• 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:
    The invention relates to a nozzle (10) for dispensing liquid comprising: - a liquid dispensing opening, - a removable cap for covering said opening, - a residual liquid evaporation path disposed between the opening and the outside the nozzle (10) when the removable cap is mounted on the nozzle (10), - a shutter means (100) of the evaporation path, movable in the cap between a closed position and a position opening of the evaporation path, the cap comprising an outer casing and an inner casing (44) coaxial, mounted movable relative to each other in an axial direction (A) of the endpiece (10) between: - a configuration before first use, called storage configuration; a configuration of unscrewing the cap when a pressing force exerted on the cap has an intensity greater than a predetermined threshold; - A safety configuration when a pressing force exerted on the cap has an intensity lower than the predetermined threshold or when no pressing force is exerted on the cap, - the shutter means (100) being configured to be driven by the movement of the outer casing to move from the closed position to the open position.
    公开号:FR3067011A1
    申请号:FR1754839
    申请日:2017-05-31
    公开日:2018-12-07
    发明作者:Gaetan Painchaud
    申请人:Nemera la Verpilliere SAS;
    IPC主号:
    专利说明:

    -1 nozzle and liquid distribution device comprising a cap
    The present invention relates to the technical field of liquid distribution. In particular, but not exclusively, it relates to the field of dispensing liquid in the form of drops or in the form of a spray, such as ophthalmic, nasal, oral or ear fluid.
    It has already been proposed, in document WO2013 / 140069, a device for dispensing liquid comprising a reservoir and a dispensing nozzle provided with a removable cap. The cap described in this document comprises two envelopes which are movable relative to one another so as to be able to create an air passage allowing the evaporation of residual liquid located at the level of the dispensing orifice. It turns out that this cap opens by simply unscrewing, so that the liquid product contained in the reservoir becomes easily accessible via the dispensing nozzle. This presents a danger for a young child who, by manipulating the device, can open the cap and gain access to the liquid product which can cause poisoning.
    The object of the invention is in particular to remedy these drawbacks by providing a nozzle and a liquid distribution device whose safety is improved.
    To this end, the invention aims to provide a liquid dispensing tip comprising:
    - a liquid distribution opening,
    - a removable cap intended to cover said opening when it is mounted on the end piece,
    - a residual liquid evaporation path arranged between the opening and the outside of the nozzle when the removable cap is mounted on the nozzle,
    - a means of closing the evaporation path, movable in the cap between a closed position and an open position of the evaporation path,
    - the cap comprising an outer envelope and an inner coaxial envelope, mounted movable relative to one another in an axial direction (A) of the end piece between:
    . a configuration before first use, called storage configuration, in which the closure means is in the closure position;
    . a configuration of unscrewing the cap when a pressing force exerted on the cap has an intensity greater than a predetermined threshold, in which a
    - 2 rotation in a first direction of the outer casing causes a rotation of the inner casing in the same first direction, so that the cap can be unscrewed;
    . a safety configuration when a pressing force exerted on the cap has an intensity lower than the predetermined threshold or when no pressing force is exerted on the cap, in which the outer casing is configured to spin free relative to the inner casing in the first direction, the safety configuration further corresponding to a configuration in which the shutter means is in the open position,
    - the shutter means being configured to be driven by the relative movement between the outer casing and the rest of the end piece in order to pass from the shutter position to the open position.
    Thus, a tip is proposed in which the outer casing and the inner casing can advantageously take on a configuration allowing air to pass between them, while providing improved security. Indeed, a sufficiently large pressing force is required on the outer casing to unscrew the cap. Unscrewing remains simple and intuitive for an adult while a child, who is not able to turn by pressing or pressing hard enough on the outer casing, will only find himself in the safety configuration of the cap and will not be able to unscrew it. Preferably, but not exclusively, said bearing force exerted on the cap is an axial bearing force. Furthermore, when the cap is in the unscrewing configuration, the outer casing is rotated in the first direction, which is preferably the counterclockwise direction, corresponding to the conventional unscrewing direction. Thanks to the pressing force applied to the outer casing, the inner casing is also driven to rotate in the same direction, which allows the cap to be unscrewed. It is understood that the means for closing the evaporation path, when it is in the closed position, makes it possible to provide a hermetic nozzle before its first use. Thus, one can limit the evaporation of the liquid contained in the nozzle during storage of the nozzle as well as the contamination of the nozzle by dust or micro-organism during storage. After the first opening of the cap, that is to say, when the cap is in a configuration other than the storage configuration, the shutter means switches to the open position of the evaporation path. Therefore, air can pass advantageously between the two envelopes and allow the evaporation of the liquid via this evaporation path. This prevents liquid from stagnating at the dispensing opening of the nozzle, and therefore the growth of bacteria. Note that the
    -3 shutter means remains in the open position and the evaporation path remains operational in the safety configuration, and also preferably in the unscrewing configuration. In other words, the shutter or the opening of the evaporation path is carried out by the shutter means, which once in the open position, remains in this position definitively, regardless of the movement or the position of the outer and inner envelopes.
    By "the outer casing is configured to rotate in free direction with respect to the inner casing in the first direction" is meant that the outer casing can rotate freely with respect to the inner casing in this direction, without secure in rotation with the inner envelope. Thus, when the cap is in security configuration, the outer envelope is configured to be rotated by the user in the first direction, while the inner envelope remains stationary on the dispensing end piece. In other words, a rotation in the first direction of the outer envelope does not have the effect of generating the rotation of the inner envelope in the first direction. The term “axial direction of the endpiece” preferably means the direction defined by a geometric axis of the endpiece.
    The invention may also include one or more of the following characteristics, taken alone or in combination.
    - The sealing means is arranged between the outer envelope and the inner envelope, the sealing means and the inner envelope each having a sealing surface and the sealing surfaces being in hermetic contact with each other. the other when the shutter means is in the shutter position. Advantageously, the closure means is not accessible by the user, which guarantees the opening of the evaporation path when the end piece is no longer in the storage configuration. In particular, the closure means is covered by the outer envelope.
    - The shutter means passes from the shutter position to the open position by a movement of the shutter means relative to the inner casing in the axial direction (A). Thus, the transition from one position to the other can be done by a simple axial translation of the shutter means, or by the combination of a translation and a rotation.
    - The shutter means pass from the shutter position to the open position
    -4by rotating the shutter means relative to the inner envelope in the first direction. An advantage of moving from one position to another by rotation is that the end piece is particularly compact, especially in the axial direction (A). The movement of the closure means can in particular be controlled by that of the outer casing throughout the first opening of the cap before arriving at the open position in which the closure means is permanently secured to the outer shell or the inner shell. This allows in particular a reduction in noise between the parts and better evaporation of the residual liquid product.
    - The inner envelope comprises at least one air passage orifice, this orifice being closed by the shutter means when it is in the closed position. For example, the shutter means is assembled on the inner casing, by tight assembly of the shutter means on the inner casing, or even by snap-fastening of the shutter means on the inner casing. This allows satisfactory sealing of the nozzle in the storage configuration.
    - The shutter means comprises at least one air passage orifice which is positioned opposite the air passage orifice of the inner casing only when the shutter means is in the open position. This allows better air circulation via the evaporation path, since a large air passage channel is created, delimited by superimposed air passage orifices, on the inner envelope and on the closure means, which allows more air to circulate than when the channel is delimited by spaces between the rooms rather than specific orifices.
    - The outer casing includes a cooperating screw projection
    - in a screwing configuration of the cap with a screwing stop carried by the inner casing, so that the inner casing and the outer casing are linked in a rotational movement in a second direction opposite to the first direction,
    - in the safety configuration, with a sliding surface carried by the inner casing, so that a rotation of the outer casing in the first direction generates a sliding of the screwing projection on the sliding surface so as to rotate freely with respect to the inner envelope.
    Thus, according to this arrangement, the screwing and the security configuration of the cap employ the same element of the external envelope to ensure the
    -5coupling or decoupling of the outer casing relative to the inner casing, namely the screwing projection, which simplifies the manufacturing process and provides a more compact tip.
    - The sliding surface and the screwing stop carried by the inner casing together form a notch so as to generate a tactile and / or audible indication when the notch passes through the screwing projection in the safety configuration. The user then notes a discontinuous movement of the outer casing and / or a noise which indicates to him that the cap is in the safety configuration and that it is necessary to press on the outer casing to unscrew, for example axially.
    - The outer casing includes a projection for unscrewing the inner casing, and the inner casing includes a unscrewing surface intended to cooperate with the unscrewing projection so that:
    - during the safety configuration, a rotation of the outer casing in the first direction generates a relative movement of the unscrewing projection relative to the unscrewing surface, so that the outer casing rotates freely relative to the inner envelope,
    - during the unscrewing configuration, a rotation of the outer casing in the first direction generates, by friction or by abutment of the unscrewing projection on the unscrewing surface, a drive of the inner casing in the first direction, by so as to unscrew cap.
    It is understood that in the case where the inner envelope is driven by a stop, the unscrewing projection comes into contact with the unscrewing surface only in the unscrewing configuration. The advantage of stopper drive is better maneuverability of the nozzle, as this requires less effort to open the cap.
    - The screwing projection and the unscrewing projection are combined.
    - The sealing means, the outer envelope and the inner envelope are attachments, that is to say separate from each other.
    - The cap comprises return means intended to separate the unscrewing projection and the unscrewing surface when a pressing force exerted on the cap has an intensity below the predetermined threshold or when no pressing force is exerted on the cap. The return means comprise for example a flexible tongue or a conical circular skirt projecting from the inner surface of the outer casing. These return means also make it possible to separate the outer casing from the inner casing in order to promote the evaporation of the residual liquid in the nozzle.
    - The cap includes a residual liquid absorption pad, disposed near the liquid distribution opening. This buffer is advantageously arranged downstream of the dispensing opening and makes it possible to drain a large part of the residual liquid from the dispensing opening.
    - The cap comprises a protuberance intended to be in the immediate vicinity and facing the opening when the cap is mounted on the end piece, this protuberance having a form of expulsion of the residual liquid, configured to evacuate the residual liquid towards the outside when the cap is mounted on the nozzle. Thanks to the presence of the form of expulsion of the residual liquid produced on the removable cap, when the cap is mounted on the end piece, the form of expulsion located in the immediate vicinity and facing the liquid distribution opening expels most of the residual liquid present downstream of the dispensing opening, in particular towards the possible absorption buffer for residual liquid placed nearby, that is to say that the residual liquid is discharged towards the outside the nozzle. This produces a drainage of most of the residual liquid out of the dispensing opening.
    - The cap has on the outside of the outer envelope raised or visual means indicating to the user how to pass from the security configuration to the unscrewing configuration. For example, the means may include a series of symbols such as arrows, numbers, text indicating the order of actions to be carried out.
    The invention finally aims at a liquid distribution device comprising a liquid distribution nozzle as described above mounted on a tank.
    The invention will be better understood on reading the description which follows, given solely by way of example and made with reference to the drawings in which:
    - Figure 1 is a perspective view of a dispensing device according to a first embodiment comprising a liquid distribution nozzle with a dismantled closure means, the liquid distribution nozzle being carried by a reservoir and l the outer casing being removed;
    - Figure 2 is a perspective view of the interior of the outer casing of the nozzle of Figure 1;
    - Figure 3 is a perspective view and partially transparent of the tip of Figure 1;
    - Figure 4 is a sectional view of the tip of Figure 1 in the storage configuration;
    - Figure 5 is a sectional view of the tip of Figure 1 in the safety configuration;
    - Figure 6 is a sectional view of the tip of Figure 1 in the unscrewing configuration;
    - Figure 7 is a view similar to Figure 1 of a dispensing device according to a second embodiment;
    - Figure 8 is a perspective view of the interior of the outer casing of the nozzle of Figure 7;
    - Figure 9 is a sectional view of the tip of Figure 7 in the storage configuration;
    - Figure 10 is a perspective view and partially transparent of the tip of Figure 7 in the unscrewing configuration;
    - Figure 11 is a perspective view and partially transparent of the tip of Figure 7 in the storage configuration;
    - Figure 12 is a view similar to Figure 1 of a dispensing device according to a third embodiment;
    - Figure 13 is a perspective view of the interior of the outer casing of the nozzle of Figure 12;
    - Figure 14 is a perspective view and partially transparent of the tip of Figure 12 in the safety configuration;
    - Figure 15 is a sectional view of the tip of Figure 12 in the storage configuration;
    - Figure 16 is a sectional view of the tip of Figure 12 in the safety configuration;
    - Figure 17 is a sectional view of the tip of Figure 12 in the unscrewing configuration;
    - Figure 18 is a view similar to Figure 1 of a dispensing device according to a fourth embodiment;
    - Figure 19 is a perspective view in section of the interior of the outer casing of the nozzle of Figure 18;
    - Figure 20 is a perspective view of the interior of the inner casing of the nozzle of Figure 18;
    - Figure 21 is a sectional view of the tip of Figure 18 in the storage configuration;
    - Figure 22 is a sectional view of the tip of Figure 18 in the safety configuration; and
    - Figure 23 is a perspective view and partially transparent of the tip of Figure 18 in the safety configuration.
    A device, as shown in FIG. 1 and designated by the reference 20, comprises a deformable reservoir 12 which is a reservoir for storing liquid, for example pharmaceutical liquid such as ophthalmic liquid and a nozzle 10 for distributing liquid under drop shape. The nozzle 10 comprises a distribution part 14 having an opening 22 for distributing the liquid and is intended to be mounted, by snap-fastening, welding or even by screwing, on the neck of the reservoir.
    12.
    According to the four embodiments, the end piece 10 comprises a removable cap 16 mounted by screwing on the dispensing part 14 and intended to cover the opening 22 when the end piece 10 is not used. The cap 16 has a proximal end (P) disposed on the side of the opening of the cap 16 and an opposite distal end (D) (see Figure 3). The cap 16 comprises an outer casing 42 and an inner casing 44. These outer and inner casings 42, 44 are coaxial, mounted movable relative to each other in an axial direction (A) of the end piece 10. The axial direction (A) of the nozzle 10 is defined here by the geometric axis of the reservoir 12. The outer and inner envelopes 42, 44 are movable along this geometric axis, either moving away or approaching the one in relation to the other. Thanks to this mobility, the external and internal envelopes 42, 44 can define in particular three distinct configurations of the end piece 10, namely a configuration before first use, called the storage configuration, a configuration for unscrewing the cap 16 and a security configuration. , which will be described in detail later.
    Figures 1 to 6 illustrate a first embodiment of the nozzle 10, wherein the inner casing 44 comprises a ceiling 56, a first skirt 58 and a second skirt 59, of substantially cylindrical shapes connected together by a plate
    -961 (see Figure 1). The ceiling 56 is delimited in this example by a cylindrical surface 60a connecting it to the second skirt 59 and comprises air passage orifices 62, three in number in this example. The cylindrical surface 60a defines a sealing surface. The inner envelope 44 further comprises a peripheral and circular groove 73 arranged at the proximal end (P) of the inner envelope 44. The inner envelope 44 further comprises a plurality of guide slopes 67a (see FIG. 3) spaced apart and extending from the first skirt 58 in the axial direction (A), each guide slope 67a having a sliding surface 19 and a screwing stop 13. The inner casing 44 also comprises a ring 74 frangible at the proximal end (P) of the cap 16, as visible in FIG. 3.
    As illustrated in FIG. 2, the outer envelope 42 comprises a bottom 76 and a peripheral wall 79, of substantially cylindrical shape. The bottom 76 is circular in shape and has hooking means 80, four in number in this example, each comprising a hook-shaped end 15 connected to the bottom 76 by a circular wall (see FIG. 4). The attachment means 80 are distributed around the periphery of the bottom 76 and define between them a housing. The bottom 76 also includes air passage holes 82 passing through, each being arranged in the vicinity of a hooking means 80.
    The outer casing 42 further comprises a plurality of gadroons 88 projecting from the inner surface of the peripheral wall 79 (see FIG. 2). The outer casing 42 also includes a screw projection 18 arranged on the inner surface of the outer casing 42 at the distal end (D). The screwing projection 18 is here in the form of a tab 84 projecting from both the bottom 76 and the peripheral wall 79. The tab 84 more precisely comprises a lower surface, oriented towards the proximal end (P) of the cap 16, and a lateral surface 86 forming a lateral screwing stop 86.
    In this embodiment, the end piece 10 comprises a closure means 100 comprising a substantially flat disc 110 and a cylindrical wall 120 extending towards the proximal end (P) from the flat disc 110, and defining a surface d sealing on the inner face of the cylindrical wall 120. The disc 110 is attached to the housing defined by the attachment means 80 of the outer casing 42, so that the closure means 100 is retained by the means d hook 80 thanks to the hook-shaped ends 15.
    - 10 We will now describe the assembly of the end piece 10 according to this first embodiment, and its operation.
    The outer casing 42 is first mounted, with the disc 100, on the inner casing 44 by positioning the screw projections 18 between two guide slopes 67a, as can be seen in FIG. 3, so that the disc 100 is mounted on the second skirt 59 of the inner casing 44, by fitting the cylindrical wall 120 on the cylindrical surface 60a with a tight fit. Thus in this example of assembly, the cap 16 is ready to be mounted by screwing on the dispensing part 14. Once the reservoir 12 is filled with the liquid to be dispensed, the end piece 10 is brought in, comprising the cap 16 and the dispensing part 14, on the neck of the reservoir 12, for example by screwing, snap-fastening or any other known technique. The tip 10 is in the storage configuration and is ready to use.
    The storage configuration of the nozzle 10 is shown in FIG. 4. The shutter means 100 covering the air passage orifices 62 of the inner casing 44 is here in the shutter position. The two sealing surfaces defined by the cylindrical wall 120 and the cylindrical surface 60a are in hermetic contact with each other in this closed position, so that there is no communication between the orifices. of air passage 62 of the inner envelope 44 and the air passage orifices 82 of the outer envelope 42.
    During the first use, the user unscrews the cap 16. He clamps the outer casing 42 in one hand and the reservoir 12 in the other hand. It rotates the outer casing 42 relative to the inner casing 44 in a first direction 1, which corresponds to the counterclockwise direction, visible in FIG. 3. The screwing projections 18 are then guided by the guide slopes 67a and move on the sliding surfaces 19. The rotational movement applied by the user to the end piece 10 generates a movement of axial translation of the outer casing 42 relative to the inner casing 44. Thanks to this displacement outside of the storage configuration, the shutter means 100 is driven by the hooking means 80 of the outer envelope 42 and moves in the axial direction (A) relative to the inner envelope 44 away from that -as shown in the figure
    5. Thus, the sealing surfaces are separated from each other and a space is created between them so as to allow air to pass between them, which means that the means
    - shutter 11 switches from the shutter position to the open position. The residual liquid evaporation path passing through the air passage orifices 62, 82 is closed in the storage configuration and open in the safety and unscrewing configuration.
    Once the cap 16 is no longer in the storage configuration, the user, preferably an adult, can open the cap 16 by applying a pressing force of intensity greater than a predetermined threshold, in the present case an axial support force. The cap 16 is then put in the unscrewing configuration. In this configuration, by the rotation of the outer casing 42 in the first direction 1, combined with the pressing force, each screw projection 18 comes into abutment against a corresponding sliding surface 19. The pressing force on the outer casing 42 is then transmitted to the sliding surface 19, so that friction is created between the screwing projection 18 and the sliding surface 19. This friction makes it possible to secure the projection of screwing 18 and the sliding surface 19 so that the outer casing 42 can cause the inner casing 44 to rotate in this first direction 1, without the screwing projection 18 not sliding on the sliding surface 19, or else with a sliding generating sufficient friction to cause the inner casing 44 to rotate. In this example, the sliding surface 19 is also a unscrewing surface. The cap 16 is thus unscrewed from the dispensing part 14. Gripping ribs 78 are arranged at the outer periphery of the outer casing 42 in order to facilitate the transmission of the support and rotation forces.
    It is understood that when the user continues the rotational movement of the cap 16 relative to the reservoir 12 in order to completely unscrew the cap 16 from the dispensing part 14, he breaks the frangible parts of the ring 74. Thus, this ring 74 allows simple verification that the end piece 10 has not been opened beforehand. The groove 73 of the inner envelope 44 is configured to receive the gadroons 88 so as to allow free rotation of the gadroons 88 in the groove 73 without the outer envelope 42 detaching completely from the inner envelope 44.
    Thereafter, if the user, a child for example, only turns the outer casing 42 in the first direction 1, without pressing axially sufficiently strongly on the bottom 76, the cap 16 is found in the safety configuration. Since the force transmitted to the sliding surface 19 does not allow friction to be created
    - 12 sufficiently large, the screw projection 18 moves on the guide slope 67a to its top. Then, the screw projection 18 returns to the bottom of the guide slope 67a and the outer casing 42 returns to its low position relative to the inner casing 44. In this way, a rotation of the outer casing 42 in the first direction 1 generates a sliding of the screwing projection 18 successively on each sliding surface 19, so as to rotate in freewheel relative to the inner casing 44. In this safety configuration, the screwing projections 18 move from one guide slope 67a to another intermittently. Thus, the guide slopes 67a, spaced from one another form a discontinuous cam path and the passage of the discontinuity of the cam path through the screwing projection 18 generates a tactile or even audible indication.
    Between two uses, the user screws the cap 16 back on the dispensing part 14. It suffices simply to turn the outer casing 42 in a second direction 2, corresponding to the clockwise direction, without exerting any specific pressing force. Each lateral screwing stop 86 carried by the screwing projection 18 then comes into abutment against the screwing stop 13 carried by the inner casing 44. Thus, the two outer and inner casings 42, 44 are linked in a rotational movement in the second direction 2, and the cap 16 can be screwed back on.
    When the outer casing 42 is found in the low position relative to the inner casing 44, the shutter means 100 comes into contact with the second skirt 59. Since the ceiling 56 has a larger diameter than that of the cylindrical wall 120 of the shutter means, the ceiling 56 pushes the cylindrical wall 120 back into its housing without the shutter means 100 being able to return to its shutter position as illustrated in FIG. 6. It is therefore understood that it is possible to move from the storage configuration of the nozzle 10 to the security or unscrewing configuration but that the reverse is not possible. Thus, it is guaranteed that once the nozzle 10 has been opened at least once, the evaporation path of the residual liquid is always open.
    FIGS. 7 to 11 illustrate a second embodiment of the end piece 10, in which the inner envelope 44 comprises a ceiling 56, a first skirt 58 and a second skirt 59, of substantially cylindrical shapes connected to each other by a plate 61 The ceiling 56 comprises air passage orifices 62, three in number in this example. The second skirt 59 comprises at its end a collar 60b, having a substantially frustoconical peripheral surface in which are
    - 13 arranged two stop points 260 on either side with respect to the axis of the nozzle 10. The ceiling 56 defines in this example a sealing surface. The inner casing 44 further comprises a plurality of guide slopes 67b spaced apart and extending from the first skirt 58 in a direction transverse to the axial direction (A), each guide slope 67b having a surface of sliding 29 and a screwing stop 23. The inner casing 44 also comprises a frangible ring 74 at the proximal end (P) of the cap 16, as visible in FIG. 9.
    As in the first embodiment, the interior envelope 44 comprises a peripheral and circular groove 73 arranged at the proximal end (P) of the interior envelope 44. The groove 73 is delimited by an upper rim 73a and a lower rim 73b as illustrated in FIG. 7. The internal envelope 44 comprises a plurality of notches 27a extending from the upper edge 73a of the groove 73 in the axial direction (A) and each having a unscrewing surface 26. The notches 27a and the guide slopes 67b are arranged in an intermediate manner.
    As can be seen in Figure 8, the outer casing 42 includes a bottom 76 and a peripheral wall 79, of substantially cylindrical shape. The bottom 76 is circular in shape and has return means 25, in this example being in the form of flexible tongues 25 extending from the bottom 76 towards the proximal end (P) and slightly towards the center of the envelope exterior 42. The flexible tabs 25 are four in number in this example. The bottom 76 also includes air passage orifices 82, each being in the vicinity of a flexible tongue 25. The outer casing 42 also comprises a plurality of gadroons 88 projecting from the inner surface of the peripheral wall 79.
    The outer casing 42 comprises several screwing projections 28, arranged on the internal surface of the peripheral wall 79. The screwing projection 28 is here in the form of a flexible blade 28 connected to the peripheral wall 79 by a longitudinal side of the flexible blade 28. Thus, the flexible blade 28 is capable of bending around this longitudinal side. Its opposite side has a lateral screwing stop 28a. The outer casing 42 also comprises, on the internal surface of the peripheral wall 79, a plurality of unscrewing projections 27, having a thickness which increases from the distal end (D) to the proximal end (P) of the 'outer casing 42. Each unscrewing projection 27 has a lateral unscrewing stop 27b (see Figure 11).
    - 14 In this embodiment, the end piece 10 comprises a closure means 200 comprising a substantially flat disc 230 having a sealing surface and comprising a substantially cylindrical peripheral skirt, being in the form of two semi-annular walls 240 spaced apart by an empty area and extending axially from the periphery of the sealing surface. The closure means 200 comprises two flexible tabs 210, each of semi-annular shape and extending from a semi-annular wall 240 towards the empty zone. In other words, the flexible tabs 210 each define, with each semi-annular wall 240, an L-shaped notch defining a bayonet shape (see FIG. 7). Each semi-annular wall 240 and each flexible tab 210 also has, on the proximal side (P) an internal rim 250 (see FIG. 9). The disc 230 also has air passage holes 220, three in number in this example, of circular shape.
    The shutter means 200 is mounted on the second skirt 59 of the inner envelope 44 by a snap cooperation between the flange 60b and the internal rim 250 of the shutter means 200. Thanks to the elasticity of the flexible tabs 210, the shutter means 200 is mounted fixed relative to the second skirt 59 in the axial direction (A), the flange 60b being in abutment with the internal rim 250 of the shutter means 200. Furthermore, the shutter means 200 is mounted movable in rotation relative to the second skirt 59.
    We will now describe the assembly of the end piece 10 according to this second embodiment, and its operation.
    The outer casing 42 is firstly mounted on the inner casing 44 by positioning a screwing projection 28 and a unscrewing projection 27 between two guide slopes 67b, as can be seen in FIG. 11. The flexible tongues 25 are then in abutment against the flat disc 230 of the closure means 200 and the gadroons 88 are in abutment against the upper rim 73a, so that the two outer and inner envelopes 42, 44 are secured in the axial direction (A) in storage configuration, as can be seen in FIG. 11. In this position, the flexible tabs 210 are supported on their respective stopping point 260 and the unscrewing projections 27 are located above the notches 27a and are not in contact with them. Thus, the cap 16 is ready to be mounted by screwing on the dispensing part 14. Once the reservoir 12 is filled with the liquid to be dispensed, we come to report
    - 15 the nozzle 10, comprising the cap 16, on the neck of the reservoir 12, for example by screwing, snap-fastening or any other known technique. The tip 10 is ready to use.
    The storage configuration of the nozzle 10 is shown in FIG. 11. The air passage orifices 220 carried by the shutter means 200 are offset with respect to the air passage orifices 62 of the inner envelope 44 The air passage orifices 62 of the inner envelope 44 are thus closed by the shutter means 220. The two sealing surfaces defined by the ceiling 56 and the disc 230 are in hermetic contact, one with the other so that there is no communication between the air passage orifices 62 of the inner envelope 44 and the air passage orifices 82 of the external envelope 42. Thus the means of shutter 200 is in the closed position in this storage configuration.
    During the first use, the user unscrews the cap 16. He clamps the outer casing 42 in one hand and the reservoir 12 in the other hand. It rotates the outer casing 42 relative to the inner casing 44 in a first direction 1, which corresponds to the counterclockwise direction, visible in FIG. 11. The flexible tabs 25 then drive the shutter means 200 in rotation, thanks to the friction created between the flexible tongues 25 and the disc 230. The rotation of the closure means 200 is limited by the two stop points 260, which come into abutment against the semi-annular walls 240. The passage orifices 220 are configured to be positioned each opposite an orifice 62 of the inner envelope 44 when the shutter means 200 reaches the end of the rotation, as can be seen in FIG. 10. Thus the shutter means 200 pass from the shutter position to the open position by a rotation of the shutter means 200 relative to the inner casing 44 in the first direction 1. The evap path oration of residual liquid is closed in the storage configuration and opened in the safety and unscrewing configuration. The shutter means 200 is blocked in its open position by the end of the flexible tabs 210 which abut against the stopping points 260 during any rotation in the second direction 2, opposite to the first direction 1.
    The user, preferably an adult, can then open the cap 16 by applying an axial pressing force to it at an intensity greater than a predetermined threshold against the restoring force of the flexible tongues 25. The outer casing 42 then moves in the axial direction (A) when approaching the inner casing 44
    - 16 and the screw projections 28 are positioned at the same level as the notches 27a. It simultaneously rotates the outer envelope 42 relative to the inner envelope 44 in a first direction 1 which corresponds to the counterclockwise direction. The cap 16 is then put in the unscrewing configuration.
    In this unscrewing configuration, each unscrewing projection 27 comes into abutment against a unscrewing surface 26 carried by the notch 27a, which allows the outer and inner envelopes 42, 44 to be joined together. The outer envelope 42 therefore drives the envelope inner 44 rotating in this first direction 1. The cap 16 is thus unscrewed from the dispensing part 14. Gripping ribs 78 are arranged at the outer periphery of the outer casing 42 in order to facilitate the transmission of the support forces and rotation.
    We understand that when the user continues the rotational movement of the cap 16 relative to the reservoir 12 in order to completely unscrew the cap 16 of the dispensing nozzle 14, it breaks the frangible parts of the ring 74. Thus, this ring 74 makes it possible to verify in a simple manner that the end piece 10 has not been opened beforehand. The groove 73 of the inner envelope 44 is configured to receive the gadroons 88 so as to allow a free rotation of the gadroons in the groove 73 without the outer envelope 42 completely detaching from the inner envelope 44, thanks to the present upper edges 73a.
    According to an alternative of the frangible ring 74, the cap 16 may include zones having different colors on the shutter means 200, each zone being positioned so as to be opposite an air passage orifice 82 carried by the '' outer casing 42, in storage configuration or after the first opening of the nozzle
    10. The user is thus informed whether the tip has already been opened or not, depending on the color displayed.
    Thereafter, if a child, for example, only turns the outer casing 42 in the first direction 1 without pressing axially sufficiently strongly on the bottom 76, the cap 16 is found in the safety configuration. In fact, the flexible tongues 25 make it possible to separate the outer casing 42 from the inner casing 44 so that the unscrewing projections 27 cannot come into contact with the notches 27a. The flexible blades 28 slide on the sliding surfaces 29 carried by the guide slopes 67b and compress while advancing on the guide slopes 67b. When the flexible blades 28 are no longer in contact with the slopes of
    - 17guidage 67b, they decompress and return to their initial position. In this way, a rotation of the outer casing 42 in the first direction 1 generates a sliding of the flexible blade 28 successively on each sliding surface 29 so as to rotate freely relative to the inner casing 44. In this safety configuration, the flexible blades 28 move from one guide slope 67b to another intermittently. Thus, each sliding surface 29 and the adjacent screwing stop 23 form a notch. The passage of each flexible blade 28 on each notch generates a tactile, even audible, indication.
    Between two uses, the user screws the cap 16 back on the dispensing part 14. It is sufficient to turn the outer casing 42 in a second direction 2, corresponding to the clockwise direction without exerting any specific pressing force. Each lateral screwing stop 28a, carried by the screwing projection 28, then comes into abutment against the screwing stop 23 carried by the guide slope 67b. Thus, the two outer and inner envelopes 42, 44 are linked in a rotational movement in the second direction 2 and the cap 16 can be screwed back on.
    It is therefore understood that it is possible to pass from the storage configuration of the end piece 10 to the security or unscrewing configuration, but that the reverse is not possible. Thus, it is guaranteed that once the nozzle 10 has been opened at least once, the evaporation path of the residual liquid is always open.
    Figures 12 to 17 illustrate a third embodiment of the nozzle 10, in which the inner envelope 44 comprises a ceiling 56, a first skirt 58 and a second skirt 59, of substantially cylindrical shapes connected together by a plate 61 As visible in FIG. 12, the ceiling 56 comprises orifices 62 for the passage of air, three in number in this example. The second skirt 59 comprises a return means in the form of a deformable wall 60c (see FIG. 15) extending from the periphery of the ceiling 56 and includes an inner rim at its distal end (D). The rim in this example defines a sealing surface. The inner casing 44 further comprises a plurality of guide slopes 67c, spaced apart and extending from the first skirt 58 in a direction transverse to the axial direction (A), each guide slope 67c having a surface sliding 39 and a screwing stop 33 (see Figure 12). The inner envelope 44 also includes a frangible ring 74 at the proximal end (P) of the cap 16, as can be seen in FIG. 14.
    - The inner envelope 44 includes an upper rim 73a arranged between the first skirt 58 and the proximal end (P). The inner casing 44 comprises a plurality of notches 36a extending from the plate 61 in the axial direction (A) and each having a unscrewing surface 36 (see FIG. 12). The notches 36a and the guide slopes 67c are arranged in an intermediate manner.
    As can be seen in Figure 13, the outer casing 42 includes a bottom 76 and a peripheral wall 79, of substantially cylindrical shape. The bottom 76 is circular in shape and includes blades 35 extending from the bottom 76 towards the proximal end (P) of the outer casing 42. The blades 35 substantially form a conical circular skirt projecting from the inner surface of the outer casing 42, so that the internal surfaces of the blades 35 have a substantially discontinuous cone shape. The blades 35 are four in number in this example. The bottom 76 further comprises in its center a rigid projecting ring. The bottom 76 also includes air passage orifices 82, each being in the vicinity of a blade 35. The outer casing 42 also comprises a plurality of gadroons 88 projecting from the interior surface of the peripheral wall 79.
    The outer casing 42 comprises several screwing projections 38 arranged on the internal surface of the peripheral wall 79. The screwing projection 38 is here in the form of a flexible blade 38 connected to the peripheral wall 79 by a longitudinal side of the flexible blade 38. Thus, the flexible blade 38 is capable of bending around this longitudinal side. Its opposite side has a lateral screwing stop 38a (see FIG. 13). The outer casing 42 also comprises on the internal surface of the peripheral wall 79 a plurality of unscrewing projections 37 arranged at the proximal end (P) of the outer casing 42. Each unscrewing projection 37 has a lateral unscrewing stop 37b.
    In this embodiment, the end piece 10 comprises a sealing means 300 in the form of a substantially flat disc presenting itself as a pellet, the peripheral surface of which defines a sealing surface. The patch 300 has, on a face oriented towards the proximal end (P), protruding lines. The closure means 300 is mounted on the edge of the deformable wall 60c by a tight fit in the storage configuration.
    We will now describe the assembly of the nozzle 10 according to this third embodiment, and its operation.
    - 19 The outer casing 42 is first mounted on the inner casing 44 by positioning each unscrewing projection 37 between two notches 36a. In this position, the unscrewing projections 37 are located above the notches 36a and are not in contact with them. The deformable wall 60c is positioned between the blades 35 and the gadroons are supported on the upper flange 73a, so that the two outer and inner envelopes 42, 44 are secured in the axial direction in the storage configuration, as can be seen at FIG. 21. Thus, the cap 16 is ready to be mounted by screwing on the rest of the dispensing part 14. Once the reservoir 12 is filled with the liquid to be dispensed, the end piece 10 is brought back, comprising the cap 16, on the neck of the reservoir 12, for example by screwing, snap-fastening or any other known technique. The tip 10 is in the storage configuration, ready to use.
    The storage configuration of the nozzle 10 is shown in FIG. 15. The two sealing surfaces defined by the deformable wall 60c and by the peripheral surface of the closure means 300 are in hermetic contact with each other. , so that there is no communication between the air passage openings 62 of the inner casing 44 and the air passage openings 82 of the outer casing 42. The openings 62 of the inner envelope 44 are closed by the shutter means 300. Thus, the shutter means 300 is in the closed position in this storage configuration.
    During the first use, the user unscrews the cap 16. He clamps the outer casing 42 in one hand and the reservoir 12 in the other hand. It presses on the outer envelope 42 axially and rotates it simultaneously with respect to the inner envelope 44 in a first direction 1, which corresponds to the counterclockwise direction, visible in FIG. 14. The outer envelope 42 then moves in the axial direction (A) approaching the inner casing 44 and the projecting ring comes into contact with the shutter means 300 and drives the latter in the same movement. The closure means 300 is therefore pushed into the deformable wall 60c and can no longer come out thanks to the rim of the deformable wall 60c. Thanks to the protuberance lines which are arranged on the closure means 300, a space is always present between the closure means 300 and the ceiling 56, to guarantee the circulation of air between the orifices 62 and the exterior of the end piece 10. Thus the shutter means 300 pass from the shutter position to the open position by a translational movement of the shutter means 300 relative to the envelope.
    -20 interior 44, in the axial direction (A).
    After the first opening of the end piece 10, the sealing surfaces are no longer in hermetic contact with each other. The two outer and inner envelopes 42, 44 have air passage orifices 62, 82 making it possible to create a path for the evaporation of the residual liquid between the opening 22 and the outside of the nozzle 10. The path of Evaporation of residual liquid is closed in the storage configuration and opened in the safety and unscrewing configuration.
    The user, preferably an adult, can open the cap 16 by applying a force having an intensity greater than a predetermined threshold. The cap 16 is then put in the unscrewing configuration.
    In this unscrewing configuration, after the displacement of the outer casing 42 in the axial direction (A) when approaching the inner casing 44, the unscrewing projections 37 are positioned at the same level as the notches 36a. During the rotation of the outer casing 42, each unscrewing projection 37 comes into abutment against a unscrewing surface 36 carried by the notch 36a, which allows the outer and inner envelopes 42, 44 to be joined together. The outer envelope 42 therefore causes the inner casing 44 to rotate in this first direction 1. The cap 16 is thus unscrewed from the rest of the end piece 10. Gripping ribs 78 are arranged at the outer periphery of the outer casing 42 in order to facilitate the transmission of support and rotation forces.
    It is understood that when the user continues the rotational movement of the cap 16 relative to the reservoir 12 in order to completely unscrew the cap 16 from the dispensing part 14, he breaks the frangible parts of the ring 74. Thus, this ring 74 allows simple verification that the end piece 10 has not been opened beforehand. The upper rim 73a of the inner casing 44 is configured to prevent the outer casing 42 from completely detaching from the inner casing 44.
    Subsequently if the user, a child for example, only turns the outer casing 42 in the first direction 1, without pressing axially sufficiently strongly on the bottom 76, the cap 16 is found in the safety configuration. Due to the restoring force created by the deformation of the deformable wall 60c, it repels the internal surfaces of the blades 35, which allows to keep separate
    - 21 the outer casing 42 of the inner casing 44 so that the unscrewing projections 37 cannot come into contact with the notches 36a, as visible in FIG. 16. The flexible blades 38 slide on the sliding surfaces 39 carried by the guide slopes 67c and compress while advancing on the slopes. When the flexible blades 38 are no longer in contact with the guide slopes 67c, they decompress and return to their initial position. In this way, a rotation of the outer casing 42 in the first direction 1 generates a sliding of the flexible blade 38 successively on each sliding surface 39, so as to rotate in freewheel relative to the inner casing 44. In In this safety configuration, the flexible blades 38 move from one guide slope 67c to another intermittently. Thus, the guide slopes 67c, spaced from one another form a discontinuous cam path and the passage of the discontinuity of the cam path by the flexible blade 38 generates a tactile or even audible indication.
    Between two uses, the user screws the cap 16 back on the dispensing part 14. It suffices simply to turn the outer casing 42 in a second direction 2, corresponding to the clockwise direction, without exerting any specific pressing force. Each lateral screwing stop 38a carried by the screwing projection 38 then comes into abutment against the screwing stop 33 carried by the guide slope 67c. Thus, the two outer and inner envelopes 42, 44 are linked in a rotational movement in the second direction 2 and the cap 16 can be screwed back on.
    Once the shutter means 300 is found in the deformable wall 60c, it can no longer return to the shutter position. It is therefore understood that it is possible to pass from the storage configuration of the end piece 10 to the security or unscrewing configuration but that the reverse is not possible. Thus, it is guaranteed that once the nozzle 10 has been opened at least once, the evaporation path of the residual liquid is always open.
    FIGS. 18 to 23 illustrate a fourth embodiment of the end piece 10, in which the inner casing 44 comprises a first part 441 as illustrated in FIG. 18. This first part 441 of the inner casing 44 comprises a ceiling 56, a first skirt 58 and a second skirt 59, of substantially cylindrical shapes connected together by a plate 61. The ceiling 56 is delimited, in this embodiment, by a cylindrical surface 60d connecting it to the second skirt 59 and includes orifices 62 for the passage of air, three in number in this example. The second skirt 59 defines a sealing surface. The first part 441 of the envelope
    - 22 inside 44 further comprises two guide slopes 67d spaced apart and extending from the first skirt 58 in the axial direction (A), each guide slope 67d having a guide surface 68. The first part 441 of the 'inner casing 44 also includes two elastic tabs 66 and two fixing stops 70 (see Figure 18). The first part 441 of the inner envelope 44 also comprises an upper rim 73a arranged between the first skirt 58 and the proximal end (P) and a frangible ring 74 at the proximal end (P) of the cap 16, as visible in Figure 23.
    The inner envelope 44 comprises a second part 442 as visible in FIGS. 18 and 20. This second part 442 comprises a bottom 444 and a cylindrical body 443 having an internal surface on which two fixing notches 84 and fixing stops are arranged complementary 87. The bottom 444 comprises a plurality of branches 445 each extending radially from the center to the periphery of the bottom 444. The branches 445 form a six-pointed star according to the example illustrated. Each branch 445 has a sliding surface 49 and a unscrewing surface 46. The second part 442 of the inner casing 44 also includes gadroons 880 in the proximal proximity (P).
    As can be seen in Figure 19, the outer casing 42 includes a bottom 76 and a peripheral wall 79, of substantially cylindrical shape. The bottom 76 is circular in shape and includes screw projections 45, three in number for example, extending from the bottom 76. The screw projection 45 is here in the form of flexible tongues 45 connected to the bottom 76 by their small side. Thus, a flexible tongue 45 is able to flex around this small side. Its opposite side has a free end, forming a lateral screwing stop 45a. The bottom 76 further comprises unscrewing projections 47 arranged at the periphery of the bottom 76, each unscrewing projection 47 having a lateral unscrewing stop 47b. The bottom 76 also includes air passage orifices 82, each being in the vicinity of a flexible tab 45. The outer casing 42 also comprises a flange 89 at its proximal end (P).
    In this embodiment, the endpiece 10 comprises a closure means 400 comprising a ring 410 whose internal surface defines a sealing surface.
    The crown 410 is carried by the second part 442 of the inner envelope 44 and the base of the crown 410 is merged with the bottom 444 of the second part 442.
    We will now describe the assembly of the end piece 10 according to this fourth embodiment, and its operation.
    The second part 442 of the inner envelope 44 is firstly mounted on the first part 441 of the inner envelope 44 by positioning the fixing stops 70 of the first part 441 of the inner envelope 44 along the stops of complementary fixing 87 of the second part 442 of the inner envelope 44, so that the complementary fixing stops 87 are positioned facing the bottom of the guide slopes 67d. The crown 410 of the shutter means 400 is mounted on the second skirt 59 of the first part of the inner envelope 44 with a tight fit. Then, the outer casing 42 is mounted on the inner casing 44, the flexible tongues 45 being in abutment against the arms 445 or the bottom 444, and the rim 89 of the outer casing 42 being in abutment against the upper rim 73a of the first part 441 of the inner envelope 44, so that the two outer and inner envelopes 42, 44 are secured in the axial direction (A) in the storage configuration, as visible in FIG. 21. Thus, the cap 16 is ready to be mounted by screwing on the rest of the nozzle 10. Once the reservoir 12 is filled with the liquid to be dispensed, the nozzle 10, comprising the cap 16, is brought back, on the neck of the reservoir 12, for example by screwing, snap-fastening or any other known technique. The tip 10 is ready to use.
    The storage configuration of the nozzle 10 is shown in FIG. 21. The two sealing surfaces defined by the second skirt 59 and by the internal surface of the ring 410 of the shutter means 400 are in hermetic contact one with the other, so that there is no communication between the air passage orifices 62 of the inner casing 44 and the air passage orifices 82 of the external casing 42. The orifices 62 of the inner envelope 44 are closed by the shutter means 400. Thus the shutter means 400 is in the closed position in this storage configuration.
    The user, preferably an adult, can open the cap 16 by applying a pressing force to it at an intensity greater than a predetermined threshold. The cap 16 is then put in the unscrewing configuration. During the first use, the user unscrews the cap 16. He clamps the outer casing 42 in one hand and the reservoir 12 in the other hand. In this example, it presses axially on the outer casing 42 against the restoring force of the flexible tongues 45. The outer casing 42 then moves in the axial direction (A) while approaching the inner casing 44,
    -24and the unscrewing projections 47 are positioned at the same level as the bottom 444. It rotates at the same time the outer casing 42 relative to the inner casing 44 in a first direction 1 which corresponds to the counterclockwise direction, visible on FIG. 23. The lateral unscrewing stops 47b carried by the unscrewing projections 47 are then brought into abutment against the unscrewing surfaces 46. The second part 442 of the inner envelope 44, as well as the sealing means 400 which is carried by this casing 44, are rotated in the same first direction 1. Simultaneously, each complementary fixing stop 87 is guided by the guide slopes 67d and the rotational movement applied by the user on the outer casing 42 generates a longitudinal translational movement of the second part 442 of the inner envelope 44 relative to its first part 441. Arrival ées at the end of the guide slopes 67d, the complementary fixing stops 87 come into abutment with one end of the elastic tabs 66. In addition, during this rotation, the fixing notches 84 of the second part 442 move relative to the elastic tabs 66, that they pass in force, at the end of rotation, by deformation of the legs 66, so that the fixing notches 84 find themselves in abutment against the other end of the elastic legs 66. In this way, the second part 442 of the inner casing 44 is locked in this position with respect to the first part 441 of the inner casing 44. The shutter means 400, being integral with the second part 442 of the inner casing 44, then moves away of the first part 441 of the inner envelope and the crown 410 is placed up to the level of the cylindrical surface 60d and is no longer in hermetic contact with the second skirt 59. Thus the means in shutter 400 passes from the shutter position to the open position by a rotational movement of the shutter means 400 relative to the inner casing 44 in the first direction 1.
    After the first opening of the end piece 10, the sealing surfaces are no longer in hermetic contact with each other. The two outer and inner envelopes 42, 44 have air passage orifices 62, 82 making it possible to create a path for the evaporation of the residual liquid between the opening 22 and the outside of the nozzle 10. The path of Evaporation of residual liquid is closed in the storage configuration and opened in the safety and unscrewing configuration.
    In this configuration, once the shutter means 400 is locked in the shutter position, the first part 441 and the second part 442 of the inner envelope 44 are secured and the outer envelope 42 can drive the inner envelope 44 rotating in both first and second directions 1, 2. Des
    -25 gripping ribs 78 are arranged at the outer periphery of the outer casing 42 in order to facilitate the transmission of the support and rotation forces.
    It is understood that when the user continues the rotational movement of the cap 16 relative to the reservoir 12 in order to completely unscrew the cap 16 from the dispensing part 14, he breaks the frangible parts of the ring 74. Thus, this ring 74 allows simple verification that the end piece 10 has not been opened beforehand. The upper edge 73a of the inner envelope 44 is configured to prevent the outer envelope 42 from completely detaching from the inner envelope 44.
    According to an alternative to the frangible ring 74, the cap 16 may include other means of indicating that the cap is in a configuration other than the storage configuration, that is to say, that the cap 16 has already been opened once. For example, the first part 441 of the interior envelope 44 comprises two zones of different color and the second part 442 the interior envelope 44 comprises a slot intended to display one of the zones of color according to the configuration of the end piece 10 The outer envelope 42 also includes one or more slots making it possible to visualize the color displayed in the slot carried by the second part 442 of the inner envelope 44. The cap 16 according to this embodiment is simpler and less expensive to produce. . It is therefore possible to replace the frangible ring 74 described above by the combination of the locating surface and the reference surface. It is also possible to combine the two embodiments to make the indication of the opening of the cap 16 to the user simpler and safer.
    Thereafter, if the user, a child for example, only rotates the outer casing 42 in the first direction 1 without pressing axially sufficiently strongly on the bottom 76, the cap 16 is found in the safety configuration. In fact, the flexible blades make it possible to separate the outer envelope 42 from the inner envelope 44, so that the unscrewing projections 47 cannot come into contact with the branches 445, as can be seen in FIG. 22. The flexible tongues 45 slide on the sliding surfaces 49 carried by the branches 445 and compress on these surfaces. When the flexible blades 38 are no longer in contact with the branches 445, they decompress to the bottom 444 of the second part 442 of the inner envelope 44. In this way, a rotation of the outer envelope 42 in the first direction generates a sliding of the flexible tongues 45 successively on each sliding surface 49 so as to rotate in free wheel
    Compared to the inner envelope 44. In this safety configuration, the flexible tongues 45 move from one branch 445 to another intermittently. Thus, the branches 445, spaced apart from one another form a discontinuous cam path and the passage of the discontinuity of the cam path through the branch 445 generates a tactile or even audible indication.
    Between two uses, the user screws the cap 16 back on the dispensing part 14. It suffices simply to turn the outer casing 42 in a second direction 2, corresponding to the clockwise direction, without exerting any specific pressing force. Each lateral screwing stop 45a carried by the flexible tongue 45 then comes into abutment against the branch 445. Thus, the two outer and inner envelopes 42, 44 are linked in a rotational movement in the second direction 2 and the cap 16 can be screwed.
    Once the shutter means 400 is in the open position, it can no longer return to the shutter position. It is therefore understood that it is possible to pass from the storage configuration of the end piece 10 to the security or unscrewing configuration but that the reverse is not possible. Thus, it is guaranteed that once the nozzle 10 has been opened at least once, the evaporation path of the residual liquid is always open.
    In each of the embodiments mentioned, the cap 16 may include a protuberance 40 (see FIG. 4) intended to be in the immediate vicinity and facing the opening 22 when the cap 16 is mounted on the end piece 10, this protuberance 40 having a form of expulsion of the residual liquid, configured to evacuate the residual liquid to the outside when the cap 16 is mounted on the end piece 10. The cap 16 can also comprise, alternatively or in combination, a pad 48 of absorption of residual liquid, fixed on the cap 16 and more particularly on the inner envelope 44. The pad 48 can be of substantially annular shape or in the form of a solid disc. It can optionally be arranged around the form of expulsion of the residual liquid. Examples of expulsion form 40 and of buffer 48 as well as their mounting in the cap 16 are described in application WO2013 / 14069.
    The cap 16 may have, on the outside of the outer casing 42, at the bottom 76, relief or visual means, indicating to the user how to pass from the security configuration to the unscrewing configuration. These means can
    -27understand a first arrow with the number 1 indicating that the first step to open the cap 16 is to press the outer casing 42 axially towards the reservoir 12 and a second arrow with the number 2 indicating that the second step to open the cap 16 is to rotate the outer casing 42 in the first direction 1 relative to the reservoir 12.
    The invention is not limited to the embodiments described. In particular, it will be understood that the functionalities of the various embodiments can easily be combined or isolated. Furthermore, one can provide an absorption pad 10 alone 48, without necessarily providing on the inner envelope 44 a protuberance having an expulsion form. In addition, it is understood that the structural forms of the means described can vary easily while fulfilling functions such as those described.
    权利要求:
    Claims (14)
    [1" id="c-fr-0001]
    claims
    1. Liquid distribution nozzle (10), characterized in that it comprises:
    - a liquid distribution opening (22),
    - a removable cap (16) intended to cover said opening (22) when it is mounted on the end piece (10),
    - a residual liquid evaporation path arranged between the opening (22) and the outside of the end piece (10) when the removable cap (16) is mounted on the end piece (10),
    a closure means (100, 200, 300, 400) of the evaporation path, movable in the cap (16) between a closure position and an open position of the evaporation path,
    - the cap (16) comprising an outer casing (42) and an inner casing (44) coaxial, mounted movable relative to one another in an axial direction (A) of the endpiece (10) between:
    . a configuration before first use, called storage configuration, in which the shutter means (100, 200, 300, 400) is in the shutter position;
    . a configuration of unscrewing the cap (16) when a pressing force exerted on the cap (16) has an intensity greater than a predetermined threshold, in which a rotation in a first direction (1) of the outer casing (42 ) causes the inner casing (44) to rotate in the same first direction (1), so that the cap (16) can be unscrewed;
    . a safety configuration when a pressing force exerted on the cap (16) has an intensity lower than the predetermined threshold or when no pressing force is exerted on the cap (16), in which the outer casing (42) is configured to coast in relation to the inner casing (44) in the first direction (1), the safety configuration further corresponding to a configuration in which the shutter means (100, 200, 300, 400) is in the open position.
    - the shutter means (100, 200, 300, 400) being configured to be driven by the relative movement between the outer casing (42) and the rest of the end piece (10) in order to pass from the position of shutter in the open position.
    [2" id="c-fr-0002]
    2. End piece (10) according to the preceding claim, wherein the sealing means (100, 200, 300, 400) is arranged between the outer casing (42) and the inner casing (44), the means of closure (100, 200, 300) and the inner envelope (44) each having a sealing surface and the sealing surfaces being in hermetic contact with each other when the sealing means (100, 200 , 300, 400) is in the closed position.
    [3" id="c-fr-0003]
    3. End piece (10) according to the preceding claim, wherein the shutter means (100, 300) passes from the shutter position to the open position by a movement of the shutter means (100, 300) by relative to the inner casing (44) in the axial direction (A).
    [4" id="c-fr-0004]
    4. End piece (10) according to any one of the preceding claims, in which the shutter means (200, 400) pass from the shutter position to the open position by a rotation of the shutter means (200 , 400) relative to the inner casing (44) in the first direction (1).
    [5" id="c-fr-0005]
    5. End piece (10) according to any one of the preceding claims, in which the inner envelope (44) comprises at least one air passage orifice (62), this air passage orifice (62) being closed. by the shutter means (100, 200, 300, 400) when it is in the shutter position, for example the shutter means is assembled on the inner casing (44) by tight assembly of the shutter means (100, 300, 400) on the inner casing (44) or by snap-fastening of the closure means (200) on the inner casing (44).
    [6" id="c-fr-0006]
    6. End piece (10) according to the preceding claim, wherein the sealing means (100, 200, 300, 400) comprises at least one air passage orifice (82) which is positioned opposite the orifice of air passage (62) of the inner envelope (44) only when the shutter means (100, 200, 300, 400) is in the open position.
    [7" id="c-fr-0007]
    7. End piece (10) according to any one of the preceding claims, in which the outer casing (42) comprises a screwing projection (18, 28, 38, 45) cooperating:
    - in a screwing configuration of the cap (16) with a screwing stop (13, 23, 33, 43) carried by the interior envelope (44), so that the interior envelope (44) and the exterior envelope ( 42) are linked in a rotational movement in a second direction (2) opposite to the first direction (1),
    - in the safety configuration, with a sliding surface (19, 29, 39, 49) carried by the inner casing (44), so that a rotation of the outer casing (42) in the first direction (1 ) generates a sliding of the screwing projection (18, 28, 38, 45) on the sliding surface (19, 29, 39, 49) so as to rotate freely relative to the inner casing (44).
    [8" id="c-fr-0008]
    8. End piece (10) according to the preceding claim, wherein the sliding surface (19, 29, 39, 49) and the screwing stop (13, 23, 33, 43) carried by the inner casing (44) form together a notch so as to generate a tactile and / or audible indication when the notch passes through the screw projection (18, 28, 38, 45) in the safety configuration.
    [9" id="c-fr-0009]
    9. end piece (10) according to any one of the preceding claims, the outer casing (42) comprises a unscrewing projection (18, 27, 37, 47) of the inner casing (44), and the inner casing (44) comprises a unscrewing surface (19, 26, 36, 46) intended to cooperate with the unscrewing projection (18, 27, 37, 47) so that:
    - during the safety configuration, a rotation of the outer casing (42) in the first direction (1) generates a relative movement of the unscrewing projection (18, 27, 37, 47) relative to the unscrewing surface (19, 26, 36, 46), so that the outer casing (42) turns freely relative to the inner casing (44),
    - during the unscrewing configuration, a rotation of the outer casing (42) in the first direction (1) generates, by friction or by abutment of the unscrewing projection (18, 27, 37, 47) on the surface of unscrewing (19, 26, 36, 46), driving the inner casing (44) in the first direction (1), so as to unscrew the cap (16).
    [10" id="c-fr-0010]
    10. End piece (10) according to the preceding claim, wherein the cap (16) comprises return means (25, 35, 45) intended to separate the unscrewing projection (18, 27, 37, 47) and the surface of unscrewing (19, 26, 36, 46) when a pressing force exerted on the cap (16) has an intensity lower than the predetermined threshold or when no pressing force is exerted on the cap (16), the return means comprising for example a flexible tongue or a conical circular skirt projecting from the inner surface of the outer casing (42).
    [11" id="c-fr-0011]
    11. A nozzle (10) according to any one of the preceding claims, in which the cap (16) comprises a buffer (11) for absorbing residual liquid, disposed near the opening (22) for distributing liquid.
    [12" id="c-fr-0012]
    12. End piece (10) according to any one of the preceding claims, in which the cap (16) comprises a protuberance (48) intended to be in the immediate vicinity and facing the opening (22) when the cap (16) is mounted on the end piece (10), this protuberance (48) having a form of expulsion (13) of the residual liquid, configured to evacuate the residual liquid towards the outside when the cap (16) is mounted on the end piece (10).
    [13" id="c-fr-0013]
    13. End piece (10) according to any one of the preceding claims, in which the cap (16) has, on the outside of the outer envelope (42), raised or visual means indicating to the user how to pass from the safety configuration to the unscrewing configuration.
    [14" id="c-fr-0014]
    14. Device (20) for distributing liquid comprising a liquid distribution nozzle mounted on a reservoir (12), characterized in that it comprises a nozzle (10) according to one of the preceding claims.
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    EP1785126B1|2008-10-08|Nursing bottle with a lateral device for controlling the inlet of air
    WO2003035270A1|2003-05-01|Otologic end piece and a fluid dispenser comprising one such end piece
    FR3040047B1|2019-10-04|DEVICE FOR TRANSPORTABLE STORAGE OF PROTEIN POWDER
    FR3039070A1|2017-01-27|COLLECTOR FOR SYRINGES FOR SEPARATING THE NEEDLE FROM THE BODY OF THE SYRINGE
    FR3108101A1|2021-09-17|Packaging device comprising a pre-positionable closure cap on a container neck
    FR3092013A1|2020-07-31|Fluid product dispensing set
    同族专利:
    公开号 | 公开日
    US20180346208A1|2018-12-06|
    US10202224B2|2019-02-12|
    FR3067011B1|2019-08-02|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US4181232A|1977-03-14|1980-01-01|Baxter Travenol Laboratories, Inc.|Sealed closure for plastic container with interlocking protective outer closure|
    EP1262416A2|2001-05-29|2002-12-04|UHU GmbH & Co. KG|Container for recieving and dispensing of fluid material|
    EP2687198A2|2012-07-16|2014-01-22|Rovipharm|Device capable of securing the distribution of a liquid contained in a vial|
    WO2015140473A1|2014-03-20|2015-09-24|Nemera La Verpilliere|Liquid-dispensing device comprising a protective cap|
    IT1291620B1|1997-04-18|1999-01-11|Phaba Srl|Childproof closure for medicine bottles which enables easier operation and improved safety|
    US8857638B2|2010-12-03|2014-10-14|Bprex Healthcare Packaging Inc.|Push-and-turn child-resistant closure, shells, and package|
    FR2988015B1|2012-03-19|2015-12-11|Rexam Healthcare La Verpillier|LIQUID DISPENSING DEVICE WITH REMOVABLE CAP|
    US9669974B2|2013-12-17|2017-06-06|Aptar Radolfzell Gmbh|Protective cap for a dispenser, and discharge device for discharging pharmaceutical and/or cosmetical liquids|
    US9676525B2|2013-12-17|2017-06-13|Aptar Radolfzell Gmbh|Protective cap for a dispenser, and discharge device for discharging pharmaceutical and/or cosmetical liquids|
    DE102013226253B4|2013-12-17|2016-03-24|Aptar Radolfzell Gmbh|Protective cap for a dispenser and dispenser for dispensing pharmaceutical and / or cosmetic liquids|
    US9580213B2|2014-12-15|2017-02-28|Johnson & Johnson Consumer Inc.|Child resistant closure for a container|
    EP3310684B1|2015-06-16|2020-12-16|Amcor Rigid Plastics USA, LLC|Child resistant dropper closure|EP3310684B1|2015-06-16|2020-12-16|Amcor Rigid Plastics USA, LLC|Child resistant dropper closure|
    US10093460B2|2015-08-14|2018-10-09|Yeti Coolers, Llc|Container with magnetic cap|
    US11034505B2|2016-10-17|2021-06-15|Yeti Coolers, Llc|Container and method of forming a container|
    EP3632274B1|2016-10-17|2021-05-12|Yeti Coolers, LLC|Container and method of forming a container|
    US10959552B2|2016-10-17|2021-03-30|Yeti Coolers, Llc|Container and method of forming a container|
    US10959553B2|2016-10-17|2021-03-30|Yeti Coolers, Llc|Container and method of forming a container|
    USD860716S1|2017-03-27|2019-09-24|Yeti Coolers, Llc|Container lid|
    USD896572S1|2018-08-20|2020-09-22|Yeti Coolers, Llc|Container lid|
    USD871133S1|2018-10-17|2019-12-31|Yeti Coolers, Llc|Lid|
    USD883738S1|2018-10-17|2020-05-12|Yeti Coolers, Llc|Lid|
    USD897151S1|2018-10-17|2020-09-29|Yeti Coolers, Llc|Lid|
    USD883737S1|2018-10-17|2020-05-12|Yeti Coolers, Llc|Lid|
    法律状态:
    2018-05-29| PLFP| Fee payment|Year of fee payment: 2 |
    2018-12-07| PLSC| Search report ready|Effective date: 20181207 |
    2019-05-27| PLFP| Fee payment|Year of fee payment: 3 |
    2020-05-28| PLFP| Fee payment|Year of fee payment: 4 |
    2021-05-28| PLFP| Fee payment|Year of fee payment: 5 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1754839A|FR3067011B1|2017-05-31|2017-05-31|TIP AND DEVICE FOR DISPENSING LIQUID COMPRISING A CAP|
    FR1754839|2017-05-31|FR1754839A| FR3067011B1|2017-05-31|2017-05-31|TIP AND DEVICE FOR DISPENSING LIQUID COMPRISING A CAP|
    US15/994,425| US10202224B2|2017-05-31|2018-05-31|Liquid dispensing nozzle and device comprising a cap|
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