The present invention relates to a closure of a container.
There are known closures of the type described in the patent WO2017/109599. This closure comprises:
A drawback of this constructive solution is linked to the fact that the covering is directly reachable by a child who could then be able to open the closure, accessing the contents. Typically containers of this type are used for containing drugs or other products for which overdosing should be avoided.
The technical task set and the objects specified are substantially attained by a closure of a container and opening method of the closure comprising the technical characteristics as set out in one or more of the accompanying claims.
Further characteristics and advantages of the present invention will become more apparent from the following indicative and therefore non-limiting description of a closure of a container as illustrated in the appended drawings, in which:
In the appended figures, reference number 1 denotes a closure of a container.
The closure 1 suitably comprises a capsule 10.
This capsule in turn 10 comprises a cap 2 that can be associated with a container. The cap 2 comprises a frangible mouth 20.
In particular, the cap 2 can be associated with a mouth of the container. In this regard the cap 2 comprises an inner annular surface comprising a threading 21 suitable to interact with a corresponding threading fashioned on the container. The cap 2 suitably comprises an annular seat 32 designed to receive an end of the mouth of the container.
The capsule 10 further comprises a cutter 3. The cutter 3 comprises a cutting edge 30 designed to open said frangible mouth 20.
The capsule 10 further comprises a covering 4 of the cutter 3.
Suitably both the covering 4 and the cutter 3 are made of plastic.
The covering 4 suitably comprises a security strip 400. The security strip 400 must be removed to allow the opening of the container closed by the capsule 1.
The capsule 10 further comprises transmission means 50 for transmitting a rotary component of a movement of the covering 4 to the cutter 3. The transmission means 50 are toothed.
The transmission means 50 are partly fashioned on a surface of the covering 4 (suitably turned inwards) and partly fashioned on a surface of the cutter 3 (suitably turned outwards) which mutually face each other. The transmission means 50 mutually interact with each other and are thus rigidly coupled to the rotation of said cutter 3 and the covering 4.
The capsule 10 comprises guide means 900 which enable a rotation-translation of the covering 4 which draws said cutter 3, determining the passage of the covering 4 and the cutter 3 from a resting configuration to an operating configuration.
In the resting configuration, the cutter 3 is in a start-stroke position and the frangible mouth 20 is intact (this is the situation illustrated in
In the operating configuration the covering 4 is rotatingly integral with the cap 2 by toothed gear means 25 fashioned on the cap 2 and on the covering 4. In fact in the resting configuration they are spaced apart while in the operating configuration they face each other, mutually meshing.
The product in the tank 8 is advantageously powdered or granular material. This product is a solute intended to dissolve in a substance (solvent) contained in the container. The cutter 3 and the covering 4 are physically distinct pieces. Advantageously the cutter 3 is a single piece. The cutter 3 is a body that defines a cavity 33 inside in which it is possible to house at least one part of the product (solute). Similarly the cap 2 is a single piece.
The closure 1 also comprises a capsule cover 11 that surmounts the covering 4. The covering 4 and the capsule cover 11 in a first configuration are axially neared to one another along an axial direction 40. In a second configuration they are moved away from one another along the axial direction 40. The axial direction 40 is identified by an axis 300 along which the movement of the cutter 3 from the resting configuration to the operating configuration takes place.
Advantageously the cutter 3 also comprises a widening zone 31, wherein, as it moves away from the cutting edge 30, the transversal section of the cutter 3 increases (and therefore the transversal section of the tank 8). This “transversal” section is evaluated with respect to an axial direction of screwing of the covering 4 on the cap 2. In particular, there is a widening of the section of the cutter 3 which is orthogonal to the axial direction of screwing of the covering 4 on the cap 2. As shown by way of example in the appended figures, the widening area 30 is a countersink.
This widening zone 30 makes it so the tank 8 cannot be delimited at the top by the cutter 3 due to problems related to the fact that such a piece is made by moulding. The covering 4 and cutter 3 are however in direct contact to minimise the possible deterioration of the solute present in the tank 8 caused by moisture.
In this regard the covering 4 defines an annular groove 43 into which one end of the cutter 3 is inserted that is located on the opposite side with respect to the cutting edge 30.
The passage from the resting configuration to the operating configuration is associated with a cutting of the frangible mouth 20 that defines an arc of circumference that subtends an angle at the centre comprised between 250° and 300°, in particular comprised between 260° and 280°. This makes it possible to cut the frangible mouth 20 without running the risk that the same can fall inside the container (and would in fact prevent the subsequent extraction of the product present in the container). In this regard, one end of the cutter 3 comprises a circular perimeter and the cutting edge 30 involves less than 25% of said perimeter; the remaining parts of the perimeter extend along a same imaginary plane (which is suitably orthogonal to the line of movement of the cutter 3).
The closure 1 suitably comprises disengageable means 6 for transmitting an unscrewing torque from the capsule cover 11 to the covering 4. The unscrewing torque, in a configuration wherein the covering 4 and the cap 2 are integral with each other, allows the unscrewing of the capsule 10 from the container. In fact in this case the gear means 25 are operatively connected and the unscrewing torque determines the unscrewing of the cap 2 from the container by means of the threading 21. This makes is possible to open the closure 1 like a normal cap once the product present in the tank 8 inside the container has been released. The disengageable means 6 are afforded partly on the capsule 10 and partly on the capsule cover 11. The disengageable means 6 for unscrewing the capsule 10 are mutually engaged in the first configuration and mutually disengaged in the second configuration. In this way in order to allow the unscrewing of the cap 2 and therefore access to the product, a movement is required which envisages a compression and a joint rotation of the capsule cover 11, an operation which has proved to be very complex for young children. In this sense the closure 1 can therefore be defined as “child proof”.
The capsule cover 11 and covering 4 respectively comprise:
Suitably the disengageable means 6 for transmitting an unscrewing torque are fashioned partly in the first base 71 and partly in the second base 72. The disengageable means 6 for transmitting an unscrewing torque comprise at least one tooth 9 which in the second configuration is inserted in a corresponding housing 90. The tooth 9 and the housing 90 are fashioned one on the first base 71 and one on the second base 72.
Advantageously there is a plurality of teeth which engage in corresponding housings. Preferably the teeth extend radially.
The closure 1 can also comprise transmission means 5 for transmitting a torque from the capsule cover 11 to the capsule 10 which determines the above-described rotation-translation of the covering 4 and of the cutter 3 and the passage from the resting configuration to the operating configuration. In an alternative, non-preferred solution the means 5 could be absent and in this case the disengageable means 6 could be used not only to transmit the unscrewing torque, but also to perform the passage from the resting configuration to the operating configuration.
The transmission means 5 for transmitting a torque from the capsule cover to the capsule which determines the rotation-translation of the covering 4 and of the cutter 3 comprise first and second abutments 51, 52 which are fashioned respectively in said first lateral wall and partly in said second lateral wall 701, 702. The first abutments 51 comprise first tabs 501 that extend towards the inside of the first lateral wall 701; the second abutments 52 comprise second tabs 502 that extend towards the outside of the second lateral wall 702.
A first rotation direction of the capsule cover 11 with respect to the covering 4 determines the mutual enmeshing of the first and second abutments 51, 52; a second direction of rotation, opposite the first, determines a mutual sliding of the first and second abutments 51, 52 (the sliding ensures that no torque is transmitted). The first rotation direction will thus allow the transmission of the torque to the covering 4 and the screwing of the covering 4 along the cap 2 (with the passage from the resting configuration to the operating configuration). The second rotation direction does not produce a movement of the covering 4. Typically a chattering noise is produced, generated by the sliding of the first tabs 501 on the second tabs 502.
The guide means 900 comprise threaded connection means 901 which couple the covering 4 and the cap 2, enabling a rotation-translation of the covering 4 and of the cutter 3 with respect to said cap 2, passing from the resting configuration to the operating configuration. The means 901 as exemplified in
A further object of the present invention is an opening method of a closure 1 having one or more of the characteristics described hereinabove.
The method conveniently comprises the steps of:
The present invention makes it possible to minimise the risk that children are able to access the contents of a container.
The invention as it is conceived is susceptible to numerous modifications and variations, all falling within the scope of the inventive concept characterising it. Furthermore, all the details can be replaced with other technically-equivalent elements. In practice, all the materials used, as well as the dimensions, can be any according to requirements.
Number | Date | Country | Kind |
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102018000002519 | Feb 2018 | IT | national |
Filing Document | Filing Date | Country | Kind |
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PCT/IB2019/050588 | 1/24/2019 | WO | 00 |