Patent application number | Description | Published |
20120219263 | MOUNTING DEVICES FOR OPTICAL DEVICES, AND RELATED SUB-ASSEMBLIES, APPARATUSES, AND METHODS - Mounting devices for optical devices, and related sub-assemblies, apparatuses, and methods are disclosed. The mounting devices may be employed to secure optical devices that are configured to convert optical signals to electrical signals, or electrical signals to optical signals. The mounting devices may be configured to secure optical devices to an electronics board, such as a printed circuit board (PCB) as an example. To preserve signal integrity, the mounting devices may also be configured to align the optical devices with electrical lead connections on the electronics board. The mounting devices may also be configured to improve grounding of the optical devices to provide and improve radio frequency (RF) shielding to avoid degradation of signal-to-noise (S/N) ratios from RF interference from electronic devices on the electronics board and other nearby electronic devices. | 08-30-2012 |
20130028568 | FIBER OPTIC CABLES SEAL AND/OR STRAIN RELIEF MEMBERS, AND RELATED ASSEMBLIES AND METHODS - Fiber optic cables seal and/or strain relief members and related assemblies and methods are disclosed. In one embodiment, an elongated member is provided that facilitates providing sealing and/or strain relief of a portion of multiple fiber optic cables not enclosed within a common outer cable jacket or sheath when disposed through the opening of the fiber optic terminal. In one embodiment, the elongated member includes a sealing portion configured to facilitate sealing of a fiber optic terminal opening when the multiple fiber optic cables are received in the sealing portion and the elongated member is disposed through the opening of the fiber optic terminal. In another embodiment, the elongated member includes a strain relief portion on a second end configured to receive and provide strain relief to the multiple fiber optic cables disposed inside the fiber optic terminal, when the elongated member is disposed through the fiber optic terminal opening. | 01-31-2013 |
20130195414 | FIBER OPTIC CABLE STRAIN RELIEF DEVICE AND METHOD - A strain relief device for a fiber optic cable is disclosed. The strain relief device has a cable fitting having a cable fitting body, a shoulder washer and a compression cap. The cable fitting is positioned on the fiber optic cable. The shoulder washer is installed on a central tube of the fiber optic cable, under strength members of the fiber optic cable and fitted in the cable fitting body. The compression cap is installed over the central tube with the strength members inserted through the compression cap. The strength members are compressed between the shoulder washer and the compression cap. The compression cap provides compressive force between the cable fitting body, the shoulder washer and the compression cap. | 08-01-2013 |
20130287360 | FIBER OPTIC ENCLOSURES EMPLOYING CLAMPING ASSEMBLIES FOR STRAIN RELIEF OF CABLES, AND RELATED ASSEMBLIES AND METHODS - Fiber optic enclosures employing clamping assemblies for strain relief cables and related assemblies and methods are disclosed. The fiber optic enclosures may be part of a fiber optic terminal in a fiber optic network. The fiber optic enclosures may include openings in the walls of the fiber optic enclosure. A cable fitting assembly may be attached to a portion of the wall around an opening to form a passageway for fiber optic cables to enter the fiber optic enclosure. An elongated member may be used to guide the fiber optic cables through the passageway. The elongated member may have a first end and second end. The elongated member may include a clamping assembly at the first end to provide strain relief to the fiber optic cables by clamping strength members of the fiber optic cables. | 10-31-2013 |
Patent application number | Description | Published |
20090193591 | VARIABLE COIL DENSITY ANISOTROPIC INNERSPRINGS - Variable coil density anisotropic innersprings in which the placement and density of the coils or spring units varies between one or more regions or areas of the innerspring to provide innersprings with different average spring rates in different zones or regions of the innerspring. Various anisotropic arrangements of coils in innersprings are disclosed. | 08-06-2009 |
20110099722 | MATTRESSES WITH REINFORCEMENT INSERTS AND DENSIFIED STITCH ZONES - Reinforced mattresses have a mattress core and one or more reinforcement pads located proximate to the mattress core, and corresponding higher density stitch patterns in a quilt package layer which are co-located with the reinforcement pads. The one or more reinforcement pads are located in higher load areas of the mattress such as the pelvic region or head and shoulders region to provide additional support and to resist or prevent permanent indentation of the mattress support surface and provide increased support. In one embodiment, the one or more reinforcement pads have a length that is less than the length of the mattress core and a width that is substantially the width of the mattress core, with corresponding areas in the quilt package layer of higher density stitching. The higher density stitching in those areas of the quilt package layer pattern provide a pre-compressed support structure in combination with the reinforcement pads which provides greater support and pressure distribution and resistance to permanent indentation of the support structure. | 05-05-2011 |
20110107523 | MATTRESS INNERSRPING INSERTS AND SUPPORTS - Innerspring dampening foam inserts are disclosed in various combinations with mattress innersprings having a plurality of helical form coils interconnected in an array in which the coils are generally aligned in rows and columns, each of the coils having a generally cylindrical coil body formed by helical turns of wire with openings between each of the helical turns of wire, and first and second ends to the coil body also formed by the wire, each of the coil bodies being spaced apart in the array. At least one innerspring insert is inserted into an innerspring in spaces or channels between the spaced apart coils. The innerspring dampening inserts, which are preferably made of foam, may have a generally H-shaped configuration with upper and lower parallel lateral members and a transverse member that extends between and bisects the upper and lower lateral members. In another embodiment, the innerspring inserts may be generally T-shaped having a lower lateral member, a vertical member which is perpendicular to and bisects the lower lateral member and a lateral extension which extends outward from one side of the vertical member. The innerspring inserts may create or define zones or regions of the innerspring which have different support characteristics from other zones or regions by dampening or altering the spring rates and support characteristics of the innerspring in the areas or regions where the insert are located. The innerspring inserts may also be placed at or near the border or edges of the innerspring to provide increased stability in the perimeter or edge areas of the support surface of a mattress. | 05-12-2011 |
20120000018 | POSTURE CHANNEL SUPPORTS - A posture channel innerspring is described having a plurality of helical form coils interconnected in an array in which the coils are generally aligned in rows and columns, each of the coils having a generally cylindrical coil body formed by helical turns of wire with openings between each of the helical turns of wire, and first and second ends to the coil body also formed by the wire, each of the coil bodies being spaced apart in the array. At least one posture channel support is inserted into the innerspring in the space between the spaced apart coils. The posture channel support may, in one embodiment, have an H-shaped configuration with having upper and lower parallel lateral members and a transverse member that extends between and bisects the upper and lower lateral members. In another embodiment, the posture channel support may be substantially T-shaped having a lower lateral member, a vertical member which is perpendicular to and bisects the lower lateral member and a lateral extension which extends outward from one side of the vertical member. The posture channel inserts may be create or define zones or regions of the innerspring which have different support characteristics from other zones or regions. The posture channel inserts may also be placed around the border of the innerspring to provide increased stability in this area of a mattress assembly. | 01-05-2012 |
20120186026 | REVERSE COIL HEAD COILS AND INNERSPRINGS - A reverse coil head coil and innerspring has a generally cylindrical and helical wire form coil body and opposing coil ends which terminate on opposite sides of a reference plane that passes through the coil body. The reverse coil head coils are interconnected in a matrix to form an innerspring wherein only one terminal end of each coil is located at a perimeter of the innerspring. Variations in the number and pitch of helical turns of the coil body are also disclosed. | 07-26-2012 |
20130192003 | INNERSPRINGS WITH ALTERNATING COIL SPRING ORIENTATIONS - Innersprings with alternating coil spring orientations have columns of interconnected coils in which the axial orientation of the coils alternates one hundred and eighty degrees column to column. | 08-01-2013 |