The present invention concerns a closure device that is intended to be mounted on the neck of a container also referred to as a reservoir. The container is for example intended to receive a pharmaceutical product in fluid form and may be fitted with a dispensing pump, possibly a metered dispensing pump.
In known manner, pharmaceutical products are offered for sale in bottles usually comprising a reservoir having a neck on which is mounted a dispensing tip forming a metering pump, for example.
The dispensing tip is conventionally protected by a closure device including a cap intended to be placed on the container or to be removed from that container by relative movement between the cap and the container including an axial component.
Thus it is known to equip the closure device with means for snap-fitting the cap onto the container that can be activated by substantially axial relative movement between the cap and the container. In this first case, the cap is placed on the container or removed from that container by a relative movement between the cap and the container including only an axial component. It is also known to use a cap having an interior screwthread screwed onto an exterior screwthread of the neck of the container. In this second case, the cap is placed on the container or removed from that container by a relative movement between the cap and the container including an axial component and a rotation component producing a screwing action.
To access the dispensing tip, it then suffices, in the first case, to pull axially on the cap, a moderate traction force generally being sufficient to unlock the snap-fitting means by overcoming a localized resistance and, in the second case, to unscrew the cap, by applying a rotation force that is likewise moderate.
This makes it possible to render the dispensing tip accessible to everyone, including persons with little strength, for example elderly persons or convalescent persons.
The drawback is that a child can also easily access the dispensing tip and therefore the contents of the reservoir, which may be hazardous in some cases.
Moreover, as regulations evolve, more and more countries require bottled pharmaceutical products placed on sale in their territory to have secure closure means commonly referred to as child resistant closure (CRC) packaging. Such secure means for example enable a cap to be removed only by movements that are a priori mutually contradictory. These means are often difficult to use, however, and often require a relatively high physical force.
Also known, from documents CH 613 907 and US 2004/149756, are devices for closing a container, of the type including a cap intended to be placed on the container or to be removed from that container by a relative movement between the cap and the container including an axial component, the cap carrying at least two essentially diametrically opposite security projections, each provided with an axial locking abutment that can be moved radially between:
The object of the invention is to propose a device for closing a container provided with secure closure means that are effective but simple to use.
To that end, the invention relates to a device for closing a container, of the type including a cap assembly including a cap intended to be placed on the container or to be removed from that container by a relative movement between the cap and the container including an axial component, the cap carrying at least two essentially diametrically opposite security projections, each provided with an axial locking abutment that can be moved radially between:
It is noted that the ovalization of a ring by radial compression causes in particular, on one hand, a reduction in the diameter of the ring which corresponds to the compression direction and, on the other hand, an increase in the diameter of the ring which corresponds to a direction essentially perpendicular to the compression direction.
By virtue of the invention, in order to separate the cap from the retaining member, all that is necessary, before making the usual motion of removing the cap, is to radially grip the security ring in order to ovalize the latter, with a first hand. This places the axial locking abutment of each security projection in its separation position allowing the cap to be released from the container.
Then, with a second hand, the cap is separated from the container by the usual motion, effecting a movement between the cap and the container comprising an axial component.
Generally speaking, a child will not combine these two motions without being prompted to do so, such that the closure of the container is effectively secured with respect to accidental handling by a child.
Furthermore, the force which a user has to provide in order to separate the cap from the retaining member remains moderate, or even lower than that which is required by a conventional device for closing a container. Indeed, the ovalization of the security ring is obtained by means of pressure which remains moderate and places the axial locking abutment of each security projection in the separation position, allowing the cap to be released from the container, without overcoming a localized resistance.
Finally, the means for snap-fitting the security ring onto the cap, which can be activated by means of an essentially axial relative movement between the security ring and the cap, and which are active regardless of whether or not the security ring is ovalized, make it possible to keep the security ring in place on the cap regardless of whether or not it is ovalized.
The fact that these two elements are connected by snap-fitting has the advantage that only the ring is deformed upon ovalization, and not the cap. It is thus for example possible to make the cap from a more rigid material than that of the ring in order to provide better protection for the device.
The invention may also comprise the following optional features.
Advantageously, the security ring is generally oval in shape, the two security projections being essentially aligned with the minor axis of the security ring, the security ring being ovalized by deforming it elastically so as to reduce its major axis.
Preferably, each security projection arranged on the security ring extends radially, from the internal surface of the security ring toward the security projection diametrically opposite, through a notch or an orifice of the cap.
This makes it possible to ensure a good hold of the security ring on the cap, while permitting effective engagement between the security projections carried by the ring and the axial locking abutment of the container.
The means for snap-fitting the security ring onto the cap may comprise at least one pair of snap-fitting projections, for example three pairs of snap-fitting projections, the snap-fitting projections of each pair being arranged essentially diametrically opposite one another on the internal surface of the security ring by being angularly offset with respect to the security projections, the snap-fitting projections engaging in a form-fitting manner with complementary snap-fitting orifices created in the cap, so as to remain in a form fit in these snap-fitting orifices upon ovalization of the security ring.
Advantageously, each snap-fitting orifice is delimited by a ramp for retracting the corresponding snap-fitting projection designed to engage with this snap-fitting projection before form-fitting this snap-fitting projection with the corresponding snap-fitting orifice, taking into account the essentially axial snap-fitting relative movement between the security ring and the cap.
According to one possible variant, the means for snap-fitting the security ring onto the cap may comprise at least one annular channel portion created in the cap, into which a portion of the security ring at least partially fits, the security ring remaining fitted in the channel portion upon ovalization of the security ring.
The annular channel portion may be delimited by a ramp for radial elastic expansion of the security ring, designed to engage with this security ring before form-fitting of this security ring, taking into account the essentially axial snap-fitting relative movement between the security ring and the cap.
The security ring may also be angularly immobilized around the cap by immobilization means having complementary shapes created on the security ring and the cap, at least one part of these immobilization means remaining active upon ovalization of the security ring.
The invention also relates to a medical device comprising a container and a closure device for this container, wherein the closure device is according to the invention.
The medical device according to the invention may also comprise the following optional features:
The invention will be better understood in light of the appended exemplary, non-limiting figures, in which:
Shown in
The medical device 20 also comprises a device 23 for closing the container 21.
The closure device 23 comprises a cap 24 designed to be put in place on the container 21 or to be removed from this container 21 by means of a relative movement between the cap 24 and the container 21 comprising an axial component parallel to the axis A.
More particularly, in order to retain the closure device 23 on the container 21, the medical device 20 comprises means 25 for snap-fitting the cap 24 onto the dispensing tip 22, which can be activated by means of an essentially axial relative movement between this cap 24 and this dispensing tip 22.
The snap-fitting means 25 comprise a security ring 26 mounted around the cap 24 so as to allow radial elastic deformation thereof by ovalization when the security ring 26 is compressed radially in a “compression” direction, as will be set out in more detail below.
The snap-fitting means 25 also comprise complementary axial locking abutments carried by the dispensing tip 22 and the security ring 26.
Thus, the dispensing tip 22 has, in a manner known per se, a dispensing nozzle 27 which can be activated by a user of the medical device 20 by moving this dispensing nozzle 27 axially counter to an elastic biasing force
Moreover, as shown in
Furthermore, as shown in
The two security projections 32 are arranged on the internal surface of the security ring 26, being essentially aligned in a direction essentially perpendicular to the compression direction.
The axial locking abutments 29, 30 of the dispensing tip 22 and of the security ring 26 therefore form the complementary axial locking abutments of the snap-fitting means 25.
Each axial locking abutment 30 can be displaced radially. Indeed, the radial position of each axial locking abutment 30 carried by the security ring 26 changes, by ovalization of this security ring 26, from an “engagement” position toward a “separation” position.
In the cooperation position (shown in
The cooperation position is furthermore favored by an elastic biasing established by a material having an elastic effect being used to make the security ring 26.
In the separation position (shown in
The dispensing tip 22 thus forms a member for retaining the cap 24 on the container 21.
Since the axial locking abutment 28 carried by the dispensing tip 22 is axisymmetric, this makes it possible to place the cap 24 on the dispensing tip 22 in any angular position about the axis A.
Preferably, as shown in
In order for the axial locking abutments 29, 30 of the dispensing tip 22 and of the security ring 26 to be able to engage, each security projection 32 extends radially, from the internal surface of the security ring 26 toward the security projection 32 diametrically opposite, through a notch 34 in the cap 24. It is thus apparent, as shown in
The closure device 23 also comprises means 36 for snap-fitting the security ring 26 onto the cap 24. These snap-fitting means 36 can be activated by means of an essentially axial relative movement between the security ring 26 and the cap 24. It is to be noted that the means 36 for snap-fitting the security ring 26 onto the cap 24 are active regardless of whether or not the security ring 26 is ovalized.
The snap-fitting means 36 shown in
The snap-fitting projections of each pair 38a, 38b, 38c are arranged essentially diametrically opposite one another on the internal face of the security ring 26 and are angularly offset with respect to the security projections 32 designed to engage with the collar 28 of the dispensing tip 22. The three pairs of snap-fitting projections 38a, 38b, 38c engage by form fit with the three pairs of complementary snap-fitting orifices 40a, 40b, 40c of the cap 24 so as to remain in a form fit in these snap-fitting orifices 40a, 40b, 40c upon ovalization of the security ring 26. Thus, the security ring 26 always remains snap-fitted on the cap 24.
Each snap-fitting orifice 40a, 40b, 40c is furthermore delimited by a ramp 42a, 42b for retracting the corresponding snap-fitting projection 38a, 38b, 38c.
Taking into account the relative movement for snap-fitting the security ring 26 onto the cap 24, the three pairs of snap-fitting projections 38a, 38b, 38c of the security ring 26 are thus arranged so as to engage with the three pairs of snap-fitting orifices 40a, 40b, 40c of the cap 24, each via these retracting ramps 42a, 42b before form-fitting each snap-fitting projection in the corresponding snap-fitting orifice 40a, 40b, 40c.
As stated above, in the separation position (shown in
There follows a description of the principal steps of handling the medical device 20 according to the invention.
Reference is first made to the medical device 20 in its closed configuration as shown in
In order to separate the cap 24 from the dispensing tip 22, the user radially compresses the security ring 26 in the compression direction shown by arrows 43 in
Since the security projections 32 are arranged on the internal surface of the security ring 26 so as to be essentially aligned with its minor axis which extends upon ovalization, the security projections 32 move away from the dispensing tip 22. This releases the axial locking abutments 30, carried by the security ring 26, from the axial locking abutment 29 carried by the dispensing tip 22.
Then, in accordance with a usual motion, the user separates the cap 24 from the container 21 by moving the cap 24 axially with respect to the dispensing tip 22, in the direction of the arrow 46 shown in
It is to be noted that the means 36 for snap-fitting the security ring 26 onto the cap 24 remain active regardless of whether or not the security ring 26 is ovalized or even if the cap 24 is removed 46 from the container 21. Indeed, as shown in
In order to re-close the medical device 20, the user snap-fits the cap 24 onto the dispensing tip 22 by moving it essentially axially (parallel to the axis A) toward this dispensing tip 22.
It is to be noted that a retracting ramp 50 is created on the collar 28 of the dispensing tip 22.
Thus, when the cap 24 is moved so as to snap-fit it onto the dispensing tip 22, each security projection 32 is retracted by engagement with the retracting ramp 50 carried by the dispensing tip 22 (and thus the container 21). This retraction, which allows the security projections 32 to pass the collar 28, thus precedes the axial locking abutments 29, 30 of the dispensing tip 22 and of the security ring 26 being placed in the cooperation position.
Once the axial locking abutments 29, 30 are in engagement, the cap 24 is held on the dispensing tip 22, as shown in
There follows, with reference to
In this case, the dispensing tip 22 is a dropper, the operation of which is known per se. The dispensing tip 22 is screwed onto a threaded neck 52 of the container 21.
Furthermore, the means 36 for snap-fitting the security ring 26 onto the cap 24 comprise in this case an annular channel 54 created in the cap 24. The security ring 26 is form-fitted into this annular channel 54 and remains form-fitted therein upon ovalization of the security ring 26, preventing the cap 24 and the security ring 26 from being separated.
As shown in
It is to be noted that the annular channel 54 is delimited by a ramp 56 for the radial elastic expansion of the security ring 26. This radial elastic expansion ramp 56 is annular and designed to engage with this security ring 26 before form-fitting of this security ring 26 in the annular channel 54, taking into account the essentially axial snap-fitting relative movement between the security ring 26 and the cap 24.
As in the second embodiment, the security ring 26 is form-fitted into the annular channel 54 and remains form-fitted therein upon ovalization of this security ring 26. Similarly, each security projection 32 of the security ring 26 extends radially, from the internal surface of the security ring 26 toward the security projection 32 diametrically opposite, through an orifice 55 in the cap 24.
However, in the third embodiment of the invention, the closure device 23 comprises angular immobilization means 57 having complementary shapes, created on the security ring 26 and the cap 24. In the example shown in
The immobilization means 57 permit the angular immobilization of the security ring 26 in the channel 54. At least part of these immobilization means 57 remain active upon ovalization of the security ring 26.
In the case of
In the case of
The invention is not restricted to the embodiments presented hereinabove and other embodiments will be readily apparent to a person skilled in the art.
In particular, it is to be noted that the axial locking abutment 29 may be carried by a member for retaining the cap 24 on the container 21, other than a tip for dispensing product. This retaining member may be mounted on the container 21 or made in one piece with this container 21.
Furthermore, in order to retain the closure device 23 on the container 21, it is possible to provide means other than means 25 for snap-fitting the cap 24 onto the dispensing tip 22, for example means for screwing the cap 24 onto a member for retaining the cap 24 mounted on the container 21 or made in one piece with this container 21.
Number | Date | Country | Kind |
---|---|---|---|
1551229 | Feb 2015 | FR | national |