A device for aligning pipes with adjacent structures. The pipe alignment device includes a housing having a first end and a second end, wherein the first end is removably securable to a pipe via threading. The second end of the housing includes a light source that can emit a beam of light along the center of the longitudinal axis thereof. When the housing is secured to a pipe, the light source is activated via a switch disposed on the exterior of the housing. A beam of light contacts an adjacent structure, thereby serving as a marker for drilling a hole in the structure to allow the pipe to align therewith in order to connect or pass through the structure. In one embodiment, the first end of the housing is removable and houses a power source that is operably connected to the switch and the light source for providing power thereto.

A water outlet for installation in a recess in a wall having an inner pipe designed as a throughflow pipe, an outer pipe designed as an outflow pipe, where the outer pipe partially surrounds the inner pipe, and a connection unit has a connection plate and a bezel where the inner pipe is arranged on the connection plate, and the bezel is arranged around the outer pipe at a distance from the connection plate, where the outer pipe is displaceable along a longitudinal axis, and a fixing means is provided, by which a previously adjusted relative position between the inner pipe and the outer pipe can be fixed, where the fixing means is arranged between the connection plate and the bezel.

An isolation element for a riser clamp has two opposed clamp halves made of metal strip. Each of said clamp halves has a semi-circular section placed opposite each other against a riser pipe extending through a passage hole in a floor. The clamp halves have at the ends of its semi-circular section outwardly extending clamp flanges to be tightened towards the corresponding opposing clamp flanges of the other clamp half. The riser clamp is in use supported from beneath by a support structure. The isolation element includes a profile of vibration isolating material including a pad portion, which pad portion in use is located below the corresponding clamp flange for resiliently supporting it, and further including at least one upstanding portion extending along the corresponding clamp flange, wherein said upstanding portion is attachable to the corresponding clamp flange.

A protection assembly for mounting in an underwater support structure includes at least one bend protection device coupled to a retaining device so that together they provide a through-going passage for receiving an elongate member which is to be protected. The elongate member passes through a support structure opening, and the retaining device is configured to be received in the support structure opening and to engage with the support structure to resist subsequent withdrawal from it. Installation of the protection assembly includes grasping the protection assembly with a releasable clamp, arranging a pulling line to pass through the support structure opening to the mechanical clamp and securing the pulling line to the mechanical clamp, drawing the retaining device of the protection assembly into the support structure opening using the pulling line and engaging the retaining device with the support structure, and releasing the clamp from the protection assembly.

A protection assembly for mounting in an underwater support structure includes at least one bend protection device coupled to a retaining device so that together they provide a through-going passage for receiving an elongate member which is to be protected. The elongate member passes through a support structure opening, and the retaining device is configured to be received in the support structure opening and to engage with the support structure to resist subsequent withdrawal from it. Installation of the protection assembly includes grasping the protection assembly with a releasable clamp, arranging a pulling line to pass through the support structure opening to the mechanical clamp and securing the pulling line to the mechanical clamp, drawing the retaining device of the protection assembly into the support structure opening using the pulling line and engaging the retaining device with the support structure, and releasing the clamp from the protection assembly.

A mounting device (110) for an elongate flexible member extending through an aperture (102), comprising: an elongate body (130) having a longitudinal axis; an internal passageway passing through the elongate body (130) parallel to the longitudinal axis, for receipt of the elongate flexible member; a plurality of apertures (132) in the elongate body (130); an engagement member (136) in each apertures (132) and constrained to move along a displacement axis inclined to the longitudinal axis of the elongate body (130); a plurality of actuation members (142), each engaged with a respective engagement member (136), whereby displacement of the actuation member (142) in a first direction displaces the engagement members (136) outwardly to project beyond the periphery of the elongate body (130) and displacement of the actuations members (142) in a second, opposite direction displaces the engagement members (136) inwardly; and biasing means (182) biasing the actuation members (142) in the first direction.

A mounting device (110) for an elongate flexible member extending through an aperture (102), comprising: an elongate body (130) having a longitudinal axis; an internal passageway passing through the elongate body (130) parallel to the longitudinal axis, for receipt of the elongate flexible member; a plurality of apertures (132) in the elongate body (130); an engagement member (136) in each apertures (132) and constrained to move along a displacement axis inclined to the longitudinal axis of the elongate body (130); a plurality of actuation members (142), each engaged with a respective engagement member (136), whereby displacement of the actuation member (142) in a first direction displaces the engagement members (136) outwardly to project beyond the periphery of the elongate body (130) and displacement of the actuations members (142) in a second, opposite direction displaces the engagement members (136) inwardly; and biasing means (182) biasing the actuation members (142) in the first direction.

A magnetically positioned dryer vent coupling is adapted for use in combination with a clothes dryer. The dryer vent coupling includes a flexible exhaust duct, a first mounting substrate, and a second mounting substrate. The first mounting substrate is located at one end of the flexible exhaust duct and includes a first magnet. The second mounting substrate is adapted for residing proximate one of the dryer exhaust port and wall port, and includes a second magnet. When moved into close proximity, the first and second magnets magnetically attract to one another to self-align and self-assemble the first and second mounting substrates of the dryer vent coupling, such that the first and second mounting substrates create an audible snapping sound when engaged thereby indicating a close magnetic seal at the dryer vent coupling.

A mount comprises a base having opposed upper and lower surfaces and at least one channel on the upper surface of the base extending in a first horizontal direction. The at least one channel comprises a head-mounting feature constructed and arranged to removably retain a rail head in the first horizontal direction. At least one curtain attachment mechanism is constructed and arranged to secure a curtain, wherein the at least one curtain attachment mechanism extends in a direction that is transverse to the first horizontal direction. A socket positioned at the lower surface of the base is constructed and arranged to interface with a pole.

A retention mechanism provided for use with a first line and a second line comprises a flexible convoluted web, a first conduit, and a second conduit. The first conduit defines a first passageway through the web, and is configured to receive the first line through the first passageway. The second conduit defines a second passageway through the web, and is configured to receive the second line through the second passageway. The first and second conduits are attached to and surrounded by the web such that the web enables movement of the first and second lines when the first and second lines are fixed respectively to the first and second conduits and extend respectively through the first and second passageways.