Pipe connector for coupling a first-end pipe and a second-end pipe that includes intermediary attachment connectors for each of the first-end and second-end pipes. The attachment connectors include O-ring slots machined into an external perimeter surface and a movable sleeve that engages with the intermediary attachment connectors to form a seal between the O-ring slots and an internal perimeter surface of the sleeve.

A coupling segment includes a coupling body, the coupling body defining a first end and an opposite second end, the coupling body further defining a first axial end and an opposite second axial end; a leg extending from the first end, the leg defining a proximal end proximate the first end and a distal end distal from the first end, the leg angling from the first axial end to the second axial end, the distal end defining a bearing member, the bearing member defining a planar bearing surface; and a fastener pad extending from the second end.

Coupling device (12) for connecting elongated hollow bodies (26, 28) in an assembly system (10), comprising: a first receiving opening (32) for receiving a first elongated hollow body (26) and a second receiving opening (34) for receiving a second elongated hollow body (28), wherein the receiving openings (32, 34) are arranged relative to one another in such a way that the first and second elongated hollow bodies (26, 28) can be coupled to one another after introduction into the respective receiving openings (32, 34).

A seal clamp assembly for sealing a female and male member together may include a seal configured to be positioned over the female and male members, the seal having a first end, a second end opposite the first end, a first edge, and a second edge opposite the first edge, and a retainer configured to be positioned over the seal, the retainer having a first end, a second end opposite the first end, a first edge, and a second edge opposite the first edge, wherein the retainer has a serpentine configuration along its length.

Disclosed herein are air intake assemblies for internal combustion engines. In some embodiments, an air intake assembly includes an air filter configured to produce filtered air, a sealed filter housing configured to house the air filter therein, and an intake tube configured to convey the filtered air to an internal combustion engine. The filter housing includes an air intake port configured to provide intake air to the air filter. The air filter is configured to remove particulate matter from the intake air and produce the filtered air. The air filter includes a multi-component coupling interface configured to accept an intake-end portion of the intake tube in the coupling interface. The filter housing includes an aperture configured to accept the coupling interface of the air filter in the aperture. Also disclosed herein are methods of the air intake assemblies.

The device includes a sealing sleeve suitable for being disposed around the facing ends of two tubes and a clamping sleeve inside which the sealing sleeve extends. One of the elements constituted by the sealing sleeve and by the clamping sleeve has at least one retaining member suitable for co-operating in axial retention inside the clamping sleeve with a retaining surface of one of the tubes, which retaining surface is covered by the clamping sleeve.

Coupling device (12) for connecting elongated hollow bodies (26, 28) in an assembly system (10), comprising: a first receiving opening (32) for receiving a first elongated hollow body (26) and a second receiving opening (34) for receiving a second elongated hollow body (28), wherein the receiving openings (32, 34) are arranged relative to one another in such a way that the first and second elongated hollow bodies (26, 28) can be coupled to one another after introduction into the respective receiving openings (32, 34).

Spigot device including a spigot formed with exterior gripping teeth and sleeve device to telescope over the spigot. The sleeve device is formed with a radially inwardly opening, distally contracting conical bearing surface which mounts a radially inwardly contractible gripper ring device captive therein, and constructed to be driven radially inwardly by the bearing surface as the sleeve is drawn proximally on the spigot to grip a plastic pipe trapped in the annulus between the sleeve and spigot.

A pipe coupling includes a coupling segment having an inner surface defining a ring groove proximate to an axial end of the coupling segment, the ring groove comprising a groove bottom surface extending from a first end of the coupling segment to a second end of the coupling segment; and a pipe connection ring disposed within the ring groove, the pipe connection ring defining a body with two ring ends and an outer surface, the outer surface of the pipe connection ring contacting the groove bottom surface at a midpoint between the first end of the coupling segment and the second end of the coupling segment when the pipe connection ring is in an uncompressed condition. The pipe connection ring may be a split ring defining an opening between the two ring ends, which may be square, tapered, angled, or stepped.

Provided herein is a liner that can be loosely inserted in process pipe to form a lined pipe and to decrease the rate of heat transfer between process fluids flowing through the liner and the process pipe. The liner provided herein can reduce applied thermal loading on the outer pipe resulting from, for example, turbulent mixing between fluids having different temperatures (with or without stratification), circumferential thermal gradients, and/or longitudinal thermal gradients. An annulus between the process pipe and liner can be at least partially filled by process fluids, thereby creating a thermal buffer to further decrease the rate of heat transfer between the fluids and the process pipe.