• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The present invention relates to a device for dispensing a product which comprises: - a spiral body comprising at least one helical groove, for guiding, - a sheath: - rotatable relative to the spiral body, - nested in the body of spiral and - having at least one opening having at least two portions forming between them an angle strictly less than 180 °, at least one of the portions forming a strictly non-zero angle with the main axis of the device; and a cup comprising at least one guide pin inserted in the helical guide groove and in the opening, and simultaneously moving along the helical groove and the opening when the sheath is rotated relative to the spiral body.
    公开号:FR3058031A1
    申请号:FR1660424
    申请日:2016-10-27
    公开日:2018-05-04
    发明作者:Christophe Benigni;Frederic Jouan;Gerald Martines
    申请人:Qualipac SA;
    IPC主号:
    专利说明:

    ® FRENCH REPUBLIC
    NATIONAL INSTITUTE OF INDUSTRIAL PROPERTY © Publication number:
    (to be used only for reproduction orders) (© National registration number
    058 031
    60424
    COURBEVOIE © Int Cl 8 : A 45 D 40/06 (2017.01)
    PATENT INVENTION APPLICATION
    A1
    ©) Date of filing: 27.10.16. (© Applicant (s): QUALIPAC Société par actions simpli- (© Priority: trusted - FR. @ Inventor (s): BENIGNI CHRISTOPHE, JOUAN FREDERIC and MARTINES GERALD. (43) Date of public availability of the request: 04.05.18 Bulletin 18/18. ©) List of documents cited in the report preliminary research: Refer to end of present booklet (© References to other national documents ©) Holder (s): QUALIPAC Société par actions simpli- related: trusted. ©) Extension request (s): (© Agent (s): IPSIDE.
    (64) DEVICE FOR DISPENSING A PRODUCT.
    FR 3 058 031 - A1 (6 /) The present invention relates to a device for the distribution of a product which comprises:
    a spiral body comprising at least one helical groove, for guiding,
    - a sheath:
    - rotatable relative to the spiral body,
    - fitted into the spiral body and
    - comprising at least one opening comprising at least two portions forming between them an angle strictly less than 180 °, at least one of the portions forming a strictly non-zero angle with the main axis of the device; and
    - A cup comprising at least one guide lug inserted in the helical guide groove and in the opening, and moving simultaneously along the helical groove and the opening when the sheath is rotated relative to the spiral body.
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    7D d ! ii iIjjlIiJ '
    Field of the invention
    The present invention relates to a device for the distribution of a product.
    The present invention applies to the field of product containers in which the product or the distribution system can be retracted at least partially inside the device.
    More particularly, the present invention applies to the field of devices comprising a rigid cosmetic product in the form of bread, such as for example a lipstick grape, a lip balm, an eye shadow stick, of kohl, foundation, corrector, deodorant or other cosmetic products, the product bread being able to be retracted in the device. The present invention also applies to the field of makeup brushes, the bristles of which are retractable, and to the field of systems for diffusing perfume or care product, the diffuser of which is telescopic.
    State of the art
    The retractable devices which are the subject of the invention are mainly encountered in the field of lipsticks, so the description of the advantages of the invention compared with the state of the art will be given for lipsticks, it being understood that this application is indicative and not limiting.
    Retractable devices must allow a product to be taken out of a protective device to be used, then retracted after use to return to a storage position where they are protected. As the product is used in the extended position, the device must be able to withstand an axial force authorizing the application of the product, without the latter retracting spontaneously, such an effect is called anti-push back.
    In addition, the user of the product must feel a certain comfort during the exit and the retraction of the product and the product must possibly be easy to adjust - this is in particular the case of the lipsticks for which the user must be able easily adjust the output level of the product allowing precise and comfortable application, as the wear of the make-up product gradually progresses.
    American patent N ° US 6244770 B1 discloses a lipstick container comprising a case comprising a spiral, a sheath and a cup comprising a lug, the lug moving in a longitudinal sheath window and the lug comprising an increasing flat the coefficient of friction between the spiral and the lug in the direction of retraction. The increase in the coefficient of friction allows the product to withstand a greater push back force before retracting. However, the effort provided by the user to operate the device is also higher, which reduces user comfort for the user.
    European patent N ° EP 0461001 B1 discloses a lipstick container comprising a case comprising a spiral, a sheath and a cup comprising a lug, the lug moving in a longitudinal sheath window and the lug comprising a shoulder allowing blocking of the lug at the start and end of the race.
    Such a device allows the product to withstand a great effort in the fully extended and fully retracted positions, however a small rotation of the cup relative to the sheath releases the cup and the product therefore retracts entirely without great resistance to push back, however, the application of the product typically takes place in a position partially removed from the device, even though this position has poor resistance to push back.
    European patent application No. EP 0799589 A1 discloses a lipstick container comprising a case comprising a spiral, a sheath and a cup comprising a lug, the lug moving in a longitudinal sheath window and the lug comprising a particular shape so as to increase the coefficient of friction between the spiral and the lug in the direction of retraction of the product. The device disclosed in said patent application makes it possible to increase the effort beyond which the product is retracted. However, the effort is also greater when the user wishes to retract the product.
    All of the aforementioned documents disclose means for modulating the coefficient of friction between the cup, the sheath and the spiral. However, in all these devices the coefficient of friction is determined by design and is uniform for a given device throughout the course of the cup. None of the documents of the aforementioned prior art discloses a container making it possible to modulate the speed of movement or the coefficient of friction of the cup as a function of the position of the cup in the sheath.
    Object of the invention
    The present invention aims to remedy all or part of these drawbacks. In particular, the present invention provides great resistance to push back while offering users comfort and precision in the use of the improved product. The present invention also makes it possible to modulate the speed of movement and the friction torque of the cup, integral in translation with the product roll, as a function of the position of the cup in the sheath.
    To this end, according to a first aspect, the present invention relates to a device for the distribution of a product characterized in that it comprises:
    a spiral body comprising at least one helical guide groove,
    - a sheath:
    - rotatable relative to the spiral body,
    - fitted into the spiral body and
    - comprising at least one opening comprising at least two portions forming between them an angle strictly less than 180 °, at least one of the portions forming a strictly non-zero angle with the main axis of the device; and
    - A cup comprising at least one guide lug inserted in the helical guide groove and in the opening, and moving simultaneously along the helical groove and the opening when the sheath is rotated relative to the spiral body.
    In other words, the opening having two ends and a central part which is not straight.
    The main axis of the device designates a central axis traversing the device object of the invention in its greatest length. The main axis is parallel to the generators of the sheath.
    Thanks to these arrangements, and if we consider a constant speed of rotation of the sheath in relation to the spiral body, the speed of movement in translation of the cup in the sheath is modulated by the position of the cup in the sheath .
    Advantageously, a shape comprising an angle and comparable to that of a boomerang, oriented relative to the slope of the spiral so that the angle formed between the lower part of the window and the spiral is more closed than the angle formed between the upper part of the window and the spiral, makes it possible to adopt a rapid speed in a first part of the trajectory of the cup in the sheath from the fully retracted storage position, and a reduced speed in a second part of the path.
    This combination is favorable in that during the typical use of such a cosmetic product the application takes place while the cup is in the partially extended position guaranteeing a certain distance between the upper rim of the tube and the end of the bread. product which constitutes the area of application of the product. Therefore the race of the cup, integral in translation with the product roll, consists of two parts of essentially different functions:
    - The first part of the stroke, from the fully retracted storage position is intended to expose the useful part of the product bread, it is advantageous that this initial stroke is traversed quickly;
    - the second part of the stroke is intended to fine-tune the quantity of product exposed to allow precise and comfortable application, this part of the stroke must also allow fine adjustment of the exit position to compensate for the progressive wear of the product bread during its repeated uses - it is advantageous here that this race is traveled relatively slowly to favor the precision of adjustment of the output height.
    In addition, the coefficient of friction between the sheath and the lug of the cup is related to the local value of the angle between the spiral and the window. The change in orientation of the window along the course of the cup thus results in a change in the coefficient of friction. In the example above, when the sheath is rotated relative to the spiral, the coefficient of friction is relatively high when the cup is located in the lower part of its stroke (position close to the retracted position - angle between the spiral and the opening relatively closed) and lower when the cup is located in the upper part of its stroke (position close to the extended position - angle between the spiral and the opening relatively open).
    This arrangement favors the precision of adjustment of the outlet height intended for the application of the product.
    Conversely, still in the example above, when the cup is stressed by an axial force the coefficient of friction is higher in the upper part of the stroke, generating a relatively high push back force. However, this position is found to be the preferred position for use, so this relatively high value of the coefficient of friction avoids untimely retraction of the product during application, thereby improving the resistance to push back.
    In the devices for which the sheath has a vertical rectilinear opening described in the prior art, it is customary for those skilled in the art to seek, by construction, a sufficiently high friction torque to avoid inadvertent retraction of the product in use, but this imposes an operation considered as “hard” and not very comfortable by the users, and does not easily allow a fine adjustment of the exit position to optimize the precision of application.
    Thus, in summary, the advantages of the invention are to combine:
    - optimal user comfort because the device does not require too high a coefficient of friction by construction,
    - optimal application precision by allowing fine adjustment of the device's exit position throughout its duration of use and the gradual wear of the product roll and
    - the absence of untimely withdrawal of the product during application.
    In certain embodiments, at least one end of at least one opening of the sheath has an angle strictly between zero degrees and one hundred and eighty degrees relative to the adjacent portion of the opening.
    The advantage of these embodiments is to create, at the ends, a bearing surface of the lug of the cup on the sheath perpendicular to the axial stresses of the cup allowing blocking in the fully retracted or fully extended position of the cup:
    - a blocking in the fully extended position of the cup is useful to allow the packaging of the device, an operation during which a loaf of relatively rigid cosmetic product is forcefully introduced into the cup - it is important that the cup does not unwittingly retract during this operation ;
    - a blocking in fully retracted position of the cup is useful as a storage position for the device during its stay in the supply chain and between two uses of the product by its user - it is important in these circumstances that shocks and vibrations transport do not create an inadvertent partial exit of the cup, which would result in damaging the end of the product roll by contact with the bottom of the cap typically covering the device.
    In some embodiments, the sheath further comprises flexible friction means between the sheath and the spiral body.
    The advantage of these embodiments is to ensure controlled friction between the sheath and the spiral to guarantee a coefficient of friction ensuring the comfort of the user and to prevent possible unwanted exit of the product.
    In certain embodiments, the cup further comprises flexible friction means between the cup and the sheath.
    The advantage of these embodiments is to ensure controlled friction between the cup and the sheath to guarantee a coefficient of friction ensuring the comfort of the user and to prevent possible unwanted exit of the product.
    The flexible friction means integrated in the sheath and / or in the cup can be used separately or jointly. Advantageously, the device can be designed from the outset with flexible friction means integrated into the sheath and rubbing on the spiral, these means being dimensioned to ensure the standard minimum friction torque of the device. By adding additional friction means to the cup as required, it will be possible to easily adapt the friction torque to the desired value for a given application, without having to modify the friction means integrated into the sheath.
    In fact, it is customary in the cosmetic packaging profession for each brand to request a form of cup which is specific to it and adapted to its preferences in terms of packaging mode. So it is customary that a specific cup mold is made for each brand. It is on the other hand advantageous that the other components of the mechanism, in particular the sheath and the spiral, are standard for a given manufacturer, in order to minimize the amount of investment by pooling the sheath and spiral molds for several uses and / or brands .
    The advantage of being able to have additional means of friction on the cup is to be able to propose at lower cost an adaptation of the value of the coefficient of friction to each brand and / or use, these means being integrated into the specific mold of the cup without '' it is necessary to modify the sheath mold each time it is used.
    In certain embodiments, a shape of at least one end of the opening of the sheath corresponds to the shape of the lug and comprises a relief for holding in position. This protruding relief positioned at the entrance to the horizontal portion of the opening, producing a local narrowing of the window section; this narrowing allows the lug of the cup to be held in position in the fully retracted or fully extended position; it also causes braking during the passage of the lug, asking the user to exert a slightly greater effort to overcome this narrowing.
    The advantage of these embodiments, in addition to keeping the lug of the cup in a fully retracted or fully extended position, thus avoiding unwanted movement of the cup, is to create a specific sound signal when the cup containing the product is fully retracted or fully extended; this audible signal is accompanied by a tactile sensation of a specific hard point. This device acts as an audible and tactile indicator of complete extension or retraction of the device.
    In some embodiments, a dimension of a shape of at least one end of the opening of the sheath gradually decreases.
    These embodiments have the advantage of remaining silent when the cup containing the product is fully retracted or fully extended.
    Brief description of the figures
    Other advantages, aims and particular features of the invention will emerge from the following non-limiting description of at least one particular embodiment of a device for dispensing a product, with reference to the appended drawings, in which :
    - Figure 1 shows, schematically and in plan, a first particular embodiment of a device object of the present invention,
    FIG. 2 represents, diagrammatically and in plan, a first particular embodiment of a sheath of a device which is the subject of the present invention,
    FIG. 3 represents, diagrammatically and in perspective, a first particular embodiment of a cup of a device which is the subject of the present invention,
    FIG. 4 schematically and in plan view, a first particular embodiment of a spiral body which is the subject of the present invention and
    - Figure 5 shows schematically and in plan, a first particular embodiment of a device object of the present invention in a different position.
    Description of embodiments of the invention
    We note now that the figures are not to scale.
    This description is given without limitation, each characteristic of an embodiment can be combined with any other characteristic of any other embodiment in an advantageous manner.
    FIG. 1 shows a particular embodiment 10 of a device which is the subject of the present invention.
    The device 10 for the distribution of a product, such as a lipstick grape for example, comprises:
    a spiral body 50 comprising at least one helical guide groove, 515a or 515b,
    - a sheath 20:
    - rotatable relative to the spiral body 50,
    - fitted into the spiral body 50 and
    - comprising at least one opening, 200a or 200b, comprising two ends, 225 and 230, and a central part 205, between the two ends, 225 and 230, the shape of which comprises an angle, 220 and
    - A cup 30 comprising at least one guide pin 40 inserted in the helical guide groove, 515a or 515b, and in the opening, 200a or 200b, and moving simultaneously along the helical groove, 515a or 515b, and the opening, 200a or 200b, when the sheath 20 is rotated relative to the spiral body 50.
    FIG. 2 shows a particular embodiment of a sheath 20 of a device 10 which is the subject of the present invention.
    The sheath 20 is rotatable relative to the spiral body 50 and fitted into the spiral body 50. The sheath 20 has at least one opening, 200a or 200b, having two ends, 225 and 230, and a central part 205, between the two ends, 225 and 230, the shape of which has an angle, 220.
    The sheath 20 is preferably substantially a cylinder trunk comprising a shoulder 271 which defines a zone for gripping the sheath 20. It is recalled that a cylinder is a surface in the space defined by a straight line, called the generatrix, passing through a point variable describing a closed planar curve, called a directing curve, and keeping a fixed direction.
    The sheath 20 is defined by an outer cylinder defining the outer envelope of the sheath 20 and by an inner cylinder defining a partially blind opening in the sheath 20. The guide curve of the inner cylinder is never intersecting with the guide curve of the cylinder outside. Preferably, the guide curve of the inner cylinder is parallel to the guide curve of the outer cylinder so that the quantity of material forming the sheath 20 is of constant thickness.
    Preferably, the guide curve of the outer cylinder of the sheath 20 is a circle and the guide curve of the inner cylinder of the sheath 20 is a circle concentric with the circle, guide curve, of the outer cylinder of the sheath 20.
    Two faces, defining the cylinder trunk of the sheath 20, are in planes parallel to each other and perpendicular to the generatrix of the outer cylinder or the inner cylinder of the sheath 20. Here we define a face called "lower face" and a face said "upper face" of the sheath 20.
    The upper face 201 has an orifice, the shape of which is the shape of the guide curve of the inner cylinder of the sheath 20. The lower face 202 is partially closed by the gripping zone of the sheath 20. The gripping zone of the sheath 20 is preferably a cylinder trunk whose guiding curve is a circle. The diameter of the circle is greater than the diameter of the outer cylinder of the sheath 20, the center of the circle is concentric with the center of the circle of the outer cylinder and of the outer cylinder of the sheath 20. The generator of the gripping area is parallel to the generator of the outer cylinder and the inner cylinder.
    The junction between the underside 202 of the sheath 20 and the gripping area of the sheath 20 preferably comprises a chamfer or a rounding to facilitate the introduction of the assembled device into the covering. The gripping area of the sheath 20 may include retention and / or orientation reliefs, such as grooves, lugs or flats.
    The sheath 20 has a socket relief 265 corresponding to a socket relief 525 of the spiral body 50. The socket relief 265 is closer to the underside 202 than the opening, 200a or 200b. The interlocking relief 265 is preferably a protruding relief on the outer cylinder of the sheath 20. The interlocking relief 265 is such that, in section, the relief forms a right triangle, the right angle being the angle closer to the lower face 202 of the sheath 20.
    The sheath 20 may include a collar 270 against which the spiral body 50 is supported after fitting with the sheath 20 by means of the socket relief 265.
    The sheath 20 has at least one opening, 200a or 200b. Preferably, the sheath 20 has two openings, 200a and 200b, of the same shape in axial symmetry with respect to each other along an axis parallel to the generatrix of the inner cylinder or the outer cylinder passing through the center of the directing curve. of the outer cylinder or the inner cylinder which is a circle.
    Hereinafter only an opening 200a is described, the opening 200b having the same essential characteristics.
    The opening 200a has a central part, 205. Two axes 210 and 215, along which the central part 205 is oriented, form an angle 220. The axis 210 defines the orientation of the so-called "upper portion" of the 'opening. The upper portion is the portion closest to the upper face 201 of the sheath before the end 230. The axis 215 defines the orientation of the so-called "lower portion" portion of the opening. The lower portion is the portion closest to the underside of the sheath before the end 225. At least one of the two axes 210, 215 is oriented at a non-zero angle relative to a straight line parallel to the generating curve the outer cylinder or the inner cylinder.
    Preferably, the two axes 210 and 215 are not parallel to the generatrix of the interior cylinder and to the generatrix of the interior cylinder of the sheath 20. The axes 210 and 215 form an obtuse angle 220 and strictly less than one hundred and eighty degrees. In some embodiments, one of the axes, 210 or 215, is parallel to the generator of the inner cylinder or the outer cylinder of the sheath 20.
    The angle 220 between the axes 210 and 215 preferably corresponds to a rounded transition between the upper and lower portions of the opening 205.
    The ends, 225 and 230, of the opening, 200a or 200b, have an axis substantially parallel to the upper face 201 and to the lower face of the sheath 20 and form an angle with the axes 210 and 215 of the central part of opening 200a or 200b. In certain embodiments, the axis 215 forms an acute angle with the end 225 and the axis 210 forms an obtuse angle with the end 230. These embodiments make it possible to have a higher speed at the start of the exit from the cup 30 only at the end of the exit from the cup 30. In other embodiments, the axis 210 forms an acute angle with the end 230 and the axis 215 forms an obtuse angle with the 'end 225. These embodiments make it possible to have a lower speed at the start of the exit from the cup 30 than at the end of the exit from the cup 30.
    The axis of the end 225 is substantially parallel to the underside of the sheath 20 to block the lug 40. The end 225 is terminated by a rounded wall, of shape corresponding to the shape of the lug 40. In embodiments, the end 225 is terminated by a wall 245, the size of which gradually decreases.
    Preferably, the end 225 has a relief in position 235 projecting into the end 225 to prevent movement of the lug 40 and therefore of the cup 30 in the event of unwanted rotation of the sheath 20 relative to the body. of spiral 50. This relief can be formed on either of the edges of the end 225.
    The axis of the end 230 is substantially parallel to the upper face 201 of the sheath 20 to block the lug 40 and prevent the lug from moving in the sheath 20 under an axial force. The end 230 is terminated by a rounded wall, of a shape corresponding to the shape of the lug 40. In certain embodiments, the end 230 is terminated by a wall, the size of which gradually decreases.
    Preferably, the end 230 has a relief in position 240 projecting into the end 230 to prevent movement of the lug 40 and therefore of the cup 30 in the event of significant force along an axis parallel to the generating curve. of the inner or outer cylinder on the cup 30. This relief can be formed on either of the edges of the end 230.
    The sheath 20 may include an access 250 connecting the opening 205 to the upper face 201 of the sheath 20. The access allows an elastic deformation of the opening to insert the lug 40 into the opening during assembly of the device 10 Access is an opening of decreasing dimensions in the form of a bottleneck, like a triangle, one of the faces of which coincides with the upper face 201 of the sheath 20. The lug 40 is easily inserted into the opening but an exit from the lug 40 is impossible under a normal effort to use the device 10.
    In certain embodiments, a single opening, 200a or 200b, comprises at least one relief, 235 or 240, for holding in position. The ends of the openings, 200a or 200b, can be different.
    The sheath 20 may include flexible means 255 of friction between the sheath 20 and the spiral body 50. The flexible means 255 may be substantially rectangular strips cut on three faces in the sheath 20, close to the grip area of the sheath 20. The lamellae have a protruding relief 260 resting on the spiral body 50. The shape of the relief 260, and the materials of the sheath 20 and of the spiral body 50 define the coefficient of friction between the sheath 20 and the spiral body 50.
    So that the flexible means 255 retain their elastic properties throughout the life of the device, without conforming under constraint, it is important to choose for the sheath a polymer having good shape memory characteristics, such as for example, Polyoxymethylene , Polybutylene terephthalate, Polycarbonate or copolyesters (non-exhaustive list).
    FIG. 3 shows a particular embodiment of a cup of a device 10 which is the subject of the present invention.
    The cup 30 comprises at least one guide pin 40 inserted in a helical guide groove, 515a or 515b, and in an opening, 200a or
    200b, of the sheath 20 and moving simultaneously along the helical groove, 515a or 515b, and the opening, 200a or 200b, when the sheath 20 is rotated relative to the spiral body 50.
    The cup 30 is preferably substantially a cylinder trunk. The cup 30 is defined by an outer cylinder 325 defining the outer envelope of the cup 30 and by an inner cylinder 330 defining the inner envelope of the cup 30. The guide curve of the inner cylinder 330 is never intersecting with the curve guide of the outer cylinder 325. Preferably, the guide curve of the inner cylinder 330 is parallel to the guide curve of the outer cylinder 325 so that the quantity of material forming the cup 30 is of constant thickness.
    Preferably, the guide curve of the outer cylinder 325 of the cup 30 is a circle and the guide curve of the inner cylinder 330 of the cup 30 is a circle concentric with the circle, guide curve, of the outer cylinder 325 of the cup 30.
    Two faces defining the cylinder trunk of the cup 30 are in planes parallel to each other and perpendicular to the generatrix of the outer cylinder 325 or the inner cylinder 330 of the cup 30. Here we define a face called "lower face" and a so-called "upper side" of the cup 30.
    The lower face and the upper face have an orifice, the shape of which is the shape of the guiding curve of the inner cylinder 330 of the cup 30. At least one of the orifices of the lower face and of the upper face of the cup is at at least partially blind, a wall of material at least partially closing one of the two orifices in the cylinder trunk of the cup 30. The cylinder trunk of the cup 30 is defined by two faces parallel to each other and perpendicular to the generatrix of the outer cylinder 325 or inner cylinder 330.
    The wall at least partially closing one of the two orifices in the cylinder trunk of the cup 30 has a face 320 on which the product loaf abuts, for example the lipstick grape, during packaging. Reliefs 315 for the retention of the product bread are located on the face 320 and on the inner cylinder 330 of the cup 30. The grape retention reliefs 315 can be of substantially pyramidal shape, with a base comprising three faces and the edges of which are rounded. The grape retention reliefs 315 have a dimension along the outer cylinder 325 greater than the dimensions along the face 320. Other forms of retention reliefs are possible. The grape retention reliefs 315, by causing local deformation of the product loaf when it is forcefully inserted into the cup, ensure that the product loaf remains in traction and prevent the grape from moving in rotation in the cup 30. The grape retention reliefs 315 can be distributed regularly over the face 320.
    The junction between the face 320 and the inner cylinder 330 of the cup 30 is preferably chamfered or rounded.
    The outer cylinder 325 of the cup 30 has at least one lug 40. Preferably, the cup 30 has as many lugs 40 as the sheath 20 has openings. In preferred embodiments, the cup 30 has two lugs 40 and the sheath 20 has two openings, 200 and 200b. The pins 40 are of similar shape and characteristics and diametrically opposed along an axis passing through the center of the circle, directing curve, of the inner cylinder 330 or the outer cylinder 325 and parallel to the generating curve of the inner cylinder 330 or the outer cylinder 325 .
    The outer cylinder 325 may include flexible friction means 305 between the cup 30 and the sheath 20. The flexible means 305 may be substantially rectangular strips cut on three faces in the cup 30, close to the underside of the cup 30 or opening onto the underside of the cup 30. The lamellae have a protruding relief pressing on the inner cylinder of the sheath 20. The shape of the relief, and the materials of the sheath 20 and of the reliefs 305 define the coefficient of friction between the cup 30 and the sheath 20. Preferably, the relief is of substantially spherical shape.
    So that the flexible means 305 retain their elastic properties throughout the life of the device, without conforming under constraint, it is important to choose for the cup a polymer having good shape memory characteristics, such as, for example, Polyoxymethylene. , Polybutylene terephthalate, Polycarbonate or copolyesters (non-exhaustive list).
    The dimensions of the outside cylinder of the cup 30 are smaller than the dimensions of the inside cylinder of the sheath 20. The cup 30 can therefore be inserted into the inside cylinder of the sheath 20.
    FIG. 4 shows a particular embodiment of a spiral body 50 of a device 10 which is the subject of the present invention.
    The spiral body 50 has at least one helical groove, 515a or
    515b.
    The spiral body 50 is preferably substantially a cylinder trunk. The spiral body 50 is defined by an outer cylinder 505 defining the outer envelope of the spiral body and by an inner cylinder 510 defining the inner envelope of the spiral body. The guide curve of the inner cylinder 510 is never intersecting with the guide curve of the outer cylinder 505. Preferably, the guide curve of the inner cylinder 510 is parallel to the guide curve of the outer cylinder 505 so that the quantity of material forming the body of spiral is of constant thickness.
    Preferably, the directing curve of the outer cylinder 505 of the spiral body is a circle and the directing curve of the inner cylinder 510 of the spiral body is a circle concentric with the circle, directing curve, of the outer cylinder 505 of the spiral body.
    Two faces defining the cylinder trunk of the spiral body 50 are in planes parallel to each other and perpendicular to the generatrix of the outer cylinder 505 or of the inner cylinder 510 of the spiral body 50. Here we define a face called "underside >> and a face called the “upper face” of the spiral body 50.
    The upper face 501 and the lower face have an orifice, the shape of which is the shape of the guide curve of the inner cylinder 510 of the spiral body 50.
    The underside 502 of the spiral body 50 has a shoulder 520 on the side wall of which the means 255 for friction of the sheath 20 bear, and in which the lug 40 of the cup 30 is inserted during assembly of the device 10. Each helical groove, 515a or 515b, opens onto the shoulder 520. Preferably, the spiral body 50 comprises as many helical grooves, 515a or 515b, as the sheath 20 has openings, 200a or 200b. In preferred embodiments, the spiral body 50 has two helical grooves, 515a and 515b, the sheath 20 has two openings, 200a and 200b. The helical grooves, 515a and 515b, are of similar shape and characteristics and diametrically opposed along an axis passing through the center of the circle, directing curve, of the inner cylinder 510 or the outer cylinder 505 and parallel to the generating curve of the inner cylinder 510 or the outer cylinder 505.
    The pitch of each helical groove, 515a or 515b, is equal to the length of the opening, 200a or 200b, measured along an axis parallel to the generating curve of the inner cylinder or the outer cylinder of the sheath 20. When a lug 40 traverses the entire length of a helical groove, 515a or 515b, the lug 40 simultaneously traverses the entire length of an opening, 200a or 200b, of the sheath 20.
    The spiral body 50 may include a socket relief 525 corresponding to a socket relief 265 of the sheath 20. The socket relief 525 is preferably interrupted at the location of the helical groove. The interlocking relief 525 is preferably a protruding relief on the inner cylinder 510 of the spiral body 50. The interlocking relief is such that, in section, the relief substantially forms a right triangle, the right angle being the angle closest to the upper face of the spiral body 50. During interlocking, the spiral body 50 and the sheath 20 deform elastically until the interlocking reliefs 265 and 525 snap into place.
    The dimensions of the internal cylinder 510 of the spiral body 50 are greater than the dimensions of the external cylinder of the sheath 20. The sheath 20 can therefore be inserted into the internal cylinder 510 of the spiral body 50.
    In FIG. 1, the cup 30 is fully retracted in the sheath 20. The relief 235 of the opening, 200a or 200b, for holding the cup 30 in position is fitted with the lug 40 of the cup 30.
    FIG. 5 shows the device 10 in which the cup 30 is in the partially retracted or partially extended position in the sheath 20. The lug 40 of the cup 30 is in the upper portion of the opening, 200a or 200b, sheath. A lipstick grape 605 is placed in the cup 30 in the partially extended or partially retracted position.
    To assemble the device 10, the lug 40 is placed above the access
    250 of the opening, 200a or 200b, the cup 30 is therefore aligned with the sheath 20.
    Then a force is exerted on the cup 30, spreading the walls of the access 250, by an elastic deformation, to pass the lug 40. Once the lug 40 fully passed through the access 250, the access 250 returns to its original shape. The cup 30 is placed in the fully retracted position. The relief 235 of the opening, 200a or 200b, for holding the cup 30 in position is fitted with the lug 40 of the cup 30.
    The spiral body 50 is aligned with the sheath 20. The insertion of the spiral body 50 on the sheath 20 is done by the insertion of the upper face of the sheath 20 in the lower face of the spiral body 50. The groove helical, 515a or 515b is aligned with the lug 40. Then, by rotational movement, the spiral body 50 is moved towards the underside of the sheath 20 until the nesting relief 525 of the spiral body 50 engages with the nesting relief 265 of the sheath 20. For nesting, the spiral body 50 and the sheath 20 can deform elastically.
    A decorative body in any material, metal, plastic, wood, cardboard, textile, etc. can then be mounted on the device 10 to enhance its aesthetic appearance. The decorative body is made integral with the spiral 50 by gluing, snap-fastening, crimping, force fitting or any suitable means, so that a rotation exerted by the user on said decorative body is fully transmitted to the spiral 50 and thus allows actuation of the mechanism.
    The decorative body may have any length in relation to the total height of the assembled device 10. The upper end of the decorative body can preferably coincide with the upper end of the spiral body 50. The lower end of the decorative body can extend axially downwards from the device 10 to any height. The external gripping diameter of the sheath 20 is less than the external diameter of the spiral body 50, so that if the decorative body axially covers the gripping zone of the sheath 20 the device can operate freely in rotation. This characteristic is an original and inventive characteristic of the device 10 compared to the prior art. Indeed, the use is that the gripping zone is of an external diameter greater than that of the spiral body, this preventing the decorative body from covering the gripping zone of the sheath, which can have an aesthetic drawback in the case where, for example, the device 10 would be inserted in a transparent covering, then revealing the grip area of the sheath, which is not very aesthetic.
    To allow assembly of the device 10 provided with a decorative body covering the gripping zone of the sheath, secondary retention details are provided inside the base of the gripping zone, making it possible to assemble it to a exterior cladding provided with a central lug.
    In normal use of the device 10, considering that the cup 30 is in the fully retracted position, the spiral body 50 is rotated relative to the sheath 20, possibly by means of a decorative body. The relief 235 for holding in position is released and the lug 40 is set in motion in the lower portion of the opening, 200a or 200b. The lug 40 moves simultaneously along the helical groove, 515a or 515b, and the opening, 200a or 200b, when the sheath 20 is rotated relative to the spiral body 50.
    In the lower portion of the opening, 200a or 200b, the angle formed between the opening 200a, 200b with the spiral 515a, 515b is relatively closed, thus for a given rotation value R of the spiral body, the lug 40 covers a relatively large vertical stroke C1. The exit speed of the cup 30 is therefore relatively high in this lower portion of its travel.
    Conversely, once the lug 40 has passed the elbow 220 of the opening 200a, 200b, the angle formed between the opening 200a, 200b with the spiral 515a, 515b is relatively open, thus for the same value of given rotation R of the spiral body, the lug 40 travels a relatively small vertical stroke C2. The exit speed of the cup 30 is therefore relatively low in this upper portion of its travel, allowing the user to fine-tune the exposed portion of the grape 605.
    Once the lug 40 has reached the end 230 of the opening, 200a or 200b, it engages in the relief 240 for holding in position.
    A user can decide to partially remove the cup 30 and use the device with the lug 40 located in the upper portion of its stroke. In this case, the relatively open angle formed between the opening 200a, 200b and the spiral 515a, 515b generates a high coefficient of friction between the cup, the sheath and the spiral and thus makes it possible to withstand an axial push back force. .
    After using the product dispensed by the device 10, by rotating the sheath 20 in the opposite direction relative to the spiral body 50, the cup 30 is fully retracted. The lug 40 moves simultaneously along the helical groove, 515a or 515b, and the opening, 200a or 200b, when the sheath 20 is rotated relative to the spiral body 50.
    权利要求:
    Claims (8)
    [1" id="c-fr-0001]
    1. Device (10, 60) for the distribution of a product (605) characterized in that it comprises:
    a spiral body (50) comprising at least one helical groove (515a, 515b) for guiding,
    - a sheath (20):
    - rotatable relative to the spiral body,
    - fitted into the spiral body and
    - comprising at least one opening (200a, 200b) comprising at least two portions (210, 215) forming between them an angle strictly less than 180 °, at least one of the portions (210,215) forming a strictly non-zero angle with l 'main axis of the device; and
    - A cup (30) comprising at least one guide pin (40) inserted in the helical guide groove and in the opening, and moving simultaneously along the helical groove and the opening when the sheath is rotated relative to the spiral body.
    [2" id="c-fr-0002]
    2. Device (10, 60) according to claim 1, wherein at least one end (225, 230) of at least one opening (200a, 200b) of the sheath (20) has an angle strictly between zero and one hundred eighty degrees from the adjacent portion (210, 215) of the opening (200A, 200b).
    [3" id="c-fr-0003]
    3. Device (10, 60) according to one of claims 1 or 2, wherein at least one end (225, 230) of the opening (200a, 200b) of the sheath (20) comprises at least one relief ( 235, 240) for holding the guide pin (40) in position.
    [4" id="c-fr-0004]
    4. Device (10, 60) according to one of claims 1 to 3, wherein the sheath (20) further comprises flexible means (255) of friction between the sheath and the spiral body (50).
    [5" id="c-fr-0005]
    5. Device (10, 60) according to one of claims 1 to 4, wherein the cup (30) further comprises flexible means (305) of friction between the cup and the sheath (20).
    5
    [6" id="c-fr-0006]
    6. Device (10, 60) according to one of claims 1 to 5, wherein a shape of at least one end (225, 230) of the opening (200a, 200b) of the sheath (20) corresponds to the shape of the lug (40).
    [7" id="c-fr-0007]
    7. Device (10, 60) according to one of claims 1 to 6, wherein a
    [8" id="c-fr-0008]
    10 dimension of a shape of at least one end (245) of the opening (200a, 200b) of the sheath (20) gradually decreases.
    1/5
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    同族专利:
    公开号 | 公开日
    WO2018078231A1|2018-05-03|
    FR3058031B1|2019-08-23|
    BR112018070015A2|2019-02-05|
    US10595614B2|2020-03-24|
    US20190082809A1|2019-03-21|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    JPS6315916U|1986-07-15|1988-02-02|
    JPH0271420U|1988-11-16|1990-05-31|
    EP0719510A1|1994-12-28|1996-07-03|Risdon Corporation|Cosmetic dispenser with cam locking feature|
    FR2889922A1|2005-08-30|2007-03-02|Oreal|Support cup for e.g. lipstick packaging and distributing device, has straps connecting seat and pin to allow axial displacement of seat in displacement direction during outer solicitation of product, where cup is made in single piece|
    CN205568180U|2015-04-23|2016-09-14|株式会社Lg生活健康|Cosmetic container|
    FR2574640B1|1984-12-18|1987-02-13|Oreal|DEVICE FOR APPLYING A PASTY PRODUCT, IN PARTICULAR A COSMETIC PRODUCT SUCH AS LIPSTICK, AND TUBULAR ELEMENT FOR SUCH A DEVICE|
    FR2662922B1|1990-06-08|1992-08-07|Reboul Smt|CASE WITH ROTATING MECHANISM FOR SUBSTANCES IN STICK.|
    US5842804A|1996-03-28|1998-12-01|Rexam Cosmetic Packaging, Inc.|Lipstick case with means for push-back prevention|
    US6200049B1|2000-03-16|2001-03-13|Plastic-Envases, C.A.|Cosmetic dispenser and method|
    US6244770B1|2000-05-12|2001-06-12|Crown Cork & Seal Technologies, Corporation|Dispenser with pomade holding flexible tab|
    US9004793B2|2013-02-03|2015-04-14|Chin-Ming Huang|Lipstick case lipstick body lift seat anti-slipped structure|US11172748B2|2018-01-19|2021-11-16|Kose Corporation|Bar-shaped cosmetic housing container|
    FR3100115B1|2019-09-02|2021-07-30|Ets Bullier Sas|Brush device for all fine arts / cosmetics and creative leisure sectors, equipped with a rigid handle receiving a reservoir, said brush being able to distribute fluids with non-Newtonian behavior of the Bingham type at a regular rate.|
    EP3878311A1|2020-03-11|2021-09-15|Lumson S.p.A.|Lipstick machine for lips|
    法律状态:
    2017-10-27| PLFP| Fee payment|Year of fee payment: 2 |
    2018-05-04| PLSC| Publication of the preliminary search report|Effective date: 20180504 |
    2018-10-31| PLFP| Fee payment|Year of fee payment: 3 |
    2019-10-29| PLFP| Fee payment|Year of fee payment: 4 |
    2020-11-02| PLFP| Fee payment|Year of fee payment: 5 |
    2021-10-28| PLFP| Fee payment|Year of fee payment: 6 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1660424|2016-10-27|
    FR1660424A|FR3058031B1|2016-10-27|2016-10-27|DEVICE FOR DISTRIBUTING A PRODUCT|FR1660424A| FR3058031B1|2016-10-27|2016-10-27|DEVICE FOR DISTRIBUTING A PRODUCT|
    PCT/FR2017/052626| WO2018078231A1|2016-10-27|2017-09-27|Device for dispensing a product|
    US16/084,312| US10595614B2|2016-10-27|2017-09-27|Device for dispensing a product|
    BR112018070015A| BR112018070015A2|2016-10-27|2017-09-27|device for the distribution of a product|
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