Source: https://patents.google.com/patent/CN105828858A/en
Timestamp: 2020-02-26 01:54:33
Document Index: 8402809

Matched Legal Cases: ['art 24', 'art 24', 'art 45', 'art 45', 'art 24', 'art 70', 'art 70', 'art 24', 'art 70', 'art 45']

CN105828858A - Medicament delivery device sub-assembly - Google Patents
Medicament delivery device sub-assembly Download PDF
CN105828858A
CN105828858A CN201480069929.8A CN201480069929A CN105828858A CN 105828858 A CN105828858 A CN 105828858A CN 201480069929 A CN201480069929 A CN 201480069929A CN 105828858 A CN105828858 A CN 105828858A
CN201480069929.8A
CN105828858B (en
雷切尔·科佩尔曼
艾伦·贾德
A·威洛比
和谐医疗有限公司
2013-11-01 Priority to GB1319377.6 priority Critical
2013-11-01 Priority to GB1319377.6A priority patent/GB2519971B/en
2014-11-03 Application filed by 和谐医疗有限公司 filed Critical 和谐医疗有限公司
2014-11-03 Priority to PCT/GB2014/053253 priority patent/WO2015063509A1/en
2016-08-03 Publication of CN105828858A publication Critical patent/CN105828858A/en
2019-07-09 Publication of CN105828858B publication Critical patent/CN105828858B/en
239000003380 propellant Substances 0 abstract 4
230000000903 blocking Effects 0 abstract 3
A sub-assembly for a medicament delivery device, the sub-assembly comprising a housing, a propellant source contained in and axially moveable relative to said housing, and a button axially moveable relative to said housing. At least part of said button is disposed axially rearwardly of part of said propellant source. The button includes one or more radially flexible blocking members, and the button is moveable between a first axial position in which the one or more radially flexible blocking members are radially restrained by the housing in a radially inward position that limits rearward axial movement of the propellant source, and a second axial position in which the one or more radially flexible blocking members are able to flex to a radially outward position and permit rearward axial movement of the propellant source relative to the button and the housing.
Delivery device sub-component
The present invention relates to a kind of delivery device, and more particularly to a kind of for receiving the sub-component of the delivery device of syringe.
Known delivery device includes automatic injector assembly and is made up of sub-component and the syringe being arranged in this sub-component in some instances.Some of these prior-art devices have permission and use standard specifications syringe and the advantage unrelated with emitter manufacturer in conveyer device, thus eliminate pharmaceuticals and provide the demand of the syringe filled for specific device.
The purpose of at least one embodiment of the present invention is to provide the sub-component for delivery device overcoming at least some of shortcoming relevant to prior-art devices.
The brief overview of the disclosure
According to the first aspect of the invention, it is provided that a kind of sub-component for delivery device, this sub-component includes:
Housing；
Propellant source, it is contained in described housing and is axially movable relative to described housing；With
Button, it is axially movable relative to described housing, the rear portion of the part being axially arranged at described propellant source at least partially of described button；
Wherein button includes the obstructive component of one or more radial compliance, and button is moveable between the first axial location and the second axial location, at this first axial location, this one or more radial compliance obstructive component is radially constrained in the position radially inward of the backward axial movement limiting this propellant source by housing, at the second axial location, this one or more radial compliance obstructive component can bend to position radially outward and allow propellant source relative to button and the backward axial movement of housing.
This one or more radial compliance obstructive component can be moveable to position radially outward by acting on the power axially rearward on one or more radial compliance obstructive component from position radially inward when being in the second axial location.This one or more radial compliance obstructive component can have tapered front surface so that this one or more radial compliance obstructive component is moveable by acting on the power axially rearward in tapered front surface from position radially inward to position radially outward when being in the second axial location.
Housing can include aft case and front shell, and propellant source causes, relative to the axially rearward movement of housing, the biasing member unblock that bounces back, and the retraction biasing member wherein unlocked promotes aft case the most backward relative to front shell.When latch head (latchhead) moves from position radially inward to position radially outward, retraction biasing member is unlocked.Propellant source allows the axially rearward movement of plug relative to the axially rearward movement of housing, and wherein latch head is pushed to position radially outward from position radially inward by the axially rearward movement of plug.Latch head can be arranged on radial compliance supporting leg, and wherein plug includes hook, and this hook is pieceable with radial compliance supporting leg, in order to prevents supporting leg from bending radially outward, and when plug is axially moved rearwards by relative to supporting leg, hook can depart from supporting leg.
Latch head can be formed on inner shell and latch head first retainer with front shell when being in position radially outward is axially directed at, and wherein adjacent between latch head and the first retainer prevents the inner shell axial backward moving relative to front shell.
In front shell and aft case one can include in the second retainer and front shell and aft case another include blocking element (lockoutelement), wherein the joint between the second retainer and blocking element prevents aft case relative to the forward axial motion of front shell and backward axial movement, and wherein when the axial distance that aft case is predetermined relative to front shell axially rearward displacement, the second retainer is engageable in blocking element.
Sub-component is additionally may included in one or more latch in button or housing, wherein when button is in the second axial location, another in this one or more latch engagement buttons or housing, and the joint of wherein this one or more latch prevents the button axially rearward movement relative to housing.
Sub-component can also include needle guard, and wherein needle guard in axially forwardly position and is axially movable between position relative to housing axially rearward, and wherein in position axially rearward, needle guard determines from its pin extended relative to the greatest axial length of needle guard.Sub-component can also include biasing member, and this biasing member makes needle guard offset towards axially forwardly position relative to housing.
The front surface of sub-component can tilt relative to the longitudinal axis of sub-component, and wherein the angle-determining sub-component of the inclination of front surface can be kept with realization from the angle of the maximum penetration of the pin of sub-component extension against transfer position.
Selectively, sub-component can include series of points, each of which is the point of the axially forefront of the sub-component at given radius, and the most this series of point is located relative in the plane of longitudinal axis inclination of sub-component, and wherein the angle of inclination of this plane determines the minimum angles that the pin of the syringe being arranged in sub-component is inserted in transfer position.
Propellant source can include reservoir housing and bar, this reservoir housing defines the reservoir for accommodating propellant, this bar has the hole passed through and at least one entrance of hole fluid communication and the open port of export with hole fluid communication, and bar not and is moveable between the second position of the primary importance of reservoir fluid communication and at least one of which entrance and this hole fluid communication relative to reservoir housing at least one of which entrance.Propellant source could be included for the biasing member making bar offset towards primary importance.Reservoir can accommodate gas propellant, and/or can accommodate the propellant being or comprising hydrofluoroalkane (HFA), and wherein this propellant can be or comprise HFA134a.
According to the first aspect of the invention, provide a kind of delivery device, including sub-component according to the first aspect of the invention and the syringe being connected to this sub-component, wherein syringe includes the bucket for accommodating medicine, this barrel have the outlet at front end and in bucket axially movable stopper.
Syringe can also include the pin with communication.
Syringe axially can be retrained relative to aft case so that aft case causes the syringe axially-movable relative to front shell relative to the axially-movable of front shell.
Embodiment of the present invention are further described, in the accompanying drawings hereinafter with reference to accompanying drawing:
Fig. 1 is the cross-sectional view of the delivery device according to embodiment of the present invention；
Fig. 2 is the perspective view of the button of the delivery device of Fig. 1；
Fig. 3 is the perspective view of the inner shell of the delivery device of Fig. 1；
Fig. 4 is the cross-sectional view of the plug of the delivery device of Fig. 1；
Fig. 5 is the cross-sectional view of the delivery device of the Fig. 1 during the medicine of conveying doses；
Fig. 6 is the cross-sectional view of the delivery device of the Fig. 1 after being bounced back in front shell by syringe；
Fig. 7 A is the cross-sectional view of the delivery device of the Fig. 1 after being bounced back in front shell by syringe, and wherein inner shell is latched against front shell；
Fig. 7 B is around the cross-sectional view of the delivery device of Fig. 7 A of longitudinal axis half-twist and illustrates against the aft case that front shell is latched；
Fig. 8 A is the cross-sectional view of the delivery device of the needle guard being included in pin protective position according to an alternative embodiment of the present invention；And
Fig. 8 B is the cross-sectional view of the delivery device of Fig. 8 A, during wherein needle guard is in pin exposure position.
Fig. 1 illustrates the cross-sectional view of the delivery device 10 according to embodiment of the present invention.Delivery device 10 includes sub-component 12 and the syringe 14 being assemblied in sub-component 12.Syringe 14 has: has the syringe bucket 72 of the flange 72a in rear end, be arranged in syringe bucket 72 and the most axially slidable stopper 74 and the pin 76 that is in fluid communication with the fluid issuing 72b of syringe 14.Syringe 14 is configured to accommodate medicine, and when stopper 74 axially moves forward in syringe bucket 72 and causes medicine to allow when discharging through pin 76 via fluid issuing 72a medicine is delivered to transfer position.Initially, as shown in fig. 1, needle housing 78 can be before using around pin 76, to prevent damage during operation device 10.
Device 10 extends in the axial direction along longitudinal axis.Forward direction axial direction is indicated by the arrow 100 in Fig. 1 and backward axis direction is indicated by arrow 102.Radial direction is indicated by arrow 200 and relative to longitudinal axis (that is, through the axis at center of device).
Sub-component 12 includes the housing 16 formed by front shell 20, aft case 18 and inner shell 38.Inner shell 38 is attached to aft case 18 (such as, by press-fit or interference fit).Sub-component 12 also includes that button 22, button 22 are arranged in the rear end of device 10 and are axially movable relative to housing 16, propellant source 28 and plug 60.Propellant source 28 includes reservoir housing 32, and this reservoir housing 32 defines reservoir 34 and the bar 30 of the propellant for accommodating certain volume.Bar 30 includes the entrance 30a of the hole 30b passed through and hole 30b fluid communication and the outlet 30c being also in fluid communication at front end with hole 30b.Bar 30 position that position to wherein entrance 30a and reservoir 34 with reservoir 34 fluid communication is not in fluid communication relative to propellant housing 32 entrance 30a from which is axially movable.In non-limiting embodiments shown in the figure, propellant source 28 additionally comprises biasing member (such as, spring), and this biasing member makes bar 30 be offset to the position that wherein entrance 30a is not in fluid communication with reservoir 34.In the case of there is not biasing member, bar 30 can be remained in the position that entrance 30a is not in fluid communication with reservoir 34 by the pressure of the propellant in reservoir 34.Additionally, in certain embodiments, propellant source 28 preferably includes bolt lock mechanism, and the most once bar 30 is axially moved rearwards by exceeding predetermined axial point relative to reservoir housing, and bar 30 is just latched in the position that wherein entrance 30a and reservoir 34 are in fluid communication.
Fig. 2 illustrates in greater detail button 22, the most visible, button 22 includes rear wall 22a (in its non-limiting embodiments shown in the figure for discoid), extend the most forward from rear wall 22a multiple latches 24 and the multiple obstructive components 26 extended the most forward from rear wall 22a.Each in multiple latches 24 is radially flexible and includes the basilar part 24a radially highlighted and the front surface with taper.Latch 24 is arranged to the part that button 22 is latched to housing 16 to prevent the button 22 axially-movable backward relative to housing 16 so that button 22 is non-removable from housing 16 and can be maintained at the state pressed relative to housing 16 after pressing.Latch 24 can be latched to any part of housing 16.In non-limiting specific embodiments shown in the figure, latch 24 is latched to inner shell 38, and specifically, in aperture, the rear portion 52a of the most internally positioned housing of basilar part 24a 38 of latch 24 (as shown in Figure 3).Latch 24 can be worked as when button 22 is pressed and bends radially inward, and axially moves forward in the case of latch 24 is positioned in anterior aperture 52b, and prevents the button 22 axially-movable backward subsequently relative to inner shell 38.
Each in multiple obstructive components 26 is radially flexible and has lips 26a prominent radially inward.When combination, multiple lips 26a form discontinuous flange prominent radially inward.
In non-limiting embodiments shown in the figure, multiple obstructive components 26 are radially disposed the inside of multiple latch 24 when being each in lax non-shift state.
Additionally, button 22 includes boss 22b, this boss 22b from rear wall 22a the most forward, radially in the internally extension of obstructive component 26.
Illustrate in further detail inner shell 38 in figure 3.As seen in Figure 3, that inner shell 38 is substantially round cylindricality and have the first reaction surface 40 and the second reaction surface 42, wherein the first reaction surface 42 radially each in the outside of the second reaction surface 42 and the first reaction surface 40 and the second reaction surface 42 has the centre bore passed through.Second reaction surface 42 is that the flange 72a of syringe 14 provides the abutment surface axially limited, and, as described in more detail below, the first reaction surface 40 provide for retraction spring 80 against and the abutment surface that works.
Inner shell 38 is included on axially forward direction the supporting leg 44 that a pair extended is radially flexible.Supporting leg 44 each has the head 45 at front end, and the most each head 45 has part 45a radially inward and part 45b radially outward.Supporting leg 44 also includes catching thing 46, and this seizure thing 46 is the most prominent but also highlights the most backward.Supporting leg 44 additionally includes conical section 48, this conical section 48 tapers radially inwardly (i.e. on axially forward direction, therefore the radius of conical section 48 becomes less on axially forward direction), for promoting when axial force backward applies to conical section 48 in upwardly supporting leg 44, side radially outward.
Towards the rear end of inner shell 38, inner shell 38 includes the aperture 52 of the basilar part 24a of the latch 24 for receiving button 22 described above.It addition, inner shell 38 includes multiple blocks 50 and the multiple window 51 highlighted radially inward, the plurality of window 51 is each axially directed at in block 50 and the front portion of axially in block 50.The circle distribution of block 50 and window 51 is corresponding to the circle distribution of the obstructive component 26 of button 22.
Fig. 4 illustrate in detail plug 60.Plug includes the centre bore 64 extended through, further, in embodiment shown in the figure, this plug has the groove 62 around its outer surface, this groove 62 is for receiving the sealing member 82 (such as, O-ring packing) for plug 60 seals the inside to syringe bucket 72.The rear end of plug 60 includes socket 66, and this socket 66 is for receiving and radially retrain the bar 30 of propellant source 28.Plug 60 includes a pair hook 68 radially outwardly and axially extended forwardly with, and additionally includes a pair alar part 70 radially outwardly extended.The rear surface of alar part 70 the most preferably tapers radially inwardly in axially backward directions.
Being back to Fig. 1, it illustrates device 10 before the use, retraction spring 80 is initially between the first reaction surface 40 and the front shell 20 of inner shell 38 and is in compressive state.Due to adjoining between head 45 and front shell 20, under the influence of retraction spring 80, inner shell 38 is prevented from axially being moved rearwards by.The hook 68 of plug 60 radially retrains the seizure thing 46 of inner shell 38 to prevent supporting leg 44 from bending radially outward and allowing head 45 to depart from from front shell 20, and allows inner shell 38 to be axially moved rearwards by relative to front shell 20 under the influence of retraction spring 80.Plug 60 is partially positioned in syringe bucket 72, and the bar 30 of propellant source 28 is positioned in the socket 66 of plug 60.
For actuation means 10, needle housing 78 is removed and is inserted in transfer position with exposed needle 76 and pin 76.Then, button 22 is pressed (that is, axially moving forward) relative to housing 16.Pressing the button 22 causes propellant reservoir 32 axially to move forward, and, due to bar 30 onwards axial constraint (i.e., via plug 60, this plug 60 is by syringe flange 72a onwards axial constraint, this syringe flange 72a so by front shell 20 onwards axial constraint), propellant housing 32 axially moves forward relative to bar 30, thus causes entrance 30a to be in fluid communication with reservoir 34.Especially, when button 22 axially moves forward, block 50 radially retrains the obstructive component 26 of button 22 so that lips 26a keeps axially being directed at propellant housing 32 and causing propellant housing 32 axially to move forward relative to bar 30.In preferred embodiment shown in the figure, the basilar part 24a of latch 24 is latched in the anterior aperture 52b of inner shell 38, causes button 22 axially to be constrained in relative to housing 16 and presses in structure.
Fig. 5 shows device 10, and wherein button 22 is pressed and the entrance 30a of bar 30 is in fluid communication with reservoir 34.In this configuration, propellant can flow to syringe bucket 74 via the hole 64 of the hole 30b of bar 30 and plug 60 from reservoir 32.Especially, propellant is provided to syringe bucket 72 and provides steam pressure at stopper 74 and in the sealed volume between the sealing member 82 of plug 60.In particularly preferred embodiments, propellant leaves reservoir 34 as liquid and vaporizes to provide steam pressure.Along with steam pressure raises, the friction (and other resistance) between stopper 74 with bucket 72 is overcome and stopper 74 starts axially to move forward (and other power any resisted mutually with the axially-movable of sealing member 82 and plug 60) in bucket 72.The medicine accommodated in the axially forward portion of stopper 74 in bucket 72 is the most pressurized and is pushed away from the outlet 72b of syringe 14, enters transfer position via pin 76.When the power provided by pressure be enough to overcome the friction between sealing member 82 and bucket 72, the steam pressure of the rising between stopper 74 and sealing member 82 additionally causes plug 60 and sealing member 82 to be axially moved rearwards by bucket 72.Axially it is moved rearwards by plug 60 cause bar 30 to be axially moved rearwards by and apply power the most backward to propellant housing 32 and lips 26a of obstructive component 26.The curved edge of tapered front surface due to contact lips 26a and lips 26a of reservoir housing 32, the power be applieding to lips 26a the most backward promotes obstructive component 26 radially outward, in order to allow propellant source 28 relative to button 22 (the axially rearward movement of (with housing 16).Therefore, plug 60 and propellant source 28 are axially moved rearwards by housing 16.Obstructive component 26 can move radially outward, because they have been moved into the axial location (when button 22 is pressed) that wherein obstructive component 26 is no longer radially retrained by block 50.Obstructive component 26 can bend radially outward to window 51 or allow in any suitable recess of radial motion of obstructive component 26.The boss 22b of button 22 limits the scope of the axially backward moving of plug 60 so that plug 60 can not be moved from syringe bucket 72.
When plug is axially moved rearwards by, hook 68 moves to wherein it is no longer axially aligned with and is therefore no longer prevented from the position outwards radially bent of supporting leg 44 with seizure thing 46.Meanwhile, alar part 70 works against conical section 48 and promotes supporting leg 44 radially outward, causes head 45 to depart from from front shell 20.Once head 45 no longer engages with front shell 20, and the most only user prevents retraction spring 80 from causing inner shell 38 (with aft case 18) to be axially moved rearwards by relative to front shell 20 in the upper power the most forward applied of aft case 18 (inner shell 38 is connected to it).When user really release apply to the power the most forward of aft case 18 time (such as, in the end of medicine conveying, or may by way of part), inner shell 38 and aft case 18 are axially moved rearwards by relative to front shell 20.In doing so, propellant source 28, plug 60 and syringe 14 are also caused axially to be moved rearwards by relative to front shell 20.Therefore, the pin 76 exposed before syringe 14 is axially introduced in front shell 20, to the structure (in Fig. 7 A and as shown in Fig. 7 B) of non-exposed.When the head 45 being in the position bent radially outward (specifically, embodiment shown in the figure is part 45b radially outward of head) the first retainer 21 of adjacent front shell 20 time (as shown in Figure 7A), inner shell 38 (with aft case 18 therefore, propellant source 28, plug 60 and syringe 14) is prevented from relative to the traveling axially backward of front shell 20.
Fig. 7 B shows in same configuration but is rotated about longitudinal axes the device 10 of Fig. 7 A of 90 °.As shown in fig.7b, the rear portion blocking element 18a that aft case 18 is included on the inner surface of aft case 18 and anterior blocking element 18b.Rear portion blocking element 18a is tapered on rear surface so that rear portion blocking element 18a extends in axially forward direction the most radially inward.On the contrary, the front surface of rear portion blocking element 18a only upwardly extends in generally diametrically side.Anterior blocking element 18b each has rear surface, and this rear surface only upwardly extends in generally diametrically side and axially in the front portion of front surface of rear portion blocking element 18a and is axially spaced with the front surface of rear portion blocking element 18a.
Front shell 20 additionally includes the second retainer 23a being formed on radial compliance arm 23.
When aft case 18 is axially moved rearwards by relative to front shell 20, rear portion blocking element 18a axially rides on the second retainer 23a and causes radial compliance arm 23 to bend radially inward.Once the second retainer is axially in the front portion of rear portion blocking element 18a, then arm 23 unclamps and bends radially outward so that the second retainer 23a is axially constrained between anterior blocking element 18b and rear portion blocking element 18a.Therefore, aft case 18 is restrained but also the most restrained the most axially forward relative to front shell 20.When the axial constraint between anterior blocking element 18b and rear portion blocking element 18a of the second retainer 23a is served as preventing aft case 18 relative to primary " locking " mechanism of the axially-movable of front shell 20, head 45 serves as two grades of " locking " mechanisms against the adjacent of the first retainer 21.Both blocking mechanisms cause device to be fixed in " pin safety " structure, and wherein pin 76 is covered by front shell 20 and is prevented from removing from it.
The selectable embodiment of delivery device 10 ' and include the sub-component 12 ' of change shown in Fig. 8 A and Fig. 8 B, this sub-component 12 ' has the retractable needle guard 90 of the front end being connected to front shell 20.Needle guard 90 includes overlapping 92 and spring 94 (or selectable biasing member), in the position that this spring 94 makes set axially biased forwards to wherein pin 76 quilt cover 92 cover or major part quilt cover 92 covers.Overlapping 92 is the most axially movable relative to pin 76, in order to make pin 76 expose when compression spring 94.Fig. 8 A shows the needle housing 90 being in pin protective position, and Fig. 8 B shows the needle housing 90 being in pin exposure position.In use; needle housing 90 can move to pin exposure position (in this case from pin protective position by being promoted the most forward against transfer position by device 10 '; pin 76 will expose relative to needle guard 90, but will penetrate transfer position, therefore by holding to user Hide All).In embodiment shown in Fig. 8 A and Fig. 8 B, set 92 includes boss 92a, and this boss 92a adjoins the front end of front shell 20 relative to the front end of front shell 20 when being axially moved rearwards by.This adjoins restriction set 92, and relative to the axial backward moving of front shell 20 and it is thus determined that pin 76 exceedes the greatest axial length of set 92.Such degree arranging that restriction pin 76 can penetrate transfer position.Any suitable limiting member between set 92 and front shell 20 may be used to realize this effect.
In any embodiment, preferably, define the maximum exposure length of pin 76 (i.e., pin 76 exceedes the axially-extending portion of front shell 20, or other structure any in the anterior attachment of front shell 20, such as, the retractable needle guard 90 of its advanced position it is in) so that the desired depth carried corresponding to medicine.In certain cases, it may be desirable to, pin 76 penetrates transfer position with in 90 ° relative to the surface of transfer position so that the length of exposure of pin 76 is equal to the degree of depth of the medicine conveying in lower section, the surface (such as, the surface of skin) of transfer position.In other cases, it may be desirable to, pin 76 penetrates transfer position with the angle in addition to 90 ° relative to transfer position.In this case, the length of exposure of pin 76 should be longer in case when fully-inserted its at utmost time realize transfer position lower face medicine conveying desired depth.Device 10,10 ' can be included in the interface of front end, and this interface provides the visual cues about the expection angle carried for user.Such as, the front surface of front shell 20 can be with relative to longitudinal axis inclination at 45 °, it is thus determined that the maximum delivery degree of depth and provide visual cues to be inserted in transfer position with at 45 ° relative to the surface of transfer position by pin 76 for user.Selectively, sub-component can include series of points, each of which is the point of the axially forefront of the sub-component at given radius, and the most this series of point is located relative in the plane of longitudinal axis inclination of sub-component, and wherein the angle of the inclination of this plane determines the minimum angle that pin can be inserted in transfer position with it.
Run through the described and claimed of this specification, word " includes (comprise) " and " comprising (contain) " and its variant, refer to " including but not limited to ", and they are not intended to (and not having) and get rid of other parts, additive, parts, entirety or step.Running through the described and claimed of this specification, odd number contains plural number, unless the context otherwise requires.Especially, in the case of using indefinite article, this specification is interpreted as considering plural number and odd number, unless the context otherwise requires.
The feature, integer, characteristic, compound, chemical part or the chemical group that describe in conjunction with certain aspects of the present disclosure, embodiment or example should be understood to be applicable to any other side described herein, embodiment or example example, unless incompatible with it.The institute of all features disclosed in this specification (including any subsidiary claim, summary and accompanying drawing) and/or the disclosedest any method or technique can combine with any combination in steps, in addition at least some of in wherein this category feature and/or step is the most exclusive combination.The invention is not restricted to the details of any aforesaid embodiment.The present invention extends to feature or the combination of any novelty of any novelty in the feature disclosed in this specification (including any subsidiary claim, summary and accompanying drawing), or extends to step or the combination of any novelty of any novelty in the step of the disclosedest any method or technique.
The attention of reader is directed simultaneously or submitted to before this specification with this specification relevant with the application and opening to the public for all of paper and the document consulting this specification, and the content of all of this kind of paper and document is incorporated herein by.
1., for a sub-component for delivery device, described sub-component includes:
Wherein said button includes the obstructive component of one or more radial compliance, and described button is moveable between the first axial location and the second axial location, at described first axial location, one or more radial compliance obstructive component are radially constrained in the position radially inward of the backward axial movement limiting described propellant source by described housing, at described second axial location, one or more radial compliance obstructive component can bend to position radially outward and allow described propellant source relative to described button and the backward axial movement of described housing.
Sub-component the most according to claim 1, wherein, one or more radial compliance obstructive component are moveable by acting on the power axially rearward on one or more radial compliance obstructive component from described position radially inward to described position radially outward when being in described second axial location.
Sub-component the most according to claim 2, wherein, one or more radial compliance obstructive component have tapered front surface so that one or more radial compliance obstructive component are moveable by acting on the power axially rearward in described tapered front surface from described position radially inward to described position radially outward when being in described second axial location.
4. according to the sub-component described in any one in aforementioned claim, wherein, described housing includes aft case and front shell, and described propellant source causes, relative to the axially rearward movement of described housing, the biasing member unblock that bounces back, and the retraction biasing member wherein unlocked promotes described aft case the most backward relative to described front shell.
Sub-component the most according to claim 4, wherein, when latch head moves from position radially inward to position radially outward, described retraction biasing member is unlocked.
Sub-component the most according to claim 5, wherein, described propellant source allows the axially rearward movement of plug relative to the described axially rearward movement of described housing, the axially rearward movement of wherein said plug by described latch head from described position radially inward be pushed to described in position radially outward.
Sub-component the most according to claim 6, wherein, described latch header arrangement is on radial compliance supporting leg, and wherein said plug includes hook, described hook is pieceable with described radial compliance supporting leg, to prevent described supporting leg from bending radially outward, when described plug is axially moved rearwards by relative to described supporting leg, described hook can depart from supporting leg.
8. according to the sub-component described in any one in claim 5 to 7, wherein, described latch head is formed on inner shell and described latch head is axially directed at the first retainer of described front shell when position radially outward described in being in, and adjacent between wherein said latch head and the first retainer prevents the described inner shell axially rearward movement relative to described front shell.
9. according to the sub-component described in any one in claim 4 to 8, wherein, in described front shell and described aft case one include in the second retainer and described front shell and described aft case another include blocking element, wherein the joint between described second retainer and described blocking element prevents described aft case relative to the forward axial motion of described front shell and backward axial movement, and wherein when the axial distance that described aft case is predetermined relative to described front shell axially rearward displacement, described second retainer is engageable in described blocking element.
10. according to the sub-component described in any one in aforementioned claim, one or more latch being additionally included in described button or described housing, wherein when described button is in described second axial location, one or more latch engage another in described button or described housing, and the joint of one or more latch wherein said prevents the described button axially rearward movement relative to described housing.
11. according to the sub-component described in any one in aforementioned claim, also include needle guard, wherein said needle guard in axially forwardly position and is axially movable between position relative to described housing axially rearward, wherein in described position axially rearward, described needle guard determines from its pin extended relative to the greatest axial length of described needle guard.
12. sub-components according to claim 11, also include that biasing member, described biasing member make described needle guard offset towards described axially forwardly position relative to described housing.
13. according to the sub-component described in any one in aforementioned claim, wherein, the front surface of described sub-component tilts relative to the longitudinal axis of described sub-component, and the angle of inclination of wherein said front surface determines that described sub-component can be kept to realize the angle of the maximum penetration of pin extended from described sub-component against transfer position.
14. according to the sub-component described in any one in claim 1 to 12, wherein, described sub-component includes series of points, described series of points is individually the point of the axially forefront of the described sub-component at given radius, and wherein said series of points is located relative in the plane of longitudinal axis inclination of described sub-component, and the angle of inclination of wherein said plane determines the minimum angles that the pin of the syringe being arranged in described sub-component is inserted in transfer position.
15. according to the sub-component described in any one in aforementioned claim, wherein, described propellant source includes reservoir housing and bar, described reservoir housing defines the reservoir for accommodating propellant, described bar has the hole passed through and at least one entrance of described hole fluid communication and the open port of export being in fluid communication with described hole, and described bar not and is moveable between the second position of the primary importance of described reservoir fluid communication and at least one entrance wherein said and described hole fluid communication relative to described reservoir housing at least one entrance described wherein.
16. sub-components according to claim 15, wherein, described propellant source also includes the biasing member for making described bar offset towards described primary importance.
17. according to the sub-component described in claim 15 or 16, and wherein, described reservoir accommodates gas propellant.
18. according to the sub-component described in any one in claim 15-17, and wherein, described reservoir accommodates propellant, and described propellant is hydrofluoroalkane (HFA) or comprises hydrofluoroalkane (HFA).
19. sub-components according to claim 18, wherein, described propellant is HFA134a or comprises HFA134a.
20. 1 kinds of delivery devices, including according to the sub-component described in any one in aforementioned claim and the syringe being connected to described sub-component, wherein said syringe includes the bucket for accommodating medicine, described bucket have the outlet at front end and in described bucket axially movable stopper.
21. delivery devices according to claim 20, wherein, described syringe also includes and the pin of described communication.
22. according to the delivery device described in claim 20 or 21, including sub-component according to claim 4 or be subordinated to claim 4 any claim described in sub-component, wherein said syringe is axially retrained relative to described aft case so that described aft case causes the axially-movable relative to described front shell of the described syringe relative to the axially-movable of described front shell.
23. 1 kinds of sub-components for delivery device, it is generally as being above described with reference to the accompanying.
24. 1 kinds of delivery devices, it is generally as being above described with reference to the accompanying.
CN201480069929.8A 2013-11-01 2014-11-03 Medicine delivery device sub-component CN105828858B (en)
GB1319377.6 2013-11-01
GB1319377.6A GB2519971B (en) 2013-11-01 2013-11-01 Medicament delivery device sub-assembly
PCT/GB2014/053253 WO2015063509A1 (en) 2013-11-01 2014-11-03 Medicament delivery device sub-assembly
CN105828858A true CN105828858A (en) 2016-08-03
CN105828858B CN105828858B (en) 2019-07-09
ID=49767566
CN201480069929.8A CN105828858B (en) 2013-11-01 2014-11-03 Medicine delivery device sub-component
US (1) US10500335B2 (en)
EP (1) EP3062845B1 (en)
JP (1) JP2016538985A (en)
CN (1) CN105828858B (en)
AU (1) AU2014343450B2 (en)
CA (1) CA2929038A1 (en)
GB (1) GB2519971B (en)
WO (1) WO2015063509A1 (en)
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2013-11-01 GB GB1319377.6A patent/GB2519971B/en active Active
2014-11-03 US US15/033,133 patent/US10500335B2/en active Active
2014-11-03 AU AU2014343450A patent/AU2014343450B2/en active Active
2014-11-03 CN CN201480069929.8A patent/CN105828858B/en active IP Right Grant
2014-11-03 WO PCT/GB2014/053253 patent/WO2015063509A1/en active Application Filing
2014-11-03 JP JP2016551073A patent/JP2016538985A/en active Pending
2014-11-03 EP EP14793272.7A patent/EP3062845B1/en active Active
2014-11-03 CA CA2929038A patent/CA2929038A1/en active Pending
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