A connector is provided for holding a deformable tube, and includes a connection head, an inner portion extending from the head, an outer portion extending from the head and at least partially surrounding the inner portion to define a tube entry passage, the entry passage has a constricting area of lesser width than the width of the tube wall, and the outer and inner portions move relative to each other to allow entry of the tube past the constricting area and further into the passage, after insertion of the tube past the constricting area, and on application of a translational force to the tube, the outer and inner portions are configured to bear further against the elastically deformable tube such that the tube is held between the inner and the outer portions. At least one of the outer portion and the inner portion is at least partially helical in construction.

At least some aspects of the present disclosure feature a convective system, comprising: an inflatable convective device and a hose configured to connect to the inflatable convective device to an inflation medium source. The convective device has a pneumatic structure and an opening into the pneumatic structure, where at least part of the convective device is air permeable. The hose includes a nozzle configured to insert into the opening and a hindrance device disposed on the nozzle, where the hindrance device is configured to prevent the hose from slipping from the opening.

According to the invention it is provided that a hose connecting device for connecting an elastic flexible hose to a rigid connection includes at least one coupling element having first positively locking means for coupling to the connection portion in positively locking relationship, and an annular support body which peripherally supports the coupling element, wherein the positively locking means extend radially internally on the annular support body and wherein the annular support body is adapted for fixing to the flexible hose.

An expandable water hose assembly comprises a water hose and coupling means. The water hose comprises a flexible outer tube, a collapsible water impermeable flexible inelastic inner tube located inside the outer tube, and an elastic flexible member located inside the collapsible water impermeable flexible inelastic inner tube. The outer tube, collapsible inner tube, and elastic flexible member are movable from a retracted storage configuration to an extended deployed configuration upon application of water pressure within the water hose assembly. The elastic flexible member is in an untensioned state whilst in the retracted storage configuration and a tensioned state whilst in the extended deployed configuration.

Upon removal of water pressure from within the water hose assembly, the elastic flexible member may return to its untensioned state and applies a retracting force to the hose assembly to urge the collapsible inner tube into a retracted storage configuration.

A method for coupling a tube to a tube fitting includes radially outwardly expanding a tubular compression collar from a constricted state to an expanded state, the compression collar having a throughway extending there through and being made of a resiliently flexible material. An end of the tube is inserted within the throughway of the expanded compression collar, the tube bounding a passageway. A tube fitting is inserted within the passageway of the tube. The compression collar is allowed to resiliently rebound back towards the constricted state so that the compression collar pushes the tube against the tube fitting.

A terminal for making a hydraulic, electrical, or optical connection in an ink jet printing machine. The terminal extends along an axis XX, and its external surface includes: a cylindrical portion, including a contact end and having a first diameter (d1), this end being provided with hydraulic or electrical or optical connection structure. The external surface also includes a collar, having a diameter (d2) higher than the first diameter (d1), and a throat, the bottom of which has a cross-section, in a plane perpendicular to the axis XX, having at least one arc of circle portion having a third diameter (d3) lower than that of the collar, at least one planar part, and a part of this cross-section having a width lower than the third diameter. The throat continues with a connection device, for connecting to at least one hydraulic conduit or one electrical cable or one optical fibre.

A pipe joint includes a hollow joint main body; a nut that is screwed into the joint main body; a seal member that is mounted to inside of the joint main body; and a retainer that is placed between the joint main body and the nut and comprises a pawl portion engaged with a trough of a metal flexible pipe in a coupled state and a retainer locking portion caught and locked inside of the joint main body in the coupled state.

In an embodiment, a hose coupling assembly includes a collet including a head and an axial protrusion extending from the head in a first axial direction. The axial protrusion is configured to engage a hose while the axial protrusion is in a locked position, and to disengage the hose while the axial protrusion is in an unlocked position. The hose coupling assembly also includes a housing disposed about the axial protrusion and configured to receive the hose. An inner surface of the housing is shaped to enable movement of the axial protrusion toward the unlocked position in response to movement of the axial protrusion in the first axial direction, and to drive the axial protrusion toward the locked position in response to movement of the axial protrusion in a second axial direction, opposite the first axial direction.

The invention relates to a fluid-transfer coupling device designed to couple a rigid male endpiece (30) to a flexible female pipe (20) and to the production method therefor. The device comprises: a sleeve (10) for gripping around the pipe and locking the endpiece, the sleeve having a radially inner part (18) surrounding an annular sealing lining (50) mounted in abutment on the endpiece; and a metal socket (40) having a tubular portion (41) gripped by the pipe and ending in a collar formed by a radial step (43) which extends in an axial end (44) and has a radial height, the axial end being mounted inside and in contact with the radially inner part and forming the base of a groove receiving the lining, the device comprising means for fitting the sleeve to the collar and comprising a continuous peripheral projection (13) formed in one piece with the sleeve. According to the invention the projection projects radially in abutment against the step over most of the radial height.

A method of manufacturing a component (124) having a main body (116) and at least one ring sleeve (118) through a molding assembly (100), the method comprising: providing a mold (102) having an inlet (115) and defining a hollow portion (H); placing at least one core to form a free-space (104, 106) within the component (124) inside the mold (102) to bifurcate the hollow portion (H) into a first cavity and a second cavity; pouring a molding material (117) inside the mold (102) through the inlet (115); allowing the molding material (117) to set inside the mold (102) around the core within the first cavity and the second cavity to form a main body (116) and at least one ring sleeve (118) of the component (124); connecting the first cavity and the second cavity and forming at least one first bond and one second bond (130, 132, 134, 136) between the main body (116) and the at least one ring sleeve (118); and removing the at least one core from at least part of the hollow portion (H) within the mold (102); characterized in that: providing the core with at least one recess allowing the molding material (117) to flow therethrough such that on withdrawing the core out of the mold (102), at least one first bond (130, 132) breaks and on withdrawing the core outside the mold (102), at least one second bond (134, 136) breaks.