The present application is a U.S. national stage application under 35 U.S.C. 371 of PCT Application No. PCT/US2011/046135, filed Aug. 1, 2011, the entirety of which is incorporated herein by reference.
This invention is directed to a dispensing container that has an enhanced appearance. More particularly, this invention is directed to a dispensing container where the dip tube is provided with a dynamic decorative feature which is revealed on use of the dispensing container to dispense a product. The decorative feature may optionally coordinate with a design on the front or rear of the container.
Dispensing containers with dip tubes are used to store and dispense a range of personal care products. These include hand soaps, hand and body lotions, shampoos and body cleansing gels. There is a constant need to enhance the appearance of these containers. Various prior patent specifications disclose structures intended to enhance the appearance of the container, and some exhibit a dynamic, moving feature which is operable during dispensing. Examples of such US Patents are: U.S. Pat. Nos. 6,729,500, 6,345,731, 6,279,778, 6,592,007, 6,006,958, 1,916,646, 2,590,279, 1,976,762, 5,426,877, 5,937,554, 6,073,373 and 6,233,856. However, such constructions have a limited visual effect and/or are complicated in construction. U.S. Pat. Nos. 7,954,669, 6,276,566, and 6,918,510 disclose the provision of static decoration associated with the dip tube within a dispensing container.
The present invention aims to improve the dynamic enhancement of the appearance of a container and its product during use.
The present invention also aims to provide a simple and reliable structure which can be dynamically operated by the user during product dispensing.
The present invention further aims to provide a dispensing structure which functionally indicates product dispensing as well as enhancing the appearance of the container and its product during product dispensing.
The invention provides a container comprising a body portion and a neck portion, the neck portion having a pump dispenser thereon, the pump dispenser comprising a pump mechanism, a dip tube on one end of the pump mechanism, a pump outlet on another end of the pump mechanism, the dip tube extending from the pump mechanism into the body portion, the body portion containing a liquid, and a motion element, the motion element being located within the dip tube and adapted to be movable within the dip tube under the action of liquid flow through the dip tube, and at least a portion of the body portion being transparent, a decorative effect resulting from the motion of the motion element being visible from an exterior of the container.
Optionally, at least a portion of the dip tube is transparent and the motion element is visible from an exterior of the container. Further optionally, the motion element comprises a decoration.
The container may further comprise a decorative part located outside the dip tube and connected to the motion element.
In some embodiments, the motion element is mounted for rotational motion, optionally about a fixed axis. The fixed axis is optionally perpendicular to a longitudinal axis of the dip tube. The dip tube may include an enlarged chamber, which may be cylindrical, within which the motion element is disposed. In one particular embodiment, the motion element comprises a wheel. The wheel optionally has a plurality of radial vanes. The wheel may comprise a decoration or may carry a decorative element which is located outside the dip tube. The decorative element may be a disc having at least one image, typically a plurality of circumferentially arranged images.
In some embodiments, the motion element and the dip tube are dimensioned to permit translational motion of the motion element along a portion of the dip tube. The container may further comprise a decorative element located outside the dip tube and connected to the motion element, translation of the motion element causing translation of the decorative element. The decorative element may optionally comprise a shape representative of a living creature. Typically, the dip tube includes lower and upper restrictions defining lower and upper extremities of the portion of the dip tube along which the motion element can move translationally.
In some particular embodiments, as well as translational motion of the motion element, the motion element and the dip tube are dimensioned additionally to permit rotational motion of the motion element within the dip tube. In some embodiments, the motion element may be a sphere. Optionally, the sphere is externally patterned to resemble a sports ball. In some embodiments, the motion element may be a spiral or a fan element.
In some embodiments, the motion element comprises a plurality of particles mounted for random motion within the dip tube. Optionally, at least some of the plurality of particles have at least one identifiable shape. The dip tube typically includes an upper mesh screen defining therebelow a chamber within which the plurality of particles are located.
In some embodiments, the motion element and the dip tube are adapted to cause the motion element to move within the dip tube on pumping of the pump mechanism by a single pump stroke to cause liquid in the container to flow through the dip tube towards the pump mechanism. In some embodiment, the movement of the motion element within the dip tube may be used as a timer.
Optionally, the motion element and the dip tube are adapted to permit the motion element to move a defined extent on pumping of the pump mechanism by a single pump stroke. Typically, the defined extent indicates the dispensing of a defined amount of the liquid.
The invention further provides a method of providing an enhanced display by a dispensing container during dispensing of a liquid from the container, the method comprising the steps of:
a. providing a dispensing container including a pump mechanism and a dip tube extending from the pump mechanism into liquid to be dispensed from the container;
b. operating the pump mechanism to cause liquid to flow through the dip tube and out of an end of the pump mechanism; and
c. the liquid flow causing motion of a motion element located within the dip tube, the movement of the motion element causing a decorative effect which is visible from an exterior of the container.
In some embodiments, the motion element is visible within the dip tube and the decorative effect is the visible movement of the motion element. In some other embodiments, a decorative part is connected to the motion element and located outside the dip tube and the decorative effect is the visible movement of the decorative part.
In some embodiments, the liquid flow causes rotational motion of the motion element.
The rotational motion may be about a fixed axis and the at least one motion element may comprise a wheel. The wheel may be rotated in an enlarged chamber mounted to the dip tube.
In some embodiments, the liquid flow causes translational motion of the motion element along a portion of the dip tube. Typically, the translational motion is constrained between lower and upper extremities of the portion of the dip tube.
In some embodiments, the motion element comprises a plurality of particles and the liquid flow causes random motion of the plurality of particles within the dip tube.
Optionally, the motion element moves within the dip tube on pumping of the pump mechanism by a single pump stroke to cause liquid in the container to flow through the dip tube towards the pump mechanism. The motion element may move a defined extent on pumping of the pump mechanism by a single pump stroke. The defined extent may indicate the dispensing of a defined amount of the liquid. The defined extent may also be used to determine a period of time associated with the movement of the motion element.
The invention also provides a liquid-dispensing container including a pump mechanism and a dip tube extending from the pump mechanism into a body portion of the container containing liquid to be dispensed from the container, a rotatable wheel mounted for rotational motion within the dip tube and adapted to be rotatable within the dip tube under the action of liquid flow through the dip tube.
Further areas of applicability of the present invention will become apparent from the detailed description provided hereinafter. It should be understood that the detailed description and specific examples, while indicating the preferred embodiment of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.
The present invention will become more fully understood from the detailed description and the accompanying drawings, wherein:
The following description of the preferred embodiment(s) is merely exemplary in nature and is in no way intended to limit the invention, its application, or uses. The dispensing container has an enhanced dynamic appearance when used by a consumer to dispense the product contained within the container.
A motion element 26 is captive within the dip tube 22. The motion element 26 is adapted to be movable within the dip tube 22 under the action of liquid flow through the dip tube 22 during the dispensing operation. In some embodiments, any liquid remaining in the dip tube 22 may flow back into the container 10 due to gravity. In such embodiments, the motion element 26 may also be movable within the dip tube under the action of liquid flow through the dip tube 22 into the container 10. At least a part of the body portion 12 is transparent. Accordingly, a decorative effect resulting from the motion of the motion element 26 is visible from an exterior of the container 10. In the embodiment of
The motion element 26 comprises a wheel 28 having a plurality of radial vanes 30. The wheel 28 is mounted for rotational motion about a fixed axis which is perpendicular to a longitudinal axis of the dip tube 22. The dip tube 22 includes an enlarged cylindrical chamber 38 within which the wheel 28 is disposed.
The chamber 38 of the dip tube 22 may be a molded section, such as being formed by injection or blow molding, which is bonded to the dip tube 22. The dip tube 22 may be formed by extrusion to an elongated form.
In use, when liquid is pumped up the dip tube 22, the liquid flow applies hydraulic pressure to the vanes 30 which causes rotation of the wheel 28 during the dispensing operation. In this embodiment, the wheel 28 is decorative and is visible during the dispensing operation.
In an alternative embodiment as shown in
When the images are viewed through a transparent window of the body portion 12, for example a window in an opaque label revealing only a segment of the decorative element 36, the images 40 successively move across the window to provide an enhanced dynamic visual effect.
The wheel 28 is rotated by liquid flow through the dip tube 22. Therefore even if, as shown in
In a further embodiment as shown in
In this embodiment, the motion element 26 comprises a slider 42 within the dip tube 44. The dip tube 44 includes lower and upper restrictions 46, 48 defining lower and upper extremities of the portion of the dip tube 44 along which the slider 42 can move translationally. A decorative element 50 is located outside the dip tube 44 and is connected to the slider 42. For clarity of illustration the rear of the container and the rear of the decorative element 50 is shown in
Translation of the slider 42 as a result of fluid flow through the dip tube 44 dung the dispensing operation causes upward translation of the slider 42 and the decorative element 50 connected thereto. The decorative element 50, and its motion, can be viewed by the user, optionally through a window on the container 10. The motion of the slider 42 may or may not be visible, as described above for the first embodiment. After a dispensing cycle, the slider 42 slides back down the dip tube 44 due to gravity. As the slider 42 slides back down the dip tube 44, the decorative element 50 connected thereto also moves with translation of the slider 42.
Referring to
The operation to move the motion element translationally will now be described. Initially, as shown in
In any of the embodiments of the invention, the motion element and the dip tube may be adapted to cause the motion element to move within the dip tube on pumping of the pump mechanism by a single pump stroke to cause liquid in the container to flow through the dip tube towards the pump mechanism. Therefore a single downward stroke of the pump mechanism not only dispenses liquid but also moves the motion element upwardly, or rotates the motion element, which correspondingly moves any decorative element outside the dip tube which is connected to the motion element. The dimensions of the motion element and the dip tube can be arranged so that the motion element moves a defined extent on pumping of the pump mechanism by a single pump stroke. The defined extent may indicate the dispensing of a defined amount of the liquid. In some embodiment, the movement of the motion element within the dip tube may be used as a timer, i.e., a user may determine the period of time required for the motion element to move the defined extent.
For example, if the sphere of the embodiment of
The container of the various embodiments of the invention can therefore provide an enhanced display by a dispensing container during dispensing of a liquid from the container. During use, the pump mechanism is operated to cause liquid to flow upwardly through the dip tube and out of an end of the pump mechanism and simultaneously the upward liquid flow causes motion of the motion element located or captive within the dip tube, the movement of the motion element causing a decorative effect which is visible from an exterior of the container. In addition, any liquid remaining in the dip tube that has not flow out of the pump mechanism flows downwardly back to the container due to gravity. The downward liquid flow may also causes motion of the motion element located or captive within the dip tube, the movement of the motion element causing a decorative effect which is visible from an exterior of the container.
In some embodiments the motion element is visible within the dip tube and the decorative effect is the visible movement of the motion element. In other embodiments, a decorative part is connected to the motion element and located outside the dip tube and the decorative effect is the visible movement of the decorative part.
The upward/downward liquid flow may cause rotational motion of the motion element and/or translational motion of the motion element along a portion of the dip tube. The rotational motion may be about a fixed axis, and the motion element may comprise a wheel rotated in an enlarged chamber mounted to the dip tube. The translational motion may be constrained between lower and upper extremities of the portion of the dip tube. When the motion element comprises a plurality of particles, the upward/downward liquid flow may cause random motion of the plurality of particles within the dip tube.
In any embodiment, the dip tube may be clear or colored, and may be coordinated to the liquid product and/or the label which is applied to the body portion. The dip tube can be opaque or transparent. If the dip tube is transparent, and has a similar refractive index as the surrounding liquid, the dip tube will substantially disappear in the liquid. In a preferred embodiment, the contained liquid and the dip tube material may have a refractive index of within about 0.6, and preferably within about 0.4. In this way, the dip tube may substantially disappear in the liquid. The container is at least partially or substantially transparent, as will be the product liquid that is to be dispensed. This is necessary to enable the user to readily view the motion element.
In a further embodiment the dip tube can be decorated along with the motion element to give an overall unique appearance.
The label can be shaped or partially transparent to reveal at least the motion element, for example providing a window through which the motion element may be viewed. The label may be applied by in-mold labeling or the use of a shrink film.
The container may be made of essentially any substantially transparent plastic. Glass may also be used. Useful plastics are polyvinyl chloride and polyethylene terephthalate. The dip tube may be produced from any plastic that can be extruded, and optionally blow-molded. Such polymers include homopolymers and copolymers of ethylene and propylene, vinyl compound homopolymers and copolymers, such as polyvinyl chloride, and polyesters such as polyethylene terephthalate.
Front and/or rear labels may be composed of any substantially clear plastic. The preferred plastics are thermoplastics, such as polyethylene, polypropylene including biaxially oriented polypropylene, polyvinyl chloride and polyethylene terephthalate. The front and rear labels are typically printed. In-mold labels and shrink film labels may be composed of a wide range of monolayer and laminate materials, such as thermoplastic polymers.
Other modifications to the illustrated embodiments will be apparent to those skilled in the art and are within the scope of the present invention as defined in the appended claims.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/US2011/046135 | 8/1/2011 | WO | 00 | 1/28/2014 |
Publishing Document | Publishing Date | Country | Kind |
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WO2013/019207 | 2/7/2013 | WO | A |
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Entry |
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International Search Report and the Written Opinion issued in International Application PCT/US2011/046135 mailed Apr. 16, 2012. |
Number | Date | Country | |
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20140175122 A1 | Jun 2014 | US |