A connector assembly comprising: a first connector part and a second connector part, each connector part defining a fluid flow passage therethrough configured to together define a fluid flow conduit when the first and second parts are connected together, the connector assembly further comprising an extension part mounted around one of the first and the second connector parts, the extension part arranged to move relative to the connector part around which it is mounted to extend across an interface area between the first connector part and the second connector part and to bridge the first and second connector parts when the first and second connector parts are brought to meet each other to define the fluid conduit.

A device for axially connecting two pipe elements, including a coupling means with a first coupling means part assignable to a first pipe element, a second coupling means part and an intermediate connecting part arrangeable between the two coupling means parts, wherein a first articulation element formed on the first or second coupling means part is configured to cooperate with a second articulation element formed on the intermediate connecting part, in particular in a positive manner, forming an articulated connection between the first or second coupling means part and the intermediate connecting part, or a second articulation element formed on the first or second coupling means part is configured to cooperate with a first articulation element formed on the intermediate connecting part, forming an articulated connection between the first or second coupling means part and the intermediate connecting part.

A device for axially connecting two pipe elements, including a coupling means with a first coupling means part assignable to a first pipe element, a second coupling means part and an intermediate connecting part arrangeable between the two coupling means parts, wherein a first articulation element formed on the first or second coupling means part is configured to cooperate with a second articulation element formed on the intermediate connecting part, in particular in a positive manner, forming an articulated connection between the first or second coupling means part and the intermediate connecting part, or a second articulation element formed on the first or second coupling means part is configured to cooperate with a first articulation element formed on the intermediate connecting part, forming an articulated connection between the first or second coupling means part and the intermediate connecting part.

A pipe fitting has housing portions attached in spaced relation to define non-coaxial receptacles that receive pipe elements. The housing portions are supported on split rings received within grooves in each housing portion. The housing portions are supported in spaced relation in a preassembled state to permit insertion of pipe elements into the receptacles without disassembly of the fitting. The grooves in the housing portions have a floor surface with three surface portions. Two of the surface portions on each groove of each housing portion engage the split rings when the housing portions are supported in spaced relation.

A fitting apparatus for connecting pipes according to the present invention includes a fitting unit which includes a first body into which a first pipe is inserted and a second body which is connected to the first body to form a pipe insertion space therein together with the first body and into which a second pipe is inserted, wherein in the first body and the second body, a first recessed groove and a second recessed groove spaced apart inward from the first recessed groove are formed along an inner circumferential surface thereof, respectively, a compression member which is provided in the first recessed groove to compress and fix the first pipe or the second pipe, and a sealing member which is provided in the second recessed groove to maintain airtightness between the fitting unit and the first pipe or between the fitting unit and the second pipe.

A pipe grip is having an ability to apply increased compressive pressure against an exterior surface of an inserted spigot end of a pipe internal to a bell end of a pipe such as indirectly against a gasket to provide an improved pipe seal or directly against the exterior surface to provide a pipe restraint so as to prevent the spigot end from pulling out from the bell end in an undesired manner. The pipe grip preferably applies one of tension and/or movement of a tensioner from internal to the bell end of the pipe such as from a groove through a bore to an external surface of a pipe where a tension applying device applies tension so as to at least one of move and/or apply tension to the tensioner through one or more bores which extend from the external surface of the bell end of the pipe to an internal surface of the bell end of the pipe to direct a compressive force onto the inserted pipe section.

A pipe grip is having an ability to apply increased compressive pressure against an exterior surface of an inserted spigot end of a pipe internal to a bell end of a pipe such as indirectly against a gasket to provide an improved pipe seal or directly against the exterior surface to provide a pipe restraint so as to prevent the spigot end from pulling out from the bell end in an undesired manner. The pipe grip preferably applies one of tension and/or movement of a tensioner from internal to the bell end of the pipe such as from a groove through a bore to an external surface of a pipe where a tension applying device applies tension so as to at least one of move and/or apply tension to the tensioner through one or more bores which extend from the external surface of the bell end of the pipe to an internal surface of the bell end of the pipe to direct a compressive force onto the inserted pipe section.

A pipe joint is configured such that an inserting pipe portion is inserted along a pipe axis direction to a receiving pipe portion having a flange portion to be connected thereto. The pipe joint includes a protruding portion having an integral construction, the protruding portion being fixed to an outer circumferential face of the inserting pipe portion and protruding radially outwards therefrom, a stopper member having an annular integral construction, the stopper member coming into contact with a first lateral face of the protruding portion to restrict displacement of the inserting pipe portion in a direction away from the receiving pipe portion, a fastening member configured to fasten the flange portion to the stopper member. A restricting face is formed in a second lateral face of the protruding portion disposed on an opposite side to the first lateral face in the pipe axis direction, the restricting face restricting displacement of the inserting pipe portion in a direction for its insertion to the receiving pipe portion.

A pipe joint is configured such that an inserting pipe portion is inserted along a pipe axis direction to a receiving pipe portion having a flange portion to be connected thereto. The pipe joint includes a protruding portion having an integral construction, the protruding portion being fixed to an outer circumferential face of the inserting pipe portion and protruding radially outwards therefrom, a stopper member having an annular integral construction, the stopper member coming into contact with a first lateral face of the protruding portion to restrict displacement of the inserting pipe portion in a direction away from the receiving pipe portion, a fastening member configured to fasten the flange portion to the stopper member. A restricting face is formed in a second lateral face of the protruding portion disposed on an opposite side to the first lateral face in the pipe axis direction, the restricting face restricting displacement of the inserting pipe portion in a direction for its insertion to the receiving pipe portion.

A C-clip includes a C-shaped clip body and two peripherally open holes. The clip body can be opened and closed elastically. The peripherally open holes are provided on two lateral sides of the clip body respectively and are adjacent to or located at the two ends of the clip body respectively. The peripherally open holes are provided in the clip body and each have a communication opening and a closed end. A wall between the communication opening and the closed end of each peripherally open hole forms a stop edge for preventing a tip of a retaining ring plier from moving out of the peripherally open hole. The outer diameter of the clip body can be changed by applying forces to the clip body via the peripherally open holes respectively. As the clip body does not have any particularly protruding portion, the C-clip can be used in various situations.