阅读说明：本技术 自动注射器装置 (Automatic injector assembly ) 是由 L·詹巴蒂斯塔 于 2018-01-20 设计创作，主要内容包括：一种用于皮下输送药物的自动注射器,包括可释放地连接到第二子组件的第一子组件。第一子组件包括：药筒保持器,其配置为容纳药筒；注射针,药物可通过其从药筒通过；以及针护罩,其可以在包围针的延伸位置和缩回位置之间移动,其中在缩回位置针的近端未被针护罩包围。第二子组件包括位于壳体内的可移动活塞杆。在施加药物之后,针护罩沿近端方向从缩回位置到延伸位置的运动自动地从第二子组件释放第一子组件。采用针护罩将释放的第一子组件锁定在延伸位置。插入包含未使用剂量药物的新的第一子组件并且可释放地将其连接至第二子组件。(A kind of automatic injector for subcutaneous delivery drug, the first sub-component including being releasably connected to second sub-component.First sub-component includes: cartridge-holder, is configured to accommodate cylindrantherae；Injection needle, drug can be passed through by it from cylindrantherae；And needle shield, it can be moved between the extended position and retracted position for surrounding needle, wherein not surrounded by needle shield in the proximal end of retracted position needle.Second sub-component includes being located at the intracorporal moveable piston bar of shell.After applying drug, proximally the movement from retracted position to extended position automatically discharges first sub-component from second sub-component to needle shield.The first sub-component of release is locked in by extended position using needle shield.Insertion is comprising being not used the new first sub-component of dose drug and being releasedly connected to second sub-component.)

1. a kind of automatic injector for subcutaneous delivery drug, comprising:

It is releasably connected to the first sub-component of second sub-component,

Wherein first sub-component includes

Cartridge-holder is configured to accommodate cylindrantherae；

Hollow injection needle, with longitudinal chamber, drug can pass through cylindrantherae by longitudinal chamber；And

Needle shield can be moved relative to cartridge-holder between the extended position and retracted position for surrounding needle, wherein At retracted position, the proximal end of at least needle is not surrounded by needle shield；And

Wherein second sub-component includes

Shell, and

Positioned at the intracorporal moveable piston bar of shell,

Wherein needle shield will make first sub-component from the second son automatically in movement of the proximal direction from retracted position to extended position Component release.

2. automatic injector according to claim 1, wherein first sub-component further comprises:

For keeping the needle holder of needle, wherein needle holder can move between the first position and the second position, wherein At first position, needle cavity is not with the internal fluid communication of cylindrantherae, and in the second place, the internal flow of needle cavity and cylindrantherae connects It is logical；And

Lid is releasably connected to first sub-component, so that during removing lid from first sub-component, needle is from first Position is moved to the second position to make the distal end of needle pierce through the diaphragm of cylindrantherae.

3. automatic injector according to claim 2, wherein the lid includes cam follower, for engaging the needle Cam on retainer makes the rotation of the lid at least one direction cause needle holder and needle towards described second The distal end of position is mobile.

4. automatic injector according to claim 2, wherein the lid includes spring, so that the lid is at least one Rotation release spring on a direction, wherein the spring engages and cause needle holder and needle to move towards the distal end of the second position It is dynamic.

5. automatic injector according to claim 1, wherein the first sub-component further comprises:

Shell, at least partially around cartridge-holder and needle shield；And

Lid is releasably connected to first sub-component, wherein lid releasedly lock enclosure and needle shield so that when When in place in first sub-component, the lid prevents the needle shield and the shell to be moved relative to each other, and when described When lid is removed from the first sub-component, the needle shield can be mobile relative to the shell.

6. automatic injector according to claim 1, wherein distal end of the needle shield from extended position to retracted position Movement causes to promote drug by needle.

7. automatic injector according to claim 6, wherein the second sub-component further comprises:

Piston release latch is located at for piston rod to be releasably held in latched position in shell,

Wherein the cartridge-holder can move between first position and the second position of the close first position, so that In the first bit positions, prevent cartridge-holder mobile in proximal direction, and

Wherein the distal end of needle shield to retracted position is mobile makes cartridge-holder discharge from first position and make latch release, from And allows piston rod mobile in proximal direction and cartridge-holder is forced to be moved to the second position from first position.

8. automatic injector according to claim 7, wherein first sub-component further comprises:

Shell, at least partially around the cartridge-holder and the needle shield,

Wherein when cartridge-holder is in first position, the shell is prevented with being releasably engaged for the cartridge-holder Cartridge-holder in the proximal direction moves.

9. automatic injector according to claim 8, wherein cartridge-holder includes at least one elastic lug, at least one A elastic lug is releasably engaged the shell to prevent when cartridge-holder is in first position, and cartridge-holder is close It is moved on extreme direction.

10. automatic injector according to claim 8, wherein the shell includes at least one elastic lug, at least one A elastic lug is releasably engaged cartridge-holder to prevent when cartridge-holder is in first position, and cartridge-holder exists It is moved on proximal direction.

11. automatic injector according to claim 6, wherein being discharged in piston rod and making cartridge-holder to proximally After being moved to the second position from first position, piston rod continues to be moved in the proximal direction to engage and move stopping in cylindrantherae Block piece.

12. automatic injector according to claim 1, wherein the first sub-component further comprises:

Shell, at least partially around the cartridge-holder and the needle shield,

Wherein the shell includes at least one outwardly projecting elastic lug, for engaging corresponding at least one on the shell A inwardly projecting holding lug, so that the first sub-component is releasably connected to the second sub-component.

13. automatic injector according to claim 12, wherein the second sub-component further comprises:

Removable ring, bias in proximal direction so that, when needle shield is to when being proximally moved to extended position from retracted position, At least one elastic lug on the engagement of loops shell is to make at least one elastic lug corresponding at least one from shell A holding lug is disengaged.

14. automatic injector according to claim 13, wherein the needle shield includes the opening being aligned with elastic lug, When needle shield is moved to extended position from retracted position to allow ring to bend to the elastic lug on shell in opening and make Elastic lug is disengaged from the corresponding holding lug on shell.

15. automatic injector according to claim 1, wherein the needle shield includes at least one spline, at least one It advances in the corresponding slot that spline is formed in the shell and is limited by it, so that when the needle shield is moved to extension from retracted position When position, the lug extended in slot on the spline engagement shell is to which needle shield to be locked at extended position.

16. automatic injector according to claim 1, wherein the first sub-component is a subassemblies.

17. automatic injector according to claim 1, wherein the second sub-component is nonexpondable sub-component.

18. a kind of automatic injector for subcutaneous delivery drug, comprising:

Shell；

Positioned at the intracorporal cylindrantherae of shell, cylindrantherae includes pierceable diaphragm；

Injection needle has and passes through and be located at the intracorporal longitudinal chamber of shell, and the needle can be in first position and second Moved between setting, wherein at first position, needle cavity not with the internal fluid communication of cylindrantherae, and in the second place, needle cavity With the internal fluid communication of cylindrantherae；And

Removable lid is releasably connected to the shell, so that needle is from first position when removing lid from shell The second position is moved to make the distal end of needle pierce through the diaphragm of cylindrantherae.

19. automatic injector according to claim 18, further comprises:

For keeping the moveable needle holder of needle；And

Wherein lid includes cam follower, and cam follower is used to engage the cam on needle holder, so that the lid exists Rotation at least one direction causes needle holder and needle mobile towards the distal end of the second position.

20. automatic injector according to claim 18, further comprises:

For keeping the removable needle holder of needle；And

Wherein the lid includes spring, so that the rotation release spring of the lid at least one direction, wherein described Spring engages and causes needle holder and needle mobile towards the distal end of the second position.

21. automatic injector according to claim 18, further comprises:

Removable needle shield, mobile from extended position, wherein at extended position, needle shield is arrived to proximally extending beyond needle Retracted position, wherein at least one end of needle is exposed in injection process；And

The needle shield is wherein retracted into retracted position to cause to promote drug by needle.

22. automatic injector according to claim 21, further comprises:

Cartridge-holder is located in shell and is configured to accommodate cylindrantherae；And

Shell, at least partially around cylinder retainer described in medicine and the needle shield；

Wherein the lid releasedly locks the shell and the needle shield makes, when the lid is in place on shell When, the lid prevents the needle shield and the shell to be moved relative to each other, and when removing lid, the needle shield It can be mobile relative to the shell.

23. automatic injector according to claim 21, further comprises:

Cartridge-holder, is located in shell and is configured to accommodate cylindrantherae, the cartridge-holder can in first position and It is moved between the second position of first position, wherein cartridge-holder is prevented from the proximal direction at first position It is mobile；

Moveable piston bar is located in shell and is biased to move in the proximal direction；

Piston release latch is located in shell so that piston rod is releasably held in latched position；

Hollow injection needle, with longitudinal chamber, drug can be passed through by longitudinal chamber from cylindrantherae；And

Wherein the distal end movement of the needle shield to retracted position can discharge cartridge-holder and release bar from first position Lock is to allow piston rod to move in the proximal direction and cartridge-holder is forced to be moved to the second position from first position.

24. automatic injector according to claim 23, further comprises:

Shell, at least partially around the cartridge-holder and the needle shield；And

Wherein the releasable engagement of the shell and the cartridge-holder, which is prevented, is in first position in cartridge-holder When cartridge-holder move in the proximal direction.

25. automatic injector according to claim 23, wherein discharging the piston rod and moving cartridge-holder It moves to after the second position, the piston rod continuation is moved in the proximal direction to engage and move the stop part in cylindrantherae.

26. automatic injector according to claim 23, further comprises:

First sub-component is releasably connected to second sub-component, and

Wherein the first sub-component includes needle, cartridge-holder, needle shield and shell, and the second sub-component includes shell Body, moveable piston bar and release latch.

27. automatic injector according to claim 26, wherein needle shield is from the retracted position to the extended position Mobile so that the first sub-component is discharged from the second sub-component.

28. automatic injector according to claim 26, wherein the first sub-component is a subassemblies.

29. automatic injector according to claim 26, wherein the second sub-component is nonexpondable sub-component.

30. a kind of automatic injector for subcutaneous delivery drug, comprising:

Shell；

Cartridge-holder is located in the shell and is configured to accommodate cylindrantherae, and the cartridge-holder can be at first It sets and is moved between the second position of the first position, wherein cartridge-holder is prevented from the first position It moves in the proximal direction；

Moveable piston bar is located in the shell and is biased to move in the proximal direction；

Piston release latch is located in the shell and piston rod is maintained at latched position with release；

Hollow injection needle, with longitudinal chamber, drug can pass through cylindrantherae by longitudinal chamber；With

Needle shield can move between the extended position and retracted position for surrounding needle relative to cartridge-holder, wherein At least one end of retracted position, needle is not surrounded by needle shield；

Wherein the distal end movement of needle shield can discharge the cartridge-holder from first position and discharge latch to allow to live Stopper rod moves in the proximal direction and the cartridge-holder is pushed to the second position from first position.

31. automatic injector according to claim 30, further comprises:

Shell, at least partially around the cartridge-holder and the needle shield；And

Wherein the releasable engagement of the shell and the cartridge-holder is prevented when cartridge-holder is in first position Cartridge-holder moves in the proximal direction.

32. automatic injector according to claim 31, further comprises:

At least one elastic lug on cartridge-holder, at least one elastic lug are releasably engaged the shell to prevent When cartridge-holder is in first position, cartridge-holder moves in the proximal direction.

33. automatic injector according to claim 31, further comprises:

At least one elastic lug on the shell, at least one elastic lug be releasably engaged the cartridge-holder with It prevents when the cartridge-holder is in first position, the cartridge-holder moves in the proximal direction.

34. automatic injector according to claim 30, wherein being released in the piston rod and protecting the cylindrantherae Holder is moved to after the second position, and the piston rod continuation is moved in the proximal direction to engage and move the backstop in cylindrantherae Part.

35. automatic injector according to claim 30, further comprises:

Removable cover is releasably connected to the shell so that during removing the lid from the shell, needle from Needle cavity is not moved to the second position of the internal fluid communication of needle cavity and cylindrantherae with the first position of the internal fluid communication of cylindrantherae.

36. automatic injector according to claim 35, further comprises:

For keeping the moveable needle holder of needle, and

Wherein the lid includes cam follower, and cam follower is used to engage the cam on the needle holder, so that institute Stating the rotation of lid at least one direction causes the needle holder and needle mobile towards the distal end of the second position.

37. automatic injector according to claim 35, further comprises:

For keeping the removable needle holder of the needle；And

Wherein the lid includes spring, so that the rotation of the lid at least one direction discharges the spring, wherein The spring engages and the needle holder is caused to carry out distal end movement from first position towards the second position.

38. automatic injector according to claim 30, further comprises:

Shell, at least partially around the cartridge-holder and the needle shield；And

Removable cover, is releasably connected to shell, the lid releasedly lock enclosure and needle shield, so that when connecting When being connected to shell, the lid prevents needle shield and shell to be moved relative to each other, and when removed, and the lid allows institute State the relative movement between shell and the needle shield.

39. automatic injector according to claim 30, further comprises:

First sub-component is releasably connected to the second sub-component, and

Wherein the first sub-component includes needle, cartridge-holder, needle shield and shell, and the second sub-component includes shell Body, moveable piston bar and release latch.

40. automatic injector according to claim 39, wherein shifting of the needle shield from retracted position to extended position It is dynamic so that the first sub-component is discharged from the second sub-component.

41. automatic injector according to claim 40, wherein the first sub-component is a subassemblies.

42. automatic injector according to claim 40, wherein the second sub-component is nonexpondable sub-component.

43. automatic injector according to claim 40, wherein the shell includes at least one outwardly projecting elasticity Lug, for engaging at least one corresponding inwardly projecting holding lug on shell, so that the first sub-component can be released It is connected to the second sub-component with putting.

44. automatic injector according to claim 43, wherein the second sub-component further comprises:

Ring is biased in proximal direction, so that when the needle shield is moved to extended position from retracted position, the engagement of loops At least one elastic lug on the shell is to make at least one elastic lug keep lug from least one on shell It is disengaged.

45. automatic injector according to claim 44, wherein the needle shield includes the opening being aligned with elastic lug, When the needle shield is moved to extended position from retracted position to allow ring to bend to the elastic lug on shell in opening simultaneously And it is disengaged elastic lug from the corresponding holding lug on shell.

46. automatic injector according to claim 30, wherein the needle shield includes spline, spline is formed in the shell Slot in advance and limited by it so that when the needle shield is moved to extended position from retracted position, the spline engagement The lug extended in slot on shell is to which the needle shield to be locked at the extended position.

47. a kind of sub-component for automatic injector, comprising:

Cartridge-holder is configured to accommodate cylindrantherae；

Hollow injection needle, has the longitudinal chamber passed through, and drug can pass through cylindrantherae by longitudinal chamber；

Needle shield, can be between the retracted position that at least one end of the extended position and needle that surround needle is not surrounded by needle shield It is mobile relative to cartridge-holder；

Shell, at least partially around the cartridge-holder and the needle shield；And

Removable cover releasedly locks the shell and the needle shield, so that when in place, the lid prevents institute It states needle shield and the shell is moved relative to each other, and when removed, allow between the shell and the needle shield Relative movement；

Wherein the shell is configured to be releasably attached the second sub-component to form automatic injector.

48. the sub-component of automatic injector according to claim 47, further comprises:

For keeping the needle holder of needle, wherein needle holder can move between the first position and the second position, wherein At the first position, needle cavity not with the internal fluid communication of cylindrantherae, and in the second place, needle cavity and cylindrantherae Internal fluid communication.

49. the sub-component of automatic injector according to claim 48, wherein the removal of the lid keeps the needle Device is moved to the second position from first position, so that the internal fluid communication of needle cavity and cylindrantherae.

50. automatic injector sub-component according to claim 49, wherein the lid includes cam follower, cam from Moving part is used to engage the cam on the needle holder, so that the rotation of the lid at least one direction causes the needle The distal end of retainer and the needle towards the second position is mobile.

51. the sub-component of automatic injector according to claim 49, wherein the lid includes spring, so that the lid The rotation release spring of son at least one direction, wherein the spring engages and causes the needle holder and needle towards institute The distal end for stating the second position is mobile.

52. the sub-component of automatic injector according to claim 47, wherein the cartridge-holder can be at first It sets and is moved between the second position of the first position, wherein at the first position, the cartridge-holder quilt Prevention is moved in the proximal direction.

53. the sub-component of automatic injector according to claim 52, wherein being fixed to the cartridge-holder or described The releasable locking component of one of shell engages another of the cartridge-holder or the shell, to prevent from working as Relative movement when engaging the locking component, between the cartridge-holder and the shell at least one direction.

54. the sub-component of automatic injector according to claim 53, wherein the needle shield is from extended position to retraction The movement of position is disengaged releasable locking component, to allow the cartridge-holder in the proximal direction from described First position is moved to the second position.

55. automatic injection sub-component according to claim 47, wherein the sub-component is a subassemblies.

Technical field

The present disclosure relates generally to medicine delivery devices, and are more particularly to the automatic injection for managing injection drug Device.

Background technique

At present medicine delivery device with fastest developing speed first is that automatic injector, is commonly used for the spy of application single dose Determine drug.In general, the purpose of automatic injector is that patient or unbred user oneself is made to use the drug of predetermined close. This may be even more important in condition of threat to life, such as with the allergic symptom as caused by severe allergic reaction Patient or user.May be susceptible to the patient of unexpected allergy usually by prescribe with predetermined close adrenaline (such as) or other drugs automatic injector, for being injected into patient or use immediately in the case where unexpected allergy Person.Similarly, automatic injector must be safe and reliable and easy to use.

Currently, many automatic injectors include the cylindrantherae for being preinstalled with certain drug.This device is usually spring or machinery Load, to pass through when being activated during needle is inserted by the skin of automatic injector needle shield pressing patient or user Needle applies the prefilled drug of predetermined close automatically.In other automatic injectors, button is provided on automatic injector assembly, By being injected by lower button from dynamic activation.

However, there is an urgent need to minimize the cost of automatic injector, while ensuring equipment safety, reliable and be easy to self and apply With.Although some manufacturers have attempted to reduce cost by using reusable automatic injector assembly, this The reusable device of kind is not always better than disposable automatic injector assembly.This is because some patients' possibly can not incite somebody to action Replacement cylindrantherae reloads in reusable automatic injector assembly, and if misoperation, the aseptic of drug The device that may be damaged and/or reload is possibly can not be by design operation.

Summary of the invention

It in one aspect of the present disclosure, include being releasably connected to second for the automatic injector of subcutaneous delivery drug The first sub-component of sub-component.First sub-component includes: cartridge-holder, is configured to accommodate cylindrantherae；Hollow injection needle, tool There is longitudinal chamber, drug can be passed through by the longitudinal chamber from cylindrantherae；And needle shield, it can surrounded relative to cartridge-holder It is moved between the extended position and retracted position of needle, wherein at least one proximal end in retracted position needle is not surrounded by needle shield. Second sub-component include shell and be located at the intracorporal moveable piston of shell (plunger) bar.After applying adjusting, needle shield edge Movement of the proximal direction from retracted position to extended position automatically will discharge first sub-component from second sub-component.

The first sub-component of release is locked in by extended position using needle shield.Insertion is comprising being not used the new of dose drug First sub-component and be releasably connected to second sub-component.

In another aspect of the present disclosure, the automatic injector for subcutaneous delivery drug include shell and be located at shell it is intracorporal Cylindrantherae, the cylindrantherae include pierceable diaphragm.Wherein the injection needle with longitudinal chamber also is located in shell, and needle can be at first Set and moved between the second position, wherein in first position, needle cavity not with the internal fluid communication of cylindrantherae, and second In position, the internal fluid communication of needle cavity and cylindrantherae.Removable lid is releasably attached to shell, so that moving from shell Except during lid, syringe needle is moved to the second position from first position, to make the distal end of syringe needle pierce through the diaphragm of cylindrantherae.

In another aspect of the present disclosure, a kind of automatic injector for subcutaneous delivery drug, including shell and be located at shell It in vivo and is configured to accommodate the cartridge-holder of cylindrantherae, cartridge-holder can be in first position and close to the second of first position It is moved between setting, wherein at first position, prevent cartridge-holder from proximally moving.Moveable piston rod is also fixed Position is in shell and is biased proximally to move.Releasedly piston rod is protected positioned at the intracorporal piston release latch of shell It holds in latched position.Hollow injection needle with longitudinal chamber, wherein drug can pass through longitudinal chamber and pass through from cylindrantherae.Needle shield can It is moved between the extended position and retracted position for surrounding needle relative to cartridge-holder, wherein needle is at least in retracted position One end is not surrounded by needle shield.The distal side movement of needle shield can either be such that cartridge-holder discharges from first position can discharge again Latch is to allow piston rod proximally to move and cartridge-holder is pushed to the second position from first position.

In another aspect of the disclosure, the sub-component for automatic injector includes the cylindrantherae guarantor for being configured to accommodate cylindrantherae Holder, and wherein there is the hollow injection needle of longitudinal chamber, drug can be passed through by longitudinal chamber from cylindrantherae.Needle shield can be opposite It is moved between the extended position and retracted position for surrounding needle in cartridge-holder, wherein in retracted position, at least one end of needle It is not surrounded by needle shield.Shell is at least partially around cartridge-holder and needle shield.Removable lid releasedly locks Shell and needle shield, so that when in place, lid prevents needle shield and shell to be moved relative to each other, and when shifting Except when, allow the relative motion between shell and needle shield.Shell structure is at second sub-component is releasably connected to, thus shape At automatic injector.

Detailed description of the invention

Fig. 1 is the top view according to the automatic injector assembly of the one side of the disclosure；

Fig. 2 is the cross section of automatic injector assembly in Fig. 1；

Fig. 3 is the cross section of the preceding sub-component of automatic injector assembly in Fig. 1；

Fig. 4 is the needle assemblies of automatic injector assembly and the perspective view of proximal part in Fig. 1；

Fig. 4 A is the side view of the needle holder of needle assemblies shown in Fig. 4；

Fig. 5 is the cross section for being assembled in needle cover in Fig. 1 on the proximal part of the front assembly of automatic injector assembly；

Fig. 6 is the amplification cross section of needle cover in the proximal part figure 5 above for be assembled in cartridge-holder；

Fig. 6 A is the side view of the needle cover sealing of automatic injector assembly in Fig. 1；

Fig. 6 B is the side perspective view of the cartridge-holder of automatic injector assembly in Fig. 1；

Fig. 7 is the cross section for being assembled in needle cover in Fig. 1 on the proximal part of the preceding sub-component of automatic injector assembly；

Fig. 8 is the cross section of the cartridge-holder of preceding sub-component in Fig. 7, a part of needle shield and shell；

Fig. 9 is the cross section of the cartridge-holder of preceding sub-component, needle shield and shell in Fig. 7；

Figure 10 is the amplification cross section of the distal portions of the cartridge-holder of preceding sub-component, needle shield and shell in Fig. 9；

Figure 10 A is the side view of the shell of the preceding sub-component of automatic injector assembly in Fig. 1；

Figure 10 B is the perspective view of the distal end of preceding sub-component shell in Figure 10 A；

Figure 10 C is the side view of the needle shield of automatic injector assembly in Fig. 1；

Figure 11 A is the cross of half-disposable (semi-disposable) automatic injector assembly of the assembling of no needle cover Section；

Figure 11 B is the cross section of the complete disposable automatic injector assembly of the assembling of no needle cover；

Figure 11 C is the amplification cross section that latch and trigger lock (trigger lock) are discharged in Figure 11 A；

Figure 11 D is the amplification cross section that latch and trigger lock are discharged in Figure 11 B；

Figure 11 E is the explosive view of the reusable main body of half-disposable automatic injector assembly；

Figure 11 F is the completely disposable front body of automatic injector assembly and the explosive view of rear body lid；

Figure 11 G is the side perspective view of the piston of automatic injector assembly in Fig. 1；

Figure 11 H is the side perspective view of the needle shield ring spring of automatic injector assembly in Fig. 1；

Figure 11 J is the side perspective view of the trigger lock of automatic injector assembly in Fig. 1；

Figure 12 A be needle cover with needle assemblies of automatic injector assembly in Fig. 1, needle holder and cartridge-holder can The cross section of alternate embodiment；

Figure 12 B is the perspective sectional view of alternative needle cover, needle assemblies, needle holder and cartridge-holder in Figure 12 A；

Figure 12 C is alternative needle cover in Figure 12 A with needle assemblies in the cross section of its initial position；

Figure 12 D is that alternative needle cover is in the cross section of its final position in Figure 12 A with needle assemblies, wherein final The sealing element (seal) and diaphragm of needle-penetration cartridge assembly at position；

Figure 12 E is the cross section that needle assemblies are locked in its final position on cartridge-holder；

Figure 12 F is the explosive view of Figure 12 E, and wherein needle assemblies are locked on cartridge-holder；

Figure 12 G is the cross section of the 3rd embodiment of needle cover；

Figure 13 is cross section of the automatic injector assembly during needle-penetration in Figure 11；

Figure 14 be needle-penetration during automatic injector assembly preceding sub-component proximal part cross section；

Figure 15 is cross section of automatic injector assembly at the end of drug conveys in Figure 11；

Figure 16 be after drug conveying by device after injection position removal, automatically injected in Figure 11 at the needle cover lock The cross section of the proximal part of device device；

Figure 17 shows the needle shields of Figure 16 and disposable shell；

Figure 18 is the cross section of disposable body assembly, and wherein needle shield is locked in fully extended after drug conveying At position；

Figure 19 is in the proximal part that needle shield is locked in automatic injector assembly in Figure 11 after fully extended position Cross section；

Figure 20 is the cross section of the proximal part of half-disposable automatic injector, wherein disposable body assembly initially from Reusable component release,；

Figure 21 is the cross section of the proximal part of semi-disposable automatic injector assembly in Figure 20, wherein disposable main body group When part is discharged from reusable component completely,；

Figure 22 is the perspective view for including the proximal part of automatic injector assembly in Fig. 1 of lid gasket；

Figure 23 is the perspective view of lid gasket；

Figure 24 is the front perspective view for the reusable main body front cover being mounted in reusable main body；

Figure 25 is the perspective view of needle cover and reusable main body front cover；And

Figure 26 is the perspective view of reusable main body front cover.

Specific embodiment

With reference to attached drawing, various embodiments of the present invention are described more fully below.The reality for showing, but being not all of Apply example.Various embodiments can be embodied in many different forms, and should not be construed as being limited to the implementation being expressly recited Example.Identical number refers to identical element always.Unless the context clearly determines otherwise, otherwise singular " one (a) ", " one (an) " and "the" include odd number and plural number.

Fig. 1 and 2 shows the exemplary embodiment of semi-disposable or completely disposable automatic injector assembly 100, energy It reaches safe and reliable and the drug M of predetermined close is simply transported to patient.Automatic injector assembly 100 includes being located at automatically (it is repeated in semi-disposable embodiment makes removable needle cover 110, the rear sub-component 120 of the proximal end P of injection device With) and preceding sub-component 130 (as shown in Figure 2) (it is disposable in semi-disposable embodiment).Sub-component 120 wraps afterwards Hollow housing 125 is included, can be whole part or multiple subassemblies.In the embodiment shown in Fig. 1 and 2, shell 125 includes It is connected to the front body part 125a of rear body cover 125b.Preferably, removable needle cover 110, rear sub-component 120, preceding son Component 130, front body part 125a and rear body cover 125b are made of synthetic material, for example, recyclable resin or any other It is easy to the suitable material molded.

As used herein, term " proximal end " and " distal end " are for referring to that automatic injector assembly 100 is being injected Position of the period relative to the user of device.Therefore, the proximal end P of automatic injector assembly 100 is referred to during injection most Close to the end of the device of the skin of user.Similarly, the distal end D of automatic injector assembly 100 is referred to during use The end of the device farthest apart from injection position.In addition, the point for another point proximal end being located on automatic injector assembly 100 will more The proximal end P of approaching device, and the point for another point distal end being located on device will be closer to the distal end D of device.

Fig. 3 is the cross section of one embodiment of needle cover 110 and preceding sub-component 130.Needle cover 110 is removedly installed On the proximal end P of disposable body assembly 130, and including needle cover sealing element 305, for keeping needle assemblies before the use 310 aseptic.Needle cover sealing element 305 can be formed by elastic material or any other suitable material, with preceding by needle in use The proximal part of needle assemblies 310 is sealed when before lid 110 being mounted on sub-component 130.

Preferably, preceding sub-component 130 include preceding sub-component shell 300, needle assemblies 310, needle shield 320, cartridge-holder 330, sealing element 332 and annular seal 334.Preferably, sealing element 332 and annular seal 334 by elastic material or any other Material appropriate is formed, for keeping the aseptic of needle assemblies 310 before the use.It will be appreciated that sealing element 332,334 can be with Be individual component or be formed as global facility, for example, its can in a conventional manner on cartridge-holder 330 it is secondary at Type.Needle assemblies 310 include hollow injection needle 312, and hollow injection needle 312 extends through needle holder 314 and is maintained by it.It is preferred that Ground, preceding sub-component shell 300, needle shield 320 and cartridge-holder 330 are made of synthetic material, for example, recyclable resin or Any other suitable material that can easily mould.

As discussed further below, when unlocked, needle shield 320 is longitudinal (in arrow in preceding sub-component shell 300 Head A-A direction) moved between extended position and retracted position, wherein entirely or substantially being wrapped in extended position shield 320 Needle 312 is enclosed, and the proximal end of needle 312 is exposed during retracted position, injection.

Cartridge-holder 330 be configured to keep cartridge assembly 340, wherein cartridge assembly 340 be pre-filled with predetermined close or The drug M of solvent.Cartridge assembly 340 includes generic cylindrical, hollow cartridge body 342, cartridge body 342 by glass or Any other suitable material is formed.Preferably, the proximal end of cartridge body 342 elastic diaphragm 344 and lid 346 seal, and And the distal end of cartridge body 342 elastic bolster guide part or piston 348 seal, elastic bolster guide part or piston 348 are in cartridge body 342 Inside longitudinally move, with automatic injector assembly 100 activate when, from the drug M of cartridge body discharging doses.

With reference to Fig. 4 and 4A, needle holder 314 is slidably mounted in the opening on the proximal end of cartridge-holder 330.Needle is protected Holder 314 preferably includes at least one (and more preferably two) axial groove 410, for accommodating from cartridge-holder 330 The inwardly projecting correspondence spline 420 in proximal end, to prevent the rotation of needle holder component 310, while allowing needle holder group Part longitudinally moves in preceding sub-component 130 relative to cartridge-holder 330.In this way, when needle cover 110 is removing lid When rotating during son, needle holder 314 cannot be rotated or otherwise be moved radially.

In one embodiment shown in Figure 4 and 5, cam rail or the slot 430 radially extended are formed in cartridge-holder On the outer surface of 330 proximal end near.As shown in figure 5, needle cover 110 preferably include it is hollow, generic cylindrical remote End part 306, the cam when distal portions 306 are mounted on preceding sub-component 130, on the proximal end of cartridge-holder 330 Extend on track 430.The generic cylindrical distal portions 306 of one or more cam followers 307 from needle cover 110 are inside It is prominent, in the corresponding cam rail 430 being bonded on cartridge-holder 330.

In use, one or more cam followers 307 are constrained in the cam rail 430 on cartridge-holder 330 And it prevents from removing needle cover 110, until lid rotates to corresponding releasing section 620 of the cam follower with cam rail 430 The position of (Fig. 6 B) alignment, this will enable lid 110 to be pulled out from cartridge-holder 330 (direction of the arrow B in Fig. 5) And it is removed from automatic injector assembly 100.

As shown in Figures 3 and 5, when needle cover 110 is mounted on not used automatic injector assembly 100, needle assemblies 310 are logical Needle cover sealing element 305 in removable cover 110, the sealing element 332 on cartridge-holder 330 and annular seal 334 are crossed certainly Keep sterile in dynamic injection device, wherein annular seal 334 is positioned around the proximal end outer surface of cartridge-holder 330.At this In embodiment, the distal portions 306 of needle cover 110 preferably form the interference fit around annular seal 334, to be formed close Sealing.

If Fig. 4,4A, 5,6,6A and 6B are best seen from the distal portions of needle cover sealing element 305 are configured in this embodiment Cam ramp 610, in conjunction with needle holder 314 proximal end on the corresponding cam followers of one or more 440 (Fig. 4 and 4A).It is convex when user starts to remove lid from preceding sub-component 130 relative to 330 rotary needle lid 110 of cartridge-holder One or more cam followers 440 on the engagement of ramp 610 needle holder 314 are taken turns, so that needle assemblies 310 are distally (arrow C in Fig. 5) is longitudinally moved in preceding sub-component 130, until injection needle 312 pierces through the sealing element 332 of cartridge assembly 340 With diaphragm 344.When being in its final position, at least one extended from the distal portions of needle holder 314 is (and preferably Two) elastic hook component 414 engage cartridge-holder 330 in accordingly opening or groove 630, needle holder is locked to Cartridge-holder 330.Corresponding spline 420 is limited in cylindrantherae and protected by the axial groove 410 (Fig. 4 A) being formed in needle holder 314 In holder 330, to prevent from keeping device assembly 310 to rotate in preceding sub-component 130 in sub 110 clockwise rotations of needle cover.

With reference to Fig. 6 B and 7-10, cartridge-holder 330 is releasedly locked, to prevent from being formed in preceding sub-component shell 300 Distal end on one or more (preferably two) elastic lug 830 proximally (the arrow D of Fig. 8) vertically move.Such as Fig. 9 and 10 preferably included best seen from, each elastic lug 830 on preceding sub-component shell 300 terminate at release latch or The ramp or inclined-plane 1030 of flange 832.In release ground latched position, each elastic lug 830, which preferably engages, is formed in it far Corresponding opening 640 (in such as Fig. 6 B and 10 best seen from) in cartridge-holder 330 near end, so that on elastic lug 830 Release latch 832 engage cartridge-holder limit opening 640 a part, to prevent cartridge-holder 330 relative to preceding son Longitudinal movement of the package shell 300 in proximal direction (the arrow D in Fig. 8).Ramp 1030 on elastic lug 830 engages needle shield Corresponding ramp or inclined-plane 1020 on the distal portions of cover 320, so that needle shield 320 is in the vertical of distal direction (arrow E in Fig. 8) Each ramp 1020 on needle shield can be made to engage corresponding ramp 1030 on elastic lug 830 to movement, so that elasticity is convex Piece is bent outwardly or otherwise moves to make the opening 640 in the distal portions of latch 832 and cartridge-holder 330 de- From engagement.Once being disengaged from disposable shell 300, cartridge-holder 330 is released and in proximal direction (in Fig. 8 Arrow D) on freely vertically move, with carry out needle-penetration and drug conveying.

With reference to Fig. 7 and 8, cartridge-holder 330, needle shield 320, preceding sub-component shell 300 and needle cover 110 are entirely Interlocking a part between in preceding sub-component 130.Preferably, cartridge-holder 330 includes one or more to evagination Spline 730 (in such as Fig. 6 B best seen from) out, spline 730 extends across needle shield 320 (Figure 10 C) and preceding sub-component shell The axial groove 810 of the generally co-alignment formed in 300 (Figure 10 A).Release shown in Fig. 8 in latched position, spline 730 The bottom of the far-end for constraining and reaching the axial groove 810 on needle shield 320 by axial groove 810.This prevent When removing needle cover 110 and discharge needle shield 320 and under the load of needle shield ring spring 1152 or bracket 1150 (Figure 11 H), Needle shield 320 further longitudinally moves on proximal direction (arrow D).Cartridge-holder 330 is maintained as from both direction It is vertically moved on (arrow D and arrow E), because needle cover 110 constrains medicine by the proximal end of sub-component shell 300 before being pressed against Cylinder retainer 300 longitudinally moves on the direction of arrow E, and prevents it from indulging in the direction of arrow D by bend arm 830 Mobile to ground, wherein bend arm 830 engages corresponding opening 640 in the far-end of cartridge-holder 330.

Figure 11 A shows the cross section of the disposable automatic injector assembly 100 in part of assembling, wherein sub 110 quilts of needle cover It removes.Sub-component 120 includes hollow, the generally reusable shell 1100 of elliptical or oval shape after reusable, In reusable shell 1100 there is at 1101 the opening for accommodating disposable housing unit 130 at its proximal end.It is repeatable The use of shell 1100 is closed preferably at its distal end 1102, and can be formed as overall construction or two or more Combination (the reusable main body front cover 1900, reusable main body 1100A in Figure 11 C and Figure 11 E and can of component Lid 1100B after reuse main body), two of them or multiple components are configured to be attached to each other to form reusable shell 1100.Reusable shell 1100 preferably by synthetic material (such as recyclable resin) or any other can be easily The suitable material of molding is constituted.

Figure 11 B shows the cross section of the disposable automatic injector assembly 100 in part of assembling, wherein sub 110 quilts of needle cover It removes.The shell 125 of sub-component 120 includes hollow, generally elliptical or oval shape front body part 125a afterwards, wherein preceding main Body portion 125a has the opening for sub-component 130 before accommodating at 1101 at its proximal end.Shell 125 is preferably in its distal end It is closed at 1102, and the combination of overall construction or two or more components can be formed as (in Figure 11 D and Figure 11 F Front body 125a and rear body cover 125b), two of them or multiple components are configured to be attached to each other to form shell 125.Preceding master Body 125a and rear body cover 125b preferably by synthetic material (such as recyclable resin) or any other being capable of easily mould The suitable material of system is constituted.

Preferably, piston 1110, piston spring rotator 1120, piston spring 1122, trigger lock 1130, needle Shield ring spring 1150 and needle shield spring 1152 are located in rear sub-component 120.

Figure 11 C and 11D respectively describe trigger lock 1130 shown in the circle circle 1112 in Figure 11 A and Figure 11 B With the enlarged drawing of release latch 1140.Trigger lock 1130 and release latch 1140 prevent piston 1110 close with discharging It is longitudinally moved on extreme direction P (the arrow F in Figure 11 C and Figure 11 D).In this embodiment, release latch 140 is preferably whole Be formed as a part of the front body part 125a of shell 125.It should be understood, however, that release latch 1140 can be and preceding master Body portion 125a separated component.

The proximal end of the piston 1110 of opening in release latch 1140 preferably includes shoulder 1111 (Figure 11 G).Ginseng Figure 11 C and 11D are examined, release latch 1140 includes the one or more flexible arms 1141 for terminating at the head 1142 of amplification, wherein The head 1142 of amplification is releasably engaged shoulder 1111, to prevent piston 1110 in the proximal direction P (arrow in Figure 11 C and 11D Head F) on longitudinally move, until needle shield 320 is pressed or at least minimum preset distance is to start automatic injector assembly completely 100.Prevent the head 1142 of the amplification on the flexible arm 1141 of release latch 1140 outside by trigger lock 1130 Bending.

With reference to Figure 11 J, trigger lock 1130 includes pedestal 1131, and pedestal 1131 has the opening passed through 1132, to accommodate piston 1110.Spring or biasing member 1133 extend from pedestal 1131.In this embodiment, 1133 shape of spring Integral part as trigger lock 1130.It should be understood, however, that spring 1133 is alternatively to be different from triggering machine The separate part of structure protector.Opening 1132 in pedestal 1131 includes one or more releasing section 1132A, in pedestal 1130 When being aligned with the head of amplification, limits the head amplified on flexible arm 1141 and be bent outwardly.

With reference to Figure 13, when needle shield 320 is pressed completely, the pedestal 1131 (Figure 11 J) of trigger lock 1130 is supported Bias force by spring section 1133 is longitudinally moved in distal direction D (the arrow G in Figure 11 C and Figure 11 D).When pedestal 1131 In release part 1131A when no longer limiting one or more flexible arms 1141 of release latch 1140, it is one or more flexible The head 1142 of amplification on arm 1141 radially outward bends or is bent, and with release plunger 1110 and allows it in proximal direction P It is longitudinally mobile to start needle-penetration on (the arrow F in Figure 11 C and 11D).

The needle cover design of substitution is also contemplated to be used together with automatic injector assembly 100.For example, in Figure 12 A- In alternate embodiment shown in 12F, the sub- 110A of the needle cover of spring load is used to indulge on distal direction (the arrow C in Figure 12 A) The needle assemblies 310 in disposable body assembly 130 are biased to ground.The lid 110A of spring load is similar to above-mentioned needle cover 110, In addition to the cam ramp 610 on the distal end of needle cover sealing element 305, lid 110A be spring-loaded with lid 110A rotation when from The dynamic sealing element 332 and diaphragm 344 for piercing through cartridge assembly 340.The aseptic of needle 312 with it is above-mentioned 100 identical for needle cover Mode keep.

Connection between lid 110A and cartridge-holder 330 is directed to the identical of needle cover 100 with above-mentioned, in addition to lid 110A can be rotated on both direction (clockwise and anticlockwise).Needle holder 314 is by needle spring 305A along the side of arrow C It is biased to (Figure 12 A), but most begins through two inwardly projecting flange 305B on the inside for being formed in the sub- 110A of needle cover It is restricted to longitudinally move on distal direction (arrow C).

With reference to Figure 12 C, once the sub- 110A of needle cover has rotated predetermined angular (such as 90 ° approximate), two flange 305B are no longer Engage needle holder 314.Since needle holder 314 cannot rotate again, (it axially engages cartridge-holder as described above 330), so what will can be prevented needle holder by spring 305A on distal direction (the arrow C in Figure 12 A) there is no Longitudinally bias.

As indicated in fig. 12d, once spring 305A distally (the arrow C in Figure 12 A) longitudinally pushes needle holder 314, needle 312 will puncture through 344 (not shown) of sealing element 332 and cartridge septum.With further rotating for the sub- 110A of needle cover, come from The reaction force of spring 305A moves needle cover longitudinally on proximal direction (the arrow B in Fig. 5), with automatic injection Device device 100 separates and promotes to remove needle cover.

As shown in figure 12e and the enlarged drawing in Figure 12 F is kept when needle holder 314 reaches its final position from needle It is open 630 on each elastic hook component 414 engagement cartridge-holder 330 that the distal portions of device 314 extend accordingly, it will Needle holder is locked in the appropriate position on cartridge-holder.

In another alternative embodiment shown in Figure 12 G, can be removed the sub- 110B of needle cover include have it is one or more to The needle cover sealing element 305C of interior barb 305D outstanding.One or more barb 305D are preferably towards automatic injector assembly The side of 100 proximal end P is angled up, and preferably by metal or with any other sufficiently rigid expectation material structure At.It is attached to the proximal end of needle holder 314, the release of elastomeric needle tip cap (not shown) to surround simultaneously sealing injection needle 312 From the part that needle holder 314 extends proximally.When being assembled on automatic injector assembly 100, the sub- 110B of needle cover can be removed Interior needle cover sealing element 305C surrounds at least part needle point end cap.It, can be by along close in the alternative embodiment Extreme direction P longitudinally pulls lid to remove the sub- 110B of needle cover from automatic injector assembly 100.As the sub- 110B of needle cover and adjoint When needle cover sealing element 305C is vertically moved in the proximal direction relative to needle point lid end cap, protruded inwardly from needle cover sealing element 305C Barb 305D insertion needle point end cap in so that when needle cover son 110 remove hour hands tip cap be drawn out or otherwise from needle Retainer 314 discharges.Once removing needle point end cap, the proximal end P of automatic injector assembly 110 is compressed against skin (injection position) On, so that cartridge assembly 340 is longitudinally moved along proximal direction P, until stopping, so that cylindrantherae 340 is pierced through in the distal end of needle 312 On diaphragm 344.

The operation of half-disposable automatic injector assembly 100

Once removing needle cover 110 (so that needle assemblies 310 are along distal direction D from the automatic injector assembly 100 of assembling Longitudinally move until injection needle 312 pierces through the sealing element 332 and diaphragm 344 of cartridge assembly 340), by will be from needle holder The 314 elastic hook components 414 extended are bonded in the corresponding opening 640 in cartridge-holder, needle assemblies 310 can be locked At its final position in cartridge-holder 330.It removes needle cover 110 and discharges needle shield 320 to allow relative to preceding subgroup Part shell 300 longitudinally moves.With reference to Figure 11 A and 11B, and as being detailed further below, pass through needle shield bullet Spring 1152 acts on needle shield ring 1150 (Figure 11 H) and comes up to bias needle shield 320 on proximal direction P.

With reference to Fig. 9 and 10, when pressing needle shield 320 (such as press against skin or injection position) in patient, Needle shield 320 is longitudinally moved along distal direction D (the arrow E in Fig. 8).When needle shield 320 longitudinally moves, needle shield Corresponding ramp 1030 before ramp 1020 on 320 engages on sub-component shell 300, so that elastic lug 830 is completely or with it His mode is displaced outwardly so as to discharge latch 832 and is disengaged from the corresponding opening 640 in the distal end of cartridge-holder 330.One Denier is disengaged, and cartridge-holder 330 can vertically move on proximal direction P (the arrow D in Fig. 8), to carry out needle-penetration It is conveyed with drug.

The enlarged drawing of trigger lock 1130 and release latch 1140 shown in the circle circle 1112 that Figure 11 C is Figure 11 A. Piston 1110 passes through the opening in release latch 1140.The proximal end of piston 1110 preferably includes shoulder 1111 (Figure 11 G).With reference to Figure 11 C, release latch 1140 includes the one or more flexible arms 1141 for terminating at the head 1142 of amplification, wherein the head amplified The release ground of portion 1142 engaging shoulders 1111, to prevent piston 1110 from longitudinally moving on proximal direction P (the arrow F in Figure 11 C) It is dynamic, until needle shield 320 is pressed or at least minimum preset distance is to start automatic injector assembly 100 completely.With reference to Figure 13, when When needle shield 320 is pressed completely, trigger lock 1130 (Figure 11 J) is longitudinal in distal direction D (the arrow G in Figure 11 C) Ground is mobile, this makes the one or more flexible arms 1141 discharged on latch 1140 be bent or be bent radially outwardly, with release Piston 1110 simultaneously allows it longitudinally mobile to start pin puncture along proximal direction P (the arrow F in Figure 11 C).

With reference to Figure 11 A, 13 and 14, once cartridge-holder 330 from the release of sub-component shell 300 before disposable shell and Piston longitudinally moves under the action of the power of piston spring 1122 along proximal direction P (the arrow F in Figure 11 C and 11D), leads to It crosses piston 1110 and is acted on stop part 348 on proximal direction P (the arrow F in Figure 11 C and Figure 11 D) and longitudinally push medicine Cylinder retainer 330, the axial direction before one or more splines 730 on cartridge-holder 330 reach in sub-component shell 300 The bottom of the proximal end 1410 of slot or track 810, to further prevent cartridge-holder 330 to move on proximal direction P.

With reference to Figure 13 and 15, piston 1110 will be continued on longitudinally to be moved with regard to proximal direction P, so that stop part 348 is also It can longitudinally be moved in cartridge body 342 along identical direction P, to convey drug M by injection needle 312.Piston 1110, which will continue on proximal direction P, longitudinally moves, until the engagement release latch 1140 of distal end flange 1310 of piston 1110 Distal end, this indicates that the end of drug M of predetermined close has been delivered to patient.

With reference to Figure 16-18, needle shield 320 preferably includes one or more outwardly extending splines 1620, works as needle shield When longitudinally being moved relative to disposable shell, respective channel or rail that spline 1620 is formed on preceding sub-component shell 300 Road 1710 is constrained and is longitudinally moved in it.Once drug M is conveyed and automatic injector assembly 100 is from the skin of patient (injection position) is removed, and needle shield ring spring 1150 (under the action of the power of needle shield spring 1152) is vertical along proximal direction P Needle shield 320 is pushed to ground, until the outwardly projecting spline 1620 of one or more on needle shield 320 passes through in disposable shell The near proximal ends of body 300 extend to the corresponding flexible holding lug 1720 in axial passage 1710, and needle shield is locked in Extension or front position.At extended position, needle shield 320 makes using automatic injector assembly 100 around injection needle 312 Injection needle 312 does not expose later.

With reference to Figure 18, once removing from automatic injector assembly 100, entire disposable body assembly 130 is locked.By The holding lug 1720 formed on preceding sub-component shell 300 prevents needle shield 320 from longitudinally moving in any direction, keeps convex Piece 1720 extends into channel 1710 to limit corresponding spline 1620 on needle shield.Similarly, when on cartridge-holder 330 When one or more splines 730 are locked between needle shield and preceding sub-component shell, prevent cylindrantherae from keeping by needle shield 320 Device 330 longitudinally moves on distal direction D and prevents cartridge-holder 330 in proximal end side by preceding sub-component shell 300 It is longitudinally moved on P.

With reference to Figure 19-21, once needle shield 320 is locked, needle shield ring spring 1150 is (in needle shield ring spring 1152 Under the action of power) it continues on proximal direction P and longitudinally pushes needle shield 320, until it abuts reusable main body front cover Holding lug or flange 1910 on 1900, wherein reusable main body front cover 1900 is attached to reusable shell 1100 Proximal end 1101.Keeping lug 1910 includes generally flat part 1912, taper disengaging section 1914 and tapered assemblies Part 1916.

Bullet in the opening 1920 formed in needle shield 320 when needle shield 320 is fully extended and disposable shell 300 Property keep lug 1930 be aligned.It is entire primary due to that can be pushed forward along proximal direction P by needle shield ring spring 1150 Property body assembly 130, disposable shell keeps lug 1930 to keep lug relative to proximal end on reusable shell 1100 The engagement of 1910 conical section 1914 is so that keep lug 1930 to be bent or bend into radially inward shape in needle shield 320 At alignment opening 1920.This allows disposable body assembly 130 and reusable body assembly 120 slightly separated.Such as figure Shown in 21, disposable body assembly 130 is discharged from reusable body assembly 120 and can be abandoned.

The disposable body assembly 130 of new (not used) can be inserted and be releasably connected to reusable main body Component 120.When new (not used) disposable body assembly 130 is inserted into reusable body assembly 120, needle shield Opening 1920 in cover 320 is not aligned with the holding lug 1930 in disposable main body 130, and needle shield prevents from keeping lug 1930 curve inwardly.

When assembling half-disposable automatic injector assembly 100 again, elastically keeping on reusable shell 1100 is convex The flexure of piece 1910 or bending are so that disposable body assembly 130 and the release of reusable body assembly 120 ground connection.It is repeatable It is preferably made of the material for keeping lug 1930 more rigid than disposable shell using the holding lug 1910 on shell 1100, And including high angle of assembling and low disassembly angle, so that reusable shell is protected when assembling automatic injector assembly 100 Holding lug 1910 will not easily be bent radially inward.

During assembling disposable body assembly 130, the stop part 348 in cartridge body 342 is longitudinal along distal direction D Piston 1110 is pushed to " loaded " position by ground.Once piston 1110 is pushed over stable " loaded " position, in trigger spring 1131 Power under the action of, trigger lock 1130 will longitudinally be moved freely along proximal direction P, and discharge latch 1140 Flexible arm 1240 on amplification head 1242 release ground engaging piston 1110 on shoulder 1210, with release lock work Plug, until needle shield 320 is fully depressed by activate automatic injector assembly 100.

Figure 22 and 23 shows lid gasket 2210, and function is once assembling device is filled with automatic injector assembly Empty space between 100 lid 110 and reusable body assembly 120.When the new disposable body assembly 130 of assembling When, know having handled used one, the point for needing device 100 pushing through plunger 1110 for resetting.In order in assembling one Allow additional promotion space when secondary property body assembly 130 on distal direction D, device 100 lid 110 distal end and can weigh There is small space between the main body 120 used again.Lid gasket 2210 preferably includes one or more springs or elastic component 2310, allow gasket to be moved in lid 110 when assembling disposable body assembly 130, then pops up to fill lid 110 Empty space between reusable main body 120.

With reference to Figure 24-25, needle cover 110 includes the feature engaged with concave wall, and wherein concave wall is reusable The beginning of main body front cover 1900 has ramp.This prevent lids 110 to be pushed to reusable master when rotating lid On body.If this feature is without pushing needle cover 110 in place and in rotation, the diaphragm 344 of cartridge assembly 340 may be hit Piston 1110 is hit, this will lead to accidentally dosage when using the device.

Given the description to various embodiments of the present invention for purposes of illustration, it is not intended that exhaustion or It is limited to the disclosed embodiments.In the case where not departing from the scope and spirit of described embodiment, many modifications and change Change will be apparent to practitioners skilled in this.Selecting term used herein is to best explain reality The principle, practical application or the technological improvement to the technology found in market of example are applied, or enables others skilled in the art Enough understand embodiment disclosed herein.