A clamp comprising a band, the band comprising first and second edges, first and second lug elements connected proximate to the first and second band edges, multiple bolts extending transversely between the first and second lug elements, the first lug element comprising a transversely extending lug finger having a finger bearing surface, the second lug element comprising a lug finger land having a bearing surface, the lug finger extending transversely between the first and second lug elements, the finger bearing surfaces of the lug finger and the lug finger land contoured relative to each other such that tightening the band to reduce a gap between the edges of the band in a first range causes the first lug element to rotate in a first direction of rotation and in a second range causes the first lug element to rotate in a second direction opposite to the first direction of rotation.

A watertight flange for jointing and repairing pipes is provided that includes a ring-shaped sealing gasket (2) and a metal body (3) that is perimetrically coupled on the circular surface of the ring-shaped gasket (2). The sealing gasket (2) and the metal body (3) are pressed by closing and clamping elements externally incorporated determined by bolts (4) transversally inserted in respective pairs of parallel through-axles (5) and joined integral with the metal body (3). The metal body (3) has approximately the same length as the ring-shaped gasket (2), with respective lateral ends perpendicularly folded inward and having radial cuts (31) that define related rims (32) that determine retaining means of the said ring-shaped gasket (2) in the metal body (3) and, eventually, means interlocking the watertight flange (1) itself on the surface of the pipes to be jointed.

A watertight flange for jointing and repairing pipes is provided that includes a ring-shaped sealing gasket (2) and a metal body (3) that is perimetrically coupled on the circular surface of the ring-shaped gasket (2). The sealing gasket (2) and the metal body (3) are pressed by closing and clamping elements externally incorporated determined by bolts (4) transversally inserted in respective pairs of parallel through-axles (5) and joined integral with the metal body (3). The metal body (3) has approximately the same length as the ring-shaped gasket (2), with respective lateral ends perpendicularly folded inward and having radial cuts (31) that define related rims (32) that determine retaining means of the said ring-shaped gasket (2) in the metal body (3) and, eventually, means interlocking the watertight flange (1) itself on the surface of the pipes to be jointed.

A pipe coupling encapsulation assembly includes an elastomeric ring including two elastomeric annular pipe interface portions that extend from two opposite axial ends of an elastomeric intermediate annular portion. The elastomeric annular pipe interface portions have a smaller annular radius than an annular radius of the elastomeric intermediate annular portion. Each of the elastomeric annular pipe interface portions and the elastomeric intermediate annular portion includes edges that face each other when the elastomeric ring is placed around a pipe. A repair coupling includes a band and opposing clamp members extending outwards from ends of the band, the elastomeric ring being radially inwards of the band.

A seal clamp, such as for gas lines, includes a handle assembly having a handle, a transfer or drive assembly cooperable with the handle, and a clamping assembly including first and second claws or clamps and a seal member. The first and second claws or clamps are cooperable with the transfer assembly. The seal member is structured to seal a puncture in a gas line. Responsive to movement of the handle, the first and second claws or clamps move from an OPEN position to a CLOSED position, such as to engage a pipe and create a clamping force which forces the seal member into engagement with the pipe, such as a puncture, to seal the pipe.

A seal clamp, such as for gas lines, includes a handle assembly having a handle, a transfer or drive assembly cooperable with the handle, and a clamping assembly including first and second claws or clamps and a seal member. The first and second claws or clamps are cooperable with the transfer assembly. The seal member is structured to seal a puncture in a gas line. Responsive to movement of the handle, the first and second claws or clamps move from an OPEN position to a CLOSED position, such as to engage a pipe and create a clamping force which forces the seal member into engagement with the pipe, such as a puncture, to seal the pipe.

A pipe coupling encapsulation assembly includes a repair coupling including an elastomeric seal, clamp members and one or more tightening elements for tightening the clamp members towards each other, and a grip member assembled in the repair coupling. The grip member is formed into an at least partially circumferential band. The band includes a plurality of pipe interface members with protrusions capable of digging into an outer surface of a pipe being sealed. The grip member includes a plurality of radially inner and radially outer bends. The pipe interface members and the protrusions are located at radially inward surfaces of the inner bends.

A pipe coupling encapsulation assembly includes a repair coupling including an elastomeric seal, clamp members and one or more tightening elements for tightening the clamp members towards each other, and a grip member assembled in the repair coupling. The grip member is formed into an at least partially circumferential band. The band includes a plurality of pipe interface members with protrusions capable of digging into an outer surface of a pipe being sealed. The grip member includes a plurality of radially inner and radially outer bends. The pipe interface members and the protrusions are located at radially inward surfaces of the inner bends.

A system for detecting leaks comprises at least one pipeline element, a leak detection device, and a pre-formed, heat-shrinkable sleeve comprising at least one inlet aperture. A method of manufacturing the sleeve comprises the steps of applying a cross-linkable material around a standard-sized sleeve mold, cross-linking the material, removing the cross-linked material from the mold, heating and stretching the cross-linked material around a stretching sleeve mold, allowing the material to cool, and removing the cooled sleeve from the mold. A method of monitoring a leak comprises the steps of receiving the pipeline element in the sleeve and applying heat to the sleeve, whereby the sleeve shrinks and conforms substantially around the profile of the pipeline element and at least a portion of the leak detection device.

A system for detecting leaks comprises at least one pipeline element, a leak detection device, and a pre-formed, heat-shrinkable sleeve comprising at least one inlet aperture. A method of manufacturing the sleeve comprises the steps of applying a cross-linkable material around a standard-sized sleeve mold, cross-linking the material, removing the cross-linked material from the mold, heating and stretching the cross-linked material around a stretching sleeve mold, allowing the material to cool, and removing the cooled sleeve from the mold. A method of monitoring a leak comprises the steps of receiving the pipeline element in the sleeve and applying heat to the sleeve, whereby the sleeve shrinks and conforms substantially around the profile of the pipeline element and at least a portion of the leak detection device.