving the wheels to move the robot across a floor, a control module disposed within the housing and directing movement of the robot across the floor, a sensor for detecting and communicating obstacle information to the control module so that the control module can cause the robot to react to the obstacle, a removable bin disposed at least partially within the housing and receiving particulates, a first rotating member directing particulates toward the bin, and a second rotating member cooperating with the first rotating member to direct particulates toward the bin. The removable bin receives particulates directed thereto by the first and second rotating members and the particulates pass from the first rotating member to the removable bin without passing through a filter. | 07-11-2013 |
20140250613 | AUTONOMOUS FLOOR-CLEANING ROBOT - An autonomous floor-cleaning robot comprising a housing infrastructure including a chassis, a power subsystem; for providing the energy to power the autonomous floor-cleaning robot, a motive subsystem operative to propel the autonomous floor-cleaning robot for cleaning operations, a command and control subsystem operative to control the autonomous floor-cleaning robot to effect cleaning operations, and a self-adjusting cleaning head subsystem that includes a deck mounted in pivotal combination with the chassis, a brush assembly mounted in combination with the deck and powered by the motive subsystem to sweep up particulates during cleaning operations, a vacuum assembly disposed in combination with the deck and powered by the motive subsystem to ingest particulates during cleaning operations, and a deck adjusting subassembly mounted in combination with the motive subsystem for the brush assembly, the deck, and the chassis that is automatically operative in response to an increase in brush torque in said brush assembly to pivot the deck with respect to said chassis. The autonomous floor-cleaning robot also includes a side brush assembly mounted in combination with the chassis and powered by the motive subsystem to entrain particulates outside the periphery of the housing infrastructure and to direct such particulates towards the self-adjusting cleaning head subsystem. | 09-11-2014 |
Patent application number | Description | Published |
20130118465 | AIR GUN APPARATUS - An air gun toy which has a housing mounting a cylinder and a piston for compressing air to cause foam darts to be discharged. The air gun includes the piston, a first connector pivotally connecting a first link to the piston, a second connector pivotally connecting the first link to a second link, a third connector pivotally connecting the second link to housing, a main spring and a trigger. When the piston reaches its forward position, the first, second and third connectors align in a linear configuration, like a toggle joint, to brace the piston and prevent piston bounce back. | 05-16-2013 |
20130239938 | AIR PATH AND SAFETY VALVE SYSTEM FOR TOY LAUNCHERS - An air path and improved safety valve combination for toy air guns including a housing in the shape of a gun, multiple barrels mounted to the housing, a piston, cylinder and spring combination for generating blasts of compressed air mounted to the housing, an air passageway structure with an air path channel mounted in the housing, and multiple valve elements movable in the air path channel between open rearward positions and closed forward positions. When in the rearward position, each valve element directs a blast of compressed air to an associated barrel because the barrel is loaded with a soft foam dart of proper shape. When the valve element is in a forward position indicating an empty barrel, the valve element causes the blasts of compressed air to cascade to the next valve element of a dart-loaded barrel in sequence and in a very efficient manner. | 09-19-2013 |
20130239939 | SAFETY VALVE FOR TOY AIR GUNS - An improved safety valve for a toy air gun apparatus in which the toy air gun includes a piston and a drive spring mounted in a grip portion of the air gun. A handle extends from the bottom of the grip portion and is manipulated by the user to cock the air gun by compressing the drive spring. When the user pull a trigger the piston is released and surges upward because of the expanding drive spring. A valve element located to the rear of a barrel section of the air gun receives a blast of compressed air in a direction lateral to the longitudinal axis of the valve element and lateral to valve element movement between an open, rearward position and a closed, forward position. | 09-19-2013 |
20150083101 | TOY LAUNCH APPARATUS WITH SAFETY VALVE - A toy launch apparatus with a safety valve. The safety valve includes a stationary valve component with a tubular shape and an open inlet end. Ports in the tubular component help define an air path from the open inlet through the ports. A slideable valve component including a sleeve portion and extending fingers slides along an outer surface of the stationary valve component. A valve spring biases the slideable valve component forward to close the ports and when a dart is loaded, a back wall of the dart pushes the extending fingers of slideable valve component rearward to open the ports. In the open position the slideable valve component is out of the air path such that no pressure drop is attributed to the slideable valve component. When the dart is discharge, the valve spring biases the slideable valve component forward to close the ports. | 03-26-2015 |
Patent application number | Description | Published |
20130268963 | METHODS AND SYSTEMS FOR DELIVERY OF COMPLIANT VIDEO ADVERTISEMENTS TO DEVICES FROM ONE OR MORE PLATFORMS - A method of delivering video content. The method may comprise receiving a request for a first video from a video-playing device that is coupled to a network, determining whether to include a second video, generating a playlist comprising the first video and the second video, and transmitting the playlist to the Internet video-playing device. The second video may comprise a video advertisement. Additionally, a system for delivering video content is described. The system may include a processor, storage, an operating system, a logging module, one or more network interfaces capable of communicating with a plurality of video advertising networks, and a scripting engine. | 10-10-2013 |
20130268964 | METHODS AND SYSTEMS FOR VERIFICATION OF VIDEO DELIVERY - A method of delivering video content. The method may comprise receiving a request for a first video from an Internet connected device, selecting a second video to be played with the first video, generating a playlist comprising the first video and the second video, and transmitting the playlist to the Internet connected device. The playlist may include a verification video. Additionally, a system for delivering video content is described. The system may include a processor, storage, an operating system, one or more network interfaces capable of communicating with a plurality of video advertising networks, a digital advanced stream redirector generator module capable of generating a playlist, and a scripting engine. | 10-10-2013 |
Patent application number | Description | Published |
20090093481 | INSECTICIDAL (1,3,5)-TRIAZINYL PHENYL HYDRAZONES - (1,3,5)-Triazinyl phenyl hydrazones are effective at controlling insects. | 04-09-2009 |
20090209476 | PESTICIDAL COMPOSITIONS - The invention disclosed in this document is related to the field of pesticides and their use in controlling pests. A compound having the following structure is disclosed. | 08-20-2009 |
20110054173 | PTERIDINES AND THEIR USE AS AGROCHEMICALS - The present disclosure relates to 1- or 2-(4-(aryloxy)-phenyl)ethylamino-, oxy- or sulfanyl)pteridines and 1- or 2-(4-(heteroaryloxy)-phenyl)ethylamino-, oxy- or sulfanyl)pteridines and their use as agrochemicals and animal health products. | 03-03-2011 |
20120040837 | INSECTICIDAL (1,3,5)-TRIAZINYL PHENYL HYDRAZONES - (1,3,5)-Triazinyl phenyl hydrazones are effective at controlling insects. | 02-16-2012 |
20120122805 | PESTICIDAL COMPOSITIONS - The invention disclosed in this document is related to the field of pesticides and their use in controlling pests. A compound having the following structure is disclosed. | 05-17-2012 |
20120172218 | PESTICIDAL COMPOSITIONS - The invention disclosed in this document is related to the field of pesticides and their use in controlling pests. A compound having the following structure is disclosed. | 07-05-2012 |
20130252960 | PTERIDINES AND THEIR USE AS AGROCHEMICALS - The present disclosure relates to 1- or 2-(4-(aryloxy)-phenyl)ethylamino-, oxy- or sulfanyl)pteridines and 1- or 2-(4-(heteroaryloxy)-phenyl)ethylamino-, oxy- or sulfanyl)pteridines and their use as agrochemicals and animal health products. More specifically, the invention provides new compounds of the formula (I-A): | 09-26-2013 |
20150080326 | PESTICIDAL COMPOSITIONS - The invention disclosed in this document is related to the field of pesticides and their use in controlling pests. A compound having the following structure is disclosed. | 03-19-2015 |
Patent application number | Description | Published |
20100136294 | FIBROUS STRUCTURES COMPRISING A LOTION AND METHODS FOR MAKING SAME - Lotion-containing fibrous structures and more particularly lotion-containing multi-ply fibrous structures and methods for making such fibrous structures are provided. | 06-03-2010 |
20110189435 | FIBROUS STRUCTURES - Fibrous structures that exhibit a Dry Burst of greater than 100 g and a Cross-Machine Direction Flexural Rigidity (CD Flexural Rigidity) of greater than 56 mg*cm | 08-04-2011 |
20110189436 | FIBROUS STRUCTURES - Fibrous structures that exhibit a Tensile Ratio of greater than 0.5 as measured according to the Tensile Strength Test Method described herein and a Geometric Mean Flexural Rigidity (GM Flexural Rigidity or GM Flex) of less than 195 mg*cm | 08-04-2011 |
20110189442 | FIBROUS STRUCTURES - Fibrous structures that exhibit a Geometric Mean Modulus (GM Modulus) of less than 1070 g/cm as measured according to the Modulus Test Method described herein and a Geometric Mean Elongation (GM Elongation or GM Elong) of less than 15% measured according to the Elongation Test Method described herein are provided. | 08-04-2011 |
20110189443 | FIBROUS STRUCTURES - Fibrous structures that exhibit a Geometric Mean Flexural Rigidity (GM Flexural Rigidity or GMFlex) as measured according to the Flexural Rigidity Test Method described herein to Dry Burst (DB) as measured according to the Dry Burst Test Method described herein ratio (GMFlex/DB ratio) of less than 0.26 and a Density of less than 0.10 g/cm | 08-04-2011 |
20110189451 | FIBROUS STRUCTURES - Fibrous structures that exhibit a Basis Weight of greater than 10 gsm as measured according to the Basis Weight Test Method described herein and/or a Geometric Mean Flexural Rigidity (GM Flexural Rigidity or GM Flex) of less than 57 mg*cm | 08-04-2011 |
20130071621 | FIBROUS STRUCTURES - Fibrous structures that exhibit a Geometric Mean Modulus (GM Modulus) of less than 1402.4 g/cm at 15 g/cm as measured according to the Modulus Test Method described herein and a Geometric Mean Elongation (GM Elongation or GM Elong) of less than 10.2% measured according to the Elongation Test Method described herein are provided. | 03-21-2013 |
20130071624 | FIBROUS STRUCTURES - Fibrous structures that exhibit a Tensile Ratio of less than 1.75 and/or less than 1.49 as measured according to the Tensile Strength Test Method described herein and a Geometric Mean Modulus (GM Modulus) of less than 1402.4 g/cm at 15 g/cm and/or a Machine Direction Modulus (MD Modulus) of less than 1253.4 g/cm at 15 g/cm and/or a Cross Machine Direction Modulus (CD Modulus) of less than 1569.2 g/cm at 15 g/cm, are provided. | 03-21-2013 |
20140000826 | FIBROUS STRUCTURES | 01-02-2014 |
Patent application number | Description | Published |
20140020908 | RF ANTENNA ASSEMBLY INCLUDING DUAL-WALL CONDUCTOR AND RELATED METHODS - A radio frequency (RF) antenna assembly to be positioned within a wellbore in a subterranean formation for hydrocarbon resource recovery may include a series of tubular conductors coupled together in end-to-end relation. Each tubular conductor may include a dual-wall conductor defining an RF antenna. The dual-wall conductor may include an outer wall and an inner wall spaced inwardly therefrom to define an outer fluid passageway. The RF antenna assembly may further include an RF transmission line extending within at least some of the tubular conductors. | 01-23-2014 |
20150088427 | METHOD FOR HYDROCARBON RECOVERY WITH CHANGE DETECTION AND RELATED APPARATUS - A method for predicting hydrocarbon recovery in a subterranean formation may include generating pre-heating data associated with fracturing in a sample from the subterranean formation, heating the sample with RF power to cause additional fracturing in the sample, and generating post-heating data associated with additional fracturing in the sample after heating with RF power. The method may also include detecting change between the pre-heating data and post-heating data, and predicting hydrocarbon recovery from the subterranean formation based upon the detected change. | 03-26-2015 |
20150198020 | COMBINED RF HEATING AND GAS LIFT FOR A HYDROCARBON RESOURCE RECOVERY APPARATUS AND ASSOCIATED METHODS - A hydrocarbon resource recovery apparatus for a subterranean formation having a wellbore extending therein includes a radio frequency (RF) power source, a gas source, and an RF antenna within the wellbore. An RF transmission line extends within the wellbore between the RF power source and the RF antenna and is coupled to the gas source to be cooled and/or pressure balanced by a flow of gas therefrom. At least one of the RF antenna and RF transmission line define a gas lift passageway coupled to the gas source to lift hydrocarbon resources within the wellbore. | 07-16-2015 |
20150198024 | COMBINED RF HEATING AND PUMP LIFT FOR A HYDROCARBON RESOURCE RECOVERY APPARATUS AND ASSOCIATED METHODS - A hydrocarbon resource recovery apparatus for a subterranean formation having a wellbore extending therein includes a radio frequency (RF) power source, a dielectric fluid source, and an RF antenna within the wellbore. An RF transmission line extends within the wellbore between the RF power source and the RF antenna and is coupled to the dielectric fluid source to be cooled and/or pressure balanced by a flow of dielectric fluid therefrom. A hydrocarbon resource recovery pump is within the wellbore and is also coupled to the dielectric fluid source to be powered by the flow of dielectric fluid therefrom. | 07-16-2015 |
Patent application number | Description | Published |
20150065344 | Organic Composition for Use with Plants - An organic composition for use as ground covering capable of supporting plant life is presented. The organic composition is a mixture of filtration waste and topsoil, dirt, manure, wood chips, leaves, and/or sand. The filtration waste further includes carbon, diatomaceous earth, and sugar removed from filtering equipment after the refinement of raw sugar. In some embodiments, the filtration waste promotes the proliferation of organisms which decompose wood chips, leaves, and/or manure. The organic composition is applicable as a material applied within an area at a thickness which allows new plant growth, as an additive onto the surface of an area to promote plate growth, or as a component for mixture with soil as a soil supplement to promote plant growth. | 03-05-2015 |
20150284300 | Organic Composition for Use with Plants - An organic composition for use with plants is presented. The organic composition is a mixture of filtration waste with or without sand and further includes optional constituents such soil(s) and/or compostable material(s) and/or non-compostable material(s). The filtration waste further includes carbon, diatomaceous earth, and sugar. In some embodiments, the filtration waste is a byproduct from the refinement of sugar. In other embodiments, the filtration waste may be prepared by combining sugar, diatomaceous earth, and carbon. In yet other embodiments, the organic composition is prepared by removing the filtration waste from filtering equipment after the refinement of sugar and mixing the filtration waste with soil(s), compostable material(s), and/or non-compostable material(s). The organic composition is suitable for use as a growth medium for plants, a soil amendment, a soil additive, or a soil supplement. | 10-08-2015 |
Patent application number | Description | Published |
20130266538 | Solid Forms of a Thiophosphoramidate Nucleotide Prodrug - The present application relates to solid state forms, for example, crystalline forms of 2′-C-methyluridine-5′-(O-phenyl-N—(S)-1-(isopropoxycarbonyl)ethyl)thiophosphoramidate, pharmaceutical compositions that can include one or more solid forms of 2′-C-methyluridine-5′-(O-phenyl-N—(S)-1-(isopropoxycarbonyl)ethyl)thiophosphoramidate, and methods of treating or ameliorating diseases and/or conditions with one or more solid forms of 2′-C-methyluridine-5′-(O-phenyl-N—(S)-1-(isopropoxycarbonyl)ethyl)thiophosphoramidate. Also disclosed herein are methods of treating diseases and/or conditions with one or more solid forms of 2′-C-methyluridine-5′-(O-phenyl-N—(S)-1-(isopropoxycarbonyl)ethyl)thiophosphoramidate in combination with one or more other agents. | 10-10-2013 |
20140154210 | Solid Forms of a Thiophosphoramidate Nucleotide Prodrug - The present application relates to solid state forms, for example, crystalline forms of 2′-C-methyluridine-5′-(O-phenyl-N—(S)-1-(isopropoxycarbonyl)ethyl)thiophosphoramidate, pharmaceutical compositions that can include one or more solid forms of 2′-C-methyluridine-5′-(O-phenyl-N—(S)-1-(isopropoxycarbonyl)ethyl)thiophosphoramidate, and methods of treating or ameliorating diseases and/or conditions with one or more solid forms of 2′-C-methyluridine-5′-(O-phenyl-N—(S)-1-(isopropoxycarbonyl)ethyl)thiophosphoramidate. Also disclosed herein are methods of treating diseases and/or conditions with one or more solid forms of 2′-C-methyluridine-5′-(O-phenyl-N—(S)-1-(isopropoxycarbonyl)ethyl)thiophosphoramidate in combination with one or more other agents. | 06-05-2014 |
20150175647 | SOLID FORMS OF A THIOPHOSPHORAMIDATE NUCLEOTIDE PRODRUG - The present application relates to solid state forms, for example, crystalline forms of 2′-C-methyluridine-5′-(O-phenyl-N-(S)-1-(isopropoxycarbonyl)ethyl)thiophosphoramidate, pharmaceutical compositions that can include one or more solid forms of 2′-C-methyluridine-5′-(O-phenyl-N-(S)-1-(isopropoxycarbonyl)ethyl)thiophosphoramidate, and methods of treating or ameliorating diseases and/or conditions with one or more solid forms of 2′-C-methyluridine-5′-(O-phenyl-N-(S)-1-(isopropoxycarbonyl)ethyl)thiophosphoramidate. Also disclosed herein are methods of treating diseases and/or conditions with one or more solid forms of 2′-C-methyluridine-5′-(O-phenyl-N-(S)-1-(isopropoxycarbonyl)ethyl)thiophosphoramidate in combination with one or more other agents. | 06-25-2015 |