An expansion loop for a piping system. The expansion loop has a first flexible conduit with a first end and a second end and a second flexible conduit with a first end and a second end. A first rigid conduit is connected between the first ends of the first and second flexible conduits. Additional rigid conduits are connected to both of the second ends of the flexible conduits. These additional rigid conduits include a stainless-steel elbow, a conversion conduit, and a copper conduit. The expansion loop may be installed wherein the flexible conduits are bent, when fluid flows, the flexible conduits straighten out and are not bent.

An expansion loop for a piping system. The expansion loop has a first flexible conduit with a first end and a second end and a second flexible conduit with a first end and a second end. A first rigid conduit is connected between the first ends of the first and second flexible conduits. Additional rigid conduits are connected to both of the second ends of the flexible conduits. These additional rigid conduits include a stainless-steel elbow, a conversion conduit, and a copper conduit. The expansion loop may be installed wherein the flexible conduits are bent, when fluid flows, the flexible conduits straighten out and are not bent.

A fluid system and a blind-mate fluid fitting is provided. The blind-mate fluid fitting includes a shoulder and fitting portion extending from one side of the shoulder. The fitting portion defines a central fitting axis and is operable to inserted into a fluid port of a component. The fluid port defines a central port axis. The fitting portion includes a sealing portion that is operable to seal against the fluid port when the central fitting axis is positioned at a zero angle and at least one of a plurality of different non-zero angles relative to the central port axis.

A cam ring for a pipe connector includes a first axial side, a second axial side opposite the first axial side, a radially outward-facing side, a radially inward-facing side, and a cam element extending a circumferential length along the radially inward facing-side. The cam element includes a first cam section and a second can section, the cam sections respectively have first and second radially facing cam surfaces adjacent respective first and second axially facing cam surfaces. The second radially facing cam surface has a second radial depth lesser than a first radial depth of the first radially facing cam surface. The second axially facing cam surface has a second axial location closer to the first axial side than a first axial location of the first axially facing cam surface. A gripper for a pipe connector includes a body and teeth with an arc shape.

A cam ring for a pipe connector includes a first axial side, a second axial side opposite the first axial side, a radially outward-facing side, a radially inward-facing side, and a cam element extending a circumferential length along the radially inward facing-side. The cam element includes a first cam section and a second can section, the cam sections respectively have first and second radially facing cam surfaces adjacent respective first and second axially facing cam surfaces. The second radially facing cam surface has a second radial depth lesser than a first radial depth of the first radially facing cam surface. The second axially facing cam surface has a second axial location closer to the first axial side than a first axial location of the first axially facing cam surface. A gripper for a pipe connector includes a body and teeth with an arc shape.

A pipe connector includes a body, a cam ring, a seal element, a push ring, and a gripper. The body has an aperture through an outer surface. The cam ring is configured to be located around the outer surface. The seal element is configured to be seated around an inner surface of the body. The push ring is configured to be slideably located within the body, and to have an aperture configured to be aligned with the aperture of the body. The gripper is configured to be located through the aperture in the body and into a first depth of the cam element. The cam ring is configured to rotate, moving the gripper axially to draw the push ring against the seal element and to move the gripper radially to grip the pipe.

A pipe connector includes a body, a cam ring, a seal element, a push ring, and a gripper. The body has an aperture through an outer surface. The cam ring is configured to be located around the outer surface. The seal element is configured to be seated around an inner surface of the body. The push ring is configured to be slideably located within the body, and to have an aperture configured to be aligned with the aperture of the body. The gripper is configured to be located through the aperture in the body and into a first depth of the cam element. The cam ring is configured to rotate, moving the gripper axially to draw the push ring against the seal element and to move the gripper radially to grip the pipe.

A pipe connector includes a body, a cam ring, a seal element, a push ring, and a gripper. The body has an aperture through an outer surface. The cam ring is configured to be located around the outer surface. The seal element is configured to be seated around an inner surface of the body. The push ring is configured to be slideably located within the body, and to have an aperture configured to be aligned with the aperture of the body. The gripper is configured to be located through the aperture in the body and into a first depth of the cam element. The cam ring is configured to rotate, moving the gripper axially to draw the push ring against the seal element and to move the gripper radially to grip the pipe.

A pipe connector includes a body, a cam ring, a seal element, a push ring, and a gripper. The body has an aperture through an outer surface. The cam ring is configured to be located around the outer surface. The seal element is configured to be seated around an inner surface of the body. The push ring is configured to be slideably located within the body, and to have an aperture configured to be aligned with the aperture of the body. The gripper is configured to be located through the aperture in the body and into a first depth of the cam element. The cam ring is configured to rotate, moving the gripper axially to draw the push ring against the seal element and to move the gripper radially to grip the pipe.

A coupling assembly, to be flowed through by fluid, for coupling two components has a coupling element and a ball joint assembly with a female ball joint element, a male ball joint element, and a securing element. The female and male ball joint elements form a ball joint by form fit. The male ball joint element has a ball segment and the female ball joint element has an expandable ball segment. The ball segment of the male ball joint element engages the expandable ball segment so that the female ball joint element at least partially encloses the male ball joint element. The securing element contacts externally an outer contour of the female ball joint element. The coupling element forms one of the female and male ball joint elements. One of the two components forms the other one of the female and male ball joint elements.