FR2944680A1 - Extrusion container for extruding and utilizing e.g. lipstick, has movable body pushed back to exert suction action inside filling element due to return movement of piston while maintaining glued state of piston and object through sealant - Google Patents

Abstract

The container (100) has a stick object (M) loaded in a tubular filling element (1). An extrusion part i.e. piston (7), is placed at level of an anterior end (1a) of a movable body (6), and glued against interior of the filling element. The body is pushed back to exert a suction action inside the filling element due to return movement of the piston while maintaining glued state of the piston and the object through a sealant (1000). The object is retracted inside the filling element. The sealant is composed of liquid oily compounds and liquid polyol, and placed between the object and the piston.

Description

- 1 - CONTAINER OF EXTRUSION OF OBJECT IN STICK AND COSMETIC PRODUCT

TECHNICAL FIELD The present invention relates to a stick object extrusion vessel for extruding and using a stick object, as well as a cosmetic product.

PRIOR ART In the case of cases for cosmetic products in baton, the model is known which comprises a cylindrical sheath open at both ends, a cylindrical actuating part coupled to this sheath with relative rotational capability and impossibility of axial displacement, an inner casing cylindrical mounted with impossibility of rotation and axial displacement capability inside the posterior half of the sheath, and a stick cosmetic product shaped by direct loading into the sheath, from the posterior end thereof, in a configuration where the inner case has been mounted in the sheath and a cap has been mounted at the anterior end of said sheath, and wherein, when the sheath and the operating portion are rotated relative, the inner case forward / backward relative to the sheath and the cosmetic product in stick out / enters through the anterior end of the sheath (see, for example, Patent Document 1) - 2 - Patent Document 1 Unexamined Japanese Patent Application Publication 2001-87033.

DISCLOSURE OF THE INVENTION Problem The cases for cosmetic products thus formed have the disadvantage that, in the event of shock or subsequent vibration, for example, when the case is dropped, the cosmetic product separates from the inner case and detaches from the holster. To remedy this problem, the Applicant had previously proposed a stick object extrusion container characterized in that it remembers the stick object by a suction action due to the recoil of an extrusion part. piston shape (Japanese Unexamined Patent Application Publication 2008-43591). However, his own studies have shown that it may happen that the recall of the stick object is only partial when the container is used in low winter conditions. The object of the invention is therefore to provide a stick object extrusion container which performs without difficulty the exit and retraction of stick objects such as cosmetics stick, which is able to avoid detachment the object stick stick of the container in case of external stresses such as shocks or vibrations, and which reduces the risk of defects in retraction of the object stick, including low temperature 3o, and a cosmetic product who uses this container. - 3 - Solution Provided The stick object extrusion container according to the invention is a stick object extrusion container which comprises a tubular filling member mounted in the container and open at both ends and an object of the invention. stick loaded in the filling member, wherein, when an anterior portion of the container and a rear portion of the container, the latter having relative rotation relative to the front portion, are rotated relatively in a first direction a moving body arranged inside the container advances and pulls the stick object out of the anterior terminal opening of the container, and wherein, when the front part of the container and the rear part of the container are set in relative rotation. in another direction, which is the opposite direction of said first direction, the movable body moves back, which container is characterized in that a piston-shaped extrusion portion, e at the anterior end of the movable body, glued against the inside of the filling and sliding element, is disposed inside the container, the stick object is loaded so as to stick against the inside of the filler, a sealant, which contains one or more components selected from liquid oily compounds at room temperature and liquid polyols at room temperature and whose viscosity at 5 ° C is less than or equal to 1 300 000 mPa.s, is interposed between the stick object and the extrusion portion, and in that the backing of the movable body causes a suction action due to the recoil of the part the extrusion part and the stick object are maintained by means of the sealing agent, inside the filling element and that the stick object is recalled inside the element of filling. In a stick object extrusion container constituted as described above, since an extrusion portion is placed at the anterior end of a movable body itself arranged inside of the container and advancing / retreating, that this extrusion part is glued against the inside of a filler, that a stick object loaded in the filler is glued against the inside of the filler element. filling, and that the extrusion portion is in the form of piston and glued against the stick object inside the filling member, it follows that, on the one hand, as and when advanced extrusion part, the stick object is pushed and out through the front end opening of the container, and secondly, as the recoil of the extrusion part, an action of vacuum suction is exerted between the extrusion part and the stick object (action tending to to hold the gluing) and the stick object is returned inside the filler, so that the exit and retraction of the stick object can be accomplished without difficulty. In addition, when external stresses such as shocks or vibrations are exerted and tend to remove the extrusion portion and the stick object, a state of depression is established and a sticking action is exerted , which prevents the concretion of the spacing of the stick object and the extrusion portion and avoids the detachment of the stick object of the container. In addition, as indicated above, since the object stick (for example, among the standard stick objects, those that are particularly soft and prohibit any molding (for example, those having a consistency of jelly or foam) ) sticks against the inside of the filling element, even if the stick object breaks inside the filling element, the broken part does not separate from the filling element and the product remains usable. In addition, the interposition of a sealing agent, constituted as described above, between the extrusion part and the stick object makes it possible to satisfactorily avoid the defects of retraction of the object in a stick. , including at low temperatures. The applicant advances the following reason to explain this effect of the invention. It considers first that the re-entry defects are due to the fact that, the object in stick contracting at low temperature (in particular below 5 ° C), it appears between said object in stick and the extrusion part , voids in which air is trapped, causing a weakening of the suction action. She then estimates that the sealant improves the re-entry capability at low temperatures by preventing formation of these voids. On the other hand, in the stick object extrusion vessel according to the invention, the viscosity at 5 ° C of the sealing agent is preferably between 4000 and 1000 000 mPa.s. The choice of the viscosity between these limits facilitates the realization of a homogeneous loading of the sealing agent in a determined position inside the filling element, and makes it possible more surely to prevent re-entry defects. at low temperature and the risk of seepage of the sealant between the stick object and the filler. With the case for a cosmetic product in a stick described in patent document 1, in the case of external stresses such as shocks or vibrations, since the posterior end face of the cosmetic product in a stick is opened backwards through the cylindrical inner casing, no action of gluing by depression effect is exerted between the cosmetic product stick and the inner casing, so that the cosmetic product stick easily separates from the inner casing. In the present invention, in a preferred configuration, when the front part of the container and the rear part of the container are rotated relatively in the first direction, the moving body advances, and when the front part of the container and the rear part of the container are set in relative rotation in the other direction, the moving body reached an arbitrary advanced position moves back a given distance and stops. With this configuration, when the front part of the container and the rear part of the container are rotated relative in the other direction, the moving body reached an arbitrary forward position moves back a given distance and stops, this is that is to say, it does not fall back beyond a given distance, which makes it possible to avoid an excessive return of the moving body which would be translated, at the following use, by a difficulty, for the stick object, to go out beyond the opening of the container, and thus improves the maneuverability (ease of use). On the other hand, in a preferred configuration, a first screwed engagement portion and a second screwed engagement portion are provided within the container; when the front part of the container and the rear part of the container are rotated relatively in the first direction, the movable body advances under the combined action of the screwing of the first screwed engagement portion and the second screwed engagement portion ; when the first screwed engagement portion has reached a determined tightening level, its screwing disengages; when the relative rotation continues in the first direction, the moving body advances under the action of the only screwing of the second screwed engagement portion. With this configuration, the double helix structure, embodied by the first and second screw-engaging parts, makes it possible to guarantee the length of the stick object while limiting the axial length of the object extrusion container in a stick. This configuration also makes it possible to rapidly advance the movable body under the combined action of the first and second screwed engagement parts, and then, once it has advanced a given distance, to advance it slowly under the action of the only screwing of the second portion of screwed engagement, so that there is no risk of inadvertently leaving an excessive portion of the object stick. In another configuration, a first screwed engagement portion and a second screwed engagement portion are disposed within the container; when the front part of the container and the rear part of the container are rotated relative in the other direction, the movable body retreats under the combined action of the screwing of the first screwed engagement portion and the second engagement portion screwed; when the first screwed engagement portion has reached a determined tightening level, its screwing disengages; when the relative rotation continues in the other direction, the movable body retreats under the action of the only screwing of the second screwed engagement portion. With this configuration, the double helix structure, embodied by the first and second screw-engaging parts, makes it possible to guarantee the length of the stick object while limiting the axial length of the object extrusion container in a stick. This configuration also makes it possible to rapidly move the moving body back under the combined action of the first and second screwed engagement parts, and then, once it has retracted a given distance, to slowly move it back under the action of the only screwing of the second part of screwed engagement.

On the other hand, a preferred configuration is to load the stick object into the filler and then mount in the container the filler loaded with the stick object. With this configuration, since the stick object is loaded exclusively into the tubular filler element, open at both ends, the thickness of the filler element is relatively uniform, the size of the object in the radial direction is constant in the axial direction and it is possible to stabilize the temperature conditions from the loading of the stick object in the molten state until it solidifies, with the possibility of making a good filling of the object in stick and improve the manufacturing efficiency. In addition, this configuration of mounting in the container the filling element loaded with the stick object makes the manufacture easy. In this case, it is possible to load the sealant over the charged stick object in the filler. Another preferred configuration is to load the stick object into the filling element already mounted in the container. With this configuration, as before, since the stick object is loaded exclusively in the tubular filling element, open at both ends, it is possible to perform a good filling of the stick object and to improve the manufacturing efficiency; in addition, this configuration of loading the stick object into the filler already mounted in the container makes the manufacturing even easier. In this case, it is possible to load the sealant into the filler and spread it over the extrusion portion before loading the stick object. On the other hand, the filler element is preferably made of a transparent material. It then becomes possible to check from outside the state of the stick object loaded in the filler. In addition, the present invention provides a cosmetic product which comprises a stick object extrusion container according to the invention and a cosmetic product loaded as a stick object.

Effects of the invention Thus, with the present invention, it becomes possible to execute without difficulty the exit and the re-entry of the object in stick, to avoid the detachment of the object in stick of the container in the event of external sollicitations such as shocks or vibrations, and continue to use a stick object that is broken. In addition, it becomes possible, among the common stick objects, to use those which are particularly soft and which prohibit any molding. In addition, it becomes possible to satisfactorily avoid the re-entry defects of the stick object at low temperature.

BEST EMBODIMENT OF THE INVENTION A preferred embodiment of the stick object extrusion container according to the invention is set forth here with reference to FIGS. 1 to 4. In these drawings, the same nomenclature will be retained for the identical parts. and we will refrain from any redundant description. Figures 1 to 4 are longitudinal sectional views showing different configurations of a stick object extrusion container according to one embodiment of the invention; this stick object extrusion container encloses a stick object which it is able to extrude under the effect of a suitable maneuver of the user. As a stick object, it is possible to use here, for example, any cosmetic stick product such as a lipstick, a lip gloss, an eyeliner, an eyeshadow, an eyebrow, a lip contour, a blush, concealer, a beauty stick or a hair dye, or a mine-stick for example a writing instrument; in particular, it is advantageous to use a very soft stick object (with a semi-solid, soft solid, soft, jelly or foam consistency) because of the sticking effect which it makes it possible to develop with respect to to the piston 7 or to the filling element 1 described below. It is possible to use a thin stick object with an outside diameter of less than 1 mm or a thick stick object larger than 10 mm in diameter. As shown in FIG. 1, the stick object extrusion container 100 comprises, as the outer structure, a tubular filler 1 open at both ends and a body-tube (body) 3 whose anterior part receives the rear part of the filling element 1 and coupled to said filling element 1 with relative rotation capability and impossibility of axial separation; the front part of the container is formed by the filling element 1 and the rear part of the container is formed by the tube-body 3. The stick object extrusion container 100 30o schematically comprises, inside, a stick object M which is loaded in the filling element 1, a threaded tube 4 which is coupled to the tube-body 3 with synchronous rotation capability and impossibility of axial separation, a rotation element 10 which is coupled to the filling element 1 with synchronous rotation capability and impossibility of axial separation, an intermediate element 11 which on the one hand is coupled to the tube-body 3 with synchronous rotation capability and impossibility of axial separation, and secondly resiliently presses on the rotation member 10 in the axial direction and is rendered inseparable in the axial direction, a movable threaded tube 5 which on the one hand is engaged with the rotational member 10 with rotational capability; synchronous arrangement and axial displacement, and on the other hand is engaged with the threaded tube 4 via a first screwed engagement portion 8, wherein when the filling element 1 constituting the front part of the container and the tube-body 3 constituting the rear part of the container are rotated relatively in the direction of exit, which is the first direction, a moving body 6 advance, this advance stopping when the movable body has reached a limit of determined advance, and wherein, when the filling member 1 and the tube-body 3 are rotated relatively in the re-entry direction, which is the opposite direction of the first direction, the movable body 6 retreats, this recoil s stopping when the movable body has reached a determined setback limit, said movable body 6 being on the one hand meshing with the tube-body 3 with synchronous rotation and axial displacement capability, and secondly meshing with the tube f mobile member 5 via a second screw-engaging portion 9, and wherein, when the filling member 1 and the body-tube 3 are rotated relative in the first direction, the body mobile 6 advance, not only accompanying the movable threaded tube 5 but also individually, so that when the movable threaded tube 5 has reached its forward limit and that the relative rotation in the same direction of the filling member 1 and tube-body 3 continues, the moving body advances individually, and wherein, when the filling member 1 and the body-tube 3 are rotated relative in the other direction, the movable body 6 back, not only accompanying the movable threaded tube 5 but also individually, so that when the movable threaded tube 5 has reached its limit of recoil, the recoil stops for the movable threaded tube 5 and a piston (pi-shaped extrusion part ston) 7, which is mounted on the forward end of the movable body 6, fits and slides within the filler element 1. In addition, the stick object extrusion container 100 comprises a sealant 1000 which is interposed between the stick object m and the piston (piston-shaped extrusion portion) 7. The sealant 1000 consists of a sealant according to the invention which contains a or a plurality of components selected from liquid oily compounds at room temperature and liquid polyols at room temperature and whose viscosity at 5 ° C is less than or equal to 1,300,000 mPa.s.

For oily compounds which are liquid at room temperature, mention may be made of those which are commonly used in cosmetic products. Can be used, for example, regardless of their origin including plant or synthetic, hydrocarbons, fats, hydrogenated oils, ester oils, fatty acids, higher alcohols, silicone oils, fluorinated oils or derivatives of lanolin. As concrete examples of these oily compounds which are liquid at room temperature, there may be mentioned in particular: hydrocarbons such as liquid paraffin, squalane, polyisobutene, polybutene; fats such as olive oil, castor oil, jojoba oil, macadamia oil; ester oils such as cetyl isooctanoate, isopropyl myristate, isopropyl palmitate, octyldodecyl myristate, glyceryl trioctanoate, polyglyceryl diisostearate, diglyceryl triisostearate, glyceryl tribeosteate, neopentyl glycol dioctanoate, cholesterol fatty acid esters, di (cholesteryl / octyldodecyl) N-lauroyl-L-glutamate; fatty acids and higher alcohols such as isostearic acid, oleic acid, lauryl alcohol, oleyl alcohol, isostearyl alcohol, octyldodecanol; silicone oils such as low molecular weight dimethylpolysiloxanes, high molecular weight dimethylpolysiloxanes, methylphenylpolysiloxanes, polyether modified polysiloxanes, polyoxyalkylene / alkylmethylpolysiloxane / methylpolysiloxane copolymers, alkoxy modified polysiloxanes, modified polysiloxanes; fluorine; fluorinated oils such as perfluorodecane, perfluorooctane, perfluoropolyethers; lanolin derivatives such as liquid lanolin, lanolin alcohol. It is possible to use one or to mix several of these species of liquid oily compounds. For the liquid polyols, mention may be made, for example, of polyols such as ethylene glycol, diethylene glycol, propylene glycol, dipropylene glycol, 1,3-butanediol, 1,4-butanediol, glyceryl monoacetate, glycerol, triglycerol, hexaglycerol and decaglycerol. It is possible to use one or to mix several of these polyol species. The sealant 1000 may contain a combination of one or more species selected from these liquid oily compounds and liquid polyols. The viscosity at 5 ° C of the sealant 1000 should not exceed 1,300,000 mPa.s in order to satisfactorily limit low temperature re-entry defects. It is preferably between 4,000 and 1,000,000 mPa.s. The choice of the viscosity between these limits facilitates the homogeneous loading of the sealant into a determined position within the filler, and more reliably prevents back-flop defects. temperature and the risk of seepage of the sealant between the stick object and the filler. As a stick object loaded into the stick object extrusion container according to the invention, there may be mentioned, as indicated above, any cosmetic stick product such as a lipstick. , a lip gloss, an eyeliner, an eyeshadow, an eyebrow, a lip contour, a blush, a concealer, a beauty stick or a hair dye, or a stick for example of a writing instrument; in particular, the present invention is able to advantageously provide a cosmetic product which comprises the above-mentioned stick object extrusion container and one of the aforementioned cosmetic products, loaded as a stick object.

Examples of Implementation The present invention will appear more clearly on reading exemplary embodiments, it being understood that these examples are in no way limiting.

Preparation of a Stick Object-forming Composition The lipstick-forming composition of the following formula is prepared as a composition for loading into a stick object extrusion container and forming an object. in stick. - 17 - Lipstick forming composition Formula% by weight 1. Polyethylene 4.00 2. Vaseline 25.00 3. Hydrogenated polyisobutene 30.00 4. Polybutene 3.00 5. Squalane 2.00 6. Macadamia oil 15.00 7. Tocopherol 0.02 8. Diisostearyl malate 14.24 9. Simethicone 0.02 10. CI 15850 (Lithol Rubine BCA) 0.12 11. Titanium oxide 0.59 12. Iron Oxide (red) ) 0.50 13. CI 19140 0.60 14. Sodium calcium borosilicate 2.91 15. Silica silylate 2.00 Preparation process Melts by heating, mixing and dispersing ingredients 1 to 9, then add ingredients 10 to 13 and 15 and disperse them to the cylinder. Ingredient 14 is then mixed to obtain the lipstick-forming composition.

Manufacture of Cosmetic Products Examples of Implementation 1-21, Comparative Examples 1-7 Stick object extrusion containers are prepared in the configuration of FIG. 1 (inner diameter of the filler element: 7, 6 mm).

0.1 ml of each of the sealing agents, the compositions of which are given in Tables 1 and 2, are loaded into these containers. The prepared lipstick-forming composition is then poured at 75.degree.-90.degree. as described above in the various containers filled with sealant and solidified by cooling in order to make cosmetic products (lipsticks). The viscosity at 5 ° C of the sealants is measured using a Viscoanalyser VAR-50 (Reologica) under the following conditions: measurement after holding the agent for 30 seconds at 5 ° C, shear rate : 4.0 s-1, plate diameter: 25 mm, spacing: 1 mm. The performance of these cosmetics in terms of the ease of loading of the sealant at the time of manufacture, the ability to retract the stick object at low temperature is evaluated by the methods described below. (5 ° C) and seepage tendency of the sealant. The results are reported in Tables 1 and 2.

Ease of loading the sealant The spreading of the sealant is visually checked once it has been loaded into the filler, and the ease of loading is evaluated according to the following scale. fast and even spreading O: quite long spread to be established A: slightly insufficient spreading 5: insufficient spreading - 19 - Retraction capacity of the object in a stick at a low temperature The cosmetic product is stored for at least 2 hours in an incubator at 5 ° C, then, as soon as it is removed from the incubator, the operation of taking out the stick object of 10 mm and pulling it in is carried out 5 times in a row. At the end of the test, the return distance of the stick object from its initial position is measured and the re-entry capacity is evaluated according to the following scale. •: return gap <0,5 mm ^ 0,5 mm <- return difference <2,0 mm: 2,0 mm <_ return difference <4,0 mm 5: return difference> - 4,0 mm Sealing tendency of the sealing agent The operation is carried out 5 times in a row to remove the object in stick of 10 mm and to return it, then one checks visually a possible oozing of the sealant between the filling element and the object in a stick, and the tendency to ooze is evaluated according to the following scale. absence of seepage, minimal seepage A: oozing of a level affecting the cosmetic properties 5: very heavy oozing The following references are used for the components of Tables 1 and 2. - 20 - Concentrated glycerol: Keshôyô-nôguriserin (trade mark of the Kao company, liquid at room temperature (25 ° C)). Macadamia oil: Cropure Macadamia (trade mark 5 from Croda Japan, liquid at room temperature (25 ° C)). Isostearic acid: Isosutearinsan (trademark of Nissan Chemical Industries, liquid at room temperature (25 ° C)). Glyceryl tri-2-ethylhexanoate: Myritol GTEH (trademark of Cognis Japan, liquid at room temperature (25 ° C.)). Glyceryl triisostearate: TISG (trademark of Kokyu Alcohol Kogyo, liquid at room temperature (25 ° C)). Polyglyceryl triisostearate: DG Oil IS-213P (trademark of the company National Mimatsu, liquid at room temperature (25 ° C)). Diisostearyl malate: Cosmol 222 (commercial brand of Nisshin OilliO Group, liquid at room temperature (25 ° C)). Heavy liquid isoparaffin A: Parleam 18 (trademark of NOF Corporation, liquid at room temperature (25 ° C)). Heavy Liquid Isoparaffin B: Parleam 24 (trademark of NOF Corporation, liquid at room temperature (25 ° C)). Heavy liquid isoparaffin C: Parleam 46 (trademark of NOF Corporation, liquid at room temperature (25 ° C)). Methylpolysiloxane A: K F-96A-10cs (trademark of Shin-Etsu Chemical, liquid at room temperature (25 ° C)). Methylpolysiloxane B: K F-96-1000cs (commercial trademark of Shin-Etsu Chemical, liquid at room temperature (25 ° C)). Methylpolysiloxane C: K F-96-3000cs (trademark of Shin-Etsu Chemical, liquid at room temperature (25 ° C)). High Molecular Weight Methylpolysiloxane A KF-96A-5000cs (trademark of Shin-Etsu Chemical, liquid at room temperature (25 ° C)). High Molecular Weight Methylpolysiloxane B KF-96H-10000cs (trademark of Shin-Etsu Chemical, liquid at room temperature (25 ° C)). Methylpolysiloxane of high molecular weight C KF-96H-50000cs (trademark of Shin-Etsu Chemical, liquid at room temperature (25 ° C)). Dextrin palmitate: Rheopearl KL2 (commercial brand of Chiba Flour Milling Company). Silylated silicic anhydride: Aerosil R974 (trademark of Nippon Aerosil). Aqueous solution of carboxyvinyl polymer aqueous solution containing 1.2% by weight of Aqupec HV-505E (commercial brand of Sumitomo Seika Chemicals). Vaseline: SunWhite P-150 (trademark of Nikko Rica Company, semi-solid at room temperature (25 ° C)). Dipentaerythritol fatty acid ester Cosmol 168ARV (trademark of Nisshin OilliO Group, semi-solid at room temperature (25 ° C)). Table 1 Example of Composition of Agent 1 Viscosity Consistency Efficiency Capacity to Achieve Sealing at 1 Ambient at 5 ° C Recoil Loading Ointment (25 ° C) (mPa. $) At 5 ° C 1 Glycerol Concentrate Liquid 5,791 O OO O 2 Macadamia oil Liquid 176 OO 0 3 Isostearic acid Liquid 10 922 OOO 4 Tri-2-ethylhexanoate Liquid 105 OO 0 glyceryl Mixture of tri-2-liquid 353 OO 0 glyceryl ether and polyglyceryl triisostearate (weight ratio 1: 1) 6 Liquid triisostearate 590 OO 0 glyceryl 7 Liquid triisostearate 1 680 OO 0 polyglyceryl NN) i 8 Liquid mixture 3,720 OO 0 polyglyceryl triisostearate and diisostearyl malate (1: 1 weight ratio) 9 Malate Liquid 35 758 000 diisostearyl Isoparaffin Liquid Liquid 132 580 OOO Heavy A 11 Liquid Isoparaffin Liquid 651 930 OOO Heavy B 12 Mixture of Isoparaffin Liquid 904 570 OOO Heavy Liquid A and Isoparaffin Dil heavy use C (1: 1 weight ratio) 13 Methylpolysiloxane A Liquid 12 OO 0 14 Methylpolysiloxane B Liquid 1,578 OO 0 Methylpolysiloxane C Liquid 4,639,000 16 Liquid Methylpolysiloxane 7,664,000 High Molecular Weight A 17 Liquid Methylpolysiloxane 16,166,000 Mass High Molecular Weight B 18 Liquid Methylpolysiloxane 81 854 000 High Molecular Weight C 19 98% Liquid Mixture 6,374,000 Weight Polyglyceryl Triisostearate and 2% by Weight Dextrin Palmitate 98% Liquid Blend 61,138,000 Wt. diisostearyl malate and 2% by weight of silylated silicic anhydride 21 Isoparaffin mixture Liquid 1 268 700 0 0 heavy liquid B and heavy liquid isoparaffin C (weight ratio 1: 1) Table 2 Example Composition of the agent of Consistency Viscosity Efficiency Ability of Trend at Compared Sealing at 1 Ambient at 50C Return Loading Comparative Oozing (25 ° C) (mPa. $) At 5 ° C 1 Without sce agent - - - 5 - 2 Purified Water Liquid - O 5 5 3 Isoparaffin Blend Liquid 1 744 700 Q heavy liquid B and heavy liquid isoparaffin C (1: 2 weight ratio) A 4 Liquid isoparaffin Heavy liquid C 2 948 800 A 5 Aqueous solution of liquid 1,185 A 5 carboxyvinyl polymer 6 Vaseline Serum oil 300 160 Q 5 solid 7 Fatty acid ester of semisoluble oil A 5 measurable solid dipentaerythritol - 26 - As shown in Tables 1 and 2, the lipsticks of Exemplary Embodiments 1 to 21 are characterized by excellent stick-inability at low temperature (5 ° C). In particular, those prepared with a sealant which contains one or more components selected from oily compounds liquid at room temperature and liquid polyols at room temperature and whose viscosity at 5 ° C is between 4,000 and 1,000 000 mPa.s achieves a high level of performance in all respects - ease of loading of the sealant at the time of manufacture, ability to retract the object at a low temperature (5 ° C) and tendency to seepage of the sealant.

Brief Description of the Drawings Figure 1 is a longitudinal sectional view showing the initial configuration of a stick object extrusion container according to a first embodiment of the invention. Figure 2 is a longitudinal sectional view showing the moment when, starting from the configuration of Figure 1, the cap has been removed and the movable threaded tube and the movable body have advanced under the effect of a maneuver of the user . 3 is a longitudinal sectional view showing the moment when, after the stick object has been used by the user in the configuration of FIG. 2, the mobile threaded tube and the mobile body have moved back and the mobile threaded tube has receded to its limit of recoil under the effect of a maneuver of the user. - 27 - Figure 4: longitudinal sectional view showing the moment when, starting from the configuration of Figure 2, the moving body has advanced to its maximum limit under the effect of a maneuver of the user.

Legends 1: filling element (front part of the container), the: front end opening of the container, 3: tube-body (rear part of the container), 6: moving body, 7: piston (extrusion part), 8: first screwed engagement portion, 9: second screwed engagement portion, 100: sticked object extrusion container (container), 1000: sealant, M: stick object.

Claims (3)

REVENDICATIONS1. A sticky object extrusion container 100 which comprises a tubular filler 1 mounted in the container 100 and open at both ends and a stick object M loaded into the filler element 1, wherein when a part former 1 of the container 100 and a rear portion 3 of the container 100, the latter having rotational faculty relative Io relative to the front portion 1, are rotated relative in a first direction, a movable body 6 arranged inside of the container 100 advances and pulls the stick object M through the front end opening 1a of the container 100, and wherein, when the front portion 1 of the container 100 and the rear portion 3 of the container 100 are rotated relative to each other. in another direction, which is the opposite direction of said first direction, the movable body 6 moves back, characterized in that a piston-shaped extrusion portion 7, placed at the front end of the movable body 6, glued against the inside of the filling element 1 and sliding, is disposed inside the container 100, in that the stick object M is loaded so as to stick against the inside of the container. the filling element 1, in that a sealant 1000, which contains one or more components selected from liquid oily compounds at room temperature and liquid polyols at room temperature and whose viscosity at 5 ° C is lower or equal to 1,300,000 mPa.s, is interposed between the stick object M and the extrusion portion 7, and in that the rolling body 6 is moved backwards suction operation due to the retraction of the extrusion portion 7 is exerted, with maintenance of the bonded state of the extrusion portion 7 and the stick object M, through the sealing agent 1000, inside the filling element 1 and that the object in stick M is recalled inside of the filling element 1. The stick object extrusion vessel 100 according to claim 1, wherein the viscosity at 5 ° C of the sealant 1000 is between 4000 and 1000 000 mPa.s. 3. Cosmetic product, which comprises a stick object extrusion container 100 according to claim 1 or 2 and a cosmetic product loaded as a stick object M.