A fluid transfer connector securely connects a port fitting of a fluid device to a fluid hose. The fluid transfer connector includes an attachment member attachable to the port fitting of the fluid storage device. The fluid transfer connector further includes a hose adapter including a housing with a seal that wipes and sealingly engages the port fitting when the hose adapter is engaged to the attachment member.

A collet includes a cap, a conduit grasper, a collet bore, and a collet slot. The grasper is composed of a flexible material such that the grasper is compressible in response to an applied force. A conduit such as a column is installed in a fluidic component by passing the conduit through the collet and into a fluidic coupling device. The collet is then coupled to the fluidic coupling device so as to compress the grasper against the column, thereby securing the column in the fluidic coupling device. The conduit may then be inserted into the fluidic component, and fluidic coupling device may be coupled to the fluidic component to complete the conduit installation. The collet or at least the cap may then be removed by moving the collet or at least the cap around the column via the collet slot. The grasper may be removed via a grasper slot.

A plug for connecting capillaries includes at least one capillary tube, at least one sealing, and at least one pressure piece. The capillary tube includes a first inner diameter and an open end section. The sealing includes a second inner diameter, a first end section and a shape adapted to seal the open end section of the capillary tube when connected. The pressure piece is adapted to exert at least axial pressure and/or force to at least a part of the sealing. The pressure piece is also adapted to host the first end section of the sealing in abutment with the open end section of the capillary tube so that the capillary tube and the sealing are aligned.

A diesel exhaust fluid transfer circuit providing a fluid transfer connector for securely connecting a port fitting of a diesel exhaust fluid device to a diesel exhaust fluid hose. The fluid transfer connector comprises an attachment nut attachable to a port fitting of the diesel exhaust fluid device. The fluid transfer connector further comprises a hose adapter including a fluid conduit and an annular wiper seal coaxially aligned with the fluid conduit. With the attachment nut attached to the port fitting, the fluid conduit is slidable over the port fitting and connectable to the attachment nut, and the annular wiper seal wipes any residue on the port fitting as the fluid conduit is slid over the port fitting.

An enhanced seal may comprise an inner portion and an outer portion. The inner portion may comprise an inner cylindrical portion and an inner annular portion. The outer portion may comprise an outer cylindrical portion and an outer annular portion. The inner portion may be made of a harder material than the outer portion and may provide support to the outer portion.

A lock device for a coupling part of a piping or valve of a raw-material container or the like, capable of preventing looseness and erroneous operation of a coupling, and having favorable stability because the device is fixed as a force is applied to a direction of additionally fastening the coupling. The lock device is provided for achieving prevention of looseness of a coupling part (4) formed of a screwed member (20) and a screwing member (21) side, and includes a clamp member (42) for additional fastening attached to the screwed member side, a clamp member (41) for positioning and fixing attached to the screwing member side, and a screw member (43) for fastening the clamp members. The clamp members are fastened with the screw member (43), thereby being fixed to the coupling part while a force is applied to a direction of additionally fastening the screwing member side.

A fitting for fluidic coupling in a chromatography system includes a compression screw including an axial bore, a threaded portion, and a drive end, a tube assembly including a tube sleeve and an inner tube disposed through the sleeve, the tube sleeve and the inner tube each extending to an endface of the tube assembly, the tube sleeve including an outer surface, a seal body extending between a first endface and a second endface, the first endface abutting the endface of the tube assembly, the seal body including an outer surface, and a collar secured to the outer surface of the tube sleeve and the outer surface of the seal body. Other Fittings, Methods of manufacture of fittings, and methods of fluidic coupling are further disclosed.

An integrated block 1 serving as a fluid device includes: a flow port 13 open to form one end of a passage P; an annular groove 14 arranged along an outer circumferential edge of the flow port 13, the annular groove 14 being open so as to insert the gasket 2 therein; a first tapered portion 17 arranged on a radially-inner side interior wall 14b of the annular groove 14 and sloped radially outward from an open end of the annular groove 14 in a depth direction of the annular groove 14; and a guide 18 arranged on a radially-outer side interior wall 14a of the annular groove 14, extending throughout a predetermined range D from the open end of the annular groove 14 in the depth direction, and having a larger diameter than an outer circumferential surface 22a of a second sealing portion 22 of the gasket 2.

The present invention provides a pipe union that uses mechanical advantage from leverage between a locknut with circumferential torque openings coupled to a tubular first portion and a torque ring with torque slots coupled to a tubular second portion to tighten the union. The tightening can occur without the need of a hammer impact on lugs. Initial tightening can at least partially align longitudinally the radial holes with the radial slots. Final tightening can occur by rotating the torque openings relative to the torque slots using mechanical advantage. Optionally, the pipe union can provide for a ratcheting mechanism to turn the locknut on the tubular first portion to engage the tubular second portion and exert a preliminary torque on the union. The pipe union design also provides a self-energizing elastomeric seal or metal seal. Angles on load shoulders can assist in creating preloads on the union to seal the components.

Face-sealed fittings are described for joining flanged tubes. These fittings utilize unique designs for pairing rings, nipples, and nuts to provide several advantages over prior art designs. Face-sealed fittings provided herein are symmetrical and genderless, and are field attachable/removable over previously welded glands. Moreover, they are torque free and have footprints comparable or smaller than legacy assemblies.