WO2009056345A1 - Dosing system for an injection device, and injection device - Google Patents

Abstract

The present invention relates to a dosing system for an injection device having a threaded rod (1A), a toothed sleeve (4) that can be axially displaced relative to the threaded rod and is secured against pivoting, and a dosing element (2) having at least one engagement or latching element (2A), which may engage into toothings (4B) of the toothed sleeve in order to enable a pivoting movement in one direction and lock the same in the opposite direction, wherein the amount of the dose to be dispensed is adjusted by means of a rotation of or the rotating angle of the dosing element, which is moved in a rotating manner relative to the toothed sleeve upon the uptake or dosing action, wherein, upon dispensing the dose, the dosing element transfers the rotating movement onto the toothed sleeve, which transfers said rotating movement onto the threaded rod that is rotationally secured to the toothed sleeve, which has a thread (1D) that is engaged into a counter thread (3B) or a guide sleeve (3) of the injection device in order to cause a feed of the threaded rod relative to the injection device for providing the preset dose.

Description

 Dosing system for an injection device and injection device

The present invention relates to metering systems for an injection device or a pen, as well as an injection device with such a metering system.

In particular, the invention relates to a metering device with which a dose or quantity of a substance to be dispensed from the injection device can be adjusted.

WO 2006/125328 A1 discloses a metering device for a dose to be dispensed from an injection device with an adjustment element, wherein a mounting element is provided which can be unscrewed from the metering device in preparation for a dose delivery. On the adjusting a stop and on the Aufziehelement a counter-stop is mounted, so that a rotational movement of the Aufziehelementes can be limited relative to the adjustment by the stops.

In principle, the metering device described in this application and the injection device function as well as the metering device and injection device described in WO 2006/125328 A1, unless otherwise described in this application. Consequently, reference is made to WO 2006/125328 A1 with regard to the design of a metering device and an injection device, as well as with regard to the sequence of a metering process, the relevant teachings of which are incorporated into this application.

An inventive dosing system for an injection device has a threaded rod, which preferably carries an external thread. The external thread can be, for example, a circumferential thread on the outside of the threaded rod. Alternatively, the thread "of the threaded rod also from one or more in the axial and / or circumferential direction staggered threaded sections or partial threaded pieces exist, which allow a thread guide of the threaded rod. The threaded pieces or the thread preferably carry no teeth. A toothed sleeve is displaceable relative to the threaded rod in the axial direction and secured against rotation with respect to the threaded rod and preferably arranged around the threaded rod, so that the threaded rod can be pushed out, for example in the manner of a telescope. The toothed sleeve has on its outer side circumferentially toothed elements which are preferably directional or asymmetrical or form a freewheeling toothing, which in cooperation with a Drehbegrenzungs-, locking, holding, or snap element preferably allow rotation of the toothed sleeve in one direction and in the opposite direction lock. With regard to the configuration of such rotation limiting elements, reference is made to WO 2006/125328, in particular FIGS. 1 and 3, the disclosure of which is incorporated into this application. The toothed elements preferably provided on the outside of the toothed sleeve may be formed, for example, over the axial length of the toothed sleeve or have interruptions and are preferably arranged in the circumferential direction with a uniform spacing.

For setting a dose, a metering element, in particular a metering sleeve, is provided, which has at least one and preferably two or more advantageously pairwise opposite latching elements, which can be biased radially inwardly to engage in the toothing of the toothed sleeve, so that rotation of the metering element when mounting, so for example when unscrewing out of the Injektionsvorrich- example by an external thread in the injection device out of the Injektionsvorrich- device is not transferred to the example held by a holding element tooth sleeve, wherein the locking or snap elements against the rotational movement of the metering against the radially after Inwardly directed clamping force of the snap elements are pressed out of engagement with the toothings of the toothed sleeve to move in the circumferential direction around the toothed sleeve. In the opposite movement to effect a discharge grab by the snap arms radially inwardly pressed counter teeth or snap or holding elements in the toothings of the toothed sleeve and thus take them with. Since, according to the invention, the toothed sleeve is secured against rotation with respect to the threaded rod, but the threaded rod is displaceable relative to the toothed sleeve, the toothed sleeve can be displaced in the injection device, for example by an axial displacement or more projections, a bearing, a guide or a ring are held, wherein the threaded rod can be unscrewed from the toothed sleeve to effect the actual dispensing operation.

Thus, the threaded rod can be made without external teeth, which greatly simplifies the production of the threaded rod. The known from WO2006 / 125328 tooth threaded rod is thus formed as a telescope, formed of externally toothed toothed sleeve and untoothed threaded rod.

Preferably, the threaded rod has at least one and advantageously two or more e.g. opposing grooves, in which webs or, for example, radially inwardly projecting engagement elements of the toothed sleeve can engage to realize an anti-rotation of the threaded rod with the toothed sleeve. Likewise, the anti-rotation can also, for example. conversely, by one or more protruding and preferably in the axial direction of the threaded rod extending radially projecting elements or webs done, which engage, for example, in grooves on the inside of the toothed sleeve to realize an anti-rotation.

Furthermore, the invention relates to an injection device with such a metering system, wherein preferably the toothed sleeve is mounted axially displaceable in the injection device.

According to a further aspect, the invention relates to a method for adjusting a dose to be dispensed from an injection device, wherein the size of the dose to be dispensed is adjusted by a rotation or the angle of rotation of a metering element which rotatively moves relative to a toothed sleeve during mounting or metering is, wherein in the delivery of the dose, the metering element transmits the rotary motion to the toothed sleeve, which transmits this rotational movement to a non-rotating with the toothed sleeve threaded rod having a thread which engages in engagement with a mating thread of the Inj ektions device or for example a guide sleeve Injection device is located to advance the threaded rod relative to the injection To cause device to deliver the set dose. In this case, preferably the threaded rod moves out of the toothed sleeve.

When loading the pen, the dosing sleeve is pulled up in the proximal direction or turned off or on. Since the externally toothed sleeve for Zahngewindestange against rotation and is held radially by the teeth on the snappers of the guide sleeve, the externally toothed sleeve remains stationary, with the result that the teeth on the snappers of the rotary sleeve on the outer teeth of the toothed sleeve can slide and engage.

When dispensing the pen, the rotating sleeve is inserted or screwed in the distal direction. The teeth on the lugs of the rotary sleeve now drive the externally toothed sleeve radially, which rotated by the rotation of the toothed threaded rod this. This has the consequence that the teeth slide on the snaps of the guide sleeve over the outer toothing of the sleeve. In addition, the inner thread of the guide sleeve, such as the external thread of the toothed threaded rod, generates the feed, which displaces the toothed threaded rod in the distal direction. As a result, the stopper of the ampoule, which rests on the distal end of the toothed threaded rod, displaced in the distal direction, resulting in a release of the drug contained in the ampoule result.

***

Furthermore, the invention relates to a metering device or a metering system, wherein a toothed threaded rod is provided, which circumferentially carries a thread on its outer side, which may also consist of threaded portions which are interrupted in the axial direction and / or in the circumferential direction and with which a threaded guide can be realized in an injection device or guide sleeve. In this case, the thread or the threaded portions are provided with serrations so that they allow in conjunction with one or more, for example, radially biased towards the toothed threaded rod locking elements rotation in one direction, for example relative to the injection device and / or relative to a setting and can lock in the opposite direction. The toothed threaded rod is coupled against rotation coupled with a toothed rod which axially displaceable relative to the toothed threaded rod is. The toothed rod has at a portion preferably at an axial portion, for example at one end of the toothed rod, a toothing section or a toothed sleeve, which may for example carry a circumferential toothing. The non-toothed part of the toothed rod can be, for example, an element that carries an anti-rotation element, for example a cylindrical part. Furthermore, a metering element is provided, which is preferably verschiebegesichert relative to the toothed rod and which has at least one snap element, which is preferably biased radially inwardly to lock the toothed portion of the toothed rod with respect to a rotation in one direction, wherein the rotation in the opposite direction is released.

The toothed rod is in the metering, so e.g. when unscrewing e.g. guided in an internal thread of the injection device dosing sleeve, for example by a driver, with the dosing sleeve in the axial direction and thus pushed out of the toothed threaded rod, the toothed threaded rod preferably due to engagement of snap elements of the injection device into the tooth thread relative to the injection device or the housing with respect to the metering or Aufziehbewegung is secured against rotation. A rotational movement of the toothed threaded rod in the opposite direction is possible. Due to the anti-rotation between the toothed threaded rod and toothed rod and the toothed rod is held against rotation relative to the injection device, so that the snapper or engagement elements of the dosing or dosing move around the toothed portion of the toothed rod when unscrewing or dosing.

During a dispensing operation, the rotary movement of the dosing sleeve is transferred to the toothed rod by one or more engagement elements or radially inwardly biased snap arms of the dosing sleeve, which transmits this rotation to the toothed threaded rod by the rotation with the toothed threaded rod which is inserted through the thread guide of the tooth thread in the injection device and thus leads to a required for dispensing a substance feed. The toothed rod is pushed back into the toothed threaded rod. The rotation of the toothed rod with the toothed threaded rod can in turn be carried out by one or more, for example, extending in the axial direction of grooves, which serve to guide webs of the element to be secured against rotation. In this case, both the toothed rod, and the tooth threaded rod webs, grooves or both have.

In another aspect, the invention relates to an injection device having a metering device as described above.

According to a further aspect, the invention relates to a method for adjusting a dose of a substance to be dispensed from an injection device, wherein with a metering element, the size or amount of the substance to be dispensed by a rotation of the metering element is adjusted, wherein a toothed rod relative to the metering element with respect to a Rotation against the metering or adjustment movement is secured against rotation, so that the toothed rod from the dosing element when turning against the setting movement or direction can be entrained or rotated and wherein a tooth threaded rod with the toothed rod is secured against rotation to the rotation of the metering to be transferred via the toothed rod to the toothed threaded rod, which is axially displaced relative to the injection device, to cause a metered release of the substance. In this case, the anti-rotation with the toothed rod is preferably formed by latching elements or snapper of the dosing when dosing by rotating the e.g. thread-guided metering element not effective.

Thus, a telescopic dosing device can be realized, which e.g. Compared to the known from WO 2006/125328 Al metering device reduces the axial Baulän- ge of the metering device and thus contributes to the realization of an injection device.

According to a further aspect, the invention relates to a metering device or a metering system, which is constructed similar to the metering system described first, which is also shown in Figure 1, wherein the toothed sleeve by two separate toothed or tooth sleeves is replaced, which are arranged axially offset from one another in the metering device or injection device.

The rear or proximal toothed sleeve is preferably secured against rotation relative to the threaded rod and axially displaceable relative to the threaded rod. By the toothing of the toothed sleeve, which cooperates with a snap or holding element of the dosing sleeve, a one-sided or directed rotation between the toothed sleeve and the Dossierhülse be realized against the metering or Ausdrehrichtung, wherein a rotational movement of the metering in the opposite direction, ie at Pour or screw in, onto which the toothed sleeve is transferred. When dosing, however, slide the snap of the dosing over the teeth of the held by the threaded rod proximal toothed sleeve. This rotational movement of the toothed sleeve when dumping is transmitted to the threaded rod due to the torsion-proof coupling. At the distal end of the threaded rod, a further preferably identical toothed sleeve is provided, which is also secured against rotation with respect to the threaded rod but axially displaceable. The toothed sleeve may be connected to a snap of the injection device, e.g. a snap of the housing or a snapper of the guide sleeve, which is preferably fixedly connected to the injection device, cooperate so that a rotational movement of the toothed sleeve relative to the guide sleeve or relative to the injection device in the delivery direction of the threaded rod is possible. In this case, the threaded rod rotates guided by an internal thread of the guide sleeve or the housing into the injection device, that an advance of the threaded rod in the direction of e.g. a plug of an ampoule is created to displace a substance contained in the ampoule. The rotation in the opposite direction is prevented by the toothed sleeve and the interaction with a snap of the guide sleeve or the housing, so that the threaded rod can not be turned back or screwed back.

In another aspect, the invention relates to an injection device having a metering device as described above. In a method for setting a dose of a substance to be dispensed from an injection device, the size or amount of the substance to be dispensed is adjusted by rotation of the metering element with a metering element, wherein a toothed sleeve is secured against rotation relative to the metering element in rotation against the metering or adjustment movement, so that the toothed sleeve can be entrained or rotated by the dosing element only when turning back and wherein a threaded rod is secured against rotation with the toothed sleeve to transmit the rotation of the dosing over the toothed sleeve on the threaded rod which is axially displaced relative to the injection device, to cause a metered release of the substance.

***

Unless described in this application holding, snap or locking mechanisms, which allow a relative displacement or rotation in one direction and lock in a reverse direction, it should also be understood arrangements in which the position of the teeth and locking arms or Snap elements is reversed.

For example, the toothed sleeve described and / or the toothed rod and / or each toothed sleeve instead of the toothing, which may be formed as internal toothing or external toothing, also have one or more preferably radially outwardly or inwardly biased detent or snap elements. This rest or

Snap elements can then engage in a corresponding counter-toothing, which may be formed, for example, as an internal toothing of the dosing sleeve, the injection device or the guide sleeve or as external teeth of these elements. The toothed sleeve, toothed rod and toothed sleeve would thus no longer have to have toothing.

Under verschiebegesichert or against rotation should be understood in the context of this application, a backup, which allows a game.

The invention will be explained below with reference to exemplary embodiments: Show it:

FIG. 1 shows a perspective exposure view of a metering device according to a first embodiment;

Figure 2 is a perspective exposure view of a metering device according to a second embodiment; and

FIG. 3 shows a perspective exposure view of a metering device according to a third embodiment;

Variant I

In an injection device, a threaded rod Ia shown in FIG. 1 is mounted secured against rotation in a toothed sleeve 4 by a groove Ic extending in the longitudinal direction, wherein the threaded rod 1a can be displaced in the longitudinal direction relative to the toothed sleeve 4. As in the case of the injection device described in WO 2006/125328 A1, a thread guide in the form of an internal thread 3b for guiding the threaded rod 1a is provided on the pen, through which the threaded rod 1a can be screwed or rotated in order to feed the plug to care. In this case, the internal thread 3b is provided in a guide sleeve 3 firmly connected to the injection device.

At least one and preferably two opposite radially inwardly biased snap elements 3a, which are connected to the housing or the injection device or the guide sleeve 3, allow rotation of the axially displaceable mounted toothed sleeve 4 only in one direction. Corresponding snap elements 2a are provided on the dosing sleeve 2. The toothed sleeve 4 carries on its outer side a directional or asymmetric or freewheel teeth 4b, which allow in cooperation with a snap element 2a, 3a rotation in one direction and lock in the opposite direction. When mounting or metering the pen, the dosing sleeve 2, which is in threaded engagement with the injection device 2 via an external thread 2b, is unscrewed from the injection device, wherein the snappers 2a of the dosing sleeve 2 are guided over the external teeth 4b of the toothed sleeve 4, which are separated from the teeth Snap arms 3a of the housing or the guide sleeve 3 is held against rotation during the dosing. If the dosing is completed, that is, the dosing 2 pulled out or turned out, so this can be pushed back into the injection device, wherein the dosing 2 rotates due to the threaded engagement 2b and the snapper 2a of the dosing 2, the rotational movement of the dosing sleeve 2 on the Tooth sleeve 4 transmitted, which transmits by the inwardly projecting webs 4a, which engage in grooves Ic of the threaded rod Ia, the rotational movement on the threaded rod Ia, which is guided in the aforementioned internal thread 3 b of the injection device and thus in the distal Direction of Inj tion device is screwed in, whereby a fitting against the front of the threaded rod Ia stopper is moved into an ampoule. During the forward screwing of the threaded rod Ia and the rotation of the toothed sleeve 4, the toothed sleeve 4 rotates past the snap arms 3 a of the housing, that is, the snapper 3a of the housing allow rotation of the toothed sleeve 4th

Variant II

According to an alternative embodiment shown in Figure 2 can be dispensed with the toothed sleeve 4, wherein the toothed sleeve is replaced by an element 5 with shorter in the longitudinal direction of external toothing 5a, to which fixedly connected a longitudinally extending rod 5c or sleeve is mounted, which in a Tooth threaded rod Ib pushed back and is also supported by grooves or ridges 5b against rotation to the threaded rod Ib, but can be pushed out of the threaded rod Ib out.

This toothed rod 5 is pulled out by a driver of the dosing sleeve 2 when pulling out the dosing sleeve 2 with this, so that the snapper 2a of the dosing sleeve 2 are always in the region of the circumferential toothing 5a of the toothed rod 5. Since due to the formation of the toothing 5a only one end of the toothed rod 5 blocking a direction of rotation only in the dosing sleeve 2 is possible, the required to prevent rotation of the threaded rod Ib blocking when pulling out of the dosing sleeve 2 in a known manner by a toothing of the thread Id the threaded rod Ib itself be ensured. In this case, the snap 3a of the housing or the Inj ektions device or guide sleeve 3 in the located on the thread Id teeth engage and thus hold the threaded rod Ib when the dosing sleeve 2 is unscrewed.

Variant III

In contrast to variant II, no toothed rod 5 is used, but at least one and preferably two toothed sleeves 6a, 6b, which are located in the distal rear and / or proximal part of the injection device. If two toothed sleeves 6a, 6b are used, a sleeve 6a is preferably coupled to a snap element 2a of the metering element 2 or the metering sleeve, the other toothed sleeve 6a cooperating with one or more snap elements 3a of the housing or a guide sleeve. The proximal toothed sleeve 6a is inserted into the dosing sleeve 2 or taken with it, wherein the toothed sleeve 6a rotatably supported relative to the dosing sleeve 2 and preferably is not axially displaceable and wherein the snapper 2a of the dosing 2 engage in the toothed sleeve 6a as described above , The toothed sleeve 6a, 6b has on its inner side opposite one another two projecting webs 6d, which engage in longitudinal grooves Ic of the threaded rod Ia and thus the toothed sleeve 6a, 6b rotatably, but slidably couple with the threaded rod Ia.

Another similarly formed toothed sleeve 6b is in the distal or front part of the injection device with the housing or fixedly connected to the housing guide sleeve 3, but mounted axially non-displaceable relative to the guide sleeve 3 or the housing, wherein the snapper 3a of the guide sleeve 3 in the external teeth 6c of the toothed sleeve 6b engage. The toothed sleeve 6b, which is inserted into the guide sleeve 3, can be identical to the toothed sleeve 6a, which is inserted into the metering sleeve 2, so that no different parts have to be produced.

Claims

claims

1. metering system for an injection device with a threaded rod (Ia), a relative to the threaded rod (Ia) axially displaceable and non-rotating toothed sleeve (4) and a metering element (2) with at least one engagement or latching element (2a) which in Zahnungen (4b) of the toothed sleeve (4) can engage in order to allow a rotational movement in one direction and to lock in the opposite direction.

2. dosing system for an injection device with a threaded rod (Ia), a relative to the threaded rod (Ia) axially displaceable and secured against rotation latching sleeve with at least one engagement or latching element and a dosing (2), wherein the latching sleeve in serrations of the dosing element (2) engage can to allow a rotational movement in one direction and lock in the opposite direction.

3. Dosing system according to claim 1, wherein the threaded rod (Ia) and / or the toothed sleeve (4) have an axially extending recess or groove (Ic) or a projection or web (4a) to realize the rotation.

4. Dosing system according to one of the preceding claims, wherein the at least one locking element of the dosing sleeve (2) or the locking sleeve is a Schnapparm (2 a), which is biased radially inwardly or outwardly.

5. Dosing system according to one of the preceding claims, wherein the dosing sleeve (2) is connected or coupled with an adjusting element or knob.

6. Injection device with a metering system according to one of the preceding claims, wherein the toothed sleeve (4) or latching sleeve is mounted axially displaceable in the injection device.

7. Inj ektions device according to claim 6, wherein the injection device has a thread (3b) for guiding the threaded rod and / or an engagement or latching element (3a) or a toothing for holding the toothed sleeve (Ia) or latching sleeve, so that the toothed sleeve (Ia) or locking sleeve can be rotated relative to the injection device only in one direction.

8. A method for adjusting a dose to be delivered from an injection device, wherein the size of the dose to be delivered by a rotation or the rotation angle of a dosing (2) is set, which is rotationally moved relative to a toothed sleeve (4) during mounting or dosing, wherein at the dispensing of the dose, the metering element (2) transmits the rotational movement to the toothed sleeve (4), which transmits this rotational movement to a threaded rod (Ia) secured against rotation by the toothed sleeve (4), which has a thread (Id) which is in the Engagement with a mating thread (3b) or a guide sleeve (3) of the injection device is located to cause a feed of the threaded rod (Ia) relative to the injection device in order to deliver the set dose.

9. A method for adjusting a dose to be delivered from an injection device, wherein the size of the dose to be delivered by a rotation or the rotation angle of a metering element (2) is adjusted, which is rotationally moved relative to a locking sleeve during mounting or metering, wherein at the delivery of the

Dose the metering element (2) transmits the rotary motion to the locking sleeve, which transmits this rotational movement to a rotationally secured with the locking sleeve threaded rod (Ia) having a thread (Id), which engages with a mating thread (3b) or a guide sleeve ( 3) of the injection device to cause an advance of the threaded rod (Ia) relative to the injection device to deliver the set dose.