法国专利FR3018704A1 LIQUID DISPENSING DEVICE COMPRISING A PROTECTIVE CAP.

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专利摘要:
The liquid dispensing device (10) comprises a protective cap (12) of a liquid dispensing aperture (22), the protective cap (12) being provided with an absorption buffer (36) for liquid residual, made of an absorbent material, the absorption pad (36) being fixed on a support (42) made of a material more resistant than the absorption pad, this support (42) being moreover fixed in the cap of protection (12).
公开号:FR3018704A1
申请号:FR1452341
申请日:2014-03-20
公开日:2015-09-25
发明作者:Thierry Decock；Gaetan Painchaud；Benjamin Quaglia
申请人:Rexam Healthcare La Verpilliere SAS；
IPC主号:

专利说明:

[0001] The present invention relates to the technical field of liquid dispensing. In particular, but not exclusively, it relates to the field of liquid dispensing in the form of drops or in the form of a spray, such as ophthalmic, nasal, oral or auricular fluid. In the state of the art, for example in document FR 2 988 015, a liquid dispensing device is known comprising a bottle, a dispensing nozzle provided with a liquid dispensing opening and a removable protective cap. of this opening. The protective cap comprises an absorption pad, made in such a way that residual liquid is absorbed by the buffer, thus making it possible to limit the subsequent administration of contaminated residual liquid. It has been found that, during the process of mounting the absorption pad inside the protective cap, particles from the pad can be generated, in particular by the friction occurring during handling of the pad on the cap of the pad. protection. However, these particles can be at the origin of the contamination of the product, or of the administration of particles in addition, these particles are likely to accumulate in different parts of the device, for example by being deposited on the absorption buffer, inside the device, at the risk of creating a malfunction of a non-return valve, or in a clean room assembly of the device, room in which the rate of particles present inside 25 is the subject of regulations and controls. The present invention is intended in particular to provide a liquid dispensing device further preventing contamination of the dispensed product. For this purpose, the subject of the invention is a liquid dispensing device comprising a cap for protecting a liquid dispensing opening, the protective cap being provided with a residual liquid absorption buffer, made in an absorbent material, the absorption pad being fixed on a support made of a material stronger than the absorption pad, this support being further fixed in the protective cap. Thus, it is proposed to fix the buffer on a support, which makes it possible to reduce, or even to limit completely, the generation of particles that could occur during mounting of the buffer in the protective cap. Indeed, as the pad is generally made of a relatively friable material, the fact of fixing it on a support rather than directly on the protective cap has the consequence that, in the case where particles would be generated during the fixing of the buffer absorption in the support, these particles can then be removed, and do not get stuck inside the protective cap. Moreover, since the support is made of a material that is stronger than the absorption pad, the forces that are exerted by the protective cap on the absorption pad during assembly are applied to the support, which generates fewer particles because there is more or almost no more friction between the absorption pad and the protective cap during assembly. Consequently, a device is obtained which limits the quantity of particles likely to contaminate the product to be administered and which reduces the risk of inadvertently administering to the eye particles which may be harmful, troublesome and / or which make it possible to comply with certain constraints. regulations. "More resistant material than the absorption buffer" is understood to mean a material which is more cohesive than that of the absorption buffer, that is to say that the interaction forces within the material of the support are stronger than those within the absorption buffer material, in particular the electromagnetic interaction forces. As the support is made of a more resistant material, it has a reduced friability and an increased resistance to friction, thus making it possible to limit the generation of particles. For example, the support is made of plastic material such as polyethylene (PE), and the absorption pad is made of a material comprising at least one hydrophilic part, allowing the drainage of liquid, that is to say capable absorb liquid or even allow it to evaporate if an evaporation path is open. The device presented above may further comprise one or more of the following features, taken alone or in combination. - The support is made of plastic, such as polyethylene. The plastic provides better strength to the substrate than to the absorption pad, so as to limit the generation of particles under the effect of friction that may occur during assembly. - The support has an annular shape. This annular shape makes it possible to limit the friction all around the absorption buffer. - The support extends over the entire height of the absorption pad. This thus makes it possible to restrict or eliminate any part of the absorption pad in contact with the protective cap. - The residual liquid absorption buffer is fixed on the support by overmolding. The overmolding of the absorption pad on the support has the advantage of not generating any particles during the assembly, and furthermore makes it possible to ensure uniqueness to the assembly comprising the support and the buffer. absorption, to allow a good cohesion between these two parts. - The absorption pad is fixed on the support by clamping, snapping or gluing. Such an assembly is particularly simple to implement. The absorption pad is made of a porous material. Thus, the porous material makes it possible to have satisfactory absorption properties, in particular hydrophilic properties, which are useful for the absorption of the residual liquid by the absorption buffer, so as to obtain an almost complete or complete absorption of the liquid. residual by the buffer. It can, in addition, allow protection against possible microbial contamination through the absorption, drainage and drying of the residual liquid due to the porous nature of the material. - The absorption pad comprises woven or non-woven materials. It may, for example, comprise hydrophilic cotton, hydrophilically treated polyethylene (PE), hydrophilically treated polyethylene terephthalate (PET), polyvinyl acetate (PVA) foam or a mixture of several hydrophilic materials. The absorption pad is made of a material comprising ethylene vinyl acetate (EVA). The use of this material for producing the absorption buffer is particularly advantageous because it makes it possible to limit the formation of particles. Indeed, the structure of the EVA, in foam form, has a better cohesion than that of the absorption pad, while maintaining the absorbent properties thereof. - The absorption buffer is a multilayer buffer. In particular, the absorption pad may comprise at least two distinct absorbent materials, arranged one above the other, the downstream material being more hydrophilic than the upstream material. Thus, the liquid is sucked by the most hydrophilic material and the residual liquid does not stagnate in the least hydrophilic material disposed near the dispensing opening. The residual drop is thus completely absorbed thanks to the proximity of the absorption buffer. The upstream material advantageously comprises a hydrophobic material. It therefore prevents the liquid absorbed by the most hydrophilic material from returning to the dispensing opening. The absorption buffer may also contain, on at least one of its layers, an antimicrobial agent which may be of disinfectant or bacteriostatic type. The advantage of such an absorption buffer is a very high microbial efficiency, without contact of this antimicrobial agent with the delivered liquid. The surface of the absorption pad in contact with the air may be increased, in particular to accelerate the rate of drying of the pad, particularly when a low absorption pad is used. - The support is fixed in the protective cap by mechanical assembly, for example by clamping or latching, optionally via one or more reliefs or recesses, continuous or not, such as a rib or a stud, arranged on the protective cap and / or the support. Thus, after insertion of the support by forcing inside the protective cap and elastic deformation of the support to the passage of the relief (s), the relief and / or the hollow can form a mechanical stop of the support in the protective cap . It is also possible to provide a relief of different geometry capable of exerting a blocking function of the support with respect to the protective cap. It is also possible to bond the support in the protective cap. Thus, the assembly can be manipulated and assembled with other parts by limiting as much as possible a disassembly of the protective cap and the support on which the absorption pad. The device comprises a residual liquid evaporation path between the absorption buffer and the outside of the device when the protective cap is mounted on the device, the protective cap comprising an outer casing and an inner casing, mounted movable relative to each other between a first configuration, corresponding to a hermetic sealing configuration of the device, and a second configuration corresponding to a ventilation configuration of the device, in which the evaporation path is open between the Absorption buffer - 5 - and outside. Thus, the protective cap allows ventilation as described in FR 2 988 015, so that the residual liquid absorbed by the absorption pad can evaporate out of the device.
[0002] The subject of the present invention is also a method of assembling a device as presented above, during which the absorption buffer and the support are first assembled, then the whole is brought back inside the protective cap, the method preferably further comprising a step of blowing compressed air over the entire absorption pad and the support, before bringing them back into the protective cap. The absorption pad is previously assembled to the support separately, thereby minimizing the generation of particles within the device. In addition, the generation of particles in the device is also minimized when the absorption pad and support assembly is assembled on the protective cap. Finally, the optional additional blowing step advantageously makes it possible to eliminate any particle that could have been generated. The invention will be better understood on reading the appended figures, which are provided by way of example and are not limiting in nature, in which: FIG. 1 is a longitudinal sectional view of a dispensing device according to a first embodiment; FIG. 2 is an exploded perspective view of the inside of the inner envelope of the protective cap, the absorption pad and the support of the device of FIG. 1; - Figure 3 is similar to Figure 1 of a device according to a second embodiment; and FIG. 4 is an exploded perspective view of the interior of the inner casing of the protective cap, the absorption pad and the support of the device of FIG. 3. FIGS. 2 a first embodiment of a device 10 for dispensing liquid. The device 10 is similar to that described in the publication FR 2 988 015. The device 10 is, in FIG. 1, in hermetic sealing configuration. In this non-limiting example, the device 10 is a device for dispensing liquid in the form of drops. The device 10 comprises a protective cap 12 and a dispensing nozzle 14 which is intended to be mounted on the neck of a reservoir (not shown), for example by screwing. This reservoir is a liquid storage tank, for example pharmaceutical liquid such as ophthalmic liquid. The reservoir is deformable, so as to distribute fluid by pressure, from a user, on the body of the reservoir, the latter may have a certain elasticity to resume its original shape after the pressure exerted by the user, this which generates a depression inside the tank. The dispensing nozzle 14 comprises a membrane 18, or valve 18, forming a non-return valve, a valve support 26 and an upper envelope 24. The valve 18 delimits, with the valve support 26, a distribution channel 20 of liquid from the tank. This channel 20 opens on a flared portion made in the valve 18 for the formation of drops, defining a liquid distribution opening 22. The valve 18 is configured to be able to assume a liquid passage configuration, during which liquid can reach the dispensing opening 22, and a liquid lock configuration, during which the valve 18 is pressed against the upper end of the valve support 26, thereby blocking the passage of liquid. We will now describe the protective cap 12, mounted on the dispensing tip 14, preferably by screwing. The protective cap 12 comprises, in this example, an outer casing 28 and an inner casing 30. These inner and outer casings 28, 30 are coaxial, integral with each other by being movably mounted relative to each other. the other in rotation and in longitudinal translation, between a first configuration, corresponding to a hermetic sealing configuration of the device 10, visible in FIG. 1, and a second configuration corresponding to a ventilation configuration of the device 10. In the configuration of ventilation, an evaporation path 48 is opened between the absorption buffer 36 described in the following and the outside, so that residual liquid absorbed by this absorption buffer 36 can evaporate. The inner envelope 30 further comprises a form of expulsion 32 of residual liquid that would be in or near the dispensing opening 22. This form of expulsion 32 is located in the immediate vicinity and facing the opening The expulsion form 32 is also, in this example, a form of immobilization of the valve 18 in the liquid blocking position when the protective cap 12 is mounted on the device 10. For example, the shape expulsion 32 is a pin whose general shape is complementary to the drop forming means 34, made in the valve 18, for example the expulsion form 32 is frustoconical. Thus, the expulsion form 32 secures the valve 18 by pinching the valve 18 against the valve support 26. The protective cap 12 comprises a residual liquid absorption buffer 36 fixed to the valve support 26. protective cap 12 via a support 42 itself fixed, in this example, to the inner casing 30 of the protective cap 12. The absorption pad 36 is substantially annular in shape. It is disposed around the expulsion form 32 of the residual liquid. It has an orifice 33 receiving the expulsion form 32 of the inner envelope 30 of the protective cap 12. This orifice 33 has a generally cylindrical shape and may be of variable diameter. It can also be of frustoconical shape and present on the surface of possible reliefs and / or depressions. For example, the absorption pad 36 has a diameter of 10 mm +/- 0.20 mm and the centrally located orifice 33 has a diameter of 4 mm +/- 0.15 mm. The section of the ring of the absorption pad 36 is of substantially rectangular shape. One of the corners of the inner face of the absorption pad 36 could possibly be beveled and complementary to the shape of the valve 18. Advantageously, the two corners of the inner face could be beveled, the absorption pad 36 can be fixed on the support 42 indifferently in one direction or the other. The absorption pad 36 may comprise one or more parts of different shapes and / or dimensions. In the example illustrated in FIG. 1, the absorption pad 36 consists of two parts, a first part 31 of generally annular shape, of larger diameter than a second part 29, also of generally annular shape, surrounded by Advantageously, the absorption pad 36 may not be in contact with the valve 18 in order to avoid contact between the residual liquid present in the absorption buffer 36 and the valve 18 when the protective cap 12 is mounted on the device 10. Also advantageously, the absorption pad 36 may not be in contact with the inner envelope 30 of the protective cap 12 in order to avoid friction between the protective cap 12 and the absorption pad 36 responsible for the generation of particles. The absorption pad 36 advantageously comprises a porous material comprising one or more hydrophilic materials. The absorption pad 36 may also be a multilayer pad, in combination or alternatively with the case in which it comprises a porous material. The absorption pad material 36 may comprise woven or nonwoven materials. It may for example comprise hydrophilic cotton, hydrophilically treated polyethylene (PE), hydrophilically treated polyethylene terephthalate (PET), polyvinyl acetate (PVA) foam, or a mixture thereof. of several hydrophilic materials. According to a particularly advantageous variant, the absorption buffer 36 is made of a material comprising EVA (ethylene-vinyl acetate). The support 42, on which the absorption pad 36 is fixed, has a generally annular shape. Its section is of substantially rectangular shape. It can be continuous or discontinuous, and can include reliefs or recesses that would allow for example to fix it on the inner envelope 30 of the protective cap 12. Advantageously, it is arranged on the periphery of the absorption pad 36 and is in direct contact with the inner casing 30 of the protective cap 12. More particularly in the example, it is positioned on the periphery of the second portion 29 of the absorption pad 36, which gives the assembly a diameter greater than the diameter of the first portion 31 of the absorption pad 36, advantageously making it possible to come into contact with the inner envelope 30 of the protective cap 12 and thus avoiding the absorption buffer 36 taken as a whole from being rubbed against this wall of the inner casing 30. The support 42 advantageously comprises a stronger material than the material of the absorption pad 36. The support 42 may be made of plastic, such as polyethylene, treated or untreated. The assembly method of the device 10 will now be described. The absorption pad 36 and the support 42 are firstly assembled, advantageously by overmolding or by any other mechanical clamping means. In this way, few particles, or even no particles at all, are generated in the device 10. Then, the assembly is brought back inside the protective cap 12. More precisely, the support 42 is fixed to the interior of the inner casing 30, so that the absorption pad 36 is found around the expulsion form 32 of the valve 18 once the protective cap 12 is mounted, without being in contact with the edges The outer casing 28 is then mounted on the inner casing 30, for example by screwing, so that the outer casing 28 can no longer be separated from the casing. Inner shell 30. It is understood that the outer shell 28 can be assembled with the inner shell 30 before the insertion of the support 42 and the absorption pad 36. Before reporting the absorption pad 36 and the support 42 in the capu 12, it is particularly advantageous to perform a step of blowing compressed air over the entire absorption pad 36 and the support 42, so as to clean them of all the particles that could have been deposited.
[0003] Then, the protective cap 12 is ready to be mounted by screwing on the dispensing nozzle 14, and once the reservoir filled with the liquid to be dispensed, it comes to screw the assembly formed by the dispensing tip 14 and the cap 12 on the neck of the tank. The device 10 is ready to be used.
[0004] The first configuration, known as the storage or hermetic sealing configuration of the device 10, is shown in FIG. 1, so that there is no possible communication between the absorption buffer 36 and the outside of the device 10. In this configuration, there is no communication between the air passage orifices 52 of the inner envelope 30 and the air passage orifices 50 of the outer envelope 28.
[0005] Indeed, a ring 44 of the outer casing 28 forms, with a surface 46 of the inner casing 30, a closure means of the evaporation path 48. During the first use, the user unscrews the cap of protection 12. It tightens the outer shell 28 in one hand and the tank in the other hand. It rotates the outer casing 28 with respect to the inner casing 30. The rotational movement applied by the user to the device 10 generates a longitudinal translation movement of the outer casing 28 with respect to the inner casing 30, up to a ventilation configuration. In this ventilation configuration, not shown, due to the longitudinal displacement of the outer casing 28 relative to the inner casing 30, the ring 44 of the outer casing 28 no longer cooperates with the conical surface 46 of the inner casing 30, so that a gap is created between the ring 44 and the conical surface 46, and thus the evaporation path 48 of the residual liquid is open between the absorption pad 36 and the outside of the device 10. Between two uses, the user screws the protective cap 12 on the dispensing nozzle 14. When the cap 12 is mounted on the dispensing nozzle 14, the expulsion form 32 cooperates with the valve 18. In addition, this form expulsion 32 comprises grooves 38 which define with the valve 18 a discharge path 40 of the residual liquid contained in the drop forming means 34. This escape route 40 allows to evacuate the residual liquid to the buffer absorption 36, in which it is absorbed. Then, the liquid absorbed by the absorption pad 36 can evaporate out of the device 10 by the evaporation path 48 open between the absorption pad 36 and the outside of the device 10. - 10 - there is therefore no residual liquid which stagnates in the drop-forming means 34 and the formation of solid residue of the active ingredient which can lead to the delivery of an overdose during the delivery of a drop or the delivery of solid particles is avoided in the drop in the next use of the device 10. There is shown in Figures 3 and 4, a second embodiment of the device 70 for dispensing liquid, similar to the device 10 of Figure 1. In what follows, the elements common to the various embodiments are identified by the same reference numerals. This device 70 is also in the hermetic seal configuration. In this example, the protective cap 72 comprises a single-piece absorption pad 35 and a support 60 on which the absorption pad 35 is fixed. The absorption pad 35 is generally 10 mm ring-shaped 0.20 mm in diameter and has an orifice 33 allowing the passage of the expulsion form 32 of 4 mm +/- 0.15 mm in diameter. The support 60 extends, in this example, over the entire height of the absorption pad 35. It furthermore has a portion 62 that at least partially covers one side of the absorption pad 35. In this example, a portion 62b of the support 60, intended to abut against the bottom the inner casing 20 of the protective cap 72, extends over the entire upper peripheral face of the protection pad 35. In this advantageous manner, the absorption pad 35 does not come into contact with the inner casing 30 and thus avoids any friction likely to generate particles. The portion 62a of the support 60, located on the side of the valve 18, partially overlaps the surface of the absorption pad 35 so that the surface of the absorption pad 35, free of support, can come against the valve 18 and play its role of absorbing the residual liquid present on the valve 18 after use of the device 70 and handing over the protective cap 72. It is understood that the invention is not limited to the examples presented above and that modifications will become clear to those skilled in the art.

权利要求:
Claims (10)
[0001]
REVENDICATIONS1. Liquid dispensing device (10; 70), characterized in that it comprises a protective cap (12; 72) of a liquid dispensing opening (22), the protective cap (12; 72) being provided an absorption buffer (36; 35) of residual liquid made of an absorbent material, the absorption pad (36; 35) being fixed on a support (42; 60) made of a material stronger than the absorption pad (36; 35), which support (42; 60) is further secured in the protective cap (12; 72).
[0002]
2. Device according to the preceding claim, wherein the support (42; 60) is made of plastic material, such as polyethylene.
[0003]
3. Device according to any one of the preceding claims, wherein the support (42; 60) has an annular shape.
[0004]
4. Device according to any one of the preceding claims, wherein the support (60) extends over the entire height of the absorption pad.
[0005]
5. Device according to any one of the preceding claims, wherein the absorption pad (36; 35) is fixed on the support (42; 60) by overmolding.
[0006]
6. Device according to any one of the preceding claims, wherein the absorption pad (36; 35) is made of a porous material.
[0007]
The device according to any one of the preceding claims, wherein the absorption pad (36; 35) is made of a material comprising EVA (ethylene-vinyl acetate).
[0008]
8. Device according to any one of the preceding claims, wherein the absorption buffer (36) is a multilayer buffer.
[0009]
Apparatus according to any one of the preceding claims, including a residual liquid evaporation path (48) between the absorption pad (36; 35) and the exterior of the device (10; 70) when the cap of protection device (12; 72) is mounted on the device (10; 70), the protective cap (12; 72) comprising an outer casing (28) and an inner casing (30) mounted movably on one side (12); relationship to the other between a first configuration, corresponding to a hermetic sealing configuration of the device (10; 70), and a second configuration corresponding to a ventilation configuration of the device (10; 70), wherein the evaporation path (48) is open between the absorption pad (36; 35) and the outside.
[0010]
10. A method of assembling a device (10; 70) according to any one of the preceding claims, wherein the absorption buffer (36; 35) and the support (42; and then the assembly is brought into the protective cap (12; 72), the method preferably further comprising a step of blowing compressed air over the entire absorption pad (36; ) and the support (42; 60), before bringing them back into the protective cap (12; 72).

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引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

EP1661818A1|2003-09-02|2006-05-31|Otsuka Pharmaceutical Co., Ltd.|Discharge member, discharge container having the discharge member, and instillation container|

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WO2012100013A1|2011-01-21|2012-07-26|The Gillette Company|Actuator for a dispensing apparatus|

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US9433963B2|2012-11-06|2016-09-06|Precision Valve & Automation, Inc.|Adhesive dispensing assembly having a mechanism for cleaning the dispensing nozzle|DE102013226253B4|2013-12-17|2016-03-24|Aptar Radolfzell Gmbh|Protective cap for a dispenser and dispenser for dispensing pharmaceutical and / or cosmetic liquids|

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法律状态:
2015-03-26| PLFP| Fee payment|Year of fee payment: 2 |

2016-01-29| CD| Change of name or company name|Owner name: NEMERA LA VERPILLIERE, FR Effective date: 20151228 |

2016-03-30| PLFP| Fee payment|Year of fee payment: 3 |

2017-03-27| PLFP| Fee payment|Year of fee payment: 4 |

2018-03-26| PLFP| Fee payment|Year of fee payment: 5 |

2020-03-30| PLFP| Fee payment|Year of fee payment: 7 |

2021-03-30| PLFP| Fee payment|Year of fee payment: 8 |

优先权:

申请号 | 申请日 | 专利标题

FR1452341A|FR3018704B1|2014-03-20|2014-03-20|LIQUID DISPENSING DEVICE COMPRISING A PROTECTIVE CAP.|FR1452341A| FR3018704B1|2014-03-20|2014-03-20|LIQUID DISPENSING DEVICE COMPRISING A PROTECTIVE CAP.|

US15/127,677| US10160577B2|2014-03-20|2015-03-19|Liquid-dispensing device comprising a protective cap|

PCT/FR2015/050680| WO2015140473A1|2014-03-20|2015-03-19|Liquid-dispensing device comprising a protective cap|

JP2016557986A| JP6755804B2|2014-03-20|2015-03-19|Liquid supply device including protective cap|

CN201580013511.XA| CN106102931B|2014-03-20|2015-03-19|Liquid delivery and dispensing device comprising a protective cap|

EP15715351.1A| EP3119529B1|2014-03-20|2015-03-19|Liquid-dispensing device comprising a protective cap|

ES15715351T| ES2860761T3|2014-03-20|2015-03-19|Liquid distribution device comprising a protection cap|

PL15715351T| PL3119529T3|2014-03-20|2015-03-19|Liquid-dispensing device comprising a protective cap|

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