• 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:
    Fluid dispensing and dispensing assembly comprising: - a receiving body (1), - a fluid application surface (S) intended to come into contact with a target, such as the skin, - a dispenser fluid product (D) comprising a reservoir (4), a pump (5) and a dispensing nozzle (6) defining an outlet surface (61) and a fluid dispensing orifice (62), characterized in that the distributor (D) is received in the receiving body (1) with its dispensing nozzle (6) received in a housing (22), its exit surface (61) forming part of the application surface (S) , so that the dispensing orifice (62) opens directly into the application surface (S).
    公开号:FR3020748A1
    申请号:FR1454114
    申请日:2014-05-07
    公开日:2015-11-13
    发明作者:Frederic Duquet;Christophe Pierre
    申请人:Aptar France SAS;
    IPC主号:
    专利说明:

    [0001] The present invention relates to a fluid dispensing and dispensing assembly comprising a hollow receiving body, a fluid application surface mounted at an upper end of the receiving body and intended to come into contact with a target, such as the skin, and a fluid dispenser comprising a reservoir, a pump and a dispensing nozzle defining an outlet surface into which a fluid dispensing orifice opens. The assembly advantageously comprises a wave generation module that emits waves and transmits them to the application surface. Thus, the assembly makes it possible to apply a fluid product on a target such as the skin, and simultaneously, subsequently or previously, to subject the skin to waves through the application surface. The preferred field of application of the present invention is of course that of cosmetics, but may also be that of pharmacy.
    [0002] In the prior art we already know the document WO20013 / 121145 which describes a set of distribution and application of this type. It comprises an application head defining the application surface in which an outlet conduit forming a dispensing orifice opens. In addition, the application head comprises a housing for a light source (LED) emitting a red light having a wavelength of the order of 660 μm. This dispensing assembly comprises a receiving body in which a pump is integrated. In addition, this body forms a housing to accommodate the module generating the red light. In its lower part, the entire document comprises a removable case in which is received a fluid reservoir which is removably mounted to the pump integrated into the body. The only removable and replaceable part of this set is the fluid reservoir received in its case. It is not possible to extract the pump from the body, since the pump is directly overmoulded inside the body. On the other hand, the application surface is solely and entirely formed by the head which forms the outlet duct and the dispensing orifice, as well as the receiving housing for the light source. The present invention aims to improve this fluid dispensing and application assembly of the prior art by making it both more flexible, cleaner, cheaper and more easily adaptable to various technologies. of wave generation. To do this, the present invention provides a fluid dispensing and dispensing assembly comprising a hollow receiving body, a fluid product applying surface mounted at an upper end of the receiving body and intended to come into contact with each other. with a target, such as the skin, a fluid dispenser comprising a reservoir, a pump and a dispensing nozzle defining an outlet surface into which a fluid dispensing port opens, characterized in that the dispenser is received in the receiving body with its dispensing nozzle received in a housing, its outlet surface forming a part of the application surface, so that the dispensing orifice opens directly into the application surface. Thus, the fluid product travels only inside the dispenser to the level of the application surface whose outlet surface also forms part of the application surface. The fluid product is therefore in contact only with the dispenser and the application surface, to the exclusion of any other surface element. This is not the case in the dispensing assembly of document WO20013 / 121145, in which the fluid product at the outlet of the pump passes through a section of the receiving body and the outlet duct formed by the application head. With the design according to the invention, the dispensing and application assembly is much cleaner and more easily cleaned. According to a very advantageous embodiment, the dispenser is removably received in the receiving body with its dispensing tip removably received in the housing, the dispenser being removable from the receiving body through an open lower end of the housing. body that is opposite to the upper end. Unlike the aforementioned prior art in which only the tank is removable, in the present invention is the entire distributor, including the reservoir pump and the dispensing tip, which is removably received in the body of reception and in the accommodation. Thus, one can easily remove a dispenser from the body and replace it with another without leaving any trace of the fluid within the dispensing assembly. This is indeed possible, since the fluid product travels only inside the dispenser to the application surface, as already mentioned above. Therefore, with the same distribution and application assembly of the present invention, several types of fluid can be dispensed by simply replacing the fluid dispenser, without the risk of fluid residues or fluid product mixtures. . It is sufficient for the user to properly clean the application surface before removing the fluid dispenser to insert another. According to another very advantageous aspect of the invention, the application surface is partially formed by an application entity comprising an application head forming the housing, and a wave generation module which emits waves and transmits them. at the application surface, the module being partly received in the receiving body and advantageously forming a part of the application surface. The waves emitted by the wave generation module can be of any kind, such as for example radiation in visible light, infrared or ultraviolet radiation, generally any kind of electromagnetic waves, or vibratory waves such as for example ultrasound, or mechanical waves (massage), etc. The wave generation module can be associated with the application head by any appropriate technique, such as snap-fastening, gluing, force-wrapping, overmoulding, gluing, etc. Advantageously, the application entity is removably received on and in the receiving body, the module being advantageously releasably snapped into the receiving body. With such a design, it is easily understood that the application entity is completely independent of the fluid dispenser, except the engagement of the dispensing nozzle removably inside the housing formed by the application head . It is therefore possible to replace the application entity according to the fluid dispenser. One can thus imagine to provide several different types of fluid dispensers which are associated respectively different corresponding types of application entities comprising corresponding wave generation modules. According to a very practical feature of the invention, the outlet surface is arranged flush with the application surface to complete it smoothly, smoothly and continuously. Advantageously, the exit surface has an outer contour whose shape corresponds to that of the housing at least at the level of the application surface, so that the dispensing nozzle seals the housing sealingly, at least at the level of the surface of application. This ensures that the exit surface is perfectly integrated with the application surface without the possibility of fluid infiltration inside the housing. As a result, by very simply cleaning the application surface, for example by rubbing or wiping, the fluid dispenser can be removed from the assembly without any trace of fluid remaining in the receiving body, housing or on the surface of application. According to another advantageous aspect of the invention, the distributor defines a longitudinal axis which passes through the reservoir, the pump and the dispensing nozzle, the pump comprising a lateral actuator which is movable transversely to the longitudinal axis. Thus, the assembly can be grasped and manipulated in the manner of a pen by pressing the lateral actuator with the help of the index finger. Preferably, the dispensing nozzle is oriented and locked in rotation relative to the lateral actuator, the receiving body comprising a lateral pusher which is arranged in front of the lateral actuator to be able to move the lateral actuator by pressing laterally. on the lateral pusher, the angular orientation of the dispenser in the receiving body being imposed by the engagement of the dispensing nozzle in the housing. To do this, it may for example be provided that the dispensing nozzle and the housing have a corresponding cross section imposing a mutual engagement with a single angular orientation. According to another advantageous aspect of the present invention, the assembly may comprise a removable bottom which cooperates with the receiving body to seal the lower end, this bottom pushing, advantageously elastically, the distributor towards the application head of to support the dispensing tip in the housing. Preferably, the reservoir enters the removable bottom so that the tank protrudes out of the receiving body after removal of the bottom to be able to grip the reservoir and extract the dispenser out of the receiving body. Not only is sealing of the dispensing nozzle in the housing, but also a stable maintenance of the dispenser inside the receiving body, while allowing its easy extraction.
    [0003] According to another advantageous approach of the invention, it may be noted that the assembly comprises three distinct entities which are removably assembled, namely a reception entity formed by the reception body, advantageously provided with a push-button and a removable bottom, an application entity forming the application surface and comprising an application head and a wave generation module, and a distribution entity constituted by the fluid dispenser. It is then directly perceived that the assembly results from the assembly of three separate entities that provide both modularity, ease of cleaning, ease of assembly, and thus a reduced cost for the manufacture of the assembly.
    [0004] Advantageously, the pump is disposed between the pusher and the module. With this compact design, the assembly can be in the form of a pen with a curved portion where are arranged the pump, the pusher and the module. The spirit of the invention lies in the fact that the fluid product comes out of the dispenser at the level of the application surface, and this is all the more advantageous that the dispenser is removably mounted and that the surface application is at least partially formed by an application entity also incorporating a wave generation module. The decomposition of the assembly into three distinct entities is also an interesting feature, because it allows to separate the distributor of the wave generation module, which can be designed and manufactured by different companies. The invention will now be described in more detail with reference to the accompanying drawings, giving by way of non-limiting example, an embodiment of the invention. In the figures: Fig. 1 is a vertical cross-sectional view through a fluid dispensing and dispensing assembly of the invention, substantially at scale 1; Fig. 2 is a greatly enlarged view of the portion; Figure 3 is a horizontal cross-sectional view along section line AA of Figure 2; Figure 4 is an exploded perspective view of the dispensing and applying assembly of figures; FIG. 5 is a view similar to that of FIG. 1, in the absence of a fluid dispenser. FIG. 6 is a vertical cross sectional view through a fluid dispenser according to the invention, FIG. 7 is a top view of the dispenser of FIG. 6, and FIG. 8 is an exploded perspective view of the dispenser of FIGS. 6 and 7. As can be seen from the various figures which illustrate the present invention, FIG. The fluid dispensing and dispensing fluid of the invention has an elongated or slender shape which may be similar to that of a pen or a felt pen. It can also be noted that its cross section is not constant, since it varies from bottom to top significantly. In this case, near its lower end, the dispensing and application assembly has a rather round or circular cross section, while at the level of the AA cutting line, which is rather located near the the upper end, the dispensing and application assembly has an ovoid-shaped cross section (Figure 3). The upper face of the assembly forms an application surface S which has an inclination or slope towards a side. Referring to Figure 4, we can see the various components of the distribution assembly and application of the invention. It can first be noted that it comprises three distinct main entities, namely a distribution entity D, a reception entity R and an application entity A. The distribution entity D, which is a product distributor fluid, is received, advantageously removably, inside the receiving entity R, which comprises a one-piece receiving body 1 whose interior is hollow. The application entity A is mounted on and in the body 1, advantageously removably. Thus, preferably, the two entities D and A are removably received on and in the body 1 from these two opposite ends 17 and 12, respectively. This is the overall architecture of the distribution and application assembly according to the invention. In more detail, the body 1 of the receiving entity R is open at its two high ends 12 and 17 to be able to accommodate the entities A and D. The lower end 17 is advantageously threaded internally to receive by screwing a removable bottom 7. The latter has the shape of a small bucket with a bottom wall 73 and a cylindrical side wall 71 whose upper portion forms a thread 72 whose pitch corresponds to that of the lower end 17 of the body 1. It may be noted that the removable bottom 7 is provided above its lower wall 73 with a piece of elastic material 74, which may be a foam or an elastomer. The removable bottom 7 internally forms a space 70 which communicates upwardly with the interior of the body 1 which itself defines a reception space 1 a. Beyond this reception space 1a, the interior of the body 1 is divided into two compartments 1b and 1c by a partition wall 13. The compartment 1b extends axially in the extension of the space 1a , while the compartment 1 c extends laterally, at the level where the body 1 defines its ovoid shape. The lower end of the partition 13 forms a ratchet edge 14 as will be seen below. The body 1, at the compartment 1b is provided with a lateral pusher 15 which is movable transversely to the longitudinal axis of the receiving body 1. The displacement of the pusher 15 can be by pure translation or by elastic deformation. For example, it is possible to overmold the pusher 15 on the receiving body 1 with an elastomeric material. Alternatively, it is also possible to provide a pusher 15 which moves completely independently of the body 1. It is also possible to provide a simple opening in place of the pusher 15. It may also be noted that the partition wall 13 extends to near from the high end 12. The receiving body 1 can very simply be made by injection molding plastic material, or even metal.
    [0005] The application entity A results here from the combination of an application head 2 and a wave generation module 3. The application head 2, as can be seen in FIGS. 2, comprises an axial housing 22 formed by a cylindrical pipe whose cross section has a complex geometric shape, for example that of a crescent. This housing 22 is connected upwardly to an application surface area 21 which is here formed with two openings, namely a first opening corresponding to the mouth of the housing 22 and a second opening for the module 3. More specifically, the module 3 comprises an application surface section 31 which closes off the corresponding opening of the head 2 so as to continuously and smoothly supplement the application surface area 21 of the head 2. In other words, the module 3 fits in the opening of the application head so that the application surface section 31 of the module 3 completes the surface area of application of the head 2 without creating discontinuity, salient or of hollow. Consequently, the assembly of the module 3 and the head 2 makes it possible to create an application surface S whose only opening, at this stage, is formed by the mouth of the housing 22. It can be seen in FIGS. 2 that the application surface section 31 extends at the most inclined portion of the application surface S. The application head 2 also comprises a peripheral skirt 23 which fits in the end high 12 of the hollow body 1. On the other hand, the wave generation module 3 extends inside the receiving space 1c, and advantageously has a snap profile 34 adapted to cooperate with the edge In this way, the application entity A can be mounted in a perfectly stable manner on and in the hollow body 1.
    [0006] According to the invention, the wave generation module 3 makes it possible to generate any type of wave or electromagnetic, vibratory, etc. radiation, such as, for example, visible light, infrared, ultraviolet or even microwaves. etc. or else ultrasound or mechanical vibrations. Module 3 can also generate heat or cold (thermal waves) to impart a hot or cold effect to skin contact. The dispensing entity or fluid dispenser D comprises a fluid reservoir 4, a pump 5 and a dispensing nozzle 6, as can be seen more clearly in FIGS. 6 to 8.
    [0007] The reservoir 4 may for example be in the form of a sliding shaft 41 in which is received a follower piston 42 which is adapted to slide in the drum 41 as fluid is extracted from the reservoir. The top of the shaft 41 forms a neck 45. In place of this particular reservoir, one can also imagine a simpler reservoir without variation of useful volume, or a reservoir with a flexible pocket. The pump 5 comprises a fixing ring 54 enabling it to be mounted on the neck 45 of the tank 4. The pump 5 comprises a pump chamber 50 provided at its lower end with an inlet valve 51, for example in the form of a slit shutter. At its upper end, the pump chamber 50 comprises an outlet valve 52, which may for example also be in the form of a slit shutter. In addition, the pump chamber 50 comprises a lateral actuator 53 which makes it possible to reduce the useful volume of the pump chamber 50 and thus to discharge fluid through the outlet valve 52. The lateral actuator 53 is movable perpendicularly to the longitudinal axis X of the distributor D. The displacement can be done translatively or by elastic deformation. In the embodiment used to illustrate the present invention, the actuator 53 is in the form of a flexible wall of the pump chamber 50 which has been made for example by a biinjection or overmolding process. The pump 5 can thus be called flexible diaphragm pump, in that it acts directly on a movable wall of the chamber to put the fluid under pressure. At its upper end, the pump 5 forms a mounting well 56 for the dispensing nozzle 6. This mounting well 56 is advantageously provided with keying means 55, for example in the form of a projecting profile or a recess, for imposing the angular orientation of the nozzle 6 in the well 56. The dispensing nozzle 6 thus comprises a mounting heel 65 which is engaged, and advantageously latched, inside the mounting well 56 The mounting heel 65 comprises a keying profile which fits perfectly in the polarizing means 55 of the well 56, in order to impose the angular orientation of the dispensing nozzle 6 on the pump 5. In this way, the tip is always oriented in the same way relative to the lateral actuator 53, which extends only on one side of the pump 5. Above this mounting heel 65, the dispensing tip 6 forms an insertion appendix 63 whose cross section has a corresponding to that of the housing 22 formed by the application head 2. This form is more clearly visible in Figure 7: it is similar to a shape of a crescent. The side wall of the insertion appendix 63 may be cylindrical, although not circular over its entire height. Alternatively, one or more projecting sealing bead (s) can be provided for sealing inside the housing 22. At its upper end, the appendage 63 forms a substantially flat exit surface 61 which is pierced by a dispensing orifice 62, forming the outlet of an outlet duct 60 which passes through the appendix 63 and the mounting heel 65, as can clearly be seen in FIGS. 2 and 6. distribution nozzle 6 mounted on the pump 5, as shown in Figure 6, it can be seen that the outlet valve 51 communicates directly with the outlet conduit 60. Thus, by pressing the lateral actuator 53, reduces the volume of the pump chamber 50, and the pressurized fluid product is forced through the outlet valve 52, from which it can flow through the outlet conduit 60 to the dispensing orifice 62 located at level of the exit surface 61. As soon as the press is released ion on the lateral actuator 53, the outlet valve 52 closes and the inlet valve 51 opens under the effect of the depression created in the pump chamber 50, thus allowing suction fluid product from of the reservoir 4, whose follower piston 42 then moves towards the pump 5. As can be understood from FIG. 4, the distribution entity of the distributor D is inserted inside the hollow body 1 through its lower end 17, after removal of the removable bottom 7. The distributor D is thus inserted axially through the space 1 a, then through the space lb until the dispensing nozzle 6 enters the interior of the housing 22 of the application head 2. As previously explained, it is necessary to angularly orient the distributor D so that its insertion appendix 63 engages inside the housing 22. The angular orientation is preferably unique. It is then possible to fully engage the appendix 63 inside the housing 22 until the exit surface 61 reaches the level of the application surface S so as to complete it.
    [0008] This is visible in FIG. 2. It can be seen that the outlet surface 61 perfectly flush with the application surface area 21 of the head 2 so as to complete it. Finally, only the dispensing orifice 62 breaks the continuity of the application surface S. To ensure the full engagement of the appendix 63 in the housing 22, the removable bottom 7 is used, the flexible material 64 it comes into contact with the bottom of the tank 4 to push it upwards, and to seal at the housing 22. It should also be noted in this regard that the lower end of the tank 4 protrudes out of the hollow body 1 when the bottom removable 7 is removed, so that the dispenser can easily be grasped by its reservoir 4 to extract it from the hollow body 1. As a result, the dispenser D is removably received inside the hollow body 1 and the head 2. It may also be noted that the imposed angular orientation of the appendix 63 inside the housing 22 makes it possible to arrange the lateral actuator 53 opposite the pusher 15 of the hollow body 1. In FIG. 3, one can see the disposition of the different ts constituent elements of the distribution assembly and application of the invention at the level where it has its ovoid shape. It can be seen, for example, that the generation module 3 is received inside the compartment 1c which is delimited by the partition wall 13 which partially surrounds the pump 5, the lateral actuator 53 of which is covered by the side pusher 15. it can thus be said that the pump 5 is disposed between the module 3 and the pusher 15 inside the hollow body 1. With such a design, the application entity A is received in a removable manner on and in the entity of On the other hand, the dispensing entity of the dispenser D is also removably received within the receiving entity R and inside the housing 22 of the application entity A. In this way, it is possible to replace the distributor D and the application entity A as required. For example, it can be imagined that a particular dispenser dispensing a particular fluid product is associated with a particular application entity. It then suffices to mount the two entities A and D in the receiving entity R to form the distribution and application set of the invention. If it is necessary to replace the entities A and D, this is easily possible by removing each of the receiving entity R. It should also be noted that the fluid dispensed by the dispenser D only leaves the dispenser level of the application surface S, so that there can not remain fluid within the receiving entity R, once the distributor removed. In addition, because the application surface S is perfectly continuous and smooth, it is easily cleaned by friction or wiping. Thus, when a user wants to change the dispenser, it is sufficient for him first to clean the application surface S, then remove the dispenser and replace it with another. No contamination or deposition of fluid product can be observed.
    [0009] In the embodiment used to illustrate the present invention, the wave generation module 3 forms an application area sector 31. This is only a particular non-limiting embodiment, since it is quite possible to realize the wave generation module 3 without forming a part of the application surface S. The module 3 can for example be associated with the application head 2 just below the application surface S, which will then serve as diffusion means for the waves. The total independence between the distributor D and the application entity A, except when assembled in the housing 22, allows to completely separate these two entities, so that they can be produced by companies quite different, namely a company specialized in the design of distributors and a company specialized in the design of electronic modules generating waves. Thanks to the invention, there is obtained a fluid dispensing and application assembly comprising three distinct entities and whose cleanliness and cleaning are easily guaranteed.
    权利要求:
    Claims (13)
    [0001]
    CLAIMS1.- A fluid product distribution and application assembly comprising: - a hollow receiving body (1), - a fluid product applying surface (S) mounted at an upper end (12) of the receiving body ( 1) and intended to come into contact with a target, such as the skin, - a fluid dispenser (D) comprising a reservoir (4), a pump (5) and a dispensing nozzle (6) defining a surface of outlet (61) into which a fluid dispensing orifice (62) opens, characterized in that the distributor (D) is received in the receiving body (1) with its dispensing nozzle (6) received in a housing ( 22), its outlet surface (61) forming part of the application surface (S), so that the dispensing orifice (62) opens directly into the application surface (S).
    [0002]
    2. An assembly according to claim 1, wherein the distributor (D) is removably received in the receiving body (1) with its dispensing nozzle (6) removably received in the housing (22), the dispenser (D) being extractable from the receiving body (1) through an open lower end (17) of the receiving body (1) which is opposite to the upper end (12).
    [0003]
    3. An assembly according to claim 1 or 2, wherein the application surface (S) is partially formed by an application entity (A) comprising an application head (2) forming the housing (22), and a wave generating module (3) which emits waves and transmits them to the application surface (S), the module (3) being partly received in the receiving body (1) and advantageously forming part of the application surface (S).
    [0004]
    4. The assembly of claim 3, wherein the application entity (A) is removably received on and in the receiving body (1), the module (3) being advantageously releasably snapped into the body reception (1).
    [0005]
    5. An assembly according to any one of the preceding claims, wherein the outlet surface (61) is arranged flush with the application surface (S) to complete smoothly, evenly and continuously.
    [0006]
    6. The assembly of claim 5, wherein the exit surface (61) has an outer contour whose shape corresponds to that of the housing (22) at least at the application surface (S), so that the dispensing nozzle (6) seals the housing (22) sealingly, at least at the application surface (S).
    [0007]
    7. An assembly according to any one of the preceding claims, wherein the distributor (D) defines a longitudinal axis X which passes through the reservoir (4), the pump (5) and the dispensing nozzle (6), the pump (5) comprising a lateral actuator (53) which is movable transversely to the longitudinal axis X.
    [0008]
    8. An assembly according to claim 7, wherein the dispensing nozzle (6) is oriented and locked in rotation relative to the lateral actuator (53), the receiving body (1) comprising a lateral pusher (15). which is arranged in front of the lateral actuator (53) to be able to move the lateral actuator (53) by pressing laterally on the lateral pusher (15), the angular orientation of the distributor (D) in the receiving body (1) ) being imposed by the engagement of the dispensing nozzle (6) in the housing (22).
    [0009]
    9. An assembly according to any one of the preceding claims, wherein the dispensing nozzle (6) and the housing (22) have a corresponding cross section imposing a mutual engagement with a single angular orientation.
    [0010]
    10.- assembly according to claim 2, comprising a removable bottom (7) which cooperates with the receiving body (1) for closing the lower end (17), this removable bottom (7) pushing, preferably elastically, the dispenser (D) to the application head (2) so as to support the dispensing nozzle (6) in the housing (22).
    [0011]
    11. An assembly according to claim 10, wherein the reservoir (4) enters the removable bottom (7) so that the reservoir (4) protrudes out of the receiving body (1) after removal of the removable bottom (7). to be able to grip the tank (4) and extract the distributor (D) out of the receiving body (1).
    [0012]
    12. An assembly according to any one of the preceding claims, comprising three distinct entities which are removably assembled, namely: a receiving entity (R) formed by the receiving body (1), advantageously provided with a pusher (15) and a removable bottom (7), - an application entity (A) forming the application surface (S) and comprising an application head (2) and a wave generation module (3), and - a distribution entity (D) constituted by the fluid dispenser.
    [0013]
    13. The assembly of claim 12, wherein the pump (5) is disposed between the pusher (15) and the wave generator module (3).
    类似技术:
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    同族专利:
    公开号 | 公开日
    EP3139790B1|2018-04-25|
    FR3020748B1|2020-10-30|
    CN106572733A|2017-04-19|
    US20170055672A1|2017-03-02|
    CA2948099A1|2015-11-12|
    JP2017518097A|2017-07-06|
    US10194729B2|2019-02-05|
    JP6633546B2|2020-01-22|
    EP3139790A1|2017-03-15|
    KR102331154B1|2021-11-26|
    WO2015170048A1|2015-11-12|
    CN106572733B|2019-11-15|
    KR20160149272A|2016-12-27|
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    FR3052989B1|2016-06-27|2020-02-21|Aptar France Sas|FLUID PRODUCT DELIVERY AND APPLICATION ASSEMBLY|
    FR3063609B1|2017-03-09|2019-03-29|Aptar France Sas|FLUID PRODUCT DISPENSING AND APPLICATION ASSEMBLY.|
    FR3063608B1|2017-03-09|2021-10-29|Aptar France Sas|FLUID PRODUCT DISTRIBUTION AND APPLICATION HEAD.|
    FR3069465B1|2017-07-25|2019-08-09|Aptar France Sas|FLUID PRODUCT DISPENSING ASSEMBLY|
    FR3073131A1|2017-11-06|2019-05-10|Aptar France Sas|FLUID PRODUCT DISPENSER.|
    法律状态:
    2015-05-27| PLFP| Fee payment|Year of fee payment: 2 |
    2015-11-13| PLSC| Publication of the preliminary search report|Effective date: 20151113 |
    2016-05-25| PLFP| Fee payment|Year of fee payment: 3 |
    2017-05-29| PLFP| Fee payment|Year of fee payment: 4 |
    2018-05-28| PLFP| Fee payment|Year of fee payment: 5 |
    2019-05-28| PLFP| Fee payment|Year of fee payment: 6 |
    2020-05-27| PLFP| Fee payment|Year of fee payment: 7 |
    2022-02-11| ST| Notification of lapse|Effective date: 20220105 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1454114A|FR3020748B1|2014-05-07|2014-05-07|FLUID PRODUCT DISTRIBUTION AND APPLICATION KIT|FR1454114A| FR3020748B1|2014-05-07|2014-05-07|FLUID PRODUCT DISTRIBUTION AND APPLICATION KIT|
    US15/308,889| US10194729B2|2014-05-07|2015-05-05|Assembly for dispensing and applying a fluid product|
    PCT/FR2015/051185| WO2015170048A1|2014-05-07|2015-05-05|Assembly for dispensing and applying a fluid product|
    CA2948099A| CA2948099A1|2014-05-07|2015-05-05|Assembly for dispensing and applying a fluid product|
    JP2016566766A| JP6633546B2|2014-05-07|2015-05-05|Assembly for fluid product dosing and application|
    KR1020167033495A| KR102331154B1|2014-05-07|2015-05-05|Assembly for dispensing and applying a fluid product|
    EP15729536.1A| EP3139790B1|2014-05-07|2015-05-05|Assembly for dispensing and applying a fluid product|
    CN201580022218.XA| CN106572733B|2014-05-07|2015-05-05|For distributing and the component of coating fluid product|
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