Drive mechanism and injection device herewith
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A61M-005/315
A61M-005/20
출원번호
US-0915441
(2014-09-03)
등록번호
US-10238807
(2019-03-26)
우선권정보
EP-13182765 (2013-09-03)
국제출원번호
PCT/EP2014/068656
(2014-09-03)
국제공개번호
WO2015/032783
(2015-03-12)
발명자
/ 주소
Plumptre, David Aubrey
Bilton, Simon Lewis
출원인 / 주소
Sanofi
대리인 / 주소
Fish & Richardson P.C.
인용정보
피인용 횟수 :
0인용 특허 :
36
초록▼
The present invention relates to a drive mechanism which is suitable for an injection device, especially a pen type drug delivery device. The mechanism includes a housing, a dosing member which during dose setting, dose resetting and dose dispensing rotates relative to the housing between a zero dos
The present invention relates to a drive mechanism which is suitable for an injection device, especially a pen type drug delivery device. The mechanism includes a housing, a dosing member which during dose setting, dose resetting and dose dispensing rotates relative to the housing between a zero dose position and a maximum dose position, and an insert that is rotationally constrained to the housing. The dosing member and the insert each include at least one abutment feature contacting each other when the dosing member reaches its zero dose position during dose dispensing, and an audible and/or tactile feedback is generated by the contact of the abutment features.
대표청구항▼
1. A drive mechanism for an injection device, the drive mechanism comprising: a housing;a dosing member rotatable relative to the housing between a zero dose position and a maximum dose position during dose setting, dose resetting, and dose dispensing; andan insert rotationally constrained to the ho
1. A drive mechanism for an injection device, the drive mechanism comprising: a housing;a dosing member rotatable relative to the housing between a zero dose position and a maximum dose position during dose setting, dose resetting, and dose dispensing; andan insert rotationally constrained to the housing and axially movable between a dose dispensing position and a dose setting and resetting position,wherein the dosing member comprises at least one abutment feature configured to contact at least one abutment feature of the insert when the dosing member reaches the zero dose position during the dose dispensing,wherein at least one of an audible feedback and a tactile feedback is generated when the at least one abutment feature of the dosing member contacts the at least one abutment feature of the insert, andwherein the at least one abutment feature of the insert is configured to contact the at least one abutment feature of the dosing member only when the insert is in the dose dispensing position. 2. The drive mechanism according to claim 1, wherein the at least one abutment feature of the insert is configured to contact the at least one abutment feature of the dosing member only during the dose dispensing when the dosing member reaches the zero dose position. 3. The drive mechanism according to claim 1, wherein the insert is configured to radially deflect one of the at least one abutment feature of the dosing member and the at least one abutment feature of the insert when the insert is in the dose dispensing position. 4. The drive mechanism according to claim 1, wherein the insert comprises an inner body rotationally constrained to the housing the dosing member comprises a number sleeve in threaded engagement with the housing or the inner body and movable between a zero dose position and a maximum dose position, and wherein the inner body comprises a flexible arm having a first abutment feature and the number sleeve comprises a corresponding second abutment feature configured to contact the first abutment feature when the number sleeve reaches the zero dose position during the dose dispensing. 5. The drive mechanism according to claim 1, wherein the insert comprises a trigger clutch rotationally constrained to the housing and the dosing member comprises a number sleeve in threaded engagement with the housing or an inner body and movable between a zero dose position and a maximum dose position, and wherein the trigger clutch comprises a first abutment feature and the number sleeve comprises a corresponding second abutment feature configured to contact the first abutment feature when the number sleeve reaches the zero dose position during the dose dispensing. 6. The drive mechanism according to claim 5, wherein the number sleeve and the second abutment feature are configured to move on a helical path during the dose setting, the dose resetting, and the dose dispensing, and wherein the first abutment feature is in the helical path only during the dose dispensing. 7. The drive mechanism according to claim 6, further comprising: a trigger for axially displacing the trigger clutch relative to the housing between a dose setting position and a dose dispensing position,wherein the first abutment feature is not in the helical path in the dose setting position of the trigger clutch, andwherein the trigger urges the trigger clutch in the dose dispensing position and the first abutment feature into the helical path. 8. The drive mechanism according to claim 1, wherein the insert comprises an inner body rotationally constrained to the housing, the dosing member comprises a number sleeve in threaded engagement with the housing or the inner body and movable between a zero dose position and a maximum dose position, wherein the inner body comprises a flexible arm having a first abutment feature and the number sleeve comprises a corresponding second abutment feature configured to contact the first abutment feature when the number sleeve reaches the zero dose position during the dose dispensing; andthe insert comprises a drive member axially displaceable relative to the housing between a dose setting position and a dose dispensing position,wherein the first abutment feature is not in a helical path in an unstressed state of the flexible arm, andwherein, in the dose dispensing position, the drive member is configured to urge the flexible arm and the first abutment feature into the helical path. 9. The drive mechanism according to claim 1, wherein the insert comprises a dose nut axially displaceable between a zero dose position and a maximum dose position and rotationally constrained to the housing; and the dosing member comprises a dial sleeve rotatable relative to the housing,wherein the dose nut comprises a flexible finger with a first abutment feature, which is deflected during the dose dispensing and which hits a second abutment feature provided on the dial sleeve when the dose nut reaches the zero dose position. 10. The drive mechanism according to claim 1, wherein the insert comprises a dose nut axially displaceable between a zero dose position and a maximum dose position and rotationally constrained to the housing; and the dosing member comprises a dial sleeve rotatable relative to the housing,wherein the dial sleeve comprises a flexible finger with a first abutment feature, which is deflected during the dose dispensing and which hits a second abutment feature provided on the dose nut when the dose nut reaches the zero dose position. 11. The drive mechanism according to claim 1, wherein the insert comprises a clicker rotationally constrained to the housing; and the dosing member comprises a number sleeve in threaded engagement with the housing or an inner body and movable between a zero dose position and a maximum dose position,wherein the clicker comprises a first abutment feature and the number sleeve comprises a corresponding second abutment feature contacting the first abutment feature when the number sleeve reaches the zero dose position during the dose dispensing. 12. The drive mechanism according to claim 11, wherein the number sleeve and the second abutment feature are configured to move on a helical path during the dose setting, the dose resetting, and the dose dispensing, and wherein the clicker is axially displaceable relative to the housing such that the first abutment feature is in the helical path only during the dose dispensing. 13. The drive mechanism according to claim 12, further comprising a dial grip sleeve axially displaceable relative to the housing between a dose setting position and a dose dispensing position, wherein the first abutment feature is not in the helical path in the dose setting position of the dial grip sleeve, andwherein, in the dose dispensing position, the dial grip sleeve is configured to axially displace the clicker to urge the first abutment feature into the helical path. 14. An injection device comprising: a cartridge containing a medicament; anda drive mechanism comprising housing;a dosing member rotatable relative to the housing between a zero dose position and a maximum dose position during dose setting, dose resetting, and dose dispensing; andan insert rotationally constrained to the housing and axially movable between a dose dispensing position and a dose setting and resetting position,wherein the dosing member and the insert each comprises at least one abutment feature contacting each other when the dosing member reaches the zero dose position during dose dispensing,wherein at least one of an audible feedback and a tactile feedback is generated by the contact of the at least one abutment feature of the dosing member and the at least one abutment feature of the insert, andwherein the at least one abutment feature of the insert is configured to contact the at least one abutment feature of the dosing member only when the insert is in the dose dispensing position. 15. The injection device according to claim 14, wherein the at least one abutment feature of the insert is configured to contact the at least one abutment feature of the dosing member only during the dose dispensing when the dosing member reaches the zero dose position. 16. The injection device according to claim 14, wherein the insert is configured to radially deflect one of the at least one abutment feature of the dosing member and the at least one abutment feature of the insert when the insert is in the dose dispensing position. 17. A method of operating an injection device, the method comprising: setting a dose such that a dosing member rotates relative to a housing of the injection device between a zero dose position and a position below or equal to a maximum dose position; anddispensing the dose such that at least one abutment feature of the dosing member contacts at least one abutment feature of an insert when the dosing member reaches the zero dose position, thereby generating at least one of an audible feedback and a tactile feedback, the insert being rotationally constrained to the housing of the injection device,wherein dispensing the dose comprises axially moving the insert from a dose setting position to a dose dispensing position, such that the at least one abutment feature of the dosing member contacts the at least one abutment feature of the insert only when the insert is in the dose dispensing position, and wherein the insert is rotationally contained to the housing. 18. The method of claim 17, wherein dispensing the dose comprises displacing a trigger from a dose setting position to a dose dispensing position, thereby urging the at least one abutment feature of the insert into a helical path.
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