The present disclosure is directed to a dose setting mechanism that may be used with a drug delivery device. The dose setting mechanism may include an inner body having a helical thread along an outer cylindrical surface of the inner body, and a drive sleeve for driving a piston rod in an axial direction, the drive sleeve positioned within at least a portion of the inner body. The dose setting mechanism may further include a dose dial sleeve rotatably engaged with the helical thread of the inner body and a dial grip connected to the dose dial sleeve and releasably connected to the drive sleeve. Further when a dose is set, the dial grip is rotated so that both the dose dial sleeve and the drive sleeve rotate with respect to the inner body.

Intraocular lens (IOL) injectors are describe that include a rack and pinion to advance an IOL through the IOL injector and eject the IOL therefrom. IOL injectors described herein may also include a slide advance operable to advance an IOL from a storage location to a dwell location within the IOL injector.

Drug delivery device adapted to expel a set dose, comprising an expelling mechanism with a drive spring, a dose setting mechanism with first and second dose setting ratchet parts, a bias spring as well as control means. The control means is adapted to rotate the second ratchet part in a first direction to thereby set a dose when rotating the dose setting member in the first direction, and move the ratchet parts axially out of engagement with each other when the dose setting member is rotated in the opposite direction. When the first and second ratchet parts have been axially disengaged, the drive spring will rotate the second ratchet part in the second direction to thereby reduce the set dose, the bias spring moving the ratchet parts axially into engagement with each other again, this resulting in the set dose being reduced corresponding to one tooth of the ratchet mechanism.

A method of assembling a drug delivery device, comprising the steps of: inserting a piston rod in a nut portion of a cartridge assembly and rotating the piston rod until the piston rod distal end engages the cartridge piston, mounting a drive member on the piston rod in a rota-tional position being closest to a pre-determined rotational position, and rotating the drive member to the pre-determined rotational position.

A needle-free injection system may include an active substance cartridge, which may have a nozzle and a plunger-actuated dosing chamber for the pressurized dispensing of an active substance. The injection device may have a housing with a receptacle for accommodating the active substance cartridge and a piston, which may be movable relative to the housing and may be designed to execute a movement for the ejection of the active substance from the active substance cartridge, where a mechanism for driving the plunger may be provided, and the plunger may have a starting position related to the mechanism, from which position the piston may be released to move by means of a trigger. The mechanism may be designed to allow the piston to return to the starting position. The dispensing quantity of the active substance may be adjustable.

The present disclosure relates to a drug delivery device comprising a dose setting member for setting user variable doses of a medicament and a display for indicating the dose set by the dose setting member. The display comprises a number wheel, which is rotationally coupled to the dose setting member and is provided with a series of markings on its outer circumference, and at least one prism deviating the image of the markings of the number wheel, e.g. by 90°.

A drive mechanism for a medicament delivery device is presented having an activation rod provided with external activation rod threads having a first thread helix angle, an activation knob rotationally locked with the activation rod, wherein the activation knob is configured to be moved between a first axial position relative to the activation rod in which the activation knob is prevented from rotation and a second axial position in which the activation knob is allowed to rotate in a first direction, an axially slidable drum which is rotationally locked, a dose drum rotationally locked relative to the activation rod, wherein the dose drum is configured to rotate relative to the slidable drum, an indicator drum provided with external indicator drum threads having a second thread helix angle, wherein rotation of the activation knob in the first direction causes concurrent first rotation of the activation rod and the dose drum in accordance with the first thread helix angle.

The present disclosure relates to a ratchet mechanism and to an injection device for expelling of a number of preset or user-selectable doses of a medicament. The ratchet mechanism comprises a housing and a ratchet member that is circularly shaped and rotationally supported relative to the housing. The ratchet member comprises a ratchet surface, a plurality of ratchet features on the ratchet surface, and one or more intermediate ratchet sections on the ratchet surface extending between the plurality of ratchet features. The ratchet mechanism further comprises a counter ratchet member that is circularly shaped, coaxially arranged relative to the ratchet member, rotatable relative to the ratchet member at least along a first sense of rotation, and rotationally supported relative to the housing. The counter ratchet member comprises a counter ratchet surface, a plurality of counter ratchet features on the counter ratchet surface, and one or more intermediate counter ratchet sections.

An incremental syringe configured for displacement of fluid, such as medicaments is disclosed. The syringe may comprise detents on the syringe plunger configured to provide tactile feedback, audible feedback, or both, for discrete units of fluid aspirated or injected to or from the syringe. In some embodiments, a second set of detents is included, and in some embodiments a third set of detents is included.

The present invention provides an injection device (1, 101, 201) comprising a housing (2, 102, 202), a cartridge (30, 130, 230) holding a medical substance and comprising an outlet and a piston (31, 131, 231), a dose expelling mechanism comprising a piston rod system (10, 50, 110, 150, 210, 250) adapted to be moved relative to the housing (2, 102, 202) during a dose expelling action to thereby advance the piston (31, 131, 231) in the cartridge (30, 130, 230), and a ratchet arm (12) operatively coupled with the piston rod system (10, 50, 110, 150, 210, 250) and configured to undergo a deflecting motion relative to the housing (2, 102, 202) during a particular movement of the piston rod system (10, 50, 110, 150, 210, 250) which corresponds to a predetermined volume of the medical substance being expelled from the cartridge (30, 130, 230), the deflecting motion comprising a first part motion which decelerates the piston rod system (10, 50, 110, 150, 210, 250) followed by a second part motion which accelerates the piston rod system (10, 50, 110, 150, 210, 250), an integrated sensor (76, 176, 276) arranged to detect occurrences of acceleration of the piston rod system (10, 50, 110, 150, 210, 250), and a processor (75, 175, 275) configured to register the occurrences detected by the integrated sensor (76, 176, 276) during the dose expelling action.