Patent Description:
Providing connectors for the terminal ends of breathing conduit is of importance for the continued and safe delivery of gas therapies to patients.

For example, humidified or other gases may be transported via a series of conduits to provide for a breathing circuit, supplying the gas to a patient interface, such as for example to nasal cannula, mouthpieces, full face masks, nasal masks. Different conduits may be used in different parts of the breathing circuit.

For example, conduit most closely associated with the patient may be of small diameter and may need to be more flexible, whilst conduit further away from the patient can be of a larger diameter, less flexible and may include electronics, such as heaters or other sensing circuitry. <CIT> relates to a three-component coupling assembly consisting essentially of plastic male and female coupling members and an annular seal. The female member has a male fitting engaging end portion formed with interior threads for cooperatively threadedly engaging a threaded male hose fitting. The remaining female coupling portion has a generally cylindrical interior periphery of a smaller diameter size defining at a position adjacent the inner end of the interior threads an annular shoulder. The interior periphery has formed therein a plurality of annularly spaced grooves extending from the outer end thereof through the annular shoulder and a corresponding plurality of correspondingly annularly spaced notches extending from the annular shoulder toward the outer end. <CIT> relates to an adapter apparatus for a respiratory therapy system having a pressure generating device and an electrical tube assembly coupled to a patient interface device includes a first end having a first port member structured to be fluidly coupled to the electrical tube assembly, a second end having a second port member structured to receive a flow of breathing gas generated by the pressure generating device, the adapter apparatus being structured to deliver the flow of breathing gas to the electrical tube assembly through the first port member, and a wire assembly having a first electrical connector structured to be electrically coupled to the electrical tube assembly and a second electrical connector structured to be electrically coupled to the pressure generating device in order to provide an electrical connection between the electrical tube assembly and the pressure generating device.

Given the sequencing of different conduits, and the variety of patient interfaces that may be attached to these different conduits, a connector or system of connectors which helps a user make a correct connector connection finds particular advantage.

It is therefore an object of the present invention to provide a connector or system of connectors which will go at least some way towards addressing the foregoing problems or which will at least provide the industry and/or public with a useful choice.

At times, an airflow source may need to be removed or replaced, or a patient interface may need to be removed from a breathing circuit, or other conduit forming a part of a breathing circuit may need to be replaced. If detaching the particular component (e.g. conduit or a patient interface) from the circuit is difficult or time consuming, such detachments may adversely impact on the maintenance or continued delivery of a gas therapy to a patient, or may become a frustration for the person making such a detachment. Further, in emergencies, a slow or difficult connection mechanism can potentially place the patient's health in danger. Thus, a conduit connector that provides a "quick-connect" or "quick-release" capability, and yet which facilitates the rapid and correct alignment and connection of a new connector, as well as facilitating interchangeability of components, can provide greater comfort and/or safety for the patient.

In a first aspect, there is disclosed herein a connector to be provided at a terminal end of a breathing conduit, the connector comprising:.

In a second aspect, there is disclosed herein a connector to be provided at a terminal end of a breathing conduit, the connector comprising:.

According to the above first and second aspects, there is disclosed one or more additional features described by the optional configurations below.

The one or more internal connection features may be surface feature(s) that extend radially inward from the surface of an internal side wall of the body.

The one or more internal connection features may comprise one or more tabs.

The one or more tab(s) may be a raised protrusion.

The internal connection features may be oriented so as to be radially aligned with said one or more external alignment features and/or said one or more external visual aids.

There may be a pair of said internal connection features.

At least one (optionally one) of said internal connection features may comprise a longitudinally extensive channel or recess, said channel or recess may be configured to locate, retain, or position a printed circuit board (PCB) arrangement.

The internal surface may comprise one or more internal alignment features configured for aligning at least one connection feature of another connector to be received internally thereof into an aligned connection orientation therewith.

Said internal surface may comprise one or more internal alignment features configured to, in use, rotatably orient a male connection feature of another connector into an aligned connection orientation for connection with the connector, or at least into connection with, said one or more internal connection features located on or about the internal surface of the body.

The internal alignment feature(s) may be surface feature(s) that extend radially inward from the surface of an internal side wall of the body.

The internal alignment feature(s) may comprise one or more tab(s).

The one or more tab(s) may comprise a pair of shoulders, sloping away from each other and away from an end of the tab at the intersection of the shoulders, the end of the tab located substantially more toward a terminal end of the second end of the connector than the shoulders.

The internal alignment feature(s) may be one or more ribs extending substantially in a longitudinal direction of said connector and along said internal surface, optionally being a surface of an internal side wall of the body.

The internal alignment features may comprise: <NUM>-<NUM> ribs, or <NUM>-<NUM> ribs, or <NUM>-<NUM> ribs, or <NUM> ribs, or <NUM> ribs, or <NUM> ribs, or <NUM> ribs, or <NUM> ribs, or <NUM> ribs.

Two or more sets of internal alignment features may be provided on or about the internal surface of the body, optionally there are two sets of alignment features.

Each said set of internal alignment may comprise an equal number of internal alignment features as another set.

The internal surface may comprise two of said internal alignment features.

The internal alignment features may, in use, rotatably align a pair of fingers extending from another connector when inserted into or placed into engagement or surface contact with said internal surface of the connector.

The first end may be configured for engagement with the terminal end of the breathing conduit.

The first end may comprise a sleeved portion to be attached to the terminal end of the breathing conduit and to form a pneumatic connection therewith.

At least a part of said sleeved portion may be insertable into or to be located or housed within an interior surface or the lumen of the terminal end of the breathing conduit.

At least a part of said sleeved portion may be receivable upon or to be located or housed upon an exterior surface of the terminal end of the breathing conduit.

The external alignment feature(s) and/or the external visual aid(s) may comprise one or more external surface features extending radially outwardly from the outer surface of an external side wall of the body.

The external alignment feature(s) may comprise one or more tab(s).

The external alignment feature(s) may be one or more rib(s) (or protrusion(s)) extending substantially in a longitudinal direction with the connector and along said external surface, optionally being a surface of an external side wall of the body.

The at least one, or each rib or protrusion may comprise a pair of shoulders, said shoulders sloping away from each other and away from an end of the rib or protrusion at the intersection of the shoulders, the end of the rib or protrusion located substantially more toward a terminal end of the second end of the connector than the shoulders.

The at least one, or each rib or protrusion may be substantially tongue shaped, and/or substantially triangular and/or substantially tapers toward an end.

The external alignment features may comprise: <NUM>-<NUM> ribs, or <NUM>-<NUM> ribs, or <NUM>-<NUM> ribs, or <NUM> ribs, or <NUM> ribs, or <NUM> ribs, or <NUM> ribs, or <NUM> ribs, or <NUM> ribs.

External alignment features may be spaced, arrayed or arranged evenly or equidistantly from each other about the circumference or a radius of the external surface.

The external alignment feature may be a projection of a length that extends in a substantially longitudinal direction of said connector and along said external surface, and a height of said projection from the external surface varies along said length.

The height of said external alignment feature may taper along said length.

The height of said projection may either:.

Provided substantially at or toward a base of a or each said external alignment feature may be a stepped protrusion, the stepped protrusion being a more radially outwardly extending projection than an adjacent portion of the external alignment feature.

The stepped projection may be configured to be co-located or co-locatable for keying with a reciprocally shaped recess or cut-out of at least a part of a sleeved portion of another connector when brought to bear into connection therewith during a connection between the connector and said another connector.

The stepped projection may be configured to act as a key to reciprocally locate with a reciprocally shaped recess or cut-out of a component brought into connection therewith.

Provided substantially at or toward a base of a or each said external alignment feature may be a recess or cut-out, the recess or cut-out configured for receiving a protrusion or projection of a reciprocally shaped portion of another connector.

The recess or cut-out may be configured to be co-located or co-locatable for keying with a reciprocal protrusion or projection of at least a part of a sleeved portion of another connector when brought to bear into connection therewith during a connection between the connector and said another connector.

The recess or cut-out may be configured to act as a keyway to reciprocally locate with a reciprocally shaped protrusion or projection of a component brought into connection therewith.

The stepped protrusion or recess or cut-out may be of the following shapes or profiles for locating with or receiving a substantially reciprocally shaped recess or cut-out, or a protrusion or projection: semi-circular, triangular, rectangular or other recti-linear or geometric shapes, elliptical, wedge shaped.

A radially extensive flange or lip may project from the external surface of the body.

Said flange or lip may substantially defines a stop end for a point or length of maximum engagement of another connector when made with the external surface of the connector.

Said flange or lip may comprise one or both of:.

Said flange or lip may be longitudinally extensive so as to be configured for an engagement with the terminal end of the breathing conduit.

A sheath, optionally an overmoulded sheath, may be provided for a pneumatic engagement of an external surface of the body with a terminal end of a breathing tube, optionally the sheath pneumatically engaging the first end of the connector with the terminal end of a breathing tube.

Said sheath may comprise one or both of:.

Said recessed or grooved regions and/or said extending projection regions of said sheath may be wholly or at least partially aligned with said recessed or grooved regions and/or said extending projection regions of said flange or lip.

An internal surface of the body, optionally toward the second end of the connector, may be configured to locate, retain, or position a printed circuit board (PCB) arrangement.

The PCB circuitry may be for: control, sensing (e.g. temperature, humidity, flow rate), heating (e.g. heater wires) or other electronic components for a breathing conduit to be used as a part of a breathing circuit.

The connector may provide for a plurality of separate sealing surfaces upon which separate connections with separate another connectors may be made, optionally there may be two separate sealing surfaces to accommodate two different connectors.

The connector may be configured to provide a first separate sealing surface when a separate connection is made thereto by another connector, the first sealing surface defined by one or both of:.

The connector may be configured to provide a body of the second end, for sealing upon a second sealing surface of another connector, the second sealing surface defined by:
an internal side wall surface provided substantially at or toward a base end of the second end of the another connector, in use, the body of the second end of the connector being brought to bear substantially upon the internal side wall surface or a location along the internal side wall surface at or toward the base end of another connector.

The connector may be configured to provide a body of the second end for sealing upon a third sealing surface of another connector, the third sealing surface defined by:
an internal side wall surface of a protrusion extending radially inwardly of the internal side wall surface of the second end of the another connector, when said body of the second end of the is brought to bear substantially upon the surface or a location along the surface of the protrusion of the another connector.

The connector may be configured to provide a body of the second end for sealing upon a fourth sealing surface of another connector, the fourth sealing surface defined by:
an internal side wall surface of the second end of the another connector, where the internal side wall surface extends as a shoulder radially outwardly from one or more male connection features (such as one or more locking fingers), a part of the body of the second end of the connector being brought to bear substantially upon a radially outward surface of the shoulder.

The connector may be configured to provide a body of the second end for sealing upon a fifth sealing surface of another connector, the fifth sealing surface defined by:
a radially outward surface of one or more male connection features, in particular a radially outward surface of one or more locking fingers located within a second end of the another connector.

Where the connector may be configured to provide a body of the second end, for sealing upon a sixth sealing surface of another connector, the sixth sealing surface may be defined by one or both of:.

The or an external alignment feature(s) of the connector may be shaped or configured to:.

In a third aspect, there is disclosed herein a connector to be provided at a terminal end of a breathing conduit, the connector comprising:.

In a fourth aspect, there is provided a connector to be provided at a terminal end of a breathing conduit, the connector comprising:.

In a fifth aspect, there is disclosed herein a connector to be provided at a terminal end of a breathing conduit, the connector comprising:.

wherein the connector further comprises an outer wall surrounding of the one or more internal male connection features, the outer or at least an exterior surface of the outer wall, comprising:
one or more external alignment feature(s) configured for aligning the outer wall of said connector, or said connector, or another connection into an externally aligned connection therebetween, and/or one or more external visual aid(s) is/are configured for, in use, providing an externally visible guide for alignment of said connector or another connector into an aligned connection therebetween.

According to the above third, fourth, and fifth aspects, there is disclosed herein one or more additional features described by the optional configurations above or below.

A diameter of the second end's outer wall may be smallest at a terminal end of the second end, with the diameter increasing in a direction extending away from the terminal end of the second end towards the first end.

The one or more locking fingers may be housed substantially within the second end of the connector.

A space may be defined between an outer surface of the one or more internal male connection features and an inner surface of the outer wall.

The outer wall may comprise one or more alignment feature(s) and/or one or more external visual aid(s), the one or more alignment feature(s) configured for aligning of said outer wall and said connector, or another connection, into an aligned connection therebetween, and/or the one or more external visual aid(s) is/are configured for, in use, providing an externally visible guide for alignment of said connector or another connector into an aligned connection therebetween.

Said one or more internal male connection features may be oriented so as to be radially aligned with said one or more external alignment features and/or said one or more external visual aids.

The external alignment feature(s) may comprise one or more cut-outs in a terminal end face of the outer wall of the second end, said cut-outs configured to be received by a substantially reciprocally shaped portion on a connector to which said outer wall is to be placed into contact.

External alignment features may be spaced, arrayed or arranged evenly or equidistantly from each other about the circumference a terminal end face of the outer wall of the second end.

The external alignment features may be configured to be co-located or co-locatable for keying with a reciprocally shaped projection of a sleeved portion of another connector when brought to bear into connection therewith during a connection between a terminal face of the second end of the connector and said another connector.

Said locking fingers may comprise a recess on an outer surface of each said finger, said recess to receive an internal connection feature, such as a raised protrusion that may extend in a radially inward direction toward said recess or a tab, of another connector configured for connection thereto.

The recess may be shaped for receipt of the internal connection feature of another connector.

A tip of said locking fingers may be of an at least partially chamfered configuration.

Provided at a terminal face of the outer wall of the second end of the connector may be a recess or cut-out, the recess or cut-out configured for receiving or being placed into connection with a protrusion or projection of a reciprocally shaped portion of another connector.

The recess or cut-out may be configured to be co-located or co-locatable for keying with a reciprocally protrusion or projection of at least a part of a sleeved portion of another connector when brought to bear into connection therewith during a connection between the connector and said another connector.

Provided substantially at or toward a terminal face of the outer wall of the second end of the connector may be a longitudinally extensive protrusion, the protrusion being a more longitudinally extending projection than an adjacent portion of the terminal face of the outer wall of the second end of the connector.

The protrusion may be configured to be co-located or co-locatable for keying with a reciprocally shaped recess or cut-out of at least a part of a portion of another connector when brought to bear into connection therewith during a connection between the connector and said another connector.

The protrusion may be configured to act as a key to reciprocally locate with a reciprocally shaped recess or cut-out of a component brought into connection therewith.

The alignment feature may be a recess or cut-out of the following shapes or profiles for locating with or receiving a substantially reciprocally shaped protrusion or projection of another connector: semi-circular, triangular, rectangular or other recti-linear or geometric shapes, elliptical, wedge shaped.

The outer wall may be a sleeve, configured for use as a <NUM> male taper connector to another connector comprising a female connection facility.

The outer wall may be a sleeve, configured for use as a <NUM> female taper connector to another connector comprising a male connection facility.

The connector body may be formed of Polycarbonate (PC), Polyethylene (PE), Acrylonitrile Butadiene Styrene (ABS) or polypropylene (PP).

The body of the connector may comprise an outwardly flared portion located at the first end of the connector.

The internal surface of the second end of the body further may comprise a protrusion for an engagement (e.g. interference fit) with a commensurately shaped portion of another connector to be received by or within the internal surface bounded by the outer wall.

The protrusion may extend as a shoulder radially outwardly from the one or more locking fingers, optionally also extending longitudinally in a direction toward an open end of the second end of the connector.

The protrusion may extend as a shoulder radially outwardly from one or both of:.

A space may be defined between a radially outward surface of the shoulder and an inner surface of the outer wall, said space receivable of a terminal end of another connector, the terminal end of the another connector received as an interference fit between the outward surface of the shoulder and the inner surface of the outer wall.

Substantially adjacent to, or at least in part abutting the shoulder and the inner surface of the outer wall, may be a base, the base extending as a floor between an outward periphery of the shoulder and the inner surface of the wall.

The base may define a sealing surface upon with a terminal end or a face of a terminal end of another connector may become engaged therewith, optionally forming a pneumatic connection.

A cuff may be provided about the first end of the connector body, and optionally at least partially overlapping of a portion of the second end of the connector body.

The cuff may be pre-formed or may be an overmoulded material overmoulded about the connector body.

The cuff may be dimensioned to as to provide for a relatively smooth or uninterrupted outer surface contour with an exterior surface of the outer wall substantially abutting or substantially adjacent to an intersection with the cuff.

Said cuff may comprise an indicator of size of the connector upon which it is provided, or for a particular component or size of a component to be associated with the connector (optionally the component being a patient interface, such as a nasal cannula).

The cuff may be colour-coded as an indicator of a connector size or for a particular component or size of component to be associated with the connector (optionally the component being a patient interface, such as a nasal cannula).

The cuff may be dimensioned to transition from a substantially circular exterior surface contour form, when substantially abutting or substantially adjacent to or with an exterior surface of the outer wall of the connector, to a substantially square exterior surface contour form provided substantially (optionally wholly) about the first end of the connector body.

The cuff may extend from the second end of the connector body to overlap upon an exterior surface of a breathing tube to which said connector is to be, in use, engaged or be engageable, or said cuff extends to overlap upon at least a portion of a component to be associated with the terminal end of the breathing tube.

The cuff may be an elastic or elasticised material, optionally being a silicone or thermoplastic elastomers (TPE).

The body of the connector may comprise at least one recess or groove shaped to receive one or more splines on an inner surface of the cuff.

A swivel-type connector component may be, in use, connected with the first end of the connector.

The swivel-type connector may be configured to connect with the terminal end of a conduit, and the swivel-type connector is configured to connect to the body of the connector.

The connector may comprise at least one retaining protrusion, the retaining protrusion extending in a radially inward direction from the body of the connector.

The retaining protrusion may comprise one or both of:
a ramped surface optionally ramped away from the first end of the body a surface substantially perpendicular to the inner wall of a body of the connector.

The connector may comprise at least one attachment arm.

The attachment may comprise the at least one retaining protrusion.

The at least one attachment arm may be cantilevered relative to the body of the connector to allow for flexibility of the attachment arm in at least a direction radial to the body of the connector optionally radially inward, outward or both.

The connector may comprise at least one cut-out region located around at least part of the attachment arm. The cut-out region may promote flexibility in a radial direction.

The connector may comprise a pair of attachment arms.

The attachment arm may be located within the recess or groove shaped to receive a spline on an inner surface of a cuff.

The body of the connector or the attachment arm may comprise a recess to receive part of said swivel-type connector component.

The swivel-type connector component may connect to the conduit via a thread.

The swivel-type connector may connect to the first end such that relative movement of the connector body and swivel-type connector is allowed rotationally, yet prevented axially.

The swivel-type connector may comprise a surface or surfaces which form(s) a rotatable seal with the inner surface of the connector body.

The connector may be configured to provide a first separate surface for sealing upon when a separate connection is made thereto by another connector, the first surface defined by:
a terminal face of the second end of the connector when brought to bear upon a flange or lip (or shoulder) that projects outwardly or away from an external surface of the body of another connector.

The connector may be configured to provide a second separate surface for sealing upon when a separate connection is made thereto by another connector, the second surface defined by:
an internal side wall surface provided substantially at or toward a base end of the second end of the connector, a part of another connector (such as a lip or flange, optionally which may include a shoulder) being brought to bear substantially upon the internal side wall surface or a location along the internal side wall surface at or toward the base end.

The connector may be configured to provide a third separate surface for sealing upon when a separate connection is made thereto by another connector, the third surface defined by:
an internal side wall surface of a protrusion extending radially inwardly of the internal side wall surface of the second end, a part of another connector (such as a lip or flange, optionally which may include a shoulder) being brought to bear substantially upon the surface or a location along the surface of the protrusion.

The connector may be configured to provide a fourth separate surface for sealing upon when a separate connection is made thereto by another connector, the fourth surface defined by:
an internal side wall surface of the second end of the connector, where the internal side wall surface extends as a shoulder radially outwardly from said one or more male connection features (such as the one or more locking fingers), a part of another connector (such as a lip or flange, optionally which may include a shoulder) being brought to bear substantially upon a radially outward surface of the shoulder.

The connector may be configured to provide a fifth separate surface for sealing upon when a separate connection is made thereto by another connector, the fifth surface defined by:
a radially outward surface of the one or more male connection features, in particular a radially outward surface of one or more locking fingers located within the second end of the connector.

The connector may be configured to provide a sixth separate surface for sealing upon when a separate connection is made thereto by another connector, the sixth surface defined by one or both of:.

In a sixth aspect, there is disclosed herein a connector for use with a conduit to supply gases to a user comprising:.

According to the above aspect, there is disclosed one or more additional features described by the optional configurations above or below.

Overlap of said cuff with a said breathing tube may facilitate for at least in part a relief of strain otherwise imparted to an engagement or connection made between the breathing tube and said first end or a component to be associated with said first end.

Said locking fingers may comprise a recess on an outer surface of each said finger, said recess to receiving an internal connection feature, such as a raised protrusion that may extend in a radially inward direction toward said recess or a tab, of another connector configured for connection thereto.

Provided at a terminal face of the outer wall of the second end of the connector may be a recess or cut-out, the recess or cut-out configured for receiving a protrusion or projection of a reciprocally shaped portion of another connector.

The recess or cut-out may be configured to be co-located or co-locatable for keying with a reciprocally shaped protrusion or projection of at least a part of a sleeved portion of another connector when brought to bear into connection therewith during a connection between the connector and said another connector.

The internal surface of the second end of the body further may comprise a protrusion for an engagement (e.g. an interference fit) with a commensurately shaped portion of another connector to be received by or within the internal surface bounded by the outer wall.

The base may define a sealing surface upon which a terminal end or a face of a terminal end of another connector may become engaged therewith, optionally forming a pneumatic connection.

The cuff may be a pre-formed or an overmoulded material overmoulded about the connector body.

A swivel-type connector component may be, in use, connected with the body of the connector.

The swivel-type connector may be configured to connect with the terminal end of a conduit, and the swivel-type connector is configured to connect with the body of the connector.

The connector may comprise at least one cut-out region located around at least part of the attachment arm. The cut-out region promoting flexibility in a radial direction.

In a seventh aspect, there is disclosed herein a connector of the first or second aspects, wherein said another connector is configured to be engaged or engagable with the connector.

In an eighth aspect, there is disclosed a connector, wherein said connector is configured to be engaged or engageable with a second connector the second connector being defined by the connector of the first or second aspects.

The connector may seal with at least one of the following surfaces of the second connector:.

In a ninth aspect, there is provided a connector according to claim <NUM> of the present invention.

The alignment features may be configured to align the connector with second connector.

The connection features may be configured to facilitate connection between said connector and second connector.

The connection and/or alignment features may provide for, at least in part, sealing, or a sealing surface, between the connector and second connector.

At least one of the ribs or protrusions of the connector may be configured to match with corresponding recesses (for example recesses of a cuff or sleeve) second connector, and/or at least one recess of the connector is configured to match with corresponding ribs or protrusions of second connector.

The one or more internal connection and/or alignment feature(s) may be to be co-located or co-locatable for keying with a reciprocally shaped projection or recess of a portion of second connector.

The at least one of the ribs and/or recesses may be arranged circumferentially around the internal surface of the connector, optionally the ribs and/or protrusions are spaced equidistantly around the circumference of the internal surface of the connector.

There may be one or more or a plurality of ribs and/or recesses, optionally there are <NUM>, or <NUM>, or <NUM>, or <NUM>, or <NUM> ribs and/or recesses.

The at least one protrusion or rib may extend in a substantially longitudinal direction along the internal surface of the body.

The at least one protrusion or rib may extend substantially from at or near a terminal end of the second end of the connector in a direction toward the first end of the connector.

At least one recess may be located in a side wall or an internal surface of the body of the connector, the at least one recess configured to accommodate an associated projection(s) of said second connector when said second connector is brought into a mating or connection with said connector.

The connector may be configured to provide at least a first internal surface for sealing upon an external part of a said second connector, when a connection or mating is made thereto by or with said second connector, the first internal surface is provided by a circumferential portion of the internal surface of the body, optionally said circumferential portion located at or near the second end of the body of the connector and provided so as to be substantially continuously and substantially circumferentially locatable about an external part of a said second connector to which the first internal surface is to be put into connection or a mating arrangement therewith.

The alignment or connection feature may form at least part of the first internal surface of the body.

The at least one protrusion or rib may form at least part of the first internal surface.

At least one protrusion or rib may extend in a substantially longitudinal direction along a side wall of the first internal surface.

The first internal surface may be substantially curved when viewed in cross section.

The profile of the first internal surface (e.g. the radius of curvature and location of a curve of the first internal surface) may match an external profile (e.g. an external curve or curvature) of a cuff of a said second connector.

The at least one alignment or connection feature (optionally a protrusion or rib) is/are of a sufficient dimension so as to, in use, extend substantially to an outer-most apex of the external profile of the second connector.

The at least one alignment or connection feature (optionally a protrusion or rib) may be of a sufficient dimension so as to, in use, extend substantially to a position between the outer-most apex of the external profile of a cuff of the second connector and the end of the cuff nearest the terminal end of the second connector.

The at least one alignment or connection feature (optionally a protrusion or rib) may be of a sufficient dimension so as to, in use, extend substantially to a position between the outer-most apex of the external profile of a cuff of the second connector and the end of the cuff nearest the end of the second connector connected to a conduit.

The connector may be configured to provide a second internal surface for sealing upon when a connection or mating is made thereto by or with said second connector, the second surface defined by a substantially radially extensive flange or lip projecting radially inward from the internal surface of the body as a side wall surface, said side wall surface providing a face.

The face may be of a dimension sufficient to seal upon a respective face of a said second connector.

The face may be configured to provide for a substantially planar surface upon which a portion or a surface of a said second connector can mate or engage therewith.

The face may be oriented to substantially face toward said second end of said connector.

The face may be configured to mate or seal upon a side wall, or ledge, or lip or base, or end of a second connector.

The radially extensive flange or lip may comprise at least one of said internal connection or alignment feature.

The at least one connection or alignment feature may be a rib or protrusion.

The face may comprise one or more internal connection and/or alignment feature(s), the internal connection and/or alignment feature(s) is/are to be co-located or co-locatable for keying with a reciprocally shaped projection or recess of a portion of second connector.

At least one recess may be located in a side wall or an internal surface of the connector, the at least one recess to accommodate projections of said second connector.

The recess may be a depression or other surface relief feature provided upon the face.

The depression or other surface relief feature may be a cut-out of the face.

The recess may be configured to accommodate or be receivable of an associated projection or other shaped feature of a said second connector when said second connector is brought into a mating or connection with said second internal surface.

At least one protrusion may be located in a side wall or an internal surface of the connector, the at least one protrusion to accommodate recesses of said second connector.

The connector is configured to provide at least a third internal surface for sealing upon an external part of a said second connector, when a connection or mating is made thereto by or with said second connector, the third internal surface is provided by a circumferential portion of the internal surface of the body, optionally said circumferential portion located at or near the first end of the body, or at or near the second end of the body of the connector and provided so as to be substantially continuously and substantially circumferentially locatable about an external part of a said second connector to which the third internal surface is to be put into connection or a mating arrangement therewith.

The alignment or connection feature may form at least part of the third internal surface of the body.

The at least one recess may form at least part of the third internal surface.

The at least one recess may be shaped so as to accommodate projections of said second connector.

The recess may comprise a pair of shoulders, sloping away from each other and away from an end at the intersection of the shoulders, the end of the recess located substantially more toward the first end of the connector than the shoulders.

The at least one recess may be substantially tongue shaped, and/or substantially triangular and/or substantially tapers toward an end.

The recess may be a longitudinal channel.

The connector may comprise one or more sealing surface(s), the one or more sealing surface(s) defined by one or more of:.

An adapter may be configured to facilitate connection between two connectors, wherein the connector of any of the first to ninth aspects is provided as part of the adapter.

A breathing conduit assembly, may comprise:.

In a tenth aspect, there is disclosed herein a connector assembly, the connector assembly comprising a first connector and a second connector, the first connector for connection with the second connector,.

When the external alignment feature(s) of the first connector, and the external alignment feature(s) of the second connector are in an unaligned orientation, the internal connection features of the first connector, and the internal connection features of the second connector are prevented from connection.

The first connector may be defined by the connector of the first and second aspects.

The second connector may be defined by the connector of any one of the third, fourth or fifth aspects.

The internal connection features of the first connector or the second connector may be male connection features and optionally comprise one or more (optionally a pair) of locking fingers.

The internal connection features of the first connector or the second connector may comprise one or more (optionally a pair) of locking fingers.

The first and/or second connectors may comprise one or more external visual aid(s) is/are configured for, in use, providing an externally visible guide for alignment of said connectors into an aligned connection therebetween.

An exterior surface of the outer wall of the first and/or second connector(s) may be tapered in a direction substantially longitudinally with the connector.

The term "comprising" as used in this specification means "consisting at least in part of". When interpreting each statement in this specification that includes the term "comprising", features other than that or those prefaced by the term may also be present. Related terms such as "comprise" and "comprises" are to be interpreted in the same manner.

This invention may also be said broadly to consist in the parts, elements and features referred to or indicated in the specification of the application, individually or collectively, and any or all combinations of any two or more said parts, elements or features.

The invention consists in the foregoing and also envisages constructions of which the following gives examples only.

Various embodiments will be described by way of example only and with reference to the drawings, in which:.

Provision of new and different connectors, particularly with a focus on improving useability as well as the correct alignment of connectors which are to be connected together, can improve patient safety in the successful and maintained delivery of gas therapies, such as delivery of humidified gas or other gas to a patient.

With reference to <FIG>, there is provided a connector <NUM> to be provided at a terminal end of a breathing conduit (indicated as C in the figures). The breathing conduit may be a medical breathing conduit. The connector <NUM> comprises a body <NUM> having a first end <NUM> and a second end <NUM>. The body <NUM> itself internally defines a lumen <NUM> for the passage of gas therethrough between each of the first and second ends <NUM>, <NUM>. It will be appreciated that depending on the flow of gas through the lumen, the ends <NUM>, <NUM> of the connector <NUM> may each be considered to be either upstream or downstream of the other end when placed into a breathing circuit, for example the direction of gas flow will determine whether an end <NUM> is fluidly upstream or downstream of the other end <NUM>.

The first end <NUM>, in use, being engaged or engageable with the terminal end of a breathing conduit <NUM> or at least a component to be associated with the terminal end of the breathing tube.

The second end <NUM> of the connector <NUM> is, in use, to be engaged or engageable with another connector. For example, in various preferred embodiments, the second end <NUM> of connector <NUM> may be put into engagement with a suitably configured end of another connector. Suitably configured other connectors as shown herein are illustrated by:.

An internal surface <NUM> of the body comprises one or more internal connection features <NUM> configured for connection with another connector which is to be, in use, received internally.

An external surface <NUM> of the body <NUM> comprises one or more external alignment feature(s) <NUM> configured for aligning said connector or another connection into an externally aligned connection therebetween. Optionally, or in addition, there may be one or more external visual aid(s), at least a part of which may form the item indicated as <NUM> that are configured for providing an externally visible guide for alignment of the connector <NUM> or another connector (for example the recess or cut out <NUM> of the connectors labelled as <NUM>, <NUM>) into an aligned connection therebetween. Such visual aid(s) may also be configured to provide dual function as an alignment feature. For example, a visual aid can be of a sufficient bulk or tapered dimension so as to transition from being a visual aid to being an alignment feature itself.

The one or more connection features <NUM> is/are surface feature(s) that extend radially inward from the inner surface <NUM> of an internal side wall of the body <NUM>.

The one or more internal connection features <NUM> can be one or more tabs, where a tab is a raised protrusion extending from the inner surface <NUM>.

In particular embodiments, the connection features <NUM> can be oriented so as to be radially aligned with respective external alignment features <NUM> and/or the corresponding external visual aids <NUM>.

Although the figures show a pair of connection features <NUM>, it will be appreciated further connection features may be provided about the inner surface <NUM>.

In order to facilitate relative ease of assembly, at least one of the connection features <NUM> may include a longitudinally extensive channel or recess <NUM>, or the connection feature may be split into two more parts to allow for such a channel or recess <NUM> (or slot). Such a channel or recess <NUM> is configured to locate, retain, or position a printed circuit board (PCB) arrangement (not shown) which may be inserted into such a slot. It will also be appreciated that a channel or recess <NUM> (or slot) may be provided at other locations about the inner surface <NUM>.

In order to facilitate ease and improved or correct connection by another connector with the connection features <NUM>, the internal surface <NUM> can include one or more internal alignment features <NUM>. Such internal alignment features are configured for aligning a connection feature of another connector (e.g. one or more male lock fingers that may extend into the internal space of the body <NUM>) that is placed in contact therewith, for example when the connector feature of another connector is inserted into or is received internally of the body <NUM> at the second end. In such a mode, the connection feature of another connector is oriented (such as by being rotated) to be brought into an aligned connection orientation with the internal connection features <NUM> of connector <NUM>. For example, the internal surface <NUM> has the one or more internal alignment features <NUM> configured to, in use, rotatably orient a male connection feature of another connector into an aligned connection orientation for connection with the connector, or at least into connection with one or more of the internal connection features <NUM> located on or about the internal or inner surface <NUM> of the body <NUM>.

It will be appreciated the internal alignment feature(s) <NUM> may be surface feature(s) that extend in a radially inward direction from the surface of an internal side wall of the body <NUM>, or the inner surface <NUM>. The internal alignment feature(s) may be of the form of one or more tab(s), where a tab is advantageously a raised protrusion.

Each tab may be shaped so as to provide a pair of shoulders, each shoulder sloping away from each other and away from an end (for example an apex, or rounded apex, or a flat or curved surface, such as that shown by <FIG>, <FIG>, <FIG>) at the intersection of the shoulders. Such an end of the shoulders being located substantially more toward a terminal end of the second end of the connector. In this manner, such a tab can guide or encourage a male connection feature that comes into contact with the shoulders to slide down the slope of each shoulder, thereby being auto-rotated.

In an alternative, the internal alignment feature(s) <NUM> may be one or more ribs extending substantially in a longitudinal direction of the connector <NUM>, and along the internal surface <NUM>. Optionally, there may be any number of ribs, but for example there may be: <NUM>-<NUM> ribs, or <NUM>-<NUM> ribs, or <NUM>-<NUM> ribs, or <NUM> ribs, or <NUM> ribs, or <NUM> ribs, or <NUM> ribs, or <NUM> ribs, or <NUM> ribs. In particular, there may be two sets of such ribs, each set comprising of <NUM> such ribs.

There could also be two or more sets of internal alignment features <NUM> provided on or about the internal surface <NUM> of the body <NUM>, although most advantageously there may be two sets of such alignment features (which may be generally circumferentially opposing).

Where a set of internal alignment features <NUM> are to be provided, each set may have an equal (i.e. same) number of such internal alignment features as another set.

In one preferred embodiment, there is a pair of internal alignment features <NUM>, that in use, rotatably align a pair of fingers (i.e. male locking fingers) that extend from another connector when inserted into or placed into engagement or surface contact with said internal surface of the connector <NUM>.

As previously discussed, the first end <NUM> is configured for engagement with the terminal end of a breathing conduit. Such a first end can include a sleeved portion <NUM> to be attached to the terminal end of the breathing conduit, with which a suitable connection, such as a pneumatic connection can be made. At least a part of the sleeved portion <NUM> is configured to be insertable into or to be located or housed within an interior surface of the lumen of the terminal end of the breathing conduit (i.e. an internal connection is made), or alternatively the sleeved portion may be receivable upon or to be located or housed upon an exterior surface of the terminal end of the breathing conduit (i.e. an external connection is made).

Turning to the external alignment feature(s) <NUM> and/or the external visual aid(s) <NUM>, these can be external surface features which extend radially outwardly from the outer surface <NUM> of an external side wall of the body <NUM>. For example, these may be in the form of a tab or raised protrusion.

In one configuration, the external alignment feature(s) <NUM> or visual aids <NUM> may include one or more ribs extending substantially in a longitudinal direction with the connector and along the external surface <NUM> of the body <NUM>. For example, there may be any number or ribs, although particularly preferred may be: <NUM>-<NUM> ribs, or <NUM>-<NUM> ribs, or <NUM>-<NUM> ribs, or <NUM> ribs, or <NUM> ribs, or <NUM> ribs, or <NUM> ribs, or <NUM> ribs.

<FIG> show an alternative configuration of the external visual aid(s) <NUM> of the connector. The external visual aid(s) <NUM> comprise a raised protrusion with an end 12A (for example an apex, or rounded apex, or a flat or curved surface) and a pair of shoulders 12B. The shoulders 12B are arranged to slope away from each other and away from an end at the intersection of the shoulders. The end 12A is located toward a second end <NUM> of the connector, and the shoulders are located nearer the first end <NUM> of the connector (than to the second end <NUM>), for example near the flange or lip <NUM>.

The external visual aid(s) <NUM> may optionally be substantially tongue shaped, and/or substantially triangular and/or substantially taper toward an end.

<FIG> shows an assembly comprising the connector <NUM>, a conduit C, and another connector <NUM>. The another connector <NUM> may, for example, be the connector as described in <CIT> and/or <CIT> (as <CIT>) to the common applicant, Fisher & Paykel Healthcare Limited.

<FIG> and <FIG> show end views of the connector of <FIG>. <FIG> shows a cross-section of the connector of <FIG>.

The external alignment features (and/or visual aids) can be spaced, arrayed or arranged evenly or equidistantly from each other about the circumference or a radius of the external surface <NUM>.

In another configuration, the external alignment feature <NUM> and/or visual aid <NUM>, may be a projection of a length that extends in a substantially longitudinal direction of the connector and along the external surface <NUM>, with a height of the projection from the external surface varying along its length. For example, the height of the external alignment feature and/or visual aid can taper along this length.

Where a taper is provided, the height of the projection may taper either so the height:.

<FIG> in particular illustrates a tapered arrangement matching a) above (i.e. a taper that reduced in height as the projection progresses toward the terminal end of the second end <NUM>).

In other configurations, provided substantially at or toward a base of a or each external alignment feature is a stepped protrusion that may form the external alignment feature identified as item <NUM> in the figures. The stepped protrusion being a more radially outwardly extending projection than an adjacent portion of the external alignment feature.

The stepped projection can be configured to co-locate or provide for co-location of a suitably shaped part which may be keyed therewith. The stepped projection allows for keying with a reciprocally shaped recess or cut-out of at least a part of a sleeved portion of another connector when brought to bear or into contact for connection between the connector <NUM> and another connector.

In an alternative, provided substantially at or toward a base of a or of each external alignment feature is a recess or cut-out, the recess or cut-out configured for receiving a protrusion or projection of a reciprocally shaped portion of another connector. Such an arrangement allows for the reciprocal type keying as mentioned above. In such a situation, the recess or cut-out can be configured to be co-located or co-locatable for keying with a reciprocal protrusion or projection of at least a part of a sleeved portion of another connector. Such a recess or cut-out effectively acts as a keyway for a key which may be brought to bear upon it.

Various shapes or profiles for the key or keyway may be used. It will be appreciated any suitable shape can be employed, although particularly preferred shapes or profiles include: semi-circular, triangular, rectangular or other recti-linear or geometric shapes, elliptical, wedge shapes.

The connector <NUM> may further comprise of a radially extensive flange or lip <NUM> that projects outwardly or away from the external surface <NUM> of the body <NUM>.

Such a flange or lip <NUM> may effectively define a stop end for a point or length of maximum engagement by another connector when made with the external surface <NUM> of the connector <NUM>. The flange or lip may optionally also provide for a sealing surface upon which another connector may make substantially a pneumatic connection therewith.

The flange or lip <NUM> may additionally comprises one or both of: <NUM>) one or more radially and/or longitudinally recessed or grooved regions 18a, or <NUM>) one or more radially and/or longitudinally extending projection regions 19a.

The flange or lip <NUM> may also be sufficiently longitudinally extensive so as to be configured for an engagement with the terminal end of the breathing conduit, or a component to be associated with the terminal end of the breathing conduit.

The external alignment feature(s) <NUM> of the connector <NUM> may be shaped or configured to prevent connection of the internal connection features <NUM> of the connector with another connector (for example connector <NUM>), when the external alignment feature(s) of the connector <NUM> and an external alignment feature of another connector (for example connector <NUM>) are in an unaligned orientation.

Additionally or alternatively the external alignment feature(s) <NUM> of the connector <NUM> may be shaped or configured to allow connection of the internal connection features <NUM> of the connector with another connector (for example connector <NUM>), when the external alignment feature(s) <NUM> of the connector <NUM> and an external alignment feature of another connector (for example connector <NUM>) are in an aligned orientation.

Optionally, a sheath <NUM>, such as an overmoulding, may surround or provide for an engagement (whether pneumatic or not) about an external surface of the body <NUM>. Such a sheath <NUM> may be provided for the one or more radially and/or longitudinally recessed or grooved regions 18b, and/or the one or more radially and/or longitudinally extending projection regions 19b.

The various recessed or grooved regions 18b and/or said extending projection regions 19b of the sheath may be wholly or at least partially aligned with the recessed or grooved regions 18a and/or said extending projection regions 19a of the flange or lip <NUM>.

In still further configurations, an internal surface <NUM> of the body <NUM> can provide for, toward the second end <NUM> of the connector <NUM>, the locating, retention, or positioning of a printed circuit board (PCB) arrangement. For example a PCB may be provided upon a relatively planar plate and may be inserted within the body <NUM>. The PCB may be used for various reasons, and may in some particular configurations comprise circuitry for: control, sensing (e.g. temperature, humidity, flow rate), heating (e.g. heater wires) or other electronic components for a breathing conduit to be used as a part of a breathing circuit.

The connector <NUM> may provide for a sealing surface upon which separate connections with separate other connectors may be made.

In a first sealing mode, the connector <NUM> may be configured to provide a first separate surface for sealing upon when a separate connection is made thereto by another connector, the first surface defined by one or both of:.

For example, when the connector <NUM>, is configured in a first sealing mode where the surface for sealing is provided for, at least in part, by said side wall surface <NUM>, such a first mode of sealing would require the removal, or avoidance, of providing for the radially and/or longitudinally extensive grooves from at least the flange or lip <NUM> and optionally also from the sheath (or cuff) <NUM>.

In a second sealing mode, the connector <NUM> may be configured to provide a body of the second end, for sealing upon a second sealing surface of another connector <NUM>, the second sealing surface defined by:.

In a third sealing mode, the connector <NUM> may be configured to provide a body of the second end for sealing upon a third sealing surface of another connector <NUM>, the third sealing surface defined by:.

In a fourth sealing mode, the connector <NUM> is configured to provide a body of the second end for sealing upon a fourth sealing surface of another connector <NUM>, the fourth sealing surface defined by:.

In a fifth sealing mode, the connector <NUM> is configured to provide a body of the second end for sealing upon a fifth sealing surface of another connector <NUM>, the fifth sealing surface defined by:.

In a sixth sealing mode, the connector <NUM> is configured to provide a body of the second end, for sealing upon a sixth sealing surface of another connector <NUM>, the sixth sealing surface defined by one or both of:.

The connector <NUM> as described herein has particular application to being an upstream connector component attached to the terminal end of a breathing conduit which is to supply gas to a patient interface. The connector <NUM> is capable of operating to be both a female and a male type connector, thereby improving the useability and ability to connect to other types of connectors (where those other connectors provide for male connection features or female connection features).

The connector <NUM> may have particular application as a connector for a breathing conduit providing a supply of gas from a source. The 'another connector' described above, may be, but without limitation, be a downstream patient interface end connector for a breathing conduit which provides the supplied gas to a patient interface (such as, but not limited to full face masks, nasal cannula, oro-nasal masks, nasal masks - and whether each of these are of a sealing or non-sealing type).

<FIG> show a connection made by a connector <NUM> with the connector <NUM>.

Also disclosed is another connector (as referred to above) or second connector, configured to be engaged or engagable with the connector. The another connector may be bought into mating and/or connection and seal with at least one of the following surfaces of the connector <NUM>:.

<FIG> disclose a connector to be coupled or mated in a sealing arrangement with a second connector (for example connector <NUM>. ) This connector <NUM> may be the another connector as described above.

The connector <NUM> may be provided at a terminal end of a breathing conduit C. Alternatively or additionally, the connector <NUM> may form part of adapter, which may facilitate the connection of two connectors, i.e. the connection of the connector <NUM>, and any other connector.

The connector has a body <NUM>, comprising a first end <NUM> and a second end <NUM>. The first end <NUM>, is engaged or engageable with the terminal end of the breathing conduit C or at least a component to be associated with the terminal end of the breathing conduit or tube (for example an adapter as described above. ) The second end <NUM> of the connector <NUM>, is engaged or engageable with a second or another connector (for example, the connector <NUM>). The connector <NUM> comprises an internal lumen or passage way to receive the second connection internally.

The internal surface of the body <NUM> may comprise one or more internal connection and/or alignment features <NUM>, <NUM>, <NUM>. The internal connection and/or alignment features <NUM>, <NUM>, <NUM> may facilitate sealing (pneumatic or otherwise) and/or alignment of the connector and a second connector (for example connector <NUM>) when connected or during connection. The internal connection and/or alignment features <NUM>, <NUM>, <NUM>, may also provide for a visual indication of alignment so a user may more easily align and connect the connector <NUM>, with a second connector. The internal connection and/or alignment features may also provide for retention of the connector <NUM> with a second connector when connected therewith.

The internal connection and/or alignment features <NUM>, <NUM>, <NUM> may comprise a rib or protrusion <NUM> projecting radially inward from the body <NUM> of the connector <NUM>, or from a notional or actual internal wall or surface of the body <NUM>. The protrusion(s) or rib(s) <NUM> may extend in a substantially longitudinal direction along a side wall of the internal surface of the body <NUM> of the connector <NUM>. The protrusion(s) or rib(s) <NUM> may extend substantially from at or near a second end <NUM> (for example terminal end of the second end of the connector) in a direction toward the first end <NUM> of the connector <NUM>.

The internal connection and/or alignment features <NUM>, <NUM>, <NUM> may comprise a recess <NUM>, <NUM> projecting radially outward from a notional or actual internal wall or surface. The at least one recess <NUM>, <NUM> may be located in a side wall or an internal surface of the body <NUM> of the connector. In some embodiments, the at least one recess may be configured to accommodate an associated projection(s) of a second connector (for example projection <NUM> of connector <NUM>) when said second connector is brought into a mating or connection with said connector <NUM>.

The internal connection and/or alignment features <NUM>, <NUM>, <NUM> may provide for, at least in part, sealing, or a sealing surface, between the connector and another connector. For example the internal connection and/or alignment features <NUM>, <NUM>, <NUM> themselves, or in combination with an inner surface of the body of the connector, may seal with the second connector (for example connector <NUM>).

The internal connection and/or alignment features <NUM>, <NUM>, <NUM> may be shaped so as to match corresponding features of the second connector. The ribs <NUM>, of the connector may be configured to match with corresponding recesses (for example longitudinally recessed or grooved regions 18b of the connector <NUM> of a cuff or sleeve <NUM>) of a second connector (for example connector <NUM>). The recesses <NUM>, <NUM> may be configured to match with corresponding ribs or protrusions (for example visual alignment features <NUM> or protrusion <NUM>) of a second connector.

The internal connection and/or alignment features <NUM>, <NUM>, <NUM> may be co-located or co-locatable for keying with a reciprocally shaped projection or recess of a portion of a second connector. This may be one mechanism of providing an alignment function between the connector <NUM> and a second connector. The internal connection and/or alignment features <NUM>, <NUM>, <NUM> may be shaped to facilitate correct orientation for coupling, so that when the connector <NUM> is brought into contact with the second connector the connectors are aligned, to ensure the internal connection and/or alignment features <NUM>, <NUM>, <NUM> line up with the corresponding ribs or protrusion, and/or recess on the second connector. The keying may also prevent rotation of the components relative to each other when in a coupled state.

The internal connection and/or alignment features <NUM>, <NUM>, <NUM> may be arranged circumferentially around the internal surface of the connector. The internal connection and/or alignment features <NUM>, <NUM>, <NUM> (for example the ribs and/or protrusions) may be spaced equidistantly around the circumference of the internal surface of the body <NUM> of the connector <NUM>. Alternatively, the internal connection and/or alignment features <NUM>, <NUM>, <NUM> may be arranged so that they are not equidistant (i.e. non- symmetrical about a plane), this may only allow connection between the connector <NUM> and a second connector in a particular orientation.

There may be one or more or a plurality of internal connection and/or alignment features <NUM>, <NUM>, <NUM> (ribs and/or recesses), optionally there are <NUM>, or <NUM>, or <NUM>, or <NUM>, or <NUM> ribs and/or recesses. In the embodiment as shown in <FIG>, there are four ribs <NUM>.

There may be a pair of recesses <NUM>, <NUM>. The pair of recesses <NUM>, <NUM> may be located so they are spaced equidistantly around the circumference of the internal surface of the body <NUM> of the connector <NUM>. Alternatively, the recesses <NUM>, <NUM>, <NUM> may be arranged so that they not equidistant (i.e. non-symmetrical about a plane). The recesses <NUM>, <NUM> may be arranged to be overlapping such that one, at least partially, fits within the other or one is at least partially defined by the other.

The internal surface of the body <NUM> of the connector <NUM> may comprise at least one sealing surface or surface for sealing. The sealing surfaces as mentioned herein are labelled, for convenience and clarity, as the first, second and third sealing surfaces. However, it will be appreciated a connector may comprise a for example third, or second sealing surface without necessarily comprising a first sealing surface. To be clear, the inclusion of a particularly numbered sealing surface does not require the inclusion of the earlier numbered sealing surface(s).

The connector <NUM> may provide at least a first internal surface for sealing upon an external part of a said second connector, when a connection or mating is made thereto by or with said second connector. The first internal surface is provided by a circumferential portion of the internal surface of the body <NUM>. The circumferential portion may be located at or near the second end <NUM> of the body <NUM> of the connector <NUM>. The first sealing surface may be provided so as to be substantially continuously and substantially circumferentially locatable about an external part of a second connector (for example a cuff or sleeve <NUM> of the connector <NUM>.

<FIG> illustrate examples of a connector <NUM>, which seal with a second connector (being connector <NUM>), by at least a first internal sealing surface.

The internal connection and/or alignment features <NUM>, <NUM>, <NUM> may form at least part of the first internal surface of the body. The recess(es) and/or rib(s) or protrusion(s) may form at least part of the first internal surface. The protrusion(s) or rib(s) <NUM> may extend in a substantially longitudinal direction along the internal surface of the body <NUM> of the connector <NUM>. Optionally, the protrusion(s) or rib(s) <NUM> may extend substantially from at or near a second end <NUM> (for example terminal end of the second end of the connector) in a direction toward the first end <NUM> of the connector <NUM>. It will be appreciated that the ribs and/or protrusions <NUM> of the connector <NUM> may extend only part way into or along the channel 18b.

The first internal surface of the body <NUM> of the connector <NUM> may be substantially curved when viewed in cross section (as shown in the cross sections of <FIG>, <FIG>, <FIG> and <FIG>). Additionally or alternatively, the profile of the first internal surface (e.g. the radius of curvature and location of a curve of the first internal surface) may match an external profile (e.g. an external curve or curvature) of a cuff or sleeve <NUM> of a second connector. The profile of the first internal surface may allow for sealing between the first internal surface and a cuff or sleeve <NUM> of a second connector. <FIG> illustrate where the first internal surface is profiled to match the profile of a cuff or sleeve <NUM> of a second connector (for example connector <NUM>).

<FIG> show a series of embodiments of the connector <NUM> where the ribs or protrusions <NUM> extend into the recesses or longitudinal channels 18b of the sleeve <NUM>.

<FIG> shows a connector <NUM> where the first internal surface and the ribs or protrusions <NUM> extend to the end, or substantially near the end of the cuff or sleeve <NUM> of the connector <NUM>. <FIG> shows a cross section of the connector <NUM> in completed connection with the second connector, being connector <NUM>. It is also envisaged that the first internal surface may extend past the end of the cuff or sleeve <NUM> of the connector <NUM>.

<FIG> shows a connector <NUM> where the first internal surface and the ribs or protrusions <NUM> extend to a position between an outer-most apex of the external profile of the cuff of sleeve <NUM> of the second connector <NUM> and the end of the cuff or sleeve <NUM> nearest the terminal end (connected to conduit C) of the second connector. <FIG> shows a cross section of the connector <NUM> in completed connection with the second connector (being connector <NUM>.

In the embodiments of <FIG> the connector <NUM> may be made from a soft rubberised material, so, the second end of the connector can be stretched over the apex of the sleeve <NUM>. The embodiments of <FIG> may also be made of a soft of rubberised material.

In the embodiments where the connector does not extend beyond the largest diameter of the cuff (for example <FIG>) the connector may be made of a rigid material.

<FIG> shows a connector <NUM>, where the first internal surface and the ribs or protrusions <NUM> are of a sufficient dimension so as to, in use, extend substantially to an outer-most apex of the external profile defined by the sleeve <NUM> of the connector <NUM>.

<FIG> shows a connector <NUM> where the first internal surface and the ribs or protrusions <NUM> extend to a position between the outer-most apex of the external profile of the cuff of sleeve <NUM> of the second connector <NUM> and the end of the cuff or sleeve <NUM> nearest the end of the second connector <NUM> not connected to a conduit C. <FIG> shows a cross section of the connector <NUM> in completed connection with the second connector, being connector <NUM>.

The connector <NUM> may provide a second internal surface for sealing upon when a connection or mating is made thereto by or with said another connector. The second surface being defined by a substantially radially extensive flange or lip <NUM> (for example as shown in <FIG>). The flange or lip <NUM>, projects radially inward from the internal surface of the body as a side wall surface. The flange or lip <NUM> may provide a face, upon which a respective face (for example flange or lip <NUM>, or a terminal end) of the second connector seals.

The radially extensive flange or lip <NUM> may comprise at least one of said internal connection or alignment feature. The at least one connection or alignment feature may be a rib or protrusion, or a recess. The at least one recess may be located in flange or lip <NUM>, or be a depression or other surface relief feature provided upon the face of the flange or lip <NUM>. Optionally the depression or other surface relief feature is a cut-out of the face.

The internal connection and/or alignment feature(s) may be to be co-located or co-locatable for keying with a reciprocally shaped projection or recess of a portion of a second connector. In the embodiments as shown in <FIG> the connector <NUM> may comprise ribs <NUM>, which are co-locatable with recesses 18a of the connector <NUM>. The connector <NUM> may also comprise at least one recess <NUM> located in flange or lip <NUM>, the at least one recess <NUM> being co-locatable with ribs or projections <NUM> of the second connector (being connector <NUM>).

The recess may be configured to accommodate or be receivable of an associated projection or other shaped feature of a second connector when the second connector is brought into a mating or connection with said second internal surface. The at least one protrusion may be located in a side wall or an internal surface of the connector, the at least one protrusion to accommodate recesses of said another connector.

The face of the flange or lip <NUM> may be configured to provide for a substantially planar surface upon which a portion or a surface of the second connector can mate or engage with. The face may be oriented to substantially face toward said second end <NUM> of said connector <NUM>. The face may mate or seal upon a side wall, or ledge, or lip or base, or end of a second connector. When the second connector is connector <NUM>, the face may seal with a corresponding face of the flange or lip <NUM> of the connector <NUM>.

The connector may also provide at least a third internal surface for sealing upon an external part of a second connector, when a connection or mating is made thereto by or with the second connector. The third internal surface is provided by a circumferential portion of the internal surface of the body, optionally said circumferential portion located at or near the first end of the body of the connector and provided so as to be substantially continuously and substantially circumferentially locatable about an external part of a said another connector to which the third internal surface is to be put into connection or a mating arrangement therewith.

The connector <NUM> may provide at least a third internal surface for sealing upon an external part of a said second connector, when a connection or mating is made thereto by or with said second connector. The third internal surface is provided by a circumferential portion of the internal surface of the body <NUM>. The circumferential portion may be located at or near the first end <NUM> of the body <NUM> of the connector <NUM>. Alternatively, in other embodiments (such as that as shown in <FIG>) the third internal surface is located near the second end <NUM> of the body <NUM>. The first sealing surface may be provided so as to be substantially continuously and substantially circumferentially locatable about an external part of a said second connector (for example an external surface <NUM> of the body <NUM> of the connector <NUM>.

The alignment or connection feature may form at least part of the third internal surface of the body. For example as shown in <FIG>, the recess <NUM> forms part of the third internal surface for sealing. The at least one recess may be shaped so as to accommodate projections of said second connector for example the visual indicator <NUM>.

The recess may be configured to accommodate and seal with at least part of the projection of the second connector. The remaining internal surface of the body of the connector <NUM> may then seal with at least part of the external surface <NUM> of the body <NUM> of the second connector <NUM>.

The recess may comprise a pair of shoulders, sloping away from each other and away from an end (for example an apex) at the intersection of the shoulders. The end of the recess being located substantially more toward the first end of the connector <NUM> than the shoulders. The at least one recess may be substantially tongue shaped, and/or substantially triangular and/or substantially tapers toward an end. The recess may extend only part of the way into the body of the connector <NUM> (as shown in <FIG>. ) As such when the connector <NUM> is connected to the second connector <NUM>, the body <NUM> of the connector <NUM> may extend only part of the way onto the second connector <NUM>.

Alternatively or additionally, the recess may be a longitudinal channel (for example to accommodate the ribs <NUM> of <FIG>).

<FIG> show connectors <NUM>, which seal, at least in part, with a second connector (being connector <NUM>) by a third sealing surface. In the embodiment of <FIG>, the connector <NUM> seals with part of the external surface <NUM> of the body <NUM> of the second connector <NUM>, including part of the rib or protrusion <NUM>.

<FIG> shows the connection of the connector <NUM> with a second connector (for example connector <NUM>). The second connector <NUM> is inserted into the connector <NUM>, such that the external alignment feature(s) <NUM> or visual aids <NUM> are mated and optionally seal with their corresponding internal connection/alignment features <NUM>, <NUM>. As the connectors are mated together the recessed or grooved regions 18B mate (and optionally seal) with the ribs <NUM>.

It will be appreciated that the connector may comprise any combination of the first, second and third sealing surfaces as described above.

It will also be appreciated that the second connector may be a single piece as shown in <FIG>, or made from multiple pieces as shown in <FIG> (and with reference to the connector <NUM> as described above.

Notwithstanding the above description, there may be provided further connectors <NUM> and <NUM> which are operationally compatible with the connector <NUM>. The following description is provided primarily with reference to the connectors <NUM> and <NUM>, as seen in <FIG> and <FIG>.

Accordingly, there is provided a connector <NUM>, <NUM> for use with a conduit to supply gases to a user.

The connector <NUM>, <NUM> to be provided at a terminal end of a breathing conduit. The connector <NUM>, <NUM> comprises a body <NUM>, the body comprising a first end <NUM> and a second end <NUM>, the body <NUM> internally defining a lumen <NUM> for the passage of gas therethrough between each of the first and second ends. The first end <NUM>, in use, being engaged or engageable with the terminal end of the breathing conduit or at least a component to be associated with the terminal end of the breathing conduit. The connector <NUM> may be connected to the terminal end of the breathing conduit by a swivel-type connector connected to the body of the connector. The second end <NUM>, in use, to be engaged or engageable with another connector (such as the connector of item <NUM> previously described herein). An internal surface of the body comprises one or more internal male connection features <NUM> extending therein configured for connection with a female end or female part of another connector receivable of said male connection features <NUM>. The male internal connection features <NUM> comprising one or more (optionally a pair) of locking fingers <NUM>. The connector <NUM>, <NUM> comprising one or both of:.

In some embodiments the first end of the connector <NUM> comprises a sleeve portion that flares outwardly. The outwardly flared portion allows for movement of a connected breathing conduit relative to the connector <NUM>, so that the breathing conduit may flex and bending without damage from the connector. Additionally, the outwardly flared sleeve portion also allows the user to better grip the connector for easier connection and disconnection with other connectors.

The connector may comprise at least one securement feature <NUM>. <FIG> shows an embodiment of the connector <NUM> where the securement <NUM> is formed by a recessed region <NUM> and a bridging portion <NUM>. The bridging potion <NUM> allows for the connection of a lanyard (or a part of a lanyard) to be fastened to the connector <NUM>. Other structural features (forming the securement feature <NUM>) for attaching the lanyard to the connector <NUM> are envisaged such as an integral loop or clip.

<FIG> shows a side view of the connector <NUM> of <FIG>. The connector <NUM> may comprise a pair of securement features <NUM> (although in the side view of connector <NUM> only a single securement feature <NUM> is shown, the second securement feature <NUM> being hidden from view), and they may be, for example, disposed equidistantly around a perimeter of connector <NUM>. <FIG> shows a top view of the connector <NUM> of the connector <NUM> of <FIG> comprising a pair of securement systems <NUM>. The pair of securement systems <NUM> are located in an opposing manner, such that the securement systems <NUM> are located on opposite sides of the connector <NUM>. A lanyard <NUM> may be connected to one or both of these securement systems <NUM>.

<FIG> shows a lanyard <NUM> fastened or engaged with the securement feature <NUM> of the connector <NUM>. The lanyard <NUM> comprises a looped portion <NUM> which can be fastened around the bridge <NUM> and then pulled through itself to securely associate the lanyard <NUM> to the connector <NUM>. The lanyard <NUM> can then be placed around a user's neck, or a feature of the environment to take or support at least some of the weight of the connector <NUM>, attached conduit, and/or interface.

<FIG> shows the connector <NUM> with an attached lanyard <NUM> (optional), and a patient interface as a tracheostomy interface <NUM> via a conduit C. The tracheostomy interface is connected to a tracheostomy guard <NUM>. The tracheostomy guard <NUM> may be, for example, that as described in <CIT> to the common applicant, Fisher & Paykel Healthcare Limited.

<FIG> shows the connector <NUM> without a lanyard and connected to a patient interface such as a nasal cannula <NUM> via a conduit C. An optional tube clip TC may be utilised and provided along a conduit C. The tube clip TC may comprise features for being attached to an item in the environment to thereby assist with support of the conduit C, the interface <NUM> or other parts of a breathing circuit. In this way the weight of the part of the breathing circuit close to a patient or user can be supported.

<FIG> shows the connector <NUM> with a lanyard <NUM> and connected to a connector <NUM> via a conduit C.

Accordingly, and with reference for example to <FIG>, there is also provided a connector <NUM> for use with a conduit to supply gases to a user. The connector comprises a body <NUM>, the body <NUM> comprising a first end <NUM> and a second end <NUM>. The body <NUM> internally defining a lumen for the passage of gas therethrough between each of the first and second ends. The first end <NUM>, in use, being engaged or engageable with the terminal end of the breathing conduit (such as a tube leading to a patient interface) or at least a component to be associated with the terminal end of the breathing tube. The second end <NUM>, in use, to be engaged or engageable with another connector. An external surface of the body <NUM> comprises a cuff <NUM> provided at least substantially about the first end <NUM> of the connector body <NUM> (optionally at least partially overlapping of a portion of the second end <NUM> of the connector body <NUM>), said cuff <NUM> extending substantially longitudinally down at least a part of a length of the breathing tube to be engaged or engageable with the first end <NUM>, and wherein said cuff is an elasticised or elastic-type material, such as silicone or a thermoplastic elastomers (TPE) type material.

A diameter of the second end's <NUM> outer wall <NUM> is smallest at a terminal end <NUM> of the second end (i.e. being the external diameter), with the (external) diameter increasing in a direction extending away from the terminal end <NUM> of the second end <NUM> towards the first end <NUM>.

The one or more locking fingers <NUM> are housed substantially within the second end <NUM> of the connector <NUM>, <NUM>.

A space <NUM> is defined between an outer surface of the one or more internal male connection features <NUM> (or locking fingers <NUM>) and an inner surface <NUM> of the outer wall.

The outer wall <NUM> is configured to provide for one or more alignment feature(s) <NUM> and/or one or more external visual aid(s). The one or more alignment feature(s) <NUM> assist in aligning the outer wall with a reciprocally shaped feature on another connector. External visual aids may include graphics or other visual indicators for a user to correctly align and position the alignment feature on the outer wall with a reciprocal feature of another connector which is brought to bear upon the alignment feature(s) <NUM>.

In some configurations, the one or more internal male connection features <NUM> is/are oriented so as to be radially aligned with the external alignment features <NUM> and/or the external visual aids. Each of these things in combination providing visual indicators, as well as physical aides to ensure a correct alignment of once connector with another connector.

As shown in various figures, but for example see <FIG>, <FIG>, the external alignment feature(s) <NUM> may be one or more cut-outs at a terminal end <NUM> or face of the outer wall <NUM> of the second end <NUM>. The cut-outs can be configured to be received by a substantially reciprocally shaped portion on a connector to which said outer wall is to be placed into contact.

The various external alignment features <NUM> can be spaced, arrayed or arranged evenly or equidistantly from each other about the circumference a terminal end face of the outer wall of the second end.

The external alignment features <NUM> are configured to be co-located or co-locatable for keying with a reciprocally shaped projection of a sleeved portion of another connector when brought to bear into connection during a connection between a terminal face <NUM> of the second end <NUM> of the connector <NUM>, <NUM> and another connector.

The locking fingers <NUM> may comprise a recess <NUM> on an outer surface of each finger <NUM>. Such a recess <NUM> provided for receiving or engaging with an internal connection feature, such as a raised protrusion or tab such as a locking tab <NUM> of a connector such as that indicated as item <NUM>. The recess <NUM> can be shaped for receipt of the internal connection feature (e.g. item <NUM>) of another connector (e.g. the connector indicated as item <NUM> herein).

A tip <NUM> of the locking fingers may be of an at least partially chamfered configuration, preferentially to assist in the locking fingers <NUM> being able to be received into engagement by a connection feature such as that itemised as <NUM>.

Various shapes of the alignment feature <NUM> as a cut out may be provided, for example: semi-circular, triangular, rectangular or other recti-linear or geometric shapes, elliptical, wedge shaped.

In various configurations, the outer wall <NUM> operates as a sleeve, for being brought into a sleeved connection with another connector (whether as a male or female connection). In one embodiment, the outer wall is configured for use as a <NUM> male taper connector to another connector comprising a female connection facility, and in another the outer wall is a sleeve, configured for use as a <NUM> female taper connector to another connector comprising a male connection facility.

The connectors or at least their body may be formed of any medically suitable materials, however particularly preferred is Polycarbonate (PC), Polyethylene (PE), Acrylonitrile Butadiene Styrene (ABS) or polypropylene (PP).

The internal surface of the second end <NUM> of the body may further comprise a protrusion for an engagement (e.g. an interference fit) with a commensurately shaped portion of another connector to be received by or within the internal surface bounded by the outer wall <NUM>. For example, such a protrusion can extend as a shoulder <NUM> radially outwardly from the one or more locking fingers <NUM>, or from a base <NUM> extending as a floor from the inner surface of the outer wall <NUM>. The shoulder may also optionally also extending longitudinally in a direction toward an open end of the second end of the connector. Or, alternatively or in addition, an inner surface of the outer wall may comprise of a radially inwardly extending protrusion 60a. A space <NUM> is defined between a radially outward surface of the shoulder <NUM> and an inner surface of the outer wall or the inwardly extending protrusion 60a, such a space being sized and shaped so as to be receivable of a terminal end of another connector, such as a lip or flange part of another connector. The terminal end of the another connector can be received in the space as an interference fit between the outward surface of the shoulder and the inner surface of the outer wall or the protrusion 60a. For example see <FIG> shows an assembly of a lip or flange (or a shoulder) <NUM> of another connector <NUM> which can be brought into such an interference fit in the space <NUM> with a connector such as that itemised as connector <NUM>. In this manner, the lip or flange <NUM> can be retained or held in place by the interference fit, and can also provide for a suitable pneumatic seal between each of these parts.

Alternatively or additionally, substantially adjacent to, or at least in part abutting the shoulder <NUM> and the inner surface of the outer wall, is a base <NUM>, the base extending as a floor between an outward periphery of the shoulder and the inner surface of the wall. The base <NUM> may define a sealing surface upon which a terminal end or a face of a terminal end of another connector may become engaged therewith, optionally forming a pneumatic connection.

The connector <NUM> is configured to provide for a plurality of separate sealing surfaces upon which seals may be made, whether as a seal between component parts along the entirety of a surface or a point or particular location along that surface. As such, the connector <NUM> provides for six separate and different sealing surface options. Each of which are described below.

In a first sealing mode, the connector <NUM> may be configured to provide a first separate surface for sealing upon when a separate connection is made thereto by another connector (such as connector <NUM>), the first surface defined by:.

In a second sealing mode, the connector <NUM> may be configured to provide a second separate surface for sealing upon when a separate connection is made thereto by another connector (such as connector <NUM>), the second surface defined by:.

In a third sealing mode, the connector <NUM> may be configured to provide a third separate surface for sealing upon when a separate connection is made thereto by another connector (such as connector <NUM>), the third surface defined by:.

In a fourth sealing mode, the connector <NUM> is configured to provide a fourth separate surface for sealing upon when a separate connection is made thereto by another connector (such as <NUM>), the fourth surface defined by:.

In a fifth sealing mode, the connector <NUM> is configured to provide a fifth separate surface for sealing upon when a separate connection is made thereto by another connector (such as <NUM>), the fifth surface defined by:.

In a sixth sealing mode, the connector <NUM> is configured to provide a sixth separate surface for sealing upon when a separate connection is made thereto by another connector (such as <NUM>), the sixth surface defined by one or both of:.

In still further configurations, optionally a cuff <NUM> may be provided about the first end <NUM> of the connector body <NUM>, and may optionally at least partially overlap a portion of the second end <NUM> of the connector body. Such a cuff <NUM> may be typically an overmoulded material, overmoulded about the connector body <NUM>, or the cuff may be a pre-formed component which is assembled into position. Alternatively, the cuff may be pre-formed, so that it can then be slipped over or placed onto the connector body into position.

The cuff <NUM> can be dimensioned to as to provide for a relatively smooth or uninterrupted outer surface contour with an exterior surface of the outer wall substantially abutting or substantially adjacent to an intersection <NUM> with the cuff.

The cuff may include an indicator of the connector to which it (i.e. the cuff) is in place therewith, or may provide an indication for a particular component or size of a component to be associated with the connector (optionally for example where the component is a patient interface, such as a nasal cannula or mask or other such interfaces). Such an indicator may be by way of colour.

The cuff <NUM> can be dimensioned to transition from a substantially circular exterior surface contour form, when substantially abutting or substantially adjacent to or with an exterior surface of the outer wall of the connector, to a substantially square exterior surface contour form provided substantially (optionally wholly) about the first end of the connector body. In this manner, a user may be able to apply more torque or force so as to disengage such a connector <NUM> from a connected engagement with another connector.

For example, as shown with particular reference to <FIG>, it can be seen cuff <NUM> transitions from a substantially circular profile (indicated by item <NUM>) in the region <NUM> where the cuff <NUM> intersects or is provided substantially adjacent with the body of the connector <NUM>, to be a substantially more square or recti-linear shape in the region <NUM>.

<FIG> and <FIG> additionally illustrate a swivel-type connector component <NUM> having a thread <NUM> for being threadably engaging of a terminal end of a conduit to be brought into engagement therewith, and so therefore into fluid communication with the lumen of the connector <NUM>.

The cuff <NUM> may extend from substantially the second end <NUM> of the connector body <NUM> to overlap upon an exterior surface of a breathing tube or conduit to which said connector is to be, in use, engaged or be engageable, or said cuff extends to overlap upon at least a portion of a component to be associated with the terminal end of the breathing tube.

The outer surface of the cuff may be textured or otherwise surface treated to increase friction or grip to allow a user to apply a force or torque to the cuff (and in turn the connector).

The cuff may comprise of one or more splines <NUM> or other inwardly projecting portions on an inside surface for engagement or fitting into a suitably shaped recess or groove <NUM> on an outer surface of the body <NUM> to which the cuff is to be put into connection therewith. For example see <FIG> in which the cuff has been made partially see-through, and a groove <NUM> is then provided in an outer surface of the body <NUM> of the connector <NUM>. In this way, the cuff <NUM> is more accurately located upon the body, yet also reduces the chances of the cuff inadvertently rotating about the body when a user applies a torque (e.g. when the user is trying to disconnection such a connector <NUM> from a connection with another connector, such as a connector <NUM>). <FIG> and <FIG> show the cuff <NUM> arrangement on its own and splines <NUM> or other projections are more evident.

It will be appreciated the cuff <NUM> may be an elastic or elasticised-type material, for example may be a silicone or a thermoplastic elastomer (TPE).

In various configurations, the cuff <NUM> may facilitate for at least in part a relief of strain otherwise imparted to an engagement or connection made between the breathing conduit and said first end or a component to be associated with the first end <NUM>.

A further component (for example swivel-type connector component <NUM> as shown in <FIG>) which may be associated with the connector <NUM>, <NUM> is a swivel type arrangement. The purpose being to provide for a connection to the terminal end of a conduit, yet a swivel (or axially rotatable) type connection with the connector <NUM>, <NUM> and the connector body <NUM>.

As such, a swivel-type connector component <NUM> is, in use, connected with at least a part of the body <NUM> of a connector. The swivel-type connector <NUM> can be configured to connect with the terminal end of a conduit, and the swivel-type connector is configured to connect with the first end <NUM> of the connector.

The swivel-type connector component <NUM> can connect or engage with the terminal end of a conduit via a thread or threaded type engagement.

The swivel-type connector component <NUM> can connect to the body of the connector, such that relative movement of the connector body and swivel-type connector is allowed rotationally, yet prevented axially.

In various embodiments, the swivel-type connector component <NUM> can comprise a surface or surfaces <NUM> which forms a rotatable seal with the inner surface <NUM> of the connector body. For example, the inner surface <NUM> of the connector <NUM> may comprise of a pair of wall portions <NUM> which act to bound to locate the surface <NUM> within in a manner which allows for an axially located orientation of the swivel-type connector component <NUM> with the connector body, and which allows for the surface or surfaces <NUM> to rotate radially. In this way, a swivel type connection is made with the connector body.

<FIG> and <FIG> show a connector <NUM> where the body of the connector <NUM> comprises an attachment arm <NUM>, for attachment of the swivel-type connector component <NUM> with the connector <NUM>. The attachment arm <NUM> may comprise at least one wall portion or attachment barb or retaining protrusion <NUM>, the protrusion <NUM> may engage with a corresponding lip or flange or at least part of the body of the swivel-type connector component <NUM>, to retain the swivel-type connector component <NUM> in a axial direction while allowing rotation of the swivel-type connector component <NUM> relative to the connector body. The retaining protrusion <NUM> may include a ramped surface in a direction away from the first end <NUM> of the connector. The ramped surface may allow for insertion of the swivel-type connector component <NUM>. The protrusion <NUM> may also comprise a substantially flat side optionally in a direction perpendicular to the body of the connector, configured prevent relative axial movement of the swivel-type connector component <NUM>.

The attachment arm <NUM> may be cantilevered from part of the body so as to bend or flex relative the body. The cantilevered construction of the attachment arm <NUM> may allow for easier insertion of the swivel-type connector component <NUM>, as the attachment arm <NUM> may flex outwardly to accommodate the insertion of a swivel-type connector component <NUM>.

The attachment arm <NUM> may be surrounded by a cut-out region <NUM>, the cut out region allowing the attachment arm to flex relative to the connector body. The cut-out region <NUM> may be arranged around the attachment arm <NUM> to promote flexibility in at least a radially outward direction from the connector <NUM>.

The attachment arm <NUM> may comprise a recess configured to receive part of the swivel-type connector component <NUM> (for example surface <NUM>.

Claim 1:
A connector (<NUM>) for a breathing circuit configured to be engaged or engageable with a second connector, the connector (<NUM>) comprising:
a body (<NUM>), the body (<NUM>) comprising a first end (<NUM>) and a second end (<NUM>),
wherein an internal surface of the body (<NUM>) comprises one or more connection and/or alignment features (<NUM>, <NUM>, <NUM>) configured for connection with said second connector, and
wherein the one or more connection and/or alignment features (<NUM>, <NUM>, <NUM>) comprise at least one recess (<NUM>, <NUM>) projecting radially outward from a notional or actual internal wall or surface of the body (<NUM>),
characterized in that the connector (<NUM>) is configured to provide at least a third internal surface for sealing upon an external part of said second connector, when a connection or mating is made thereto by or with said second connector, the third internal surface being provided by a circumferential portion of the internal surface of the body (<NUM>).