• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
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  • 优先权
    • 专利摘要:
    A dispensing cap for a container of a fluid substance is described. The cap comprises a body (54) having an inlet portion defining an inlet flow passage (74) for receiving the fluid substance of the vessel and an elongate outlet portion defining an outlet flow passage (78) to discharge the fluid substance. The plug further has a valve (56) positioned within the body (54), on the inlet flow passage (74) and spaced axially inwardly of the outlet flow passage (78) to define a room (216). The valve (56) has a flexible, resilient valve head portion (160) that has movable opening portions (212) movable from a closed configuration to an open configuration when the head portion valve (160) is subjected to a pressure differential acting on the valve head portion (160).
    公开号:FR3036384A1
    申请号:FR1654305
    申请日:2016-05-13
    公开日:2016-11-25
    发明作者:Tim Spiegelhoff;Frederic Duquet;Kenneth Phillips;Curt Prusko
    申请人:AptarGroup Inc;
    IPC主号:
    专利说明:

    [0001] The present invention generally relates to a dispensing stopper for a container of a fluid substance. The plugs are used to selectively prevent or allow communication between the outside and the inside of a container (for example, a bottle, a bag, etc.). The cap has a body that defines at least one passage through the body for communication with an opening of the container, and the cap body can be (1) a separate structure to be attached to the container at the opening, or (2) a structure formed as a unitary portion of the container at the opening. A stopper specifically designed to facilitate the dispensing of a fluid product is known as a dispensing stopper. A typical dispensing stopper has a body with a valve and / or cover (e.g., a cap or lid) for selectively closing the body passage.
    [0002] Various fluent materials or substances (including oils, lotions, creams, gels, liquids, foodstuffs, granules, powders, etc.) may be packaged in a rigid, flexible or collapsible container having a stopper which can be opened and closed. A flexible container may be pressurized by a user to release the fluid from the container and through the plug body to dispense the fluid substance to a target region (for example, on a target surface). If the container is a bottle, sachet or other container, then this container with the cap mounted thereon and the contents stored therein can be characterized as "packaging". A dispensing stopper for a container may be provided with an elongate stopper body or pipette for applications of different fluids. The elongate plug body may be particularly suitable for applying a fluidic substance to a target area that is difficult to access, such as the application of hair oils to the human scalp. For low viscosity fluids, it may be difficult to cleanly and accurately dispense such a substance from an elongated plug body 3036384 2 - particularly in applications in which the user compresses the container to put the fluid under pressure and expel the fluid substance. The residual fluid may remain in the passageway through the plug body and may leak from the passage even after the user has stopped compressing the container. The inventors of the present invention have discovered that in some applications it may be difficult to cleanly dispense a fluid substance, particularly a relatively low viscosity fluid, through a cap on a container, in a desired manner. In particular, the inventors of the present invention have determined that it is desirable to provide an improved dispensing stopper for accepting dispensing of a fluid substance, particularly a fluid substance of relatively low viscosity, in a controlled manner and clean. The inventors of the present invention have also determined that in certain applications it is advantageous for the user to be able to dispense the fluid into individual drops of a desired volume and / or a steady flow. The inventors of the present invention have further determined that it is advantageous to provide an improved dispensing plug which facilitates the completion or "stoppage" of the flow in a clean and relatively accurate manner, and a way that minimizes leakage and / or drip. The inventors of the present invention have also determined that, in many applications, it may be desirable to provide an improved cap as part of a package, in which the cap structure facilitates or accepts the cleaning of the cap and / or minimizes the potential for accumulation of residues, dirt, grime, etc. during the life of the packaging. The inventors of the present invention have also determined that it is desirable to provide an improved cap that can be configured for use with a container of a fluid substance to have one or more of the following advantages: (i) ease and (ii) relatively low cost of manufacture and / or assembly. The inventors of the present invention have invented a novel structure for a plug for use with a container in which the plug comprises various advantageous features not taught or heretofore contemplated by the prior art. According to the broad aspects of one form of the present invention, there is provided a dispensing cap for a container having an opening between an outside of the container and an interior of the container where a fluid substance can be stored. The dispensing cap has a closure body that has an inlet portion that can be positioned at the container opening and that defines an inlet flow passage for communication with the interior of the container. The plug body further has an elongate outlet portion defining an outlet flow passage for accepting the flow of a substance from said inlet flow passage through the dispensing plug. The dispensing stopper further has a valve with a resilient resilient valve head portion. The valve head portion has at least one self-sealing slot through the valve head portion, and opening portions facing each other at least one self-sealing slot in a initially closed configuration. The openable portions are movable from the closed configuration to an open configuration when the valve head portion is subjected to a pressure differential that acts on the valve head portion.
    [0003] The valve is positioned on the inlet flow passage and is spaced axially inward with respect to the outlet flow passage so that the valve and the plug body together define a chamber axially inwardly. and communicating with the outlet flow passage for accommodating the opening portions of the valve head portion in the open configuration. It should be noted that the invention may include any or all of the features described above, include only one of the above features, more than one of the above features and any of the combinations of the above. characteristics above. In addition, other objects, features and advantages of the invention will become more apparent by reviewing the entire description comprising any of the appended claims and drawings. In the accompanying drawings forming part of the description in which the same reference numerals are used to denote the same parts throughout the latter, FIG. 1 is a perspective view, taken from above, of a dispensing cap. of the present invention, shown assembled with a lid and installed on a container in the form of a bottle - the cap, the lid and the bottle together defining a "package"; Figure 2 is an exploded perspective view of the package illustrated in Figure 1; Figure 3 is a front elevational view of the package shown in Figure 1; Figure 4 is a side elevational view of the package illustrated in Figure 1; Figure 5 is a top plan view of the package illustrated in Figure 1; Figure 6 is a fragmentary sectional view of the upper portion of the package, generally taken on the plane 6-6 of Figure 5; Fig. 6A is an enlarged fragmented sectional view of a portion of the illustrated structure enclosed in the region encircled in Fig. 6, and in Fig. 6A an internal valve is shown in the normally closed configuration; Figure 6B is a view similar to Figure 6A, however in Figure 6B, the valve is shown in an open configuration; Figure 7 is a side elevational view of the plug body shown in Figure 2; Figure 8 is a sectional view of the plug body taken generally on the plane 8-8 of Figure 2; Figure 9 is a top plan view of the valve shown in Figure 2; Figure 10 is a side elevational view of the valve shown in Figure 9; Figure 11 is a sectional view of the valve generally taken on the plane 11-11 of Figure 9; Figure 12 is a side elevational view of a retaining ring 10 shown in Figure 2; Fig. 13 is a top plan view of the retaining ring shown in Fig. 12; and FIG. 14 is a sectional view of the retaining ring generally taken on the plane 14-14 of FIG. 13.
    [0004] While the present invention is capable of embodiments in many different forms, the present description and the accompanying drawings describe a single specific form by way of example of the invention. The invention is not intended to be limited to the embodiment so described and the object of the invention will be indicated in the appended claims.
    [0005] For the convenience of the description, numerous figures illustrating the invention represent an embodiment in the typical orientation that the plug has at the opening of a container in the form of a straight bottle, and the terms such as "inward", "outward", "axial", "radial", "lateral" etc. are used with reference to this orientation. The terms "axial" and "radial" are used with respect to an "A" axis (FIGS. 6 and 6A) generally defined by a central passage through the plug and defining a direction of flow of the fluid substance from the inside. from the container to the outside of the container. The term "axially inward" refers to the inward direction of the container. The term "axially outward" refers to the remote direction of the interior of the container. It should be understood, however, that the plug of the present invention can be manufactured, stored, transported, used and sold in a different orientation than the described orientation. The dispensing plug or plug of the present invention is suitable for use with a variety of conventional or special containers, details of which, although not fully illustrated or described, will be readily apparent to those skilled in the art and will offer an understanding of these containers. The particular container, known per se, which is illustrated and described herein, is not part of the present invention, and therefore is not intended to limit it. Those skilled in the art will also understand that the novel and unclear aspects of the invention are implemented in the exemplary plug described alone. The stopper is particularly suitable for use on a container which contains a fluid material or substance in the form of an oil or lotion which can be dispensed or discharged from the container by the open stopper. Such fluid substances may be, for example, a food product, a personal care product, an industrial product, a household product or other types of products. Such substances may be intended for internal or external use on humans or animals or for other uses (eg, activities involving medicine, manufacturing, commercial or domestic maintenance, construction, agriculture, etc.). One embodiment of a plug of the present invention and its components is illustrated in FIGS. 1 to 14, in which the plug is generally designated by reference numeral 40. In the illustrated embodiment, the plug 40 is provided in the form of a separate cap which is configured to be attached to a container which typically contains a content such as a product or products consisting of articles or a fluid substance. The container may be of any conventional type, such as a flexible, collapsible bag or may be a generally rigid container (which may have resiliently soft walls), such as a bottle or reservoir. Figure 1 shows an embodiment of the plug 3036384 740 attached to a container 44 which is a generally rigid bottle. The container may be part of a larger dispensing system (not shown) which may include or be part of, for example, a medical device, a treatment machine, a dispenser, a reservoir on a dispenser, a dispenser, a dispenser or a dispenser. machine, etc., wherein the system has an opening to the interior of the system. The container or one of its parts may be made from a material suitable for the intended application (for example, a flexible material for a pouch in which a material may be a polyethylene terephthalate film ( PET) or a polyethylene film and / or an aluminum foil, or a softer, softer material such as molded polyethylene or polypropylene for a more rigid container 44 such as a bottle. plug 40 is mounted on a container 44 such as a bottle or bag (not shown), it is contemplated that typically after a plug manufacturer has made the plug (for example, by molding plug pieces 40 from of a thermoplastic polymer and assembling them), the stopper manufacturer sends the stopper 40 to a container filling plant to another place where the container 44 is made or supplied and where the container is filled with If the container is a collapsible bag, then the cap may include a suitable removable member portion that can be attached to the bag when the bag is made and filled or when the bag is made but before the bag The bag walls which are hermetically closed subsequently are filled consecutively with the open cap or the open regions. In the illustrated embodiment of the plug 40, the plug 40 is provided as an article, component or unit manufactured separately, to be assembled or mounted non-releasably on a container 44 such as a bottle. It should be noted, however, that in some applications it may be desirable for cap 40 to be attached to a container in a manner that allows a user to remove cap 40. In addition, it may be desirable that the cap (or at least the plug body) is formed as a unitary part or an extension of the container (for example, a bottle), in which such a unitary part or extension also (i.e. simultaneously) defines a structure end of the container known per se.
    [0006] The illustrated embodiment of plug 40, if initially formed separately from container 44, is adapted to be attached to container 44 at an opening which provides access to the interior of the container and fluid contents. contained inside the latter after part of the plug 40 has been opened, as described below.
    [0007] The container 44, known per se, such as a bottle, sachet or other container known per se, is not one of the broader aspects of the present invention. The container or other system, can have any suitable configuration. With reference to Figure 2, where the container 44 is a bottle, the bottle typically includes an upper end portion 46 or other suitable structure on a portion of the bottle that defines the mouth or opening 48 of the bottle. and a snap-on bead 49 and such an upper bottle end portion 46 typically has a transverse configuration with which the plug 40 is adapted to engage. The main body portion 50 of the bottle may have another transverse configuration which differs from the transverse configuration of the bottle top end portion 46 at the bottle opening 48. On the other hand, the bottle may rather have a substantially uniform shape along its entire length or height without any portion of reduced size or of different cross section (not shown). The bottle may have a generally rigid or slightly flexible wall (s) which may be grasped by the user. The particular embodiment of the plug 40 illustrated in FIG. 2 is especially suitable for use with a container 44 which is a bottle having a substantially flexible wall or walls which can be compressed or deviated (s) laterally inwardly by the user to increase the internal pressure inside the bottle so as to bring the product out of the bottle and through the open cap 40. In a bottle with one or more flexible walls, such wall or walls typically have sufficient clean resilience so that when compressive forces are removed, the bottle walls return to the relaxed normal shape. . In other applications, it may be desirable to use a generally rigid container and pressurize the interior of the container at selected times with a plunger or other pressurizing system (not shown) to reduce the pressure. 10 ambient ambient pressure to suck the material through the open cap. In certain other applications for use with a container that may be a product containment system or other type of system, the plug 40 may function to allow or prevent the release or entry of the substances from the system into the system. which plug 40 is installed. For example, in some applications it may be desirable to also accept refilling or refilling of the container 44 with the fluid stream through the plug 40 open in the container 44. In the particular embodiment illustrated in Figures 1 to 14 the plug 40 comprises a plug body 54, a valve 56, and a retaining ring or retainer 60. In the preferred embodiment illustrated, a cap or cover 64 is optionally provided to be removably mounted on the The stopper body 54, the valve 56, the retaining ring 60 and the cover 64 are preferably formed or molded as separate structures. The plug body 54, the retaining ring 60 and the cover 64 are each preferably molded from a suitable thermoplastic material such as polyethylene or polypropylene. Other materials may be used instead of these. It should be understood that in alternative designs (not shown), two or more components (e.g., the cap body and an articulated lid) may be unitarily formed or molded together as a connected structure. Further, it is to be understood that the plug body 54 can be unitarily formed or molded as an extension of the container 44. Referring now to FIG. 8, the plug body 54 comprises a base portion or a inlet 68 from which a pipette 5 or elongated outlet portion 70 projects axially outwardly. The inlet portion 68 defines an inlet flow passage 74 to be positioned at the opening 48 of the bottle 44 (Fig. 6) to communicate with an interior of the bottle 44 and to receive a substance fluid. The elongate outlet portion 70 defines an outlet flow passage 78 which communicates with the inlet flow passage 74 to allow a fluid substance to flow into and out of the plug body 54. The outlet portion The elongate 70 is generally progressively narrowed with a radial diameter smaller than that of the inlet portion 68. It should be noted, however, that the plug body 54 can take a variety of shapes, and need not have a elongate outlet portion 70 which is narrower than the inlet portion 68. In addition, it is to be understood that the inlet and outlet portions 68 and 70, respectively, and the inlet and outlet flow portions 74 and 78 respectively do not need to have circular cross sections. For example, the inlet and outlet portions 68 and 70, respectively, and / or the inlet and outlet flow passages 74 and 78, respectively, may be elliptical, polygonal, or some irregular shape. The plug body 54 and in particular the elongate outlet portion 70 are preferably formed from a transparent or partially transparent material so that the fluid substance is visible to a user of the plug 40 when the fluid substance is present. within the outlet flow passage 78, as discussed in more detail below. With reference to Figures 6 and 8, the plug body 54 has an inner surface 80 with a plurality of snap-on beads or projections 81 extending radially inwardly therefrom. The snap-on beads 81 cooperate with the snap-on bead 49 of the container to effect snap engagement securely securing the cap body 54 to the container 44 at the opening 48 of the container 44. that other conventional or special means for connecting the plug body 54 to the container may be used, such as coupling threads, bi-injection molding, adhesives, mechanical interlocks, friction welding of the plug on the container, etc. (not shown) If the plug body 54 is to be used on a flexible bag (not shown), then it is presently contemplated that the plug body inlet portion 68 has a suitable removable member configuration (not shown) to be attached to the pouch and most pouch manufacturers prefer to install the plug body inlet portion 68 at an opening formed in the pouch, with heat sealing techniques or ultrasonic welding techniques.
    [0008] Referring to FIG. 8, the plug body 54 has an upper end or bridge (e) 82 and a first or inner wall 84 which is annular and extends axially inwardly from the upper bridge 82 A second wall or outer wall 88 is also annular and surrounds the inner wall 84 and also extends axially inwardly from the upper bridge 82. The inner wall 84 terminates in an inclined valve seat surface 90. generally frustoconical, the function of which will be discussed in more detail below. The outer wall 88 has a plurality of snap-on beads or projections 94 extending radially inwardly therefrom for engaging a coupling feature on the retaining ring 60 (Fig. 6A) to hold the valve 56 (Fig. 6A) in a location between the inlet and outlet flow passages 74 and 78, respectively, as will be discussed in more detail below. Referring now to FIGS. 7 and 8, the upper bridge 82 of the plug body (FIG. 8) has a generally frustoconical inclined outer surface 96 terminating in a shoulder 97 which has an annular snap-on bead 98 which is adapted to engage a coupling feature on the cover 64 (Fig. 6) to secure the cover 64 to the plug body 54, as will be discussed in more detail hereinafter. The elongated outlet portion 70 extends axially outwardly from the upper bridge 82 and terminates at a distal end or end 102. Preferably, the tip 102 defines a generally convex or partially spherical outer surface. In the particular embodiment of the cap 40 illustrated, the tip 102 is in the form of a truncated sphere, with the truncated portion being the most axially outside portion of the tip 102. The tip 102 has a lip or a an axially and laterally inwardly curving surface 104 (Fig. 6A) connecting to the outer surface of the tip 102 on the outlet flow passage 78. The function of the surface 104 will be discussed in more detail below. after. An outer annular recess 106 extends around the elongate outlet portion 70 proximate to and axially inwardly of the tip 102.
    [0009] The recess 106 houses a sealing characteristic of the cover 64, as discussed below. Referring now to Figure 6, the optional lid 64 has a slightly concave upper end 108 and a dependent annular wall 110. The annular wall 110 has a snap-on bead 112 extending radially inwardly therefrom for engagement with the bead 98 (Figs. 6 and 7) of the plug body 54 to releasably secure the cover 64 on the plug body 54. The cover 64 may be alternatively connected to the plug body 54 by a connecting structure such as a hinge (not shown). The connection structure or hinge can be of any suitable type. One form of a hinge that can be used is the snap-off type hinge. Other types of hinges can be used. Alternatively, the cover 64 may be removably mounted on the plug body 54 with tightening or coupling adjustment screw threads. The upper lid end 108 has an inner annular wall 114 extending axially inwardly therefrom to create a fluid seal against the tip 102 of the plug body 54. The annular wall 114 has a chamfer or inclined surface 116 for guiding the tip 102 into the interior of the annular wall 114. As can further be seen in FIG. 6, when the cover 64 is installed on the plug body 54, remains a space or gap 120 between the upper end of the cover 108 and the end 102. Referring to Figures 6A and 14, the retainer or retaining ring 60 is provided for securing the valve 56 (Figure 6A only ) on the plug body 54 (Figure 6A only). The retaining ring 60 has a pair of annular walls 124 (Fig. 14 only) connecting in the shape of a shoulder 125 (Fig. 14 only), the walls 124 defining an internal passage 128 (Fig. 14 only). An outer annular protrusion 130 extends radially outwardly from one of the annular walls 124 for engagement with the snap-on beads 94 mentioned above (Figure 6A only) of the outer body wall. cap 88 (Figure 6A only). The retaining ring 60 has an outer concave surface 134 for guiding the retaining ring 60 into the cap body outer wall 88 while the retaining ring 60 is assembled to the cap body 54. The retaining ring 60 has in addition to a generally frustoconical valve seat surface 136 for cooperating with the cap body valve seat surface 90 (Fig. 6A) only to retain the valve 56, as discussed in more detail below. It should be noted that the retaining ring 60 need not be circular and may have other polygonal or irregular shapes. In addition, the retaining ring 60 may have a plurality of discrete projections or screw threads for engaging a coupling characteristic in the plug body (not shown). Alternatively, the retaining ring 60 need not be provided with an annular projection 130 and the ring 60 can instead be clamped, glued, vibration welded, or otherwise secured. way on the plug body 54.
    [0010] In some embodiments (not shown), it may be desirable to clamp or retain the valve 56 between the plug body 54 and the upper end 46 of the container 44 and therefore there is no need to provide As a variant, the valve 56 may be adhesively bonded, heat-welded or bi-injected molded onto the plug body 54 or the container 44 and thus there is no need to provide a sealing ring. 60. Referring to FIG. 6A, the valve 56 is configured to be positioned within the plug body 54 between the inlet and outlet flow passages 74 and 78, respectively (FIGS. and 6A). The valve 56 is a flexible, resilient, resilient, pressure-opening, self-sealing valve type valve (as best shown in FIGS. 9 to 11). Valves of a similar type are generally described in US-5,377,877 and US-5,839,614. The disclosures of these patents are incorporated herein by reference to the extent that it is relevant and compatible. The valve 56 is suitable for use with flowable substances, such as liquids, gases or particulates such as powders, and other substances including, but not limited to, fluids, mixtures, solutions, and the like. suspensions. The valve 56 described herein is particularly suitable for use with a low viscosity fluid such as a hair oil. The valve 56 is preferably molded as a unitary structure (i.e., an integral structure) made from a material which is flexible, pliable, resilient and resilient. This may include elastomers such as a synthetic thermosetting polymer, including silicone rubber, such as silicone rubber sold by Dow Corning Corporation in the US under the trade name D.0 99-595 and RBL9595-40. Both of these materials have a hardness of the order of 40 Shore A. Another suitable silicone rubber material is sold in the United States under the trade name Wacker 3003-40 by Wacker Silicone Company. The valve 56 may also be molded from other thermosetting materials or from other elastomeric materials, or from thermoplastic polymers or thermoplastic elastomers, including those based on these materials such as thermoplastic propylene ethylene, urethane and styrene, including their halogenated counterparts. For example, a particular silicone-free material that can be used is ethylene-propylene-diene terpolymer rubber ("EPDM"), as sold in the United States under the trademark Z1118 by Gold Key Processing, Inc., located at 14910 Madison Road. , Middlefield, Ohuo 44062, USA. Another silicone-free material that can be used is nitrile rubber, as sold in the United States under the trademark GK0445081-2 by Graphic Arts Rubber, located at 101 Ascot Parkway, Cuyahoga Falls, Ohio 44223, USA. It is desirable in many applications that the material be substantially inert in order to avoid reaction with and / or denaturation of the fluid substance in contact with the valve 56.
    [0011] The valve 56 has an initially closed, non-actuated, substantially relaxed position or rest configuration (as best seen in FIGS. 9, 10 and 11). The valve 56 may be forced into an "open" position or configuration (Fig. 6B) when a sufficiently high pressure differential acts on the valve 56, as described hereinafter.
    [0012] Referring to Figs. 6A and 11, the valve 56 has a peripheral mounting portion or flange portion 142 having a generally dovetailed configuration when viewed in vertical section, as shown in Figs. 6A and 11. The flange portion 142 may be of any configuration suitable for mounting on, attached to, or otherwise retained between the plug body 54 and the retaining ring 60. Preferably, the flange portion 142 is slightly resiliently squeezed to accommodate the creation of a leak-proof, secure seal when the valve flange portion 142 is press-fitted between the plug body 54 and the Retaining ring 60. For this purpose, the valve flange portion 142 includes a first frusto-conical surface 144 for engaging the frusto-conical valve seat surface 90 on the plug body 54 and the third The valve flange portion 142 also includes a second frusto-conical surface 146 for engaging the valve seat surface 136 on the retaining ring 60. With the appropriate modification of the cap body 54 and the retaining ring 60 other forms of flange cross-section which can be used on the valve 56 are illustrated in US Pat. No. 5,409,144. In some applications it is possible to use other shapes for the valve flange portion 142. It may be desirable to configure the flange portion 142 for attachment to one or both of the plug body 54 and the retaining ring 60 by means of adhesive, bi-injection molding, heat sealing, plastically deforming a portion of the plug body 54 about the valve flange portion 142 or other suitable fastening means. Referring now to FIG. 11, the valve 56 further has a generally annular intermediate connection portion or sleeve 150 which connects the flange portion 142 to a central valve head portion 160. The intermediate connection portion 150 is preferably substantially thinner than the valve head portion 160 and may be characterized in that it has a generally inverted cross-sectional configuration as seen along the longitudinal plane of the cross-section illustrated in Figure 11, wherein the intermediate portion 150 has a first tab 151 which extends generally laterally in a first direction and wherein the intermediate portion 150 has a second tab 152 which extends generally axially in a second direction. The function of the intermediate connection portion 150 will be discussed in more detail below. The valve head portion 160 is flexible and resilient. As can be seen in FIG. 9, the valve head portion 160 has a generally circular configuration. Referring to Fig. 11, the valve head portion 160 may be characterized as having an inlet side 188 oriented axially inwardly toward the interior of the container (not shown in Fig. 11). , but visible in Figure 6) and may further be characterized as having an opposite exit side 192 oriented in the axially outward direction away from the interior of the container (not shown in Figure 11, but visible on Figure 6). When the valve 56 is closed, the head 160 has a concave configuration when viewed from the outlet side 192 and the head 160 has a generally convex configuration when viewed from the entry side 188. Referring to Fig. 11, the outer perimeter of the valve head portion 160 is preferably defined by a substantially flared peripheral, substantially flared surface 196 which extends annularly around the valve head portion 160 and finally ends at the intermediate portion 150 substantially finer. The valve head portion 160 further has a central portion 200 which has a planar circular configuration when the valve head portion 160 is in the closed, fully retracted position. When the valve head portion 160 is viewed in section, as shown in FIG. 11, the valve head portion 160 is slightly thicker at a laterally or radially outer region of the valve head portion 160 and is thinner at a central region 20 laterally or radially inwards. This configuration helps to provide an opening action and a desirable closing action. The flexible valve 56 changes configuration between (1) a rest position, closed, retracted (as shown closed in Figs. 6A and 9-11) and (2) an open, active, expanded position (Fig. 6B). When the valve 56 opens, the fluid substance can be dispensed (i.e., discharged) through the valve 56 in a discharge flow direction generally along the longitudinal axis A defined by the Plug body 54. Referring to Fig. 9, the valve head portion 160 has a normally closed port 30 defined by a plurality of slots 204 extending laterally or radially from the center of the valve head portion 160 The preferred embodiment illustrated of the valve 56 has two slots 204 intersecting at a substantially straight angle. A larger or smaller number of slots 204 may be used depending on the flow characteristics required by the application. The slots 204 extend longitudinally through the valve head portion 160 from the inlet side 188 to the outlet side 192. In the illustrated embodiment of the valve 56, the slots 204 are equal in length, although the slots may have unequal lengths (not shown). The slots 204 define four flaps or petals of the same size, generally of triangular shape 212 (FIG. 9) in the valve head portion 160. The petals 212 may also be characterized as "openable regions" or "parts". The petal 212 has a pair of transverse faces defined by the slots 204 and each transverse face seals against a transverse face opposite an adjacent petal 212. when the valve 56 is closed. The shapes of such a type of slots in a valve are described in US Pat. No. 5,377,877. The description of this patent is incorporated herein by reference, to the extent that it is relevant and compatible. The valve 56 may be molded with the slots 204. Alternatively, the valve slots 204 may then be stamped or cut into the valve head portion 160 by appropriate conventional techniques. In operation, the petals 212 may be forced to open outward (Figure 6B) from the point of intersection of the slots 204 when sufficient force is applied to the entry side 188 of the leading portion. valve 160 (as by subjecting the valve 56 to a pressure differential on the valve head portion 160, so that the pressure on the inlet surface 188 of the valve 56 is greater than the pressure on the valve surface output 192 of the valve in a sufficient amount). The valve head portion 160, the intermediate portion 150, and the slots 204 are preferably configured to be used in conjunction with a particular container and a specific type of flowable substance to achieve desired flow characteristics. For example, the viscosity, density, and mixing properties of the flowable substance are factors to consider. The stiffness and durometer of the valve material and the size and thickness of the portions of both the valve head portion 160 and the intermediate portion 150 are additional factors to be considered.
    [0013] Referring to Figs. 6A and 6B, the valve 56 and the plug body 54 together define an outlet chamber 216 which is positioned between the outlet surface 192 of the valve 56 and the outlet flow passage 78 of the valve body. plug 54. The outlet chamber 216 accepts the movement axially outwardly of the valve 56 in the open position (FIG. 6B) and preferably has a diameter (in the plane perpendicular to the longitudinal axis A) which is substantially greater than the diameter of the outlet flow passage 78, whose function will be discussed in more detail below. The valve 56 in the preferred illustrated embodiment of the dispensing cap 40 is provided, in dispensing applications, to be axially open outwardly when the pressure at the inlet flow passage 74 is greater than a pressure at the outlet flow passage 78 in a predetermined amount. In addition, in some applications, the valve 56 may also open inward to permit evacuation when the valve outlet side back pressure 192 is greater than the valve inlet side pressure. in a predetermined amount. Such backpressure may result from the creation of a reduced ("empty") pressure within the container 44 as may occur with a flexible and resilient container after the user has initially compressed the container 44 during dispensing but then stopped compressing the container 44 back to its normal configuration, causing a temporary drop in the internal pressure of the container 44 until sufficient evacuation of the ambient atmosphere has occurred in order to equalize the internal and external pressures. In the following discussion, the operation of the valve 56 will be described with reference to a dispensing application in which there is a pressure on the side of the valve inlet 188 which is sufficient to open the valve 56 axially toward the valve. outside in a lower outlet pressure environment. The opening of the valve 56 may be characterized in that it occurs in response to a predetermined minimum opening pressure (relative to the external ambient atmosphere). The valve 56 is typically designed to have a predetermined minimum opening pressure that causes the valve petals 212 to open on a desired transverse flow area that can be characterized as fully opening for the design pressure differential. The selection of a predetermined minimum opening pressure is determined according to, inter alia, the desired flow criterion for a particular fluid substance and / or the maximum static head (if it exists) or a Another upstream pressure is exerted on the inlet side 188 of the valve 56 below which the valve 56 is designed to remain closed.
    [0014] Dispensing cap 40 functions as hereinafter described with reference to FIGS. 6 and 6A. Typically, a user removes the cover 64 (if provided) by removing the cover 64 from the plug body 54 to remove the annular wall 114 from the cover 64 of the plug body end 102. The user grasps the flexible container , resilient 44 to fold or reduce the volume of the container 44 to put the fluid substance contained therein under pressure. In some situations, the user may also return the container 44. In all cases, the pressurized fluid substance initially enters the inlet flow passage 74 of the plug body 54 and flows through the ring The fluid substance then faces the inlet surface 188 of the valve head portion 160. Still with reference to Fig. 6A, until the valve 56 is subjected to pressure. At a sufficiently high input, the valve 56 remains in an initial, normally closed configuration, in which the valve 56 remains substantially in its normal shape, as molded, without deformation (except perhaps at the flange 142 if the flange 142 is sufficiently compression squeezed by the valve seat surfaces 90 and 136). When the valve 56 is in the normally closed configuration, the valve intermediate portion 150 is substantially relaxed, and the valve port slots 204 are completely closed. The normally closed configuration of the valve 56 prevents or at least minimizes the potential for accidental dispensing or spillage of the fluid if the conditioning cover 64 has been removed and the package has accidentally been returned and / or possibly accidentally impacted. to create a slight increase in internal pressure. Referring now to FIG. 6B, when a sufficiently high pressure differential is established on the valve head portion 160, as when the increased pressure is set on the valve inlet side 188 by pressurizing the fluid substance, the valve intermediate portion 150 and the valve head portion 160 are forced axially outwardly into the chamber 216. The valve petals 212 open axially outwardly to create a open port at a predetermined pressure differential and thereby dispense the fluid substance through the valve head portion 160. The fluid substance then enters the chamber 216 and exits through the narrower outlet flow passage 78. The fluid substance moves substantially through the narrow exit passageway 78 and is dispensed through the tip 102 to a target region (e.g., a user's skin or scalp) allowing the user to distribute the fluid substance with greater precision than with the plugs of the prior art. If the plug body 54 and / or the elongate outlet portion 70 is formed from a generally transparent material, then the fluid substance is visible to the user to help control the dispensing The inventors have discovered that the sloped lid 104 of the substantially spherical tip 102 of the plug body 54 can prevent, or at least minimize, the undesirable adhesion of the fluid substance to the fluid substance through the outlet flow passage 78. The the tip 102 after the dispensing method mentioned above and may further prevent undesirable accumulation of fluid within the space between the annular wall 114 of the lid 64 and the tip 102. When the The user stops pressurizing the container 44, the flow axially outwardly of the fluid is stopped when the petals 212 of the valve close by snapping due to The resiliency of the valve 56 provides a fast and powerful "shutdown" of the flow out of the valve 56. In addition, a back pressure differential is preferably established on the valve head portion 160, so that that the pressure of the valve outlet side 192 is greater than the pressure of the valve inlet side 188 when the resilient container 44 returns to its relaxed configuration and creates a temporary lower pressure within the container 44. Given that that the intermediate connecting portion 150 and the valve head portion 160 snap together in their initial rest positions, the petals 212 may continue to open inwardly (i.e., with reference in Figure 6A, the valve petals fold down to open below the closed position, shown in Figure 6A). This allows some or all of the higher pressure fluid substance within the outlet flow passage 78 and / or the chamber 216 to flow into the inlet flow passage 20. 74 at lower pressure. Thus, the shape and location of the valve 56 serves to prevent or at least minimize the residence of the residual fluid in the outlet flow passage 78, the chamber 216 and / or the outlet surface 192. of the valve head portion 160 and which helps maintain the overall cleanliness of the package. Preventing the residence of the residual fluid within the outlet flow passage 78 after dispensing can reduce the accumulation of fluid within the lid 64 and reduce the accidental distribution or spillage of the substances. very fluid, low viscosity if the package is accidentally pressurized or returned.
    [0015] Referring to FIG. 6A, the inventors have discovered that by providing an elongate outlet portion 70 having a relatively large axial length (along the axis A), this increases the time required for the fluid substance moves to the end 102 and 5 dampens or stifles the global distribution action to give the user more control over the distribution process. In a presently preferred embodiment, the elongate outlet portion 70 is preferably at least two times greater than an axial length of the chamber 216. Preferably, the chamber 216 has an axial length of about 6.0 mm and the elongate outlet portion has an axial length of about 17 mm. Preferably, the elongated outlet portion 70 of the plug body 54 has an axial length that is at least five times greater than the diameter of said outlet flow passage. The inventors have further discovered that the combination of the elongate outlet portion 70 and the valve 56 greatly increases the ability of the user to dispense the product in the form of a controlled drop or flow. . Various changes or modifications of the present invention will become more apparent to those skilled in the art without departing from the scope and spirit of the present invention. Exemplary embodiments and examples are provided by way of example only and are not intended to limit the scope of the present invention.
    权利要求:
    Claims (13)
    [0001]
    1. Dispensing cap (40) for a container (44) having an opening between an outside of the container (44) and an interior of the container (44) where a fluid substance can be stored, said dispensing stopper (40) comprising A. a plug body (54) which 1) has an inlet portion (68) which can be positioned at the container opening and which defines an inlet flow passage (74) for communicating with the interior of the container, and
    [0002]
    2) has an elongated outlet portion (70) defining an outlet flow passage (78) for accepting the flow of a substance from said inlet flow passage (74) through said dispensing stopper (40); and B. a valve (56) having a flexible, resilient valve head portion (160) that has 1) at least one self-sealing slot (204) through said valve head portion (160), and 2) oppositely-openable portions (212) along said at least one self-sealing slot (204) in an initially closed configuration, said openingable portions (212) being movable from said closed configuration to an open configuration when said valve head portion (160) is subjected to a pressure differential acting on said valve head portion (160); wherein said valve (56) is positioned on said inlet flow passage (74) and is spaced axially inwardly with respect to said outlet flow passage (78) so that said valve (56) and said plug body (54) together define a chamber (216) inwardly of and communicating with said outlet flow passage (78) for accommodating said openingable portions (212) of the valve head portion in said open configuration. 2. The dispensing cap (40) of claim 1, wherein said plug body (56) is one of: 1) a separate structure for attachment to a container (44) at the level of container opening; and 2) an integral structure which is a unitary portion of a container (44) formed at the container opening.
    [0003]
    3. The dispensing cap (40) according to any one of the preceding claims, wherein said elongate outlet portion (70) of said plug body (54) terminates with a tip (102) having a generally convex shape.
    [0004]
    The dispensing cap (40) according to any one of the preceding claims, wherein said elongate outlet portion (70) of said plug body (54) terminates with a tip (102) in the form of a truncated sphere.
    [0005]
    The dispensing cap (40) of claim 4, wherein said truncated sphere has an outer surface connected to said outlet flow passage (78) by an axially and laterally inwardly curving surface (104). ).
    [0006]
    The dispensing cap (40) of any one of the preceding claims, wherein said elongate outlet portion (70) of said plug body (54) further comprises an annular recess (106) positioned axially toward the inside said tip (102).
    [0007]
    7. The dispensing cap (40) according to any one of the preceding claims, further comprising a retaining ring (60) for engaging said cap body (54) and said valve (56) to retaining said valve (56) on said inlet flow passage (74).
    [0008]
    8. The dispensing cap (40) of any one of the preceding claims, wherein said valve (56) comprises 1) a peripheral attachment portion (142) for engaging said plug body (54) ; and 2) a resilient, resilient, annular intermediate portion (150) connecting said peripheral fastening portion (142) with said valve head portion (160).
    [0009]
    The dispensing cap (40) according to any one of the preceding claims, wherein said elongate outlet portion (70) of said plug body (54) has an axial length which is at least twice as long as a length axial of said chamber (216).
    [0010]
    The dispensing cap (40) according to any one of the preceding claims, wherein said elongate outlet portion (70) of said plug body (54) has an axial length which is at least five times greater than a diameter. of said output flow passage (78).
    [0011]
    11. The dispensing cap (40) of any one of the preceding claims, wherein said chamber (216) has an axial length of about 6.0 mm.
    [0012]
    The dispensing cap (40) according to any of the preceding claims, wherein a portion of said elongated outlet portion (70) is made of a generally transparent material, wherein a fluid substance is visible to the interior of said outlet flow passage (78). 3036384 27
    [0013]
    13. The dispensing cap (40) according to any one of the preceding claims, in combination with a container (44) of a fluid substance, and a lid (64), together defining a package.
    类似技术:
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    同族专利:
    公开号 | 公开日
    GB201714196D0|2017-10-18|
    US20170129659A1|2017-05-11|
    CN205770868U|2016-12-07|
    WO2016186748A1|2016-11-24|
    ES1156912U|2016-05-23|
    US9815599B2|2017-11-14|
    ES1156912Y|2016-08-17|
    FR3036384B1|2019-07-26|
    DE202016102192U1|2016-08-02|
    BR202016010860U2|2016-11-22|
    GB2554547A|2018-04-04|
    GB2554547B|2021-04-28|
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    法律状态:
    2017-05-25| PLFP| Fee payment|Year of fee payment: 2 |
    2018-05-25| PLFP| Fee payment|Year of fee payment: 3 |
    2018-07-13| PLSC| Search report ready|Effective date: 20180713 |
    2019-05-27| PLFP| Fee payment|Year of fee payment: 4 |
    2020-05-25| PLFP| Fee payment|Year of fee payment: 5 |
    2021-05-25| PLFP| Fee payment|Year of fee payment: 6 |
    优先权:
    申请号 | 申请日 | 专利标题
    US201562163058P| true| 2015-05-18|2015-05-18|
    US62163058|2015-05-18|
    PCT/US2016/026687|WO2016186748A1|2015-05-18|2016-04-08|Dispensing closure|
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