• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The present invention relates to an automatic torsion spring based ijection device having a dial-up/dial-down mechanism by which a dose can be set by rotating a dose setting member in a first direction and which dose size can be reduced by rotating the same dose setting member in a second and opposite direction. The dial-up/dial-down mechanism operates a torsion spring which is strained when setting a dose and unstrained when rotating the dose setting element in the second direction. In order to secure the torsion spring when strained, a ratchet arm (21) following the rotation of the dose setting element in the first direction, engages a toothed element (10) such that engagement of the at least one ratchet arm (21 ) with teeth (12) of the toothed element (10) prevents unwinding of the torsion spring, and wherein the rotation of the dose setting member in the first direction moves the ratchet arm (21) from one tooth (12) to the subsequent tooth (12) of the toothed element (10), and rotation of the dose setting member in the second direction lowering the set dose activates the ratchet arm (21) to disengage the teeth (12) of the toothed element (10) and thereby allow the torsion spring to move the ratchet arm (21) in the second direction to the previous tooth (12) such that the force accumulated in the torsion spring reduces incrementally. In order to provide a smooth movement when dialling down the set dose, the at least one ratchet arm (21) is provided o a ratchet tube (20) which carries friction teeth (30) which engage with a cam curve (16) of the toothed element, dampening the movement of the ratchet arm (21) by the torsion spring.
    公开号:AU2012361001A1
    申请号:U2012361001
    申请日:2012-12-20
    公开日:2014-06-26
    发明作者:Mikkel AVLUND;Torben Strom Hansen;Hans Hemmingsen;Ebbe Kiilerich;Matias Melander;Christian Hojris Nielsen
    申请人:Novo Nordisk AS;
    IPC主号:A61M5-20
    专利说明:
    WO 2013/098194 PCT/EP2012/076421 DIAL-UP/DIAL-DOWN MECHANISM FOR WIND-UP PEN THE TECHNICAL FIELD OF THE INVENTION: 5 The present invention relates to a dial-up/dial-down mechanism for automatic wind-up pens. In particular, the present invention relates to an integrated dial-up/dial-down mechanism for a torsion spring assisted wind-up pen. The invention further relates to an automatic torsion spring based injection device incorporating such dial-up/dial-down mechanism and to an au tomatic torsion spring device incorporating anti-rattling means. 10 DESCRIPTION OF RELATED ART: In known injection devices, such as wind-up pens, based on torsion springs, the user usually strains the torsion spring by rotating a rotatable dose setting member usually provided at an 15 end of the injection device. The rotational force thereby applied by the user during dose set ting is accumulated in the torsion spring for later release. An example of a known wind-up pen applying a torsion spring may be found in US 5,104,380. In this wind-up pen, the dose setting member is located at the proximal end and 20 works such that when the user rotates the dose setting member the torsion spring is strained and maintained in this strained position until the user releases the set dose by activating the latch. The wind-up pen disclosed in US 5,104,380 has the disadvantage that if a user set a dose which is larger than the intended dose there is no possibility for decreasing the set dose. The user then has to release the latch mechanism thereby expelling the entire set 25 dose before a new correct dose can be set and delivered. Wind-up pen in which the user can actually decrease the set dose is e.g. known from WO 2006/045526, WO 2007/063342, WO 2010/046394 and WO 2010/089418. 30 These automatic injection devices are based on a torsion spring which is tighten during dose setting and thereafter released to inject the set dose. If a user erroneously sets a dose higher than needed these injection devices has the possibility of lowering the set dose by rotating the dose setting member in an opposite rotational direction. Such dial-down mechanism can therefore save the user from expelling expensive drug due to an erroneous dose setting. 35 WO 2013/098194 PCT/EP2012/076421 2 In WO 2006/045526 and in WO 2010/046394, the dial-up/dial-down mechanism is based on a flexible ratchet arm which is locked in a one-way engagement with a toothed ring. When the user sets a dose he rotates the flexible ratchet arm in a toothed arrangement such that the ratchet arm locks against the force of the torsion spring in the subsequent teeth of the 5 toothed ring thereby straining the torsion spring in incremental steps. In order to reduce the set size, the flexible arm is pulled out of engagement with the toothed ring whereby the force accumulated in the torsion spring rotates the ratchet arm rapidly backwards such that the flexible arm engages the previous tooth in the toothed ring thereby lowering the set dose with one increment. A separate element is provided which when moved rotational engages and 10 pulls the ratchet arm out of its engagement with the toothed ring. If the user continuously ro tates the dose setting member in the dial-down direction, the ratchet arm will, under influence of the torsion spring, move downward in the toothed ring in a series of incremental steps. A similar arrangement is disclosed in WO 2010/089418, however in the dial-up/dial-down 15 mechanism of this injection device depictured in figure 2, the toothed element securing the ratchet arm against the force of the torsion spring has outwardly pointing teeth and the ratch et arm points toward the center axis of the injection device. In the arrangement disclosed in WO 2007/063342, there are three ratchet arms depictured in 20 figure 12 which engage a toothed ring provided in the drive gear thereby retaining the torsion spring in its strained position. These ratchet arms can deflect radially inwardly such that when a user wishes to reduce the set dose he simply rotates the dose setting member in the opposite direction. 25 A major problem in the above dial-up/dial-down mechanism is that when the user dials down the set dose he actually releases the torsion spring by forcing the ratchet arm out of en gagement with the toothed element and the actual dial down i.e. the backward movement of the ratchet arm is performed by the torsion spring. 30 Automatic injection devices often operate with a pre-tensed torsion spring in order to operate in a range of the torsion spring characteristic where the torsion spring applies a relatively constant and a relatively large force. A result of this is that the backward movement of the ratchet arm performed by the spring appears rather coarse and rough. The feel when rotating the dose setting member in the dial-down direction is therefore somewhat uncomfortable. 35 WO 2013/098194 PCT/EP2012/076421 3 DESCRIPTION OF THE INVENTION: It is an object of the present invention to provide a dial-up/dial-down mechanism for an auto matic wind-up pen which overcomes the above and provides a more smoothly feel when dial 5 ing down the set dose. Accordingly, in a first aspect, the invention relates to a dial-up/dial-down mechanism in an automatic torsion spring based injection device for multiple injections of a settable dose of a liquid drug. Such injection device comprises a housing securing a rotatable dose setting ele 10 ment by which a user can set the size of the dose to be injected. By automatic is here meant that the injection devices encompassed a torsion spring which is strained during dose setting by rotating the dose setting element in one direction, and which spring during injection is released to drive the liquid drug out from the injection device via an 15 attached injection needle. Further, once a certain dose size is set it can be adjusted i.e. lowered by rotating the dose setting element in the opposite direction (opposite of the dose setting direction) which un strains the torsion spring i.e. reduces the torque present in the torsion spring. 20 The dial-up/dial-down mechanism assists in setting and adjusting (i.e. lowering) the dose size. In order to secure the torsion spring in its tensed position a ratchet arm engages a toothed element which secures the ratchet arm from rotation in one direction. Obviously more than one ratchet arm can be provided all though here described in singularity. The 25 ratchet arm is coupled to a dose setting element such that when the dose setting element is rotated in one direction to set a dose, the ratchet arm is moved in its engagement with the toothed element to a subsequent tooth whereby the torsion spring is incrementally strained. In order to decrease the set dose, means are provided for pulling the ratchet arm out of en gagement with the toothed element such that the torque accumulated in the torsion spring 30 can rotate the ratchet arm in the opposite direction where it is gripped by the previous teeth of the toothed element thereby incrementally decreasing the torque of the torsion spring and thus decreasing the dose size. In order to control and dampen the backward movement of the ratchet arm by the torsion spring, friction teeth are provided in the engagement between the ratchet tube carrying the ratchet arm and the toothed element. 35 WO 2013/098194 PCT/EP2012/076421 4 When the ratchet arm is pulled out of engagement with the toothed element there is no en gagement between the ratchet tube and the toothed element as such however the two parts are rotatable connected e.g. by a circular ridge on one element engaging a similar circular track on the other element which in itself creates some friction. 5 The friction teeth can be provided either on the ratchet tube or on the toothed element and provides a controlled friction which is larger than the friction that would normally be present when such two elements rotate in relation to each other. When elements rotate or otherwise move in relation to each other while being in contact some degree of friction will always oc 10 cur. However, by "friction teeth" is meant the presence of special teeth which is designed to provide a controlled friction above the inherent friction. It is obviously also possible to have friction teeth provided on both the ratchet tube and on the toothed element. The toothed element can e.g. be provided with a cam curve engaging 15 the friction teeth on the ratchet tube thereby creating further friction. The cam curve could e.g. follow a traditional sinus curve or any suitable curve. If the friction teeth are provided on the toothed element, the cam curve can alternatively be provided on the ratchet tube. As is disclosed in e.g. WO 2010/046394 and WO 2010/089418 a reset tube (in the latter re 20 ferred to as a coupling sleeve) establishing contact between the dose setting button and the ratchet tube is preferably provided. The dose setting button can be integral with the reset tube if so wanted. The ratchet tube can be formed integral with a dose indicator or it can itself be the dose indi 25 cator. In a further embodiment, a separate dose indicator sleeve can be provided. Such dose indicator sleeve is preferably keyed to the ratchet tube by a key and groove connection such that the dose indicator sleeve can rotate together with the ratchet tube but move axially in relation to the ratchet tube i.e. the dose indicator sleeve can slide axially as it rotates to gether with the ratchet tube. The simultaneous rotational and axial movement could e.g. be 30 accomplished by having the dose indicator sleeve engaging a helical thread provided inside the housing. In order for the dose indicator sleeve to slide axially the tolerances of the key and groove connection most allow such axial movement.
    WO 2013/098194 PCT/EP2012/076421 5 This however creates the problem that the dose indicator sleeve can rattle during movement. In order to prevent such rattling, anti-rattling means such as a number of flexible legs is pro vided between the ratchet tube and the dose indicator sleeve. 5 In a second aspect, the invention relates to an automatic torsion spring based injection de vice for multiple injections of a settable dose of a liquid drug comprising; a housing holding the liquid drug, a rotatable dose setting element for setting the size of the dose, and the dial up/dial-down mechanism herein described. The rotatable dose setting member strains and unstrains the torsion spring and is preferably rotatable secured to the housing either directly 10 or through another component. In a third aspect, the invention relates to a torsion spring based injection device incorporating the anti-rattle means described. Such torsion spring based injection device does not neces sarily have to incorporate the frictions teeth disclosed above. 15 In an embodiment these anti-rattling means can be provided as flexible legs provided be tween the dose indicator sleeve and a ratchet tube. The flexible legs can be provided on ei ther of the dose indicator sleeve or the ratchet tube abutting the other. Alternatively the legs can be provided on both elements abutting the other element. 20 DEFINITIONS: An "injection pen" is typically an injection apparatus or device having an oblong or elon gated shape somewhat like a pen for writing. Although such pens usually have a tubular 25 cross-section, they could easily have a different cross-section such as triangular, rectangular or square or any variation around these geometries. As used herein, the term "drug" is meant to encompass any drug-containing flowable medi cine capable of being passed through a delivery means such as a hollow needle in a con 30 trolled manner, such as a liquid, solution, gel or fine suspension. Representative drugs in cludes pharmaceuticals such as peptides, proteins (e.g. insulin, insulin analogues and C peptide), and hormones, biologically derived or active agents, hormonal and gene based agents, nutritional formulas and other substances in both solid (dispensed) or liquid form.
    WO 2013/098194 PCT/EP2012/076421 6 "Cartridge" is the term used to describe the container containing the drug. Cartridges are usually made from glass but could also be moulded from any suitable polymer. A cartridge or ampoule is preferably sealed at one end by a pierceable membrane referred to as the "sep tum" which can be pierced e.g. by the back-end of a needle cannula. The opposite end is 5 typically closed by a plunger or piston made from rubber or a suitable polymer. The plunger or piston can be slidable moved inside the cartridge. The space between the pierceable membrane and the movable plunger holds the drug which is pressed out as the plunger de creased the volume of the space holding the drug. However, any kind of container - rigid or flexible - can be used to contain the drug. 10 Further the term "injection needle" defines a piercing member adapted to penetrate the skin of a subject for the purpose of delivering or removing a liquid. "Dose indicator sleeve" is preferably meant to be a cylinder shaped hollow element, 15 somewhat like a sleeve of a shirt, carrying indicia indicating the size of the selected dose to the user of the injection pen. "Indicia" is meant to incorporate any kind of printing or other wise provided symbols e.g. engraved or adhered symbols. Using the term "Automatic" in conjunction with an injection device means that, the injection 20 device is able to perform the injection without the user of the injection device delivering the force needed to expel the drug during dosing. The force is typically delivered - automatically - by automatic means such as an electric motor or a spring. The spring is usually strained by the user during dose setting, however, such springs are usually prestrained in order to avoid problems of delivering very small doses. Alternatively, the spring can be fully preloaded by 25 the manufacturer with a preload sufficient to empty the entire drug cartridge though a number of doses. Typically, the user activates a latch mechanism e.g. in the form of a button on the injection device to release the force accumulated in the spring when carrying out the injec tion. 30 All references, including publications, patent applications, and patents, cited herein are in corporated by reference in their entirety and to the same extent as if each reference were individually and specifically indicated to be incorporated by reference and were set forth in its entirety herein. All headings and sub-headings are used herein for convenience only and should not be con 35 structed as limiting the invention in any way.
    WO 2013/098194 PCT/EP2012/076421 7 The use of any and all examples, or exemplary language (e.g. such as) provided herein, is intended merely to better illuminate the invention and does not pose a limitation on the scope of the invention unless otherwise claimed. No language in the specification should be con strued as indicating any non-claimed element as essential to the practice of the invention. 5 The citation and incorporation of patent documents herein is done for convenience only and does not reflect any view of the validity, patentability, and/or enforceability of such patent documents. This invention includes all modifications and equivalents of the subject matter recited in the claims appended hereto as permitted by applicable law. 10 BRIEF DESCRIPTION OF THE DRAWINGS: The invention will be explained more fully below in connection with a preferred embodiment and with reference to the drawings in which: 15 Figure 1 show an example of a prior art dial-up/dial-down mechanism. Figure 2 show a sectional view of the dial-up/dial-down mechanism of figure 1. 20 Figure 3 show a view of the prior art fixation element in a ring-shaped configuration. Figure 4 show a view of the prior art ratchet tube. Figure 5 show a view of the prior art reset tube. 25 Figure 6 show a perspective view of the ratchet tube according to the present inven tion. Figure 7 show a sectional view of the ratchet tube together with the dose indicator 30 sleeve. Figure 8 show a view of the dial-up/dial-down mechanism. Figure 9 show a sectional view of the dial-up/dial-down mechanism. 35 WO 2013/098194 PCT/EP2012/076421 8 The figures are schematic and simplified for clarity, and they just show details, which are es sential to the understanding of the invention, while other details are left out. Throughout, the same reference numerals are used for identical or corresponding parts. 5 DETAILED DESCRIPTION OF EMBODIMENT: When in the following terms as "upper" and "lower", "right" and "left", "horizontal" and "verti cal", "clockwise" and "counter clockwise" or similar relative expressions are used, these only 10 refer to the appended figures and not to an actual situation of use. The shown figures are schematic representations for which reason the configuration of the different structures as well as there relative dimensions are intended to serve illustrative purposes only. In that context it may be convenient to define that the term "distal end" in the appended fig 15 ures is meant to refer to the end of the dial-up, dial-down mechanism including the ring shaped element 10 whereas the term "proximal end" is meant to refer to the opposite end pointing away from the ring shaped element 10. The prior art dial down mechanism known from WO 2010/046394 is disclosed in figure 1 to 20 figure 5. It comprises three parts, a fixation element or ring 10, a dose setting element or ratchet tube 20 and a reset tube 40. 25 As seen in figure 3, the ring 10 which constitutes a part of the driving mechanism has on its outside surface a number of engaging means such as fins 11 by which the ring 10 is non rotatable coupled to a not shown housing of an injection device. The ring 10 could alterna tively be attached to the housing in a number of different ways, however, as explained later the ring shaped element 10 must be able to slide axially relatively to the housing in order to 30 release the torque accumulated in the torsion spring. The not-shown torsion spring is secured to the ratchet tube 20 at one end and to the housing at the other end such that the torsion spring is tightened whenever the ratchet tube 20 is ro tated in the dial-up direction (see figure 2). The ratchet tube 20 is arranged such that it fol 35 lows the rotation of the dose setting member when the user sets the dose to be delivered.
    WO 2013/098194 PCT/EP2012/076421 9 On its inside surface the ring 10 is provided with a plurality of teeth 12 which has a steep edge 13 in one direction and a sloped edge 14 in the opposite direction such that the ratchet arm 21 of the ratchet tube 20 is prevented from rotating in one direction but is allowed to ro 5 tate in the opposite direction. This is best seen in figure 2. The ratchet tube 20 disclosed in details on figure 4 has on its distal end a circular part with a peripheral outer surface 22 that fits into the inside of the ring 10. This outer surface 22 is pro vided with a circular recess 23 which is engaged with a similar circular element 15 on the ring 10 10 such that the ring 10 and the ratchet tube 20 is locked to each other in the axial direction but can be rotated relatively to each other. The peripheral outer surface 22 is provided with a flexible ratchet arm 21 which terminates in a steep surface 24. The ratchet arm 21 is on its peripheral surface provided with an out 15 wardly pointing protrusion 25. A part of the steep surface 24 also incorporates the protrusion 25. The protrusion 25 is further provided with a sloped surface 26 which slopes down to the ratchet arm 21 as best seen in figure 2. Once the ratchet tube 20 and the ring 10 is engaged as disclosed in figure 2 the steep sur 20 face 24 of the ratchet arm 21 engages the steep edge 13 on the ring 10 such that the ratchet tube 20 can only be rotated relatively to the ring 10 in one direction which in figure 2 is in the clockwise direction. Whenever the ratchet tube 20 is rotated in the clockwise direction as indicated with the "dial 25 up" arrow in figure 2 (seen from a proximal position) the torsion spring is strained and is held in this strained position by the engagement between the steep surface 24 of the ratchet arm 21 and the steep edge 13 of the teeth 12 on the ring 10. In this way a user can strain the torsion spring and thereby set a dose by rotating the ratchet 30 tube 20 relatively to the ring 10 in the clockwise direction and the described engagement 24, 13 makes it impossible for the torsion spring to rotate back the ratchet tube 20. In order to provide a possibility for the user to dial down the set dose, a reset tube 40 is pro vided. In relation to figure 5, the reset tube 40 is provided with an extended portion 41 which 35 has a forwardly pointing reset element 42 which follows the periphery of the extended portion WO 2013/098194 PCT/EP2012/076421 10 41. At its proximal end the reset tube 40 is provided with means 47 for engaging a dose set ting button. Alternatively the dose setting button can be integral with the reset tube 40. Once the injection device is assembled the reset tube 40 is fitted inside the ratchet tube 20 5 such that the reset element 42 is located above the ratchet arm 21 as depictured in figure 1 and 2. In this position the axial engagement between the ratchet tube 20 and the reset tube 40 is secured by the protrusion 43 of the reset tube 40 engaging in front of the front surface 29 of the ratchet tube 20. 10 The extended portion 41 of the reset tube 40 is further provided with a first surface 44 in the clockwise direction and a second surface 45 in the anti-clockwise direction. Further, the reset element 42 is provided with a reset surface 46 in the anti-clockwise direction. The first surface 44 engages a similar dial-up surface 27 on the ratchet tube 20 such that ro 15 tation of the reset tube 40 in the clockwise direction (e.g. in figure 2) is transformed directly to the ratchet tube 20 meaning that when a user dials the reset tube 40 in the clockwise direc tion to set a dose the ratchet tube 20 follows this rotation and rotates relatively to the ring 10. The second surface 45 engages a spring element 28 urging the reset tube 40 in the clock 20 wise direction whereas the reset surface 46 of the reset element 42 engages the sloped sur face 26 of the protrusion 25 of the ratchet arm 21. When setting a dose as explained above the user rotates the reset tube 40 which rotation is passed on to the ratchet tube 20 which again is allowed to rotate relatively to the ring 10 in 25 the clockwise direction thereby straining the torsion spring. When a user regrets the set dose and wants to decrease the set dose this is done by rotating the reset tube 40 in the anti-clockwise direction. By doing so - as depictured in figure 2 - the reset surface 46 is pressed against the sloped surface 26 of the protrusion 25 which pulls the 30 steep surface 24 out of engagement with the steep edge 13 of the tooth 12. This allows the torsion spring to be released and force the ratchet tube 20 rapidly in the anti-clockwise direc tion under influence of the torque accumulated in the torsion spring. Due to the size of the torque stored in the torsion spring, the ratchet tube 20 will be moved faster than the reset tube 40 whereby the sloped surface 26 of the protrusion 25 will no longer have the pressure 35 of reset surface 46 resting on it and the flexible ratchet arm 21 will flex to its initial position WO 2013/098194 PCT/EP2012/076421 11 and the steep surface 24 will engage the previous steep edge 13 of the previous tooth 12. By a continued anti-clockwise rotation of the reset tube 40, the steep surface 24 will move from tooth 12 to tooth 12 in a continued movement thereby lowering the torque stored in the tor sion spring incrementally. 5 Once the correct setting is obtained the torque stored in the torsion spring is released by axi ally moving the ring 10 out of engagement with the housing, whereby the torsion spring ro tates back all three elements 10, 20, 40 in the anti-clockwise direction. In the axial movement of the ring 10, it is moved into engagement with a driver which then rotates together with the 10 other elements 10, 20, 40 to drive the piston rod of the system forward. In order to smoothen the dial-down movement of the ratchet tube 20 and thereby the ratchet arm 21, the ratchet tube 20 is provided with means for establishing a controlled friction be tween the ratchet tube 20 and the ring 10. These friction means are preferably provided as a 15 number of friction teeth 30 engaging the ring 10 as depictured in figure 6 and figure 9. As can be seen in figure 8-9, the circular element 15 of the ring 10 engaging the circular re cess 23 of the ratchet tube 20 is provided with a cam curve 16. This cam curve 16 is en gaged by the friction teeth 30, which friction teeth 30 are provided in the circular recess 23 of 20 the ratchet tube 20. The ratchet tube 20 is on its outside surface provided with a number of raised ridges 31 stretching axially. These ridges 31 engages a number of similar grooves 51 provided on the inside wall of a dose indicator sleeve 50 which indicator sleeve 50 has indicia printed on its 25 surface for showing the size of the set dose as is commonly known in injection devices. The dose indicator sleeve 50 is preferably provided with a thread 52 which engages a similar thread i.e. a helical track in the housing such that the dose indicator sleeve 50 moves heli cally when rotated. 30 In order to prevent this dose indicator sleeve 50 form rattling during rotation, the ratchet tube 20 is further provided with a number of flexible legs 32 which press against the inside surface of the scale drum 50 . These legs are best seen in figure 6.
    WO 2013/098194 PCT/EP2012/076421 12 Further, additional legs 53 can be provided on the dose indicator sleeve 50 and abutting the ratchet tube 20. These legs can be provided instead of the legs 32 on the ratchet tube 20 or they can be provided in addition to the legs 32. 5 Whenever the torsion spring moves the ratchet tube 20 in the dial-down direction, the friction teeth 30 makes this rotational movement slightly less rapid which provides a more soft feel to the user as he dials down the set dose, at the same time the flexible legs 32 dampens the rattle of the scale drum 50. Alternatively a set of flexible arms 53 can be provided on the 10 scale drum 50 pressing against the outre surface of the ratchet tube 20. The friction teeth 30 provide a friction as they slide against the cam curve 16 of the ring ele ment 10, however, the friction dampening can be provided in alternative ways. 15 Some preferred embodiments have been shown in the foregoing, but it should be stressed that the invention is not limited to these, but may be embodied in other ways within the sub ject matter defined in the following claims. It must especially be noted that the friction means and the anti-rattling means can be provided simultaneously to the same automatic torsion spring based injection device or they can be applied individually to such injection device.
    权利要求:
    Claims (10)
    [1] 1. A dial-up/dial-down mechanism for an automatic torsion spring based injection device for multiple injections of a settable and adjustable dose size of a liquid drug comprising a torsion 5 spring which is strained when setting a dose by rotating a dose setting element relative to a housing in a first direction and unstrained when rotating the dose setting element in a second direction opposite the first direction, which dial-up/dial-down mechanism comprises: at least one ratchet arm (21) arranged to follow the rotation of the dose setting element in the 10 first direction when setting a dose, a toothed element (10) securing the at least one ratchet arm (21) against the bias of the tor sion spring such that engagement of the at least one ratchet arm (21) with a teeth (12) of the toothed element (10) prevents unwinding of the torsion spring, and wherein rotation of the 15 dose setting element in the first direction moves the ratchet arm (21) from one teeth (12) to the subsequent tooth (12) of the toothed element (10), and rotation of the dose setting element in the second direction lowering the set dose activates the at least one ratchet arm (21) to disengage the teeth (12) of the toothed element (10) and 20 thereby allow the torsion spring to move the ratchet arm (21) in the second direction to the previous tooth (12) such that the force accumulated in the torsion spring reduces incremen tally, characterized in that, 25 the at least one ratchet arm (21) is provided on a ratchet tube (20) which ratchet tube (20) further engages with the toothed element (10) through a plurality of friction teeth (30) thereby dampening the movement of the ratchet arm (21) executed by the torsion spring when the at least one ratchet arm (21) is disengaged from the teeth (12) of the toothed element (10). 30
    [2] 2. A dial-up/dial-down mechanism according to claim 1, wherein the ratchet tube (20) carries the friction teeth (30).
    [3] 3. A dial-up/dial-down mechanism according to claim 2, wherein the part of the toothed ele 35 ment (10) engaging the friction teeth (30) constitutes a cam curve (16). WO 2013/098194 PCT/EP2012/076421 14
    [4] 4. A dial-up/dial-down mechanism according to any of the claims 1 to 3, wherein a reset tube (40) is coupled between the ratchet tube (20) and the dose setting element which reset tube (40) activates the at least one ratchet arm (21) to disengage the teeth (12) of the toothed el 5 ement (10).
    [5] 5. A dial-up/dial-down mechanism according to any of the previous claims, wherein the ratchet tube (20) is keyed to a dose indicator sleeve (50) by a key (31) and groove (51) con nection. 10
    [6] 6. A dial-up/dial-down mechanism according to any of the previous claims, wherein the ratchet tube (20) is provided with means preventing the dose indicator sleeve (50) from rat tling. 15
    [7] 7. A dial-up/dial-down mechanism according to claim 6, wherein the means preventing rat tling of the dose indicator sleeve (50) is a number of flexible legs (32, 53) provided between the ratchet tube (20) and the dose indicator sleeve (50).
    [8] 8. An automatic torsion spring based injection device for multiple injections of a settable and 20 adjustable dose size of a liquid drug comprising; a housing holding the liquid drug, a rotatable dose setting element for setting the size of the dose thereby straining a torsion 25 spring, and further comprising a dial-up/dial-down mechanism according to any of the claims 1 to 7.
    [9] 9. An automatic torsion spring based injection device incorporating a dose indicator sleeve 30 (50) and an anti-rattle means for preventing rattling of the dose indicator sleeve (50).
    [10] 10. An automatic torsion spring based injection according to claim 9, wherein the anti-rattle means comprises a plurality of legs (32, 53) provided between the dose indicator sleeve (50) and a ratchet tube (20). 35
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    同族专利:
    公开号 | 公开日
    JP6069351B2|2017-02-01|
    WO2013098194A2|2013-07-04|
    BR112014016148A2|2017-06-13|
    CN103998077A|2014-08-20|
    CN103998077B|2017-05-31|
    BR112014016148A8|2017-07-04|
    MX2014007375A|2014-08-22|
    RU2014128518A|2016-02-20|
    US20140350478A1|2014-11-27|
    CA2861706A1|2013-07-04|
    EP2797650A2|2014-11-05|
    US9533106B2|2017-01-03|
    JP2015503377A|2015-02-02|
    WO2013098194A3|2013-09-06|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US854390A|1906-08-16|1907-05-21|Twitchell Co S|Apparatus for carbonating liquids.|
    GB574705A|1940-04-26|1946-01-17|Boulton Aircraft Ltd|Improvements in and relating to machine guns|
    US2392196A|1945-02-24|1946-01-01|Arthur E Smith|Syringe|
    GB664044A|1948-03-02|1951-01-02|Becton Dickinson Co|Injection device|
    US2956563A|1958-10-02|1960-10-18|Cartrix Corp|Hypodermic syringe devices|
    US3110310A|1961-07-20|1963-11-12|Ideal Instr & Mfg Co Inc|Metering hypodermic syringe|
    US3115135A|1962-03-12|1963-12-24|Stanley J Sarnoff|Aspirating piston and plunger coupling|
    US3144178A|1962-03-12|1964-08-11|Stanley J Sarnoff|Cartridge holder|
    US3556099A|1968-05-27|1971-01-19|Johnson & Johnson|Hypodermic syringe assembly|
    US3729003A|1971-02-11|1973-04-24|Ampoules Inc|Variable dosage ampoule applicator|
    CH563690A5|1973-03-09|1975-06-30|Radioelectrique Comp Ind||
    US3880162A|1973-04-25|1975-04-29|Lee G Simmons|Pole-syringe for injecting from a remote distance|
    JPS5733Y2|1975-01-21|1982-01-05|||
    US4026288A|1975-10-21|1977-05-31|Insulin Injector Inc.|Syringe injecting device|
    US4634431A|1976-11-12|1987-01-06|Whitney Douglass G|Syringe injector|
    DE2812729A1|1978-03-23|1979-09-27|Michael Becker|INJECTION DEVICE FOR INTRAMUSCULAR INJECTION, PRESENTLY OF INSULIN|
    US4430079A|1978-11-08|1984-02-07|Minnesota Mining And Manufacturing Company|Fluid dispensing device|
    US4298000A|1978-11-08|1981-11-03|Minnesota Mining And Manufacturing Company|Fluid dispensing device|
    WO1980001643A1|1979-02-12|1980-08-21|American Hospital Supply Corp|Capacitive switching circuit for energizing remote controlled device|
    DE2906830C2|1979-02-22|1981-07-16|B. Braun Melsungen Ag, 3508 Melsungen|Device for continuous infusions|
    NL7901750A|1979-03-06|1980-09-09|Stamicarbon|DEVICE FOR MIXING TWO FLUIDA.|
    USRE31315E|1979-07-02|1983-07-19|Imed Corporation|Apparatus for converting a pump to a controller|
    US4277227A|1979-07-02|1981-07-07|Imed Corporation|Apparatus for converting a pump to a controller|
    US4275727B1|1980-01-07|1985-11-05|||
    US4368731A|1980-02-12|1983-01-18|Schramm Heinrich W|Pistol-type syringe|
    US4313439A|1980-03-24|1982-02-02|Biotek, Inc.|Automated, spring-powered medicament infusion system|
    US4314556A|1980-04-21|1982-02-09|Ma Austin C|Emergency syringe|
    JPS56163486U|1980-05-09|1981-12-04|||
    DE3048135A1|1980-12-19|1982-07-15|Imed Corp., 92131 San Diego, Calif.|Intravenous liquid administration by pump - with external pressure sensing cartridge regulating discharge pressure|
    IT1168101B|1981-01-15|1987-05-20|Domenico Colombo|PERFECTED MANUAL PRESSURE SYRINGE, FOR DENTAL USE|
    IE52621B1|1981-02-12|1988-01-06|Turner Robert Charles|Dose metering plunger devices for use with syringes|
    US4393723A|1981-04-16|1983-07-19|Glen Brand|Fluid flow meter|
    AR228395A1|1981-05-07|1983-02-28|Merck & Co Inc|SYRINGE TO REGULATE THE AMOUNT SUPPLIED OF A PLASTIC SUBSTANCE|
    US4568335A|1981-08-28|1986-02-04|Markwell Medical Institute, Inc.|Device for the controlled infusion of medications|
    DE3204178C2|1982-02-06|1986-03-20|Eppendorf Gerätebau Netheler + Hinz GmbH, 2000 Hamburg|Pipetting device|
    US4515584A|1982-07-06|1985-05-07|Fujisawa Pharmaceutical Co., Ltd.|Artificial pancreas|
    DE3236374A1|1982-10-01|1984-04-05|Brown, Boveri & Cie Ag, 6800 Mannheim|Security paper|
    US4465478A|1982-10-14|1984-08-14|Collagen Corporation|Syringe force amplification device|
    US4493704A|1982-11-29|1985-01-15|Oximetrix, Inc.|Portable fluid infusion apparatus|
    DE3468173D1|1983-09-07|1988-02-04|Disetronic Ag|Portable infusion apparatus|
    US4648872A|1983-11-15|1987-03-10|Kamen Dean L|Volumetric pump with replaceable reservoir assembly|
    US4749109A|1983-11-15|1988-06-07|Kamen Dean L|Volumetric pump with replaceable reservoir assembly|
    US4584439A|1983-12-01|1986-04-22|Floating Membranes, Inc.|Audio transducer with controlled flexibility diaphragm|
    AU595723B2|1983-12-13|1990-04-05|John Brent Moetteli|Socket set for ratchet wrench|
    ES277095Y|1984-01-25|1985-02-16|Fernandez-Tresguerres Hernandez Jesus A.|SUPPLIER-DISPENSER OF INJECTABLE PRODUCTS|
    US4676122A|1984-06-15|1987-06-30|Daltex Medical Sciences, Inc.|Fail-safe mechanical drive for syringe|
    CH657015A5|1984-06-27|1986-08-15|Ciba Geigy Ag|MUD AND COPPER PROTECTION AGENTS.|
    WO1986001728A2|1984-09-07|1986-03-27|Wolfgang Wagner|Injection device with sensor|
    CA1254091A|1984-09-28|1989-05-16|Vladimir Feingold|Implantable medication infusion system|
    US4812724A|1984-11-13|1989-03-14|Liebel-Flarsheim Corporation|Injector control|
    FR2583291A1|1985-06-14|1986-12-19|Hazon Bernard|Device for step-by-step advance of syringe plungers by means of a double coaxial screw with control of the injection rate. Application to repetitive intradermic medicinal injections|
    EP0245312B1|1985-11-08|1990-05-02|Disetronic Ag|Injection instrument|
    DE3609555A1|1986-03-21|1987-09-24|Josef Porner|Blood-collecting syringe|
    DE3638984C3|1986-11-14|1993-11-18|Haselmeier Wilhelm Fa|Injection device|
    US5716990A|1987-03-09|1998-02-10|Cancer Research Campaign Technology Limited|Drug delivery systems|
    NL8701091A|1987-05-08|1988-12-01|Spruyt Hillen Bv|INJECTION PEN.|
    GB8713810D0|1987-06-12|1987-07-15|Hypoguard Uk Ltd|Measured dose dispensing device|
    US4838860A|1987-06-26|1989-06-13|Pump Controller Corporation|Infusion pump|
    GB8720477D0|1987-08-29|1987-10-07|Bick P A|Resynchronisation of body clock|
    FR2622457A1|1987-11-03|1989-05-05|Piccinali Eric|Mesotherapeutic injector with microprocessor|
    US4919596A|1987-12-04|1990-04-24|Pacesetter Infusion, Ltd.|Fluid delivery control and monitoring apparatus for a medication infusion system|
    JPH0322957Y2|1987-12-22|1991-05-20|||
    US4833379A|1988-01-13|1989-05-23|Sherwood Medical Company|Motor control fail-safe circuit|
    CH675078A5|1988-01-22|1990-08-31|Nosta Ag||
    US4898578A|1988-01-26|1990-02-06|Baxter International Inc.|Drug infusion system with calculator|
    DE8801613U1|1988-02-09|1988-04-21|Wegu Gummi- Und Kunststoffwerke Walter Draebing Kg, 3500 Kassel, De||
    DK166948B1|1988-02-10|1993-08-09|Dcp Af 1988 As|DOSING UNIT FOR DOSING A NUMBER OF MEASURED QUANTITIES OF A FLUID, SUCH AS INSULIN, FROM A GLASS STUBLE|
    US4973318A|1988-02-10|1990-11-27|D.C.P. Af 1988 A/S|Disposable syringe|
    GB8809115D0|1988-04-18|1988-05-18|Turner R C|Syringes|
    JP2717808B2|1988-08-10|1998-02-25|テルモ株式会社|Syringe pump|
    DE3833821A1|1988-10-05|1990-04-12|Braun Melsungen Ag|INJECTION DEVICE|
    US5244465A|1988-10-19|1993-09-14|Byk Gulden Lomberg Chemische Fabrik Gmbh|Reusable injection device for distributing a preselected dose|
    JPH02126184A|1988-11-04|1990-05-15|Casio Comput Co Ltd|Stop watch device|
    JPH02182267A|1989-01-06|1990-07-16|Oriental Kiden Kk|Drip monitor apparatus|
    FR2642786B1|1989-02-07|1991-05-10|Europ Agence Spatiale|LINEAR OR CIRCULAR LOCKING DEVICE, OF THE SAID RATCHET TYPE, SELF-LOCKING AND WITH AUTOMATIC RELEASE|
    DK68789A|1989-02-14|1990-08-15|Novo Nordisk As|injector|
    GB2229497B|1989-03-10|1992-06-03|Graseby Medical Ltd|Infusion pump|
    DE3908892A1|1989-03-17|1990-09-20|Siemens Ag|CIRCUIT ARRANGEMENT AND DEVICE FOR CONTACTLESS SETPOINT SETTING FOR AN INTEGRATED CIRCUIT COVERED WITH NON-MAGNETIC MATERIAL|
    US4924737A|1989-03-20|1990-05-15|Gummow Tool Company|Positive drive ratchet|
    US4994033A|1989-05-25|1991-02-19|Schneider Inc.|Intravascular drug delivery dilatation catheter|
    US5226895A|1989-06-05|1993-07-13|Eli Lilly And Company|Multiple dose injection pen|
    DE3923079C2|1989-07-13|1991-12-19|Fresenius Ag, 6380 Bad Homburg, De||
    US5011479A|1989-10-06|1991-04-30|Son Le|Cover and connector for hypodermic needle|
    DE3933542A1|1989-10-07|1991-04-18|Kg Catts Ges Fuer Erkennungs &|CODE ARRANGEMENT AND DEVICES FOR READING AND CODING THE SAME|
    US5002537A|1989-10-23|1991-03-26|Gte Products Corporation|Hypodermic syringe|
    US4990142A|1989-10-23|1991-02-05|Gte Products Corporation|Hypodermic syringe|
    US5122317A|1990-01-12|1992-06-16|The Regents Of The University Of Michigan|Method of superplastically deforming zirconia materials|
    DE4001238A1|1990-01-18|1991-07-25|Basf Ag|METHOD FOR ENRICHMENT OR CLEANING OF BIOMOLECULES|
    DK17890A|1990-01-22|1991-07-23|Novo Nordisk As|METHOD AND APPARATUS FOR MIXTURE AND INJECTION OF A MEDICINE|
    US5064098A|1990-02-23|1991-11-12|Physical Systems, Inc.|Dual component dispenser gun|
    US4998922A|1990-02-23|1991-03-12|Kuracina Thomas C|Safety syringe cap minimizing needle-stick probability|
    GB9007113D0|1990-03-29|1990-05-30|Sams Bernard|Dispensing device|
    US5207752A|1990-03-30|1993-05-04|Alza Corporation|Iontophoretic drug delivery system with two-stage delivery profile|
    US5318540A|1990-04-02|1994-06-07|Pharmetrix Corporation|Controlled release infusion device|
    US5492534A|1990-04-02|1996-02-20|Pharmetrix Corporation|Controlled release portable pump|
    US5226896A|1990-04-04|1993-07-13|Eli Lilly And Company|Dose indicating injection pen|
    US5097122A|1990-04-16|1992-03-17|Pacesetter Infusion, Ltd.|Medication infusion system having optical motion sensor to detect drive mechanism malfunction|
    US5104388A|1990-05-08|1992-04-14|Fbk International Corporation|Membrane splittable tubing|
    US5257987A|1990-05-21|1993-11-02|Pharmetrix Corporation|Controlled release osmotic infusion system|
    JPH0634825Y2|1990-07-20|1994-09-14|株式会社栗本鐵工所|Multi-stage roll crusher|
    US5113869A|1990-08-21|1992-05-19|Telectronics Pacing Systems, Inc.|Implantable ambulatory electrocardiogram monitor|
    AT163552T|1990-10-19|1998-03-15|Patrizio Compagnucci|A DISPOSABLE SYRINGE WITH A BUILT-IN SLIP CAP FOR THE NEEDLE|
    US5284480A|1990-11-09|1994-02-08|Medtronic, Inc.|Inflation/deflation syringe with threaded plunger|
    GB9026191D0|1990-12-01|1991-01-16|Harris Pharma Ltd|Breath actuated dispensing device|
    US5331954A|1990-12-21|1994-07-26|Novo Nordisk A/S|Device for nasal delivery of liquid medications|
    EP0498737B1|1991-02-07|1995-07-19|Terumo Kabushiki Kaisha|Dosing means for an injector|
    JPH04256757A|1991-02-07|1992-09-11|Terumo Corp|Quantitative dispenser|
    US5176646A|1991-02-19|1993-01-05|Takayuki Kuroda|Motorized syringe pump|
    US5078698A|1991-02-19|1992-01-07|Sterling Drug Inc.|Axial eject hypodermic syringe holder|
    US5135485A|1991-02-25|1992-08-04|Louis Cohen|Capacitance-type fluid level sensor for i.v. and catheter bags|
    DE4112259A1|1991-04-15|1992-10-22|Medico Dev Investment Co|INJECTION DEVICE|
    DK68991D0|1991-04-17|1991-04-17|Novo Nordisk As|HEADER|
    US5645052A|1991-04-26|1997-07-08|The Boc Group Plc|Anaesthetic vaporizer with expandable/contractable reservoir for pumping liquid anaesthetic|
    US5270685A|1991-07-02|1993-12-14|Mallinckrodt Medical, Inc.|Syringe pressure monitor|
    EP0525525B1|1991-07-24|1995-05-03|Medico Development Investment Company|Injector|
    IL102941D0|1991-08-27|1993-01-31|Thomas R Johnson|Injection syringe|
    DK175491D0|1991-10-18|1991-10-18|Novo Nordisk As|APPARATUS|
    US5163904A|1991-11-12|1992-11-17|Merit Medical Systems, Inc.|Syringe apparatus with attached pressure gauge|
    DE69214835T2|1991-11-29|1997-04-03|Novo Nordisk As|PIN SHAPED SYRINGE|
    DK194291D0|1991-11-29|1991-11-29|Novo Nordisk As|SPRAY FOR AUTOMATIC INJECTION.|
    US5221268A|1991-12-06|1993-06-22|Block Medical, Inc.|Multiple dose control apparatus|
    US5246417A|1991-12-11|1993-09-21|Alza Corporation|Indicator for iontophoresis system|
    US5279585A|1992-02-04|1994-01-18|Becton, Dickinson And Company|Medication delivery pen having improved dose delivery features|
    CH682806A5|1992-02-21|1993-11-30|Medimpex Ets|Injection device.|
    DE69319107T2|1992-03-25|1999-02-25|Galli Rosaria & C|POWDER DISPENSER FOR MEDICAL INHALATION THERAPIES|
    US5271527A|1992-04-02|1993-12-21|Habley Medical Technology Corporation|Reusable pharmaceutical dispenser with full stroke indicator|
    US5281198A|1992-05-04|1994-01-25|Habley Medical Technology Corporation|Pharmaceutical component-mixing delivery assembly|
    GB9219849D0|1992-09-19|1992-10-28|Hypoguard Uk Ltd|Device|
    AT198159T|1992-10-15|2001-01-15|Gen Hospital Corp|INFUSION PUMP WITH ELECTRONICALLY LOADABLE MEDICINE LIBRARY|
    US5545147A|1992-10-20|1996-08-13|Eli Lilly And Company|Anti-backup improvement for hypodermic syringes|
    FR2697434A1|1992-11-02|1994-05-06|Godillon Jean Francois|Surgical syringe plunger withdrawal attachment - has lever and transmission member which allow plunger to be withdrawn with one hand, leaving other one free|
    US5378233A|1992-11-18|1995-01-03|Habley Medical Technology Corporation|Selected dose pharmaceutical dispenser|
    DK145792D0|1992-12-03|1992-12-03|Dumex Ltd As|fluid dispensing apparatus|
    US5320609A|1992-12-07|1994-06-14|Habley Medical Technology Corporation|Automatic pharmaceutical dispensing syringe|
    GB9226423D0|1992-12-18|1993-02-10|Sams Bernard|Incrementing mechanisms|
    JP2530150Y2|1993-01-06|1997-03-26|城田電気炉材株式会社|Injection device for dental anesthetic, etc.|
    US5383865A|1993-03-15|1995-01-24|Eli Lilly And Company|Medication dispensing device|
    US5383856A|1993-03-19|1995-01-24|Bersin; Robert M.|Helical spiral balloon catheter|
    ZA941881B|1993-04-02|1995-09-18|Lilly Co Eli|Manifold medication injection apparatus and method|
    US5584815A|1993-04-02|1996-12-17|Eli Lilly And Company|Multi-cartridge medication injection device|
    US5292976A|1993-04-27|1994-03-08|Mobil Oil Corporation|Process for the selective conversion of naphtha to aromatics and olefins|
    SE9301494D0|1993-04-30|1993-04-30|Kabi Pharmacia Ab|A DEVICE FOR DOSING LIQUID PREPARATION|
    GB9309151D0|1993-05-04|1993-06-16|Zeneca Ltd|Syringes and syringe pumps|
    DE69429136D1|1993-06-30|2002-01-03|Hamilton Co|Manual delivery aid for a hypodermic syringe|
    DK83093D0|1993-07-09|1993-07-09|Novo Nordisk As|COURSE OF ACTION|
    US5957889A|1993-09-27|1999-09-28|Novo Nordisk A/S|Displacement system for controlled infusion of a liquid|
    CA2129284C|1993-11-24|1999-03-09|Kenneth J. Niehoff|Controlling plunger drives for fluid injection in animals|
    US5998989A|1993-12-22|1999-12-07|Itt Automotive Europe Gmbh|Device including magnet-biased magnetoresistive sensor and rotatable, magnetized encoder for detecting rotary movements|
    US5505697A|1994-01-14|1996-04-09|Mckinnon, Jr.; Charles N.|Electrically powered jet injector|
    AUPM348594A0|1994-01-21|1994-02-17|University Of Melbourne, The|Improvements in syringe pumps|
    AU3264595A|1994-08-24|1996-03-14|Eli Lilly Japan Kabushiki Kaisha|Injection apparatus|
    US5478316A|1994-02-02|1995-12-26|Becton, Dickinson And Company|Automatic self-injection device|
    US5562623A|1994-02-14|1996-10-08|Univec|Single-use syringe assembly including spring clip lock and plunger|
    US5514097A|1994-02-14|1996-05-07|Genentech, Inc.|Self administered injection pen apparatus and method|
    US5536249A|1994-03-09|1996-07-16|Visionary Medical Products, Inc.|Pen-type injector with a microprocessor and blood characteristic monitor|
    DE4414744C1|1994-04-27|1995-11-02|Eppendorf Geraetebau Netheler|Repeater pipette|
    EP0762904B1|1994-05-30|2002-10-02|B D Medico S.à.r.l.|Injection device|
    DE4419235C2|1994-06-01|1999-03-11|Thomas Braeger|Hypodermic syringe with a receptacle|
    WO1995034334A1|1994-06-15|1995-12-21|Interventional Research Technologies, Inc.|Locking device for syringe or like instrument|
    US5725508A|1994-06-22|1998-03-10|Becton Dickinson And Company|Quick connect medication delivery pen|
    US5827232A|1994-06-22|1998-10-27|Becton Dickinson And Company|Quick connect medication delivery pen|
    US5720733A|1994-07-22|1998-02-24|Raya Systems, Inc.|Apparatus for determining and recording injection doses in syringes using electrical capacitance measurements|
    US6110148A|1994-07-22|2000-08-29|Health Hero Network, Inc.|Capacitance-based dose measurements in syringes|
    US5496286A|1994-08-17|1996-03-05|Sterling Winthrop|Hypodermic syringe holder with disposable body|
    US5440976A|1994-08-23|1995-08-15|Fred Giuliano|Adjustable dispensing stirrer for soluble sweeteners|
    GB9418122D0|1994-09-08|1994-10-26|Owen Mumford Ltd|Improvements relating to injection devices|
    US5549575A|1994-09-13|1996-08-27|Becton Dickinson And Company|Cartridge retainer assembly for medication delivery pen|
    GB2309644B|1995-05-22|2000-05-31|Wolfgang Wagner|A method and device for diagnosis and injection|
    US5582598A|1994-09-19|1996-12-10|Becton Dickinson And Company|Medication delivery pen with variable increment dose scale|
    DK0782393T3|1994-09-20|1998-09-07|Slagteriselskabet Danish Crown|Process for treating an aqueous protein solution to kill microorganisms therein without causing coagulation|
    ZA958073B|1994-09-28|1996-04-23|Anthony William Manicom|Method of and apparatus for administering a drug to a patient|
    US5533970A|1994-09-28|1996-07-09|Becton, Dickinson And Company|Retractable needle syringe|
    US5512549A|1994-10-18|1996-04-30|Eli Lilly And Company|Glucagon-like insulinotropic peptide analogs, compositions, and methods of use|
    US5637095A|1995-01-13|1997-06-10|Minimed Inc.|Medication infusion pump with flexible drive plunger|
    DE19503230A1|1995-02-02|1996-08-08|Dietmar Dr Med Enk|Syringe with a damping and pressure measuring device integrated in the piston and method for uniform and pressure-controlled injection by means of this syringe|
    GB9503969D0|1995-02-28|1995-04-19|Sams Bernard|Incrementing mechanism|
    NZ302558A|1995-03-07|1999-11-29|Lilly Co Eli|Dispensing apparatus with a medication cartridge with a manually adjustable metering mechanism|
    US20010016571A1|1996-03-13|2001-08-23|Fujisawa Pharmaceutical Co., Ltd.|N-[ -1-{3- propionyl } -3-piperidylcarbonyl] -2 -acetylamino-beta -alanine as fibrinogen receptor antagonist|
    JP3017167U|1995-04-19|1995-10-24|澄夫 中川|Remaining time display watch|
    CN1124861C|1995-06-02|2003-10-22|诺沃挪第克公司|Automatic withdrawal of piston rod|
    US5700904A|1995-06-07|1997-12-23|Eli Lilly And Company|Preparation of an acylated protein powder|
    DE29513214U1|1995-08-21|1997-01-02|Adamaszek Franz Heinz|Dosing and automatic injection system|
    US5779675A|1995-08-25|1998-07-14|Medrad, Inc.|Front load pressure jacket system with syringe holder|
    AU1860697A|1995-09-08|1997-07-28|Visionary Medical Products Corporation|Pen-type injector drive mechanism|
    US5674204A|1995-09-19|1997-10-07|Becton Dickinson And Company|Medication delivery pen cap actuated dose delivery clutch|
    US5688251A|1995-09-19|1997-11-18|Becton Dickinson And Company|Cartridge loading and priming mechanism for a pen injector|
    US6159161A|1995-10-20|2000-12-12|Hodosh; Milton|Microprocessor-controlled fluid dispensing apparatus|
    US5989221A|1995-10-20|1999-11-23|Pharmacia & Upjohn Ab|Arrangement in electronically controlled injection devices|
    US5807334A|1995-10-20|1998-09-15|Hodosh; Milton|Fluid dispensing apparatus|
    FR2740345A1|1995-10-26|1997-04-30|Neftel Frederic|AUTOMATION DEVICE|
    US5741211A|1995-10-26|1998-04-21|Medtronic, Inc.|System and method for continuous monitoring of diabetes-related blood constituents|
    JPH09166474A|1995-12-19|1997-06-24|Omron Corp|Residual-quantity sensor|
    US5899879A|1995-12-19|1999-05-04|Genesis Medical Technologies, Inc.|Spring-actuated needleless injector|
    US5628309A|1996-01-25|1997-05-13|Raya Systems, Inc.|Meter for electrically measuring and recording injection syringe doses|
    US5814022A|1996-02-06|1998-09-29|Plasmaseal Llc|Method and apparatus for applying tissue sealant|
    DK0959922T3|1996-02-23|2003-09-01|Novo Nordisk As|Syringe with electronic representation of parameters|
    FR2745637B1|1996-03-04|1998-05-22|Motorola Semiconducteurs|SEMICONDUCTOR CHEMICAL SENSOR DEVICE AND THERMOCOUPLE FORMING METHOD THEREFOR|
    EP2062606B1|1996-03-12|2011-01-05|Novo Nordisk A/S|Injection device with electronic presentation of set doses|
    EP0894091B1|1996-03-15|2003-03-05|Novozymes A/S|Method for purification of a protein from a protein containing solution|
    WO1997036626A1|1996-04-02|1997-10-09|Disetronic Licensing Ag|Injection device|
    JP3483575B2|1996-04-02|2004-01-06|ディセトロニック・ライセンシング・アクチェンゲゼルシャフト|Injection device|
    DE29606540U1|1996-04-10|1997-08-07|Muehlbauer Ernst|Dental mass application device|
    AT196096T|1996-04-24|2000-09-15|Novo Nordisk As|INJECTION NEEDLE|
    AT249259T|1996-07-05|2003-09-15|Novo Nordisk As|DEVICE FOR AUTOMATICALLY INSERTING A NEEDLE|
    IL127586D0|1996-07-05|1999-10-28|Novo Nordisk As|Dose setting device|
    HU9904152A3|1996-07-05|2000-05-29|Novo Nordisk As|Flexible piston rod|
    DE19632402C1|1996-08-02|1998-04-09|Schering Ag|Method of making a prefilled, sterile syringe|
    US5843036A|1996-08-23|1998-12-01|Becton Dickinson And Company|Non-dosing cartridge for an injection device|
    US5709662A|1996-08-23|1998-01-20|Becton Dickinson France, S.A.|Cartridge for an injection device|
    CN1145500C|1996-09-13|2004-04-14|诺沃挪第克公司|Dose display for injection syringe|
    US6379339B1|1996-09-13|2002-04-30|Nova Nordisk A/S|Syringe|
    US5947934A|1996-09-13|1999-09-07|Novo Nordisk A/S|Dose display for an injection syringe|
    US6110149A|1996-09-13|2000-08-29|Novo Nordisk A/S|Syringe|
    DE69708894T2|1996-09-20|2002-08-22|Novo Nordisk As|WORKING CYLINDER|
    US5830194A|1996-09-20|1998-11-03|Azam Anwar|Power syringe|
    US6030368A|1996-09-20|2000-02-29|Azam Anwar|Power syringe having a base and a lever|
    US6146361A|1996-09-26|2000-11-14|Becton Dickinson And Company|Medication delivery pen having a 31 gauge needle|
    US5954689A|1996-12-20|1999-09-21|Novo Nordisk A/S|Jet injector|
    GB2321419B|1997-01-27|2001-02-07|Medic Aid Ltd|Atomizer|
    JP2001511033A|1997-02-04|2001-08-07|ノボノルディスクアクティーゼルスカブ|Liquid drug suspension dosing device|
    DE29703820U1|1997-03-03|1998-07-02|Medico Dev Investment Co|Injection device|
    US5898028A|1997-03-20|1999-04-27|Novo Nordisk A/S|Method for producing powder formulation comprising an insulin|
    US6277097B1|1997-03-25|2001-08-21|Novo Nordisk A/S|Injection system|
    RU2111019C1|1997-05-22|1998-05-20|Сергей Александрович Хворостов|General-purpose injector|
    DE19723647C1|1997-06-05|1998-12-24|Disetronic Licensing Ag|Fluid dosing unit indicator for e.g. insulin or for pipetting laboratory fluids|
    US6074372A|1997-06-09|2000-06-13|Novo Nordisk A/S|Dose setting mechanism and an injection syringe having such a dose setting mechanism|
    US6003736A|1997-06-09|1999-12-21|Novo Nordisk A/S|Device for controlled dispensing of a dose of a liquid contained in a cartridge|
    US5961496A|1997-06-17|1999-10-05|Novo Nordisk A/S|Syringe with tiltable nut for quick piston disengagement|
    US6796970B1|1997-06-17|2004-09-28|Novo Nordisk A/S|Dose setting device|
    AU7331598A|1997-07-11|1999-02-08|Novo Nordisk A/S|An apparatus for the registration of the setting of a medical device|
    AU8333398A|1997-07-14|1999-02-10|Novo Nordisk A/S|Injection member|
    JP2003514586A|1997-07-14|2003-04-22|ノボノルディスクアクティーゼルスカブ|Cylindrical ampule|
    DE19730999C1|1997-07-18|1998-12-10|Disetronic Licensing Ag|Injection pen dosing selected volume of fluid, especially insulin|
    SE9702872D0|1997-08-06|1997-08-06|Pharmacia & Upjohn Ab|Automated delivery device and method for its operation|
    US6171276B1|1997-08-06|2001-01-09|Pharmacia & Upjohn Ab|Automated delivery device and method for its operation|
    US5957896A|1997-08-11|1999-09-28|Becton, Dickinson And Company|Medication delivery pen|
    FR2767479B1|1997-08-22|1999-10-22|Aguettant Lab|DRUG INJECTION DEVICE|
    CH692543A5|1997-09-25|2002-07-31|Disetronic Licensing Ag|Dispenser with auto switch.|
    WO1999016485A1|1997-09-29|1999-04-08|Becton Dickinson And Company|Injection device and drug cartridge for preventing cross-use of the device and drug cartridge|
    US5896789A|1997-10-09|1999-04-27|Chicago Pneumatic Tool Company|Ratchet wrench head|
    US6312413B1|1997-10-30|2001-11-06|Novo Nordisk A/S|Cylinder ampoule|
    US5954700A|1998-01-13|1999-09-21|Minimed Inc.|Medication cartridge for an electronic pen-type injector, or the like, and method of making the same|
    IL135255D0|1998-01-30|2001-05-20|Novo Nordisk As|An injection syringe|
    CA2320993C|1998-02-13|2008-05-06|Graham Francois Duirs|Drug delivery system|
    US6221053B1|1998-02-20|2001-04-24|Becton, Dickinson And Company|Multi-featured medication delivery pen|
    US6096010A|1998-02-20|2000-08-01|Becton, Dickinson And Company|Repeat-dose medication delivery pen|
    US6248095B1|1998-02-23|2001-06-19|Becton, Dickinson And Company|Low-cost medication delivery pen|
    JP3436683B2|1998-03-17|2003-08-11|株式会社日立ユニシアオートモティブ|Rotation angle detector|
    CA2325004A1|1998-03-23|1999-09-30|Ehoud Carmel|Drug delivery device|
    US6391005B1|1998-03-30|2002-05-21|Agilent Technologies, Inc.|Apparatus and method for penetration with shaft having a sensor for sensing penetration depth|
    DE19822031C2|1998-05-15|2000-03-23|Disetronic Licensing Ag|Auto injection device|
    GB9812472D0|1998-06-11|1998-08-05|Owen Mumford Ltd|A dose setting device for medical injectors|
    JP2002517435A|1998-06-11|2002-06-18|シーラスコーポレイション|Use of alkylated compounds to inhibit proliferation of arterial smooth muscle cells|
    US6743202B2|1998-06-15|2004-06-01|Medrad, Inc.|Encoding of syringe information|
    DE69913344T2|1998-06-15|2004-10-14|Medrad, Inc.|CODING SYRINGE INFORMATION|
    US5933671A|1998-07-07|1999-08-03|Eastman Kodak Company|Camera with touch sensitive switch|
    KR20010053439A|1998-07-08|2001-06-25|한센 핀 베네드, 안네 제헤르, 웨이콥 마리안느|A medical delivery device and a cartridge assembly for use in the same|
    US5993423A|1998-08-18|1999-11-30|Choi; Soo Bong|Portable automatic syringe device and injection needle unit thereof|
    DE19838760A1|1998-08-26|2000-04-20|Bauer Jlona|Injection unit, especially for injecting medicines such as insulin, consists of a housing with a chamber for holding a needle, a cartridge and a release mechanism.|
    EP1113799A4|1998-09-17|2004-06-09|Lilly Co Eli|Protein formulations|
    US6033376A|1998-09-30|2000-03-07|Allergan Sales, Inc.|Wound shaper sleeve|
    US6605067B1|1998-11-20|2003-08-12|Novo Nordisk A/S|Injection needle|
    ES2249933T3|1998-12-22|2006-04-01|Eli Lilly And Company|SELF-STABLE FORMULATION OF PEPTIDE 1 GLUCAGON TYPE.|
    EP1144029A1|1998-12-22|2001-10-17|Alcor Medical Instruments|Method and device for monitoring fluid level|
    DE19900792C1|1999-01-12|2000-06-15|Disetronic Licensing Ag|Injection unit forming part of e.g. pen-type self-injection syringe has continuous dosing stop in spiral form with constant pitch ensuring close fine control and accuracy in use|
    DE29900482U1|1999-01-14|2000-08-31|Medico Dev Investment Co|Injection device|
    US6036675A|1999-02-03|2000-03-14|Specialized Health Products, Inc.|Safety sterile cartride unit apparatus and methods|
    JP2000237308A|1999-02-22|2000-09-05|Ckd Corp|Infusion pump|
    US6258062B1|1999-02-25|2001-07-10|Joseph M. Thielen|Enclosed container power supply for a needleless injector|
    AU3721500A|1999-03-05|2000-09-21|Accumed Systems, Inc.|High pressure syringe|
    DE19909602A1|1999-03-05|2000-09-07|Roche Diagnostics Gmbh|Device for drawing blood for diagnostic purposes|
    US6245046B1|1999-05-03|2001-06-12|University Of New Mexico|Reciprocating syringes|
    SE9901736D0|1999-05-12|1999-05-12|Pharmacia & Upjohn Ab|Injectino device and method for ITS operation|
    DE60026147T2|1999-08-05|2006-11-23|Becton, Dickinson And Co.|PEN DRIVE MEDICATION DISPENSER|
    US6277099B1|1999-08-06|2001-08-21|Becton, Dickinson And Company|Medication delivery pen|
    TW453884B|1999-09-16|2001-09-11|Novo Nordisk As|Dose setting limiter|
    US6514230B1|1999-10-12|2003-02-04|Novo Nordisk A/S|Air shot mechanism for electronic injection devices|
    PL364696A1|1999-10-12|2004-12-13|Novo Nordisk A/S|Air shot mechanism for electronic injection devices|
    CA2387893C|1999-10-22|2009-04-14|Antares Pharma, Inc.|Medical injector and medicament loading system for use therewith|
    US6585698B1|1999-11-01|2003-07-01|Becton, Dickinson & Company|Electronic medical delivery pen having a multifunction actuator|
    US6673033B1|1999-11-24|2004-01-06|Medrad, Inc.|Injectors, injector systems and injector control|
    US6558320B1|2000-01-20|2003-05-06|Medtronic Minimed, Inc.|Handheld personal data assistant with a medical device and method of using the same|
    WO2001060311A1|2000-02-16|2001-08-23|B D Medico S.A.R.L.|Method for reconstituting an injection liquid and an injection appliance for carrying out such a method|
    GB0007071D0|2000-03-24|2000-05-17|Sams Bernard|One-way clutch mechanisms and injector devices|
    US6485465B2|2000-03-29|2002-11-26|Medtronic Minimed, Inc.|Methods, apparatuses, and uses for infusion pump fluid pressure and force detection|
    DE10018827A1|2000-04-15|2001-10-25|Vetter & Co Apotheker|Syringe used in medicine comprises cylinder with thin tube at one end, movable plunger with piston rod, and protective sleeve.|
    US6558382B2|2000-04-27|2003-05-06|Medtronic, Inc.|Suction stabilized epicardial ablation devices|
    US6692472B2|2000-05-04|2004-02-17|Novo Nordisk A/S|Injection device, a preassembled dose setting and injection mechanism for an injection device, and a method of assembling an injection device|
    US6547763B2|2000-05-18|2003-04-15|Novo Nordisk A/S|Dose display for injection device|
    US6716198B2|2000-05-18|2004-04-06|Novo Nordisk A/S|Injection device|
    US6547764B2|2000-05-31|2003-04-15|Novo Nordisk A/S|Double pointed injection needle|
    US7080936B1|2001-06-13|2006-07-25|Simpson Frank B|Wrap spring clutch syringe ram and frit mixer|
    US6663602B2|2000-06-16|2003-12-16|Novo Nordisk A/S|Injection device|
    AU7841701A|2000-07-14|2002-01-30|Novo Nordisk As|A liquid medication delivery device and a method of delivering an intended dose|
    AU8466901A|2000-07-28|2002-02-13|Mdc Invest Holdings Inc|Retractable needle medical device for injecting fluid from a pre-filled cartridge|
    US6994261B2|2000-08-10|2006-02-07|Novo Nirdisk A/S|Support for a cartridge for transferring an electronically readable item of information from the cartridge to an electronic circuit|
    CA2418941A1|2000-08-10|2003-02-10|Synthes |Device for the introduction of medical items|
    AU8958901A|2000-09-22|2002-04-02|Novo Nordisk As|A medication delivery device|
    JP4975208B2|2000-10-03|2012-07-11|株式会社根本杏林堂|Automatic injection equipment|
    US7500959B2|2000-10-05|2009-03-10|Novo Nordisk A/S|Medication delivery system with improved dose accuracy|
    US6537251B2|2000-10-05|2003-03-25|Novo Nordisk A/S|Medication delivery device with bended piston rod|
    US6706016B2|2000-11-24|2004-03-16|Ckm Diagnostics, Inc.|Nerve stimulator output control needle with depth determination capability and method of use|
    US6599323B2|2000-12-21|2003-07-29|Ethicon, Inc.|Reinforced tissue implants and methods of manufacture and use|
    US6808543B2|2000-12-21|2004-10-26|Ferco Enterprises, Inc.|Biomass gasification system and method|
    US6461328B2|2000-12-21|2002-10-08|Uniqsafe Medical Technology Group Ltd.|Safety syringe|
    US6899699B2|2001-01-05|2005-05-31|Novo Nordisk A/S|Automatic injection device with reset feature|
    EP1808193A1|2001-02-14|2007-07-18|Novo Nordisk A/S|Electronically controlled device|
    GB0107600D0|2001-03-27|2001-05-16|Dca Design Int Ltd|Improvements in and relating to an injection device|
    GB0107607D0|2001-03-27|2001-05-16|Dca Design Int Ltd|Improvements in and relating to an injection device|
    GB0107601D0|2001-03-27|2001-05-16|Dca Design Int Ltd|Improvements in and relating to and injection device|
    GB0107604D0|2001-03-27|2001-05-16|Dca Design Int Ltd|Improvements in and relating to injection device|
    WO2002083209A1|2001-04-13|2002-10-24|Nipro Diabetes Systems|Drive system for an infusion pump|
    DK2258424T3|2001-05-16|2013-02-18|Lilly Co Eli|Device for injecting drugs|
    GB0113881D0|2001-06-07|2001-08-01|Innovate Biomed Ltd|Foil cutting system|
    US6752781B2|2001-06-08|2004-06-22|Sergio Landau|Durable hypodermic jet injector apparatus and method|
    DE10133216B4|2001-07-09|2005-01-27|Tecpharma Licensing Ag|position detection|
    DE20209051U1|2001-12-21|2003-04-24|Disetronic Licensing Ag|Medicament administration device has dosage adjuster mounted on piston rod and end stop mounted at end of its path, locking system preventing adjuster from rotating and pressing against stop|
    DE10163326A1|2001-07-30|2003-02-27|Disetronic Licensing Ag|Administration device with dosing device|
    US7235063B2|2001-08-21|2007-06-26|D'antonio Consultants International, Inc.|Hypodermic injection system|
    DK200100240U3|2001-09-18|2001-11-23|Niels Tessing|garlic Crusher|
    EP2319561B1|2001-12-13|2013-07-17|Panasonic Corporation|Administration instrument for medical use|
    GB0130138D0|2001-12-18|2002-02-06|Dca Design Int Ltd|Improvements in an relating to a medicament injection apparatus|
    GB0200444D0|2002-01-10|2002-02-27|Owen Mumford Ltd|Improvements relating to medical injection devices|
    GB0200637D0|2002-01-12|2002-02-27|Dca Design Int Ltd|Improvements in and relating to medicament injection apparatus|
    DE10201875C1|2002-01-18|2003-05-22|Austriamicrosystems Ag|Magnetic or electrical field sensor system has modulators with non-inverting and inverting conditions providing for different sensor configurations|
    US7169107B2|2002-01-25|2007-01-30|Karen Jersey-Willuhn|Conductivity reconstruction based on inverse finite element measurements in a tissue monitoring system|
    US8016798B2|2003-02-24|2011-09-13|Integrated Sensing Systems, Inc.|Fluid delivery system and sensing unit therefor|
    US20030175355A1|2002-03-07|2003-09-18|Tobyn Michael John|Fast melt multiparticulate formulations for oral delivery|
    JP4350525B2|2002-03-18|2009-10-21|イーライリリーアンドカンパニー|Drug dispensing device with gear set giving mechanical advantages|
    JP4064138B2|2002-03-28|2008-03-19|スーガン株式会社|Medical tube opener|
    US20040010204A1|2002-03-28|2004-01-15|Pearl Technology Holdings, Llc|Electronic/fiberoptic tissue differentiation instrumentation|
    JP2003296915A|2002-03-29|2003-10-17|Tdk Corp|Magnetic recording medium|
    US20050171476A1|2002-05-24|2005-08-04|Judson Jared A.|Medication injecting apparatus with fluid container piston-engaging drive member having internal hollow for accommodating drive member shifting mechanism|
    DE10226643A1|2002-06-14|2004-01-15|Disetronic Licensing Ag|Piston stopper for injection device, product container and injection device|
    DE10229122B4|2002-06-28|2006-09-07|Tecpharma Licensing Ag|Administration device with resettable actuation lock|
    US7328064B2|2002-07-04|2008-02-05|Inovio As|Electroporation device and injection apparatus|
    JP2005532129A|2002-07-10|2005-10-27|ノボ・ノルデイスク・エー/エス|Syringe with dose setting limiter|
    US6945961B2|2002-07-10|2005-09-20|Novo Nordisk A/S|Injection device|
    AU2003239784A1|2002-07-10|2004-02-02|Novo Nordisk A/S|An injection device|
    EP1391794A1|2002-07-23|2004-02-25|Novo Nordisk A/S|Device with time indicating means|
    US6929619B2|2002-08-02|2005-08-16|Liebel-Flarshiem Company|Injector|
    DE10237258B4|2002-08-14|2006-09-21|Tecpharma Licensing Ag|injection device|
    EP1539279B1|2002-08-29|2006-06-28|Novo Nordisk A/S|Frontloaded injection device|
    DE10240165A1|2002-08-30|2004-03-18|Disetronic Licensing Ag|Dispensing unit for use in infusion pumps comprises reservoir for infusion liquid fitted with spring-loaded piston, toothed wheel cooperating with locking bar to prevent piston moving|
    DE10240166A1|2002-08-30|2004-03-18|Disetronic Licensing Ag|Injection syringe for dispensing insulin to treat diabetes has piston operated by flexible belt which is moved by manually-operated wheel with teeth which cooperate with catches set to give predetermined dose|
    US20040051368A1|2002-09-17|2004-03-18|Jimmy Caputo|Systems and methods for programming pumps|
    CA2500195C|2002-09-24|2009-07-21|Shl Medical Ab|Injecting device|
    EP2353592A1|2002-09-26|2011-08-10|Japan Science and Technology Agency|Therapeutic causing contraction of mucosal tissue and method of treating diseases relating to mucosal tissues|
    US20060069355A1|2002-10-15|2006-03-30|Jared Alden Judson And Kenneth Alan Ritsher|Medication dispensing apparatus with squeezable actuator|
    GB0229345D0|2002-12-17|2003-01-22|Safe T Ltd|Hollow needle applicators|
    US20050019400A1|2003-01-27|2005-01-27|Deveney Thomas William|Controlled-release drug delivery system|
    GB0304824D0|2003-03-03|2003-04-09|Dca Internat Ltd|Improvements in and relating to a pen-type injector|
    GB0304823D0|2003-03-03|2003-04-09|Dca Internat Ltd|Improvements in and relating to a pen-type injector|
    GB0304822D0|2003-03-03|2003-04-09|Dca Internat Ltd|Improvements in and relating to a pen-type injector|
    JP2006520251A|2003-03-06|2006-09-07|ライフスキャン・インコーポレイテッド|System and method for piercing skin tissue|
    GB0306642D0|2003-03-22|2003-04-30|Dca Design Int Ltd|Improvements in and relating to an injector for a medical product|
    JP4762131B2|2003-03-24|2011-08-31|ノボ・ノルデイスク・エー/エス|Transparent electronic marking of medical cartridge|
    US6932794B2|2003-04-03|2005-08-23|Becton, Dickinson And Company|Medication delivery pen|
    GB0308267D0|2003-04-10|2003-05-14|Dca Design Int Ltd|Improvements in and relating to a pen-type injector|
    JP2006524069A|2003-04-23|2006-10-26|バソジェンアイルランドリミテッド|Discharge device|
    US7641668B2|2003-05-16|2010-01-05|Scimed Life Systems, Inc.|Fluid delivery system and related methods of use|
    FR2857654B1|2003-07-16|2007-04-27|Prodonta|DEVICE FOR EJECTING A LIQUID OR PASTY PRODUCT|
    CA2530263C|2003-08-12|2012-04-17|Eli Lilly And Company|Medication dispensing apparatus with triple screw threads for mechanical advantage|
    US7708732B2|2003-10-16|2010-05-04|Nps Pharmaceuticals, Inc.|Methods of administering therapeutic injections|
    MXPA06004155A|2003-10-16|2006-06-28|Lilly Co Eli|Fixed dose medication dispensing device.|
    DE20317377U1|2003-11-03|2005-03-17|B D Medico S A R L|injection device|
    EP1541185A1|2003-12-08|2005-06-15|Novo Nordisk A/S|Automatic syringe with priming mechanism|
    CN105641776B|2004-03-03|2021-03-30|株式会社根本杏林堂|Chemical solution injection system, chemical solution injection device, and chemical solution heat-insulating device|
    GB0406088D0|2004-03-18|2004-04-21|Smiths Group Plc|Infusion apparatus and methods|
    SI1732629T1|2004-03-30|2019-07-31|Eli Lilly And Company|Medication dispensing apparatus with spring-driven locking feature enabled by administration of final dose|
    PT1732628E|2004-03-30|2011-12-07|Lilly Co Eli|Medication dispensing apparatus with gear set having drive member accommodating opening|
    DE202004006611U1|2004-04-23|2005-08-25|Tecpharma Licensing Ag|Injection device for administering an injectable product with secured dosing device|
    GB2414399B|2004-05-28|2008-12-31|Cilag Ag Int|Injection device|
    US7448385B2|2004-06-07|2008-11-11|Purepharm Inc.|Nasal adaptation of an oral inhaler device|
    RU2006146924A|2004-07-05|2008-08-10|Ново Нордиск А/С |INJECTION DEVICE WITH CREDIT CARD SIZE|
    WO2006006643A1|2004-07-14|2006-01-19|Nemoto Kyorindo Co., Ltd.|Medical liquid injection system|
    US7605168B2|2004-09-03|2009-10-20|Plexxikon, Inc.|PDE4B inhibitors|
    DE102004046003A1|2004-09-17|2006-03-30|Arzneimittel Gmbh Apotheker Vetter & Co. Ravensburg|Pharmaceutical package, as a syringe or vial or capsule, has an integrated microchip and antenna to give a unique and tamper-proof identity|
    CA2582976C|2004-10-04|2013-10-29|Sanofi-Aventis Deutschland Gmbh|Drive mechanism for a drug delivery device|
    EP1645301A1|2004-10-11|2006-04-12|Novo Nordisk A/S|Injection device|
    JP4964136B2|2004-10-14|2012-06-27|ノボ・ノルデイスク・エー/エス|Syringe with dose setting mechanism|
    US8083711B2|2004-10-21|2011-12-27|Novo Nordisk A/S|Injection device with internal dose indicator|
    PL1819382T3|2004-10-21|2010-03-31|Novo Nordisk As|Injection device with torsion spring and rotatable display|
    EP1804868B1|2004-10-21|2009-12-23|Novo Nordisk A/S|Injection device with a processor for collecting ejection information|
    ZA200703707B|2004-10-21|2009-02-25|Novo Nordisk As|Dial-Down Mechanism for Wind-up Pen|
    ITVR20040168A1|2004-10-25|2005-01-25|C M Tecnologie S R L|SELECTOR, PARTICULARLY BUT NOT ONLY FOR AUTOMATIC DRINK DISTRIBUTORS|
    US20070265568A1|2004-11-04|2007-11-15|Izrail Tsals|Automatic Injector|
    DE102004063645A1|2004-12-31|2006-07-20|Tecpharma Licensing Ag|Device for metered administration of a fluid product with decoupling for a container change|
    RU2401133C2|2005-01-21|2010-10-10|Ново Нордиск А/С|Automatic injection device with upper unlock mechanism|
    JP2006250582A|2005-03-08|2006-09-21|Hitachi Plant Technologies Ltd|Rfid tag with load sensor|
    WO2006114396A1|2005-04-24|2006-11-02|Novo Nordisk A/S|Injection device|
    WO2006114395A1|2005-04-24|2006-11-02|Novo Nordisk A/S|An injection device with a gearbox|
    WO2006116997A1|2005-04-29|2006-11-09|Novo Nordisk A/S|Handheld injection device with integrated force sensor|
    DK200500116U3|2005-05-23|2005-06-24|Novo Nordisk As|Motor-powered injection apparatus|
    CN101184519B|2005-05-31|2011-08-31|诺和诺德公司|Injection device with visual end-of-content indication|
    US20060276753A1|2005-06-01|2006-12-07|Victor Kronestedt|Device for delivering medicament|
    CA2616248C|2005-07-27|2014-09-09|Novo Nordisk A/S|Syringe device with a dose limiting mechanism and an additional safety mechanism|
    NO332933B1|2005-08-18|2013-02-04|Rolls Royce Marine As|System for handling a wire, chain and cable on board a vessel|
    DE102005060929A1|2005-09-14|2007-03-15|Tecpharma Licensing Ag|Product e.g. insulin, injecting device, has housing and operating knob with locking units that are formed such that movement of operating knob in one direction has smaller resistance in contrast to movement in other direction|
    US20090043253A1|2005-10-11|2009-02-12|Blake Podaima|Smart medical compliance method and system|
    GB0524604D0|2005-12-02|2006-01-11|Owen Mumford Ltd|Injection method and apparatus|
    US20070167916A1|2006-01-16|2007-07-19|Linfair Engineering Co., Ltd.|Outer barrel for a syringe|
    US8361036B2|2006-03-10|2013-01-29|Novo Nordisk A/S|Injection device having a gearing arrangement|
    US8298194B2|2006-03-10|2012-10-30|Novo Nordisk A/S|Injection device and a method of changing a cartridge in the device|
    CN101405582B|2006-03-20|2012-09-05|诺沃—诺迪斯克有限公司|Determination of cartridge content by capacitive means|
    US9008764B2|2006-03-20|2015-04-14|Novo Nordisk A/S|Determination of position of injection needle|
    EP2019701B1|2006-05-16|2010-02-24|Novo Nordisk A/S|A gearing mechanism for an injection device|
    AU2007271723A1|2006-07-05|2008-01-10|Papantoniou, Kalliopi|A method and composition for treating the scalp|
    WO2008031236A1|2006-09-15|2008-03-20|Tecpharma Licensing Ag|Splash-resistant injection device|
    DK2073871T3|2006-09-29|2013-06-10|Novo Nordisk As|Injection device with electronic detection means|
    CN102836478B|2006-10-26|2015-03-11|马林克罗特有限公司|Medical fluid injector having a thermo-mechanical driver|
    US7621842B2|2007-02-14|2009-11-24|Shimano Inc.|Bicycle hub assembly|
    DE102007016811A1|2007-04-05|2008-10-09|Tecpharma Licensing Ag|Device for administering a fluid substance from a multi-chamber ampoule|
    US20080306443A1|2007-06-06|2008-12-11|Mallinckrodt Inc.|Medical Fluid Injector Having Wireless Pressure Monitoring Feature|
    US8992484B2|2008-01-23|2015-03-31|Novo Nordisk A/S|Device for injecting apportioned doses of liquid drug|
    AT506690B1|2008-06-16|2009-11-15|Pharma Consult Ges M B H & Co|INJECTION DEVICE|
    BRPI0919925B8|2008-10-24|2021-06-22|Novo Nordisk As|down selector mechanism for injection device|
    WO2011025448A1|2009-08-24|2011-03-03|Shl Group Ab|Dose reset mechanism|
    PL215310B1|2009-10-30|2013-11-29|Kappa Medilab Spolka Z Ograniczona Odpowiedzialnoscia|Automatic applicator, especially for insulin|
    EP2563431A4|2010-04-26|2017-11-29|SHL Group AB|Medicament delivery device|
    EP2438940A1|2010-10-08|2012-04-11|Sanofi-Aventis Deutschland GmbH|Auto injector with a torsion spring|
    GB2484490A|2010-10-12|2012-04-18|Owen Mumford Ltd|Frangible needle shield for syringe|
    WO2013178372A1|2012-05-31|2013-12-05|Novo Nordisk A/S|Dial-down mechanism for wind-up pen|US6663602B2|2000-06-16|2003-12-16|Novo Nordisk A/S|Injection device|
    ZA200703707B|2004-10-21|2009-02-25|Novo Nordisk As|Dial-Down Mechanism for Wind-up Pen|
    WO2013178372A1|2012-05-31|2013-12-05|Novo Nordisk A/S|Dial-down mechanism for wind-up pen|
    US9789258B2|2012-11-08|2017-10-17|Sanofi-Aventis Deutschland Gmbh|Dose setting mechanism for a drug delivery device|
    DE202013001350U1|2013-02-08|2014-05-09|Haselmeier Gmbh|injection device|
    TW201521810A|2013-09-03|2015-06-16|Sanofi Sa|Drive mechanism|
    JP2017529973A|2014-10-08|2017-10-12|ノボ・ノルデイスク・エー/エス|Torsion spring for an injection device and injection device with such a torsion spring|
    US10744270B2|2014-11-24|2020-08-18|Sanofi|Dose setting mechanism and drug delivery device with ratchet mechanism|
    TR201906808T4|2015-02-27|2019-05-21|Novo Nordisk As|Drug delivery device with dose reset mechanism.|
    US10441722B2|2015-04-29|2019-10-15|Novo Nordisk A/S|Drug delivery device with spring mechanism|
    DE102015111878A1|2015-07-22|2017-01-26|Aesculap Ag|Space-saving Rat unit with freewheel|
    EP3570914A1|2017-01-23|2019-11-27|Sanofi|Drive train for dial of a torsion-spring assisted wind-up injection device|
    JP2020525104A|2017-06-27|2020-08-27|ノボ・ノルデイスク・エー/エス|Torsion spring driven injection device|
    WO2019058382A1|2017-09-19|2019-03-28|Bharat Serums And Vaccines Ltd|An automated multi-use injecting system for administration of injectable medicaments|
    法律状态:
    2015-12-10| MK12| Application lapsed section 141(1)/reg 8.3(2) - applicant filed a written notice of withdrawal|
    优先权:
    申请号 | 申请日 | 专利标题
    EP11195986.2||2011-12-29||
    EP11195986||2011-12-29||
    US201261587435P| true| 2012-01-17|2012-01-17||
    US61/587,435||2012-01-17||
    PCT/EP2012/076421|WO2013098194A2|2011-12-29|2012-12-20|Dial-up/dial-down mechanism for wind-up pen|
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