Coupling element (1) with tolerance compensation for flexibly connecting two elements for guiding media, having two components (2, 3), which can be connected captively to each other in a fluid-guiding manner, wherein a translational, rotational or cardanically tilting movement of the first component (2) against the second component (3) is possible. The invention therefore addressed the problem of improving a tolerance-compensating coupling element (1) of the kind described at the outset in such a way that materials with high strength but low elasticity demands can be used. This problem is solved by the fact that the captive connection (7, 8) has a slotted snap ring (8) that engages through an opening (6) of the first component (2) and behind a bead (7) of the second component (3), thereby preventing the two components (2, 3) from being completely pulled apart.

An exemplary bulkhead connector assembly may include a housing that has an inner diameter surface, a first opening and a second opening. The assembly may further have a retainer attached to the housing and one or more feet extending radially inward from the inner diameter surface of the housing. The assembly can also include a collar that has a portion received within the first opening or the second opening. The collar may have an outer surface that cooperates with the feet of the retainer to hold a conduit within the housing.

A transfer coupling includes a static component and a rotatable component arranged concentrically, the static component including a first number of radially extending ports and the rotatable component having a second number of radially extending ports the radially extending ports arranged in a common circumferential plane wherein the ports are configured and arranged, in use, to homogenise a flow area for a fluid being transferred through the ports and thereby create a homogenous volume flow.

A transfer coupling includes a static component and a rotatable component arranged concentrically, the static component including a first number of radially extending ports and the rotatable component having a second number of radially extending ports the radially extending ports arranged in a common circumferential plane wherein the ports are configured and arranged, in use, to homogenise a flow area for a fluid being transferred through the ports and thereby create a homogenous volume flow.

A fluid mating system includes a fitting connector, a mating connector and a planar slip system. The fitting connector includes an exterior mating surface and a first interior fluid passage that permits fluid flow along a first direction. The mating connector includes an interior surface that includes a tapered lead-in portion, an interior mating surface, and a second interior fluid passage. The second interior fluid passage permits fluid flow in the first direction. The first interior fluid passage and the second interior fluid passage include a single fluid path when the interior mating surface is engaged with the exterior mating surface. The planar slip system restricts movement of the mating connector in the first direction and allows at least partial free movement of the mating connector within a plane that is perpendicular to the first direction.

Connecting device for a fluid supply system including a female connecting part and a male connecting part, wherein the female connecting part has a back support plate; a middle support plate; a front support plate; wherein the front support plate comprises a fluid outlet port intended to be connected to a corresponding connecting element of the male connecting part, and the back, middle and front support plates each comprising an outlet hole connected to the outlet port, wherein the middle support plate is fastened to the back support plate and the front support plate is fastened to the middle support plate; wherein the front support plate is configured to be able to move along a first axis, wherein the middle support plate is configured to be able to move along a second axis, the second axis being transverse to the first axis.

Connecting device for a fluid supply system including a female connecting part and a male connecting part, wherein the female connecting part has a back support plate; a middle support plate; a front support plate; wherein the front support plate comprises a fluid outlet port intended to be connected to a corresponding connecting element of the male connecting part, and the back, middle and front support plates each comprising an outlet hole connected to the outlet port, wherein the middle support plate is fastened to the back support plate and the front support plate is fastened to the middle support plate; wherein the front support plate is configured to be able to move along a first axis, wherein the middle support plate is configured to be able to move along a second axis, the second axis being transverse to the first axis.

A female connector includes: a housing defining a first axial direction and having an opening at a first end of the housing for insertion of a male connector, a first limiting member being provided on an outer periphery of the housing; a valve assembly arranged in the housing; a base defining a receiving passage extending along the first axial direction; a bushing sleeved outside the housing and arranged in the receiving passage to retain the housing in the receiving passage, the bushing being elastically deformable; and a mounting member fixed to an axial end of the base. The first limiting member is confined between the axial end and the mounting member, and a movement space for the first limiting member to move therein is defined between the axial end and the mounting member. A connector assembly includes the female connector.

An adaptable liquid connector structure includes a case, an intermediate member and a liquid connector main body. The case is a hollow frame. The intermediate member is located in the case and includes an opening formed at a front area thereof for mounting the liquid connector main body therein, a locating bore located below the opening, and a plurality of elastic elements mounted on outer sides and a rear side of thereof. The intermediate member is supported by the elastic elements to suspend in the case and the elastic elements absorb assembly tolerance of the adaptable liquid connector structure, such that the liquid connector main body mounted therein is allowed for a positional floating adjustment in and relative to the case upward, downward, leftward and rightward to be smoothly, correctly and securely connected to an adaptor connector.

The inventive disclosures described herein pertain to an improved irrigation-system-coupling device, with a length-adjustment feature, that is designed to provide a coupling between polymeric irrigation-system hosing/tubing and a water-supply valve, such as solenoid-operated control/supply valves commonly used in automated irrigation systems. The length-adjustment configuration allows for easy installation in the field without the need to splice additional lengths of hosing/tubing in situations where various environmental conditions and/or necessitated repairs to or removal of sections of hoses/tubing has caused an extra gap between a supply-valve manifold housing and the end of the existing hose/tubing.