PACKAGING DEVICE HAVING A CLOSURE CAP THAT IS PRE-POSITIONABLE ON A CONTAINER NECK

Abstract

Device including a cap having a skirt provided with at least one thread element and with at least one relief that is separate from the thread element. A container provided with a neck having at least one screw thread in which the thread element can engage, at least one housing, the relief on the cap being configured to snap-fit in the housing at the end of a movement for pre-positioning the cap on the neck. The preferably has at least one ramp having an opposite slope and at least one space for receiving the thread element in the pre-positioned position, situated between a passage for introducing the thread element into the screw thread and an upright at least partially delimiting said housing.

Claims

1. A packaging device having: a closure cap having a tubular skirt provided on its inner surface with at least one thread element and with at least one relief that protrudes towards the interior of the cap and is separate from the thread element(s), a container provided with a neck on which the closure cap is mounted, this neck having: at least one screw thread in which the thread element can engage in order to allow the cap to be screwed onto the neck, at least one housing, the relief on the cap being configured to snap-fit in the housing at the end of a movement for pre-positioning the cap on the neck, wherein the cap at the end of the pre-positioning movement is not in its normal use position and has to be screwed on further in order to reach this position.

2. The device according to claim 1, wherein the neck extends along an axis as far as an end opening, the neck having at least one ramp having a slope opposite to that of the screw thread, this ramp being situated closer to the opening in the neck than said screw thread, the housing being further away from the opening in the neck than at least one part of the ramp, the neck having at least one space for receiving the thread element in a pre-positioned position of the cap on the neck, this receiving space being situated between a passage for introducing the thread element into the screw thread and an upright at least partially delimiting said housing, the thread element being accommodated in said corresponding receiving space at the end of the pre-positioning movement.

3. The device according to Claim 2, wherein the upright extends axially.

4. The device according to Claim 3, wherein the upright extends continuously from the ramp as far as a helical rib that delimits the bottom of the screw thread.

5. The device according to Claim 1, wherein the housing has a contour with a triangular overall shape.

6. The device according to Claim 1, wherein the housing has a closed contour.

7. The device according to Claim 1, wherein the relief has a circular contour.

8. The device according to claim 7, wherein the relief has a frustoconical or dome shape.

9. The device according to Claim 1, wherein the relief has a contour with substantially the same shape as the housing.

10. The device according to Claim 2, wherein the introduction passage is at least partially closed off by a stop that can be passed over by the thread element during the screwing on of the cap.

11. The device according to Claim 2, wherein the ramp has a lower end defining a set-back surface, inclined towards the introduction passage.

12. The device according to Claim 11, wherein the ramp has a rounded lower end.

13. The device according to Claim 1, wherein the tubular skirt and the neck have a having rotation-prevention means that prevents the cap from being unscrewed at the end of the movement screwing it onto the neck.

14. The device according to Claim 1, wherein the cap has an interior hollow shaft designed to pass into the neck during the screwing on of the cap, this hollow shaft having at least one tooth for cutting a membrane seal closing the neck, this tooth being positioned above the membrane seal when the cap is in its pre-positioned position on the neck.

15. A method for mounting the cap on the neck of a packaging device as defined in Claim 1, wherein the cap is fitted on the neck in its pre-positioned position by an axial and anticlockwise rotational movement until the relief snap-fits in the housing.

16. The method according to Claim 15, wherein the operation of fitting in the pre-positioned position is realized automatically.

17. The method according to Claim 15, wherein, at the time of use, the cap is then screwed onto the neck in a clockwise direction of rotation.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0034] The invention may be understood better from reading the following detailed description of nonlimiting implementation examples thereof and from examining the appended drawing, in which:

[0035] FIG. 1 partially and schematically shows an example of a packaging device according to the invention, the cap being depicted so as to show hidden detail in its pre-positioned position on the neck,

[0036] FIG. 2 shows the closure cap from FIG. 1 on its own,

[0037] FIG. 3 is a view similar to FIG. 1 of an embodiment variant,

[0038] FIG. 4 shows the closure cap from FIG. 3 on its own,

[0039] FIG. 5 is a view similar to FIG. 1 of another embodiment variant,

[0040] FIG. 6 shows the closure cap from FIG. 5 on its own,

[0041] FIG. 7 shows the neck from FIG. 1 on its own,

[0042] FIG. 8 is a view similar to FIG. 7 of an embodiment variant of the neck,

[0043] FIG. 9 partially and schematically shows a rotation-prevention relief provided on the cap.

DETAILED DESCRIPTION

[0044] FIG. 1 shows the neck 10 of a container 11, receiving a closure cap 20. The container 11 forms, with the cap 20, a packaging device 1 according to the invention.

[0045] The neck 10 and the cap 20 may be produced by moulding plastics material.

[0046] Referring to FIG. 2, it can be seen that the cap 20 is made with an outer tubular skirt 21 and a coaxial inner hollow shaft 22, provided at its end with teeth 23 for cutting a membrane seal for closing off the neck, not visible in the figures.

[0047] The cap 20 may be provided, on its side facing away from the container, with any system for opening/closing and for dispensing the product contained in the container, for example a pivoting lid provided with a peg for closing a dispensing orifice, these elements being quite conventional and not being shown in the drawing in order to simplify the description.

[0048] Similarly, the cap 20 has any sealing means for ensuring leak tight circulation of the product contained in the container while it is being dispensed, for example a sealing lip that presses in a sealing manner against the inner surface of the neck.

[0049] The tubular skirt 21 has on its inner surface thread elements 24, of which there are three, for example, as illustrated, which are distributed at equal angles around the axis of the cap.

[0050] At least one relief 25 is also carried by the skin 21, this relief being situated approximately halfway angularly between the adjacent thread elements 24.

[0051] In the example in question, the relief 25 has a frustoconical shape, having a thickness, measured in the radial direction, substantially equal to that of the thread elements 24.

[0052] Returning to FIG. 1, it can be seen that the neck 10 carries a screw thread 13, which is for example a triple screw thread, as illustrated, delimited by helical ribs 14 that protrude from the neck.

[0053] Each rib 14 is interrupted for example at its lower end 15 at a certain distance from the base 16 of the neck. The latter may have, at its base, means such as teeth 17, which cooperate with corresponding, conventional, reliefs on the cap in order to prevent the cap from being unscrewed once it has been fully screwed onto the neck.

[0054] FIG. 9 schematically shows an example of a relief 90 on the cap that is able to pass over a tooth 17 at the end of screwing on but then prevents a reverse unscrewing movement.

[0055] The neck 10 carries ramps 30, of which there are three, like the thread elements 24, in the example illustrated.

[0056] Each ramp 30 is defined by a helical rib 31 which has an opposite orientation to that of the ribs 14, and a steeper slope.

[0057] Each ramp 30 is connected at its bottom to the end of a rib 14 by a rounded portion 33 defining a set-back surface 80 that is inclined towards the introduction passage 81 by which the thread element 24 is engaged in the screw thread 13.

[0058] Axially oriented uprights 34 connect the rib 14 to the upper end 37 of the ramp 30.

[0059] The ribs 14 and 31 define, with the associated upright, a housing 40 of closed contour, approximately in the form of a right-angled triangle, the hypotenuse of which is defined by the rib 31.

[0060] The outer flank 38 of the upright 34 defines, with the lower end of the adjacent ramp 30, a space 50 for receiving a corresponding thread element 24, as illustrated.

[0061] The flank 38 is preferably inclined with respect to the normal, with a slope directed towards the housing 40 away from the cylindrical wall of the neck 10. This slope makes it easier for the relief 25 to pass over the upright 34 during the premounting of the cap on the neck, and is, for example, 45° as illustrated in FIG. 7 or 60° as illustrated in FIG. 8.

[0062] A stop 60 is present in each passage 81 for introducing the thread element 24 into the screw thread 13.

[0063] The stops 60 are formed by radially oriented ribs which are carried by the rib 14 extending under the rounded end 33 and the height of which is less than the width of the screw thread 13.

[0064] The assembly of the cap 20 on the neck 10 may be effected automatically, the neck 10 already being provided with its membrane seal.

[0065] The cap 20 is lowered onto the neck 10. During this downward movement, the thread elements 24 bear on the ramps 30 and are guided by the latter towards the spaces 50.

[0066] The thread elements 24 pass, by elastic deformation, over the rounded ends 33 and snap-fit in the spaces 50. At the same time, the relief 25 passes, by elastic deformation, over the upright 34 and snap-fits in the housing 40.

[0067] In the pre-positioned position of the cap 20, illustrated in FIG. 1, the cap 20 is prevented from rotating by the abutment of the ends of each thread element 24 against the upright 34 and the corresponding stop 60.

[0068] If an attempt is made to rotate in the anticlockwise direction, the relief 25 bears against the edges of the housing 40 that are defined by the ribs 31 and 14, thereby providing additional resistance to accidental removal of the cap 20.

[0069] When the user wishes to perforate the membrane seal, they turn the cap in the clockwise direction, causing the thread elements 24 to pass over the stops 60. The latter may in particular be crushed as the thread elements 24 pass over, on account of their small thickness and width.

[0070] The relief 25 may pass over the upright 34 by local elastic deformation. Next, the width of the relief 25 allows it to move in the screw thread 13.

[0071] In the example in question, the shape of the relief 25 is frustoconical and the slope of the cone corresponds advantageously to the opening of the flanks 71 and 72 of the screw thread 13 towards the outside, thereby making it possible to limit the friction of the relief 25 on the screw thread 13 during the rotation of the cap 20. In variants, the flanks 71 and 72 of the screw thread 13 are more or less open towards the outside, compared with the configuration illustrated.

[0072] In the standby position of the cap, the teeth 23 are kept away from the membrane seal. While the cap 20 is being fully screwed on, the teeth 23 cut the membrane seal.

[0073] Once the cap 20 has been fully screwed onto the neck, it is prevented from being unscrewed by virtue of the rotation-prevention means.

[0074] Numerous modifications can be made to the device that has just been described, without departing from the scope of the present invention.

[0075] For example, the shape of the relief 25 may be modified.

[0076] FIGS. 3 and 4 illustrate an embodiment variant in which the relief 25 has a dome shape, and FIGS. 5 and 6 illustrate a variant in which the relief 25 has a contour with substantially the same shape as the housing 40.

[0077] A substantially triangular shape of the relief 25 may increase the extent of the relief surface 25 bearing against the edges of the housing 40 in order to prevent anticlockwise rotation of the cap 20.

[0078] It can be seen in FIG. 6 that the relief 25 with a triangular overall shape may have an inclined edge face 29, which makes it easier for the relief 25 to pass over the upright 34 during the mounting of the cap 20. In this example, the width of the relief 25 remains less than or equal to that of the screw thread 13, so as not to generate too much friction while the cap is being fully screwed on.

[0079] In variants that are not illustrated, the upright 34 is given some other shape, for example a circular arc shape or an interrupted shape.

[0080] The stops 60 may be dispensed with, if necessary, if the retention force provided by the engagement of the relief 25 in the housing 40 is sufficient.

[0081] The number of reliefs 25 may be multiplied and in particular as many reliefs 25 as housings 40 may be provided.

[0082] The number of screw threads 24 may be other than three, for example equal to 1, 2 or 4.

[0083] The housing 40 may have a closed contour, as illustrated, or, in a variant, have an open contour, in particular when the upright 34 is discontinuous.