Patent application number | Description | Published |
20110121151 | DISPLAY MOUNT - A mounting system for mounting a plurality of devices to a surface, including an overhead surface. According to various embodiments, a support arm is configured to operatively attach to a mounting surface and is operatively connected to a plurality of device support assemblies that include a mount bracket a selectively moveable tilt bracket. A device support member is operatively coupled to the tilt brackets and configured to operatively attach to at least one display device such as a flat panel display. The device support member, and attached devices, are selectively tiltable to a tilt angle. | 05-26-2011 |
20110198460 | ADJUSTABLE DISPLAY MOUNT - A mounting system for mounting a display device to a surface, the mounting system adjustable in multiple degrees of freedom to selectively position and orientate the attached device relative to the mounting surface and/or other collocated display devices. According to various embodiments, a surface bracket is configured to attach to a mounting surface and an arm assembly operatively couples the surface bracket with a mount carriage. A mount bracket is movably coupled to the mount carriage and is selectively movable in a plane substantially parallel to the surface. A plurality of device bracket assemblies are coupled to the mount bracket. Each of the device bracket assemblies is selectively movable to translate, pivot and tilt the attached device. | 08-18-2011 |
20130075551 | Adjustable Display Mount - A mounting system for mounting a display device to a surface, the mounting system adjustable in multiple degrees of freedom to selectively position and orientate the attached device relative to the mounting surface and/or other collocated display devices. According to various embodiments, a surface bracket is configured to attach to a mounting surface and an arm assembly operatively couples the surface bracket with a mount carriage. A mount bracket is movably coupled to the mount carriage and is selectively movable in a plane substantially parallel to the surface. A plurality of device bracket assemblies are coupled to the mount bracket. Each of the device bracket assemblies is selectively movable to translate, pivot and tilt the attached device. | 03-28-2013 |
20130334380 | Adjustable Display Mount - A mounting system for mounting a display device to a surface, the mounting system adjustable in multiple degrees of freedom to selectively position and orientate the attached device relative to the mounting surface and/or other collocated display devices. According to various embodiments, a surface bracket is configured to attach to a mounting surface and an arm assembly operatively couples the surface bracket with a mount carriage. A mount bracket is movably coupled to the mount carriage and is selectively movable in a plane substantially parallel to the surface. A plurality of device bracket assemblies are coupled to the mount bracket. Each of the device bracket assemblies is selectively movable to translate, pivot and tilt the attached device. | 12-19-2013 |
20150069194 | ADJUSTABLE DISPLAY MOUNT - A mounting system for mounting a display device to a surface, the mounting system adjustable in multiple degrees of freedom to selectively position and orientate the attached device relative to the mounting surface and/or other collocated display devices. According to various embodiments, a surface bracket is configured to attach to a mounting surface and an arm assembly operatively couples the surface bracket with a mount carriage. A mount bracket is movably coupled to the mount carriage and is selectively movable in a plane substantially parallel to the surface. A plurality of device bracket assemblies are coupled to the mount bracket. Each of the device bracket assemblies is selectively movable to translate, pivot and tilt the attached device. | 03-12-2015 |
Patent application number | Description | Published |
20090103448 | APPARATUS, METHOD AND COMPUTER-READABLE STORAGE MEDIUM FOR CALCULATING THROUGHPUT REQUIREMENTS OF A NETWORK - An apparatus, method and computer-readable storage medium are provided for calculating an estimated throughput requirement of a network, such as to facilitate selecting the minimum bandwidth, maximum bandwidth or some other appropriate bandwidth for providing network services to a customer accessing that network. In this regard, a method of calculating a throughput requirement of a network includes receiving a bandwidth requirement. The method also includes calculating a data link-layer frame rate requirement based on the bandwidth requirement and a frame size, where the calculated frame rate requirement is limited by a line rate for transmission of data packets across a core network. In addition, the method includes calculating a data link-layer throughput requirement based on the calculated frame rate requirement and the frame size. | 04-23-2009 |
20090129289 | SYSTEM, METHOD AND COMPUTER-READABLE STORAGE MEDIUM FOR CALCULATING ADDRESSING AND BANDWIDTH REQUIREMENTS OF A NETWORK - Apparatuses, methods and computer-readable storage mediums are provided for calculating estimated addressing and bandwidth requirements of a customer domain, such as to facilitate designing the respective domain. A method includes selecting customer premises equipment (CPE) of a domain including a plurality of CPEs, where each CPE includes one or more devices, and one of the one or more devices include an interface with which the domain communicates with the respective CPE. The method also includes determining if the interface of the selected CPE comprises a router, and calculating an addressing requirement of the selected CPE, where the addressing requirement includes a number of device addresses for the selected CPE. The method may additionally or alternatively include analyzing traffic patterns of the selected CPE with respect to one or more other CPEs, and based on the analysis, calculating a bandwidth requirement of the selected CPE. | 05-21-2009 |
20110299420 | SYSTEM, METHOD AND COMPUTER-READABLE STORAGE MEDIUM FOR CALCULATING ADDRESSING AND BANDWIDTH REQUIREMENTS OF A NETWORK - Apparatuses, methods and computer-readable storage mediums are provided for calculating estimated addressing and bandwidth requirements of a customer domain, such as to facilitate designing the respective domain. A method includes selecting customer premises equipment (CPE) of a domain including a plurality of CPEs, where each CPE includes one or more devices, and one of the one or more devices include an interface with which the domain communicates with the respective CPE. The method also includes determining if the interface of the selected CPE comprises a router, and calculating an addressing requirement of the selected CPE, where the addressing requirement includes a number of device addresses for the selected CPE. The method may additionally or alternatively include analyzing traffic patterns of the selected CPE with respect to one or more other CPEs, and based on the analysis, calculating a bandwidth requirement of the selected CPE. | 12-08-2011 |
20140056126 | METHOD AND SYSTEM FOR PROVIDING FAULT ISOLATION FOR A SERVICE PATH IN AN ETHERNET-BASED NETWORK - An approach for providing fault isolation for a service path in an Ethernet-based network is described. A service path within an Ethernet-based network and associated with a plurality of management levels is determined. A plurality of management points that are along the service path and that correspond to the management levels are monitored. An occurrence of a fault at one of the management points associated with the service path is identified based on the monitoring. | 02-27-2014 |
20140068106 | METHOD AND SYSTEM FOR PROVIDING LATENCY DETECTION BASED ON AUTOMATED LATENCY MEASUREMENTS OF COMMUNICATION NETWORK PATHS - An approach for providing latency measurements for a communication path of a transmission network is described. Measurement of latency associated with one or more communication paths of a transmission network is initiated. An increase in the latency within the transmission network is detected based on the latency measurement. One or more secondary communication paths of the transmission network are determined to address the latency increase. One of the secondary communication paths is selected according to a latency threshold. | 03-06-2014 |
20140119177 | METHOD AND SYSTEM FOR SELECTIVELY METERING NETWORK TRAFFIC - An approach for resizing a network tunnel based on criteria associated with incoming traffic to the network is described. A tunnel management platform determines a frequency or a relevancy of network traffic matching predetermined class of service criteria. The tunnel management platform also calculates, based on the frequency or relevancy, a minimal amount of bandwidth to reserve for tunneling subsequent network traffic associated with the predetermined class of service criteria over a network of the service provider. A resizing of the network tunnel is then initiated based on the calculation in association with subsequent network traffic. | 05-01-2014 |
Patent application number | Description | Published |
20110160650 | RETENTION SYSTEMS AND METHODS - A system for retaining a fluid delivery device, the fluid delivery device may include a reservoir and a plunger arm operatively connected to a plunger head arranged for movement within the reservoir, the plunger arm having an arm portion operatively engageable with a drive member configured to move the plunger arm and the plunger head when the plunger arm and the plunger head are connected to the drive member. The system may include a rigid member arranged for movement and a bias member configured to urge the rigid member toward the plunger arm to force the plunger arm against the drive member to operatively engage the plunger arm to the drive member. | 06-30-2011 |
20110160678 | ALIGNMENT AND CONNECTION SYSTEMS AND METHODS - A connecting structure for connecting a first member in fluid flow connection with a second member may include a receptacle structure provided on the first member and having an interior chamber and an opening into the interior chamber in which a needle and a pierceable member surrounding a piercing end of the needle may be supported. The second member may include a connection portion that has a septum supported in an interior chamber having a size and shape suitable to be received at least partially into the opening of the receptacle structure upon moving the first member and the second member together to push the pierceable member toward the piercing end of the needle to cause the piercing end of the needle to pierce the pierceable member and the septum to come into fluid flow communication with the interior chamber of the connection portion. | 06-30-2011 |
20120211946 | SEALING ELEMENT FOR A HOLLOW NEEDLE OF A FLUID INFUSION DEVICE - Disclosed herein is a fluid infusion device of the type that delivers medication fluid to the body of a patient. The device includes or cooperates with a fluid reservoir, and the device has a sealing assembly to receive and form a fluid seal with the fluid reservoir. A retractable sealing element surrounding a hollow fluid delivery needle may be used to seal a port of the fluid reservoir. The port may include a pressure vent that is sealed by the retractable sealing element. In one variation, the reservoir includes a moving valve sleeve that holds a septum. The septum moves to allow the reservoir to vent, and to form a seal with the port when the needle pierces the septum. In another variation, the device includes a needleless sealing assembly. In yet other variations, the device uses a needled fluid reservoir. | 08-23-2012 |
20120211947 | SEALING ASSEMBLY FOR A FLUID RESERVOIR OF A FLUID INFUSION DEVICE - Disclosed herein is a fluid infusion device of the type that delivers medication fluid to the body of a patient. The device includes or cooperates with a fluid reservoir, and the device has a sealing assembly to receive and form a fluid seal with the fluid reservoir. A retractable sealing element surrounding a hollow fluid delivery needle may be used to seal a port of the fluid reservoir. The port may include a pressure vent that is sealed by the retractable sealing element. In one variation, the reservoir includes a moving valve sleeve that holds a septum. The septum moves to allow the reservoir to vent, and to form a seal with the port when the needle pierces the septum. In another variation, the device includes a needleless sealing assembly. In yet other variations, the device uses a needled fluid reservoir. | 08-23-2012 |
20120215177 | PRESSURE VENTED FLUID RESERVOIR FOR A FLUID INFUSION DEVICE - Disclosed herein is a fluid infusion device of the type that delivers medication fluid to the body of a patient. The device includes or cooperates with a fluid reservoir, and the device has a sealing assembly to receive and form a fluid seal with the fluid reservoir. A retractable sealing element surrounding a hollow fluid delivery needle may be used to seal a port of the fluid reservoir. The port may include a pressure vent that is sealed by the retractable sealing element. In one variation, the reservoir includes a moving valve sleeve that holds a septum. The septum moves to allow the reservoir to vent, and to form a seal with the port when the needle pierces the septum. In another variation, the device includes a needleless sealing assembly. In yet other variations, the device uses a needled fluid reservoir. | 08-23-2012 |
20120215178 | PRESSURE VENTED FLUID RESERVOIR HAVING A MOVABLE SEPTUM - Disclosed herein is a fluid infusion device of the type that delivers medication fluid to the body of a patient. The device includes or cooperates with a fluid reservoir, and the device has a sealing assembly to receive and form a fluid seal with the fluid reservoir. A retractable sealing element surrounding a hollow fluid delivery needle may be used to seal a port of the fluid reservoir. The port may include a pressure vent that is sealed by the retractable sealing element. In one variation, the reservoir includes a moving valve sleeve that holds a septum. The septum moves to allow the reservoir to vent, and to form a seal with the port when the needle pierces the septum. In another variation, the device includes a needleless sealing assembly. In yet other variations, the device uses a needled fluid reservoir. | 08-23-2012 |
20120215179 | FLUID RESERVOIR HAVING A FLUID DELIVERY NEEDLE FOR A FLUID INFUSION DEVICE - Disclosed herein is a fluid infusion device of the type that delivers medication fluid to the body of a patient. The device includes or cooperates with a fluid reservoir, and the device has a sealing assembly to receive and form a fluid seal with the fluid reservoir. A retractable sealing element surrounding a hollow fluid delivery needle may be used to seal a port of the fluid reservoir. The port may include a pressure vent that is sealed by the retractable sealing element. In one variation, the reservoir includes a moving valve sleeve that holds a septum. The septum moves to allow the reservoir to vent, and to form a seal with the port when the needle pierces the septum. In another variation, the device includes a needleless sealing assembly. In yet other variations, the device uses a needled fluid reservoir. | 08-23-2012 |
20120215180 | FLUID INFUSION DEVICE AND RELATED SEALING ASSEMBLY FOR A NEEDLELESS FLUID RESERVOIR - Disclosed herein is a fluid infusion device of the type that delivers medication fluid to the body of a patient. The device includes or cooperates with a fluid reservoir, and the device has a sealing assembly to receive and form a fluid seal with the fluid reservoir. A retractable sealing element surrounding a hollow fluid delivery needle may be used to seal a port of the fluid reservoir. The port may include a pressure vent that is sealed by the retractable sealing element. In one variation, the reservoir includes a moving valve sleeve that holds a septum. The septum moves to allow the reservoir to vent, and to form a seal with the port when the needle pierces the septum. In another variation, the device includes a needleless sealing assembly. In yet other variations, the device uses a needled fluid reservoir. | 08-23-2012 |
20120215183 | FLUID INFUSION DEVICE HAVING A SEALING ASSEMBLY FOR A FLUID RESERVOIR - Disclosed herein is a fluid infusion device of the type that delivers medication fluid to the body of a patient. The device includes or cooperates with a fluid reservoir, and the device has a sealing assembly to receive and form a fluid seal with the fluid reservoir. A retractable sealing element surrounding a hollow fluid delivery needle may be used to seal a port of the fluid reservoir. The port may include a pressure vent that is sealed by the retractable sealing element. In one variation, the reservoir includes a moving valve sleeve that holds a septum. The septum moves to allow the reservoir to vent, and to form a seal with the port when the needle pierces the septum. In another variation, the device includes a needleless sealing assembly. In yet other variations, the device uses a needled fluid reservoir. | 08-23-2012 |
20120323188 | SEALING ASSEMBLY FOR A FLUID RESERVOIR OF A FLUID INFUSION DEVICE - Disclosed herein is a fluid infusion device of the type that delivers medication fluid to the body of a patient. The device includes or cooperates with a fluid reservoir, and the device has a sealing assembly to receive and form a fluid seal with the fluid reservoir. A retractable sealing element surrounding a hollow fluid delivery needle may be used to seal a port of the fluid reservoir. The port may include a pressure vent that is sealed by the retractable sealing element. In one variation, the reservoir includes a moving valve sleeve that holds a septum. The septum moves to allow the reservoir to vent, and to form a seal with the port when the needle pierces the septum. In another variation, the device includes a needleless sealing assembly. In yet other variations, the device uses a needled fluid reservoir. | 12-20-2012 |
20130046252 | SEALING ASSEMBLY AND STRUCTURE FOR A FLUID INFUSION DEVICE HAVING A NEEDLED FLUID RESERVOIR - A sealing assembly is utilized for a fluid infusion device that cooperates with a fluid reservoir having a reservoir port and a hollow fluid reservoir needle at least partially located within the reservoir port. The sealing assembly has a reservoir port receptacle with a proximal end, a distal end extending from the proximal end, and a needle opening formed in the distal end to receive the hollow fluid reservoir needle. The sealing assembly also has a fluid chamber located at least partially in the reservoir port receptacle, and a needle sealing element having a self-sealing needle opening formed therein. The needle sealing element is located within the reservoir port receptacle between the distal end and the fluid chamber. The the self-sealing needle opening accommodates the hollow fluid reservoir needle when the reservoir port engages the reservoir port receptacle. | 02-21-2013 |
20130046253 | RETRACTABLE SEALING ASSEMBLY FOR A FLUID RESERVOIR OF A FLUID INFUSION DEVICE - Disclosed herein is a fluid infusion device of the type that delivers medication fluid to the body of a patient. The device includes or cooperates with a fluid reservoir, and the device has a sealing assembly to receive and form a fluid seal with the fluid reservoir. A retractable sealing element surrounding a hollow fluid delivery needle may be used to seal a port of the fluid reservoir. The port may include a pressure vent that is sealed by the retractable sealing element. In one variation, the reservoir includes a moving valve sleeve that holds a septum. The septum moves to allow the reservoir to vent, and to form a seal with the port when the needle pierces the septum. In another variation, the device includes a needleless sealing assembly. In yet other variations, the device uses a needled fluid reservoir. | 02-21-2013 |
20130066281 | SEALING ASSEMBLY WITH PINCH VALVE STRUCTURE FOR A FLUID INFUSION DEVICE HAVING A NEEDLED FLUID RESERVOIR - A fluid infusion device that delivers medication fluid to a user includes a removable fluid reservoir having a reservoir port and a hollow fluid reservoir needle, a base plate having a reservoir port receptacle for the reservoir port and the reservoir needle, and an inlet structure in the reservoir port receptacle to define at least a portion of a fluid chamber. The fluid infusion device also includes a needle sealing element having a base section, an end section opposite the base section, a neck section between the base section and the end section, and a needle opening extending through the base section, the neck section, and the end section. A compression element is coupled around the neck section to impart an inward biasing force near the needle opening. | 03-14-2013 |
20130116632 | FLANGED SEALING ELEMENT AND NEEDLE GUIDE PIN ASSEMBLY FOR A FLUID INFUSION DEVICE HAVING A NEEDLED FLUID RESERVOIR - A sealing assembly for a fluid infusion device includes a base plate, a reservoir port receptacle, a flow base component, and a needle sealing element. The receptacle receives the reservoir port, and has proximal and distal ends, and a needle entry in the distal end to receive a hollow needle of a fluid reservoir. The flow base component has an inlet structure defining a fluid chamber, and a needle guide pin protruding therefrom. The end of the guide pin fits within the hollow needle. The needle sealing element has a proximal flange adjacent to the inlet structure, a distal flange opposite the proximal flange, a neck section between the flanges, and a needle opening extending through the neck section. The needle sealing element is positioned within the port receptacle such that the neck section surrounds the end section of the needle guide pin. | 05-09-2013 |
20140207064 | SYSTEMS FOR FLUID RESERVOIR RETENTION - A fluid infusion device is provided. The fluid infusion device can include a fluid reservoir having a barrel portion and a housing defining a receiving portion for removably receiving the fluid reservoir within the housing. The housing can have a first side including a first engagement system that cooperates with the barrel portion to bias the fluid reservoir relative to the housing in a direction substantially opposite a direction of fluid flow out of the fluid reservoir. | 07-24-2014 |
20140207065 | SYSTEMS FOR FLUID RESERVOIR RETENTION - A housing for a fluid infusion device is provided. The housing can include a first housing component including a first engagement system. The first housing component can define a first compartment and a second compartment. The first engagement system can be coupled to the second compartment and movable relative to the second compartment. The housing can also include a second housing component coupled to the first compartment of the first housing component. The second housing component can include a second engagement system. The second engagement system can be movable relative to the second housing component. | 07-24-2014 |
20140207066 | SYSTEMS FOR FLUID RESERVOIR RETENTION - A fluid reservoir for use with a fluid infusion device is provided. The fluid reservoir can include a first portion having a first end and a second end. The first end can include an alignment feature and a delivery port. The fluid reservoir can include a second portion coupled to the second end of the first portion, with a portion of the second portion movable within the first portion to advance a fluid out of the delivery port. The fluid reservoir can also include a reservoir defined between the first portion and the second portion that receives the fluid. | 07-24-2014 |
20140378912 | FLUID INFUSION DEVICE AND RELATED SEALING ASSEMBLY FOR A NEEDLELESS FLUID RESERVOIR - Disclosed herein is a fluid infusion device of the type that delivers medication fluid to the body of a patient. The device includes or cooperates with a fluid reservoir, and the device has a sealing assembly to receive and form a fluid seal with the fluid reservoir. A retractable sealing element surrounding a hollow fluid delivery needle may be used to seal a port of the fluid reservoir. The port may include a pressure vent that is sealed by the retractable sealing element. In one variation, the reservoir includes a moving valve sleeve that holds a septum. The septum moves to allow the reservoir to vent, and to form a seal with the port when the needle pierces the septum. In another variation, the device includes a needleless sealing assembly. In yet other variations, the device uses a needled fluid reservoir. | 12-25-2014 |