• 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:
    Autoinjector comprising a piston rod (5) adapted to cooperate with a piston (P) of a reservoir (S), said piston rod (5) being movable between a loaded position and an injection position, a spring of injection (8) being provided for urging said piston rod (5) towards its injection position, the autoinjector comprising an injection lock comprising a control sleeve (4) containing said piston rod (5) and said spring injection device (8), said piston rod (5) having a radial recess (50) receiving at least one substantially spherical locking element (7) movable between a locking position and an unlocking position, said at least one element blocking device (7) being biased radially outwardly by said piston rod (5) and being retained in the locking position by a locking ring (23) displaceable relative to said piston rod (5) to release said less a blocking element (7), an organ upport (6) being fixed in said control sleeve (4), said support member (6) having a ring (60), one axial side of which is in contact with said injection spring (8) and the other axial side supports said at least one locking element (7), said locking ring (23) being engaged on said support member (6), said locking ring (23) being disengaged from said support member (6) by said control sleeve (4). ) when said control sleeve (4) is moved axially when actuating the autoinjector, to unlock said injection lock.
    公开号:FR3019749A1
    申请号:FR1453251
    申请日:2014-04-11
    公开日:2015-10-16
    发明作者:Anthony Saussaye
    申请人:Aptar France SAS;
    IPC主号:
    专利说明:

    [0001] The present invention relates to an autoinjector. Auto-injectors are well known in the state of the art. These devices are primarily intended to achieve an automatic injection of the contents of a syringe inside the body of a patient. Various systems exist to make the injection of the fluid product contained in the syringe automatic. Auto-injectors are relatively complex devices that must meet a number of constraint requirements to be reliable. The robustness of the device, its maneuverability, reliability and ease of use for the user are also important. Moreover, most of these autoinjectors are single-use, the cost of manufacturing and assembly is also a factor to consider. There are many autoinjectors on the market, all of which have a number of disadvantages.
    [0002] Thus, to avoid inadvertent tripping of the autoinjector, for example during transport or during storage, the devices must include reliable locking means. Similarly, when a user wants to use the autoinjector and unlocks the device, for example by removing the cover, the device must not be triggered inadvertently but only when the user really wants, c that is to say at the moment when he applies it against the part of the body in which he wants to perform the injection. However, especially when people using the autoinjector are elderly or disabled, it may happen that the user drops the device when he wants to use it. It is desirable that in such a case the autoinjector does not trigger itself. It is therefore important to have a reliable release lock. On the other hand, the use of the autoinjector should not become too difficult, which would prevent weak people from using it. It is therefore difficult to find the right compromise between the safety of the locking and the ease of use and actuation of the autoinjector. It is one of the objectives of the present invention to respond to this problem.
    [0003] The document WO 201 3/1 751 48 describes a device of the state of the art. The present invention aims to provide an autoinjector which does not reproduce the aforementioned drawbacks, and which makes it possible to meet the various requirements and constraints important for safe and reliable use of the autoinjector. The present invention also aims to provide an autoinjector which comprises a reliable injection lock, resistant to unwanted actuations, and easily triggered without excessive effort.
    [0004] The present invention also aims to provide an autoinjector that is simple and inexpensive to manufacture and assemble. The present invention therefore relates to an autoinjector comprising a body receiving a reservoir, said reservoir containing fluid and comprising a piston and a needle, such as a pre-filled syringe, said autoinjector comprising a piston rod adapted to cooperate with the piston of said reservoir, said piston rod being movable between a loaded position and an injection position in which said piston rod has moved the piston of the reservoir to inject the fluid through the needle, an injection spring being provided for urging said piston rod towards its injection position, the autoinjector having an injection lock which locks said piston rod in its loaded position, said injection lock having a control sleeve, said control sleeve containing said piston rod and said injection spring, said piston rod having a radial recess receiving at least one elem A substantially spherical locking device, such as a ball, movable between a locking position and an unlocking position, said at least one blocking member being biased radially outwardly by said piston rod and being held in the locking position by a locking ring, said locking ring being movable relative to said piston rod to release said at least one blocking element and thus unlocking said injection lock, allowing said injection spring to move said piston rod towards its injection position, a support member being fixed, in particular latched, in said control sleeve, said support member comprising a ring, one axial side of which is in contact with said injection spring and the other axial side supports said at least one a substantially spherical locking element, said locking ring being engaged, in particular latched, on said support member, said locking ring being and disengaged from said support member by said control sleeve when said control sleeve is moved axially when actuating the autoinjector, to unlock said injection lock. Advantageously, said locking ring comprises lugs, preferably of rounded shape, which are, in the locking position of the injection lock, snapped under an inclined ramp of said support member. Advantageously, said locking ring comprises a chamfered lower edge for urging said at least one blocking element radially inwards during assembly of said locking ring on said support member. Advantageously, said support member comprises first radial projections cooperating with a shoulder of said control sleeve for fixing said support member on said control sleeve. Advantageously, an indicator element is fixed, in particular latched, on said support member, said indicator element cooperating after injection with the body to provide the user with a sonic and / or tactile and / or visual indication. Advantageously, said support member comprises second radial projections cooperating with windows of said indicator element for fixing said indicator element on said support member. Advantageously, said autoinjector comprises an actuator sleeve having a contact end intended to come into contact with the body of the user, said actuator sleeve extending at least partially inside said body and being displaceable relative to said body between projected positions, wherein said actuator sleeve at least partially protrudes from said body, and an actuating position, wherein said actuator sleeve is axially displaced inwardly of said body, said actuator sleeve being in a first projected position prior to actuation of the autoinjector and in a second projected position after actuation of the autoinjector. Advantageously, said actuator sleeve comprises an upper edge which comes into contact with said control sleeve during actuation, so that said control sleeve is moved axially by said actuator sleeve to unlock said injection lock. These and other features and advantages of the present invention will appear more clearly in the following detailed description, with reference to the accompanying drawings, given by way of non-limiting examples, and in which: Figures la and lb are cross-sectional views according to two different cutting planes of an autoinjector according to an advantageous embodiment of the present invention, before use, Figures 2a and b are views similar respectively to those of Figures 1a and 1b, after withdrawal 3a and 3b are views similar respectively to those of Figures la and 1b, at the beginning of actuation, Figures 4a and 4b are views similar respectively to those of Figures la and 1 b, during actuation and at the beginning of injection, FIGS. 5a and 5b are views similar respectively to those of FIGS. 1a and 1b, after injection, FIGS. 6a and 6b are similar views respectively to those of Figures la and 1b, at the end of actuation, Figures 7a, 7b and 7c are detail views in cross section along three different section planes of the autoinjector of FIGS. 1 to 6, before actuation, FIGS. 7a and 7b being cross-sectional detail views along the same sectional planes as FIGS. 1 to 6, and FIG. 7c being an additional detail view according to another section plane. FIGS. 8a, 8b and 8c are views similar respectively to those of FIGS. 7a, 7b and 7c, at the beginning of actuation. FIGS. 9a, 9b and 9c are similar views respectively to FIGS. those of FIGS. 7a, 7b and 7c, before triggering of the injection lock, FIGS. 10a, 10b and 10c are views similar respectively to those of FIGS. 7a, 7b and 7c, in the course of triggering the injection lock but before injection, the figures 11a, 11b and 11c are views similar respectively to those of FIGS. 7a, 7b and 7c, after triggering of the injection lock at the beginning of injection, FIGS. 12a, 12b and 12c are views similar respectively to those FIGS. 7a, 7b and 7c, at the end of the injection but before the end of injection indicator is triggered, FIGS. 13a, 13b and 13c are views similar to those of FIGS. 7a, 7b and 7c, respectively. 14a, 14b and 14c are views similar respectively to those of FIGS. 7a, 7b and 7c, after injection, FIGS. 15a to 15g are diagrammatic views. FIG. 16 is a schematic perspective view of the control sleeve of the autoinjector of FIGS. 1 to 14; FIG. 17 is a schematic perspective view of the rod of FIG. piston of the autoinjector of figures 1 14, Figures 18a and 18b are schematic perspective views in two different orientations of the locking ring of the autoinjector of Figures 1 to 14, Figures 19a and 19b are schematic perspective views in two different orientations of the FIG. 20 is a schematic perspective view of the indicator element of the autoinjector of FIGS. 1 to 14; FIGS. 21a and 21b schematically illustrate the assembly of the organ. FIG. support in the control sleeve, in the embodiment of Figures 1 to 14, Figures 22a to 22c schematically illustrate the assembly of the locking elements of the injection lock, in the embodiment of Figures 1 to 14, and Figures 23a to 23c schematically illustrate the assembly of the locking ring on the support member, in the embodiment of Figures 1 to 14.
    [0005] In the description below, the terms "upper", "lower", "high" and "low" refer to the positions shown in Figs. 1a to 15g and 21a to 23c. The terms "axial" and "radial" refer to the longitudinal central axis X, shown in particular in Figure 1a. The autoinjector will be described hereinafter with reference to an advantageous embodiment thereof. It should be noted, however, that autoinjectors, which are complex devices, include several modules to perform several functions. These various modules can be used separately and independently of each other, without necessarily being combined with other modules, and could in particular be used in autoinjectors of different shape from that shown in the drawings. In addition, it should be noted that the drawings are schematic views that do not necessarily represent the exact form of the components of an autoinjector, and are not necessarily to scale, especially for the sake of clarity. Furthermore, the drawings do not necessarily represent all the constituent elements of an autoinjector, but only the elements necessary for the operation of the present invention. Thus, various additional and / or complementary elements and modules could be associated with the autoinjector shown in the figures.
    [0006] The autoinjector shown in the figures comprises a body 1 in which slides axially an actuator sleeve 10, the lower end 11 is intended to come into contact with the body of the patient around the injection zone. In the example shown in the figures, the autoinjector comprises a lower body 1a and an upper body 1b which are assembled to form the body 1 of the autoinjector, as shown in Figures la and 1b. Hereinafter, and in the other figures, the term "body" and the reference numeral "1" will be used to designate said unitary body formed by the assembly of said lower body 1a with said upper body 1b. A tank S can be inserted into said autoinjector. This reservoir S contains fluid, and comprises a piston P and a needle A. The piston P is adapted to move in said reservoir S to inject the fluid through said needle A. The present description will be made with reference to a syringe S, which can be of any type. More generally, it is understood that the term "syringe" in this specification encompasses any type of tank associated with a needle. Preferably, the reservoir S is a pre-filled syringe. Before actuating the autoinjector, the needle A of the syringe S is preferably protected by a cap C1, the autoinjector comprising a cap C2 that the user can remove before actuation. Removing the cover C2 causes the cap C1 to be removed.
    [0007] Before actuation, the actuator sleeve 10 is in a first projected position in which it surrounds the needle A, as shown in Figures 2a and 2b. Upon actuation, the actuator sleeve 10 slides inside the body 1 to an actuating position, to expose the needle A and allow the stitching and then the injection of the fluid.
    [0008] After the injection, the actuator sleeve 10 returns to a second projected position, in which it is again disposed around the needle A, to avoid any risk of injury with said needle, as shown in Figures 6a and 6b. The actuator sleeve 10 is advantageously biased towards its projected positions by a spring 3, which can be of any type. Advantageously, in said second position projected after injection, said actuator sleeve 10 is locked, and can no longer be moved axially inwardly of said body 1. This locking can for example be achieved by lugs 14, integral with the body 1 or the reservoir S, and cooperating with openings 13 of said actuator sleeve 10 when it reaches its second projected position. In the example shown, the lugs 14 are integral with the tank S, as can be seen in particular in FIGS. 5a and 6a. This locking, which is not essential to the operation of the present invention, will not be described in more detail hereinafter. It could be realized differently from the particular embodiment shown in the drawings. In particular, it could be realized in accordance with the teachings of WO 201 3/1 751 40 or WO 2013/175142.
    [0009] The autoinjector also comprises an automatic injection system, including in particular a piston rod 5 adapted to cooperate with the piston P to move it in the tank S to dispense the fluid through the needle A. This piston rod 5 is conventionally solicited by an injection spring 8 to its dispensing position, and retained before actuation in its rest position by a suitable injection lock. FIGS. 1a to 14c schematically illustrate an advantageous injection lock according to the invention, comprising at least one locking element 7 retained in blocking position by a locking ring 23. The triggering of said injection lock causes the actuation said injection means and thus the injection of the fluid product through the needle. As shown in particular in FIG. 7b, said injection lock comprises a control sleeve 4 disposed in said body 1, said control sleeve 4 containing said piston rod 5 and said injection spring 8, said piston rod 5 comprising a radial recess 50 receiving at least one locking element 7 movable between a locking position and an unlocking position. Said at least one blocking element 7 is preferably of substantially spherical shape, such as a ball. In the variant shown, there are two blocking elements 7 in the form of balls, but a different number of blocking elements can be envisaged. Hereinafter, reference will be made to balls as blocking elements 7. Said balls 7 are biased radially outwards by said piston rod 5 and are retained in the blocking position by the locking ring 23. This locking ring 23 is axially displaceable with respect to said piston rod 5 between a locking position, in which it holds said balls 7 in the locking position, and an unlocking position, in which said balls 7 are released to thereby unlock said injection lock, enabling said injection spring 8 to move said piston rod 5 towards its injection position. Figures 7a to 9c show the injection lock in the locking position. The injection spring 8 cooperates on the one hand with the piston rod 5 and on the other hand with a support member 6. This support member 6 comprises a ring 60 disposed around said piston rod 5. The piston rod 5 has a peripheral recess 50, advantageously provided with an inclined surface 51, formed by a narrowing of the diameter of said piston rod 5. This is best seen in Figures 11b and 15a. This piston rod 5 is disposed inside the control sleeve 4 and can be displaced axially downwards, in the position shown in Figures la to 15g, to move the piston P inside the syringe S and thus distribute the fluid contained in said syringe S through the needle A.
    [0010] As can be seen in particular in FIG. 7b and FIGS. 15f and 15g, the balls 7, in the locking position of the injection lock, are arranged in said recess 50 formed in the piston rod 5 and therefore cooperate with, on the one hand, the inclined wall 51 of the piston rod 5, on the other hand the upper surface of said ring 60 of said support member 6 and with said locking ring 23. The inclined surface 51 of the piston rod is in contact with the balls 7 so that under the effect of the compressed spring 8, said inclined surface 51 exerts a reaction force on the balls 7, this force not being exactly axial but directed slightly outwards, thus urging the balls 7 radially outwards from the blocking position of FIG.
    [0011] The locking ring 23 is provided radially outside the balls 7 to radially block said balls in the locking position. The support member 6 transmits the force of the spring 8 to the balls 7, and the locking ring 23 exerts a reaction force on the balls 7 to prevent radial displacement thereof. Thus, it is the balls 7 which support all the forces exerted on the lock in the locking position, with a three-point balance under the effect of the three forces mentioned above. Such a lock is particularly stable and robust, and in particular to withstand "drops tests". These tests simulate the fact of dropping the autoinjector on the ground after removing the cover C2, the objective being to avoid a triggering of the injection lock during this fall. In particular, no force is exerted on the structural parts of the autoinjector, such as the body 1 or the actuator sleeve 10. This lock thus avoids the risk of disassembly and / or inadvertent actuation of the autoinjector during transport or handling. When the needle A of the syringe S has penetrated the body of the user, the locking ring 23 is moved axially upwards, as will be more fully described below. This has the effect of releasing the balls 7 from their locking position, these being then moved radially outwardly. The piston rod 5 is then no longer retained by the balls 7 and is thus moved axially downwards to perform the injection of the product. After triggering the injection lock, the balls 7 can not return radially inwards, prevented by the control sleeve 4, as shown in Figures 11b, 12b, 13b and 14b.
    [0012] The injection lock shown in the figures can unlock a large force exerted by a compressed spring, in this case the injection spring 8, exerting a relatively small force and easily controllable on the locking ring 23. In particular , the force required to move said locking ring 23 in the unlocking position may represent only 30-50% or less of the force exerted by the injection spring 8. This represents a significant yield 3019 74 9 11 which guarantees a easy and reliable operation of the device, requiring no excessive effort from the user. Advantageously, the autoinjector comprises a visual indication device, sound and / or tactile to indicate by an audible sound, by a vibration 5 or by a visual and / or tactile indication to the user that the injection phase is complete. . In the embodiment shown, the indication device comprises an indicator element 70 which is integral with the support member 6 on which the injection spring 8 rests. FIG. 20 shows this indicator element, which comprises a or more legs 71, in this case three legs. The operation is similar to the device described in WO 2014/049214, with a key 80 comprising a head 81 and a rod 82, said head blocking the radial deformation of a deformable tab 72 formed on the indicator element 70, which The indicator member 70 locks relative to the body 1. In the variant shown, there is a single deformable tab 72, but a different number of deformable tabs is possible. At the end of the injection, the piston rod 5 slides said key 80 axially downward, by pulling said rod 82, so that said head 81 of the key 80 will release said deformable tab 72, which, by deforming radially towards the inside, will allow an edge portion 75 of said indicator element 70 to be projected against said body 1, under the effect of the injection spring 8, creating a sound and / or tactile indication, in particular by making vibrate the autoinjector. FIGS. 13c and 14c notably illustrate this contact between the edge portion 75 of the indicator element 70 and the body 1. Advantageously, a visual indication is also provided by one or more viewing windows 9, in this case three, of the body 1 which show the tabs 71 of the indicator element 70. The operation of the injection lock is as follows. After removing the C2 cover and C1 cap, the autoinjector is ready for use. This initial position is shown in FIGS. 2a and 2b, as well as in FIGS. 7a to 7c. At the beginning of actuation, the actuator sleeve 10 slides inwardly of the body, and an upper end 19 of the actuator sleeve 10 will come into contact with a shoulder 49 of the control sleeve 4, as illustrated in FIG. 3a. At the moment when this contact between the actuator sleeve 10 and the control sleeve 4 occurs, there remains a small gap between the lower edge of the locking ring 23 and the control sleeve 4, as visible in Figure 8c. Continued axial sliding of the actuator sleeve 10 will then drive the control sleeve 4 axially upwards, which will cause the contact between the control sleeve 4 and the locking ring 23, as shown in Figure 9c. In this position, the injection lock is always in the locked position. Continued axial displacement of the actuator sleeve 10 will then move axially upwardly said locking ring 23, via said control sleeve 4. This displacement of the locking ring will release the balls 7 to trigger the injection lock. As can be seen in FIGS. 4a, 4b and 10a to 10c, as soon as the lower edge of the locking ring 23 no longer contacts the balls 7, they can escape radially outwards, thus freeing the piston rod 5. In this position, the injection lock no longer blocks the piston rod 5, and the injection begins under the effect of the injection spring 8. As can be seen in FIG. 11b, the balls 7 are positioned in a 4. When the piston P arrives towards the end of the injection stroke, as shown in FIGS. 5a and 5b, the piston rod 5 will cooperate with the rod 82 of the key 80 to pull the piston. it axially downwards. As a result, the head 81 of the key also moves axially downwards, as shown in FIGS. 12a to 12c, which will release the indicator element 70. When the head 81 of the key 80 no longer blocks the indicating element 70, as visible in FIGS. 13a to 13c, the latter is displaced axially upwards under the effect of the injection spring 8 which rests on the support member 6, itself integral with said indicator element 70. This causes an audible and / or tactile indication by sudden contact between the indicator element 70 and the body 1, and a visual indication by the tabs 71 which become visible in the windows 9 of the body 1. When the injection phase is completed, the spring 3 urges the actuator sleeve 10 to its second projected position to cover the needle A, as shown in Figures 6a and 6b. Figures 15a to 15g illustrate the assembly of the injection lock. The piston rod 5 is disposed in the control sleeve 4, then the support member 6 is disposed in said control sleeve 4 around said piston rod 5. Figures 7a, 21a and 21b show the snap of first projections radial members 65 of the support member 6 under a shoulder 45 of the control sleeve 4 when the support member 6 is moved axially downwards in the direction of the arrow F1.
    [0013] Then, the balls 7 are placed at the top, according to the arrows F2 of FIG. 22a, coming to be positioned inside the control sleeve 4, on the ring 60 of the support member 6. Then the ring block 23 is assembled in said control sleeve 4, around said support member 6. The locking ring 23 advantageously comprises a chamfered lower portion 231, which during assembly of the locking ring 23 will push the balls radially to inside, as shown in Figure 15e. In this way, the balls come into the locking position, in the recess 50 of the piston rod 5, in contact against said inclined wall 51 of the piston rod 5. As can be seen in FIGS. 7c, 23a to 23c, the locking ring 23 has lugs 232 protruding radially inwardly which, during assembly, engage, in particular by snapping, under an inclined ramp 66 of the support member 6. When the lock of the lock Injection, the locking ring 23 disengages from the support member 6 to release the balls 7. These pins 232, preferably of rounded shape, reinforce the resistance of the lock to "drops tests", preventing unwanted movement of said locking ring 23 out of its locking position. Another advantage of the locking ring 23 is to create a point of resistance during the actuation, in particular via the snapping of the pins 232. This "hard point", which must be overcome when actuated, allows ensure that the patient arrives at the end of the stitching to inject at the right depth. This "hard point" is further positioned so as to allow an initial dead stroke of the actuator sleeve 10, until the control sleeve 4 comes into contact with the locking ring 23, thus allowing the user to do so. autoinjector positioning tests before triggering the injection.
    [0014] In the positions of Figures 15f and 23c, the injection lock is in the locking position. Then, the indicator element 70 is assembled on the support member 6, via windows 77 cooperating with second radial projections 67 of the support member 6, visible in particular in Figure 7a.
    [0015] The present invention applies to devices used in particular for the treatment of autoimmune diseases, for example of the type rheumatoid arthritis, multiple sclerosis, Crohn's disease, for cancer treatments, for antiviral treatments, for example of the type hepatitis, for treatments against diabetes, for treatments against anemia or for treatment of seizures, for example in case of anaphylactic shock. Although the present invention has been described with reference to an advantageous embodiment, it is understood that various modifications are possible for those skilled in the art without departing from the scope of the present invention as defined by the appended claims.
    权利要求:
    Claims (8)
    [0001]
    CLAIMS1.- Autoinjector comprising a body (1) receiving a reservoir (S), said reservoir (S) containing fluid and comprising a piston (P) and a needle (A), such as a pre-filled syringe, said self-injector comprising a piston rod (5) adapted to cooperate with the piston (P) of said reservoir (S), said piston rod (5) being movable between a loaded position and an injection position in which said piston rod ( 5) has moved the piston (P) of the tank (S) to inject the fluid through the needle (A), an injection spring (8) being provided to urge said piston rod (5) towards its position injection device, the autoinjector comprising an injection lock which locks said piston rod (5) in its loaded position, said injection lock comprising a control sleeve (4), said control sleeve (4) containing said piston rod (5) and said injection spring (8), said piston rod (5) co mportant a radial recess (50) receiving at least one substantially spherical locking element (7), such as a ball, movable between a locking position and an unlocking position, said at least one locking element (7) being solicited radially outwardly by said piston rod (5) and being retained in locking position by a locking ring (23), said locking ring (23) being movable relative to said piston rod (5) to release said at least one locking element (7) and thus unlocking said injection lock, allowing said injection spring to move said piston rod (5) towards its injection position, characterized in that a support member ( 6) is fixed, in particular snapped, into said control sleeve (4), said support member (6) comprising a ring (60), one axial side of which is in contact with said injection spring (8) and the other side axial supports said at least one sensib locking element spherically (7), said locking ring (23) being engaged, in particular latched, on said support member (6), said locking ring (23) being disengaged from said support member (6) by said control sleeve (4) when said control sleeve (4) is moved axially upon actuation of the autoinjector, to unlock said injection lock.
    [0002]
    2. An autoinjector according to claim 1, wherein said locking ring (23) comprises lugs (232), preferably of rounded shape, which are, in the locking position of the injection lock, snapped under an inclined ramp (66) of said support member (6).
    [0003]
    3. An autoinjector according to claim 1 or 2, wherein said locking ring (23) comprises a chamfered lower edge (231) for biasing said at least one blocking element radially inwards during assembly of said ring. locking (23) on said support member (6).
    [0004]
    4. Autoinjector according to any one of the preceding claims, wherein said support member (6) comprises first radial projections (65) cooperating with a shoulder (45) of said control sleeve (4) for fixing said support member (6). ) on said control sleeve (4).
    [0005]
    5. autoinjector according to any preceding claim, wherein an indicator element (70) is fixed, in particular latched, on said support member (6), said indicator element (70) cooperating after injection with the body (1). to provide the user with an audible and / or tactile and / or visual indication.
    [0006]
    6. An autoinjector according to claim 5, wherein said support member (6) comprises second radial projections (67) cooperating with windows (77) of said indicator element (70) for fixing said indicator element (70) on said support member (6).
    [0007]
    7. An autoinjector according to any one of the preceding claims, wherein said autoinjector comprises an actuator sleeve (10) having a contact end (11) intended to come into contact with the body of the user, said actuator sleeve (10). ) extending at least partially inside said body (1) and being displaceable relative to said body (1) between projected positions, in which said actuator sleeve (10) at least partially projects out of said body (1) , and an actuating position, wherein said actuator sleeve (10) is axially displaced inwardly of said body (1), said actuator sleeve (10) being in a first projected position prior to actuation of the autoinjector and in a second projected position after actuating the autoinjector.
    [0008]
    An autoinjector according to claim 7, wherein said actuator sleeve (10) has an upper edge (19) which comes into contact with said control sleeve (4) upon actuation, so that said control sleeve (4) ) is moved axially by said actuator sleeve (10) to unlock said injection lock.
    类似技术:
    公开号 | 公开日 | 专利标题
    EP3129084B1|2018-03-28|Autoinjector
    EP3074064B1|2019-09-11|Auto-injector
    EP2900299B1|2020-07-08|Autoinjector
    FR2930161A1|2009-10-23|NEEDLE PROTECTIVE ARRANGEMENT HAVING A RADIALLY MOBILE LOCKING ELEMENT.
    FR2930162A1|2009-10-23|NEEDLE PROTECTION ASSEMBLY HAVING A LATCHING ELEMENT.
    EP3110283B1|2019-04-24|Material refill packaging device
    WO2017081421A1|2017-05-18|Autoinjector
    EP3302643B1|2021-02-17|Auto-injector with a system for delaying the device indicating the removal of the auto-injector
    EP3374006A1|2018-09-19|Auto-injector having a median window with one triangular end
    EP3129085B1|2018-07-18|Autoinjector
    EP3302647B1|2021-08-04|Auto-injector with a delay system
    EP3352819B1|2021-02-03|Auto-injector
    EP3164179B1|2020-09-02|Autoinjector
    EP3302646B1|2021-08-04|Auto-injector with a delay device comprising an epicyclic gear train
    WO2018065708A1|2018-04-12|Manual injection device
    FR2990869A1|2013-11-29|autoinjector
    EP3522955B1|2020-08-12|Manual injection device
    FR3080290A1|2019-10-25|IMPLANT INJECTION DEVICE HAVING SEQUENTIALLY RELEASED PUSH MEANS
    同族专利:
    公开号 | 公开日
    WO2015155484A1|2015-10-15|
    FR3019749B1|2016-05-13|
    JP2017511744A|2017-04-27|
    JP6524211B2|2019-06-05|
    US10207052B2|2019-02-19|
    EP3129084B1|2018-03-28|
    US20170007764A1|2017-01-12|
    CN106132458B|2019-11-01|
    CN106132458A|2016-11-16|
    EP3129084A1|2017-02-15|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    WO2010108116A1|2009-03-20|2010-09-23|Antares Pharma, Inc.|Hazardous agent injection system|
    WO2013175148A1|2012-05-25|2013-11-28|Aptar France Sas|Autoinjector|
    WO2013175137A1|2012-05-25|2013-11-28|Aptar France Sas|Autoinjector|
    WO2013175144A1|2012-05-25|2013-11-28|Aptar France Sas|Autoinjector|
    US3563098A|1968-06-28|1971-02-16|Rex Chainbelt Inc|Automatic quick release mechanism|
    US6428528B2|1998-08-11|2002-08-06|Antares Pharma, Inc.|Needle assisted jet injector|
    EP2900299B1|2012-09-27|2020-07-08|Aptar France SAS|Autoinjector|FR3036965B1|2015-06-05|2021-10-01|Aptar France Sas|AUTOINJECTOR|
    FR3036964B1|2015-06-05|2021-11-12|Aptar France Sas|AUTOINJECTOR|
    FR3036967B1|2015-06-05|2021-10-01|Aptar France Sas|AUTOINJECTOR|
    FR3036966B1|2015-06-05|2021-10-01|Aptar France Sas|AUTOINJECTOR|
    FR3043563B1|2015-11-13|2022-01-21|Aptar France Sas|AUTOINJECTOR.|
    FR3043562B1|2015-11-13|2022-01-21|Aptar France Sas|AUTOINJECTOR.|
    DK3458128T3|2016-05-18|2020-08-24|Shl Medical Ag|ADMINISTRATIVE MECHANISM OF A DRUG DELIVERY DEVICE|
    KR20200018602A|2017-07-12|2020-02-19|에스에이치엘 메디컬 아게|Dosage assembly for drug delivery device and drug delivery device comprising same|
    CN111356493A|2017-11-02|2020-06-30|赛诺菲|Button and button assembly for a drug delivery device|
    CN108434556A|2018-05-23|2018-08-24|苏州鹏烨医疗科技有限公司|Injection pen|
    法律状态:
    2015-04-27| PLFP| Fee payment|Year of fee payment: 2 |
    2016-04-27| PLFP| Fee payment|Year of fee payment: 3 |
    2017-04-26| PLFP| Fee payment|Year of fee payment: 4 |
    2018-04-24| PLFP| Fee payment|Year of fee payment: 5 |
    2020-02-14| ST| Notification of lapse|Effective date: 20200108 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1453251A|FR3019749B1|2014-04-11|2014-04-11|autoinjector|FR1453251A| FR3019749B1|2014-04-11|2014-04-11|autoinjector|
    PCT/FR2015/050940| WO2015155484A1|2014-04-11|2015-04-09|Autoinjector|
    CN201580015111.2A| CN106132458B|2014-04-11|2015-04-09|Automatic injector|
    US15/113,526| US10207052B2|2014-04-11|2015-04-09|Autoinjector|
    JP2017504279A| JP6524211B2|2014-04-11|2015-04-09|Self-injector|
    EP15723256.2A| EP3129084B1|2014-04-11|2015-04-09|Autoinjector|
    [返回顶部]