A method of forming an assembly between a panel and a tube includes forming a hole in the panel, where a diameter of the hole is smaller than an outer diameter of the tube, and preforming a first end of the tube to conceal the hole of the panel. A diameter of the preformed portion is greater than the diameter of the hole and the outer diameter of the tube. The method further includes aligning a second end of the tube with the hole of the panel, followed by inserting the tube into the hole by application of axial force on the tube until the preformed first end of the tube abuts a periphery of the hole of the panel. The method also includes achieving an interference fit between the hole of the panel and the tube.

Various aspects of the invention described herein relate to a removable connector assembly, and methods of use and manufacture thereof. More particularly, certain embodiments relate to apparatus and methods to provide a connection to a spout disposed upon a container, such as upon a bag holding fluid. Embodiments of connector assemblies comprise an elongated outer housing, an inner housing, and a slider assembly for moving the outer surface of the sleeve member over the inner surface of the outer housing wall in a lengthwise motion to position the spout connector upon the spout and secure the spout connector in said position.

An assembly structure includes an outer joint assembly and an inner joint assembly. At least one terminal portion of the outer joint assembly is hollow to form an accommodating space, the outer joint assembly includes an outer casing and at least one elastic sheet, the elastic sheet has a fixed end and a free end, the fixed end is connected to the outer casing, and the free end is provided with a first engaging part. The outer surface of the inner joint assembly is provided with a second engaging part, the inner joint assembly is used to extend into the accommodating space, and the first engaging part and the second engaging part are used to engage with each other. Through the above design, the assembly structure has quick connect capability, which makes it more convenient for users to use.

An assembly structure includes an outer joint assembly and an inner joint assembly. At least one terminal portion of the outer joint assembly is hollow to form an accommodating space, the outer joint assembly includes an outer casing and at least one elastic sheet, the elastic sheet has a fixed end and a free end, the fixed end is connected to the outer casing, and the free end is provided with a first engaging part. The outer surface of the inner joint assembly is provided with a second engaging part, the inner joint assembly is used to extend into the accommodating space, and the first engaging part and the second engaging part are used to engage with each other. Through the above design, the assembly structure has quick connect capability, which makes it more convenient for users to use.

A sterile connector includes a first section of tubing with a first end portion to be connected to a second end portion of a second section of tubing and/or another counterpart to establish fluid communication. An axial protrusion extends away from the first end portion of the first section of tubing in an axial direction, and a separation layer closes off an inside of the section of tubing. The separation layer has a predetermined breaking site, and the axial protrusion is connected pivotally to the first end portion of the first section of tubing to pivot from a first position to a second position when engaged with a second axial protrusion and/or with the other counterpart and is coupled to the separation layer to exert a breaking force on the separation layer in the second position.

A sterile connector includes a first section of tubing with a first end portion to be connected to a second end portion of a second section of tubing and/or another counterpart to establish fluid communication. An axial protrusion extends away from the first end portion of the first section of tubing in an axial direction, and a separation layer closes off an inside of the section of tubing. The separation layer has a predetermined breaking site, and the axial protrusion is connected pivotally to the first end portion of the first section of tubing to pivot from a first position to a second position when engaged with a second axial protrusion and/or with the other counterpart and is coupled to the separation layer to exert a breaking force on the separation layer in the second position.

A method of forming an assembly between a panel and a tube includes forming a hole in the panel, where a diameter of the hole is smaller than an outer diameter of the tube, and preforming a first end of the tube to conceal the hole of the panel. A diameter of the preformed portion is greater than the diameter of the hole and the outer diameter of the tube. The method further includes aligning a second end of the tube with the hole of the panel, followed by inserting the tube into the hole by application of axial force on the tube until the preformed first end of the tube abuts a periphery of the hole of the panel. The method also includes achieving an interference fit between the hole of the panel and the tube.

A quick connector assembly connects to and establishes fluid communication with a male end port. The quick connector assembly includes a female component and an internal clip carried by the female component. The quick connector assembly receives the male end port in a single predetermined rotational orientation for retaining the male end port and the quick connector assembly non-rotatable receives the male end port.

A conduit assembly of a gravity separation device having specialized joint structure for mating first and second conduits to permit easier removal of the first conduit. The first conduit may include a snout having a tube and a collar positioned at an end of the tube. The collar may include a flange extending outward from a center of the tube. The second conduit may have a main body and a saddle at an end of the main body. The saddle may include a track shaped to receive the flange of the collar of the first conduit. The saddle may also have a resiliently separable gateway comprising two opposing projections configured for receiving therebetween and partially enclosing the tube of the snout.

A push-in connector for releasably connecting the ends of two media lines consists of a push-in part (2) and a socket part (1) composed of a first socket section (3) and a second socket section (5). In the installed condition, the push-in part (2) is axially latched in the second socket section (5) and accommodated in a manner that is rotatable about its axis, whereas the second socket section (5) can be accommodated in the first socket section (3) at different rotational angles about the common axis (18) in an axially latched manner. The second socket section (5) carries an actuation element (7) that is movable between a latched position shown by an axial pull-out safety device of the push-in part (2) and an unlatched position in which this pull-out safety device is lifted. This embodiment means that the rotational angular position of the second socket section (5) carrying the actuation element (7) with respect to the push-in part (2) as well as to the first socket section (3), and thus the actuation position of the push-in connector, can be adapted to the respective installation conditions, such that unencumbered access to the actuation element (7) is obtained.