This application is a 35 USC 371 U.S. national stage tiling of International Patent Application No, PCT/FR2012/051400 filed on Jun. 20, 2012, and claims priority under the Paris Convention to French Patent Application No, FR 11 55510 filed on Jun. 22, 2011.
The invention concerns the field of methods and machines for attaching a stick of lipstick to a lipstick dispenser.
A stick of lipstick conventionally consists of a paste of cosmetic product which the user can apply by pressing it against her lips. The end of the stick which is placed against the lips is generally contoured for lips. The opposite end of the stick is often nested inside a receptacle of the dispenser. The receptacle is sometimes called a “cup,” the stick of lipstick is called a “bullet,” and the process of attaching the bullet inside the cup is called “nesting” the bullet.
In the case of a stick of lipstick made of soft paste, nesting it inside the cup requires exerting pressure on the end intended for the user's lips. The nesting force exerted can deform this end, which is undesirable.
In the case of a stick of lipstick made of hard paste, the position of the stick of lipstick relative to the dispenser may vary after insertion, which is undesirable.
Patent DE 900 544 therefore describes injecting a stream of compressed air in order to propel the stick to its nested position.
The aim of the invention is to overcome at least one of the above disadvantages.
A first aspect of the invention concerns a method for attaching a stick of lipstick to a dispenser, the stick comprising a distal end intended for the lips, the dispenser comprising a receptacle having an insertion opening adapted to fit with a proximal end of the stick. The method comprises:
Because of the negative pressure, the force that must be exerted on the lip-application end of the stick can be reduced or even eliminated. Instead of being pushed, the stick of lipstick is partially or completely drawn in via the negative pressure created in the receptacle. Retention of the stick in the receptacle is established by the adapted insertion opening. It is thus possible to assemble sticks of lipsticks of softer paste than are usable with traditional attachment methods, or to assemble sticks of lipsticks having more fragile contoured ends, or to obtain better positional regularity for sticks of lipsticks of harder paste.
Advantageously, the receptacle comprises a bottom which the bullet is brought against by the exerted suction.
Advantageously, the method comprises a molding step in which the stick of lipstick is molded, the nesting step being preceded by a step of unmolding an area at the proximal end of the stick.
Advantageously, the stick is supplied within a shell having a deformable wall (the shell for example being part of a stick mold), and simultaneously with establishing a negative pressure inside the receptacle, negative pressure is created by a vacuum pump on the shell in order to release the stick from it.
Advantageously, a receptacle is used which has an internal area communicating with the outside via the insertion opening and via a port, an annular wall of the receptacle extending between the insertion opening and the port. The method comprises:
Advantageously, the annular wall has the same inside profile, adapted to fit to the stick, as the insertion opening, so that the stick is kept aligned with the axis of insertion.
In one variant, the nesting step includes a step of adjusting the position of the stick of lipstick within the receptacle of the dispenser by creating, within the receptacle, positive pressure or negative pressure relative to the atmospheric pressure.
Another aspect of the invention relates to a method for assembling a lipstick dispenser, comprising a step of preassembling the receptacle with an actuation mechanism of the dispenser, one of the above methods for attaching the stick of lipstick, and subsequent to the attachment of the stick of lipstick, a step of assembling the actuation mechanism with a decorative shell.
Advantageously, the decorative shell can be assembled away from the stick of lipstick attachment machine. This reduces the risk that the decorative shell will be scratched.
In yet another aspect, the invention concerns a machine for attaching stick of lipstick to a dispenser, the stick comprising a distal end intended for the lips, the dispenser comprising a receptacle having an insertion opening adapted to fit with a proximal end of the stick. The machine comprises:
Advantageously, the device for creating a negative pressure in the receptacle comprises a chamber connected to a vacuum pump and a device for establishing a substantially fluid-tight connection of the chamber to the dispenser receptacle.
In a variant concerning the assembly of dispensers comprising an actuation mechanism, the chamber is able to receive at least part of the actuation mechanism.
In a variant concerning the assembly of dispensers comprising an actuation mechanism equipped with a body within which the receptacle slides axially between a retracted position and a protruding position, said body being adapted to fit with the receptacle in the protruding position; said machine comprising a device for establishing a substantially fluid-tight connection of the chamber to the body. Thus the substantially fluid-tight connection between the receptacle and the chamber involves the body of the actuation mechanism fitting with the receptacle and includes the substantially fluid-tight connection of the chamber to the body of the mechanism.
Advantageously, the machine comprises a stick of lipstick molding station having a removable spacer intended for molding the proximal end of the stick and a controllable arm for extracting the removable spacer.
Advantageously, the molding station comprises a wall of deformable material delimiting a mold cavity, an outside cavity surrounding the deformable wall, and a means for creating a vacuum in the outside cavity.
The invention will be better understood by referring to the following detailed description of a few embodiments provided as non-limiting examples and illustrated by the accompanying drawings in which:
As illustrated in
The molding station 5 comprises a frame 7 which houses a shell having a wall 8 of deformabie material such as an elastomer, particularly silicone.
A mold spacer 9 is also housed in the frame 7, above the deformable wall 8. The spacer 9 and the deformable wall 8 together form a mold cavity 10 into which a cosmetic product that will constitute the stick of lipstick 2 is poured. The cosmetic product fills the entire internal hollow 10a of the deformable wall 8 as well as filling several millimeters of a hole 10b through the spacer 9.
Advantageously, the machine 1 can comprise a plurality of upper stations 4 mounted on a machine rotating about an axis 4a and a plurality of molding stations 5 mounted on a machine rotating about an axis 5a parallel to and at a distance from axis 4a. It is thus possible to introduce the dispenser 3 into an upper station 4 before said station is aligned along axis 11 with one of the molding stations 5.
An extraction arm 12 is able to move axially to extract the spacer 9 from the frame 7 and thus disengage the upper end 2a of the stick of lipstick 2.
As illustrated in
The molding station 5 also comprises an outside cavity 36, extending outside the shell having a deformable wall 8, and connected to a vacuum pump 37.
The upper station 4 will now be described. It is equipped with a retaining head 14 sliding axially within a holder 17 due to the action of the actuator head 6 and a return spring 28. The retaining head 14 has a housing which holds an actuation mechanism 16 of the dispenser 3. The actuator head 6 may be equipped with a spacer 40 which allows the upper station 4 to adjust to different heights of the actuation mechanism 16.
The actuation mechanism 16 comprises a body 18 of the dispenser, a receptacle 19, and a drive hub 20. The receptacle 19 comprises an annular wall 19a and a bottom 19b in which a port 19c is arranged. The receptacle 19 also comprises a rear apron 21 having a radially external spur 22 sliding in a helical groove 23 of the body 18 of the dispenser. The helical groove 23 may be a through groove which traverses the wall of the body 18 or may be a blind groove. The rear apron 21 also comprises ribs 24 extending longitudinally along the rear apron 21 and projecting radially inwards, towards the inside of the rear apron 21. The drive hub 20 has a circular rear groove 25 cooperating with the body 18 of the dispenser so as to be rotatably movable and translationally fixed relative to the body 18 of the dispenser. The drive hub 20 also comprises longitudinal grooves 26 adapted to fit with the longitudinal ribs 24 of the rear apron 21. Thus, when the drive hub 20 rotates, the receptacle 19 moves in a spiral along the helical groove 23. This allows the annular wall 19a and the bottom 19b to change from the “protruding” position illustrated in the figures to a “retracted” position.
As illustrated in
The actuator head 6 and the adjusting spacer 40 comprise a channel 30 connected to a vacuum pump 31, and a toroidal gasket 32 surrounds the channel 30.
In a variant, the gasket 32 can establish a fluid-tight seal between the adjusting spacer 40 and the retaining head 14. The retaining head 14, closed off by the spacer 40, then forms a chamber 15 containing the major portion of the mechanism 16 and in particular the major portion of the receptacle 19.
The retaining head 14 comprises a device 34 for establishing a substantially fluid-tight connection of the chamber 15 to the receptacle 19. The connecting device 34 comprises a toroidal seal 34a extending between the retaining head 14 and the body 18 of the dispenser as well as fitting between the annular wall 19a of the receptacle 19 and the body 18 of the dispenser 3. Thus, a negative pressure created by the vacuum pump 31 is propagated to the chamber 15 via the channel 30. The negative pressure in the chamber 15 is propagated in turn through the helical grooves 23 and a groove 26a in the drive hub 20 to the port 19c.
In another variant, the mechanism 16 is like a fluid-tight tube with a central port 41. The gasket 32 can then press against the top of the actuation mechanism 16. In this case, the chamber 15 accepting the major portion of the receptacle 19 consists of the fluid-tight body 18. Similarly to the above variant, the negative pressure of the channel 30 is propagated through the central port 41 of the actuation mechanism 16 to the port 19c.
In any of these variants, the annular wall 19a of the receptacle 19 has a circular free end defining an opening 29 in the receptacle 19 which is intended for the insertion of the stick 2 into the receptacle 19. The actuator head 6, the retaining head 14, and the actuation mechanism 16 with its receptacle 19 in the “protruding” position, descend until the opening 29 is adjacent to the upper end 2a of the stick of lipstick 2. This position corresponds to the position for transferring the stick 2 from the molding station 5 to the receptacle 19.
When the retaining head 14 is in the transfer position, the upper end 2a of the stick of lipstick 2 isolates from the outside an area 35 inside the receptacle 19 which communicates with the vacuum pump 31 via the port 19c.
The vacuum pump 37 of the molding station 5 creates a negative pressure in the external cavity 36. The deformable wall 8 of the shell detaches from the stick of lipstick 2 and releases the stick 2. Thus the negative pressure created within the area 35 inside the receptacle 19 draws the stick of lipstick 2 in. The stick of lipstick can be suctioned in until it rests against the bottom 19b of the receptacle 19.
The negative pressures created in the receptacle 19 and in the external cavity 36 may be established one before the other, and in any order, but they have at least one period where, simultaneously, the negative pressure in the receptacle 19 is exerting suction on the stick 2 and the negative pressure in the external cavity 36 releases the stick 2, thus allowing the transfer from the station 5 to the dispenser 3.
As illustrated in
It is understood that the invention can be implemented with any type of station 5 which is able to retain the stick of lipstick 2, disengage the end 2a of the stick, and release the stick of lipstick 2 when the insertion opening 29 of the receptacle 19 is substantially blocked by the end 2a.
Advantageously, a decorative shell (not illustrated) can be assembled to the actuation mechanism 16 by hooking it onto the drive hub 20. This last step in the method for assembling the lipstick dispenser can be performed away from the stick of lipstick attachment machine 1 described above. This prevents scratches and allows on-demand inventory management.
The method of the stick of lipstick attachment machine 1 is particularly advantageous for stick of lipstick 2 consisting of a soft cosmetic paste. It can also be used with cosmetic pastes of the usual hardness but having a particularly fragile contour where it touches the lips.
In one variant of the attachment method, the retaining head 14 can descend until the opening 29 of the receptacle 19 is level with the silicone wall 8 or until the end 2a of the stick of lipstick 2 reaches the bottom 19b of the receptacle 19. It is possible to only activate the vacuum pump 31 when conventional nesting would deform the stick of lipstick 2, in particular the contour of the end which is applied to the lips.
In another variant, the machine 1 can be used to adjust the position of the stick of lipstick in the receptacle 19 of the dispenser by creating in the receptacle 19 a positive pressure or a negative pressure relative to the atmospheric pressure. In this variant, the channel 30 or the chamber 15 can also be connected to a compressed air generator (not represented) via a controllable three-way valve.
The machine 1 can be used with any actuation mechanism having a port 19c opening into the area 35 inside the receptacle and not blocked off when the introduction of the stick 2 begins.
The bullet attachment and molding machine can comprise a single upper station 4 and/or a single molding station.
In one variant, the vacuum pump 31 can be connected directly to the chamber 15.
Number | Date | Country | Kind |
---|---|---|---|
11 55510 | Jun 2011 | FR | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/FR2012/051400 | 6/20/2012 | WO | 00 | 1/23/2014 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2012/175875 | 12/27/2012 | WO | A |
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2192675 | Ferentzy | Mar 1940 | A |
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3315344 | Niclas | Apr 1967 | A |
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4543702 | Wada | Oct 1985 | A |
5160689 | Kamen | Nov 1992 | A |
7128567 | Avalle | Oct 2006 | B2 |
20020086079 | Kuo | Jul 2002 | A1 |
20020086081 | Kuo | Jul 2002 | A1 |
20040219248 | Avalle | Nov 2004 | A1 |
20070023964 | Gilg | Feb 2007 | A1 |
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20110286808 | Castro | Nov 2011 | A1 |
Number | Date | Country |
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900 544 | Dec 1953 | DE |
1 437 062 | Jul 2004 | EP |
2 729 278 | Jul 1996 | FR |
WO 02066331 | Aug 2002 | WO |
Entry |
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International Search Report for PCT/FR 2012/051400, report dated Oct. 10, 2012. |
Number | Date | Country | |
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20140130457 A1 | May 2014 | US |