The invention relates to a cosmetic receptacle system according to the preamble to claim 1.
In practice, there has long been a need for a very large number of very different cosmetic receptacles, not least in the mascara, eyeliner, and lip care sector. This is because especially in the more attractive high-priced market segment, not only are good cosmetics sold, but also the products, by virtue of their design, are also accompanied by emotions and prestige, which is why there is demand for such a wide variety of designs.
At the same time, cosmetic receptacles must remain hermetically sealed over long periods in the closed state and usually also in the re-closed state after being opened for the first time in order to reliably prevent their contents from drying out or otherwise aging and in order to reliably prevent their contents from becoming contaminated.
The vast majority of cosmetic receptacles of this kind are therefore produced as a plastic part that is of one piece and is thus correspondingly leakproof. As a rule, the production is carried out by means of so-called blow molding or injection molding. In both cases, a mold is required, which gives the cosmetic receptacle its precisely defined shape at least on the outside and its flawless outer surface. Molds of this kind are expensive and are therefore only suitable for large quantities, allowing the costs to be amortized over time in the course of their production.
Because of this, the known techniques do not permit the achievement, for example, of so-called “limited Editions.” These include, for example, small batches, e.g. of a known eye care or lip care product, furnished for a particular topical event. The small batch in question is eye-catching due to its cosmetic receptacle having been temporarily provided with an exceptional design, thus enticing consumers to buy.
In light of the foregoing, the stated object of the invention is to provide cosmetic receptacles, which can be provided with different design at a lower cost than before.
The object is attained according to the invention with the features of claim 1.
Correspondingly, a cosmetic receptacle system is proposed, which has a series of different components that can be combined to produce cosmetic receptacles with different external designs. The cosmetic receptacle system according to the invention includes at least one self-supporting receptacle, which forms a withdrawal opening at one end in the form of a narrowed neck, and a cap. The term “self-supporting” here, by contrast with a crushable film-blown article, refers to a receptacle that inherently has a definite geometrical form, which it permanently retains even under the influence of gravity when it is resting on its base, entirely without external support. Ideally, the receptacle is a plastic receptacle that has been blow molded or injection molded in an intrinsically known way, usually in the form of a bottle, preferably with the wall thickness described in the first exemplary embodiment.
In addition, the cosmetic receptacle system according to the invention includes several concealing sleeves with different outer cross-sectional shapes. A “concealing sleeve” is understood here to be a sleeve-shaped body, which in the fully assembled state, contains the receptacle and in general, constitutes at least most of the visible outer circumference surface of the ready-to-use and ready-to-sell cosmetic receptacle unit permanently throughout the life of the product. In the simplest case, the sleeve-shaped body is a bottomless tube. Preferably it is a tube that has a closed bottom at one end.
Finally, the cosmetic receptacle system according to the invention includes several different adapter rings.
Each of these adapter rings has a socket for the neck of the receptacle, enclosing the latter in the circumference direction. In the broadest sense, each of the adapter rings constitutes at least one stop, which prevents the receptacle from being pulled outward through the adapter ring.
On its side oriented toward the bottom of the receptacle, each of these adapter rings has an adapter section whose outer cross-section essentially corresponds to the outer cross-section that a concealing sleeve—which corresponds to this adapter, i.e. is intended for assembly with this adapter—has at its free end that is oriented toward the neck of the receptacle in the installed position.
The decisive factor is that without having to perform any adapting work steps, the at least one receptacle can be assembled with several different concealing sleeves and the adapter rings associated with them in order to form different respective cosmetic receptacle units, i.e. ones with different external designs.
Since only one receptacle is used or—in large systems—compared to the number of different designs, only a number of receptacles that is smaller than the total number of different designs that can be produced is used, it is not necessary to manufacture an expensive mold for each newly designed cosmetic receptacle.
The cosmetic receptacle system according to the invention is also highly suitable, for example, for the use of concealing sleeves that are produced from plastic by means of 3D printing. In this regard, it is advantageous that because of the conventionally produced receptacle, it is not necessary to make sure that the concealing sleeve is printed so that it is hermetically sealed. In addition, this also eliminates the need for printing the thread of the receptacle neck, which may be delicate and therefore not well-suited to the 3D printing process.
The invention proves to be particularly advantageous if the concealing sleeves are composed of metal.
Then even extremely small batches can be efficiently produced, e.g. by spinning the concealing sleeves on a spinning lathe or by extruding the concealing sleeves. Both of these can be accomplished efficiently, particularly in small quantities. An embodiment of the system components, which ensures that the bottom of the receptacle and the bottom of the concealing sleeve are uniformly spaced apart from each other, preferably by at least 4 mm, is preferred. This also includes greater deviations of the kind that can occur in the blow molding of a plastic receptacle.
Preferably, at least one of the concealing sleeves belonging to the system does not have a closed bottom, but rather a passage whose inner opening is adapted to the receptacle and which is closed by the receptacle or preferably, by the bottom thereof. Bottomless concealing sleeves offer a high degree of freedom for the creativity of the design embodiment, particularly if the concealing sleeves consist of metal and are produced by means of spinning or another cold forming process. In this case, a bottom would specifically have a negative impact on the deformability.
Ideally, the receptacle or more precisely, its bottom, is wedged into the passage and a seal is produced as a result so that for example no moisture can penetrate and possibly drip out again later.
It is particularly advantageous if the adapter section of an adapter ring is stepped at its edge, which rims the free end of the adapter section that is oriented toward the neck of the receptacle. It therefore forms an annular projection that is preferably closed in the circumference direction. In the assembled state, this projection engages internally behind the wall of the corresponding concealing sleeve. As a result, the correspondingly embodied outer circumference surface of the adapter ring and the correspondingly embodied outer circumference surface of the concealing sleeve are centered relative to each other so that they smoothly transition into each other, entirely or at least substantially.
Ideally, in the place where it engages behind the concealing sleeve, the annular projection is supported from the inside by a supporting section of the neck of the receptacle. This preferably occurs in such a way that the annular projection is clamped in a frictional, nonpositive way between the inner surface of the concealing sleeve and the supporting section of the neck.
In another preferred exemplary embodiment, the concealing sleeve is embodied so that it embraces the neck of the receptacle to such a degree that when the receptacle is inserted all the way into the concealing sleeve between the concealing sleeve and the neck of the receptacle, an annular open space is produced between these components, which accommodates the entire adapter ring. This is a particularly attractive solution from a visual standpoint because the concealing sleeve thus also offers the critical eye the image of a one-piece receptacle; no seam appears on the outer circumference surface between the adapter ring and the concealing sleeve—which would be highly intrusive in terms of design requirements.
It is particularly advantageous if the adapter sleeves of the system can be detent-locked in a form-fitting fashion to the neck of the receptacle or receptacles belonging to the system.
Ideally, the neck of the receptacle and the passage of the respective adapter ring are matched to each other so that the neck of the receptacle protrudes outward through the passage of the adapter ring. It forms a free neck section there, which is as a rule tubular. In this neck section, a cap can be removed and affixed in a reclosable fashion. Preferably, the cap of the neck section can be detent locked or screwed onto the latter so that it fully embraces its outer circumference. The big advantage of such a design is that the complexly shaped neck section, with its different functional surfaces (e.g. thread, opening aid in the form of bevels, and projections that force a particular closing position of the cap, etc.) is always the same and can be efficiently reproduced by the mold for the receptacle—without having to encumber the adapter ring or the concealing sleeve with this.
Ideally, relative to the section of the neck, which is embraced in a preferably centering fashion by the passage, the freely extending neck section is tapered in such a way that the freely extending neck section—despite the detent bead, the arrangement of detent protrusions, or the thread flank that protrudes outward from it—can be slid through the passage from the inside toward the outside.
It is particularly advantageous if the neck has a sealing section, which protrudes in the radial direction relative to the region in which it surrounds the neck and which in the fully assembled state, is encompassed circumferentially by the passage of the adapter ring. In this case, the outer diameter of the sealing section is greater, preferably 1/10 mm to 3/10 mm greater, than the inner dimeter of the passage. This ensures that in the assembled state, the sealing section is wedged into the passage in an elastically sealing fashion.
In an alternative possible embodiment, the adapter ring fully embraces the entire neck of the receptacle, preferably so that the end of the neck and the adapter ring both end in the same horizontal plane at the height of the withdrawal opening.
In the latter embodiment, in the region in which it embraces the neck section, the adapter ring preferably has a threaded section or at least one detent engagement section for affixing a cover in the form of a cap.
Independent protection is claimed for a cosmetic receptacle unit consisting of a receptacle, a concealing sleeve, and an adapter ring, which are embodied in the way disclosed here for the above-mentioned individual parts.
Other effects, embodiment possibilities, and advantages of the invention ensue from the following description of exemplary embodiments based on the figures.
a shows a perspective view of a detail from
a shows an enlarged detail from
b shows another variant in which the connecting technique of welding or friction welding that is described in connection with
As an example, but one that is applicable to all of the exemplary embodiments except for the sixth,
As an example, but one that is applicable to all of the exemplary embodiments except for the sixth,
As an example, but one that is applicable to all of the exemplary embodiments except for the sixth,
As an example, but one that is applicable to all of the exemplary embodiments
The receptacle 2 is clearly shown. It typically consists of a plastic that is suitable for blow molding. Its wall thickness everywhere or at least in most places, is between 0.85 mm and 1.75 mm. The receptacle is thus self-supporting, as previously described.
The receptacle 2 is preferably composed of a storage section 3. This is adjoined integrally/in one piece by a neck 4.
In the fully assembled state, the receptacle is at least largely accommodated inside a concealing sleeve 5. The concealing sleeve ideally consists of metal and can then—optionally—be fastened as illustrated in
Preferably, the two bottoms 6, 7 are uniformly spaced apart from each other by at least 3 mm or better still, by at least 4 mm, as is clearly shown in
The concealing sleeve 5 in this case is selected to be short enough in the direction of its longitudinal axis L that it essentially does not overlap the neck 4 or in any case, overlaps it by at most 10% of its circumferential surface.
It is readily apparent that an adapter ring 8 is placed over the mouth of the concealing sleeve 5, which is oriented toward the neck 4 of the receptacle 2 and via which the receptacle 2 is inserted into the concealing sleeve 5. The adapter ring 8 has a passage 9 for the neck 4 so that a part of the neck 4 protrudes freely outward through the adapter ring 8 and forms a neck section 10 there, onto which a cover, which is only shown in
The adapter ring can be visible and my form a design element then. In many other cases the adapter element is designed that way that it is as such not visible.
This adapter section 11 has a special function. The outer cross-section or the embodiment on the outer circumference of the adapter section 11 essentially corresponds to the outer cross-section or the embodiment on the outer circumference that has a concealing sleeve 5 that corresponds to this adapter ring 8 at its free end oriented toward the neck of the receptacle 2. This ideally achieves the fact that the adapter ring 8 and the concealing sleeve 5 transition smoothly into each other, i.e. without forming a step or other locally raised region on the circumference. The only thing that indicates the existence of multiple parts is the interstice that is produced at the point on the outer circumference surface where the ends of the adapter section 11 and concealing sleeve 5 abut each other, see
It is particularly advantageous, as shown in
As is shown the most clearly in
It is clear from
The adapter section 11 and the concealing sleeve are centered relative to each other—particularly due to the arrangement described just now.
The centering can be assisted in a particularly effective way by virtue of the fact that in the place where it forms the above-mentioned annular projection 13, which engages behind the concealing sleeve 5, the adapter section 11 is supported from the inside by a supporting section 12 of the neck 4. In this way, this annular projection 13 of the adapter section 11 is caught or even clamped between the inner circumference surface of the concealing sleeve 5 and the outer circumference surface of the supporting section 12.
It is particularly advantageous if in this region in which this annular projection 13 of the adapter section 11 is caught, a permanent anchoring of the concealing sleeve 5 to the adapter ring 8 is provided. This can occur in that the concealing sleeve 5 is pressed-fitted onto this annular projection 13 of the adapter section 11. This is because the annular projection 13 is able to exert the required pressure particularly if it is supported from the inside by the supporting section 12 of the neck 4. To accomplish this, at its free end oriented toward the bottom 7 of the receptacle, the annular projection can be embodied as tapering in a wedge-shaped fashion and can thus form a wedging chock, as can be seen, for example, on close inspection of
Alternatively or in addition, a glued connection can also be provided here. If a glued connection is provided the overlap in the region in which this annular projection 13 of the adapter section 11 is caught will be enlarged to preferably at least 25 mm2 better at least 35 mm2 to have enough area for a firm glue connection. Alternatively or in addition, it is also possible for a detent engagement to be provided. If the concealing sleeve 5 is made of plastic, then for this purpose, in the region that embraces the annular projection 13 of the adapter section 11, it can have an inward-protruding detent bead, which is inserted into a corresponding detent groove of the annular projection, which is not graphically depicted here.
If the concealing sleeve is composed of metal, then it can be locally pressed inward in annular fashion and then in this way, can form a detent groove. On the outside, then, the region that has been pressed inward for the purpose of forming a detent bead gives the appearance of an annular decorative recess.
It is readily apparent that the adapter ring 8—preferably in the region between its passage 9 and said ring—is in turn fastened to the neck 4. Preferably, the adapter ring 8 is affixed to the neck 4 in a form-fitting way. To accomplish this, the neck 4 can have a detent groove 14 that is engaged by detent elements 15 that protrude inward from the inner circumference surface of the adapter ring 8 or by an inward-protruding detent bead.
As is most readily apparent from
As is most readily apparent from the comparison of
The rotation limiter 18 make sense primarily in a screw cap that does not itself have a circular cross-section and that is supported on a receptacle 2 that is enclosed by a non-round concealing sleeve. The rotation limiter 18 then contributes to the fact that for example the neck of the receptacle 2 comes to rest in such a way that the rotation stop or stops 18a embodied on it are precisely positioned so that the screw cap comes to a stop against this when it is positioned correctly.
It is also readily apparent that the neck 4 has an assembly bevel 19, which centers the adapter ring 8 and facilitates the process of sliding it on, before the adapter ring reaches its detent-locked position on the neck 4. It is also readily apparent from
By and large, it can be stated that for this exemplary embodiment, it is essential to the invention that the receptacle 2—except for its neck—is completely accommodated on the interior, which is jointly enclosed by the concealing sleeve 5 and the adapter ring 8, while the neck protrudes freely outward in order to be available there for the direct connection with a cap or closure of any kind, which a user can freely open and reclose again.
In this exemplary embodiment, the concealing sleeve 5 is embodied as longer, preferably so that it overlaps between 25% and 60% of the circumference surface of the neck 4. In the region in which the concealing sleeve 5 overlaps the neck, it is tapered relative to the storage section 3, i.e. in this region, the outer diameter of the neck 4 is already smaller than the outer diameter of the storage section 3. As a result of this, in the course of the insertion of the receptacle 2 into the concealing sleeve 5, an annular open space is formed between the concealing sleeve 5 and the neck 4. In this exemplary embodiment, the adapter ring 8 is slid into this annular space, preferably so that viewed in the direction of the longitudinal axis L, it is completely situated (fully or substantially) between the outer surface of the neck 4 and the inner surface of the concealing sleeve 5.
As has already been described in connection with the first exemplary embodiment, in the region between its passage 9 and its opposite end, the adapter ring 8 is fastened to the neck 4. Here, too, the adapter ring 8 is preferably affixed to the neck 4 in a form-fitting fashion. To this end, the neck 4 can also have a detent groove 14, which is engaged by detent elements 15 that protrude inward from the inner circumference surface of the adapter ring 8 or by an inward-protruding detent bead. To achieve this, the adapter ring 8 simultaneously has a means, e.g. an annular section, with which it embraces an end ring section 16, which is formed by a stepped tapering of the neck, see
By and large, it can be stated for this exemplary embodiment as well that it is also essential to the invention that the receptacle 2—except for its neck—is completely accommodated in the interior, which is jointly enclosed by the concealing sleeve 5 and also partially by the adapter ring 8, while the neck protrudes freely outward in order to be available there for the direct connection with a cap or closure of any kind, which a user can freely open and reclose again.
With regard to this exemplary embodiment, it should be noted that the receptacle 2 here features the fact that it has a uniformly smooth neck section 10 on the outer circumference surface. In other words, the neck section 10 has no threads and no detent elements.
Apart from this fact, this exemplary embodiment differs from the first exemplary embodiment in that the adapter ring 8 is embodied to be longer in the direction of the neck section 10. The adapter ring 8 overlaps the neck section 10 and thus the entire neck completely, ideally so that the neck section 10 and the adapter ring 8 end in the same horizontal plane at the height of the withdrawal opening. In the region that overlaps the neck section 10, the adapter ring 8 here has a threaded section or (not graphically depicted) at least one detent section for attaching a cover in the form of a cap that embraces the outer circumference of the adapter ring 8, as already explained above.
It should especially be noted that the attachment of the adapter ring 8 to the receptacle 2 is carried out as described above for the first exemplary embodiment. The centering between the adapter section 11 and the concealing sleeve 5 is also carried out as described above for the first exemplary embodiment.
A fourth exemplary embodiment of the invention is not graphically depicted. This fourth exemplary embodiment features the fact that the adapter ring 8 is slid into the interstice between the neck 4 and the concealing sleeve 5, as has been described above for the second exemplary embodiment. Apart from this, the adapter ring 8 is embodied as has been described above for the third exemplary embodiment. Unless otherwise required by the specifics described above, the statements made above for the first exemplary embodiment also apply to this fourth exemplary embodiment.
In this case, the concealing sleeve 5 is used to produce a cosmetic receptacle, which is haptically very attractive and round-bellied but which, due to its receptacle 2 that extends like a straight cylinder on the inside, has no “dead volume” that must be unnecessarily filled with cosmetic compound that cannot subsequently be correctly withdrawn by the applicator that has been inserted into the receptacle.
The connection of the receptacle 2 to the concealing sleeve 5 and the adapter ring 8 is similar to that which has been described in conjunction with
There is an optional difference, though. The detent groove 27 or detent element on the inner circumference surface of the adapter ring 8 is embodied in a region of the adapter ring 8, which has a reduced wall thickness and onto the outside of which the concealing sleeve 5 is slid.
This region of the adapter ring 8 can expand quite easily at first and as a result, can undergo a detent engagement with the receptacle 2, which engagement is composed of two detent elements that embrace each other in a manner that is form-fitting to a particularly large degree. By means of the subsequent sliding-on of the concealing sleeve 5, the supporting action of the concealing sleeve 5 prevents the adapter ring 8 from tending to expand in the region of the detent connection. This produces a particularly good detent connection.
With such a receptacle made of film, which gives a cheap appearance, the use of the concealing sleeve according to the invention is particularly advantageous.
The following embodiment is particularly preferable:
A self-supporting, i.e. essentially deflection-resistant, neck section 29a is used, which provides the bottle neck that protrudes outward from the concealing sleeve, usually together with the thread embodied thereon for screwing on the cap, which is not shown in
The neck section 29a is connected to the rest of the receptacle 2, which in this case consists of a bushing 30 that is self-supporting in the above-described way and that is adjoined by a sack-like structure 31 made of flexible film—as a rule by being welded or glued to the bushing 30. In this exemplary embodiment, the bushing 30 is inserted into the bushing opening 32 and preferably detent-locked or otherwise welded or glued. In some variants, the actually advantageous bushing composed of a separate component can be eliminated. Then the sack-like structure 31 is fastened to an integral tubular section of the neck section 29a.
The sack-like structure is preferably made of a film with a wall thickness of between 0.5/10 and 3/10 mm.
As is readily apparent from
In light of the foregoing, the sack-like structure 31 is flexible, i.e. is not by itself able to appreciably or substantially resist forces that seek to squeeze it in the radially inward direction from its completely inflated state.
As is also readily apparent from
It should also be noted that an optional, but very attractive aspect has not yet been expressed in the graphic depictions up to this point.
Ideally, the system according to the invention includes at least one and preferably several concealing sleeves 5, which do not provide any guidance for the receptacle 2. The positioning of the receptacle 2 relative to the concealing sleeve 5 that relates to this instance is ensured entirely by the adapter ring 8. In other words, it is solely or at least predominantly the adapter ring 8 that determines and maintains the positioning of the receptacle 2 relative to the concealing sleeve 5. This permits a considerable degree of freedom for the combination possibilities of the system. As a result, the concealing sleeves can be very freely designed without even having to pay the least consideration to the receptacle 2.
It should also be noted that, as is readily apparent from
a show a particularly advantageous possibility for fastening a concealing sleeve 5 made of metal. In the end region of its mouth oriented toward the adapter ring 8, the concealing sleeve 5 has a reduced wall thickness. At the extreme end, the concealing sleeve 5 is folded inward, i.e. provided with an inner cuff 24. Ideally, the adapter ring is provided with a detent element 25 in the form of a circumferential, annular detent bead or several local detent protrusions. The cuff 24 engages behind this or these in a form-fitting fashion as soon as the concealing sleeve 5 has reached its end position on the adapter ring.
Another optionally provided detail is shown in
Such a fastening by means of the above-mentioned welding can be beneficially employed not only with the use of a metal concealing sleeve 5, but also with the other variants of the concealing sleeves disclosed here. For example, reference is made to
In a way that is likewise applicable to all of the variants described previously,
In a way that is likewise applicable to all of the variants described previously,
In this case, a receptacle is used, whose casing is embodied and dimensioned relative to the concealing sleeve so that during the insertion into the concealing sleeve, it elastically deforms and therefore rests with an elastic prestressing force against a large area—or at least at several points—of the inner circumference surface of the concealing sleeve. In connection with this embodiment, it is particularly advantageous and thus preferable if the circumference surface of the receptacle 2 is embodied as arched—in the sense that the radius of the actual body of the receptacle below its neck is larger in the middle region than at the ends oriented toward the neck and the bottom.
An alternative type of attachment is shown in
The pockets 28 ensure that adhesive can be applied to the receptacle 2 so that it is not completely wiped off when the receptacle 2 is inserted into the concealing sleeve 5, but instead, is conveyed into the interior of the concealing sleeve 5 to a sufficient degree in order to ensure a gluing of the receptacle 2 to the concealing sleeve 5.
In this case, a pocket 28 is preferably embodied so that it does not extend all the way around the receptacle in the circumference direction. In order to be able to ensure this, one or more longitudinal struts can be provided, for example, as identified with the reference numeral 29 in
The cosmetic receptacle according to
Protection also sought for, too, for the following more detailed developments which are disclosed paragraph by paragraph. Said protection is claimed without other features of the claims or of the specification as well as together with other features of existing claims or of the specification.
A cosmetic receptacle system being designed in that the adapter ring has a rotation limiter (18)—preferably embodied in the form of a projection that engages in the receptacle (2) in a form-fitting fashion —, which is embodied so that it ensures that the receptacle (2) can only be installed in a particular position relative to the adapter ring (8) and also permanently retains this position during use.
A cosmetic receptacle system according to the two preceding paragraphs, designed so that the concealing sleeve (5) consists of a ductile material, preferably metal, and in the end region of its mouth (5) that is oriented toward the adapter ring (8), has a decreasing wall thickness, with the concealing sleeve (5) at the end of the end region preferably being provided with an inner cuff (24) and ideally, a detent element (25) is also provided on the adapter ring, behind which this cuff (24) engages in a form-fitting fashion.
A cosmetic receptacle system according to the three preceding paragraphs, designed in that on its end surface oriented toward the bottom end, the adapter ring (8) is provided with a welding projection (26), which preferably narrows toward its end surface.
A cosmetic receptacle system according to one of the four preceding paragraphs, designed in that a receptacle that has a lower caliber than the concealing sleeve is secured in the predefined position inside the concealing sleeve with the aid of the adapter ring (8) and at least one centering ring (27) that is spatially separate therefrom and is inserted into the interstice between the concealing sleeve (5) and the receptacle (2).
A cosmetic receptacle system according to one of the five preceding paragraphs, designed in that the circumference surface of the receptacle (2) is provided with pockets (28) for accommodating adhesive, with each pocket (28) being preferably formed by a region of the receptacle casing, which has a reduced diameter relative to the immediately surrounding regions of the receptacle casing.
A cosmetic receptacle system according to one of the six preceding paragraphs, designed in that a receptacle is used, whose casing is embodied and dimensioned relative to the concealing sleeve so that during the insertion into the concealing sleeve, it elastically deforms and therefore rests with an elastic pre-stressing force against the inner circumference surface of the concealing sleeve.
A cosmetic receptacle system according to one of the seven preceding paragraphs designed in that the receptacle (2) consists of a neck section (29a), which is connected to the rest of the receptacle (2), which consists of an—optionally provided—self-supporting bushing (30) that is adjoined in a fluid-tight fashion by a sack-like structure 31 made of flexible film.
A cosmetic receptacle system according to one of the eight preceding paragraphs, designed in that the bushing (30) is inserted into a bushing opening (32) of the neck section (29a) and is preferably detent-locked or otherwise welded or glued.
A cosmetic receptacle system according to one of the nine preceding paragraphs, designed in that the sack-like structure (31) is fastened to an integral tubular section of the neck section (29a).
A cosmetic receptacle system according to one of the ten preceding paragraphs designed in that the sack-like structure is made of a plastic film with a wall thickness of between 0.5/10 and 3/10 mm.
A cosmetic receptacle system according to one of the eleven preceding paragraphs designed in that the interspace between the receptacle and the concealing sleeve is filled out by a glue or a foam.
A cosmetic receptacle system according to one of the twelve preceding paragraphs designed in that the adapter ring 8 carries at is face side—directed toward the bottom—a welding projection (26) that preferably becomes slimmer in direction to its free face side (see, for example,
A cosmetic receptacle unit consisting of a receptacle (2), a concealing sleeve (5), and an adapter ring (8) according to one of the preceding thirteen preceding paragraphs.
Number | Date | Country | Kind |
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202017107731.4 | Dec 2017 | DE | national |
202018105591.7 | Sep 2018 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2018/085919 | 12/19/2018 | WO |
Publishing Document | Publishing Date | Country | Kind |
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WO2019/121967 | 6/27/2019 | WO | A |
Number | Name | Date | Kind |
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6371334 | Lombardi | Apr 2002 | B1 |
7661563 | De Lataulade | Feb 2010 | B2 |
8074839 | Ronsin | Dec 2011 | B2 |
8807857 | L'Abbate | Aug 2014 | B2 |
20120279876 | Weigel | Nov 2012 | A1 |
20190350342 | Mathiez | Nov 2019 | A1 |
Number | Date | Country |
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H07315414 | Jul 1995 | JP |
3496045 | Feb 2004 | JP |
Number | Date | Country | |
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20210106117 A1 | Apr 2021 | US |