SHELL FOR A MEDICAMENT DELIVERY DEVICE

Abstract

The present invention relates to a shell assembly for a medicament delivery device, which shell assembly comprises at least one first shell section provided with an entry passage and designed such that at least a major part of a medicament delivery device entered through said entry passage is accommodated inside said at least one first shell section, a closure element operably arranged to said at least one first shell section for closing said entry passage, and fixation elements arranged for fixating said medicament delivery device in relation to said at least one first shell section and said closure element.

Claims

1. An assembly for a medicament delivery device, the assembly comprising: a shell provided with an entry passage that permits positioning of a major part of the medicament delivery device when inserted into the entry passage such that medicament delivery is positioned inside the shell; a closure element operatively associated with the shell that closes the entry passage to prevent movement of the medicament delivery device relative to the entry passage; a fixation element arranged in the shell that fixes the medicament delivery device relative to the shell and to the closure element when the medicament delivery device is positioned inside the shell; and a protective cap removably connected to the proximal end of the shell or the closure element and covering a proximal end of the medicament delivery device, where the protective cap comprises a remover that engages a needle sheath on the proximal end of the medicament deliver device when the protective cap is axially moved in a proximal direction relative to the shell.

2. The assembly of claim 1, wherein the remover comprises a generally tubular remover element attached to the protective cap and arranged with inwardly inclined grips that engage with a surface of the needle sheath surrounding an injection needle fixed to a medicament container positioned inside the medicament delivery device.

3. The assembly of claim 1, wherein the shell comprises a first shell section and a second shell section and the closure element comprises part of one of the first or second shell sections.

4. The assembly of claim 3, wherein the first shell section and the second shell section comprise attachment elements operably arranged to connect the first and second shell sections to each other.

5. The assembly of claim 4, wherein the attachment elements comprise snap-in elements.

6. The assembly of claim 4, wherein the attachment elements are non-releasable.

7. The assembly of claim 3, wherein the first shell section and the second shell section comprise joints operably arranged to movably open or close the first and second shell sections.

8. The assembly of claim 7, wherein the joints comprise hinges.

9. The assembly of claim 7, wherein joints comprise flexible bridges.

10. The assembly of claim 4, wherein the attachment elements comprise protrusions and corresponding seats configured to lock the first shell section and the second shell section together.

11. The assembly of claim 10, wherein the protrusions extend from a contact surface of the first shell section and from the second shell section, respectively, wherein the protrusions are arranged with respective inclined surfaces that cooperate with respective inclined surfaces of the seats.

12. The assembly of claim 11, wherein the position and number of seats correspond to the position and number of protrusions.

13. The assembly of claim 11, wherein when the first shell section and the second shell section are pushed together with the respective contact surfaces facing each other, the protrusions are configured to fit into the seats, whereby the inclined surfaces are configured to interact with each other to lock the shell sections to each other with the contact surfaces abutting each other.

14. The assembly of claim 2, wherein the fixation element comprises longitudinal slits provided on at least one of the first or second shell sections and longitudinally extending ledges on the medicament delivery device.

15. The assembly of claim 14, wherein the longitudinal slits are arranged with cut-outs on side surfaces of the longitudinal slits, providing proximally directed contact surfaces, and wherein the longitudinally extending ledges are arranged with a wedge-shaped protrusion that fit into the cut-out of the side surfaces of the longitudinal slits.

16. The assembly of claim 15, wherein a proximal end of the longitudinally extending ledges is arranged with a wedge-shaped protrusion that fits into the cut-out of the side surfaces of the longitudinal slits, wherein a distally directed surface of the wedge-shaped protrusion will be in contact with the proximally directed contact surface of the cut-out.

17. The assembly of claim 1, wherein the fixation elements are arranged on an inner surface of the shell and the shell further comprises contact surfaces, wherein the fixation elements and the contact surfaces contact with and fixate the medicament delivery device inside the at least one shell section.

18. An assembly for a medicament delivery device, the assembly comprising: a shell comprising a first shell portion and second shell portion, where the shell encloses a major part of the medicament delivery device when the first and second shell portions are connected to each other such that medicament delivery is fixed relative to the shell; an entry passage defined by an inner surface of either the first or second shell portions, where the entry passage is configured to hold the major part of the medicament delivery device; a closure element defined by proximal ends of the first and second shell portions, where a proximal end of the medicament delivery device extends through the closure element and prevents the major part of the medicament delivery device from moving proximally relative to the shell; a fixation element arranged on the shell that fixes the medicament delivery device relative to the shell when the medicament delivery device is positioned inside the shell; and a protective cap removably connected to the proximal end of the shell and covering the proximal end of the medicament delivery device, where the protective cap comprises a remover that engages a needle sheath on the proximal end of the medicament deliver device when the protective cap is axially relative to the shell.

19. The assembly of claim 18, wherein the first shell section and the second shell section comprise: attachment elements operably arranged to connect the first and second shell sections to each other, where the attachment elements comprise snap-in elements; and joints operably arranged to movably open or close the first and second shell sections, the joints comprise hinges or flexible bridges.

20. The assembly of claim 19, wherein the fixation element comprises longitudinal slits provided on at least one of the first or second shell sections and longitudinally extending ledges on the medicament delivery device, where the longitudinal slits are arranged with cut-outs on side surfaces of the longitudinal slits, providing proximally directed contact surfaces and where the longitudinally extending ledges are arranged with a wedge-shaped protrusion that fit into the cut-out of the side surfaces of the longitudinal slits.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0028] In the following detailed description of the invention, reference will be made to the accompanying drawings, of which

[0029] FIG. 1 is a perspective view of a feasible embodiment of a device for a medicament delivery device,

[0030] FIG. 2 is an exploded view of the device of FIG. 1,

[0031] FIGS. 3-8 are detailed views of elements comprised in the device of FIG. 1,

[0032] FIG. 9 is an exploded view of a variant to the device of FIG. 1,

[0033] FIGS. 10-12 are detailed views of elements comprised in the device of FIG. 9,

[0034] FIG. 13 is a detailed view of an alternative to the device of FIG. 9,

[0035] FIG. 14 is a perspective view of a further variant of the device,

[0036] FIG. 15 is an exploded view of the variant of FIG. 14,

[0037] FIG. 16 is a cross-sectional view of the device of FIG. 14, and

[0038] FIG. 17 is a detailed view of a shell section of the device of FIG. 14.

DETAILED DESCRIPTION

[0039] A feasible embodiment of a medicament delivery device arranged with a device 10 according to the present invention is shown in the drawings. The device 10 as shown comprises a generally tubular first shell section 12 or housing designed and dimensioned to accommodate a medicament delivery device 14, FIG. 2. In that respect, the medicament delivery device 14 could be of a number of designs and contain a number of different functionalities and features. These do not form part of the invention and will thus not be described in detail. The important factor is that the first shell section 12 is capable of accommodating at least a major part of the medicament delivery device 14.

[0040] In the embodiment shown the first shell section 12 is arranged with a distally directed end wall 16. The end wall 16 could either be integrally made with the first shell section 12 or could be a separate component attachable to the shell. In that respect there are a number of methods of attaching components to each other, either releasable or fixed. For example fastening components could be used, such as threads, bayonet connections, snap-in fittings etc. The components could also be glued or welded to each other. The proximal end of the shell is further arranged with an entry passage 18, FIG. 2, through which the medicament delivery device 14 may be inserted into the first shell section 12.

[0041] In order to fit the medicament delivery device 14 in a stable manner inside the first shell section 12, a number of fixation elements are provided between the shell and the medicament delivery device that interact with each other. One type of fixation elements may be protrusions or guides. For example, the inner surface of the first shell section 12 may be arranged with longitudinally extending ribs 20, as seen in FIG. 3. These ribs 20 are designed and arranged such that they come in contact with outer surfaces of the medicament delivery device 14 when inserted into the first shell section 12. Preferably these fixation elements in the form of ribs 20 are capable of preventing linear movement between the first shell section 12 and the medicament delivery device 14 both in the longitudinal direction and transversal direction as well as rotating movement.

[0042] In the embodiment shown the shell is arranged with openings 22, FIGS. 2 and 4, such that a medicament container 24, FIG. 8, in the medicament delivery device 14 may be visible such that the content of the medicament can be viewed by a user. In the embodiment shown the openings 22 are placed on opposite sides of the shell as seen in a transversal direction. The openings 22 are arranged with windows 26, FIGS. 3 and 4, made of a transparent material. Each window 26 is arranged with a circumferential ledge 28, FIGS. 3 and 4, such that when the windows 26 are placed in the openings 22, the ledges 28 engage an inner surface of the first shell section 12 adjacent the openings, FIG. 3. This design ensures that the windows are fixedly placed in the openings. In order to facilitate assembly of the windows 26, two flexible bridges 30 are arranged between the windows 26, FIGS. 2 and 4, which bridges 30 are curved such that they do not interfere with the interior of the first shell section 12. The flexing properties of the bridges 30 enable positioning and retaining of the windows 26 in the openings 22. The thickness of the windows 26 and the design of the medicament delivery device 14 are such that when the medicament delivery device 14 is placed in the shell, it will be in contact with the inner surface of the windows 26, thereby preventing the windows from being pushed into the shell.

[0043] Further fixation elements may be arranged. In the embodiment shown, the medicament delivery device 14 may also be arranged with longitudinally extending ribs 32, FIG. 4. These may fixate in the transversal direction but may also prevent movement in the longitudinal direction as well as rotational movement. For example, when the medicament delivery device 14 is pushed into the first shell section 12, the ribs 32 will slide along the inner surface of the windows 26, which is possible due to the elasticity of the first shell section 12. The ribs 32 will then pass the ledge 28 of the windows, and the length of the ribs 32 have been chosen such that when a distally directed surface of the medicament delivery device 14 abuts a proximally directed contact surface 34 of the shell, FIG. 3, proximally directed end surfaces 36 of the ribs 32, FIG. 4, are adjacent distally directed surfaces of the ledges 28 of the windows 26. Thereby the medicament delivery device 14 is locked in the longitudinal direction in relation to the first shell section 12.

[0044] Preferably the device according to the embodiment is arranged with a proximal closure element 38, FIGS. 2 and 5. This may comprise an end cap 38 having a central passage 40 through which a proximal end 42 of the medicament delivery device 14 may protrude, which proximal end may comprise a number of elements. For example the medicament delivery device may be arranged with an attachment element for attaching a medicament delivery member such as an injection needle or the like. As an alternative, the medicament container may be integrated with a medicament delivery member 43, FIG. 8. Also the medicament delivery device may be arranged with an actuator that triggers e.g. a penetration sequence and/or an injection sequence, which actuator may be a medicament delivery member shield. These elements have to be accessible to a user and they preferably extend through the central passage 40.

[0045] Further the end cap 38 is arranged with a number of first attachment elements for connecting with the shell. In the embodiment shown the first attachment elements are arranged as protrusions or ledges 44, FIGS. 5 and 6, extending transversal to a longitudinal direction. These ledges 44 cooperate with corresponding transversal ledges 46 of the first attachment elements on an inner surface of the first shell section 12 such that when the end cap 38 is pushed into the proximal end of the first shell section 12 the ledges 44, 46 interconnect and lock the end cap 38 to the first shell section 12.

[0046] The end cap 38 may further preferably be arranged with second attachment elements to attach the end cap 38 to the medicament delivery device 14, which second attachment elements also may function as further fixation elements. The attachment elements of the end cap may comprise longitudinal slits 48, FIG. 6, arranged with cut-outs 50 on side surfaces of the slits 48, providing proximally directed contact surfaces 52. The medicament delivery device 14 is arranged with corresponding attachment elements. These are arranged as pairs of longitudinally extending ledges 54 having a distance generally corresponding to the width of the slits 48. A proximal end of the ledges 54 is arranged with a wedge-shaped protrusion 56 designed to fit into the cut-out 50 of the side surfaces of the slits 48, such that a distally directed surface 58 of the wedge-shaped protrusion 56 will be in contact with the proximally directed contact surface 52 of the cut-out 50, FIG. 7. With this design, the medicament delivery device will be locked to the end cap 38 both in the longitudinal direction as well as in the rotational direction.

[0047] The device may further also be arranged with a protective cap 60, FIGS. 1 and 8, arranged to fit onto the proximal end of the first shell section 12 and the end cap 38, thereby protecting the proximal end 42 of the medicament delivery device 14. The protective cap 60 may further be arranged with removal elements capable of removing for example a needle sheath. In the embodiment shown the removal element comprises a generally tubular remover element 62, FIG. 8, attached to the protective cap 60 and arranged with inwardly inclined grip members 64 capable of gripping into the surface of a needle sheath 66 surrounding an injection needle 43.

[0048] FIGS. 9 to 12 show a variant of the device described above. Here a shell 100 comprises a first 102 and a second 104 shell section. In the embodiment shown, the sections are designed as halves having generally the same size. It is however to be understood that one of the halves could be larger and the other half could be smaller. Also, it is to be understood that one of the sections 104 may be regarded as closure element for closing the shell around a medicament delivery device 14 as described, whereby the opening 105, FIG. 9, of the first shell section 102 may be regarded as entry passage, into which opening 105 the medicament delivery device 14 may be placed.

[0049] Each shell section is arranged with fixation elements 106 on their inner surfaces, as well as contact surfaces 108. These fixation elements and contact surfaces are arranged to be in contact with, and fixate, a medicament delivery device placed inside the shell. Each shell section is further arranged with openings 110 in which windows 112 can be inserted. As with the previous device, the windows are connected to each other with bridges 114. The inner surface of each first 102 and second 104 shell section is further arranged with third attachment elements to attach the shell to the medicament delivery device 14, which third attachment elements also may function as further fixation elements. As with the previous variant, the attachment elements of the shell sections may comprise longitudinal slits 116, FIG. 10, arranged with cut-outs 118 on side surfaces of the slits 116, providing proximally directed contact surfaces 120.

[0050] As described above, the medicament delivery device 14 is arranged with corresponding attachment elements. These are arranged as pairs of longitudinally extending ledges 122 having a distance generally corresponding to the width of the slits 116. A proximal end of the ledges 122 is arranged with a wedge-shaped protrusion 124 designed to fit into the cut-out 118 of the side surfaces of the slits 116, such that a distally directed surface 126 of the wedge-shaped protrusion 124 will be in contact with the proximally directed contact surface 120 of the cut-out 118, FIG. 10. With this design, the medicament delivery device will be locked to the shell 100 both in the longitudinal direction as well as in the rotational direction. Each shell section is further arranged with a proximal wall section 128, FIG. 9. The wall sections are arranged with cut-outs 130 that form a central passage when the shell sections are joined, through which central passage a proximal end 42 of the medicament delivery device 14 may protrude.

[0051] The first 102 and the second 104 shell sections are further arranged with attachment elements 132, FIGS. 11-12. In the embodiment shown, the attachment elements comprise a number of protrusions 134 extending from a contact surface 136 on each shell section. The protrusions are arranged with inclined surface 138, which surfaces 138 are intended to cooperate with inclined surfaces 140 on a number of seats 142, where the position and number of seats 142 correspond to the position and number of protrusions 134. Thus, when the first 102 and the second 104 shell sections are pushed together with the contact surfaces 136 facing each other, the protrusions will fit into the seats whereby the inclined surfaces 138, 140 interact to lock the shell sections to each other with the contact surfaces 136 abutting each other.

[0052] FIG. 13 shows a variant of the device of FIGS. 9 to 12. Here the first 102 and the second 104 shell sections are joined to each other along a long side of each half with joints 144. The joints 144 are arranged to allow turning of the shell sections in relation to each other along a joint axis 146. The joints 144 may be hinges of a conventional design such as continuous or piano hinges of plastic or metal or combinations thereof. There could also be discrete hinge sections as shown in FIG. 13. Further, the joints 144 may be arranged as bridges of the same material as the shell halves, which bridges are so flexible as to function as hinges when the shell sections are turned in relation to each other. The free long sides 148 of the shell sections may be arranged with appropriate attachment elements 132 for connecting the shell sections when the shell is closed, such as those described above.

[0053] Further, as described with the first variant of the device, the latter variants may also be provided with protective caps fitting onto the proximal ends of the shells.

[0054] FIGS. 14 to 17 show a further variant of the device described above. It comprises a generally tubular first shell section 200 provided with a distal end wall 202 that could either be integral with the first shell section or a separate component attachable to the first shell section. The proximal end of the first shell section 200 is arranged with an entry passage 204, FIG. 15, through which a medicament delivery device 14 may be inserted into the first shell section.

[0055] The inner surface of the first shell section is arranged with a number of fixation elements designed and arranged to fit the medicament delivery device 14 in a stable manner inside the first shell section 200. In the variant shown, the fixation elements comprise longitudinally extending ribs 208, FIGS. 16 and 17, that interact with the outer surface of the medicament delivery device 14 such as to prevent any movement. Also the ribs 208 may interact with longitudinally extending ribs 210, FIGS. 15 and 16, on the outer surface of the medicament delivery device 14 such as to prevent rotation of the medicament delivery device 14 inside the first shell section 200, as can be seen in FIG. 16. The ribs 208 are further arranged with ledges or end surfaces 212, FIG. 17, that interact with distally directed surfaces of the medicament delivery device for limiting movement in the longitudinal direction, as seen in FIG. 16.

[0056] In the variant described, a closure element 214 of the passage 204, FIGS. 14 and 15, is arranged as an integral part of the medicament delivery device 14. The closure element 214 is shaped to fit into the passage 204 as seen in FIG. 14, such that when the medicament delivery device is positioned in the first shell section, a proximal end 216 of the medicament delivery device protrudes in the proximal direction, in the same manner as described above. The attachment elements between the medicament delivery device 14 and the first shell section 200 may comprise a number of different solutions such as snap in connections, glue, welding and the like. In the embodiment shown the inner surface of the first shell section 200 is arranged with a ridge 218, FIG. 18, extending generally transversal to the longitudinal direction L. The ridge 218 is intended to interact with two parallel ridges 220 arranged on the outer surface of the medicament delivery device 14, FIG. 15, and extending generally transversal to the longitudinal direction L.

[0057] When the medicament delivery device is pushed into the first shell section it will abut the end surfaces 212 while the ridge 218 on the first shell section will be positioned between the two parallel ridges 220, thereby locking the medicament delivery device with the first shell section as seen in FIG. 16. In the same manner as the above variants, the present variant is arranged with openings 222 on the first shell section, in which windows 224 may be positioned. The windows are preferably interconnected by bridges 226 as described above.

[0058] Further, as with the previous variants, a protective cap 228, FIG. 14, may be removably arranged to the proximal end of the medicament delivery device and the first shell section, as described above.

[0059] It is to be understood that the embodiment of the invention described above and shown in the drawings is to be regarded as a non-limiting example only and that it may be modified in many ways within the scope of the patent claims.