In an aspect a pipe coupling arrangement includes two end members, each having a pipe attachment end and a sealing end that engages the other's sealing end. Each sealing end includes radially inner and outer collars, which are radially separated by a pocket. When the sealing ends engage one another the pockets form a chamber. At least one seal member is positioned in the chamber. An alignment ring fits in the chamber, aligning the end members. A coupling pushes the end members towards each other, compressing the at least one seal member sufficiently to seal against fluid leakage. The inner collars engage one another while the outer collars of the end members are axially spaced apart by a gap selected to reduce to zero upon application of a selected clamping force on the end members, thereby limiting deformation of the outer collars.

A bonding clip is provided in combination with a fluid conduit coupling that interconnects fluid conveying members. The bonding clip conducts electrical charge across the coupling to prevent buildup of electrostatic charges in the coupling. In one aspect of the invention, it may be considered a bonding clip. In another aspect, it may be considered the combination including the bonding clip and coupler. The invention also includes a method for dissipating electrostatic charge across a coupling used to interconnect fluid conveying members. In a preferred embodiment of the bonding clip, it includes a continuous flexible wire element mounted exteriorly of the coupling. The bonding clip is formed in a shape to connect the facing flanges of adjacent fluid conveying lines connected by the coupler, and to pass over the coupler with a defined gap separating a bridge portion of the clip from exterior surfaces of the coupler.

A flange assembly and related methods of connecting two exhaust pipes together with a flange assembly are provided. The flange assembly includes a first flange having a first mating face and a second flange connected to the first flange, wherein the second flange has a second mating face. A sealing structure is formed with the mating faces of the first and second flanges, wherein the sealing structure comprises a groove positioned on the first mating face and a ridge positioned in the second mating face, wherein the ridge occupies at least a portion of the groove with the first flange connected to the second flange.

The system comprises a clamping collar (10) having a clamping band (14) suitable for being tightened around the abutting ends (12A, 12′A) of the two tubes (12, 12′). The collar (10) has a retaining tab (30) that presents a fastener portion (32) whereby said retaining tab (30) is fastened to the band (14) of the collar and that extends substantially axially towards an attachment portion (34) of said retaining tab (30) whereby said retaining tab is suitable for being attached to the first tube (12) in the vicinity of its first end (12A).

A pipe or fitting having a polymer liner and a replaceable component including an outer ring having an outside diameter matching the inside diameter of the pipe or fitting, a polymer liner bonded to the outer ring and having an inside diameter matching the inside diameter of the liner of the pipe or fitting. The replaceable component is disposed in an inlet or outlet of the pipe or fitting so as to form a continuous bore lined with a polymer.

A check valve between two pipe segments including a valve body and a valve housing. The valve body includes a valve opening through one face with a valve seat therearound, and a wall extending between the faces defining a part of the circumference of the fluid line between the pipe segment ends with a radial opening in the other part of the fluid line circumference having no wall. The valve housing is removably securable over the radial opening whereby the valve body wall and the valve housing together define a closed circumference of the fluid line between the pipe segments. A valve flapper is secured to the valve housing and pivotally biased relative to the valve housing toward closing against the valve seat, whereby the valve flapper is removable through the valve body radial opening when the valve housing is removed from the valve body.

A duct system with multiple flex duct sections includes a duct take off, a duct register boot, at least one flexible duct assembly that includes an inlet coupler, an outlet coupler, and a duct section. The inlet coupler and outlet coupler are terminally connected to the duct section completing the flexible duct assembly as the number of duct assemblies determines the length of the duct system. The duct takeoff is mounted to the inlet coupler, and the duct register boot is mounted to the outlet coupler as the duct takeoff is in fluid communication with the duct register boot through the flexible duct assembly. Additionally, an air controlling device can be mounted with respect to three different places, wherein the three different places are in between two couplers, the coupler and the duct takeoff, and the duct register boot and the coupler to improve the efficiency of the duct system.

Pipe flange alignment leveling pins are disclosed to square a flange. The pins include a first and a second cylindrical magnet each configured to have a hollow axis and a positive radial pole and a negative radial pole. A first and a second chamfered hollow pin are engineered to axially receive a respective cylindrical magnet, the chamfer of each pin on an end configured complementary to a flange hole chamfer. A non-magnetic core is engineered to axially slide in and out of the hollow axis of the magnets received into respective pins wherein each of a pair of apparatus resemble a bow tie in cross section configured to align a pair of flanges in two places for a level operation. A level is set across a first and a second assembly of chamfered pins to determine a level flange ready for welding.

A flange joint assembly includes a first structure including a first flange and a second structure including a second flange coupled to the first flange to form a joint therebetween. The second flange includes a radially outer surface. The flange joint assembly also includes a compression ring coupled to at least the radially outer surface and configured to apply a compressive force to the radially outer surface to reduce an amount of tension stress within said second flange.

A fluid conduit assembly (20) comprises: first and second fluid conduits (22,24); a coupling including first and second coupling sections (26,28), each coupling section (26,28) defining a respective hollow bore along which flowable material may flow, the first coupling section (26) in fluid connection with the first fluid conduit (22), the second coupling section (28) in fluid connection with the second fluid conduit (24), the coupling sections (26,28) configured to be releasably coupled to each other; and at least one shut-off valve located within the hollow bore of at least one of the coupling sections (26,28), the or each shut-off valve including a valve member (32) movable between a valve open position and a valve closed position in which the valve member (32) shuts off the flow of a flowable material through the hollow bore, the or each valve member (32) configured to move to its valve closed position on separation of the coupling sections (26,28), wherein the first coupling section (26) is connected to the first fluid conduit (22) so that a first end (36) of the first coupling section (26) extends inside a hollow bore of the first fluid conduit (22) and a second end (38) of the first coupling section (26) is located outside the hollow bore of the first fluid conduit (22), and/or wherein the second coupling section (28) is connected to the second fluid conduit (24) so that a first end (40) of the second coupling section (28) extends inside a hollow bore of the second fluid conduit (24) and a second end (42) of the second coupling section (28) is located outside the hollow bore of the second fluid conduit (24).