Disclosed herein are several embodiments of a reduced pressure appliance and methods of using the same in the treatment of wounds. Some embodiments are directed to improved fluidic connectors or suction adapters for connecting to a wound site, for example using softer, kink-free conformable suction adapters. Certain embodiments are directed to connectors used to connect fluid passage tube used in transmitting negative pressure to a fabric channel used in a suction adapter.

Disclosed herein are several embodiments of a reduced pressure appliance and methods of using the same in the treatment of wounds. Some embodiments are directed to improved fluidic connectors or suction adapters for connecting to a wound site, for example using softer, kink-free conformable suction adapters. Certain embodiments are directed to connectors used to connect fluid passage tube used in transmitting negative pressure to a fabric channel used in a suction adapter.

A lock (10) for a tubular connection, blocked axially in a first tubular element and defining an axial opening (14) receiving a second tubular element provided with a circular collar, said lock (10) comprising elastically deformable cradles provided with inside bevels (13) designed so that, while the second tubular element is axially engaged, they move radially apart under the effect of the axial pressure of the circular collar, allow same to pass through, and then move back in to clamp behind the circular collar and to co-operate therewith to lock the second tubular element axially in the first tubular element. Each cradle (11) is provided with a raised axial ridge (15) with a width (l) less than the width (L) of the cradle (11), and is intended during the axial engagement, to receive the axial thrust from the circular collar. A tubular connector is obtained with such a lock (10).

In a rapid coupling, a pipe nipple engages a through hole of a socket. A first annular groove provided on the pipe nipple serves to catch a locking ring provided in the socket, in order to lock the coupled condition. A sleeve is movable on the pipe nipple, the sleeve having an inner projection to be retained by the first annular groove of the pipe nipple in a pre-assembled condition. When the pipe nipple is inserted into the socket, the sleeve abuts the socket and is then moved along the pipe nipple until the inner projection is caught by a second annular groove if the coupling is properly locked. It the pipe nipple is not moved into the socket to such an extent that the locking ring is caught by the first annular groove, the second annular groove remains visible outside the sleeve to indicate the improper coupling condition.

In a rapid coupling, a pipe nipple engages a through hole of a socket. A first annular groove provided on the pipe nipple serves to catch a locking ring provided in the socket, in order to lock the coupled condition. A sleeve is movable on the pipe nipple, the sleeve having an inner projection to be retained by the first annular groove of the pipe nipple in a pre-assembled condition. When the pipe nipple is inserted into the socket, the sleeve abuts the socket and is then moved along the pipe nipple until the inner projection is caught by a second annular groove if the coupling is properly locked. It the pipe nipple is not moved into the socket to such an extent that the locking ring is caught by the first annular groove, the second annular groove remains visible outside the sleeve to indicate the improper coupling condition.

A coupling piece, especially a coupling plug, for a screw coupling for pressure medium lines, especially hydraulic lines, for coupling with a corresponding coupling piece, especially a coupling sleeve, in the direction of a coupling axis, having a casing-like coupling housing and a locking casing, especially a locking nut, for locking the coupling piece with the corresponding coupling piece in the coupled setting, wherein the locking casing, has a locking casing thread, especially a locking nut interior thread, for screw connection with a locking counter thread of the corresponding coupling piece, and wherein the locking casing, especially the locking nut in its non-locked setting is mounted in freely turnable fashion on the housing, around the coupling axis, wherein the coupling piece has means by which the locking nut in its locking setting is able to be connected, in an axial direction with the housing so as not to shift or turn.

A coupling piece, especially a coupling plug, for a screw coupling for pressure medium lines, especially hydraulic lines, for coupling with a corresponding coupling piece, especially a coupling sleeve, in the direction of a coupling axis, having a casing-like coupling housing and a locking casing, especially a locking nut, for locking the coupling piece with the corresponding coupling piece in the coupled setting, wherein the locking casing, has a locking casing thread, especially a locking nut interior thread, for screw connection with a locking counter thread of the corresponding coupling piece, and wherein the locking casing, especially the locking nut in its non-locked setting is mounted in freely turnable fashion on the housing, around the coupling axis, wherein the coupling piece has means by which the locking nut in its locking setting is able to be connected, in an axial direction with the housing so as not to shift or turn.

Fluid storage and dispensing systems and processes involving various structures methods for fluid storage and dispensing, including, pre-connect verification couplings that are usefully employed with fluid storage and dispensing packages to ensure proper coupling and avoid fluid contamination issues, empty detect systems (e.g., monitoring pressure of dispensed liquid medium to detect pressure droop conditions) useable with fluid storage and dispensing packages incorporating liners that are pressure-compressed in the fluid dispensing operation, ergonomically enhanced structures for facilitating removal of a dispense connector from a capped vessel, cap integrity assurance systems for preventing misuse of vessel caps, and keycoding systems for ensuring coupling of proper dispense assemblies and vessels. Fluid storage and dispensing systems achieve zero or near-zero headspace character, and prevent or ameliorate solubilization effects in liquid dispensing from liners in overpack vessels.

Fluid storage and dispensing systems and processes involving various structures methods for fluid storage and dispensing, including, pre-connect verification couplings that are usefully employed with fluid storage and dispensing packages to ensure proper coupling and avoid fluid contamination issues, empty detect systems (e.g., monitoring pressure of dispensed liquid medium to detect pressure droop conditions) useable with fluid storage and dispensing packages incorporating liners that are pressure-compressed in the fluid dispensing operation, ergonomically enhanced structures for facilitating removal of a dispense connector from a capped vessel, cap integrity assurance systems for preventing misuse of vessel caps, and keycoding systems for ensuring coupling of proper dispense assemblies and vessels. Fluid storage and dispensing systems achieve zero or near-zero headspace character, and prevent or ameliorate solubilization effects in liquid dispensing from liners in overpack vessels.

According to one aspect, a quick disconnect connector is provided. The quick disconnect connector includes a first component and a second component which is matable with the first component. A releasing element is engageable with at least one of the first component and the second component to unmate the first component and the second component. A locking element is movable between a locked position and an unlocked position. The locking element, in the locked position, engages the releasing element to prevent the releasing element from unmating the first component and the second component. The locking element is movable from the unlocked position to the locked position by application of a locking force to the locking element. The locking force can be applied to the locking element by fluid being carried by the quick-disconnect connector.