• 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:
    Device for automatically injecting fluid product comprising a base body (1), intended to come into contact with an injection zone, a support assembly (2) intended to support an actuating mechanism (5, 6, 7) controlled by means of power supply (11) and triggered by at least one actuating button (200), at least one reservoir (3) of fluid, each containing an injection piston (35), disposed in said base body (1), a needle assembly (100) having an insertion actuator (8), needle displacement means (9,9 '), a priming needle (101) associated with each reservoir (3) and intended to penetrate into said reservoir (3) before displacement of said piston (35), and an injection needle (102) intended to penetrate into the zone to be injected and to inject the contents of said reservoirs (3) in said area to be injected.
    公开号:FR3063015A1
    申请号:FR1751321
    申请日:2017-02-20
    公开日:2018-08-24
    发明作者:Sam Reeves;Guillaume Brouet
    申请人:Aptar France SAS;
    IPC主号:
    专利说明:

    (57) Automatic fluid injection device comprising a base body (1), intended to come into contact with an area to be injected, a support assembly (2) intended to support an actuation mechanism (5, 6 , 7) controlled by power supply means (11) and triggered by at least one actuation button (200), at least one reservoir (3) of fluid product, each containing an injection piston (35) , disposed in said base body (1), a needle assembly (100) comprising an insertion actuator (8), needle displacement means (9, 9d, a priming needle (101) associated with each reservoir (3) and intended to penetrate into said reservoir (3) before displacement of said piston (35), and an injection needle (102) intended to penetrate into the zone to be injected and to inject the contents of said reservoirs ( 3) in said zone to be injected.
    101 102
    i
    The present invention relates to an automatic fluid injection device.
    Automatic fluid injection devices are well known. They include in particular autoinjectors, in which the content of a reservoir, generally a syringe, is automatically injected by means of an actuation system generally comprising a charged spring and which, when triggered, will move a piston in the reservoir to inject the fluid product.
    These devices of the prior art can present problems, in particular when the volumes to be dispensed are large, when the fluid product is relatively viscous or when several fluid products must be combined in the same treatment.
    The object of the present invention is to provide an automatic injection device which does not reproduce the abovementioned drawbacks.
    The present invention also aims to provide an automatic injection device which allows the automatic distribution of fluid, even at large volumes and / or viscosities.
    The present invention also aims to provide an automatic fluid injection device which is simple and inexpensive to manufacture and assemble.
    The present therefore therefore relates to an automatic fluid injection device comprising a base body, intended to come into contact with an area to be injected, a support assembly intended to support an actuation mechanism controlled by means of power supply and triggered by at least one actuation button, at least one fluid reservoir, each containing an injection piston, disposed in said base body, a needle assembly comprising an insertion actuator, needle displacement means, a priming needle associated with each reservoir and intended to penetrate into said reservoir before displacement of said piston, and an injection needle intended to penetrate into the zone to be injected and to inject the contents of said reservoirs into said zone to be injected.
    Advantageously, said base body includes a sticker for fixing to the area to be injected.
    Advantageously, said base body comprises at least two reservoirs, in particular three.
    Advantageously, the fluid products contained in said reservoirs are distributed simultaneously, by being mixed upstream of said injection needle.
    According to an advantageous variant, the fluid products contained in said reservoirs are distributed successively.
    Advantageously, a respective actuation button is associated with each reservoir.
    According to an advantageous variant, the device comprises a single actuation button.
    Advantageously, the actuation mechanism comprises for each reservoir a cylinder containing an actuation fluid, such as a saline solution, in which a respective plunger can slide, controlled by a drive mechanism.
    Advantageously, said drive mechanism comprises an electric motor associated with a worm gear or with a clockwork type gear system.
    Advantageously, said insertion actuator, advantageously an electromechanical actuator, such as a solenoid, is actuated after priming of at least one of said reservoirs by said priming needles, said insertion actuator being connected to said injection needle. by means of one or more pivoting arms for making said injection needle penetrate said area to be injected.
    Advantageously, said insertion actuator is actuated after distribution of the contents of all the tanks to retract said injection needle from said zone to be injected.
    Advantageously, each reservoir contains between 1 and 10 ml of fluid product, advantageously approximately 3 ml.
    Advantageously, said power supply means comprise a battery and / or an electrical energy accumulator.
    These characteristics and advantages and others will appear more clearly during the following detailed description, made with reference to the attached drawings, given by way of non-limiting examples, and in which:
    FIG. 1 is a schematic exploded perspective view of an automatic injection device according to an advantageous embodiment,
    FIG. 2 is a schematic perspective view of the interior of the device of FIG. 1,
    - Figures 3 and 4 are schematic views from above, of two different alternative embodiments of the actuation means of the device of Figures 1 and 2,
    - Figures 5 to 7 are schematic side views of the actuation sequence of the device of Figures 1 and 2,
    FIG. 8 is a partial schematic perspective view of the needle assembly, before stitching,
    FIGS. 9 and 10 are schematic side views of the needle assembly, respectively before and after stitching, and
    - Figures 11 to 13 are schematic perspective views of various alternative embodiments.
    The invention relates to an automatic injection device which is particularly suitable for dispensing relatively large volumes of fluid, typically of the order of a few milliliters, typically from 1 to 10 ml, for example 3 ml. The device of the invention is also suitable for dispensing relatively viscous fluid products.
    The device is preferably disposable and can operate with the following stages of use:
    1) the user removes the packaging and fixes the device on an area to be injected, for example by means of a sticker provided for this purpose;
    2) the user presses an actuating button 200 to actuate the device, which in particular causes the device to prime, the insertion of the injection needle into the area to be injected, the administration of the fluid product then the retraction of the injection needle;
    3) the user is alerted of the completion of the process, detaches the device from the body and discards it.
    In Figures 1 and 2, there is shown an automatic injection device according to a first advantageous embodiment.
    The device comprises a base body 1, intended to come into contact with the zone to be injected, a support assembly 2, intended to support an actuating mechanism 5, 6, 7, one or more reservoirs 3 of fluid product each containing an injection piston 35, disposed in said base body 1, a needle assembly 100 comprising an insertion actuator 8, needle displacement means 9, 9 ′, one or more needle (s) ) priming 101 intended to enter the reservoir or reservoirs 3, and an injection needle 102 intended to penetrate into the zone to be injected, and power supply means 11.
    In the example shown, the power supply 11 is a battery or an accumulator of electrical energy.
    The actuation mechanism in this example is of the hydraulic type, with at least one cylinder 5 containing an actuation fluid, such as a saline solution, in which a respective plunger 6 can slide, controlled by a drive mechanism 7. After actuation of the actuation button 200, the power source 11 drives the plunger 6 in a linear movement in order to compress an actuation fluid contained in the cylinder 5. The plunger 6 can be moved by a number of known methods , comprising an electric motor associated with a worm gear 7, as shown in FIGS. 1 to 3 and 5 to 8, or with a clockwork type gear system 12, as shown in FIG. 4. Mechanisms for actuation other than hydraulic, for example mechanical, pneumatic, thermal or chemical, can be used as a variant.
    Advantageously, the reservoir or reservoirs 3 are closed before actuation by a membrane 30 forming a septum, intended to be pierced by a priming needle 101 during actuation. To this end, the device comprises one or more priming piston (s) 4 intended to move said support assembly 2 relative to said base body 1 at the start of actuation, in order to initiate priming by piercing the or the membrane (s) 30.
    Advantageously, the needle displacement means 9 comprise one or more articulated arm (s) 9, 9 ′ supporting the injection needle 102 controlled by the insertion actuator 8. This insertion actuator 8 may be an electromechanical actuator, such as a solenoid.
    îo In the device described above, the operations of drilling the septum and dispensing the fluid are both actuated by the same actuating cylinder 5. The actuating cylinder 5, the plunger 6, the drive mechanism 7 and the reservoir 3 are all integral with the support assembly 2. The latter can slide relative to the base body 1 which is fixed to the patient. The needle assembly 100 is fixed relative to the base body 1.
    During actuation, the drive mechanism 7 of the plunger 6 causes the plunger 6 to extend, which displaces the hydraulic fluid. This causes the extension of the priming piston (s) 4 which moves the complete support assembly 2, including the reservoirs 3, relative to the base body 1. The reservoirs 3 are forced against the assembly needle 100, piercing the septa using priming needles 101. The device is now primed.
    After the device has been primed, the injection needle 102 is inserted into the patient's area to be injected by means of an insertion actuator 8, advantageously an electromechanical actuator, such as a solenoid. This actuator 8 is connected to the injection needle 102 by means of one or more pivoting arm (s) 9, 9 '.
    If several cartridges are used, as shown in the example in FIGS. 1 and 2, the priming needles 101 of all the reservoirs 3 are coupled to a single injection needle 102.
    At rest, the actuator 8 is in the deployed position. The needle assembly 100 and the pivoting arms 9, 9 'are in the retracted position.
    The injection needle 102 is deployed after the device has reached the primed state. This can be determined for example by means of a mechanical and / or software controller, for example after the priming piston or pistons 4 are fully extended. When deployed, the actuator 8 retracts, which causes the pivoting arms 9, 9 ′ to move the injection needle 102 into the zone to be injected. The injection needle 102 is advantageously curved so that it can flex to allow movement of the needle tip. This curved shape is also advantageous for adapting to the pivoting movement of the pivoting arms 9, 9 ’.
    After insertion of the injection needle, the drive mechanism 7 continues to extend the plunger 6. This displaces more hydraulic fluid through a channel 50 of the support assembly 2, behind the reservoir 3, this which drives the piston 35 of the tank forward and delivers the fluid. The force required for this operation is greater than that required to drive the priming pistons 4 to ensure that the priming occurs first.
    Once enough fluid has been injected, the process is completed by stopping the operation of the drive mechanism 7.
    When the dispensing of the fluid is finished, the insertion actuator 8 retracts the needle into the device. The end of the distribution of the fluid product can be identified by mechanical and / or software control, for example after the drive mechanism 7 is fully extended.
    The embodiment described in particular provides the following advantages:
    - piercing of the septum and delivery of medication by the same mechanism, minimizing the number of components;
    - precise control of the flow of fluid;
    - compact shape;
    - the tip of the injection needle is curved to minimize patient discomfort during the injection process;
    - the fluid flow is simple, which minimizes the risk of contamination.
    The embodiment illustrated in FIGS. 1 and 2 shows a device suitable for comprising one, two or three reservoirs 3. It is possible to provide for the use of masks on the needle assembly which, when the device is primed, are perforated / penetrated by the presence of the reservoir. When the reservoir is not present, the mask acts to seal the respective branch of the needle assembly, preventing drug leakage during dispensing.
    The device shown in FIGS. 1 and 2 comprises three drive mechanisms 7 acting on three reservoirs 3. The three drive mechanisms 7 can be actuated simultaneously, by means of a single actuation button 200, for simultaneously distributing the contents of the three reservoirs, which are then mixed upstream of the injection needle 102. As a variant, the three drive mechanisms 7 can be actuated successively, to successively distribute the contents of the three reservoirs. These successive actuations can be triggered by means of three distinct actuation buttons 200, but one could also provide a single actuation button 200 which automatically triggers the dispensing sequence. A mixture of these two variants is also possible, for example a two-stage distribution, with on the one hand the distribution of the contents of a tank and on the other hand the simultaneous distribution of the mixture of the two other tanks.
    The embodiment described in particular provides the following advantages:
    - the dispensing speed of the fluid can be adjusted to optimize individual treatments and can also vary over time;
    - the drive mechanisms and the multiple reservoirs allow the use of a combination of drugs which can be dispensed at different speeds and at different times.
    The use of a device with one or more tanks makes it possible in particular to provide the following advantages:
    - single device for several types of fluid products, which may require the distribution of different volumes;
    - possibility of distributing cocktails or a mixture of several fluid products;
    - possibilities of combining pain reducing agents (anesthetics, acidity neutralizer, etc.) with the drug to be injected;
    - possibility of having different drug treatment frequencies; for example a first sequence S1 with the intake of several different drugs, followed by a second sequence S2 with the intake of a single drug, etc .;
    - possibility of standardizing the injection device for several types of treatment;
    - reduction in the cost of developing the devices;
    - possibility of adjustments in the formulation of the fluid product.
    - various formulations of fluid products can be accommodated in a single device;
    - reduction in the number of injections.
    Other possible configurations, for example:
    - a single drive mechanism 7 actuating a single tank (Figure 12);
    - A single drive mechanism 7 simultaneously actuating several tanks, in particular three (Figure 13).
    It is also possible to envisage the use of sets of multiple needles in the same device with independent control both of the insertion of the needle and of the injection of the fluid product. This would:
    - a sequential distribution of the fluid product for a reduced flow;
    - reducing the size of the injection needle to increase the flow of the fluid and reduce the patient's pain;
    - optimization of the diameter of the injection needle for a given drug formulation in the case where various drugs are contained in the same device.
    The use of simultaneous or sequential injections can be applied in a multi-cartridge system for:
    - reduce the flow of fluid and relieve the patient's pain;
    - allow an improvement in the effectiveness of certain drug cocktail preparations.
    The present invention has been described with reference to several advantageous embodiments and variants, but it is understood that a person skilled in the art can make any modifications to it, without departing from the scope of the present invention as defined by the appended claims.
    ίο
    权利要求:
    Claims (5)
    [1" id="c-fr-0001]
    Claims
    1Automatic fluid injection device characterized in that it comprises a base body (1), intended to come into contact with an area to be injected, a support assembly (
    [2" id="c-fr-0002]
    2) intended to support an actuating mechanism (5, 6, 7) controlled by means
    5 for power supply (11) and triggered by at least one actuation button (200), at least one reservoir (3) of fluid product, each containing an injection piston (35), disposed in said body base (1), a needle assembly (100) comprising an insertion actuator (8), needle displacement means (9, 9 '), a priming needle (101) associated with each reservoir (3) and intended to penetrate into said reservoir (3) before displacement of said piston (35), and an injection needle (102) intended to penetrate into the zone to be injected and to inject the contents of said reservoirs (3) into said area to be injected.
    2. A device according to claim 1, in which said base body (1) includes a sticker for fixing to the area to be injected.
    [3" id="c-fr-0003]
    3. - Device according to claim 1 or 2, wherein said base body comprises at least two tanks (3), in particular three.
    [4" id="c-fr-0004]
    4, - Device according to claim 3, comprising means for simultaneously dispensing the fluid products contained in said tanks (3).
    5. Device according to claim 3, comprising means for successively distributing the fluid products contained in said reservoirs (3).
    6. - Device according to any one of the preceding claims, in which a respective actuation button (200) is associated with each reservoir (3).
    7. - Device according to any one of claims 1 to 5, comprising a single actuation button (200).
    8. - Device according to any one of the preceding claims, in which the actuating mechanism comprises for each reservoir (3) a cylinder (5) containing an actuating fluid, such as a saline solution, in which can slide. a respective plunger (6) controlled by a drive mechanism (7, 12).
    9. - Device according to claim 8, wherein said drive mechanism comprises an electric motor associated with a worm gear (7) or a clockwork type gear system (12).
    10. - Device according to any one of the preceding claims, comprising means for actuating said insertion actuator (8), advantageously an electromechanical actuator, such as a solenoid, after priming of at least one of said reservoirs (3) by said priming needles (101), said insertion actuator (8) being connected to said injection needle (102) by means of one or more pivoting arm (s) (9, 9 ') for penetrating said injection needle (102) in said zone to be injected.
    11. - Device according to claim 10, comprising means for actuating said insertion actuator (8) after distribution of the contents of all the reservoirs (3) to retract said injection needle (102) from said zone to be injected.
    12.- Device according to any one of the preceding claims, in which each reservoir contains between 1 and 10 ml of fluid product, advantageously approximately 3 ml.
    [5" id="c-fr-0005]
    13. Device according to any one of the preceding claims, in which said power supply means (11) comprise a battery and / or an electrical energy accumulator.
    1/5
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    EP3582824B1|2021-05-19|
    JP2020508134A|2020-03-19|
    EP3582824A1|2019-12-25|
    US11260167B2|2022-03-01|
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    法律状态:
    2018-02-26| PLFP| Fee payment|Year of fee payment: 2 |
    2018-08-24| PLSC| Publication of the preliminary search report|Effective date: 20180824 |
    2020-02-26| PLFP| Fee payment|Year of fee payment: 4 |
    2021-02-24| PLFP| Fee payment|Year of fee payment: 5 |
    2022-02-25| PLFP| Fee payment|Year of fee payment: 6 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1751321|2017-02-20|
    FR1751321A|FR3063015B1|2017-02-20|2017-02-20|AUTOMATIC FLUID PRODUCT INJECTION DEVICE.|FR1751321A| FR3063015B1|2017-02-20|2017-02-20|AUTOMATIC FLUID PRODUCT INJECTION DEVICE.|
    US16/486,912| US11260167B2|2017-02-20|2018-02-16|Automatic fluid product injection device|
    EP18712941.6A| EP3582824B1|2017-02-20|2018-02-16|Automatic fluid product injection device|
    JP2019544810A| JP2020508134A|2017-02-20|2018-02-16|Automatic fluid injection device|
    CN201880012679.2A| CN110325232A|2017-02-20|2018-02-16|Automatic injection device for fluid product|
    PCT/FR2018/050375| WO2018150147A1|2017-02-20|2018-02-16|Automatic fluid product injection device|
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