An autoinjector and method of injection are described. A power spring causes rotation of a drive nut about the central axis of the autoinjector that, in turn, causes a middle screw to rotate in the same direction as the drive nut and also to move in the distal direction while pushing a center screw in the distal direction that pushes the syringe and needle. The center screw also pushes a plunger that pushes the fluid out of the syringe. After injection, a locked retract screw is freed and rotates in the same direction as the middle screw causing the syringe to retract the syringe into the housing.

A needle-free injector conditionally detects a training cartridge based on the detected response to linear actuation of a plunger and enters a training mode instead of an injection mode.

A substance delivery device is disclosed. The substance delivery device includes a lever that includes a drive arm that is rotatable about a pivot. The substance delivery device also includes a pump that has a deformable chamber. The deformable chamber is configured to rotate the drive arm about the pivot towards a container so as to deform the container to drive a fluid substance from the container.

An infusion device includes a housing with an interior chamber sized and configured to hold at least a flange and plunger of a syringe, a trigger held by the housing, and a lever in communication with the trigger and including an upwardly extending cam with a cam path having an upper end. The cam is in communication with the flange of the syringe. In response to actuation of the trigger to dispense fluid from the syringe, the upper end of the cam travels upward above the syringe and longitudinally toward a dispensing end of the syringe to linearly translate the plunger of the syringe in a first direction to dispense fluid from the syringe. To refill fluid into the syringe, the upper end of the cam travels downward and longitudinally away from the dispensing end of the syringe to linearly translate the plunger in a second direction to intake fluid.

A telescopic screw assembly for an injector includes an inner screw, an outer screw and a middle screw. The middle and outer screws are in a first threaded engagement, and the inner and middle screws are in a second threaded engagement. The inner screw is nested with the middle screw and the middle screw is nested with the outer screw in a contracted configuration of the screw assembly. Rotation of the outer screw in one direction advances the middle screw relative to the outer screw via the first threaded engagement and advances the inner screw relative to the middle screw via the second threaded engagement to telescopically extend the screw assembly into an expanded configuration. At least two of the inner, middle and outer screws are identified with a different visual indicator to enhance visual distinction between the screws, and readily visually indicate an extension progress of the screw assembly.

The present invention relates to a plunger capable of moving back and forth and a medicine injection device including same, in which, by manually or automatically moving the plunger backwards, user convenience may be provided. In addition, according to the present invention, when a rotation unit (20) is no longer rotated, first flat portions (151-1, 151-2) of a first adjusting portion (150-1) and a second adjusting portion (150-2) are slid in an inclined direction, that is, in a direction from a second housing (120) to the rotation unit (20), respectively along a first inclined portion (121) and a second inclined portion (122), so that the first adjusting portion (150-1) and the second adjusting portion (150-2) are spaced apart from each other, and thus a pushrod unit (10) can be moved in a direction of the rotation unit (20), that is, backwards.

A gear-driven infusion assembly is provided which has a housing, a gear assembly coupled to the housing, a shuttle assembly slidably coupled to the housing and operably coupled to the gear assembly, and a tube enclosure connected to the housing. The tube enclosure is configured to house a primary drug closure such as a syringe. The gear assembly includes a spool assembly having a pinion gear and a drive spool. When the spring rotates the drive spool, the drive spool drives the pinion gear, and the gear assembly drives the shuttle assembly. When the gear assembly drives the shuttle assembly, the shuttle assembly slides longitudinally along the housing. The gear assembly may be spring driven such that a spring rotates the pinion gear about the drive spool. An overspeed protection device is also provided which has a spool assembly including a drive spool.

A manually actuated drug-injecting device is configured such that the grip strength of the entire hand (i.e., majority of fingers closing toward the palm or heel of the hand) is employed to discharge medication through a hypodermic needle and into a patient's body. The device is well suited for delivering medications with high viscosity and/or by patients (e.g., elderly patients) with reduced finger strength and dexterity. The device includes a grip member, a push member (which causes the medication to be injected), and a force-transfer mechanism that couples the grip member to the push member. Suitably, the device is configured to be held transverse to the palm of the medication-administering hand, with a discharge port located by the outer, blade edge of the administering hand, when the device is being gripped to administer medication.

A substance delivery device is disclosed. The substance delivery device includes a lever that includes a drive arm that is rotatable about a pivot. The substance delivery device also includes a pump that has a deformable chamber. The deformable chamber is configured to rotate the drive arm about the pivot towards a container so as to deform the container to drive a fluid substance from the container.

A needle-free injector conditionally detects a training cartridge based on the detected response to linear actuation of a plunger and enters a training mode instead of an injection mode.