Tube for packaging a product and a sample associated with the product

A packaging arrangement for a product and a sample associated with the product. The packaging includes a flexible tube having a first end which delimits an outlet hole a second end opposite the first which is closed at an end closure zone formed by fastening an end edge portion of the tube onto itself, for example, by welding or adhesive bonding. The tube further includes at least one intermediate closure zone which is formed between the first and second ends, and which is formed by fastening a wall of the tube onto itself along at least one transverse line so as to define at least two compartments which are isolated from one another. One of the compartments communicates with the outlet hole. The two compartments can be separated from one other by breaking (e.g., tearing) an arrangement for facilitating separation, with the separation facilitating arrangement provided in the region of the intermediate closure zone. The product and the sample can be the same or different products.

FIELD OF THE INVENTION

The present invention relates to a tube for packaging a product and a sample associated with the product. The invention is particularly suitable for packaging cosmetic products, such as hair products including, for example, products for styling, washing, conditioning or dying hair. The invention can also be advantageously used for other products including, for example, hygiene products, skincare or sunscreen products.

BACKGROUND OF THE INVENTION

DISCUSSION OF BACKGROUND

U.S. Pat. No. 2002/0029985 discloses a tube which has two chambers for packaging two products separately, and for subsequently being able to mix these products by establishing communication between the two chambers.

Especially in the field of cosmetics, it is common to distribute samples in conjunction with the sale of one or more products. This distribution allows the consumer to learn about products other than that or those which she (or he) is purchasing, often with a view toward encouraging the future purchase of the sampled product.

Problems associated with packaging of samples include their cost, which needs to be as low as possible, and the manner in which the samples are presented with a product being purchased. Regarding the latter point, the sample could be handed out by the cashier at the time of payment for the product being purchased. However, this method of presentation is not very suitable for large-scale retailing, where it is desirable for the product being purchased to be presented directly with the sample product without substantially altering the cost or the presentation of the product being purchased.

Tubes, which can be presented without any other form of outer packaging, are problematic in this respect. One solution could include adhesively bonding the sample onto the tube, or fastening it thereon by some other means. However, aesthetically, this solution can be undesirable. This approach can also be disadvantageous in terms of cost, since it adds another packaging operation. Moreover, this adhesive attachment approach can be difficult to automate, and there is substantial risk that the sample will become separated from the product during handling or transport.

SUMMARY OF THE INVENTION

It is therefore an object of the invention to provide a tube for packaging a product, and a sample associated with the product, which solves all or some of the problems discussed above.

It is a further object of the invention to provide a packaging arrangement which is economical to manufacture and in which the presentation of the sample, in relation to the product with which it is associated, is improved as compared with conventional methods of presentation.

Other objects and advantages will become apparent from the detailed description herein.

According to the invention, the above objects are achieved by providing a flexible tube having a first end which delimits an outlet hole. Preferably, the tube includes an axis X. A second end opposite the first is closed over an end closure zone obtained by fastening an end edge of the tube onto itself, for example, by welding or adhesive bonding. The tube further includes at least one intermediate closure zone which is formed between the first and second ends, at a non-zero distance from the ends. The intermediate closure zone is obtained by fastening a wall of the tube onto itself along at least one line transverse to the axis X, so as to define at least two compartments which are isolated from one another. The two compartments include a first compartment, which communicates with the outlet hole and which contains a first product or product portion, and a second compartment, which is formed between the closure zones and which contains a second product or second product portion. The second product can be the same as or different from the first product.

With the arrangement of the invention, two compartments are delimited by the same tube body, with one of the compartments containing a product and the other containing a sample of a product, which is the same as or different from the product contained in the first compartment. Accordingly, it is not necessary to fasten two separate packages or containers together. The risk that the sample will become detached from the package, especially during transport, is thereby substantially reduced as compared with conventional systems discussed above.

The intermediate closure zone includes an arrangement, for example, in the form of a weakened line or a pre-cut line, for facilitating separation of the two compartments. Advantageously, the arrangement breaks upon application of a manual force, for example, by pulling on each of the two compartments. The pulling is, for example, exerted by holding one of the compartments in one hand and the other compartment in the other hand, and separating the compartments by moving the hands apart.

The intermediate closure zone is preferably straight and substantially perpendicular to the axis of the tube. This is not an absolute requirement, however, and the zone can be, for example, curved, inclined relative to the axis, or extend along a zig zag or other pattern.

Advantageously, at least one of the closure zones can have a non-straight edge, so as to make it possible to delimit a localized outlet passage for the product contained in the second compartment when opening the second compartment. By cutting the closure zone which has the non-straight edge with a straight cut (to cross the non-straight edge at least at two points) an opening is thereby formed between the two points at the outlet passage. Preferably, the non-straight edge is formed by the intermediate closure zone and delimits a protuberance, which is in communication with the second compartment. A narrow passage, which is preferably centered on the longitudinal axis of the tube, can thereby be defined by cutting as described above, so as to allow localized dispensing of the product.

An arrangement in the form, for example, of a preparatory cut or tear, or a weakened or pre-cut line, could also or alternatively be provided to assist manual opening of the second compartment. Such an arrangement may be provided either level with the end closure zone or level with the intermediate closure zone. If such an arrangement is not already provided for assisting opening of the second compartment, opening may again be carried out simply by cutting with a pair of scissors.

Preferably, the tube includes a tubular body obtained or formed by extruding a layer of at least one thermoplastic material, such as a high or low density polyethylene, or a polypropylene, or by calendering or co-extruding a complex with a plurality of layers with the layers preferably including at least one thermoplastic material.

By way of example, the end closure zone and the intermediate closure zone can be formed by adhesive bonding or welding (e.g., welding with heat or ultrasonic welding).

The external surface of the body can be varnished to improve its appearance. When a varnished surface is used, the varnish can optionally be excluded in the regions corresponding to the closure or sealed zones.

The outlet hole of the tube can be delimited by a head which is added on to the body of the tube. The head can be coupled or fastened to the tube, for example, by welding or adhesive bonding. The head is preferably obtained by injection molding.

Advantageously, the first end of the tube is preferably equipped with a dispensing cap having a dispensing hole for dispensing the product, with the hole of the cap in at least selective communication with the outlet hole. The dispensing cap preferably also includes a closure element for reversibly sealing the said dispensing hole. In accordance with an exemplary embodiment, the dispensing cap can include a body which is fitted firmly onto the tube, e.g., by snap-fastening or by screwing. The dispensing cap delimits the dispensing hole, with a closure element or cap articulated onto the body, e.g., via a hinge such as a film hinge or a spring-effect or spring biasing hinge. The closure element can also be screwed or snap-fastened onto the body of the cap.

In accordance with another aspect, the invention provides a method for packaging a product, and a sample product associated with the product inside a flexible tube, preferably a tube having an axis X. The method includes introducing the product through an open end of the tube, which is opposite a closed end, and filling the product up to a filling level located at a non-zero distance from the open end. In addition, an intermediate closure zone is formed above the filling level, at a non-zero distance from the open end, by fastening a side wall of the tube onto itself along at least one line transverse to the axis X, so as to seal a first compartment formed on a first side of the intermediate closure zone. The sample product is introduced above the intermediate closure zone through the open end and an end closure zone is formed by fastening an end edge of the tube onto itself so as to form, on the opposite side of the intermediate closure zone from the first compartment, a second compartment containing the sample product so that it is isolated from the product contained in the first compartment. An arrangement or region is also preferably provided for facilitating subsequent separation of the two compartments, e.g., in the form of a weakened line and/or a pre-cut portion.

An alternative process can also be used, for example, when the same product is being packaged in both compartments. With this process, the product is introduced into the tube through an open end of the tube, which is opposite a closed end. An end closure zone is formed by fastening an end edge of the tube onto itself, and an intermediate closure zone formed at a non-zero distance from the end closure zone, by fastening a side wall of the tube onto itself along at least one line transverse to the axis X so as to form a first compartment containing a first part or portion of the product on one side of the intermediate closure zone, and a second compartment, which is isolated from the first and which contains a second part or portion of the product on the other side of the intermediate closure zone. With this method, the product in the two compartments can be introduced in the same filling step. As in the previously discussed method, an arrangement or region can be provided for facilitating subsequent separation of the two compartments, e.g., with a weakened line and/or a pre-cut portion.

A configuration in which the sample product is the same as the product may be useful, in particular, for “traveling” use of the second compartment. For example, for weekend travel, the user can take just the sample with him or her in order to reduce the encumbrance in a toilet bag or other luggage.

The product and the sample product can be products for cosmetic use, especially products for hairdressing, body or hair hygiene, or other skincare or haircare products such as a sunscreen.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

FIGS. 1A and 2illustrate a tube prior to being filled. The tube includes a tubular body2, one end3of which is open. The tubular body2can be formed, for example, by extruding a polypropylene. In the illustrated embodiment, a head4(e.g., formed by injection molding a polypropylene material) is fastened onto the other end such as by welding or another fastening expedient. The head forms a neck5, the external surface of which includes a snap-fit bead6and a free edge of which delimits an opening7for the tube.

A cap8is fitted onto the head4of the tube1, e.g., by snap-fastening. The cap includes a body9fitted firmly onto the tube head4. For this purpose, the body9can include a first skirt10, the internal surface of which includes a groove11which can interact with the bead6so as to fasten the cap onto the tube. The body9of the cap also preferably includes a second skirt12, which is intended to provide a seal inside the neck of the tube. In addition, a third skirt13is also preferably provided primarily to function as a trim. A transverse wall14of the body9of the cap has a hole15at its center for dispensing the product. It is to be understood that different coupling/sealing arrangements could be provided at the end of the tube to allow the product to be selectively dispersed from the package.

In the illustrated embodiment, a “top” or cap16is articulated onto the body9of the cap. An internal surface of the cap includes a lug17which, in the closed position as represented in the sectional view ofFIG. 2, seals the dispensing hole15in a leak tight fashion. The external surface of the top16is preferably substantially flat, so that the tube1can stand on the top in a stable manner.

FIGS. 1A–1Cillustrate the steps of filling the tube according to a particular example of an embodiment of the invention. InFIG. 1A, the tube1is turned upside down. In this position, the cap8is in the closed position and the top16stands stably on a flat surface. The end3of the tube is open. A first product is introduced into the tube via its open end3by using a filling rod50. By way of example, the first product is filled up to a level located substantially two-thirds of the way up the axial height of the tube, although other filling levels are also possible. After the filling step inFIG. 1A, a transverse weld or seal zone20is formed. In this embodiment, the weld or seal is preferably formed with ultrasound just above the filling level inFIG. 1A.

In the illustrated embodiment, a dashed pre-cut line21extends over the full width of the tube1. The pre-cut line is preferably formed substantially in the middle of this weld zone20. A first compartment22is thereby produced, a first end of which is closed by a weld zone20and a second end of which is equipped with the cap8.

As can be seen inFIG. 1B, a filling rod51can be used to introduce a sample product. Preferably the sample is different from the first product, although the sample product could also be the same as the first product. As shown inFIG. 1B, the sample product is introduced via the open end3into the part of the tube1located above the closure zone20(which forms an intermediate closure zone). The sample product is introduced in the amount desired, preferably until substantially the maximum filling level of the tube1is achieved.

As inFIG. 1C, the end3of the tube can then be closed over a weld or seal zone23. A second compartment24, which is completely isolated from the first, is thereby delimited between the closure zones20and23. Preferably, a notch or preparatory tear25is then made in the closure zone23to assist opening of the compartment24.

FIGS. 3A–3Dillustrate, by way of example, a possible sequence for use of the tube discussed with reference toFIGS. 1A–1Cand2. As shown inFIG. 3A, the compartment24is separated from the compartment22along the pre-cut or weakened line21. InFIG. 3B, the compartment24is opened at the preparatory tear25. As shown inFIG. 3C, the sample product contained in the compartment24is then dispensed via the opening26obtained by breaking the preparatory tear25. As shown inFIG. 3D, the content of the compartment22can be dispensed in the same way that a product contained in a conventional tube is dispensed. Typically, the top16is opened and the product emerges via the hole15of the cap8in response to pressure exerted on the deformable walls of the tube.

The embodiment of the tube1, for which a filling sequence is illustrated inFIGS. 4A–4C, differs from the previous embodiment essentially in the design of the intermediate closure zone20separating the compartments22and24. According to this embodiment, the closure zone20includes a straight-line edge27next to the compartment22and a non-straight edge28next to the compartment24. The non-straight edge28is such that the compartment24forms a protuberance29substantially along the axis of the tube1and facing in the direction of the compartment22.

The narrowest end of the protuberance29is at a non-zero distance from a pre-cut or weakened line21, along which the two compartments22and24are intended to be separated. The protuberance29extends across a thinner transverse line30, along which the weld zone20is to be cut or torn manually with a view toward allowing the compartment24to be opened. In other regards, the filling of the tube1according to this embodiment can be the same as that in the previous embodiment, apart from the end weld zone23which, in contrast to the previous embodiment, does not have a preparatory tear.

FIGS. 5A–5D, to which reference is now made, illustrate a possible sequence for use of the tube discussed with reference toFIGS. 4A–4C. InFIG. 5A, the compartment24is separated from the compartment22along the pre-cut line21. As shown inFIG. 5B, the compartment24can be opened by making a cut along the weakened line30, which crosses the non-straight edge28of the closure zone20at two points. An opening26is formed and extends between the two points of the edge28. InFIG. 5C, the sample product contained in the compartment24can then be dispensed via the opening26. As shown inFIG. 5D, the contents of the compartment22can be dispensed in the same way that a product contained in a conventional tube is dispensed. Typically, the top16is opened and the product emerges via the hole15of the cap8in response to pressure exerted on the deformable walls of the tube.

Obviously, numerous modifications and variations of the present invention are possible in light of the above teachings. By way of example, as discussed earlier, although the seal or weld separating the compartments can be formed between separate filling operations, particularly where the first product and the sample product are the same, one filling operation can be used, with the filling operation followed by formation of a seal or weld to separate portions of the product into two compartments. In addition, as also discussed earlier, the various weakened, cut or separation assisting lines can take various forms, for example, using a tear initiation cut or notch, using perforated or score lines, or various combinations of the foregoing. In addition, it is to be understood that the packaging and various components can have various shapes or forms. Further, as also discussed earlier, the various seals or seams (closure zones) can be formed by various expedients. It is therefore to be understood that, within the scope of the appended claims, the invention may be practiced otherwise than as specifically described herein.