Source: https://patents.google.com/patent/CN102686266B/en
Timestamp: 2020-01-20 03:44:04
Document Index: 519469070

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CN102686266B - Selectively sealable male needleless connectors and associated methods - Google Patents
Selectively sealable male needleless connectors and associated methods Download PDF
CN102686266B
CN102686266B CN201080050052.XA CN201080050052A CN102686266B CN 102686266 B CN102686266 B CN 102686266B CN 201080050052 A CN201080050052 A CN 201080050052A CN 102686266 B CN102686266 B CN 102686266B
CN201080050052.XA
CN102686266A (en
O.邦纳尔
J.富赫斯
A.卡特坎普
2009-09-04 Priority to US23991309P priority Critical
2009-09-04 Priority to US61/239913 priority
2009-09-04 Priority to US61/239,913 priority
2009-09-14 Priority to US61/242281 priority
2009-09-14 Priority to US61/242,281 priority
2009-09-14 Priority to US24228109P priority
2009-11-02 Priority to US61/257,338 priority
2009-11-02 Priority to US61/257338 priority
2009-11-02 Priority to US25733809P priority
2010-09-03 Application filed by B.布劳恩梅尔松根股份公司 filed Critical B.布劳恩梅尔松根股份公司
2010-09-03 Priority to PCT/US2010/047898 priority patent/WO2011029056A2/en
2012-09-19 Publication of CN102686266A publication Critical patent/CN102686266A/en
2015-06-17 Publication of CN102686266B publication Critical patent/CN102686266B/en
The various embodiments include a tubular member having an outlet. A sealing member provides a selective seal over the outlet. When the male connector is connected to a female connector, the tubular member establishes fluid communication between the connectors. In certain embodiments, fluid communication between the connectors may be interrupted even while the connectors are still connected. When the male connector is disconnected from the female connector, the sealing member reestablishes a seal over the outlet.
Alternative sealing male form Needleless connector and correlation technique
Native system, equipment and method relate to the Needleless connector for conveyance fluid.
In medical applications, Needleless connector makes it possible to transport fluid into people when not needing repeated puncture.The people such as receiving IV fluid receives fluid by conduit usually.Conduit is operably connected to Needleless connector, sometimes manages with a bit of IV between conduit and adapter.Different fluids can be provided and delivered to people by conduit by different fluid sources being connected to Needleless connector.
Needleless connector generally includes male form part and female part.Male form part comprises microscler nozzle, the reception opening of the complementation in described nozzle engagement female shaped piece.In order to the probability of decreasing pollution, female part can comprise sealing on its opening.Common sealing is the crannied silicone body of tool, and described crack is configured to allow male form part through being communicated with to set up fluid between male form part and female part.Male form part has removable cover when transporting usually, and namely described cover is dropped usually after it is removed for the first time.
The various embodiments of this alternative sealing male form Needleless connector have some features, do not have single certain to undertake alone the attribute of their expectations in described feature.The existing how outstanding characteristic of brief description and do not limit the scope of the present example as described in following claim.After considering this explanation, especially when after reading " detailed description of the invention " joint, will recognize the feature of present example how to provide advantage, described advantage comprises and subtracts oligosaprobic probability.This advantage is sealing due to various embodiment at least in part and can cleans the end of (swabbable), and in certain embodiments, is the stream owing to can stop when not disconnected from Female Connector by adapter by this adapter.
An embodiment of this alternative sealing male form Needleless connector comprises main body, and it limits the Part I of stream.Described adapter also comprises tubular part, and it distad extends from described main body and limits the Part II of described stream.Tubular part comprises outlet at its far-end.Described adapter also comprises the collar, and it is at least in part around described tubular part.Described adapter also comprises seal member, and it at least in part also can along described tubular part translation around described tubular part.Described adapter comprises closed construction and open configuration.In described closed construction, described seal member covers described outlet, and in described open configuration, described seal member does not cover described outlet.
Another embodiment of the application is a kind of method for the formation of male form Needleless connector.Described method comprises formation main body and forms tubular part, this main body limits the Part I of stream, this tubular part extends away from described Part I in a distal direction and limits the Part II of described stream, when using together with female Needleless connector described Part II than described Part I closer to described female Needleless connector.Described tubular part comprises fluid openings at its far-end.Described method also comprises and is positioned to the collar at least in part around described tubular part, and is placed to by seal member at least in part around described tubular part and can relative to described tubular part translation.Wherein, described adapter comprises closed construction and open configuration, and in described closed construction, described seal member covers described fluid openings, and in described open configuration, described seal member allows fluid to flow through described fluid openings.
Another example of the application is a kind of method for the formation of male form Needleless connector, and described method comprises: form main body and tubular part, described main body comprises stream; Seal member is positioned to around described tubular part, the opening of described tubular part is sealed by described seal member; And when being provided in the opening abat-vent not being attached to removedly described male form Needleless connector, be used for the device of ventilating from described stream.
An example again of the application is a kind of method for male form Needleless connector being connected to female Needleless connector, described method comprises the receiving terminal shell aperture of described female Rule (Luer) adapter being joined to described male form Needleless connector, and two adapters are bonded with each other removedly; The stream opening described male form Needleless connector make its only after described two adapters engage removedly with described female Needleless connector fluid communication.In object lesson, after two adapters engage removedly, the described stream of described male form Needleless connector is by opening outer sleeve relative to tubular part translation.In another example, before described outer sleeve translation described male form Needleless connector described stream aerofluxus or remove air.
The embodiment of current component, Apparatus and method for also comprises a kind of male form medical connector for using together with female Needleless connector, and described male form medical connector comprises tubular part, and described tubular part comprises the pleated portions with at least one side opening.
The embodiment of current component, Apparatus and method for also comprises a kind of male form medical connector for using together with female Needleless connector, and described male form medical connector comprises central flow path and annular flow path.
The embodiment of current component, Apparatus and method for also comprises a kind of male form medical connector for using together with female Needleless connector, described male form medical connector comprises tubular part, described tubular part comprises distal openings, transverse opening and rivel portion, and described rivel portion comprises at least one fold being configured for compressing.
An embodiment is a kind of male form medical connector assembly again, and described assembly comprises: main body, and it includes an inlet and an outlet; For the device of aerofluxus; For being connected to the device of female Needleless connector; And for opening the device of the stream by described main body.In another embodiment, the described device for aerofluxus does not relate to the outlet or entrance that the exhaust cap formed discretely are connected to described male form medical connector assembly.
The different embodiments of the scalable Needleless connector of this selectivity will be discussed in detail now, focus on the feature emphasizing that it is favourable.These examples describe the novelty shown in accompanying drawing, non-obvious adapter, described accompanying drawing is only diagram object.These accompanying drawings comprise following figure, and Reference numeral similar in figure represents similar part:
Fig. 1 is the sectional side view of this alternative sealing male form Needleless connector embodiment;
Fig. 2 is the sectional side view of another embodiment of this alternative sealing male form Needleless connector;
Fig. 3 is that the alternative being similar to Fig. 2 seals the detail view that male form Needleless connector adjoins female Needleless connector;
Fig. 4 is the detail view that the alternative of Fig. 3 seals that male form Needleless connector is connected to the female Needleless connector of Fig. 3;
Fig. 5 is the sectional side view of another embodiment of this alternative sealing male form Needleless connector and female Needleless connector;
Fig. 6 is the alternative sealing male form Needleless connector of Fig. 5 and the detail view of female Needleless connector, illustrates that adapter is opened and is communicated with fluid;
Fig. 7 is the sectional side view of another embodiment of this alternative sealing male form Needleless connector and female Needleless connector;
Fig. 8 is the detail view of the clutch feature of the alternative sealing male form Needleless connector of circle Fig. 7 indicated by 8-8 in Fig. 7;
Fig. 9 is the sectional view of another embodiment of this alternative sealing male form Needleless connector and female Needleless connector;
Figure 10 is the sectional side view of another embodiment of this alternative sealing male form Needleless connector and female Needleless connector;
Figure 11 is the sectional side view of another embodiment of this alternative sealing male form Needleless connector;
Figure 12 is the sectional side view of another embodiment of this alternative sealing male form Needleless connector;
Figure 13 is the signal detail view of the pressure-tight embodiment in the connector area of Figure 12 indicated by the circle of mark " detail view ";
Figure 14 is the signal detail view of another embodiment pressure-tight in the connector area of Figure 12 indicated by the circle of mark " detail view ";
Figure 15 is the signal detail view of another embodiment pressure-tight in the connector area of Figure 12 indicated by the circle of mark " detail view ";
Figure 16 is the signal detail view of another embodiment pressure-tight in the connector area of Figure 12 indicated by the circle of mark " detail view ";
Figure 17 is the sectional side view of another embodiment of this alternative sealing male form Needleless connector;
Figure 18 is the sectional side view of another embodiment of this alternative sealing male form Needleless connector;
Figure 19 is the sectional side view of another embodiment of this alternative sealing male form Needleless connector;
Figure 20 is the nearside perspective view of the main body of the adapter of Figure 19;
Figure 21 is the nearside perspective view of the collar of the adapter of Figure 19;
Figure 22 is the sectional side view of this alternative sealing male form Needleless connector, illustrates that this adapter disconnects from Female Connector;
Figure 23 is the sectional view of the adapter of Figure 22, illustrate this adapter close banish put in be connected to Female Connector;
Figure 24 is the sectional side view of the adapter of Figure 22, illustrates that this adapter is connected to Female Connector in open flows configuration;
Figure 25 is the distally perspective view of the collar of the distally perspective view of the connector body of Figure 22 and the adapter of Figure 22;
Figure 26 is the sectional side view of another embodiment of this alternative sealing male form Needleless connector;
Figure 27 is the sectional side view of the adapter of Figure 26, illustrate this adapter open banish put in be connected to Female Connector;
Figure 28 is the sectional side view of another embodiment of this alternative sealing male form Needleless connector;
Figure 29 is the sectional side view of another embodiment of this alternative sealing male form Needleless connector;
Figure 30 is the detail view of the part shown in indicia framing 30 in Figure 29;
Figure 31 is the sectional side view of another embodiment of this alternative sealing male form Needleless connector; And
Figure 32 is the adapter of Figure 32 and the sectional side view of Female Connector.
Below describe in detail describe with reference to the accompanying drawings for the manufacture of with use the native system of medical science adapter, equipment and method.In the accompanying drawings, Reference numeral designates the element of the present embodiment.These Reference numerals contact the explanation of respective drawings feature and reproduce.
The embodiment of this alternative sealing male form Needleless connector is described referring to accompanying drawing.These accompanying drawings and written explanation thereof point out that the particular element of device is formed integrally as, and specifically other element is formed as separation member.Those of ordinary skill in the art may be formed as separation member in alternative embodiments with described integrated parts shown in can understand here.Those of ordinary skill in the art can understand further, may be formed integrally as in alternative embodiments shown in this with the described parts as separation member.Further, with time here, the single single piece of term integrated representation.In a specific context, integratedly also may represent the independent parts that formed but operate together as a unit.
Fig. 1 illustrates an embodiment of this alternative sealing male form Needleless connector 20.Adapter 20 is illustrated and is in contiguous engagement with Female Connector 30, and described Female Connector 30 will be described in more detail below.Step adapter 20 being connected to Female Connector 30 also will be described in more detail below.
Adapter 20 comprises the main body 22 with inner chamber 24, and described inner chamber 24 defines the Part I of stream.Inner chamber 24 comprises proximal region 26 and distal region 28, and the diameter of proximal region 26 is larger than distal region 28.The far-end of proximal region 26 comprises the annular shoulder 32 of the transition between labelling proximal region 26 and distal region 28.Proximal region 26 is configured to receive vein (IV) pipe 34 with frictional fit.Therefore, proximal region 26 can comprise inner conical (female taper) to contribute to IV pipe 34 accurately insertion and cooperation.
In the embodiment shown, main body 22 is roughly configured as step cylinder.The outer surface 36 of main body 22 proximally 38 inwardly to attenuate.Outside in distal region 40, outer surface 36 comprises circular passage 42.In passage 42 distally, main body 22 drops to the first small diameter 44 and drops to again the second small diameter 46.
Main body 22 can be formed by any long life material, and this material is rigidity or semirigid, such as, be plastics.Such as, in one embodiment, main body 22 can be formed by Merlon.
Tubular part 48 distad extends from main body 22.Tubular part 48 comprises the inner chamber 50 of the Part II limiting stream.In the embodiment shown, tubular part 48 is received in the separation member in the distal region 28 of body lumen 24.The part diameter of the reception tubular part 48 of distal region 28 is substantially equal to the overall diameter of tubular part 48.The diameter of the part of the part nearside at reception tubular part 48 of distal region 28 is substantially equal to the interior diameter of tubular part 48.At its far-end, tubular part 48 limits the outlet 52 of stream 24,50.In one embodiment, tubular part 48 is made up of thermoplastic material, and with main body 22 co-molded.But those of ordinary skill in the art can understand in alternative embodiments, main body 22 and tubular part 48 can be formed as single single piece and/or be made up of different materials (such as metal).
Adapter 20 comprises further at least in part around the collar 54 of tubular part 48.In the embodiment shown, the collar 54 comprises distal part 56, and it is roughly configured as tapered cylinder.Nearside outward flange 60 proximad of the cantilever wing 58 forming similar extension tab in one embodiment distally part 56 extends, and engagement body 22.In the embodiment shown, two wings 58 diametrically opposite each other are shown.In alternative embodiments, the extra wing 58 can be set, or the wing 58 can be divided replacement by the cylindrical proximal extension of the nearside outward flange 60 from distal part 56.
The inner surface of each wing 58 comprises the outstanding boss 62 separated with the near-end 64 of each wing 58.In the embodiment shown, boss 62 has substantially rectangular cross section.But, it will be understood by those skilled in the art that boss 62 can have any shape.Boss 62 is located in the circular passage 42 in main body 22.The width of circular passage 42 is greater than the width of each boss 62.Therefore translation between the collar 54 limit that can limit along main body 22 in the end by circular passage 42, as following more detailed description.The collar 54 also can rotate to promote and the mating of Female Connector 30 around main body 22, is also described in more detail as following.
In distal part 56, the overall diameter of the collar 54 inwardly attenuates.Also be in distal part 56, the interior diameter step of the collar 54 is reduced to the first small diameter 66 and step is reduced to the second less small diameter 68 again.In the second small diameter 68 distally, the interior diameter of the collar 54 increases, and then is reduced to far-end 70.Far-end 70 comprises female thread 72, and it makes it possible to by rotating the collar relative to adapter and makes the collar 54 engage external screw thread 74 on female Needleless connector 30 regularly, as discussed further below.
The collar 54 can be formed by any long life material, and this material is rigidity or semirigid, such as, be plastics.Such as, in one embodiment, the collar 54 can be formed by polypropylene.
Adapter 20 comprises seal member 76 further.Seal member 76 can be formed by any softness and resilient material, can form sealing when material adjoins with tubular part 48.Seal member 76 material also preferably can form sealing when adjoining itself.Such as, if the block of seal member material comprises crack 84, the adjacent sidewall in crack 84 preferably forms the sealing that barrier liquid penetrates into crack 84, until the wall in crack 84 is manually separated.In one embodiment, seal member 76 can be formed by silicones.In other embodiments, various thermoplastic elastomer (TPE) (TPE) can be used for forming seal member 76.Sealing parts also can flood and/or coating has antibacterial.In one embodiment, provide antimicrobial component to control or to resist germ contamination in valve, such as, reduce the amount of biofilm formation.In armarium, use antimicrobial component to be well known in the art, and explanation in the U.S. Patent No. 5049139 of U.S. Patent No. 4603152, Gilchrist and the U.S. Patent No. 5782808 of Folden of the people such as such as Laurin.The use of antimicrobial component is also open in U.S. Patent Application Publication No. 2002/0133124A1 and 2003/0199835A1 all belonging to Leinsing etc.These patents and be disclosed in this and be all herein incorporated by reference.
Seal member 76 comprise partly around and the distal region 78 of (snugly) joining tubular parts 48 closely.Distal region 78 is shaped as step cylinder.First larger diameter part 80 of distal region 78 is located in the first smaller diameter portion 66 of the collar 54.Second smaller diameter portion 82 of distal region 78 is positioned at Part I 80 distally, is located in the second smaller diameter portion 68 of the collar 54.The Part II 82 of seal member 76 extends around the outlet 52 of tubular part 48, sealing outlet 52.But Part II 82 comprises the crack 84 being positioned at outlet 52 distally.Crack 84 is in the closed construction of Fig. 1 by sealing.But, can flow out outlet 52 to make fluid by the sidewall manually separating crack 84 as described below.
Cylindrical skirt 86 distally the Part I 80 in region 78 nearside outward flange proximad extend.The near-end 88 in skirt section 86 comprises outward extending annular flange flange 90 on its outer surface.Under unfettered state, skirt section 86 can roughly be configured as smooth cylinder.But in structure shown in Fig. 1, skirt section 86 is because of pressurized and being out of shape between collar distal part 56 and main body 22.The energy stored in skirt section 86 by seal member 76 and the collar 54 all towards the outlet bias voltage of tubular part 48.This parent, when adapter 20 is static, seal member 76 covers and seals outlet 52.But seal member 76 can proximad translation along tubular part 48, as described in more detail below.In alternative embodiments, skirt section 86 can be replaced by multiple lower limb.For promoting towards the outlet 52 bias voltage collar and/or seal member, also can adopt helical coil springs and helical coil springs and tubular part 48 are coaxially installed.
Adapter 20 comprises annular ring 92 further.The proximal seat of ring 92 drops on around the first small diameter distal region 44 of main body 22.The remainder of ring 92 around the second small diameter distal region 46 of main body 22, but has interval with it.The near-end 88 in the skirt section 86 on seal member 76 occupies the space between ring 92 and the second small diameter distal region 46.Ring 92 is included in the annular flange flange 94 of its far-end around its inner surface.Flange 94 forms barrier for annular flange flange 90 on skirt section 86, prevents the near-end in skirt section 86 from deviating from space between ring 92 and main body 22.
During use, in the proximal region 26 in adapter 20 within it chamber 24, receive IV pipe 34.IV pipe 34 carries the liquid of the vascular system for importing to people, such as saline.When in the proximal region 26 first IV pipe 34 being inserted into inner chamber 24, air can the distally of liquid in IV pipe 34 be captured in stream 24,50.Needed to remove this air from adapter 20 before vascular system IV liquid being imported people.So, the adapter 20 of Fig. 1 comprises filling feature.
In order to load adapter 20, operator to help pull a cart ring 54 relative to main body 22 proximad.Along with the collar 54 moves along main body 22 proximad, its proximad on tubular part 48 draws seal member 76, the annular shoulder 98 on the annular shoulder 96 bearing seal parts 76 on the collar 54.Along with seal member 76 proximad on tubular part 48 moves, the outlet 52 of tubular part 48 is advanced until export 52 to extend to distally, crack 84 through crack 84.In this configuration, outlet 52 is no longer sealed, and IV liquid automatically can flow through stream and flow out outlet 52.In order to start the flowing by adapter 20, operator may need adapter 20 to be remained the height lower than IV fluid supply (can be such as standard I V bag).
The all air in stream are forced to flow out outlet 52 by the liquid stream 58 of stream 24,50.Like this, when operator sees that liquid starts to flow out outlet 52, he or she just knows that inner chamber 24 is loaded.Then he or she discharges the collar 54, distad can move under the impact of the seal member 76 of bias voltage.When seal member 76 distad moves, the outlet 52 of its parcel tubular part 48, makes outlet 52 reset.Stream 24,50 is filled with liquid now, and adapter 20 can be used for IV liquid to import in the vascular system of people.Adapter 20 is adopted IV liquid to be imported the process of the vascular system of people referring to Fig. 2-4 explanation.
Fig. 2 illustrates another embodiment of this alternative sealing Male Connector 100.Adapter 100 is similar to the above and embodiment shown in Figure 1.But in the adapter 100 of Fig. 2, the circular passage 102 in main body 104 is narrower.In fact, path 10 2 has the width identical with each boss 62 on the wing 58.Then the collar 54 is relative to main body 104 translation segment instead of whole distances only.But the collar 54 is rotatable relative to main body 104, to impel and being threadedly engaged of Female Connector 30.
The distal region 106 of seal member 108 is along the length of tubular part 110 and all separate with tubular part 110 in outlet 112.The adapter 100 of Fig. 2 comprises the perforated membrane 114 around outlet 112 further, is also referred to as hydrophobic filter.Perforated membrane 114 is shaped as short cylinder, and fluid-tight engagement tubular part 110 and within it fluid-tight engagement seal member 108 on the surface on its outer surface.Perforated membrane 114 comprises multiple very thin perforation (not shown), be configured to allow gas particles by perforated membrane 114 barrier liquid microgranule by perforated membrane 114.Therefore perforated membrane 114 provides stream, enable filling adapter 100 as described below for air.Perforated membrane 114 can be made up of arbitrary number of suitable materials well known by persons skilled in the art, such as super-hydrophobic poly-difluoroethylene (polyvinyldiflouride, PVDF).
With reference to Fig. 2, main body 104 comprises the ventilating duct 116 promoting filling adapter 100.Ventilating duct 116 comprises the path that the longitudinal axis being roughly parallel to main body 104 extends through main body 104 distal part.Then ventilating duct 116 bends with about 45 °, and diagonal extends, and terminates in main body 104 outer surface of the collar 54 nearside afterwards.Ventilating duct 116 is for being provided effusion route by the air expelling inner chamber 24 during filling, as described below.
For loading the adapter 100 of Fig. 2, IV pipe 34 is connected to the proximal region 26 of intracoelomic cavity 24 by operator.Then adapter 100 is remained on the height under IV fluid supply (such as IV bag) by operator.Liquid flows in inner chamber 24,50, forces air distad by outlet 112 and by perforated membrane 114.Then air is advanced along tubular part 110 lateral nearside, enters the space of inside, skirt section 86, then also finally arrives ambient atmosphere by ventilating duct 116.Like this, ventilating duct 116 is stablized by making the fluid pressure in adapter 100 and ambient pressure and is promoted to load.Then the adapter 100 of Fig. 2 can load when not needing along the main body 104 translation collar 54 and the outlet 112 of tubular part 110 being exposed to ambient atmosphere.So, one aspect of the present invention is can when without the adapter carrying out when cowling loading.
Fig. 3 and 4 illustrates the step adapter 100 being similar to Fig. 2 being connected to Female Connector 30.Adapter 30,100 is fixed on step each other in following explanation.These steps are similar to the adapter 20 adopting Fig. 1 a bit, except filling step.
Operator is started by filling adapter 100 according to the above-mentioned adapter 100 with reference to Fig. 2 process.Then operator's alignment connector 100 makes the distal face 118 of seal member 108 adjoin Female Connector 30, as shown in Figure 3.Shown Female Connector 30 is an example, and it comprises outer rigid housing 120, and outer rigid housing 120 comprises softness and resilient seal member 122.The near-end of shell 120 comprises substantial cylindrical ingress port 124, has external screw thread 126.Seal member 122 comprises the inner chamber 128 of the near-end 124 not exclusively extending to shell 120.Alternatively, the near-end of end wall 130 closed inner chamber 128 of seal member 122.But end wall 130 comprises transverse crack 132, when seal member 122 is out of shape, described transverse crack 132 is opened to the fluid connection of inner chamber 128, as described below.
Continue with reference to Fig. 3, when male and female adapter 30,100 adjacent to each other, next operator applies finger pressure to impel adapter 30,100 closer proximity to each other.Outer rigid housing 120 proximad of Female Connector 30 promotes seal member 108 relative to the collar 54, and Female Connector 30 proceeds to the far-end of the collar 54.Operator continue to impel adapter 30,100 each other closer to, until the screw thread 126 be threadedly engaged on Female Connector 30 on Male Connector 100.While this point operation person keeps Female Connector 30 stable, reverse the collar 54, make the screw thread 72,126 engaged that Female Connector 30 is advanced further in the collar 54.Advantageously, the collar 54 is rotatable around main body 104, and the IV pipe attaching to arbitrary adapter 30,100 can not be reversed when operator rotates the collar 54.
Continue with reference to Fig. 3, along with Female Connector 30 proceeds in the collar 54, the seal member 108 that outer rigid housing 120 proximally promotes in positive connector 100 along tubular part 110.Seal member 108 is out of shape, and opens crack 84.The outlet 112 of tubular part 110 finally makes it lead to crack 84.Along with Female Connector 30 proceeds in the collar 54, the seal member 108 in Male Connector 100 and the seal member 122 in Female Connector 30 are towards promoting each other.Seal member 122 in Female Connector 30 is also out of shape, and opens crack 132 in seal member 122.The outlet 112 of tubular part 110 finally makes it lead to crack 132 in Female Connector seal member 122, and the fluid opened between adapter 30,100 is communicated with, as shown in Figure 4.During the annular shoulder 134 towards nearside on the distal contact Female Connector 30 of the collar 54, Female Connector 30 halts in Male Connector 100.
For making adapter 30,100 depart from, operator rotates the collar 54 in the opposite direction relative to Female Connector 30.Along with the collar 54 rotates, the screw thread 72,126 of joint makes Female Connector 30 recall from Male Connector 100.Along with Female Connector 30 is recalled, seal member 108,122 gets back to its original-shape, and two adapters 30,100 are all resetted.When screw thread 72,126 departs from completely, operator pulls open adapter 30,100.
Those of ordinary skill in the art can understand other embodiment that the above-mentioned step for being engaged with Female Connector 30 by Male Connector 100 also can be applicable to this Male Connector.But usually, said method can be applied to any adapter, wherein, the collar can not translation (as embodiment in Fig. 2) relative to main body, or adapter tends to be connected to the embodiment of Female Connector 30(as Fig. 1 when the collar is positioned at its farthest side position relative to main body).
Fig. 5-10 illustrates the extra embodiment of this alternative sealing male form Needleless connector.Be configured to Male Connector when being still connected to Female Connector even if these adapters are each, also can close fluid and be communicated with between Male Connector and Female Connector.
The adapter 140 of Fig. 5 is similar to the above with embodiment illustrated in fig. 1.But in the adapter 140 of Fig. 5, the circular passage 142 in main body 148 comprises variable depth.In either end 144,146, circular passage 142 is darker than the position in the middle of two ends 144,146.The interior diameter measured between the boss 62 that the diameter of more shallow centre position upper channel 142 is greater than on the collar 54.At any one place compared with deep end portion 144,146, the diameter of passage 142 is approximately equal to the interior diameter measured between the collar 54 convex platform 62.Like this, when boss 62 is arranged in compared with any one of deep end portion 144,146, in order to along the main body 148 translation collar 54, the boss 62 that the wing 58 is bent outwardly to make to give prominence to rides up on the more shallow mid portion 150 of circular passage 142.The either end of more shallow mid portion can comprise domatic 152 to promote that boss 62 rides up on more shallow mid portion 150.When boss 62 arrives darker channel end 144,146 on the opposite side, the energy stored in the wing 58 makes its radial contraction.When boss 62 inwardly snaps into darker channel end 144,146, operator has sense of touch and hears click.
The relative size of the darker near-end 144 of boss 62 and passage 142, even and if other architectural characteristic of main body 148 and the collar 54 can be configured to operator when not retraining the collar 54, also make the collar 54 stay its nearside limit along main body 148.Such as, the shallow portion 150 of passage 142 can comprise nearside lip 154, and nearside lip 154 is directed to bear against the distal surface of boss 62 with the biasing force keeping boss 62 to resist seal member 76 with enough angles.
For the Male Connector 140 of Fig. 5 is connected to Female Connector 30, the female thread 72 on the far-end of the collar 54 engages with the external screw thread 126 on Female Connector 30 by operator, as shown in Figure 5.In this configuration, seal member 76 covers the outlet 52 of tubular part 48.Therefore between Female Connector 30,140, fluid is not had to be communicated with.Be communicated with for opening fluid, operator is by helping pull a cart ring 54 and the crack 84 that advanced past by tubular part 48 in seal member 76 along main body 148 proximad.Along with the collar 54 advances along main body 148 proximad, tubular part 48 is distad advanced by the crack 84 in seal member 76.The tubular part 48 advanced forces the far-end 78 of seal member 76 be out of shape and distad move in Female Connector 30, as shown in Figure 6.Next the seal member 76 of Male Connector 140 makes the seal member 122 of Female Connector 30 be out of shape, and opens the crack 132 in seal member 122.Tubular part 48 moves on until it all extends through crack 84,132 at two seal members 76,122, as shown in Figure 6.In this configuration, between Male Connector 140 and Female Connector 30, open fluid be communicated with.
With the Male Connector 140 of Fig. 5, operator can the advantageously outlet 52 of sealed tubular parts 48 again when not disconnected from Female Connector 30 by Male Connector 140.For this reason, he or she distad advances the collar 54 along main body 148.When boss 62 arrives the far-end 146 of circular passage 142, seal member 76 covers the outlet 52 of tubular part 48 completely, and tubular part 48 is sealed again, as shown in Figure 5.When not disconnect connector 30,140 again sealed tubular parts 48 be favourable, this is because which reduce the possibility of pollution.When adapter disconnects, their end is exposed, and may because contacting other surface or being polluted because of absorbed air pollutant.With the Male Connector 140 of Fig. 5, even if tubular part 48 exits Female Connector 30, the end of Female Connector 30,140 also remains in contiguous engagement.The abutment surface of adapter 30,140 stops penetrating of pollutant, the possibility that the liquid path being reduced by adapter 30,140 can be polluted.Like this, an aspect of the present embodiment is the Male Connector comprising the axially movable collar, the collar comprises the female thread for engaging Female Connector, and the collar is configured to make to be positioned at both the inside seal member of the collar and Female Connector to be moved axially, to carry out when the removable collar not being separated with Female Connector opening at least one in Female Connector and closedown Female Connector.
Fig. 7 illustrates another embodiment of this alternative sealing male form Needleless connector 160.Adapter 160 is similar to the embodiment shown in the above He Fig. 5.Such as, the adapter 160 of Fig. 7 can also make the outlet 52 of tubular part 48 again seal when not making Male Connector 160 disconnect from Female Connector 30.But the adapter 160 of Fig. 7 comprises clutch mechanism 162 further, it helps operator to be departed from by the darker near-end 144 of boss 62 with passage 142.Fig. 8 illustrates the detail view of clutch mechanism 162.
With reference to Fig. 2, clutch mechanism 162 is included in the second boss 164 on the wing 166 inner surface.Second boss 164 is positioned the first boss 62 nearside.Second boss 164 also has the height less than the first boss 62.The interior diameter measured between the second boss 164 is approximately equal to main body 148 and is just being arranged in the overall diameter in region of circular passage 142 nearside.Therefore second boss 164 can move freely at the main body 148 pull-up collar along with operator in main body 148.
With reference to Fig. 8, clutch mechanism 162 is included in the taper on the inner surface 168 of the portions of proximal of the wing 166 further.But the outer surface 170 of portions of proximal does not attenuate.The inner surface of taper makes the wall thickness of the wing 166 reduce to the near-end 172 of the wing 166 from the position of the second boss 164.Therefore the part that the near-end 172 of the wing 166 compares the wing 166 being positioned at near-end 172 distally separates larger distance with main body 148.This spacing makes operator provide finger squeeze pressure at near-end 172.Arrow F in Fig. 8 srepresent position and the direction of the squeeze pressure applied.Under the impact of squeeze pressure, the effect playing lever in the part of the second boss 164 nearside of each wing 166, the second boss 164 plays the effect of fulcrum.Be positioned at the second boss 164 distally and be applied to near-end 172 place in the part of the wing 166 in the region of the first boss 62 along with squeeze pressure and expand.This expansion makes boss 62 rising exceed the dark near-end 144 of circular passage 142.Along with boss 62 exits dark near-end 144, they no longer limit the translation of the collar 174 relative to main body 148, and the collar 174 distad can slide, as shown in arrow A in Fig. 8 along main body 148 under the impact of bias voltage hermetic unit.
Fig. 9 illustrates another embodiment of this alternative sealing male form Needleless connector 180.Adapter 180 is similar to the embodiment shown in the above and Fig. 5.But in the adapter 180 of Fig. 9, passage 182 comprises the constant degree of depth and external screw thread 184.Boss 186 also comprises female thread 188.Therefore the collar 190 causes the collar 190 along the translational motion of main body 192 with the relative rotation of main body 192.
For the Male Connector 180 of Fig. 9 is connected to Female Connector 30, the female thread 72 on the collar 190 far-end engages with the external screw thread 126 on Female Connector 30 by operator, as shown in Figure 9.In this configuration, seal member 76 covers the outlet 52 of tubular part 48.Therefore between adapter 30,180, fluid is not had to be communicated with.Be communicated with for opening fluid, operator, by advancing tubular part 48 by the crack 84,132 in seal member 76,122 relative to the collar 190 rotating main body 192, keeps the collar 190 and Female Connector 30 angular alignment simultaneously.
Main body 192 proximad is advanced in the collar 190 with the relative rotation of the collar 190 by main body 192, next tubular part 48 is advanced past the crack 84 in seal member 76.The tubular part 48 advanced forces the distal region 78 of seal member 76 to be out of shape, and distad moves in Female Connector 30.Next the seal member 76 of Male Connector 180 makes the seal member 122 of Female Connector 30 be out of shape, and opens the crack 132 in seal member 122.Tubular part 48 moves on until it all extends through two cracks 84,122 in two seal members 76,122.In this configuration, between adapter 180 and Female Connector 30, fluid connection is opened.
For the Male Connector 180 of Fig. 9, operator advantageously can seal outlet 52 when not disconnected from Female Connector 30 by adapter 180 again.For this reason, he or she is going up in the opposite direction relative to the collar 190 rotating main body 192 with the side for main body 192 being advanced further in the collar 190.The joint of screw thread 184,188 makes main body 192 exit the collar 190.When boss 186 arrives the far-end of circular passage 182, as shown in Figure 9, seal member 76 covers the outlet 52 of tubular part 48 completely, and tubular part 48 is sealed again.
Figure 10 illustrates another embodiment of this alternative sealing male form Needleless connector 200.Adapter 200 comprises the feature of the above and the embodiment shown in Fig. 2 and 7.Such as, adapter 200 comprises perforated membrane 114 and the ventilating duct 16 of Fig. 2, and these contribute to filling together.Adapter 200 comprises the clutch mechanism 162 of Fig. 7 further.
Figure 11 illustrates another embodiment of this alternative sealing male form Needleless connector 210.Adapter 210 comprises main body 212, and it is roughly configured as hollow cylinder.Main body 212 comprises the inner chamber 214 of the Part I of definition stream.Inner chamber 214 comprises inner conical.Therefore inner chamber 214 is configured to receive vein (IV) pipe (not shown) with frictional fit.The outer surface of main body 212 comprises screw thread 216 to hold male form Rule or to have male form screw thread Rule of thread ring.
At distal region, the tapering of inner chamber 214 can increase fast, generates and takes on 218 with the far-end 220 continuous print taper of inner chamber 214.Tubular part 222 distad extends from main body 212.Tubular part 222 also comprises the inner chamber 224 of the Part II limiting stream.At its far-end, tubular part 222 limits the outlet 226 of stream 214,224.In the embodiment shown, tubular part 222 and main body 212 are formed integrally as a single-piece.But those of ordinary skill in the art can understand in alternative embodiments, main body 212 and tubular part 222 can be formed as separation member.
Adapter 210 comprises further and distad to extend and at least in part around the collar 228 of tubular part 222 from main body 212.In one embodiment, main body 212 and the collar 228 are formed separation member, and it is fixed to together.Main body 212 and the collar 228 such as can weld or be adhered to each other.Those of ordinary skill in the art can understand in alternative embodiments, and main body 212 and the collar 228 can be used as a single-piece and be formed integrally as.
In the embodiment shown, the collar 228 is roughly configured as cylinder.The collar 228 and tubular part 222 separate by annular space 230.The distal region 232 of the collar 228 comprises screw thread 234 within it on the surface.Screw thread 234 is configured to mate with the external screw thread on Female Connector (not shown), following detailed description.
The proximal end wall 236 of the collar 228 comprises at least one hole 238.In the embodiment shown, illustrate that two holes are diametrically relative each other.Those of ordinary skill in the art can understand the hole 238 that can arrange any any amount.Hole 238 extends in the position that separates with tubular part 222 completely by the proximal end wall 236 of the collar.The near-end in each hole 238 be approximately perpendicular to path 240 fluid that adapter 210 longitudinal axis extends and be communicated with.Path 240 can be formed in main body 212, or in the collar 228, or in both combinations.Each hole 238 is formed with the passage helping load adapter 210 together with path 240, discussed in more detail below.
As embodiment before, main body 212 and the collar 228 can by any durable being formed with rigidity or semi-rigid material, such as plastics.In one embodiment, such as, main body 212 and/or the collar 228 can be formed by Merlon or polypropylene.
Perforated membrane 242 adjoins the distal surface of the proximal end wall 236 of the collar.In the embodiment shown, perforated membrane 242 is shaped as ring, and the internal diameter of this ring is substantially equal to tubular part 222 external diameter and the external diameter of this ring is substantially equal to the internal diameter of the collar 228 at its near-end.The far-end of perforated membrane 242 coverage hole 238 like this.In embodiment before, perforated membrane 242 comprises multiple very thin perforation, is configured to allow gas particles by perforated membrane 242, and barrier liquid microgranule is by perforated membrane 242.So many pore membrane 242 provides stream for air, and adapter 210 can be loaded as described below.Perforated membrane 242 can be made up of known arbitrary multiple suitable material to those skilled in the art, such as super-hydrophobic poly-difluoroethylene (PVDF).
Annular space 230 between the collar 228 and tubular part 222 receives seal member 244.Embodiment as in the previous, seal member 244 by any softness and resilient material shape, can be formed and seal when adjacent with himself.Such as, in one embodiment, seal member 244 can be formed by silicones.
The hollow cylinder that seal member 244 is opened at its near-end 246 by being generally configured as and closes at its far-end 248.The near-end 246 of seal member 244 comprises outward extending flange 250.In the inner surface that flange 250 is located in the collar 228 in annular recess 252, adjacent with the proximal end wall 236 of the collar 228.Flange 250 helps the location dimension of the near-end 246 of seal member 244 to be held in annular space 230 with the joint of recess 252.The distal region 254 of seal member 244 is included in the outward extending flange 256 in position separated with far-end 248 proximad of seal member 244.The probability that the distal region 254 of flange 256 enhanced leaktightness parts 244 breaks under the fluid pressure of adapter 210 inside to reduce crack 258.When adapter 210 is not connected to Female Connector, auxiliary minimizing of flange 256 reveals possibility like this.
Seal member 244, at least in part around tubular part 222, comprises outlet 226.But seal member 244 and tubular part 222 are along its length and separate in outlet 226.The distally end wall 248 of seal member 244 comprises crack 258.Crack 258 is sealed in the closed construction of Figure 11.But the sidewall in crack 258 can as described belowly manually be separated, flow out outlet 226 to make fluid and enter Female Connector.
During use, IV pipe (not shown) is received in inner chamber 214 by adapter 210.For filling adapter 210, first the IV pipe of adapter 210 is connected to IV fluid supply by operator.Then adapter 210 is remained on the height lower than IV fluid supply (such as IV bag) by operator.Liquid flow, in inner chamber 214,224, forces air distad to flow out the outlet 226 of tubular part 222 by inner chamber 214,224.Then air is advanced along the lateral nearside of tubular part 222, by perforated membrane 242, also finally arrives ambient atmosphere by ventilating duct 238,240.Therefore ventilating duct 238,240 contributes to filling.
For the Male Connector 210 of Figure 11 is connected to Female Connector, the distally end wall 248 of seal member 244 is positioned to the proximal contact with Female Connector by operator.Although the not shown Female Connector of Figure 11, Female Connector can be similar to the Female Connector shown in aforementioned figures.The far-end 248 of seal member 244 bears against the proximal side of the seal member in Female Connector.Far-end 248 also bears against the nearside rim of the outer rigid housing of Female Connector.This shell comprises the external screw thread being configured to mate with the female thread in the distal region of the collar 228.
In order to engagement threads, operator applies finger pressure to advance the collar 228 on Male Connector 210 towards the outer rigid housing on Female Connector.Along with two parts move closer to together, the outer rigid housing of Female Connector pushes away seal member 244 along tubular part 222 proximad.Along with seal member 244 is pushed back, the crack 258 that the outlet 226 of tubular part 222 will be forced through in seal member 244.Meanwhile, the distal region 254 of seal member 244 is out of shape when it bears against the proximal side of the seal member in Female Connector.The seal member of Female Connector is out of shape and collapses in shell, in the seal member of Female Connector, open crack.For completing connection, once be threadedly engaged, operator reverses Male Connector 210 relative to Female Connector.When two adapters are screwed to together completely, fluid connection is opened between connectors, and tubular part 222 extends through the crack in two seal members.
Figure 12 illustrates another embodiment of this alternative sealing male form Needleless connector 260.Adapter 260 comprises and is roughly configured as the main body 262 of hollow cylinder.Main body 262 comprises the inner chamber 264 of the Part I of definition stream.Inner chamber 264 comprises inner conical.Therefore inner chamber 264 is configured to receive vein (IV) pipe (not shown) with frictional fit.The outer surface of main body 262 comprises screw thread 266 to hold male form screw thread Rule alternatively.
At distal region, the tapering of inner chamber 264 can increase fast, generates and takes on 268 with the far-end 270 continuous print taper of inner chamber 214.Tubular part 272 distad extends from main body 262.Tubular part 272 also comprises the inner chamber 274 of the Part II limiting stream.At its far-end, tubular part 272 limits the outlet 276 of inner chamber 274.In the embodiment shown, tubular part 272 and main body 262 are formed integrally as a single-piece.But those of ordinary skill in the art can understand in alternative embodiments, main body 262 and tubular part 272 can be formed as separation member, and it is fixed to together.Such as, main body and tubular part 272 can weld or bond to each other.
Adapter 210 comprises outer sleeve 278 and inner sleeve 280 further.Outer sleeve 278 distad extends also at least in part around tubular part 272 from main body 262.In one embodiment, main body 262 and the collar 278 are formed integrally as a single-piece.Those of ordinary skill in the art can understand in alternative embodiments, and main body 262 and outer sleeve 278 can be formed as separation member, and it is fixed to together.Main body 262 and the collar 278 such as can weld or be adhered to each other.
In the embodiment shown, outer sleeve 278 is roughly configured as cylinder.Outer sleeve 278 and tubular part 272 separate by annular space 280.The distal region 284 of outer sleeve 278 comprises screw thread 286 within it on the surface.Screw thread 286 is configured to mate with the external screw thread 288 on inner sleeve 280.Inner sleeve 280 is roughly configured as cylinder.The distal region 290 of inner sleeve 280 comprises screw thread 292 within it on the surface.Screw thread 292 is configured to mate with the external screw thread on Female Connector, as described below.
The proximal end wall 294 of outer sleeve 278 comprises circular trough 296.Groove 296 forms the stream be communicated with radial passage 298 fluid, and the longitudinal axis that described radial passage 298 is approximately perpendicular to adapter 260 extends.Path 298 can be formed in main body 262, or in outer sleeve 278, or in both combine.Groove 296 is formed with the ventilating duct helping load adapter 260 together with path 298, discussed in more detail below.
As front embodiment, main body 262 and the collar 278,280 can by any durable and rigidity or semirigid materials, and such as plastics are formed.Such as, in one embodiment, main body 262 and/or the collar 278,280 can be formed by Merlon or polypropylene.
Perforated membrane 300 adjoins the distal surface of the proximal end wall 294 of outer sleeve.In the embodiment shown, perforated membrane 300 is shaped as ring, and the internal diameter of this ring is substantially equal to tubular part 272 external diameter and the external diameter of this ring is substantially equal to the internal diameter of outer sleeve 278 at its proximal end wall 294 place.Perforated membrane 300 so covers opening 296.As front embodiment, perforated membrane 300 comprises multiple very thin perforation, is configured to allow gas particles by perforated membrane 300, and barrier liquid microgranule is by perforated membrane 300.So many pore membrane 300 provides stream for air, makes adapter 260 can by filling as described below.Perforated membrane 300 can be made up of known arbitrary multiple suitable material to those skilled in the art, such as super-hydrophobic poly-difluoroethylene (PVDF).
Annular space 282 between outer sleeve 278 and tubular part 272 receives seal member 302.Embodiment as in the previous, seal member 302 by any softness and resilient material shape, can be formed and seal when adjacent with himself.Such as, in one embodiment, seal member 302 can be formed by silicones.
The hollow cylinder that seal member 302 is opened at its near-end 304 by being roughly configured as and closes at its far-end 306.The near-end 304 of seal member 302 comprises roughly disc shaped base 308, has the hole 310 receiving tubular part 272 when closed joint.The first annular boss 312 around base portion 308 outer surface is located in the annular recess 314 in the inner surface of outer sleeve 278, contiguous with the proximal end wall 294 of outer sleeve 278.The second annular boss 316 around base portion 308 inner surface is located in the annular recess 318 in the outer surface of tubular part 272, contiguous with the near-end of tubular part 272.The joint of boss 312,316 and recess 314,318 helps the position of near-end in annular space 282 maintaining seal member 302.
The base portion 308 of seal member 302 comprises the circular trough 320 forming fluid passage further.Groove 320 is communicated with groove 296 fluid in the proximal end wall 294 of outer sleeve by perforated membrane 300.Groove 320 is connected with space in the seal member 302 being adjacent to base portion 308 322 fluid further.Although not shown in the drawings, base portion 308 comprises multiple longitudinal passage and the multiple radial passage be connected with groove 320 in interior space 322.Therefore path and groove 320 provide the stream by base portion 308, contribute to loading adapter 260, following detailed description.
Seal member 302, at least in part around tubular part 272, comprises outlet 276.But seal member 302 separates along its length and at outlet 276 and tubular part 272.The sidewall 324 of seal member 302 curves inwardly at the zone line of seal member 302.The distally end wall 306 of seal member 302 comprises crack 326.Crack 326 is in the closed construction of Figure 11 by sealing.But the sidewall in crack 326 can as described belowly manually be separated to make fluid can flow out outlet 276 and enter Female Connector.
The bending of sidewall 324 makes hardening the avoiding of sidewall 324 when the fluid pressure in seal member 302 rises, namely expand along with when adapter 260 is loaded.When seal member 302 inside fluid pressure can high time, the curvature of sidewall 324 also advantageously help to reduce reveal during loading may.Along with the fluid pressure of seal member 302 inside increases, sidewall 324 any outside expansion in bending area all produces leverage at the far-end 306 of seal member 302.Leverage tension crack, reduces and reveals possibility.Although illustrated embodiment illustrates that sidewall 324 comprises and curves inwardly, those of ordinary skill in the art can understand in alternative embodiments, and sidewall 324 can have other shape, such as straight, are even bent outwardly.
During use, IV pipe (not shown) is received in inner chamber 264 by adapter 260.For filling adapter 260, first the IV pipe of adapter 260 is connected to IV fluid supply by operator.Then adapter 260 is remained on the height lower than IV fluid supply (such as IV bag) by operator.Liquid flow, in inner chamber 264,274, forces air distad to flow out the outlet 276 of tubular part 272 by stream 264,274.Then air is advanced along the lateral nearside of tubular part 272, by the path 320 in base portion 308, by perforated membrane 300, also finally arrives ambient atmosphere by ventilating duct 296,298.Therefore ventilating duct contributes to filling by making the fluid pressure in adapter 260 be stablized by ambient atmosphere.
The pressure valve 328 by the stream of path 320 is closed when seal member 302 is included in build-up pressure in adapter 260 further.This valve 328 comprises the thin annular flange flange 330 extended internally from the sidewall 324 of seal member 302.Flange 330 extends towards the outer surface of tubular part 272, but does not contact.Flange is just positioned at the distally of the outer ring shoulder 332 on tubular part 272.If build-up pressure in the space between the tubular part 272 and seal member 302 in flange 330 distally, the distortion of flange 330 proximad, until its contact shoulder 332, forms the sealing stopping that fluid passes through towards path 320 at shoulder 332.When the material of perforated membrane 300 can not bear high fluid pressure, this sealing is favourable for preventing liquid by ventilating duct 296,320 is revealed.
Figure 13-16 pressure valve 328 is shown other may construct.In fig. 13, the annular shoulder 332 on tubular part 272 comprises the rim 334 of lifting, flange 330 downward-extension on seal member 302.When seal member 302 inner build-up pressure, the flexible material of seal member 302 expands, as shown in the arrow of Figure 13.This expansion, is coupled with the fluid pressure that flange 330 distal surface is born, and forces flange 330 to contact with rim 332, generates sealing.
In fig. 14, seal member 302 comprises the wall thickness of reduction in the region 336 of flange 330 nearside.The wall thickness of this reduction contributes to flange 330 and bends, thus makes it easily deformable and contact annular shoulder 332 on tubular part 272.
In fig .15, seal member 302 also comprises the wall thickness of reduction in the region 336 of flange 330 nearside.But flange 330 comprises different cross sectional shapes.Flange 330 is approximately perpendicular to the longitudinal axis of seal member 302 and extends internally.In addition, triangle lip 338 extends from flange 330 proximad in the position that the sidewall 324 with seal member 302 inwardly separates.When flange 330 distally build-up pressure, lip 338 is provided in sealing surfaces tubular part 272 bearing against annular shoulder 332.
In figure 16, the annular shoulder 332 on tubular part 272 is also included within the rim 334 of the lifting that the flange 330 on seal member 302 extends below.Flange 330 comprises L tee section 340, and it extends internally and then extends from sidewall 324 proximad of seal member 302.Triangle lip 338 stretches out from the end of L tee section 340, separates with the sidewall 324 of seal member 302.When flange 330 distally build-up pressure, lip 338 is forced to outwardly to bear against the rim 334 around annular flange flange 330, thus generates sealing.
For the adapter 260 of Figure 12 is connected to Female Connector, the far-end of inner sleeve 280 is positioned to the proximal contact with Female Connector by operator.Although the not shown Female Connector of Figure 21, Female Connector can be similar to the Female Connector shown in aforementioned figures.The distal face 306 of seal member 302 bears against the proximal side of the seal member in Female Connector.The distal face of seal member 302 also bears against the nearside rim of the outer rigid housing of Female Connector.This shell comprises the external screw thread being configured to mate with the female thread in the distal region 290 of inner sleeve 280.
For engaging these screw threads, operator applies finger pressure to advance inner sleeve 280 towards outer rigid housing on Female Connector.Along with two parts move closer to together, this outer rigid housing forces seal member 302 to be inwardly deformed to inner sleeve 280.When seal member 302 is enough advanced inwardly, the female thread 292 on inner sleeve engages the external screw thread on Female Connector.For continuing to advance, operator reverses inner sleeve 280 relative to Female Connector.In one embodiment, being threadedly engaged between comparable inner sleeve 280 and Female Connector that be threadedly engaged between outer sleeve 278 and inner sleeve 280 provides larger frictional resistance.Therefore, operator on the other hand can catch outer sleeve 278 and another hands catches Female Connector, instead of when catching inner sleeve 280 and Female Connector, causes the relative torsion of inner sleeve 280 and Female Connector.This feature makes the task of inner sleeve 280 being fixed to Female Connector become easy, because operator can catch the larger surf zone of outer sleeve 278.
When inner sleeve 280 is screwed on Female Connector completely, the nearside rim of Female Connector shell contacts the distal face 342 of the flange extended internally, and described flange is positioned at screw thread 292 nearside of inner sleeve 280.At this point, inner sleeve 280 stops with the relative rotation of Female Connector.The outlet 276 that the distal region 344 of seal member 302 is out of shape towards tubular part 272 is arrived in inner sleeve 280.Seal member 302 also bears against the seal member in Female Connector, makes it be out of shape.The seal member of this distortion keeps sealing in the junction of inner sleeve 280 and Female Connector.
Be communicated with for opening fluid between two adapters, operator continues to apply twisting resistance to outer sleeve 278 and Female Connector.Because Female Connector can not advance in inner sleeve 280 farther, inner sleeve 280 starts to reverse relative to outer sleeve 278.External screw thread 288 on inner sleeve 280 engages with the female thread 286 on outer sleeve 278 and inner sleeve 280 proximad is advanced in outer sleeve 278.Now, the outlet 276 of tubular part 272 is advanced through the crack in seal member, opens fluid and be communicated with between two adapters.
Figure 17 illustrates another embodiment of this alternative sealing male form Needleless connector 350.Adapter 350 is similar to the above and embodiment shown in Figure 11.But the adapter 350 of Figure 17 comprises the main body with tubular part 352.At least the near-end 354 of tubular part 352 comprises male-tapered (male taper).Tubular part 352 like this is formed at tubular part 352 outer periphery and receives vein (IV) pipe 356 with frictional fit.Tubular part 352 limits inner chamber 356.Compared with the embodiment of Figure 11, inner chamber 356 has constant interior diameter.At its far-end 358, tubular part 352 limits the outlet 360 of inner chamber 356.
The cylindrical collar 366 is from the mid portion 368 of main body to extension far away, and part is around tubular part 352.The collar 366 is separated with tubular part 352 by annular space 370.The distal region 372 of the collar 366 is included in the screw thread 374 on its inner surface.Screw thread 374 is configured to mate with the external screw thread on Female Connector (not shown) with the above-mentioned mode identical with reference to the adapter 21 of Figure 11.
Contrary with the proximal wall that Figure 11 comprises hole 238 for ventilating and path 240, the proximal wall 376 of the collar 366 is solid.In the embodiment shown, the collar 366 and main body 352 are formed integrally as a single-piece.But ordinary skill can be understood in alternative embodiments, main body 352 and the collar 366 can be formed as separation member.Cylindrical pipe box 377 extends, partly around tubular part 352 from the proximal wall proximad of the collar 366.Annular space 381 between the inside of pipe box 377 and the outside of tubular part 352 receives IV pipe 388.Binding agent can be applied to strengthen the connection between IV pipe 388 and tubular part 352 in annular space 381.
As front embodiment, tubular part 352 and the collar 366 can by any durable and rigidity or semirigid materials, and such as plastics are formed.Such as, in one embodiment, main body 352 and/or the collar 366 can be formed by Merlon or polypropylene.
Annular space 370 between the collar 366 and tubular part 352 receives seal member 378.As front embodiment, seal member 378 can by any softness and resilient material formed, when adjacent himself time can form sealing.Such as, in one embodiment, seal member 378 can be formed by silicones.
The shape of seal member 378 is roughly the same with the seal member 244 of Figure 11.But contrary with the seal member 244 of Figure 11, the far-end 379 of seal member 378 comprises the diameter 380 of minimizing.The diameter 380 reduced is with closely or be an interference fit in its far-end 358 to hug tubular part 352 outside.The diameter 380 of minimizing like this forms liquid-tight seal for the outside of tubular part 352.
At its far-end 379, the outer surface of seal member 378 comprises the recess 382 receiving perforated membrane 384.It is inner that path 386 extends to seal member 378 from recess 382.Path 386, perforated membrane 384 and recess 382 limit stream.But as front embodiment, perforated membrane 384 comprises multiple very thin perforation, be configured to allow gas particles by perforated membrane 384, and barrier liquid microgranule is by perforated membrane 384.So many pore membrane 384 provides stream for air, and adapter 350 can be loaded as described below.Perforated membrane 384 can be made up of known arbitrary multiple suitable material to those skilled in the art, such as super-hydrophobic poly-difluoroethylene (PVDF).
For filling adapter 350, first the IV pipe of adapter 350 is connected to IV fluid supply (such as IV bag) by operator.Then adapter 350 is remained on the height lower than IV fluid supply by operator.Liquid flow, in inner chamber 356, distad pushes away the air in inner chamber 356.Air is forced through path 386, by perforated membrane 384, and is discharged to ambient atmosphere by recess 382.
The process Male Connector 350 of Figure 17 being connected to Female Connector is similar to the above-mentioned process for the Male Connector 210 of Figure 11 being connected to Female Connector.But when seal member 378 collapses in annular space 370, the diameter 380 of the minimizing of far-end 379 maintains and contacts with the sealing of tubular part 352 outside.Sealing stops IV fluid leakage to the annular space 390 between the tubular part 352 and seal member 378 of diameter 380 nearside reduced.Therefore sealing reduces the dead-volume of the meeting collection stagnant fluid in adapter 350.
Figure 18 illustrates another embodiment of this alternative sealing male form Needleless connector 400.Adapter 400 is similar to the embodiment shown in the above and Figure 12.But the adapter of Figure 18 400 comprises the main body 402 with elongate tubular parts 404.At least the near-end 406 of tubular part 404 comprises male-tapered.Therefore tubular part 404 is configured to receive vein (IV) pipe (not shown) in tubular part 404 outer periphery with frictional fit.Tubular part 404 limits inner chamber 410.Contrary with the embodiment of Figure 12, inner chamber 410 footpath has smooth taper within it, proximally 406 is tapered to far-end 412.At its far-end 412, tubular part 404 limits the outlet 414 of inner chamber.
Adapter 400 comprises cylindrical jacket ring 418 and cylindrical inner sleeve 416 further.The inside and outside collar 418,416 is similar to the outer sleeve shown in the above and Figure 12 and inner sleeve 278,280.But contrary with the proximal end wall 294 of the outer sleeve 278 of Figure 12 of the groove 296 comprised for ventilating and path 298, the proximal wall 420 of outer sleeve 416 is solid.In the embodiment shown, outer sleeve 416 and main body 402 are formed integrally as a single-piece.But those of ordinary skill in the art can understand in alternative embodiments, main body 402 and outer sleeve 416 can be formed as separation member.
Cylindrical pipe box 419 extends, partly around tubular part 352 from the proximal wall proximad of the collar 420.Annular space 421 between the inside of pipe box 419 and the outside of tubular part 404 receives IV pipe 408.Binding agent can be applied to strengthen the connection between IV pipe 408 and tubular part 404 in annular space 421.
As front embodiment, main body 402 and outer sleeve 416 can by any durable and rigidity or semirigid materials, and such as plastics are formed.Such as, in one embodiment, main body 402 and/or the collar 416 can be formed by Merlon or polypropylene.
Annular space 422 between the collar 416 and tubular part 404 receives seal member 424.As front embodiment, seal member 424 can by any softness and resilient material formed, when adjacent himself time can form sealing.Such as, in one embodiment, seal member 424 can be formed by silicones.
The shape of seal member 424 is roughly the same with the seal member 302 of Figure 12.But contrary with the seal member 302 of Figure 12, the far-end 426 of seal member 424 comprises the diameter 428 of minimizing.The diameter 428 reduced is with closely or be an interference fit in its far-end 358 to hug tubular part 404 outside.The diameter 428 of minimizing like this forms liquid-tight seal for the outside of tubular part 404.
At its far-end 426, the outer surface of seal member 424 comprises the recess 430 receiving perforated membrane 432.It is inner that path 434 extends to seal member 424 from recess 430.Path 434, perforated membrane 432 and recess 430 limit stream.But as front embodiment, perforated membrane 432 comprises multiple very thin perforation, be configured to allow gas particles by film, and barrier liquid microgranule passes through film.So many pore membrane 432 provides stream for air, makes adapter 400 can by filling as described below.Perforated membrane 432 can be made up of known arbitrary multiple suitable material to those skilled in the art, such as super-hydrophobic poly-difluoroethylene (PVDF).
For filling adapter 400, first the IV pipe of adapter 400 is connected to IV fluid supply (such as IV bag) by operator.Then adapter 400 is remained on the height lower than IV fluid supply by operator.Liquid flow, in inner chamber 410, distad pushes away the air in inner chamber 410.Air is forced through path 434, by perforated membrane 432, and is discharged to ambient atmosphere by recess 430.
The process Male Connector 400 of Figure 18 being connected to Female Connector is similar to the above-mentioned process for the Male Connector 260 of Figure 12 being connected to Female Connector.But when seal member 424 collapses in annular space 422, the diameter 428 of the minimizing of far-end 426 maintains and contacts with the sealing of tubular part 404 outside.Sealing stops IV fluid leakage to the annular space 436 between the tubular part 404 and seal member 424 of diameter 428 nearside reduced.Therefore sealing reduces the dead-volume of the meeting collection stagnant fluid in adapter 400.
Figure 19 illustrates another embodiment of this alternative sealing male form Needleless connector 450.Adapter 450 comprises the main body 452 with elongate tubular parts 454.At least the near-end 456 of tubular part 454 comprises male-tapered.Therefore tubular part 454 is configured to receive vein (IV) pipe (not shown) in tubular part 454 outer periphery with frictional fit.Tubular part 454 limits inner chamber 458.Inner chamber 458 footpath has smooth taper within it, proximally 456 is tapered to far-end 462.At its far-end 462, tubular part 454 limits the outlet 462 of inner chamber 458.
Main body 452 comprises the disk-shaped flange 464 extended radially outwardly from its zone line.Cylindrical pipe box 466 extends, partly around tubular part 454 from flange 464 proximad.Annular space 468 between the inside of pipe box 466 and the outside of tubular part 454 receives IV pipe.Binding agent can be applied to strengthen the connection between IV pipe and tubular part 454 in annular space 468.
The cylindrical collar 470 joint flange 464 and in flange distal part around main body 452.The inner surface of the collar 470 comprises the externally threaded screw thread be configured on joint negative connector (not shown), as mentioned above.Annular space 474 between the collar 470 and tubular part 454 receives seal member 424.As front embodiment, seal member 476 can by any softness and resilient material formed, when adjacent himself time can form sealing.Such as, in one embodiment, seal member 476 can be formed by silicones.
Seal member 476 comprises roughly disc shaped base 478 at its near-end.Substantial cylindrical sheath section 480 distad to extend and around the distal region of tubular part 454 from base portion 478.The sidewall of sheath section 480 comprises rivel shape gauffer 482.Gauffer 482 is the natural bending point of seal member 476, enables it work as when adapter 450 is fixed to negative connector easily and predictably subside, as described below.
The far-end 484 of seal member comprises crack 486, and when adapter 450 is fixed to Female Connector, tubular part 454 can pass through crack 486 and projection.At crack 486 nearside, the far-end 484 of seal member also comprises disk-shaped flange 488, described disk-shaped flange 488 engages the pipe box on Female Connector and helps pipe box proximad in annular space 474 to push away seal member 476, subsides and make tubular part 454 extend through crack 486 to make seal member 476.
Adapter 450 also comprises lock ring 490, and described lock ring 490 is positioned at the distal surface 492 of the collar 470 adjacent flanges 464, and the base portion 478 of seal member 476 is clipped in the middle.Lock ring 490 comprises the flange 494 extended internally at its far-end, the distal face 496 of the base portion 478 of its contiguous seal parts 476, thus stops seal member 476 distad to move.The inner surface of the collar 470 comprises annular shoulder 498, and it also adjoins the distal surface 500 of lock ring 490 towards nearside, thus stops lock ring 490 distad to move.The near-end of the collar 470 comprises multiple tab 502 extended internally similarly, the proximal side 504 of the flange 464 in its adjacent main body 452, thus main body 452 and lock ring 490 is clipped in the middle, and lock ring 490 keeps the base portion 478 of seal member 476 against flange 464.
Main body 452, the collar 470 and lock ring 490 can by any durable and rigidity or semirigid materials, and such as plastics are formed.Such as, in one embodiment, these parts can be formed by Merlon or polypropylene.
The internal diameter of seal member sheath section 480 is greater than the external diameter of tubular part 454.Therefore sheath section 480 and tubular part 454 limit general toroidal space 506 betwixt.The far-end 484 of seal member 476 also separates at far-end 460 place of tubular part 454 and outlet 462.Therefore stream is had by outlet 462 around the outside of tube 454 from inner chamber 458.At its base portion 478, seal member 476 comprises multiple radial passage 508, is connected by annular space 506 with circular trough 510 fluid in base portion 478.Therefore stream continues through base portion 478 through radial passage 508 and groove 510.
Dish type perforated membrane 512 adjoins the proximal face of base portion 478 and the circular trough 510 covered in base portion 478.Multiple longitudinal passages 514 in the flange 464 of main body 452 are aimed at relative to the circular trough 510 in the base portion 478 of perforated membrane 512.Therefore the stream leading to adapter 450 is continued through perforated membrane 512 from groove 510 and is then gone out to ambient atmosphere by longitudinal passage 514.But as front embodiment, perforated membrane 512 comprises multiple very thin perforation, be configured to allow gas particles by film, and barrier liquid microgranule passes through film.So many pore membrane 512 provides stream for air, and adapter 450 can be loaded as described below.Perforated membrane 512 can be made up of known arbitrary multiple suitable material to those skilled in the art, such as super-hydrophobic poly-difluoroethylene (PVDF).
For filling adapter 450, first the IV pipe of adapter 450 is connected to IV fluid supply (such as IV bag) by operator.Then adapter 450 is remained on the height lower than IV fluid supply by operator.Liquid flow, in inner chamber 458, distad pushes away the air in inner chamber 458.Air is forced through path 434, in the outside of nearside around tubular part 454, by radial passage 508 and groove 510, by perforated membrane 512, and is discharged to ambient atmosphere by longitudinal passage 514.
Figure 20 and Figure 21 illustrates in greater detail main body 452 and the collar 470 respectively.With reference to Figure 20, the proximal side 504 of body flange 464 comprises multiple domatic 518.Each domatic 518 comprise the inclined-plane rising to ledge or quick trailing edge 520 gradually.Each domatic 518 with identical sensing inclined-plane, direction.With reference to Figure 21, the near-end of the collar 470 comprises multiple tab 502 extended internally.Tab 502 adjoins the proximal side 504 of body flange 464, as shown in figure 19.Tab 502 is configured to ride up on domatic 518 when the collar 470 rotates relative to main body 452.Along with tab 502 arrives the quick trailing edge 520 of domatic 518, operator hears click and has sense of touch.The sound of click clatter and feel to tell that operator's adapter 450 is completely fixed to Female Connector, illustrates in greater detail as following.
The process Male Connector 450 of Figure 19 being connected to Female Connector is similar to the above-mentioned process for the Male Connector 210 of Figure 11 being connected to Female Connector.Operator preferably catches the outside of the collar 470 with first hands, catch Female Connector with second hands.Relatively rotating this adapter makes the pipe box of Female Connector proceed in annular space 474.During beginning, the collar 470 is placed together with seal member 476 with main body 452.But along with Female Connector advances, it pushes away flange 488 at the far-end of seal member 476, thus is compressed in annular space 474 by seal member 476.Along with the increase of compression, the frictional force between seal member 476 and Female Connector also increases.As mentioned above, seal member 476 is preferably by elastomeric material, and such as silicones forms.This material is usually relative to the material compared with rigidity, and such as Merlon or polypropylene have high coefficient of friction.So, along with the frictional force between seal member 476 and Female Connector increases, it finally arrives a threshold value, and the frictional force between this threshold value seal member 476 and Female Connector is greater than the frictional force of the collar 470 and the junction between body flange 464 and lock ring 490.In this threshold value, main body 452 and Female Connector relative to each other stop the rotation, and main body 452 and lock ring 490 start to rotate relative to the collar 470.This relative rotation makes the tab 502 on the collar 470 ride on domatic 518 of body flange 464, produces above-mentioned click and sense of touch.When click starts, operator knows that connection is fixing.
Figure 20 illustrates another embodiment of this alternative sealing male form Needleless connector 550.Adapter 550 comprises and is roughly configured as the proximal body 552 of step cylinder.Proximal body 552 comprises elongate tubular parts 554.The near-end 556 of tubular part 554 is configured to receive vein (IV) pipe (not shown) in tubular part 554 outer periphery with frictional fit.Tubular part 554 limits inner chamber 558.The portions of proximal 560 of inner chamber 558 footpath has smooth taper within it, proximally arrives middle part and is tapered.The remainder of inner chamber 558 comprises the constant diameter of the far-end 562 extending to tubular part 554.Adjacent with far-end 562, the sidewall of tubular part 554 comprises the opening of the outlet 564 limiting inner chamber.
Disk-shaped flange 566 extends radially outwardly from the zone line of tubular part 554.Cylindrical pipe box 568 extends, partly around tubular part 554 from flange 566 proximad.Annular space 570 between the inside of pipe box 568 and the outside of tubular part 554 receives IV pipe.Binding agent can be applied to strengthen the connection between IV pipe and tubular part 554 in annular space 570.
The cylindrical collar 572 is referred to as proximal collar 572 from hereafter, and it distad extends from flange 566 periphery, and in flange 566 distal part around tubular part 554.The near-end 574 of the inner surface of proximal collar 572 comprises screw thread.The far-end 578 of the inner surface of proximal collar 572 is smooth.In threaded portion 574, the sidewall of the collar comprises hole 580, and its function is described below.
Adapter 550 also comprises distal body 582, and it is roughly configured as step cylinder.Distal body 582 comprises the near-end 584 with external screw thread 586.External screw thread 586 engages the female thread 576 in proximal collar, makes nearside and distal body relative to each other rotatable.Be threadedly engaged the relative translation causing them when also making main body 552,582 relative to each other rotate.The near-end of distal body 582 comprises the recess 588 being shaped as step cylinder.Recess 588 receives the elastic sealing element 590 of shape complementarity.Seal member 590 comprises cylindrical passage 592, receives the outside of tubular part 554 in sealed engagement.Seal member 590 by any softness and resilient material shape, can be formed when adjoining with tubular part 554 and seal.Such as, in one embodiment, seal member 590 can be formed by silicones.
Distal body also comprises mid portion 594, and it is shaped as smooth cylinder, has the proximal flange 596 that outward radial extends.Mid portion 594 is received in the distal part 578 of proximal collar 572.The nearside of proximal collar 572 and the junction of distal part 574,578 comprise the annular shoulder extended internally.Shoulder 598 provides abutment points for the flange 596 on mid portion 594, limits the stroke that distal body 582 enters proximal collar 572.
The cylindrical collar 600 is referred to as proximal collar 600 from hereafter, and the periphery of its distally mid portion 594 of main body 582 distad extends.The inner surface of distal collar 600 comprises screw thread 602.Screw thread 602 is configured to engage the external screw thread 604 on Female Connector 606, as described below.The mid portion 594 of cylindrical spout 508 distally main body 582 distad extends.Distal collar 600 is partly around nozzle 608, and annular space 610 is limited at therebetween.
Nearside and distal body 552,582 can by any durable being formed with rigidity or semi-rigid material, such as plastics.In one embodiment, such as, these parts can be formed by Merlon or polypropylene.
Distal body 582 comprises the central longitudinal passage 612 receiving tubular part 554.Except the following stated, the substantially whole length of tubular part 554 comprises constant overall diameter.Similar, except the following stated, the substantially whole length of longitudinal passage 612 comprises constant interior diameter.In addition, again except the following stated, the internal diameter of longitudinal passage 612 is slightly larger than the external diameter of tubular part 554.Therefore longitudinal passage 612 and tubular part 554 define annular space 614 betwixt.
Seal member 590 is received at the recess 588 at longitudinal passage 612 near-end 616 place.Seal member comprises substantially corresponding to the internal diameter of tubular part 554 external diameter, thus forms liquid-tight seal around tubular part 554.At the far-end 618 of longitudinal passage 612, nozzle 608 comprises the internal diameter 620 of minimizing, and the internal diameter 620 of this minimizing roughly corresponding to the external diameter of tubular part 554, thus forms liquid-tight seal around tubular part 554.The internal diameter 620 reduced is positioned at outlet 564 distally in tubular part 554, and inner chamber 558 is communicated with annular space 614 fluid by outlet 564.But, due to be formed in tubular part 554 by the internal diameter 620 reduced far-end 562 around sealing, the liquid in annular space 614 does not leak out outside the far-end 518 of nozzle 608.
The threaded proximal portion of distal body 582 divides 584 to comprise radial direction through hole, and it comprises ventilating duct 622.Ventilating duct 622 is communicated with annular space 614 fluid.Recess 624 on the outer surface of portions of proximal 584 receives the perforated membrane 626 covering ventilating duct 622.As in embodiment before, perforated membrane 626 comprises multiple very thin perforation, is configured to allow gas particles by perforated membrane 626, and barrier liquid microgranule is by perforated membrane 626.So many pore membrane 626 provides stream for air, and adapter 550 can be loaded as described below.Perforated membrane 626 can be made up of known arbitrary multiple suitable material to those skilled in the art, such as super-hydrophobic poly-difluoroethylene (PVDF).
For filling adapter 550, operator is by the adapter 550 in the structure of Figure 22, and wherein, distal body 582 is advanced completely or almost completely in proximal collar 572.In this configuration, ventilating duct 622 and perforated membrane 626 are aimed at the hole 580 in proximal collar 572.Then the IV pipe of adapter 550 is connected to IV fluid supply (such as IV bag) by operator.Then adapter 550 is remained on the height lower than IV fluid supply by operator.Liquid flow, in inner chamber 554, distad pushes away the air in inner chamber 554.Air is forced through outlet 564, and in the outside of nearside around tubular part 554, by ventilating duct 622, by perforated membrane 626, and passing hole 580 is discharged to ambient atmosphere.
Figure 23 illustrates the adapter 550 being connected to Female Connector 606 under closed stream structure.Under this structure, Female Connector 606 is received in the annular space 610 between distal collar 600 and nozzle 608.But, due to the sealing around the far-end 562 that the internal diameter 620 of the minimizing by nozzle 608 is formed in tubular part 554, do not have liquid to flow to Female Connector 606 from Male Connector 550.Nozzle 608 comprises male-tapered on its outer surface.Female Connector 606 comprises inner conical within it on the surface.Therefore, Female Connector 606 can be advanced to the degree of depth necessary in annular space 610, makes the formation of nozzle 608 outside for the sealing of Female Connector 606 inside.
For opening the fluid stream from Male Connector 550 to Female Connector 606, operator makes nearside and distal body 552,582 relative to each other rotate.Being threaded between main body 552,582 makes distal body 582 exit proximal collar 572 towards the structure of Figure 24.Operator at least can use following technology that nearside and distal body 552,582 are relative to each other rotated.
In a technology, the Male Connector 550 that operator constructs from the disconnection of Figure 22 and Female Connector.Catch proximal collar 572 another hands to catch Female Connector 606 with a hands, adapter 550,606 takes to together by operator until female thread 602 in distal collar 600 engages the external screw thread on Female Connector 606.Then operator reverses proximal collar 572 and Female Connector 606 in the opposite direction, makes Female Connector 606 proceed to annular space 610.Along with operator applies twisting resistance to proximal collar 572, distal body 582 rotates up in the side identical with proximal collar 572 with proximal body 552 with distal collar 600.
Finally, Female Connector 606 stops being advanced in annular space 610 because the outer surface of such as nozzle 608 engages Female Connector 606 closely.At this point, continue to be applied to proximal collar 572 and can cause nearside and distal body 552,582 relative rotation in the opposite direction with the twisting resistance of Female Connector 606, distal body 582 can start to exit proximal collar 572.This phase despining occurs because of the reverse screw thread of proximal collar 572 and distal collar 600 and exits, this can find out in Figure 23 and 24.In addition, in one embodiment, the match ratio distal collar between proximal collar 572 and the respective screw thread 576,586 of distal body 582 and the cooperation between the respective screw thread 602,604 of Female Connector 606 tighter.Therefore, along with operator applies twisting resistance in proximal collar 572 and Female Connector 606, Female Connector 606 is advanced in distal collar 600, until it can not advance again, and only have after this point, nearside and distal body 552,582 just start relative to each other to rotate.
With reference to Figure 24, along with distal body 582 exits proximal body 552, tubular part 554 exits nozzle 608.Contact between the internal diameter 620 of the far-end 562 of tubular part 554 and the minimizing of nozzle 608 terminates, and the fluid between inner chamber 558 and Female Connector 606 is communicated with to be opened.In the embodiment shown, the outer surface of tubular part 554 comprises plateau 628 in the middle.Plateau 628 has the height making it contact longitudinal passage 612 inner surface.In the closed stream structure of Figure 23, plateau 628 is positioned at ventilating duct distally.But in the open flows structure of Figure 24, plateau 628 covers ventilating duct 622.Plateau 628 seals the possibility that ventilating duct 622 is revealed by ventilating duct 622 to reduce liquid.
In another technology, operator is from the Male Connector 550 in the connecting structure of Figure 23 and Female Connector 606.Catch proximal collar 572 with a hands and catch distal collar 600 with another hands, operator reverses the collar 572,600 in the opposite direction.Because proximal collar 572 is contrary with the screw thread of the portions of proximal 584 of distal body 582, operator applies twisting resistance in the opposite direction, usually tightens in the clockwise direction, unclamps in the counterclockwise direction.Apply contrary twisting resistance, with aforementioned similar, distal body 582 exits proximal collar 572, thus opens from Male Connector 558 to the stream of Female Connector 606.
Advantageously, this adapter 550 can make stream to be closed when not disconnected from Female Connector 606 by Male Connector 550.For the open flows structure from Figure 24 closes stream, operator applies the contrary twisting resistance in direction, distal body 582 to be advanced to backward in proximal collar 572 to the collar 572,600.Along with distal body 582 is advanced to proximal collar 572, tubular part 554 enters in nozzle 608 farther.Finally, the internal diameter 620 of the minimizing of nozzle 608 covers the far-end 562 of tubular part 554, and the fluid between closed cavity 558 and Female Connector 606 is communicated with.Operator reopening and series of fortified passes can close and be communicated with arbitrarily repeatedly from Male Connector 550 to the fluid of Female Connector 606, will not disconnect from Female Connector 606 by Male Connector 550.Continuous print connects the possibility reducing adapter internal contamination.
Figure 25 illustrates the detail view of the alternate embodiment of proximal body 552 and distal body 582.With reference to the left hand portion of Figure 25, at its far-end, the slippery inner surface of proximal collar 572 is included in the plateau 630 that arbitrary side face end has surface, slope 632.With reference to the right hand portion of Figure 25, at its far-end, the smooth outer surface at middle part 594 comprise first and second separate domatic 634.Plateau 630 and domatic 634 position make when nearside and distal body 552,582 are in the closed stream structure of Figure 23, plateau 630 navigates to the side of first domatic 634, outside the space 636 between first and second domatic 634.Along with operator applies twisting resistance to open fluid stream to proximal collar 670 and Female Connector 606, as mentioned above, when Female Connector 606 stops being advanced to annular space 610, nearside and distal body 552,582 start relative to each other to rotate.On first that this relative rotation makes plateau 630 ride in domatic 634, and snap in the space 636 between domatic 634.Along with plateau 630 snaps in the space between domatic 634, operator hears click and has sense of touch.The sound of click clatter and feel to tell that operator's Female Connector 606 is positioned at annular space 610 completely, and nearside and distal body 552,582 have started and relatively rotate, but adapter 550 is still in and closes stream structure.Along with operator continues to apply twisting resistance, plateau 630 rides on second in domatic 634, and deviates from the space 636 between domatic 634.The click occurred at this point and sense of touch teaching process person adapter 550 are just mobile towards open flows structure.Although not shown, adapter 550 can comprise similar domatic and plateau feature, and it is prompting operator when arriving open flows structure.Similar feature also can at plateau 628(Figure 24) prompting operator when covering ventilating duct 622.Those of ordinary skill in the art can understand in the embodiment comprising domatic and plateau feature, and the screw thread 586 in the screw thread 576 in proximal collar 572 and the portions of proximal 584 in distal body 582 does not need to have than the screw thread 602 in distal collar 572 and tighter the coordinating of screw thread 604 on Female Connector 606.Domatic 634 and plateau 630 nearside and distal body 552,582 can be suppressed to rotate, until Female Connector 606 can not advance in annular space 610 again.
Figure 26 and 27 illustrates another embodiment of this alternative sealing male form Needleless connector 650.Shown in adapter 650 with the above and Figure 22, adapter 550 has many resemblances.Therefore, explanation here will concentrate on those different features, and omits the description of similar characteristics.
With reference to Figure 26, adapter 650 comprises proximal body 652, and this proximal body 652 has the tubular part 654 limiting inner chamber 656.Tubular part 654 is included in the outer diameter of step that middle part generates annular shoulder 658.Annular shoulder 658 is towards distally.Adapter 650 also comprises distal body 660, and described distal body 660 has the step internal diameter generating annular shoulder 662 at middle part.Annular shoulder 662 is towards nearside.Annular shoulder 658,662 forms abutment surface, its restriction nearside and distal body 652,660 stroke relative to each other.
Proximal body 652 comprises the proximal collar 664 had with proximal collar 572 similar structures of Figure 22.But the proximal collar 664 of Figure 26 surrounds distal body 660 completely when stream structure is closed in the disconnection that adapter is in Figure 26.For opening the stream by adapter 650, operator must make nearside and distal body 652,660 relative to each other rotate.Because proximal collar 664 covers distal body 660, be difficult to cause this relative rotation, this is because distal body 660 is difficult to close relatively for operator.Advantageously, for the stream being thus difficult to operator open unintentionally by adapter 650 when adapter 650 not being connected to Female Connector, as described below.
At its far-end 666, tubular part 654 comprises opening 668 in its sidewall.Opening 668 comprises the outlet 668 in chamber.The nozzle 670 that the near-end 672 that distal body 660 comprises the distally collar 674 distad extends.At its far-end 676, nozzle 670 comprises opening 678 in its sidewall.Opening 678 comprises ventilating duct 678.Adjacent to ventilating duct 678, the outer surface of nozzle 670 comprises the recess receiving perforated membrane 682.When adapter 650 is in the closed stream structure of the disconnection of Figure 26, ventilating duct 678 is aimed at outlet 668, adapter 650 is led to and is loaded.For filling adapter 650, operator is substantially in accordance with the step that the adapter 350,400 with reference to Figure 17 and 18 is summarized.Air is forced through inner chamber 656, flows out outlet 668, by opening 678 and perforated membrane 682 and by recess 680 to ambient atmosphere.
Figure 27 illustrates the adapter 650 being connected to Female Connector 684 with open flows structure.Process for connecting Male Connector 650 and Female Connector 684 is similar to above-mentioned the first technology for the Male Connector 550 of Figure 22-24 being connected to Female Connector 606.Advantageously, in the embodiment shown, nozzle 670 comprises male-tapered 686 on its outer surface, and Female Connector 684 comprises inner conical 688 within it on the surface.Like this, when Female Connector 684 is enough advanced in the annular space 690 between distal collar 674 and nozzle 670, nozzle outer surface 686 and Female Connector inner surface 688 are engaged with each other closely.In this configuration, Female Connector inner surface 688 covers and the ventilating duct 668 at far-end 676 place of sealed-in nozzles 670.Thus transferring to Female Connector 684 process of Female Connector 684 at fluid from Male Connector 650 stops liquid to be revealed by ventilating duct 668.
With reference to Figure 27, the longitudinal passage 692 in nozzle 670 comprises the minimizing diameter parts 694 being positioned at chamber exit 668 nearside.Reduce the outside of diameter parts 694 joining tubular parts 654 closely to provide sealing.This sealing stops liquid to be refluxed by the annular space 696 between longitudinal passage 692 and tubular part 654, thus reduces the probability leaking out adapter 650.
Continue with reference to Figure 27, proximal collar 664 is included in the annular flange flange 698 that middle part extends internally.Distal body 660 comprises outward extending annular flange flange 700 similarly at middle part.Proximal collar flange 698 is positioned at distal body flange 700 distally, and has the interior diameter less than the overall diameter of distal body flange 700.Therefore proximal collar flange 698 provides abutment surface for distal body flange 700.When adapter 650 is moved to open flows structure from closed stream structure by operator, when nearside and distal body 652,660 are moved away from each other, final flange 698,700 contacts with each other.At this point, operator notices the sharply rising making main body 652,660 continue relative to each other to reverse the size of necessary power.He or she just knows that adapter 650 is in open flows structure.Therefore flange 698,700 reduces the possibility of nearside and distal body 652,660 axial separation unintentionally.
Figure 28 illustrates another embodiment of this alternative sealing male form Needleless connector 710.Adapter 710 is combined with the above and with reference to many features of the adapter 550,650 shown in Figure 22 and 26, it will be apparent to those skilled in the art that.Therefore, explanation here will concentrate on those different features, and omits the description of similar characteristics.
Adapter 710 comprises relative to each other rotatable and can the proximal body 712 of translation and distal body 714.Adapter 710 also comprises the sealing lip 715 in the annular space 717 between tubular part 722 and nozzle 719.Sealing lip 715 is just positioned at ventilating duct 721 nearside, and stops the liquid return in annular space 717.Thus sealing lip 715 minimizing can be collected in the volume of the liquid in adapter 710.
The proximal collar 716 of proximal body 712 comprises and is positioned at the radial direction through hole 718 adjacent with the near-end 720 of proximal collar 716.Through hole 718 comprises the window 718 making the operator of adapter 710 can see distal body 714 when adapter 710 is in the closed stream structure of Figure 28.When adapter 710 is in open flows structure (not shown), distal body 714 is distad shifted relative to proximal body 712, and distal body 714 is not presented in window 718.On the contrary, operator see proximal body tubular part 722. thus window 718 operator is confirmed simply by watch window 718 adapter is in closes stream structure or open flows structure.In a particular embodiment, proximal body 712 and distal body 714 can form to help operator to confirm further from contrast color material whether distal body is by window 718.
Figure 29 illustrates another embodiment of this alternative sealing male form Needleless connector 730.Adapter 730 is similar to adapter 550 shown in the above and Figure 22 in many aspects.Therefore, explanation here will concentrate on those different features, and omits the description of similar characteristics.
Contrary with the adapter 550 of Figure 22, the adapter 730 of Figure 29 does not comprise elastic sealing element at near-end 732 place of its distal body 734.On the contrary, proximal body comprises the tubular part 738 with variable external diameter.In central region, tubular part 738 has the first diameter 740, and gradually thins down to the second small diameter 742 with about 45 degree.Distal body 734 comprises the nearside cavity 744 of reception first larger diameter part 740.Nearside cavity 744 ladder drops to the far-end 748 continuous print longitudinal passage 746 with nozzle 750.This ladder declines and generates annular shoulder 752.
Just in annular shoulder 752 distally, longitudinal passage 746 comprises minimizing diameter parts 754, and its outer surface for tubular part forms sealing.Sealing is shown specifically in fig. 30, and this is the detail view of the part indicated by shaped as frame labelling 30 in Figure 29.In a particular embodiment, sealing is strengthened by advancing tubular part 738 to make conical section 756 contact the inner edge 758 of annular shoulder 752.In alternative embodiments, reducing diameter parts 754 can be omitted, and can generate sealing by means of only adjacent contact of conical section 756 and the inner edge 758 of annular shoulder 752.
Or contrary with the adapter 550 of Figure 22, the adapter 730 of Figure 29 does not comprise the contrary screw thread in direction in proximal collar 760 and distal collar 762.On the contrary, the screw thread of the collar 760,762 in the same direction.So, when adapter 730 is in closed stream structure, adapter 730 elongates from structure described in Figure 29.The adapter 730 of Figure 29 is fixed to Female Connector (not shown) in the mode that the adapter 550 with Figure 22 is similar, except when when Female Connector stops being advanced in annular space 764, main body 734,736 starts relatively to rotate and distal body 734 is advanced in proximal collar 760, instead of exits from it.Along with distal body 734 is advanced in proximal collar 760, tubular part 738 advances the end of delivery nozzle 750, instead of withdraws in nozzle 750 darker.Along with tubular part 738 advances, the opening 766 in its sidewall is advanced through the far-end 748 of nozzle 750, opens from Male Connector 730 to the fluid stream in Female Connector 730.When the annular shoulder 768 towards nearside in distal collar 762 contacts the annular shoulder 770 towards distally in proximal collar 760, distal body 734 stops being advanced to proximal collar 760.
The Male Connector (not shown) of an example comprises filling cap.Filling cap comprises substantial cylindrical cone main body, and it comprises external screw thread at far-end.At near-end, cap comprises can be made air pass through but not make the hydrophobic perforated film that liquid passes through.Be connected to by cap thread on adapter, operator loads adapter by being remained on by adapter lower than the height of IV fluid supply (not shown).When removing cap, adapter cuts out automatically.
Figure 31 and 32 illustrates another embodiment of this alternative sealing male form Needleless connector 850.Adapter 850 is similar to adapter 650 shown in the above and Figure 26 with 27 in many aspects.Therefore, explanation here will concentrate on those different features, and omits the description of similar characteristics.
With reference to Figure 31, adapter 850 comprises proximal body 852, and described proximal body 852 comprises the tubular part 854 limiting inner chamber 856.Adapter 850 also comprises distal body 858, and it is interior and rotatable relative to proximal body 852 that described distal body 858 is received in proximal body 852 at least in part.Be threadedly engaged relation due to having as described in the above adapter 650 with reference to Figure 26 and 27 between the two, when nearside and distal body 852,858 relatively rotate, they are translation relative to each other.
Just at its distal face 860 nearside, tubular part 854 comprises at least one opening 862 in its sidewall.Opening 862 comprises the outlet 874 of inner chamber 856, and provides outlet flow when nearside and distal body relatively translation.Cylindrical spout 864 distally main body 858 distad extends.The distal collar 866 of distal body 858, partly around nozzle 864, limits annular space 868 betwixt.Distal body 858 comprises the central longitudinal passage 870 receiving tubular part 854.The internal diameter of central authorities' longitudinal passage 870 is greater than the external diameter of tubular part 854.Longitudinal passage 870 and tubular part 854 thus limit annular space 872 betwixt.In the embodiment shown, the internal diameter of longitudinal passage 870 inwardly attenuates towards the port of export 874 of nozzle 864.Thus the sectional area of annular space 872 declines towards the port of export 874 of nozzle 864.But, those of ordinary skill in the art can understand annular space 872 can over the whole length or its length at least partially on there is constant sectional area.
At the far-end 876 of longitudinal passage 870, nozzle 864 comprises roughly corresponding to the internal diameter of the minimizing of tubular part 854 external diameter, thus around tubular part, forms liquid-tight seal at far-end.The internal diameter 876 reduced is positioned at the distally of the outlet 874 in tubular part 854, and inner chamber 856 is communicated with annular space 872 fluid by opening 862.But due to the sealing formed around tubular part 854 far-end by the internal diameter 872 reduced, the liquid in annular space 872 can not leak out outside the far-end of nozzle 864.
Tubular part 854 comprises longitudinal compressible part, is also referred to as rivel portion 878.Rivel portion 878 comprises fold 880, and described fold 880 compresses when applying to the distal face 860 of tubular part 854 power pointing to nearside.Thus the power of this sensing nearside makes tubular part 854 move relative to nozzle 864 proximad by compression rivel portion.When tubular part move be enough to the outside of the far-end making tubular part 854 and the far-end of nozzle 864 inside between sealing contact throw off time, the liquid in adapter 850 can flow out adapter 850 by the far-end of nozzle 864.Thus rivel portion 878 contributes to the compatibility between adapter 850 and Female Connector, and described Female Connector comprises interior pricker 888 or post, as following more detailed description.But adapter 850 is suitable for using together with the female luer connector not comprising standing pricker or post equally.
Nearside and distal body 852,858 can by any durable being formed with rigidity or semi-rigid material, such as plastics.But when the wall thickness relative thin of material, at least proximal body 852 can be formed by providing suitable elastic material.In one embodiment, such as, proximal body 852 can be formed by polypropylene.When applying to the far-end of tubular part 854 power pointing to nearside, this elasticity contributes to the compression in rivel portion 878.
Just at rivel portion 878 nearside, tubular part 854 comprises the opening 882 that at least one forms lateral flow path.Inner chamber 856 is connected with annular space 872 fluid by lateral flow path 882.Like this, proximally 884 fluids entering adapter 850 flow through inner chamber 856.Part fluid enters in annular space 872 through lateral flow path 882, and fluid continues distad to flow through both inner chamber 856 and annular space 872 and leads to outlet 874.Inner chamber 856 and annular space 872 common is flowed to construct and eliminates adapter 850 inner fluid and collect and be stuck in dead space wherein.The fluid flowing through inner chamber 856 and annular space 872 washes away the fluid previously flow through.The fluid do not stagnated decreases the probability that pathogen grows in adapter 850, thus decreases the infected probability of people that fluid flows to.So, be appreciated that an aspect of the present embodiment comprises the adapter with the tubular part being positioned at distal body, wherein, the fluid flowing through described tubular part is discharged by central stream and annular flow path.In of the present embodiment is concrete, provide multithread road Male Connector, wherein, fluid is configured to flow through tube and flows out distal openings, flows out transverse opening, and enters in annular fluid space.
The adapter 850 of Figure 31 is configured to and Female Connector, such as, connect matchingly with reference to the Female Connector 30,606,684 before described in embodiment.The process adapter 850 of Figure 31 being connected to Female Connector is similar to described in above reference Figure 26 and 27.If Female Connector comprises interior seal member 122(Fig. 3), along with male and female adapter is threadingly attached to each other, nozzle 864 and tubular part 854 compression seal parts 122 are to open crack 84 within it.Similar opening steps is in above reference Fig. 3-5 explanation.
The adapter 850 of Figure 31 is also configured to be connected matchingly with Female Connector 886, and described Female Connector 886 also comprises interior pricker or post except the crannied seal member of tool 890.Figure 32 illustrates adapter 850 and commercially available Female Connector 886, described Female Connector 886 comprise by seal member 890 around in pricker 888.Female Connector comprises the cylinder blanket 892 with external screw thread 894.Described shell 892 is configured to be received in the annular space 868 between distal collar 866 and nozzle 864.On Female Connector 886, screw thread 894 is configured to engage the screw thread 896 on distal collar 866 inside, their courts to be advanced each other when male and female adapter 850,886 relatively rotates.But before screw thread 894,896 can engage each other, the far-end of the projection of nozzle 864 and tubular part 854 is pulled to the inside of shell 892.The nozzle 864 advanced and tubular part 854 compression seal parts 890 force it distad to enter shell 892.Along with seal member 890 is distad pushed away, the crack (not shown) in seal member 890 is opened.
When nozzle 864 and tubular part 854 advance enough far away, the end 898 of pricker 888 contacts the distal face 860 of tubular part 854.Pricker 888 is by fixing in its lengthwise position relative to shell 892.So, after the end 898 of pricker 888 contacts distal face 860, operator continues nozzle 864 to be advanced in shell 892, but pricker 888 prevents tubular part 854 to be advanced further.Therefore pricker 888 pushes away tubular part 854 by compressing the rivel portion of tubular part relative to nozzle 864 proximad.Finally, the outer surface of the far-end of tubular part 854 departs from the inner surface of the far-end of nozzle 864, opening 862 fluid mass flowing nozzle 864.This disengaging can the screw thread 894,896 on adapter 850,886 be engaged with each other before or after occur.Once screw thread 894,896 engages really, adapter 850,886 court is advanced by relative torsion by operator further each other, with above with reference to similar described in embodiment before.When not disconnected completely with distal body by Female Connector 886, outlet 874 is also closed by relative torsion reverse between proximal body 852 and distal body 858.So, be appreciated that an aspect of the present embodiment comprises the adapter be configured to having pricker and using together with the female luer connector of post, wherein, the fluid stream can opened when female luer connector not being disconnected from this adapter physics or close between this adapter and female luer connector.Another feature of this adapter to be connected to the female luer connector not comprising pricker or post.
The fluid of mass flowing nozzle 864 is by being positioned at the hole 902 of the wall of the pricker 888 in end 898 distally of pricker 888 and flowing to the hollow interior 900 of pricker 888.Shown Female Connector 886 is an example with the commercially available adapter of this adapter 850 compatibility.Other Female Connector can comprise the post with blunt end, instead of the sharp end 898 of pricker 888.
Above-described embodiment embodies the best mode estimating to implement the scalable male form Needleless connector of this selectivity with complete, clear, succinct term, and manufacture and use mode and process, manufacture to enable any person skilled in the art and use this adapter.But this adapter is subject to the impact of change from the structure of above-mentioned discussion and alternative structure, these changes and alternative structure are equal to completely.Therefore, this adapter is not limited to disclosed specific embodiment.On the other hand, this adapter covers all modification in the spirit and scope of the adapter of roughly stating in following claim and alternative constructions, and these claim are specifically noted and explicitly called for the theme of adapter.Such as, the feature that embodiment is specifically discussed or structure can be used in or are included in other embodiment, as long as function or target are compatible.
1. a male form Needleless connector, comprising:
Main body, it limits the Part I of stream;
Tubular part, it extends away from described Part I in a distal direction and limits the Part II of described stream, when using together with female Needleless connector, described Part II is than described Part I closer to described female Needleless connector, and described tubular part comprises fluid openings at its far-end;
The collar, it is at least in part around described tubular part, and the described collar has and can carry out with the external screw thread of female Needleless connector the female thread that is threadedly engaged and have can carrying out with the female thread of described main body the external screw thread that is threadedly engaged; And
Seal member, it at least in part also can relative to described tubular part translation around described tubular part;
Wherein, described adapter comprises closed construction and open configuration, described open configuration is rotated along first direction relative to the female thread of described main body by the external screw thread of the described collar and limits, and described closed construction is rotated along second direction opposite to the first direction relative to the female thread of described main body by the external screw thread of the described collar and limits, and wherein, in described closed construction, described seal member covers described fluid openings, and in described open configuration, described seal member allows fluid to flow through described fluid openings.
2. adapter as claimed in claim 1, wherein, described seal member is by towards described closed construction bias voltage.
3. adapter as claimed in claim 1, wherein, main body described in described collar imbrication and can rotating relative to described main body.
4. adapter as claimed in claim 1, wherein, main body described in described collar imbrication and can relative to described main body translation.
5. adapter as claimed in claim 1, wherein, described main body comprises circular passage at its outer surface, and the described collar within it surface comprises at least one boss, and described boss is located in described passage.
6. adapter as claimed in claim 1, wherein, described tubular part is included in opening and the pleated portions of described fluid openings nearside.
7. adapter as claimed in claim 1, also comprises the perforated membrane be fluidly communicated with described stream, described perforated membrane be configured to allow gas particles through described film barrier liquid microgranule by described film.
8. adapter as claimed in claim 1, wherein, described seal member comprises pressure valve, and described pressure valve is configured in response to the pressure set up in described seal member and stops the fluid stream by described seal member.
CN201080050052.XA 2009-09-04 2010-09-03 Selectively sealable male needleless connectors and associated methods CN102686266B (en)
US23991309P true 2009-09-04 2009-09-04
US61/239913 2009-09-04
US61/239,913 2009-09-04
US24228109P true 2009-09-14 2009-09-14
US61/242281 2009-09-14
US61/242,281 2009-09-14
US25733809P true 2009-11-02 2009-11-02
US61/257,338 2009-11-02
US61/257338 2009-11-02
PCT/US2010/047898 WO2011029056A2 (en) 2009-09-04 2010-09-03 Selectively sealable male needleless connectors and associated methods
CN102686266A CN102686266A (en) 2012-09-19
CN102686266B true CN102686266B (en) 2015-06-17
ID=43649994
CN201080050052.XA CN102686266B (en) 2009-09-04 2010-09-03 Selectively sealable male needleless connectors and associated methods
US (1) US8910919B2 (en)
EP (2) EP2480281B1 (en)
CN (1) CN102686266B (en)
DK (1) DK3421077T3 (en)
RU (1) RU2513938C2 (en)
WO (1) WO2011029056A2 (en)
JP6548034B2 (en) * 2013-12-11 2019-07-24 株式会社ジェイ・エム・エス Male connector
DE102014201392A1 (en) * 2014-01-27 2015-07-30 Henke-Sass, Wolf Gmbh Connection module and syringe with such a connection module
JP6578793B2 (en) 2015-08-03 2019-09-25 株式会社ジェイ・エム・エス Adapter for male connector and male connector with adapter
EP1965855B1 (en) * 2005-12-28 2014-06-18 Covidien AG Male leur connector
2010-09-03 EP EP10814593.9A patent/EP2480281B1/en active Active
2010-09-03 US US13/392,642 patent/US8910919B2/en active Active
2010-09-03 CN CN201080050052.XA patent/CN102686266B/en active IP Right Grant
2010-09-03 WO PCT/US2010/047898 patent/WO2011029056A2/en active Application Filing
2010-09-03 DK DK18187506T patent/DK3421077T3/en active
2010-09-03 EP EP18187506.3A patent/EP3421077B1/en active Active
2010-09-03 RU RU2012113228/14A patent/RU2513938C2/en active
US8910919B2 (en) 2014-12-16
WO2011029056A3 (en) 2011-08-11
WO2011029056A2 (en) 2011-03-10
RU2012113228A (en) 2013-10-10
EP2480281A2 (en) 2012-08-01
EP2480281B1 (en) 2018-11-07
US20120192968A1 (en) 2012-08-02
EP3421077A1 (en) 2019-01-02
EP2480281A4 (en) 2014-11-05
RU2513938C2 (en) 2014-04-20
EP3421077B1 (en) 2019-08-14
CN102686266A (en) 2012-09-19
DK3421077T3 (en) 2019-10-28
EP0756121A2 (en) 1997-01-29 Connector assembly