A sealing element for sealing a fluidic connection between a coupling element and a tubular element and thereby providing a sealed flow path through the tubular element and between the coupling element and the tubular element in a longitudinal direction, the sealing element comprising: a recess extending in the longitudinal direction, the recess configured to receive the tubular element; a transverse wall defining an extent of the recess in the longitudinal direction, the transverse wall having a through hole.

Embodiments of an integrated piping conduit include a device having a center body with an interior surface having a tube stop extending radially inwardly thereof, one or more head connectors, and a packing arrangement comprising at least one sealing ring, a spacer gland and a grip ring maintained within a radial housing compartment of the one or more head connectors. The packing arrangement can further include a retainer ring. In various embodiments, each head connector is secured to the center body through gluing or ultrasonic welding.

The present invention relates to a soil pipe coupler that includes a body portion formed from a thermoplastic elastomer. The body portion includes an inner wall, an outer wall, and a first and second lip defined by the outer wall. The first lip is disposed proximate a first end, while a second lip is disposed proximate a longitudinally-opposed second end of the body portion. The body portion includes an annular seat and at least one rib member that extend radially inwards from the inner wall and further defines a channel extending from the first to the second end. The soil pipe coupler includes a sheathing member configured to wrap about the body portion and is disposed between the first and second lips. Additionally, the soil pipe coupler includes at least one clamp configured to operably engage the sheathing member. An associated method of installation is also provided.

Disclosed herein is a fluid connection port for forming a working fluid connection between a deformable, flexible tube and a fluid handling device, the fluid connection port comprising a bore extending from an exterior surface of the fluid handling device to an internal fluid handling feature, the bore comprising a narrow diameter bore section adjacent the exterior surface of the fluid handling device, a larger diameter bore section adjacent the internal fluid handling feature, and a shoulder separating the narrow diameter bore section and the larger diameter bore section, wherein the diameter of the bore at the narrow diameter bore section is less than the outside diameter of the deformable, flexible tube.

A flexible hose adapter configured for engagement with a coupling, the flexible hose adapter including an end piece, the end piece defining an inner end and an outer end, the end piece defining an axis extending from the inner end to the outer end, the end piece defining a raised lip, a sealing surface, and a groove, the raised lip axially positioned at the inner end, the sealing surface positioned between the raised lip and the groove; and a flexible hose attached to the outer end of the end piece.

A gas chromatograph (GC) column connection device includes a housing including first and second opposite ends, the housing including a housing bore extending therethrough between the first and second ends of the housing. The device includes: a piston in the housing bore; a ferrule at least partially in the housing bore at a second end of the piston; a biasing mechanism in the housing bore at a first end of the piston; and a retaining member in the housing bore between the first end of the housing and the biasing mechanism, with the retaining member spaced apart from the first end of the housing. The retaining member is configured to retain the biasing mechanism such that the biasing mechanism urges the piston axially toward the second end of the housing.

A downpipe fitting for coupling between top and bottom ends of a downpipe. The downpipe fitting includes two parts connected together and rotatable relative to one another about a longitudinal axis thereof. The first part has an inlet, sized and shaped to couple with an outlet of a first section of the downpipe, above the downpipe fitting. The second part has an outlet which is sized and shaped to couple with an inlet of a second section of the downpipe, below the downpipe fitting. The inlet and outlet of the fitting define a flow path for rainwater therethrough. Rotation of the second section of downpipe below the downpipe fitting, about the longitudinal axis, is decoupled from the first section of downpipe above the downpipe fitting.

A cap configured for engagement with a coupling can comprise an annular ring extending circumferentially around an outer portion of the cap, the cap defining an inner end and an outer end disposed opposite from the inner end, the annular ring defining a sealing surface between the inner end and the outer end, the annular ring defining a raised lip at the inner end, the raised lip extending radially outward from the sealing surface; and a web, the web enclosing the annular ring.

A pipe coupling apparatus includes a flexible tubular body portion having a body portion a plurality of annular flanges projecting radially outward from the body portion and defining a plurality of annular recesses around the body portion. The body portion can be radially compressed at each end to different degrees, thereby allowing pipes with different diameters to be coupled. The body portion includes a plurality of rods disposed within the material of the body portion. When the ends of the body portion are compressed at different amounts, an intermediate portion of the body portion is tapered, and the rods bend. Clamp bands may be retained within the recesses and may provide the clamping force to radially compress the ends of the body portion to the desired amount.

The connector body attaches to the bowl for a rotating head assembly. The connector body welded to the bowl secures the conductor pipe to the bowl. An inner aperture of the connector body accepts the bowl and the conductor pipe. Fasteners insert into the connector body to secure the conductor pipe within the connector body. An attachment shoulder that extends inward from the outer wall narrows the inner aperture. The bowl rests on top of the attachment shoulder. The bowl inserts vertically downward into an upper opening of the connector body to the attachment shoulder. The conductor pipe inserts into a lower opening of the connector body. The fasteners insert radially into the connector body to secure the conductor pipe within the connector body. The attachment shoulder limits movement of the bowl and the conductor pipe within the inner aperture of the connector body.