GB2493432A - Auto-injection devices - Google Patents

Abstract

An auto-injection device has separable front and rear housing portions. The rear portion contains a drive assembly 88 which is triggered or unlatched by rearward movement of an actuating sleeve 14 extending from the front portion. A locking dial 16 may be provided which locks the actuating sleeve 14 against rearward movement until the dial is moved to an unlocked position. The dial automatically returns to a locked position upon initial rearward movement of the actuating member 14, so that, when the actuating member 14 moves forwardly after completion of an injection, it locks out to shroud the needle of the auto-injection device.

Description

Autoinjection Devices This invention relates to autoinjection devices and, in particular, but not exclusively, to reusable autoinjection devices.

There is an increasing demand for autoinjection devices to be reusable.

Because in such devices some form of partial disassembly is usually required in order to allow a spent syringe to be replaced by a fresh one, it is particularly important to ensure that there is some form of safety measure to ensure that, when the injector is reassembled and the drive mechanism is re-primed, there is a reliable safety lock or the like to ensure that the device is left safe and can only be fired following release of the safety lock.

Accordingly, in one aspect, this invention provides an autoinjection device, comprising: a main body; a drive mechanism in said main body for being fired to expel a dose from a syringe in use; an actuating member associated with said main body and moveable from a first position to a second position in which said mechanism is fired; a locking member associated with said actuating member for preventing said actuating member reaching said second position, the locking member and the actuating member being relatively moveable between locked and unlocked positions when said actuating member is in said first position, wherein on moving said locking member to its unlocked position, and after moving said actuating member to its second position, return of said actuating member to its first position is accompanied by return of said locking member to its locked position.

In preferred embodiments therefore the locking member resets to its locking position when the actuating member returns to its first, rest position.

The locking member may be a separate component moveably mounted with respect to the actuating member and the main body, or it may be associated with or form an integral part of the body.

Preferably, the actuating member is biased towards its first position, and the locking member may conveniently be biased towards its locked position. In preferred arrangements therefore the locking member is moved to its unlocked position and the actuating member moved against its bias to fire the drive mechanism. Release of the load on the actuating member returns it to its first position whereupon the bias on the locking member resets it to its locked position.

Although other arrangements are possible, it is preferred for the actuating member to be linearly moveable between the first and second positions.

Preferably, said actuating member includes a needle shroud portion and, upon completion of said injection, return of said actuating member to its first position shrouds the needle of the syringe with said shroud portion. In this manner the actuating member serves a dual purpose both to fire the drive mechanism but also to shroud the needle. Furthermore, in the described embodiment, since the locking member returns to the locked position as the actuating member returns to its first position, the arrangement provides an effective lockout for the shroud portion.

Although other arrangements are possible, the locking member is preferably angularly moveable between the locked and unlocked positions.

A number of different arrangements are possible to allow the locking member to prevent the actuating member from reaching the second position, in one particularly preferred arrangement, the locking member is capable of limited angular movement with respect to the actuating member but longitudinally fixed with respect thereto, and the locking member and the housing have cooperating abutment surfaces that are rotated out of blocking alignment when the locking member is moved to the unlocked position.

In a preferred embodiment, one of the actuating member and said locking member have spaced recesses provided therein, corresponding to the locking and unlocked positions, and the other thereof has a toothed element capable of uni-directional angular movement from the locked to the unlocked recess when the actuating member is in its first position, movement of the actuating member towards said second position axially withdrawing the toothed element from the unlocked recess whereupon it is allowed to return to be in angular registration with the locking recess.

The drive mechanism may take many forms but in a preferred in embodiment includes a drive spring, a drive member longitudinally moveable within said housing, and a latch for latching the drive member in a primed position, wherein said actuating member is operable to release to said latch.

Preferably, said latch includes at least one side portion extending generally parallel to the axis of the drive spring and having an inclined surface adapted to cooperate with a respective complementary inclined surface on said actuating member to release said latch, when said actuating member moves towards its second position. In order to provide symmetrical loading, the latch preferably includes two side portions with there being two respective inclined surfaces on the actuating member.

The main body is conveniently formed of separable forward and rearward parts, with the rearward part containing at least a major portion of the drive mechanism and the forward part supporting said actuating member and said locking member. Preferably, the actuating member extends forwardly of said main body, generally to surround the needle and to contact the injection site in use. The actuating member may include a moveable adjustable portion associated therewith for adjusting the effective length of said actuating member and therefore the penetration depth of the syringe needle in use.

In another aspect, this invention provides an autoinjection device comprising a main body having separable forward and rearward parts, the rearward part containing a drive mechanism operated by a latch, and the forward part of said main body having an actuating member extending forwardly of the body and adapted to be driven rearwardly into the body to release said latch when applied to an injection site and pressed.

In another aspect this invention provides an autoinjection device comprising front and rear separable rear housing portions, the rear housing portion containing a drive mechanism including a drive energy store, a drive member and a latch arrangement to latch the drive member in a primed position for being unlatched for forward movement, the forward housing portion including an actuating member having a needle shroud sleeve portion extending forwardly of the housing portion, the actuating member being moveable rearwardly to unlatch the drive member, and a syringe carrier mounted on or in said actuating member for longitudinal movement with respect thereto.

Whilst the invention has been described above, it extends to any inventive combination of the features set out above, or on the following

description or claims.

The invention may be performed in various ways, and an embodiment thereof will now be described by way of example only, reference being made to the accompanying drawings in which: Figure 1 is a general perspective view of an autoinjector in accordance with this invention; Figures 2(a) and (b) are side and longitudinal views respectively of the autoinjector of Figure 1 in a rest position; Figure 3 is a perspective view of the autoinjector in a rest position with the outer case separated for clarity; Figures 4(a) and (b) are side and longitudinal views respectively illustrating the priming operation; Figures 5(a) and (b) are side and longitudinal views respectively of the autoinjector primed and with a pre-filled syringe loaded; Figures 6(a), (b) and (c) are longitudinal section, transverse section and side views respectively on the autoinjector unlocked and ready to inject; Figures 7(a), (b) and (c) are respective detailed views on the locking mechanism, showing it in the locked position, the unlocked position and the reset position respectively; Figures 8(a) and (b) are side and longitudinal views respectively showing activation of the injection; Figure 9 is a view of the autoinjector with the outer case separated for clarity, at the activation stage; Figures 10(a) and (b) are respective side and longitudinal sections views when the injection is complete but with the device still pressed against the skin; Figure 11(a) and (b) are respective side and longitudinal section showing the autoinjector device following withdrawal from the injection site; Figure 12 is an exploded view of the front assembly, and Figure 13 is an exploded view of the rear assembly.

Referring initially to Figure 1, the illustrated embodiment of autoinjector comprises separable front and rear assemblies 10, 12 respectively. As will be evident below, the front and rear assemblies are connected by a bayonet type fitting to allow easy insertion and withdrawal of a syringe containing medicament. The rear assembly comprises a drive mechanism to be described in more detail below, and the forward assembly includes a longitudinal moveable sleeve, the forward portion of which is visible in Figure 1, and a rotary locking dial 16.

Referring now in more detail to Figures 2, 3, 12 and 13, the front assembly 10 comprises a front case through which projects the sleeve 14 and the forward portion of the dial 16. Threadedly received in the front end of the sleeve is a depth adjuster 20 having marked thereon penetration depth indicia that are visible through a window 22 in the sleeve. The rear end of the sleeve has twin aft extending prongs 24 each having a ramp surface 26. The prongs 26 pass rearwardly through slots 28 in a collar 30, the collar being secured in the front case by means of diametrically opposed pips 32 that seat in diametrically opposed recesses 34 on the front case 18. The sleeve 14 is biased forwardly by means of a spring 36 acting between the collar 30 and the sleeve 14. A syringe carrier 38 is slideably received within the forward end of the sleeve 14 and biased rearwardly by a carrier spring 40. Axial movement of the syringe carrier 38 within the sleeve 14 is limited by means of two inwardly directed lugs 42 that run in slots 44 in the syringe carrier 38. The out-turned rearward end 46 of the syringe carrier 38 cooperates with an internally facing rib 48 on a forward cylindrical extension of the collar 30.

The locking dial has two diametrically opposed part-cylindrical rearward extensions 50 which upstand radially from the outer surface of the dial 16.

Immediately forward of this are two sprung tongues 58, each having an externally facing tooth6o at the free, clockwise end as viewed from the front. A torsion spring 52 acts between the sleeve 14 and the dial to bias the dial in a counter-clockwise direction as viewed from the front. When the assembly is in the at rest position, the tooth s 60 are received in corresponding locked' recesses 62 on the inside of the front cover 18 but the resilience of the tongues means that the tooth s 60 can be clicked into respective unlocked' recesses 64 by rotating the dial. Referring particularly to Figure 12, the inside wall of the front case 18 has two diametrically opposed upstanding webs 66, which cooperate with the extensions 50 on the dial 16 selectively to allow or prevent rearward movement of the dial 16 within the front case 18, dependent on whether the dial is in an unlocked position (tooth s 60 in unlocked' recesses 64) or a locked position (tooths in locked' recesses 62). The front case has a pointer 68 which cooperates with indicia 70 on the dial 16 to indicate whether the dial is locked or unlocked. The dial 16 is rotatable on the front end of the sleeve 14, but the two move longitudinally together as the dial 16 is clipped onto the front end of the sleeve by means of an outwardly facing sprung tooth 72.

The dial 16 and the sleeve 14 are urged forwardly by the spring 36 so that, at rest, the tooth 60 is urged forwardly into engagement with the locked' recess 62. However, when the device has been unlocked, and the tooth sits in recess 64, rearward movement of the sleeve and dial as the injector device is pressed against the skin moves the tooth 60 out of the unlocked' recess 64 axially, so that the dial then rotates back part way towards the position in which the teeth 60 are axially aligned with the locked' recesses 62, put held short by the webs 66.

Turning now to the rear housing assembly 12, and particularly to Figures 3 and 13, the rear assembly 12 comprises an outer casing formed by a case bottom 80 onto which is snap-fitted a case top 82. The forward end of the case bottom 80 is formed with a bayonet fitting 84 that cooperates with a complementary fitting 86 provided on the inside of the collar 30 forming part of the front assembly 10. Located in the casing is the main drive spring 88 fitting within a hollow tubular piston 90. A latch 92 of saddle form has forwardly extending arms 94 having ramp surfaces 96 designed to cooperate with the ramp surfaces 26 on the arms 24 of the sleeve 14 in the front assembly 10.

Rearward extensions of the arms 94 are provided with pivot lugs 98 which are received in seats 100 in the case bottom to allow the latch 92 to pivot. Extending forwardly of the central portion of the latch 92 is a leaf spring 100 which acts on the case top 82 to bias the latch downwardly to a latching position. To the rear of the leaf spring, on the underside of the latch is a latch abutment 102. The piston has a latch surface 104 on its front end that cooperates with the latch abutment 102 to latch the piston in its primed position. The piston 90 also has lateral stub guides 106 that run in guide grooves 108 in the case bottom 80 to guide the piston and prevent its rotation. The piston is formed of a plastics material of a distinctive colour such as red and the case top 82 has an injection complete window 110 through which the piston is visible when in a forward position to indicate injection complete.

Turning now to operation of the device, assuming that it is in the at rest position shown in Figures 2(a) and (b), the rear assembly 12 is firstly uncoupled from the front assembly 10 and inverted so that a needle cap remover 21 located in the end of the depth adjuster faces the piston 90. The front assembly and rear assembly are pushed together so that the piston 90 is pushed by the needle cap remover against the bias of the main drive spring 88 until the piston is latched by the latch abutment 102 engaging the latch surface 104 on the piston (see Figures 4(a) and (b)). A syringe comprising a barrel 2, a plunger 4, a needle 6 and a needle cap 8 is loaded into the front assembly 10 by inserting the syringe into the syringe carrier 38 and pushing until the needle cap passes a tooth 23 on the rear end of the needle cap remover 21 (see Figure 5(b)). The front and rear assemblies 10, 12 are then assembled together by connecting the bayonet coupling 84, 86.

The device is then unlocked by rotating the locking dial 16 in the direction of arrow X in Figure 6(c). This action rotates the extensions 50 on the rotary dial 16 out of axial alignment with the web 66 on the inside of the front housing 18 (see Figure 7(a) and (b)). At the same time the tooth 60 on the locking dial 16 moves from the locked' recess 62 to the unlocked' recess 64 against the bias of the torsion spring 52.

The autoinjector is then offered up to the injection site and pressed to cause the sleeve 14 and rotary dial 16 to move rearwardly into the housing.

During the opening stages of this movement, the tooth 60 on the rotary dial 16 is shifted axially clear of the unlocked' recess so it is now free to rotate back part way towards axial alignment with the locked' recess by the influence of the torsion spring 52 (but shifted rearwardly). Angular movement of the sleeve 16 is restrained by the extension 50 engaging the web 66. Continued pressing drives the sleeve 14 and dial 16 further into the housing until the prongs 24 on the sleeve 14 engage the arms 94 on the latch, with the respective ramp surfaces 26 and 96 cooperating to cause the latch 92 to pivot against its spring bias 100 to release the piston 90 (see Figure 9). The piston moves forwardly to engage the plunger 4 of the syringe. Initially, the liquid medicament inside the syringe barrel 2 acts as a solid so that the pressure on the syringe plunger moves the barrel 2 forwardly to cause the needle 6 to project from the sleeve 14 to penetrate the flesh of the user. Forward movement is of the syringe and the syringe carrier 38 is stopped when the out-turned end 46 of the syringe carrier engages the in-turned lip 48 on the collar 30. Thereafter the piston 90 continues to move forwardly moving the plunger 4 to expel a dose (see Figure 10(b)).

During this period the sleeve 14 has remained relatively stationary as the syringe carrier 38 moves forwardly to compress the spring 40, with the lugs 42 on the inside of the sleeve 14 running in slots 44 in the syringe carrier. The piston is now visible through the injection complete window 110.

Pulling the device away from the skin allows the sleeve 14 to move forwardly under the influence of springs 36 and 44 so that the sleeve 14 and the depth adjuster 20 shroud the syringe needle 6. Just as the sleeve nears its forwardmost position, the extensions 50 slide forwardly off the ends of the web 66 of the front case 18, with the extensions then abutting the arms 24 of the sleeve 14 so that the extensions 50 are now in blocking alignment with the web 66 and the dial 16 returns to its locked position upon withdrawal with the teeth 60 in the locked recess 62. The sleeve 14 and depth adjuster 20 are therefore locked against retraction movement to shroud the needle.

The front and rear assemblies may then be separated to allow withdrawal of the syringe ready for the next cycle.

In the above embodiment, there are three main components in the locking function, i.e. the front cover, the dial and the sleeve. Instead of having the front cover and sleeve angularly fixed, with the dial being rotatable between locked and unlocked positions, in an alternative arrangement the dial is omitted and instead the sleeve is capable of limited rotation against a spring bias to lock/unlock and then reset with the respective locking abutments and recesses on the sleeve and body. Otherwise the embodiment operates generally as above.

Claims (1)

1. <claim-text>Claims 1. An autoinjection device comprising a main body having separable forward (10) and rearward (12) parts, the rearward part containing a drive mechanism (88,90) operated by a latch arrangment (92), and the forward part of said main body having an actuating member (14) extending forwardly of the body and adapted to be driven rearwardly into the body to release said latch arrangement when applied to an injection site and pressed.</claim-text> <claim-text>2. An autoinjection device according to Claim 1, wherein said drive mechanism includes a drive spring (88) and a drive member (90) longitudinally moveable within said rearward part (12).</claim-text> <claim-text>3. An autoinjection device comprising front (10) and rear (12) separable rear housing portions, the rear housing portion containing a drive mechanism including a drive energy store (88), a drive member (90) and a latch arrangement (92) to latch the drive member in a primed position for being unlatched for forward movement, the forward housing portion including an actuating member (14) having a needle shroud sleeve portion extending forwardly of the housing portion, the actuating member being moveable rearwardly to unlatch the drive member, and a syringe carrier (38) mounted on or in said actuating member for longitudinal movement with respect thereto.</claim-text> <claim-text>4. An autoinjection device according to Claim 2 or Claim 3, wherein said latch arrangement (92) includes a latch member with at least one side portion (94) extending rearwards and having an inclined surface (96) adapted to cooperate with a respective complementary inclined surface (26) on said actuating member (14) to release said latch as said actuating member moves rearwardly.</claim-text> <claim-text>5. An autoinjection device according to any of the preceding Claims, wherein the main body is formed of separable forward (10) and rearward (12) parts wherein said rearward part contains at least a major portion of said drive mechanism (88,90) and said forward pad supports said actuating member (14) and said locking member (16).</claim-text>