阅读说明：本技术 用于化妆品制品容器的擦拭件 (Wiper for a container of cosmetic products ) 是由 A.贝罗 E.科利耶 L.德吕容 于 2018-05-02 设计创作，主要内容包括：本发明涉及一种用于化妆品制品的容器的擦拭件(55),所述擦拭件包括基本上呈管状的主体,该主体包括至少一个擦拭部分(51),该擦拭部分的游离内表面限定擦拭通道(52),涂抹构件能够沿擦拭方向穿过该擦拭通道,所述擦拭件的特征在于,该擦拭部分由硬度小于70肖氏00、优选地小于45或50肖氏00的热塑性弹性体制成。(The invention relates to a wiper (55) for a container of a cosmetic product, said wiper comprising a substantially tubular body comprising at least one wiping portion (51) whose free inner surface defines a wiping channel (52) through which an application member can pass in a wiping direction, said wiper being characterized in that the wiping portion is made of a thermoplastic elastomer having a hardness of less than 70 Shore 00, preferably less than 45 or 50 Shore 00.)

1. A wipe (50, 55, 150, 250, 350) for a container (10) of a cosmetic product, said wipe comprising a substantially tubular body including at least one wiping portion (51, 151, 251, 351) whose free inner surface defines a wiping channel (52) through which an application member (22) can pass in a wiping direction, said wipe being characterized in that the wiping portion is made of a thermoplastic elastomer having a hardness of less than 45 or 50 shore 00.

2. A wipe (50, 55, 150, 250, 350) according to claim 1, characterized in that the hardness of the thermoplastic elastomer is less than 30 shore 00, preferably less than 20 shore 00.

3. A wipe (50, 55, 150, 250, 350) according to any one of claims 1 and 2, characterized in that the wiping portion (51, 151, 251, 351) has a tubular, preferably cylindrical shape, a wiping orifice having a preferably circular cross-section, without being deformed, in particular by the application member (22) passing through.

4. A wipe (50, 55, 150, 250, 350) according to claim 3, characterized in that the length of the wiping channel in the wiping direction is greater than or equal to the diameter of the wiping channel (52).

5. A wipe (50, 55, 150, 250, 350) according to any one of claims 3 and 4, characterized in that the thickness of the wiping portion (51, 151, 251, 351) in a direction perpendicular to the wiping direction and over at least the major part of the length of the wiping channel (52) is greater than or equal to half the diameter of the wiping channel, preferably greater than the diameter of the wiping channel.

6. Wiper (55, 150, 250, 350) according to one of claims 1 to 5, characterized in that the wiping channel (52) has a frustoconical application member insertion hole (53) and/or an extraction hole of the application member (22).

7. A wipe (150, 250, 350) according to any one of claims 1 to 6, characterized in that it comprises a catch portion (152, 252, 253/254), preferably made in one piece with the wipe portion, in particular by moulding or injection moulding, or made of a different material, preferably of another thermoplastic elastomer, for example by two-shot injection moulding.

8. A wipe (50, 55) according to any one of claims 1 to 6, characterized in that it has no retaining portion.

9. A wipe (55) according to any one of claims 1 to 8, characterized in that the wiping part (51) comprises an outer surface with at least partially circumferential, preferably fully circumferential, protrusions (54), preferably with a rectangular cross-section.

10. A wipe (55) according to claim 9, characterized in that the outer protrusion (54) is located at one end, preferably the bottom end, of the wiping part (51) when considered in the wiping direction.

11. A wipe (150) according to any one of claims 1 to 10, characterized in that the wiping portion (151) comprises at least one additional channel forming a vent (155) configured to allow air communication between a first interior space of the reservoir (10) located at one side of the wiping portion (151) and a second space located at the opposite side of the wiping portion.

12. Device (1, 100, 200) for packaging and applying a product, in particular a cosmetic product, comprising a body which forms a reservoir (10) intended to contain a cosmetic product (P) to be applied and whose free edge delimits an opening (11) capable of allowing at least the extraction of an application member from the interior of the reservoir, the opening being equipped with a wiper (50, 55, 150, 250, 350) as claimed in any one of claims 1 to 10.

13. Device according to claim 12, characterized in that the opening is located at the end of a neck (13), in which the wiper (150, 250, 350) is preferably arranged at least partially, in particular via a catch portion which can cooperate with a holding means which is complementary to said catch portion.

14. Device (1, 100, 200) according to any one of claims 12 and 13, characterized in that the wiping portion (51, 151, 251, 351) is located inside the reservoir (10) behind the neck (13), said wiping portion preferably having an upper surface in contact with the inner surface of the shoulder of the neck.

15. The device (1, 200) as claimed in any of claims 12 to 14, characterized in that the wiper (50, 250) has no retaining portion and is arranged in a wiper support (17) which has at least one perforated lower wall (17 a), the wiping portion (51, 251) preferably being spaced apart from the wiper support or the side wall of the reservoir over a major part of the length of the wiping channel (52).

Technical Field

The present invention relates to a wipe for a package for packaging and applying a cosmetic product.

Background

The expression "cosmetic preparation" is understood to mean any preparation as defined in the european parliament and council on cosmetic preparations, 11/30/2009, in 1223/2009 regulation (EC).

More specifically, the packaging and application assembly according to the present application is intended to apply a cosmetic product (for example a cosmetic or care product) to keratin materials and/or keratin fibres, in particular mascara to the eyelashes.

The packaging and application assembly according to the present application may also relate to a fluid product for the lips, such as a lip gloss or a lip gloss. The package assembly according to the present application is also suitable for other fluids such as eye shadow, concealer or foundation in liquid form.

The term "keratin materials" preferably means human keratin materials, in particular keratin appendages, more particularly keratin fibres.

The term "keratin fibres" means in particular the eyelashes and/or the eyebrows, preferably the eyelashes. For the purposes of this application, the term "keratin fibres" also extends to synthetic false eyelashes.

Mascara is understood to be a composition intended to be applied to the eyelashes. It may in particular be a cosmetic composition for the eyelashes, a pre-makeup base (or "base coat") for the eyelashes, a composition to be applied on a mascara (or "top coat"), or a composition for the cosmetic treatment of the eyelashes.

Mascara is more particularly intended for human eyelashes, but also for false eyelashes.

The application of mascara particularly relates to increasing the degree of condensation, in particular by increasing the volume of the eyelashes more or less.

Typically, application of a cosmetic preparation involves depositing the desired amount of material onto the desired keratin surface to achieve the desired effect.

The cosmetic product is applied by means of an applicator member.

A number of cosmetic product applicators are known which are intended to apply the product to keratin fibres, in particular mascara to the eyelashes.

In addition to the specific composition of the cosmetic product, the applicator plays an important role in the quality of application of the cosmetic product and in the amount of product deposited.

Typically, the applicator member includes an applicator member defining an applicator surface. The application member has a body or core of generally elongated shape capable of carrying application elements projecting from the core.

The application member may be completely or partially flocked, in particular in the case of an applicator for the lips. The flock fibres help to hold the article and thus form the application element.

Preferably, the application element extends in a general direction (in particular in a radial direction) substantially perpendicular to the core.

During application, the application member carries the cosmetic product and comes into contact with the fibres in order to deposit the product on said fibres. The spaced apart applicator elements form a cosmetic product storage area.

The application member is mounted at the end of a stem, usually made of plastic, which is fixed to the member for gripping.

The applicator is generally intended to be used with a reservoir containing a cosmetic product to be applied, and the free edge of which defines an opening. An application member is introduced into the reservoir through the opening, the application member carrying the cosmetic product for application before being withdrawn from said reservoir.

The applicator member is therefore movable between a first position, called pick-up position, in which the application member is located inside the reservoir and can be at least partially in contact with the cosmetic product contained in the reservoir, and a position, called application position, in which the application member can be in contact with a part of the human body.

This mode of use is generally known as "dipping" because the application member needs to be dipped into a reservoir of cosmetic product in order for the application member to carry the product prior to application.

The reservoir is usually equipped with a closure member designed to removably close the opening of said reservoir.

In a conventional manner, the opening is located at one end of a reservoir neck having an external thread which can engage with a corresponding internal thread belonging to a closure member (generally a threaded cap).

According to a usual packaging, the closure member also constitutes a member for gripping the applicator member, so that the applicator member is arranged in the reservoir when not in use.

In order to remove excess cosmetic product and to adjust the load on the application member, the opening of the reservoir is usually equipped with a wiping member, known as a wiper.

The wiper has a generally tubular hollow structure through which the application member can be passed at least when the member is withdrawn from the reservoir.

The wiper includes at least one wiping portion configured to at least contact the application member when it is withdrawn. Advantageously, the wiping part is configured to be able to also be in contact with the stem on which the application member is mounted.

The wiping part is elastically deformable, allowing the wiper to adapt to the variations in section between the stem and the application member, as well as to the variations in section inside the application member itself.

Therefore, the wiping portion is generally made of a thermoplastic elastomer (e.g., nitrile rubber).

Thermoplastic elastomer or TPE is generally intended to mean a polymer or polymer blend having properties similar to those of vulcanized rubber at the working temperature. These characteristics disappear at the processing temperature so that subsequent processing is possible, but reappear when the material returns to the working temperature (reference standard ISO 18064: 2014). For general information on thermoplastic elastomeric materials, reference may be made in particular to the guidance from:technicques de l' Ing é nieur engineer technique], Traité Plastiques et Composites [Engineering Techniques, Treatise on Plastics and Composites [ engineering techniques,articles on plastics and composites]], AM 3 400，Published by Michel Biron at 2000, 7 months and 10 days.

The thermoplastic material used may be, for example, SEBS (styrene-ethylene/butylene-styrene), silicone, butyl rubber, EPDM (ethylene propylene diene monomer), nitrile rubber, polyester elastomer, polyamide elastomer, polyethylene elastomer or vinyl elastomer, but may also be a polyolefin such as Polyethylene (PE) or polypropylene (PP).

In addition to the wiping portion intended to be in direct contact with the application member, the wiper may comprise a mounting portion intended to be assembled on the reservoir.

The wiping portion has a free inner edge defining a wiping or scraping aperture for wiping or scraping the application member and optionally the stem.

The wiping part is generally configured such that the wiping orifice has a cross-section at rest (i.e. without deformation due to the passage of the application member and/or stem of the application member) that is smaller than the maximum cross-section of the application member.

Preferably, the cross-section of the wiping orifice is substantially equal to or even slightly smaller than the cross-section of the wick of the applicator.

A number of wiper configurations have been proposed with the aim of improving the wiping of the application member while adapting to its shape as well as to the shape of the stem.

It would therefore be advantageous to propose a wiping member which allows a uniform wiping without this wiping being too vigorous, as this would make it more difficult to apply the cosmetic product.

Examples of wipers are described in particular in documents US 4390298, US 4617948, FR 2504788 (serrated wipers), EP 1561394 and EP 0829211.

The most common first type of wiper comprises a wiping portion defined by a lip which is resiliently deformable, substantially curved, projecting from a tubular mounting portion.

The wiping lip has a free inner edge defining a wiping or scraping aperture for wiping or scraping the application member and the stem.

To enable easy deformation, the thickness of the lip is relatively small and very small compared to the diameter of the wiping orifice, for example between 0.4 mm and 1mm (inclusive).

During the extraction and/or insertion of the application member through the wiping orifice, the wiping lip exhibits a deformation that is substantially curved both in a longitudinal direction corresponding to the direction of extraction or insertion of the application member and in a radial direction that allows it to adapt to the cross-section of the application member when passing through said lip.

More specifically, the wiping lip extends both in the longitudinal direction and in the radial direction.

This type of wipe is commonly referred to as a "lip wipe".

To ensure optimal wiping, the elastomeric material used to form the wiping lips need not be too soft, and wiping lips with too low a shore hardness are known to lose their wiping effectiveness, thereby making it difficult to apply cosmetic products.

Conversely, the hardness of the material need not be too high in order not to remove too much of the article and to maintain good deformability.

Typically, the elastomeric material used therefore has a hardness of 20 shore a to 70 shore a.

Furthermore, the wiping lip sometimes needs to be bent during the extraction of the applicator. This causes an initial resistance to withdrawal of the applicator, which reduces the comfort and ease of withdrawal for the user.

Wipes have also been proposed, the wiping part of which is made of a porous block of material, in particular foam, in particular open-cell foam. Such a wipe is described in particular in document WO 9731553 a 1.

The foam block is axially split or hollow to allow the applicator element to pass through when the applicator element is removed from the container for use.

Preferably, the foam selected is sufficiently soft to allow the applicator member to return without the user having to pay special attention or having to put the applicator member in a given orientation.

Patent US 6446637 mentions the possibility of replacing the block of foam material with a block of elastomer material. However, this document gives no information about the characteristics or properties of such materials.

There is a need to further improve the wiping member and in particular to enable the wiping member to satisfactorily wipe the application member while improving the feel felt by the user when removing the applicator.

Disclosure of Invention

The present invention seeks to achieve these objects and proposes, for this purpose, a wiper for a container of cosmetic products, said wiper comprising a substantially tubular body comprising at least one wiping portion, the free inner surface of which defines a wiping channel through which an application member can be passed in a wiping direction, said wiper being characterized in that the wiping portion is made of a thermoplastic elastomer having a hardness of less than 70 shore 00, preferably less than 45-50 shore 00.

The thermoplastic material may be a single thermoplastic elastomer or a mixture of thermoplastic elastomers, the mixture having the targeted hardness properties.

Thus, by using a material of relatively low hardness compared to the materials conventionally used for manufacturing wiping lips, it has been found that a more accurate and finer wiping of the application member can be achieved, the greater deformability of the wiping portion allowing it to better conform to the contour of the application member. The wiping is more uniform and the whole body is more consistent without being too violent

Preferably, the thermoplastic elastomer has a hardness of less than 30 shore 00, preferably less than 20 shore 00.

By using a material of relatively low hardness compared to conventional materials, it has been found that a very accurate and very fine wiping of the application member can be achieved, the very large deformability of the wiping portion allowing it to perfectly follow the contour of the application member.

According to a preferred embodiment, the wiping part has a tubular, preferably cylindrical shape, without deformation caused in particular by the application member passing through, the wiping orifice having a preferably circular cross section.

Preferably, the length of the wiping channel in the wiping direction is greater than or equal to the diameter of the wiping channel.

It is also preferred that the thickness of the wiping part in a direction perpendicular to the wiping direction and over at least a major part of the length of the wiping channel is greater than or equal to half the diameter of the wiping channel, preferably greater than the diameter of the wiping channel.

The use of a wiping block, which is to say a wiping block comprising a relatively tall and thick wiping part, limits the flexural deformation of said wiping part and promotes a compressive deformation in a direction substantially transverse to the direction of insertion and extraction (wiping direction) of the applicator.

This results in a more uniform wipe and no "hard spots" are felt by the user when withdrawing (because there is no lip fold back).

Moreover, the use of non-porous TPE materials avoids the phenomenon of foam filling by the cosmetic article, which may adversely affect its performance over time and also carries a greater risk of bacterial growth.

The use of TPE material also limits the risk of permanent deformation of the foam as the applicator moves back and forth during its use.

Advantageously, the wiping channel has a frustoconical application member insertion aperture and/or application member extraction aperture. This helps to centre the application member when it is withdrawn/inserted. This feature also allows a more gradual scraping at the entrance/exit of the wiping channel.

According to a first alternative form of embodiment, the wiper comprises a retaining portion, preferably made in one piece with the wiping portion, in particular by moulding or injection moulding, or made of a different material, preferably of another thermoplastic elastomer, for example by two-shot injection moulding.

According to a second alternative of embodiment, the wiper has no retaining portion.

Advantageously, the wiping part comprises an outer surface having an at least partially circumferential, preferably fully circumferential, projection, preferably having a rectangular cross-section.

The presence of the circumferential projection allows to fix the wiping portion in position, maintaining a space between the wiping portion and a side wall against which the wiper can be arranged in due case, said side wall then serving as a compression end stop when the application element passes said wiping portion. The presence of a gap from the side wall allows to vary the response properties of the material of the wiping part, in particular its force of scraping when the application member passes through. More specifically, in the case of a wiping part abutting against a side wall, the wiping part will have a natural tendency to work in a compressed state, since it will be blocked by the wall when the application member passes through. Conversely, in the case of a wipe portion that leaves a space (or no lateral end stop) between the wipe portion and the potential sidewall, the wipe portion will be more prone to operate in an extended condition. Working in the extended state allows the placement to be substantially based on the inherent elastic and stiffness properties of the material.

Advantageously, the external protrusion is located at one end, preferably the bottom end, of the wiping part, when considered from the wiping direction.

These directions are given with respect to the direction of the wipes fitted in the packaging and application device. Thus, a top direction and a bottom direction are understood to mean, respectively, a bottom intended to be oriented towards the product dispensing opening and a reservoir located at the opposite end of the dispensing opening.

Advantageously, the wiping part comprises at least one additional channel forming a vent configured to allow air communication between a first internal space of the reservoir located at one side of the wiping part and a second space located at the opposite side of the wiping part.

The presence of the vent in the wiping portion makes it possible to avoid any overpressure or depression phenomena when the application member is introduced or withdrawn through said wiping portion. In particular, the great deformability of the elastomeric material used leads to a greater tightness between the material and the application member and to an increased sealing when the application member passes through.

The occurrence of overpressure or underpressure may result in suction noise or the like, which is not very attractive for the user.

The invention also relates to a device for packaging and applying a product, in particular a cosmetic product, comprising a body forming a reservoir intended to contain the cosmetic product to be applied, the free edge of the body delimiting an opening capable of allowing at least the application member to be withdrawn from the interior of the reservoir, the opening being equipped with a wiper according to the invention.

Preferably, the opening is located at the end of the neck, the wiper being preferably arranged at least partially within the neck, in particular via a catch portion which is able to cooperate with a holding tool which is complementary to said catch portion.

Advantageously, a wiping portion is located within the reservoir behind the neck, said wiping portion preferably having an upper surface in contact with the inner surface of the shoulder of the neck.

According to a preferred embodiment, the wiper has no catch and is arranged in a wiper support having at least one perforated lower wall, the wiping part preferably being spaced from the wiper support or the side wall of the reservoir over a substantial length of the wiping channel.

Advantageously and complementary thereto, in particular the retaining zone for the wiping part formed by the shoulder of the neck and/or the lower surface of the wiper support can be adapted according to the flexural deformations required when the application member passes through.

In particular, in the case where the holding section extends substantially along the entire thickness of the wiping portion, the wiping portion will be prevented from bending when the application member passes through. The length of this retaining zone can be reduced in a manner that allows for a greater or lesser amount of deflection.

Drawings

The invention will be better understood from the following detailed description with reference to the drawings, in which:

figure 1 is a schematic depiction of a longitudinal section of a first package and application assembly equipped with a wipe according to the invention, which wipe is without a retaining portion.

Figure 2 is a schematic depiction of an alternative form of longitudinal section of the embodiment of the wiper of figure 1.

Figure 3 is a schematic depiction of a longitudinal section of a second package and application assembly equipped with a wipe according to the invention, the wipe having a retaining portion.

Figures 4 and 5 show an alternative form of embodiment of a wiper according to the invention.

Figures 6 and 7 are photographs of wipes obtained from a wipe block made of foam with a hardness of 20 shore a and of a thermoplastic elastomer with a hardness of 17 shore 00, respectively.

Detailed Description

Unless otherwise stated, the given wiper configuration is stationary, i.e. there is no deformation caused by the application member passing through during the extraction and/or insertion movement.

Moreover, these directions are given with respect to the direction of the wipes fitted in the packaging and application device. Thus, a top direction and a bottom direction are understood to mean, respectively, a bottom intended to be oriented towards the product dispensing opening and a bottom intended to be oriented towards the reservoir located at the opposite end of the pick/dispense opening.

Fig. 1 shows a packaging and application assembly 1 comprising a body forming a reservoir 10 intended to contain a cosmetic product P to be applied, and a free edge 11 of which defines an opening 12. More specifically, the opening 12 is located at one end of a neck 13 of the reservoir 10.

As will be described below, for assembly purposes, the neck 13 is made in the form of a strip 10a which is attached to the main portion 10b of the reservoir 10, in particular by snap fastening, clip fastening or screw fastening.

The reservoir 10 is equipped with a removable closure member 14 designed to removably close the opening 12 of said reservoir 10. In this case, the closure member 14 is in the form of a cap which can be engaged with the neck 13, in particular by screw fastening.

According to the depicted embodiment, the cap 14 can be screwed on and comprises for this purpose an internal thread 14a capable of engaging with an external thread belonging to the neck 13 a. Obviously, other closure means can be envisaged, for example of the magnetic type.

The packaging and application assembly 1 comprises an application member 20 having a stem 21 with a first end connected to the closure member 14 and a second end connected to an application member 22.

The closure member 14 forms a means for gripping the applicator 20.

The application member 22 comprises an elongated body with a set of protruding application elements. The application elements between them define a plurality of spaces for carrying and applying the cosmetic product P.

In this particular case, the application member 22 is a mascara applicator.

Although the application member 22 is illustrated as being made of a molded thermoplastic elastomer, the present application is clearly not so limited, and the application member 22 may be (particularly for mascara) a "fiber" type or "twisted core" type application member formed by spirally winding or twisting together two wire branches, forming a core around which is a bundle of bristles radially projecting from the wires. The applicator member 22 may also be a hybrid or composite applicator member.

Furthermore, the applicator member 22 is not limited to a mascara applicator and may be any applicator suitable for the cosmetic product contained in the reservoir.

By means of the closing member 14, the applicator member 20 is movable between a first position, called pick-up position, in which said application member 22 is located inside the reservoir 10 and can be at least partially in contact with the cosmetic product P, and a second position, called application position, in which the application member 22 can be in contact with the portion of the human body to which the cosmetic product is to be applied.

According to the present application, the reservoir 10 is equipped with a wiping member 50 which is arranged close to the opening 12 and is able to wipe at least the application member 22 of the applicator 20 when said applicator 20 is removed.

According to an embodiment, a wiper 50 is provided inside the reservoir 10 at the entrance of the neck 13.

The wiper 50 comprises a substantially tubular body comprising at least one wiping portion 51, the free inner surface of which defines a wiping channel 52 through which the application member 22 can pass in the wiping direction.

The wiping direction substantially corresponds to the longitudinal direction of the neck 13 and the reservoir 10.

More specifically, the wiper 50 has no retaining portion, and includes only a wiping portion 51 in the form of a thermoplastic elastomer block.

According to the present application, the thermoplastic elastomer has a hardness of less than 70 shore 00, preferably less than 45-50 shore 00.

In this particular case, the thermoplastic elastomer has a hardness of less than 30 shore 00, preferably less than 20 shore 00.

The thermoplastic elastomer is TPS or TPES, preferably SEBS. The thermoplastic material used may also belong to the TPE gel family, so that a very low hardness can be obtained.

As previously mentioned, the thermoplastic material may be a single thermoplastic elastomer or a mixture of thermoplastic elastomers, the mixture having the targeted hardness properties.

As examples of materials which can be used, mention may be made of PolyOne @, sold under the reference numbers GLS 454-.

Advantageously, the materials used may be blends, representing for example 70/30 by weight or 50/50 by weight (depending on the materials used) thermoplastic elastomers with different hardness. The use of blends in order to obtain the desired hardness makes it possible, in particular, to reduce the overall cost of the material by using a high proportion of harder but cheaper material (or vice versa).

Due to the use of thermoplastic elastomers, the wipe can be produced simply using an injection moulding process and any subsequent cutting step can be avoided, unlike the use of foam blocks.

In fact, it is also possible to add to the TPE material fillers that exhibit certain specific functions and for example bactericidal functions (for example fillers of zinc, activated carbon, silver or copper).

The wiper 50 has a wiping portion 51 of a cylindrical shape.

The length of wiping channel 52 in the wiping direction is greater than or equal to the diameter of wiping channel 52.

Accordingly, wiping channel 52 may typically be about 5 mm to 6 mm in length.

As indicated above, the diameter of wiping channel 52 is determined so that it is less than the maximum diameter of application member 22.

Preferably, the diameter of the wiping channel 52 is smaller than the smallest diameter of the application member 22, so that it is able to wipe the entire application member 22.

Thus, wiping channel 52 may typically be less than 5 mm in diameter.

It is also preferred that the diameter of the wiping channel 52 is substantially equal to or even slightly smaller than the diameter of the stem 21, in order to be able to wipe the stem 21 also when removing the applicator.

This feature enables an effective seal to be achieved at the stem 21 between said stem 21 and the wiping portion. Advantageously, there will be an effort to ensure clamping, meaning that the difference between the diameter of the wiping channel and the diameter of the stem 21 is at least 0.1mm, preferably at least 0.2 mm.

Thus, wiping channel 52 may generally have a diameter of less than or equal to 2 mm.

The thickness of wiping part 51 in the direction perpendicular to the wiping direction is greater than or equal to half the diameter of wiping channel 52, in this particular case approximately 0.75 times the diameter of wiping channel 52.

Therefore, the thickness of the wiping portion may be generally 2 mm to 6 mm.

A wipe 50 is arranged within the reservoir 10 at the base of the neck 13 in a wipe holder 17 which is held in the form of a basket on the rim of the reservoir 10 before the strip 10a forming the neck 13 is placed in position.

The wiper support 17 has a central hole 17a coinciding with the wiping channel 52 in order to allow the passage of the application member 22.

As explained above, the size of the aperture can be adjusted according to the required holding force of the wiping portion, in particular the required flexural deformation when the application member is passed through.

Thus, the wiping part 51 is comprised between the lower shoulder of the neck 13 and the wiper support 17, the upper surface of said wiping part 51 being in contact with the inner surface of the shoulder of the neck.

In general, the holding zones for the wiping part 51 (here the shoulder of the neck 13 and the lower surface of the wiper support 17) can be adjusted according to the flexural deformations required when the application member passes through.

In particular, in the case where the holding section extends substantially along the entire thickness of the wiping portion, the wiping portion will be prevented from bending when the application member passes through. The length of this holding zone can be reduced in a manner allowing more or less flexural deformation.

Fig. 2 depicts an alternative form 55 of wiper 50, comprising, independently of each other, a wiping channel 52 presenting an upper insertion hole 53 of frustoconical section and a circumferential projection 54 located at the lower end of the wiping portion.

Alternatively, the lower bore may also have a frusto-conical cross-section

When the wiper 50 is in position in the wiper holder 17, the presence of the circumferential projection 54 allows it to be correctly positioned in said wiper holder 17, while at the same time keeping the wiping portion 51 suitably spaced from the wiper holder 17 or from the side wall of the reservoir 10.

The presence of such a clearance from the side wall makes it possible to improve the initial deformation of the wiping portion 51 when the application member 22 passes through before said wiping portion is pressed against the wiper support 17 or against the side wall of the reservoir that supports it.

According to one embodiment, the height of the circumferential projection 54 is less than or equal to 20% of the height of the wiping portion. Thus, in the case of a wiper height of 6 mm, the height of the circumferential projection 54 may be about 1 mm.

The thickness of the circumferential projection 54 will depend on the desired compression delay and the desired elongation behaviour. For example, the thickness of the circumferential projection may be less than or equal to 20% of the thickness of wiping portion 51 (excluding the thickness of projection 54). Preferably, the thickness of the circumferential projection will be less than 15%. Thus, for a wiping portion having a thickness of about 5 mm, the thickness of the circumferential projection will be about 0.5 mm.

Figure 3 shows a packaging and dispensing assembly 100 which differs from the assembly 1 primarily in that it is equipped with a wipe 150 having a catch portion 152 in addition to a wipe portion 151 as previously described.

Thus, rather than being retained in the wiper support 17, the wiper 150 is directly attached to the neck 13 by its catch portion 152.

The catching portion 152 is integrally formed with the wiping portion 151.

The catching portion 152 may be formed in the manner of a catching portion of a conventional lip-type wiper.

The catch portion 152 may be made of the same material as the wipe portion, or preferably a more rigid thermoplastic elastomer (typically having a hardness in excess of 20 shore a) to make it easier to catch and hold. The use of different materials may be achieved by a two-shot injection molding or over-molding process.

In addition, it should be noted that the wiping portion 151 further comprises an additional channel forming a vent 155 configured to allow air communication between a first interior space of the reservoir located on one side of the wiping portion and a second space located on the opposite side of the wiping portion. The ventilation apertures 155 extend substantially in a direction transverse to the wiping axis, in particular in a radial direction.

The presence of the vent 155 makes it possible to avoid any overpressure or depression phenomena (piston effect) when the application member 22 is introduced or withdrawn through said wiping portion 152.

Figure 4 shows a package and dispenser assembly 200 which differs from assembly 1 primarily in that it is equipped with a wipe 250 having a wiping portion 251 and a retaining portion 252.

Wiping portion 251 is similar to wiping portion 50 except that it includes a frustoconical upper aperture 53 similar to wiper 55.

Further, the wiping portion 251 is also supported in the wiper holder 17.

The catching portion 252 is formed integrally with the strap 10b forming the neck 13.

Thus, rather than being retained in the wiper support 17, the wiper 150 is directly attached to the neck 13 by its catch portion 152.

Preferably, the wiping portion is made of a material having sufficient rigidity to ensure that the assembly is securely held on the reservoir 10. The wipe 250 can be made, inter alia, using a two-shot injection molding or overmolding process. Where appropriate, it would be advantageous to provide embossed zones capable of increasing the mechanical attachment between the materials (see, for example, EP 2574252).

Depending on the rigidity of the material used to make the retaining portion, it is also conceivable to over-mold the retaining portion on the neck 13.

Fig. 5 shows a strip 310b which forms the neck 13 and is intended to be attached to the respective main part of the reservoir of the packaging and dispensing assembly.

The neck 13 is equipped with a wipe 350 according to the present application that includes a wiping portion 351 similar to the wiping portion 251, and a retaining portion 252 configured to cooperate with the neck 13 and secure the wipe 350 in place.

To do this, the wiping portion 252 has an upper circumferential radial edge 253 and a lower circumferential radial edge 254, the edge 253 and the edge 204 respectively engaging the free edge 11 of the neck 13 and the inner lower shoulder of the same neck 13.

As previously mentioned, depending on the hardness of the material used, the retaining portion may be overmolded onto the neck 13, which then provides mechanical integrity.

Fig. 6 and 7 are photographs showing the results of wiping performed by a foam wiping block according to the prior art (fig. 6) and using a wiping block comprising a wiping portion made of TPE with a hardness of 18 shore 00.

The difference in wiping accuracy is clearly visible.