The invention relates to a device for stopping a container with a neck, as well as a container equipped with such a device.
With regards to containers for medication, a glass bottle is normally used to keep an active ingredient in the form of lyophilisat, in powder form or in a liquid solution. This type of bottle should be watertight to preserve the contents in a satisfactory condition, until its date of use. To hermetically seal a bottle, a device with an elastomer stopper is used which has a plastic cap placed around the stopping device to isolate the contents from the exterior.
WO-A-2007/063218 relates to a stopping device whose cap comprises a ring and a body allowing the locking means to manoeuvre the ring onto the neck of the container. It is also known as WO-A-2008/129144 for integrating a malleable component for transmission of a thrust force to a stopping device, this malleable component is destined to wear off when the thrust force has been effectively transmitted to lead a body into a position where it activates the locking means of a cap on the neck of a container. These known containers are completely satisfactory; in particular when they are used on bottles whose neck has a diameter of 20 mm.
When a stopping device has been led to a configuration where it activates its locking means, it is important that it remains on the neck of the container, without being moved other than in such a way as to clearly show that the contents of the bottle have been made accessible. This is necessary to avoid the risks of wrongful manipulation of the contents of the bottle.
It is this problem that the present invention deals with by proposing a stopping device which, when locking means are activated, is firmly held in position on the neck of a container, without any risk of untimely dismantling.
To this effect, the invention concerns a device for stopping a container with a neck, this device comprises a stopper and a plastic cap, capable of surrounding both the stopper and the neck, the cap comprises a ring, which can surround the stopper and the neck in a raised position and has locking means on the neck, as well as a handling body for the ring provided with the first means for transmitting a thrust force to the ring and second means of activating the locking means of the ring with a thrust force and the second methods of activating the locking mechanism of the ring, this handling body surrounds the ring when it activates its locking means. This device is characterised in that the ring is provided with a continuous outer peripheral collar and the handling body is provided with at least one raised element designed to abut against the continuous outer peripheral collar when it activates the locking means.
Thanks to this invention, the cooperation between the peripheral collar on the one hand, and the raised handling body, on the other hand, guarantees that the handling body is maintained in a position where it activates the locking means, at the point where these locking means remain effective to firmly immobilise the cap onto the neck of a container and prevent any wrongful access of the contents of the container.
According to the beneficial, but not mandatory, aspects of the invention, such a device can incorporate one or several of the following characteristics, taken in any technically admissible combination:
The raised handling body is formed using through an edge with an opening arranged through a peripheral partition of this body, this partition surrounding the ring when the handling body activates the locking means. We can anticipate that this opening abuts one part of the peripheral partition which is concave as seen from the exterior.
The locking means of the ring comprise locking tabs, which extend from an edge of this ring, towards the continuous outer peripheral collar.
The diameter of a circle passing by the external radial parts of the locking tabs has a greater external diameter of the edge from which these tabs extend.
The edge from which the locking tabs extend is continuous and each locking tab is used in an opening with a closed outline, which crosses the ring according to a radial direction in relation to the longitudinal and central axis of the ring.
The ring and the handling body are respectively provided with the first means of retaining and second methods of retaining which work together to hold the handling body in relation to the ring in a waiting position where it does not activate the locking means.
The first means of retaining the ring are arranged on the malleable bands which extend, in a parallel direction to the longitudinal and central axis of the ring, between the continuous outer peripheral collar and the annular edge of the ring from which the locking means extend.
The handling body comprises several raised sections aimed at simultaneously abutting against the continuous outer peripheral collar and are divided around a longitudinal and central axis of the handling body.
The maximum diameter of the continuous outer peripheral collar has a value greater than that of the diameter of an imaginary circle centered on the longitudinal and central axis of the handling body and crossing, on the inside, the raised parts.
The invention also relates to a container, especially a bottle for medications, equipped with a device for stopping such a container as mentioned above.
The invention will be better understood and other benefits of this will appear more clearly in light of the following description of a development method for a stopping device and of a container in compliance with its principle, given solely as an example, and with reference to the attached drawings in which:
In
When a predetermined quantity of product P has been introduced into bottle 1, pipette 2 is withdrawn and a stopping device, 50, is placed on neck 12.
The device 50, comprises an elastomeric stopper 51 adapted to be partially introduced into the mouth 11, while remaining on the side 121 of the collar 13 opposite the bottom 14 of the bottle 1. Once in place in the neck 12, the stopper 51 isolates the contents of the bottle 1 from the exterior.
The device 50 also comprises a cap 52 aimed at recovering and isolating the stopper 51 and the neck 12 in a closed configuration of the stopping device 50.
As shown most particularly in
541 shows the edge of the crown 54 which is oriented towards the bottle 1 in an installed configuration of the cap 52 on this bottle. This edge 541 can be qualified as <<inferior>> in as much as it is oriented towards the bottom in the configuration of
542 shows the upper edge of the crown 54 which is opposed to the section 541. This edge is cut into four openings 543 which cross a cap 544 in the form of a collar which makes up the section of the crown 54 which is intended to surround the ring 53 in a mounted configuration of the cap 52. In practice, the partition 544 comprises one cylindrical section 5441 with a circular section which extends between the edge 541 and a front face rib 5442. Between the edge 542 and the front face rib 5442, the partition 544 is provided with four zones 5443 which are concave seen from the exterior and which are each edged with an opening 543.
5431 shows the edge of an opening 543 which joins zone 5443. Each edge 5431 constitutes a raised section which extends from an area 5443 in direction of the axis X53.
The crown 54 also shows a central opening 545 centred on an axis X54, which is made up of a symmetrical axis for the crown 54, with the exception of its parts formed by the openings 543 and by the zones 5443. 547 shows the edge of opening 545.
The openings 543 have the same geometry and are regularly distributed around the axis X54, with an angular gap of 90°.
The ring 53 is centred on an axis X53 which is aligned with axis X54 and X56 in configuration with the cap 52, this axis being merged with a central axis X52 of the cap 52.
The ring 53 comprises an annular section 531 which defines a central opening 532 through which the upper surface 511 of the stopper 51 can be accessed where needed.
561 shows the internal surface of the cover 56, that is to say its surface turned towards the stopper 51 in a raised configuration of the device 50 on the bottle 1. The cover 56 has two collars 562 and 563 which are centred on the axis X56 and which extend parallel to this axis, each one from the surface 561. The collar 562 has an axial length, measured parallel to axis X56, greater than that of the collar 563.
During the manufacture of the cap 52, the cover 56 is placed on the crown 54 by closing the surface 561 of the edge 542, by introducing collars 562 and 563 in the opening 545 and in joining the cover 56 on the crown 54, next to the edge 542, by fusing several units 564 arranged for this reason on the surface 561 and equally divided around the collar 563. During this operation, the collar 563 is brought into contact with the edge 547.
The cover 56 is provided with a central rigid section 565 surrounded by, a peripheral section 566, also rigid, so that a malleable net 567 connects parts 565 and 566.
When the cover 56 has been fixed onto the crown 54, the crown 54 is covered around the ring 53, in such a way that it delimits the maximum radial boundary of the cap 52, in relation to its central axis X52.
In practice, the geometry of parts 53, 54 and 56 is chosen in such a way that the maximum exterior diameter D54 of the crown 54 has a value less than 16.5 mm, preferably between 15.8 and 16.2 mm, preferably again being equal to 16 mm. In these conditions, when one uses a bottle 1 whose body 16 has a diameter equal to 16 mm, what is normal for certain medications, the cap 52 mounted onto bottle 1 does not exceed or slightly exceeds the body of bottle 1, according to a radial direction in relation to the axis X1. This allows the bottles 1, pre-equipped with stopping devices 50 to be juxtaposed on a shelf of a lyophilisator, with a high density, from a relatively small diameter of the bodies of these bottles, without there being any risk of the bottles being unbalanced by the stopping divides that they support.
The ring 53 comprises five bands 533 which extend from the section 531 to the lower edge of the ring 53 which is formed by a continuous ring pull 534 around the axis X53.
Section 531 comprises a continuous collar 5311, which extends peripherally and externally, in relation to the rest of section 531 and which defines a second edge, or superior edge of the ring 53. The collar 5311 is shown between an upper surface 5312 oriented to the opposite of edge 534 and an inferior surface 5313 oriented towards the edge 534, each of these surfaces being perpendicular to the axis X53. The collar 5311 is edged, radially on the exterior, by a tapered surface 5314 which converges opposite the edge 534.
Each band 533 has an external rib 535 which stands out radially towards the exterior in relation to axis X53 in relation to this tab. Between each pair of two adjacent bands 533 is a window 536, or an open area at a fixed edge, connecting the interior volume of the ring 53 to the exterior.
A locking tab 537 extends from the ring 534 in each window 536. Taking into consideration the intrinsic suppleness of the material constituting the ring 53, each tab 537 can pivot, around its base, in relation to the edge 534. In other words, each tab 537 is in the form of a rib of a ribbed surface, centred on the axis X53 and converging in the direction of the edge 5371. Opposite the edge 5371, centred on the axis X53 and converging in the direction of the edge 534. Thus, the surface 5372 constitutes the outer peripheral upper surface of a tab 537, so that its surface 5373 constitutes an outer, inferior peripheral surface. The respective diameters of the surfaces 5372 and 5373 of a tab are chosen so that a semi-circular spout 5374 is formed at the junction between these surfaces. The spouts 5374 constitute the external radial parts of the tabs 537.
D534 shows the exterior diameter of the edge 534. D537 is the diameter of an imaginary circle C537 centred on the axis X53 and passing through the spouts 5374. In an unconstrained position of the locking tabs 537, the value of the diameter D537 is greater than that of the diameter D534, by at least 1.5 mm. Even when the crown 54 surrounds the locking tabs 537, as seen above, the diameter D537 has a greater value than diameter D534, the difference between these values thus being reduced.
On the interior of the junction between a band 533 and part 531, the ring 53 is provided with ribs 538 for superficially penetrating the stopper 51 to immobilise this stopper in the ring 53 and in the cap 52.
546 shows the internal radial surface of the partition 544. This surface is provided with a peripheral mouth 5461 which extends around the perimeter of the surface 546 and which is intended to receive the ribs 535 of the ring 53 in a holding configuration represented in
The configuration of
When the cap 52 has been thus pre-assembled, it is possible to place the stopper 51 here by introducing it to the interior of the ring 53, until the ribs 538 superficially penetrate the stopper 51, which will ensure that the position of the stopper in the ring is maintained. As a variant, the stopper 51 can be placed on the neck 12 of the bottle 1, as represented in
The bottle 1 equipped with the device 50 can therefore be introduced into, a lyophiliser 300, in one lot of bottles 1. In
Inside the lyophiliser, we can then, as represented in
In the configuration in
Applying stress E′2 has the effect of making the crown 54 of each cap 52 move in the direction of the bottom 14 of each of the bottles 1, as represented by the passage from the configuration in,
The annular section 531 thus makes contact with the upper surface 511 of the stopper 51 which halts the progression of the ring 53 in the direction of the base 14. The continued application of the stress E2 on the crown 54 of each device 50 has the effect of driving the rib 535 of each band 533 to the exterior of the mouth 5461 by elastic deformation of the bands 533, which allows the crown 54 to successively attain the position of
This movement also has the effect of causing the edges 5431 of the notches or openings 543 to abut against the surface 5313 of the collar 5311 which is oriented towards the edge 534. D531 shows the maximum diameter of the continuous outer peripheral collar 5311. This diameter is that of the edge of the junction between the surfaces 5313 and 5314. C543 shows an imaginary circle centred on an axis X54 and close, on the interior, to the edges 5431 of the notches or openings 543. When the zones 5443 of the partition 544 are not subject to any action by the collar 5311, the value of the diameter D543 is less than the value of the diameter D531. The zones 5443 are elastically deformed by sliding against the surface 5314, while passing from the configuration of
If a withdrawal stress E3 of the crown 54 is exerted on this, as represented in
The result of this is a particularly effective locking of the crown 54 around the ring 53, in the configuration of
In the configuration of
It will be appreciated by those skilled in the art that changes could be made to the embodiments described above without departing from the broad inventive concept thereof. It is understood, therefore, that this invention is not limited to the particular embodiments disclosed, but it is intended to cover modifications within the spirit and, scope of the present invention as defined by the appended claims.
Number | Date | Country | Kind |
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1059683 | Nov 2010 | FR | national |
This application is a section 371 of International Application No. PCT/EP2011/070609, filed Nov. 22, 2011, which was published in the French language on May 31, 2012 under International Publication No. WO 2012/069436 which claims the benefit of French Patent Application No. 1059683, filed Nov. 24, 2010, the disclosures of which are incorporated herein by reference.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2011/070609 | 11/22/2011 | WO | 00 | 5/24/2013 |