Abstract: A toilet flange has a hub configured to couple to a pipe on a first end, the hub having an inner circular wall forming a cylindrical channel and having at least one opening and a hub flange coupled to the hub on a second end, the flange having a reservoir for collecting liquid, the flange further configured to dump the liquid from the reservoir into the cylindrical channel through the opening.

Abstract: A toilet flange has a hub configured to couple to a pipe on a first end, the hub having an inner circular wall forming a cylindrical channel and having at least one opening and a hub flange coupled to the hub on a second end, the flange having a reservoir for collecting liquid, the flange further configured to dump the liquid from the reservoir into the cylindrical channel through the opening.

Abstract: A superconducting magnet includes a liquid helium reservoir (14), superconducting magnet windings (12) disposed in the liquid helium reservoir, and a vacuum jacket (20) surrounding the liquid helium reservoir. A cold head (30) passes through the vacuum jacket. The cold head has a warm end (32) welded to an outer wall (22) of the vacuum jacket and a cold station (46) disposed in the liquid helium reservoir. A heat exchanger (60) is disposed inside the vacuum jacket and secured to or integral with the cold head. The heat exchanger includes a fluid passage (62) having an inlet (64) in fluid communication with the liquid helium reservoir and having an outlet (66) in fluid communication with ambient air. While the cold head is turned off, gas helium flows from the liquid helium reservoir to ambient air via the heat exchanger, thereby cooling the non-operating cold head.

Abstract: A technology is described for adjusting repeater gain based on user equipment need. A repeater can be configured to receive a downlink signal strength indicator value of a user equipment (UE) via a wireless connection of the UE with the repeater. The repeater can be further configured to select a threshold value for the downlink signal strength indicator value. The repeater can be further configured to reduce or bypass a downlink repeater gain level when the downlink signal strength indicator value is greater than the threshold value.

Abstract: A superconducting magnet comprises a liquid helium reservoir (14), superconducting magnet windings (12) disposed in the liquid helium reservoir, vacuum jacket walls (20, 22, 26) containing a vacuum volume (24) surrounding the liquid helium reservoir, and a thermal shield (30) disposed in the vacuum volume and surrounding the liquid helium reservoir. A thermal bus (50) is secured to the thermal shield. The thermal bus includes an integral heat exchanger comprising a fluid passage (60) passing through the thermal bus. An inlet fluid conduit (62) connects the liquid helium reservoir with an inlet of the fluid passage, and an outlet fluid conduit (64) connects an outlet of the fluid passage with ambient air. The thermal bus (50) is connected to the first stage cold station of a cold head (40) by a thermally conductive connection (46).

Abstract: A user device cradle can include a receiver configured to removably retain a wireless user device. One or more Radio Frequency (RF) signal couplers and one or more power couplers can be disposed in the receiver of the cradle. The one or more RF signal couplers can be configured to couple one or more RF communication signals to the wireless user device, while the one or more power couplers can be configured to couple power to the wireless user device. The coupling of power to the user device can be reduced or minimized when a downlink signal is received by a user device in the user device cradle, or when the user device cradle is in a weak signal area.

Abstract: An apparatus includes at least a first electrically conductive coil having at least first and second coil sections which are separated and spaced apart from each other, and a support structure disposed to support the first and second coil sections. The support structure, and an associated method of supporting the electrically conductive coil, maintain relative axial positions of the first and second coil sections to be fixed when the first electrically conductive coil is energized and de-energized, and allow each of the first and second coil sections to expand radially when energized.

Abstract: An apparatus (100) includes: an outer shell (211); an inner vessel (212) disposed within the outer shell; a cold head (260) having a first stage (261) disposed within the outer shell, and having a second stage (262) for contacting an interior of the inner vessel; a vent (215) extending from the interior of the inner vessel to the exterior of the outer shell; first and second heat exchangers (302a, 302b); a first thermal shield (213) disposed between the inner vessel and the outer shell; and a second thermal shield (214) disposed between the inner vessel and the first thermal shield. The first thermal shield is thermally connected to the first stage of the cold head and the first heat exchanger and is thermally isolated from the inner vessel and outer shell. The second thermal shield is thermally connected to the second heat exchanger and is thermally isolated from the inner vessel, outer shell, first thermal shield, and cold head.

Abstract: System includes one or more processors configured to determine loading parameters associated with section locations and zone locations. The section locations are locations of cargo sections at a product-distribution site, and the zone locations are locations of load zones at the product-distribution site. The one or more processors are also configured to assign the outbound automobiles to the load zones. The load zones are configured to have multiple outbound automobiles therein. The outbound automobiles are assigned to the load zones to reduce at least one of a total time to move the outbound automobiles from the zone locations to the section locations, a total distance to move the outbound automobiles from the zone locations to the section locations, or a total number of times in which individuals handle the outbound automobiles.

Abstract: An apparatus includes at least a first electrically conductive coil having at least first and second coil sections which are separated and spaced apart from each other, and a support structure disposed to support the first and second coil sections. The support structure, and an associated method of supporting the electrically conductive coil, maintain relative axial positions of the first and second coil sections to be fixed when the first electrically conductive coil is energized and de-energized, and allow each of the first and second coil sections to expand radially when energized.

Abstract: A supplemental, rechargeable battery device has a housing containing a battery and a cord receiving portion circumscribing the housing. A button is coupled directly to and extending directly from a lateral side of the housing. A flexible strap is coupled to the housing and has a fixed end fixedly attached to a distal end of the housing, and an opposite free end removably couplable to the button.