Autoinjector.

专利摘要:
Autoinjector comprising a body (1) and an actuator sleeve (10) displaceable relative to said body (1), said actuator sleeve (10) being in a first projected position before actuation of the autoinjector and in a second projected position after actuation of the the autoinjector, one of said actuator sleeve (10) and said body (1) having a flexible tab (110) adapted to deform laterally with respect to said actuator sleeve (10) and / or relative to said body (1) when said actuator sleeve (10) is moved from its first projected position to its actuating position and then from its actuating position back to its second projected position, the other of said actuator sleeve (10) and said body (1 ) having an initial zone (102) which cooperates with said flexible tab (110) in said first projected position, an intermediate zone (105) which cooperates with said flexible tab (110) in said ac position tion, and a final receiving area (106) which cooperates with said flexible tab (110) in said second projected position, said final receiving area (106) being offset at least laterally from said initial area (102), an axial wall deformable member (1020) being adapted to deform elastically to pass said flexible tab (110) from said initial zone (102) to said intermediate zone (105), said deformable axial wall (1020), in its undistorted position, being then adapted to guide said flexible tab of said intermediate zone (105) to said final receiving area (106).
公开号:FR3013601A1
申请号:FR1361557
申请日:2013-11-25
公开日:2015-05-29
发明作者:David Fabien
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 automatic the penetration of the needle into the patient's body as well as the injection of the fluid contained in the syringe. Auto-injectors are relatively complex devices that must meet a number of constraint requirements to be reliable. The robustness of the device, its maneuverability, and its ease of use for the user are also important elements. 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] In addition, to avoid any risk of injury after use of the device, the autoinjector must include a needle safety device that prevents the needle remains apparent after use of the device. This safety device must obviously also be reliable and not be released too easily. It must also be functional even if the user actuates the autoinjector badly, for example if he withdraws it too early from his body, before the end of the injection. The documents WO2012045833, FR2884722, WO9632974 and WO2012000832 describe devices of the state of the art.
[0004] 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 is reliable in use, which is safe and which prevents any risk of injury, and which is simple and inexpensive to manufacture and assemble. The present invention therefore relates to an autoinjector comprising a body adapted to receive a reservoir, said reservoir containing fluid and comprising a piston and a needle, such as a pre-filled syringe, said autoinjector comprising an actuator sleeve having one end contact member intended to come into contact with the body of the user, said actuator sleeve being displaceable relative to said body between projected positions, in which said actuator sleeve at least partially projects out of 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, one of said actuator sleeve and said body having a flexible tab adapted to deform r laterally with respect to said actuator sleeve and / or with respect to said body when said actuator sleeve is moved from its first projected position to its actuated position and then from its actuated position back to its second projected position, the other one said actuator sleeve and said body having an initial zone which cooperates with said flexible tab in said first projected position, an intermediate zone which cooperates with said flexible tab in said actuating position, and a final receiving zone which cooperates with said flexible tab in said second projected position, said final receiving zone being offset at least laterally from said initial zone, a deformable axial wall being adapted to deform elastically to allow said flexible leg to pass from said initial zone towards said intermediate zone, said deformable axial wall; in its undistorted position, then adapted to guide said flexible tab of said intermediate zone to said final receiving area. Advantageously, said flexible tab is deformed laterally when said actuator sleeve moves from its first projected position, before actuation, to its actuating position, and / or said flexible tab is deformed laterally when said actuator sleeve moves from its position to its position. actuation towards its second projected position, at the end of use. Advantageously, said actuator sleeve comprises at least one initial groove connecting said initial zone to said intermediate zone, said initial groove comprising said deformable axial wall. Advantageously, said initial groove has a shoulder projecting laterally in said initial groove. Advantageously, said shoulder is disposed opposite said deformable axial wall. Advantageously, said shoulder comprises an inclined wall facing toward said initial zone, said inclined wall laterally deforming said flexible tab so that said flexible tab deforms said deformable axial wall.
[0005] Advantageously, said initial groove is substantially axial and is connected to said intermediate zone by a second inclined groove and / or a third axial groove.
[0006] Advantageously, said final receiving zone is connected to said intermediate zone by a final groove, an axial shoulder being provided between said final receiving zone and said final groove, said flexible lug being adapted to slide in said final groove when said actuator sleeve returns from its actuating position to its second projected position, said flexible tab snapping under said axial shoulder when said actuator sleeve reaches its second projected position, after use, thereby locking said actuator sleeve with respect to said body.
[0007] Advantageously, said final reception zone is axially offset with respect to said initial zone. Advantageously, said final groove is inclined and comprises said deformable axial wall. Advantageously, said flexible tab comprises a sliding head in said initial and final grooves between said initial, intermediate and final receiving zones, said head comprising a front end wall at least partially inclined adapted to cooperate with an inclined end of said axial wall. deformable to guide said head in said final groove when said actuator sleeve returns from its actuating position to its second projected position. 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: FIG. 1 is a diagrammatic view partially cut out of an autoinjector according to an advantageous embodiment, and Figures 2 to 6 are partial schematic views illustrating in detail the lock during the various sequences of use of the autoinjector of Figure 1.
[0008] The autoinjector shown in Figure 1 comprises a body 1 in which axially slides an actuator sleeve 10, the lower end 11 (in the orientation of Figure 1) is intended to come into contact with the body of the patient around the injection area. In known manner, this body 1 contains a reservoir containing the product to be injected, a needle through which the product is dispensed, a piston adapted to move in said reservoir to achieve this distribution, and a suitable automatic injection system. cooperating with said piston to move it. These elements, conventional in an autoinjector, are not shown in the drawings for purposes of clarity, and they could be made in any suitable manner, including being similar to those described in documents FR 2 990 862, FR 2 990 863, FR 2 990 864, FR 2 990 865, FR 2 990 866, FR 2 990 867, FR 2 990 868, FR 2 990 869 and FR 2 990 870. The reservoir may typically be a conventional pre-filled syringe. Before actuation, the actuator sleeve 10 is in a first projected position in which it surrounds the needle. Upon actuation, the actuator sleeve 10 slides inside the body 1 to an actuating position, to expose the needle and allow the stitching and injection of the fluid. After the injection, the actuator sleeve 10 returns to a second projected position, in which it is again arranged around the needle, to avoid any risk of injury with said needle. The actuator sleeve 10 is advantageously biased towards its projected positions by a spring 5, which can be of any type. The actuator sleeve 10 comprises an initial groove 10, advantageously axial, which extends from an initial zone 102 to an intermediate zone 105. Said initial groove 101 comprises an elastically deformable axial wall 1020. The initial groove 101 advantageously comprises a shoulder 1010 projecting laterally into said initial groove 101, said shoulder 1010 preferably having an inclined wall 1015 facing towards said initial zone 102. Advantageously, this shoulder 1010 is provided facing said axial wall 1020. elastically deformable. Advantageously, a second groove 103, preferably inclined, and / or a third groove 104, advantageously axial, connects (s) said initial groove 101 to said intermediate zone 105. Said actuator sleeve 10 also comprises a final receiving zone 106 shifted to less laterally with respect to said initial zone 102, and connected to said intermediate zone 105 by a final groove 107, advantageously inclined. An axial shoulder 108 is provided between said final receiving area 106 and said final groove 107. The body 1 has a laterally flexible tab 110, i.e., it deforms in the peripheral direction of the body. This flexible lug 110 advantageously comprises a head 112 which will cooperate with the grooves and shoulders of the actuator sleeve 10, as will be described hereinafter. Figures 2 to 6 illustrate more particularly the operation of the lock formed between the actuator sleeve 10 and the body 1. Figure 2 represents the starting position, that is to say when the user will start using autoinjector. FIG. 2 shows that the head 112 of the flexible lug 110 is disposed in said initial zone 102 of said initial groove 101. When the actuator sleeve 10 slides inwardly of the body 1, said head 112 of the flexible lug 110 will slide inside said initial groove 101. When the head 112 reaches the inclined wall 1015 of the shoulder 1010 in the initial groove 101, said inclined wall 1015 will cooperate with said head 112. This shoulder 1010 will deform laterally the flexible lug 110. This in turn laterally deforms the deformable axial wall 1020, as can be seen in FIG. 3. The shoulder 1010 thus forms a hard point at the beginning of the actuation, which must be overcome to enable the actuation of autoinjector. This hard point combines in particular the deformation of the flexible lug 110 and the deformation of the deformable axial wall 1020, and the force exerted by the user on the actuator sleeve 10 must be sufficient to allow these two deformations to be made. There is therefore an accumulation of energy, which is released when the head 112 of the flexible tab 110 will pass beyond the shoulder 1010. This ensures that the actuating stroke is complete, with the head of the flexible tab passing through the intermediate zone 105, in particular through the second inclined groove 103 and the third axial groove 104. In the position shown in FIG. 4, the actuator sleeve 10 has reached its actuating position in which the needle has entered the injection zone of the patient to the injection position and wherein said actuator sleeve 10 is able to actuate the injection system. In this actuating position of the actuator sleeve 10, the head 112 of the flexible tab 110 is in the intermediate zone 105. In this position, the deformable axial wall 1020 is resiliently returned to its undeformed position, so that said intermediate zone 105 is connected to said final receiving zone 106 by said inclined final groove 107. When said actuator sleeve 10 returns from its actuating position to its second projected position under the effect of the spring 5, said head 112 of the flexible tab 110 slides in said sloping final groove 107. FIG. 5 schematically illustrates that the flexible tab 110, in particular the head 112, can not return to said initial groove 101 because of the deformable axial wall 1020 which prevents the passage of said head 112 Advantageously, said head 112 comprises an at least partially inclined front wall 1120 which will cooperate with the inclined end. of said deformable axial wall 1020 for guiding said head in the sloping final groove 107, as can be seen in FIG. 5. Thus, the deformable axial wall 1020 is an integral part of the cam, formed by the final groove 107, which will guide the leg flexible to the final receiving area 106. When said actuator sleeve 10 reaches its second projected position, after use, said head 112 snaps into said final receiving area 106 under said axial shoulder 108, thereby locking said actuator sleeve 10 by 1. From this locked position, said actuator sleeve 10 can no longer be moved towards its actuating position, by the abutment formed between the head 112 of the flexible lug 110 and the axial shoulder 108. The lateral deformation of the flexible tab 110 during actuation in the inclined groove (s) causes an automatic elastic snap-in the head 112 under the axial shoulder 108 as soon as the head 112 arrives in said final receiving area 106. The safety device is then in locked final position. Thus, the needle is completely protected after use and the user can no longer use the autoinjector or injure himself with the needle.
[0009] Of course, the shapes of the grooves, their dimensions and their inclinations can be modified according to the needs and characteristics desired for the needle safety device. In particular, the initial groove may be axial or inclined. It can lead directly to the intermediate zone, without there being second and third grooves. With an inclined initial groove, the final groove could be axial or inclined. Other variants are possible. The lock of the actuator sleeve described above is particularly effective and reliable, while being robust and easy, and therefore inexpensive, to mold and assemble. In particular, it comprises only two parts, the actuator sleeve 10 and the body 1. It should be noted that the means described above could be made in an inverted manner, that is to say that the body 1 could comprise the various grooves 101, 103, 104 and 107, the shoulders 1010 and 108 and the deformable axial wall 1020, and the actuator sleeve 10 could comprise the flexible tab 110. In this case, the shapes and orientations of said grooves would of course be adapted to result. Although the present invention has been described with reference to an advantageous embodiment, it is understood that one skilled in the art can make various modifications without departing from the scope of the present invention as defined by the appended claims.

权利要求:
Claims (11)
[0001]
CLAIMS1.- Autoinjector comprising a body (1) adapted to receive a reservoir, said reservoir containing fluid and comprising a piston and a needle, such as a pre-filled syringe, said autoinjector comprising an actuator sleeve (10) comprising a contact end (11) intended to come into contact with the body of the user, said actuator sleeve (10) being displaceable with respect to said body (1) between projected positions, in which said actuator sleeve (10) makes at least partially protruding from 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 before actuation of the autoinjector and in a second projected position after actuation of the autoinjector, one of said actuator sleeve (10) and said body (1) having a flap xible (110) adapted to deform laterally relative to said actuator sleeve (10) and / or relative to said body (1) when said actuator sleeve (10) is moved from its first projected position to its actuating position and its actuating position back to its second projected position, the other of said actuator sleeve (10) and said body (1) having an initial zone (102) which cooperates with said flexible tab (110) in said first projected position, an intermediate zone (105) which cooperates with said flexible tab (110) in said actuating position, and a final receiving zone (106) which cooperates with said flexible tab (110) in said second projected position, said reception zone final end (106) being offset at least laterally from said initial zone (102), characterized in that a deformable axial wall (1020) is adapted to deform elastically to allow said flap to pass. xible (110) from said initial zone (102) to said intermediate zone (105), said deformable axial wall (1020), in its undeformed position, then being adapted to guide said flexible tab of said intermediate zone (105) towards said zone final reception (106).
[0002]
An autoinjector according to claim 1, wherein said flexible tab (110) is laterally deformed when said actuator sleeve (10) moves from its first projected position, prior to actuation, to its actuating position, and / or said tab flexible (110) is laterally deformed when said actuator sleeve (10) moves from its actuating position to its second projected position, at the end of use.
[0003]
An autoinjector according to claim 2, wherein said actuator sleeve (10) comprises at least one initial groove (101) connecting said initial zone (102) to said intermediate zone (105), said initial groove (101) comprising said wall deformable axial (1020).
[0004]
An autoinjector according to claim 3, wherein said initial groove (101) has a shoulder (1010) projecting laterally into said initial groove (101).
[0005]
5. An autoinjector according to claim 4, wherein said shoulder (1010) is disposed opposite said deformable axial wall (1020).
[0006]
An autoinjector according to claim 4 or 5, wherein said shoulder (1010) has an inclined wall (1015) facing towards said initial zone (102), said inclined wall (1015) laterally deforming said flexible tab (110). such that said flexible tab deforms said deformable axial wall (1020).
[0007]
An autoinjector according to any one of claims 3 to 6, wherein said initial groove (101) is substantially axial and is meshed with said intermediate zone (105) by a second inclined groove (103) and / or a third groove ( 104) axial.
[0008]
An autoinjector according to any one of the preceding claims, wherein said final receiving zone (106) is connected to said intermediate zone (105) by a final groove (107), an axial shoulder (108) being provided between said final receiving zone (106) and said final groove (107), said flexible tab (110) being adapted to slide in said final groove (107) when said actuator sleeve (10) returns from its actuating position to its second position projected, said flexible tab (110) snapping under said axial shoulder (108) when said actuator sleeve (10) reaches its second projected position, after use, thereby locking said actuator sleeve (10) with respect to said body (1) .
[0009]
An autoinjector according to claim 8, wherein said final receiving area (106) is axially offset from said initial area (102).
[0010]
10. An autoinjector according to claim 8 or 9, wherein said final groove (107) is inclined and comprises said deformable axial wall (1020).
[0011]
An autoinjector according to any one of the preceding claims, wherein said flexible tab (110) has a head (112) sliding in said initial and final grooves (101, 107) between said initial (102), intermediate (105) zones. ) and final receiving (106), said head (112) having an at least partially inclined end wall (1120) adapted to cooperate with an inclined end of said deformable axial wall (1020) for guiding said head (112) in said final groove (107) when said actuator sleeve (10) returns from its actuating position to its second projected position.

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WO2021078605A1|2019-10-23|2021-04-29|Becton Dickinson France|Injection device|

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CN111558109B|2020-04-30|2022-02-22|宁波睿爱产品设计有限公司|Two-section type automatic injector with injection prompt sound|

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法律状态:
2015-11-27| PLFP| Fee payment|Year of fee payment: 3 |

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2016-11-25| PLFP| Fee payment|Year of fee payment: 4 |

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2017-11-27| PLFP| Fee payment|Year of fee payment: 5 |

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2019-11-26| PLFP| Fee payment|Year of fee payment: 7 |

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2020-11-27| PLFP| Fee payment|Year of fee payment: 8 |

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2021-11-26| PLFP| Fee payment|Year of fee payment: 9 |

优先权:

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申请号 | 申请日 | 专利标题

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FR1361557A|FR3013601B1|2013-11-25|2013-11-25|Autoinjector.|FR1361557A| FR3013601B1|2013-11-25|2013-11-25|Autoinjector.|

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JP2016534235A| JP6487918B2|2013-11-25|2014-11-21|Self-injector|

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CN201480064115.5A| CN105764547B|2013-11-25|2014-11-21|Self-injector|

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EP14821732.6A| EP3074064B1|2013-11-25|2014-11-21|Auto-injector|

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PCT/FR2014/052997| WO2015075399A1|2013-11-25|2014-11-21|Auto-injector|

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US15/038,785| US10668216B2|2013-11-25|2014-11-21|Auto-injector|