METHOD FOR ACCURATELY DEPOSITING A RELATIVELY SMALL AMOUNT OF A LIP PRODUCT ON AN APPLICATOR AND THE APPLICATOR CONTAINING SAID LIP PRODUCT

Abstract

A method for depositing an amount of a heat meltable at room temperature non flowable semi-solid lip product (8) on an applicator having a flexible sheet-like support (1) with a lip product area (4) having an interconnected open channel structure, formed by channel forming elements (6), said area (4) having a circumferential raised edge (7), the method including depositing the amount of lip product in the lip product area (4), filling the lip product area (4) incompletely and/or non uniformly, subjecting the lip product (8) to a heat treatment to heat all of it to above the melting point thereof, such that the lip product (8) flows into the channel structure filling the lip product area (4) substantially complete and uniform, and cooling the assembly of applicator and lip product (8).

Description

FIELD OF THE INVENTION

The present invention relates to a method for accurately depositing a relatively small amount of a lip product which is meltable by heat and which is non flowable at room temperature on an applicator for containing said lip product.

In the prior art a variety of methods is known for depositing a variety of lip products on a variety of applicators. Said applicators ranging from relatively thin sheet-like supports to more rigid stick like applicators. All intended to contain and apply said lip product.

Lip products are usually quite vulnerable products which are easily smeared or otherwise deformed even when still residing in the respective package thereof and will thereby inadvertently be applied to the lips later on.

The applicators which comprise a relatively small amount of a lip product are for example lip product samplers or testers, which are used to enable potential customers to sample and try the lip product. Also encompassed are single use applicators for other purposes, like medical purposes.

SUMMARY

Lip products according to the invention are for example lipstick, or lipstick like materials and the like, but can also be medical products, like medical ointments, lip emollient, sun protection products, anti herpes labialis agent etc. The lip products used according to the invention are non flowable and semi solid at room temperature which is intended to mean that they retain their three dimensional shape at room temperature and therefore also encompass products such as ointments and the like. Products being liquid at room temperature are specifically excluded.

The lip product according to the invention has to be a heat meltable and non flowable semi-solid at room temperature. Lipstick usually is supplied in bulk as a semi solid material which can be melted by heat and then becomes a liquid. When the liquid lipstick thereafter is cooled for example in a mould it hardens to a harder consistency than before heating and melting.

When a relatively small amount of lip product is present on a support (applicator) intended for sample or testing purposes in the cosmetics field, it is very important that the material is deposited very accurately so that the applicator has the appearance of a rich product comprising a lush amount of lip product, which is clean and whereby the lip product area has a circumferential delimitation which is as smooth and accurate as possible. The use of the applicator should be associated with quality and finesse. The lip product is intended to be applied to the lips of a user, most frequently for cosmetic purposes, and therefore the neat, accurate and glamorous appearance of the applicator comprising the lip product is of the utmost importance. Therefore the outline of the lip product area should be as meticulous as possible.

In the prior art no technique exists which can meet the above standards. Many lip product deposition techniques are described in the prior art.

According to U.S. Pat. No. 4,611,611 lipstick is applied on a paper sheet by printing or first a lip product area is die stamped and thereafter printed. Finally the deposited lipstick is subjected to flame hardening whereby the surface of the lipstick is melted to provide a non smudging surface.

Further U.S. Pat. No. 4,747,782 discloses the application of lipstick on a paper support in a liquid state (melted) by spraying.

None of the prior at methods however provides an applicator with a lip product area which is very accurately and durably filled with lip product as described in the introductory part of the description.

In the prior art therefore a need exists to further improving the accuracy of the deposition and thereby the appearance of the deposited lip product in the lip product area of a lip product applicator.

The present invention meets the above need by providing a method for depositing a relatively small amount of a semi-solid lip product which is meltable by heat and which is non flowable at room temperature on an applicator for containing said lip product, said applicator comprising a thin flexible sheet-like support with a surface with a lip product area which is designed to comprise the lip product, said lip product area comprising an interconnected open channel structure therein, which is formed by channel forming elements, like for example small projections and/or cutouts, in the surface thereof, the lip product area of the applicator having a circumference comprising a raised edge accurately delimiting said circumference and thereby forming a lip product reservoir, said raised edge having such dimensions that the lip product reservoir can at least accommodate the intended amount of lip product to be deposited in the lip product area,

at least comprising the steps of

• • depositing the necessary amount of lip product in the lip product area, such that the lip product area is filled incomplete and/or non uniform,
  • subjecting the lip product to a heat treatment such that all of the lip product is heated to above the melting point thereof, all in such a manner that the lip product flows into the interconnected open channel structure and thereby filling the lip product area substantially complete and uniform, and
  • cooling the assembly of applicator and lip product.

The raised edge around the circumference of the lip product area forming a lip product reservoir in combination with the interconnected open channel structure and the specific heat treatment wherein all of the lip product is heated to above the melting point thereof provides the surprising effect that the lip product fills the entire lip product area automatically complete and uniform with high accuracy. The exact mechanism is not clear but it seems to be a combination of cohesive-, adhesive- and capillary forces. Also the hardened outer layer described in the prior art is obtained, providing the necessary strength and shine to the lip product before use.

Per se US2009/0211591 discloses a multi-pattern lip cosmetic applicator which comprises plural lip product reservoirs which are relatively small and intended to contain different colours of lip product. The reservoirs may also contain small projections extending and penetrating through the lip product for limiting the pressure of the lips against the lip product during the application process thereof. The lip product after being applied can also be subjected to a heat treatment for forming a hardened surface thereof, which is common in the prior art.

However the specific combination of method steps according to the invention providing the advantageous effect that the lip product fills the entire lip product area automatically very accurately complete and uniform is not disclosed.

The interconnected open channel structure is a channel structure which is for a substantial portion accessible from the outside, and which is preferably open to the surroundings for more than 50% of the surface of the lip product area covered by the channels, more preferably for more than 80% and most preferred for substantially a 100% open. The channels may be formed by any suitable means, they may be engraved, embossed or the like, or simply formed by injection moulding of projections and/or cutouts in the lip product area.

Also the raised edge is not specifically limited to a ridge or the like but may for example also be the delimitation of a recess forming the lip product area, that is the connection of the recessed area with the higher area. The raised edge is preferably substantially closed over the entire length thereof, and is therefore usually endless.

Compression of the applicator during use or storage is no problem as the possible compression thickness is limited to the thickness of the channel forming elements or projections and the raised edge. By proper selection of the thickness of the channel forming elements or projections, the raised edge and the amount of lip product smearing and deformation by compression can be fully prevented.

Further because of the presence of the channel forming elements the amount of lip product can be decreased even further without deterioration of the appearance of the applicator filled with lip product.

Finally the presence of the channel forming elements can be sensed by the user on the lips which increases the accuracy of application of the lip product.

When lip product is applied to the lips using the applicator according to the invention the user can, as a consequence of the presence of the channel forming elements, position the applicator on or between the lips very accurately.

The channel forming elements may be separate elements or form an integral part of the applicator made by for example injection moulding. The channel forming elements preferably have a symmetrical shape and arrangement. The channel forming elements are designed and arranged such that many interconnected small open channels are formed. The channel forming elements can be separate elements attached or connected to the applicator or may be formed in the applicator by embossing techniques and the like in the material of the applicator itself. Examples of channel forming elements will be explained further with reference to the enclosed drawing.

The deposition of the lip product can as a consequence of the method according to the invention be performed with methods having limited accuracy as long as the lip product is deposited inside the lip product area, such as printing, screen printing, mask spraying etc. Advantageously the deposition of the lip product is performed by pad printing. The deposition accuracy can be low as practice has shown that the lip product after melting during the heat treatment will fill the entire lip product area accurately automatically without further handling or method steps being necessary. The lip product just flows out towards and against the raised edge. This advantageous covering effect of the lip product area with the lip product even takes place when the applicator is held upside-down.

The heat treatment is preferably performed in a substantially horizontal position of the applicator, whereby one face thereof is facing upward and the other is facing downward. One or both of the faces of the applicator may comprise a lip product area designed in accordance with the present invention.

In particular during the heat treatment the assembly is shaken or vibrated in a substantially horizontal orientation. This has shown to further improve the covering effect of the lip product in the lip product area. Preferably the assembly is vibrated in the direction of the face of the applicator.

In an advantageous embodiment according to the invention the applicator has lip product areas on both sides, the lip product being deposited on both sides thereof and preferably both sides being subjected to the heat treatment at the same time.

In a particular embodiment the applicator comprises a sheet-like flexible support with a mouth end portion and an opposite positioned holding end portion, said sheet-like flexible support comprising on at least one side thereof a lip product area carrying an amount of lip product, said lip product area being located on said support near the mouth end portion thereof in such a manner that at least a substantial part of at least one lip of a user can be brought into contact with said lip product in said lip product area by taking the support between the lips at the mouth end portion, said support being dimensioned such that it can be grasped manually at the holding end portion thereof which during use is located outside the mouth of the user, said sheet-like flexible support being designed in such a manner that it has an increasing flexibility from the mouth end portion to the holding end portion at least over the part of the lip product area of the support carrying the lip product.

The above applicator is disclosed in WO-A-2007/006559. This applicator provides outstanding results in applying lipstick to the lips of a user in an extremely accurate manner. The present invention provides a substantial improvement to the above applicator as with the method according to the invention including the minor adjustments to the lip product area, comprising the addition of the channel forming elements and the raised edge, a perfect product is obtained fully meeting the high accuracy standards required for such products in the cosmetics field.

Advantageously said sheet-like flexible support has a substantially triangular shape with rounded corners and has a substantially constant thickness, and the lip product area being designed in a curved band near a base of the triangular shape in order to approach the curvature of the lips of a user when used. This embodiment will be discussed in greater detail with reference to the enclosed drawings.

Finally the invention provides an applicator obtainable with the method according to the invention. Preferably the channel forming elements in the lip product area have rounded top edges. This has the advantage that during the heat treatment these curved or rounded top edges will be left uncovered. This means that when the applicator is in a package between foils or the like the lip product does not substantially touch the package as this is only in contact with the top edges of the channel forming elements.

The invention also relates to a method for depositing a relatively small amount of a heat meltable at room temperature non flowable semi solid lip product on an applicator for containing said lip product, said applicator comprising a thin flexible sheet-like support with a surface with a lip product area which is designed to comprise the lip product, said lip product area comprising an interconnected open channel structure therein, which is formed by channel forming elements, like for example small projections and/or cutouts, in the surface thereof, the circumference of the lip product area of the applicator comprising a raised edge accurately delimiting said circumference, having such dimensions that it can at least accommodate the intended thickness of the lip product to be deposited in the lip product area,

at least comprising the steps of

• • depositing the necessary amount of lip product in the lip product area,
  • subjecting the lip product to a heat treatment, such that all of the lip product is heated to above the melting point thereof, and
  • cooling the assembly of applicator and lip product.

Preferably this method is further characterized in that

• • the necessary amount of lip product is deposited in the lip product area with limited accuracy, and
  • the lip product is subjected to a heat treatment such that all of the lip product is heated to above the melting point thereof, all in such a manner that the lip product will fill the channels between the channel forming elements up against the raised edge of the lip product area.

BRIEF DESCRIPTION OF THE DRAWINGS

In the following the invention will be explained in greater detail with reference to the accompanied drawings, therein:

FIG. 1 shows a planar view of an applicator suitable for use with the method according to the invention;

FIG. 2 shows a magnified schematic view of a portion of the cross-section I-I from FIG. 1 wherein the lip product area is filled with lipstick; and

FIGS. 3a-3g show seven embodiments of the open channel structure with different channel forming elements.

DETAILED DESCRIPTION

FIG. 1 shows an applicator according to the invention comprising a sheet-like support 1 with a mouth end portion 2 and a holding end portion 3. Near the mouth end portion 2 a lip product area 4 is present. Near the holding end portion 3 a triangular opening 5 is present for improving the grip when using the applicator. The applicator can be made from many different materials but is preferably injection moulded from plastic like for example polypropylene or polystyrene.

The lip product area 4 comprises an interconnected open channel structure being composed of channel forming elements 6 having the shape of small sticks. 100% of the interconnected channel structure is open to the surroundings. The entire lip product area 4 is designed as a recess in the sheet-like support 1. The circumference 7 of the recessed lip product area 4 is formed by a raised edge delimiting said lip product area 4 as a lip product reservoir. In this embodiment intended for use with especially lipstick the underside of the applicator is designed similarly and on both sides the lip product areas 4 or reservoirs can be filled with lipstick, which will be described in connection with FIG. 2.

FIG. 2 shows a magnified schematic cross-section of the applicator shown in FIG. 1. 8 denotes lipstick deposited in the respective lip product areas 4. Lipstick can be deposited on both sides at the same time. The method according to the invention comprises the following steps.

First the applicator according to FIG. 1 is transported to a pad printing arrangement wherein the applicator is on both sides in an inaccurate manner provided with an amount of lipstick 8 by pad printing. The pad printing method does not have to be very accurate as long as the required amount of lipstick 8 is deposited inside the lip product areas 4 roughly following the shape of the inner circumference of the lip product areas 4. Then the applicator comprising lipstick 8 on both sides inside the respective lip product areas 4 is conveyed into a heating chamber in which the entire assembly is heated such that the lipstick is brought to a temperature above the melting point thereof, preferably with forced air heating. During the heating the applicator is transported in a substantial horizontal fashion and is vibrated with a relatively low frequency in the direction of the face of the applicator while the applicator is held in a substantially horizontal orientation. A low frequency is a frequency of below 50 Hz, preferably below 25 Hz and most preferred around 10 Hz.

After a suitable heating time depending on the temperature of the heating chamber, the melting point and the amount of the lipstick 8, such that all the lipstick 8 is in a melted state, the applicator is transported out of the heating chamber and allowed to cool. Said cooling may be forced cooling.

The actual heating temperature is not limited to the melting point of the lip product and can be much higher as long as the duration of the heat treatment is adapted thereto and the favourable effects of the present invention are obtained.

As a consequence of the presence of the small interconnected channels between the channel forming elements 6 during heating when the lipstick 8 is completely melted the lipstick will display an automatic covering effect. It flows out to fill the channels between the channel forming elements 6 up against the circumferential raised edge 7 of the lip product area 4 or reservoir.

In FIG. 2 it can be clearly seen that the rounded tips of the channel forming elements 6 stay free from lipstick 8. This is advantageous when later on when the applicator is packaged the packaging material will come in contact with substantially only the material of the applicator itself and not with the lipstick.

It will be clear that the specific practical embodiment of the lip product area or reservoir with the raised edge and the interconnected channel structure is not limited and that many variations thereof may be used. A recessed lip product area is not necessary as the raised edge may also be formed in the shape of a circumferential ridge or protrusion.

FIG. 3(a-g) show seven different embodiments of possible interconnected channel structures formed by channel forming elements. FIG. 3(d) is the embodiment used in FIG. 1.

When using the applicator the mouth end portion 1 of the applicator will be positioned inside the mouth and the lips brought into contact with the respective lip product areas 4. This can be done by grabbing the applicator with the fingers of one hand at the holding end portion 3 preferably at the location of the opening 5 for improving alignment of the applicator with the mouth. By bending the applicator up and down lipstick 8 is transferred from the lip product areas 4 onto the lips. During bending the channel forming elements 6 exert a mixing action on the lipstick, whereby the transfer thereof is further improved.

Claims

1. A method for depositing a semi-solid lip product (8) which is meltable by heat and which is non flowable at room temperature on an applicator for containing said lip product (8), said applicator comprising a thin flexible sheet-like support (1) with a surface with a lip product area (4) which is designed to comprise the lip product (8), said lip product area comprising an interconnected open channel structure therein, which is formed by channel forming elements (6) in the surface thereof, the lip product area (4) of the applicator having a circumference comprising a raised edge (7) accurately delimiting said circumference and thereby forming a lip product reservoir, said raised edge (7) having such dimensions that the lip product reservoir can at least accommodate the lip product (8) to be deposited in the lip product area (4), the method comprising the steps of:

depositing the lip product in the lip product area (4), such that the lip product area (4) is filled incompletely and/or non uniformly,

subjecting the lip product (8) to a heat treatment such that all of the lip product (8) is heated to above the melting point thereof, all in such a manner that the lip product (8) flows into the interconnected open channel structure and thereby filling the lip product area (4) substantially completely and uniformly, and

cooling the assembly of applicator and lip product (8).

2. The method according to claim 1, wherein depositing the lip product (8) is performed by pad printing.

3. The method according to claim 1, further comprising, during the heat treatment shaking or vibrating the assembly in a substantially horizontal orientation.

4. The method according to claim 1, wherein

the applicator has lip product areas (4) on both sides and the lip product (8) is deposited on said both sides and that both sides are subjected to the heat treatment at the same time.

5. Applicator obtainable with the method according to claim 1.

6. The applicator according to claim 5, wherein

the channel forming elements (6) in the lip product area have rounded top edges.

7. A method for depositing an amount of semi-solid lip product (8) which is meltable by heat and which is non flowable at room temperature on an applicator for containing said lip product (8), said applicator comprising a thin flexible sheet-like support (1) with a surface with a lip product area (4) which is designed to comprise the lip product (8), said lip product area comprising an interconnected open channel structure therein, which is formed by channel forming elements (6) in the surface thereof, the circumference of the lip product area (4) of the applicator comprising a raised edge (7) accurately delimiting said circumference, having such dimensions that it can at least accommodate an intended thickness of the lip product (8) to be deposited in the lip product area (4), the method

comprising the steps of: depositing the amount of lip product in the lip product area (4), subjecting the lip product (8) to a heat treatment, such that all of the lip product (8) is heated to above the melting point thereof, and cooling the assembly of applicator and lip product (8).

8. The method according to claim 7, wherein

the amount of lip product is deposited in the lip product area (4) with limited accuracy, and

the lip product (8) is subjected to a heat treatment such that all of the lip product (8) is heated to above the melting point thereof, all in such a manner that the lip product (8) fills the channels between the channel forming elements (6) up against the raised edge (7) of the lip product area (4).