Patent Grant
9126714
The present invention relates to a paper container, for example having one or more pieces of stretched paper, with a suitable closing element.
In particular, the object of this invention is a container made of paper provided with a closing cap, also made of paper material (e.g. extensible paper) which is removably engageable, for example by screwing/unscrewing, to an opening of the container.
Furthermore, the invention concerns a process and an apparatus for the manufacture of the above-mentioned container in paper material and for coupling a respective cap to the container.
As is known, the use of containers made of paper material, especially for the storage of food products, is widespread on the market.
It is also known that some types of containers require the use of caps or covering elements able to maintain the product more effectively insulated and contained, if not sealed (air-tight and liquid-proof) internally of the compartment containment. For example, the invention may relate to beakers for containing soft drinks such as orange juice or sweet drinks, coffee. In order to avoid spillage or contamination of the liquid suitable plastic caps have been made of moulded plastic material, able to snap-fit to the reinforced rim of the paper beaker.
It is clear that this type of product, although widespread on the market, has problematic issues involving the disposal of various materials (paper and plastic) present within the same product. In addition, the cap-container coupling and therefore the sealing performance of the container can be easily compromised, due especially to the type of coupling realised there-between. For example, by radially squeezing the beaker, the plastic cap can easily disengage. In order to solve at least a part of the mentioned drawbacks, in British patent GB 688545, bottles and screw caps are described, which are screwable at a thread that is exclusively external on the outer surface of the bottle neck. The caps can be made of paper impregnated with polythene, while the bottle is clearly composed of rigid material, though unspecified.
Patent GB643674 relates to an improvement for closing caps of bottles, and illustrates a structure in which the paper cap, appropriately threaded, is extremely complex and defined by a plurality of superposed flat layers of paper, bonded together and suitably deformed. It is clear that this type of product too is complex and expensive to implement, as well as being rather unreliable.
A further container made of paper material, with a threaded closing element, is presented in document GB 428909, which illustrates a beaker structure in which the upper portion thereof is threaded in order to receive an inverted cap, the corresponding threads of which are in use, arranged internally of the chamber of the beaker. With reference to this invention too, however, certain drawbacks are highlighted, in particular the sealing requirement that caps made of threaded paper material should have, but which they do not manage to guarantee.
Document GB 468161 addresses this drawback, pointing out the difficulty of realising threads on the container neck and cap that essentially coincide, so as to ensure the best possible resistance to fluids in the container. In order to obviate the drawback, the above-mentioned document GB 468161 teaches realising threads on the container and caps that are slightly different, so that, when the enmeshing force is generated during coupling, a further force is generated that improves the container seal. It is clear however that this type of solution involves the realising of two different devices, the first to create the thread on the paper container, the second to realise the different thread on the cap, in a controlled differentiated way.
Each type of container also involves realising machines dedicated to the above-mentioned aims. From the point of view of the production methodologies of containers with caps made of paper material, mention is exclusively made of GB patent GB2382873, illustrating a method for producing a threaded screw cap. In particular, the apparatus used exploits the presence of a plurality of expandable areas located internally of the cap structure to be realised, which are moved radially and impress a groove-shaped spiral on the inner surface of the cap side wall. It should however be noted that the methodology adopted by the above-cited GB patent has the drawback of the realising of interrupted threads.
In fact, the expansion of the male-threaded angular sectors internally of the cap necessarily leaves undeformed zones on the cap due to the necessary forces during the opening stage. This leads to interruptions in the profile of the thread, which consequently generate dealignment of the cap during the screwing stage and/or deformations on the cap itself such as to cause the cap to lose seal on the container. With the aim of guaranteeing a sealing of the closure, a solution described in European patent EP 0453573 relates to a beaker that is capped at an end thereof by a cap which, at a perimeter interface edge between cap and glass, exhibits a stamped annular sealing gasket.
In this situation the technical objective at the base of the present invention is to substantially obviate all the above-mentioned drawbacks.
A first aim of the invention is to provide containers made of paper material, provided with caps, also made of paper and removably engageable, for example screwable, which are however able to guarantee an effective seal. A further aim of the invention is to provide containers and caps therefore which are easy to realise. Further, an aim of the invention is to realise containers and relative caps that while guaranteeing optimal seal to the product contained internally, also enable a simple opening and closing, repeated many times, of the container.
An aim of the invention is also to make available a methodology of realisation of the container-cap system that can be used during production and also during the step of packing, thus guaranteeing considerable advantages in both situations.
An auxiliary aim of the invention is to make available a production method and a relative closing system that enables sealing the contents, while maintaining the possibility, once the container is open, of removably re-closing it.
A further auxiliary aim is to provide the possibility of customising the profile of the container/cap thanks to the possible adoption of extensible paper.
At least one of the set aims is substantially attained by a process for realising a container made of paper material and a container as described in one or more of the accompanying claims.
Aspects of the invention are now described in summary form.
A 1st aspect concerns a process for realising a reclosable container, starting from a sheet comprising following steps:
predisposing, starting from a sheet material, a structure defining internally thereof at least a chamber, the chamber exhibiting at least an access delimited by a portion (3a) of wall of the structure and by a free edge of the wall;
predisposing, starting from a sheet material, a closing element, having a base wall and a lateral wall emerging from the base wall;
predisposing, starting from a sheet material, a sealing layer, optionally placed superposingly on the base wall and on at least a portion of the lateral wall of the closing element;
associating the closing element and the sealing layer to the structure such as at least partly to close the access, the lateral wall of the closing element being positioned at the portion of the wall of the structure and the sealing layer comprising a lateral portion interposed between the portion of the lateral wall and the lateral wall of the closing element; and
deforming at least a part of the lateral wall of the closing element and at least a part of the portion of wall of the container with the lateral portion of the layer interposed there-between.
In a 2nd aspect, in accordance with the 1st aspect, the sealing layer is located superposingly with the base wall, and with at least a portion of the lateral wall of the closing element.
In a 3rd aspect according to the first or second aspect, the predisposing of the closing element and the sealing layer comprise a contemporaneous deforming such that the sealing layer follows the profile of at least the base body and the lateral wall of the closing element.
In a 4th aspect, in accordance with any one of the preceding aspects, the step of deforming is successive to the step of association.
In a 5th aspect, in accordance with any one of the preceding aspects, the step of deforming comprises contemporaneous deforming of the lateral wall of the closing element, the part of the portion of wall of the container and the lateral portion of the layer interposed there-between
In a 6th aspect, in accordance with any one of the preceding aspects, the step of deformation comprises making identical the shape of the part of the lateral wall of the closing element, of the part of the portion of wall of the container, and the lateral portion of the layer interposed there-between.
In a 7th aspect, in accordance with any one of the preceding aspects, the base wall and the lateral wall of the closing element are realise in at least a first material, and the sealing layer is realised in a second material that is different from the first material.
In an 8th aspect, in accordance with any one of the preceding aspects, the base wall and the lateral wall of the closing element are realised such that following the deforming step an adhesion force per unit of surface is defined between the portion of wall of the container and the lateral portion of the layer that is significantly higher than an adhesion force per unit of surface between the lateral portion of the layer and the lateral wall of the closing element. In other words, the surface of mutual contact between the closing element and the sealing layer generates an overall coupling force that is lower than the force joining the layer (and in particular the lateral portion of the layer) to the surface of the wall of the structure or container.
In a 9th aspect, in accordance with any one of the preceding aspects, the base wall and the lateral wall of the closing element are realised in at least a first material, and the sealing layer is realised in a second material that is different to the first material, the first and the second material being selected such that following the deforming step an adhesion force is defined per unit of surface between the portion of wall of the container and the lateral portion of the layer which is considerably greater than an adhesion force per unit of surface between the lateral portion of the layer and the lateral wall of the closing element.
In a 10th aspect, in accordance with any one of the preceding aspects, the second material with which the sealing layer is realised comprises at least a continuous plastic film extending to close the chamber or a part thereof and able to realise a substantial seal against air and gases used in the food industry for defining controlled-atmosphere environments.
In an 11th aspect, in accordance with any one of the preceding aspects, the first material of which the closing element is realised is one selected from among the group, comprising: a paper material, a paper material with a covering film such as for example a single polyolefin, a paper material with a plurality of covering films among which at least a plastic film, for example a polyolefin, and at least a metal film, for example made of aluminium.
In a 12th aspect, in accordance with any one of the preceding aspects, at least one layer of the base wall and the lateral wall of the closing element destined to be faced towards and in contact with the sealing layer is made of a material that is not chemically compatible with the second material.
In a 13th aspect, in accordance with any one of the preceding aspects, the structure is realised in a material selected from among the group, comprising: a paper material, a paper material with a covering film such as for example a single polyolefin, made of a paper material with a plurality of covering films among which at least a plastic film, for example a polyolefin, and at least a metal film, for example made of aluminium.
In a 14th aspect, in accordance with any one of the preceding aspects, at least a layer of the container wall destined to be facing towards and in contact with the sealing layer is realised in a chemically compatible material (i.e. able to chemically bond to achieve an effective attachment) with the second material.
In a 15th aspect, in accordance with any one of the preceding aspects, both the second material and the material of the at least a layer of the wall of the container destined to be facing towards and in contact with the sealing layer comprise a polyolefin.
In a 16th aspect, in accordance with any one of the preceding aspects, a part of the material forming the lateral portion of the sealing layer comprises a plastic material.
In a 17th aspect, in accordance with any one of the preceding aspects, at least a part of the material forming the portion of the wall comprises a plastic material.
In an 18th aspect, in accordance with any one of aspects 16 and 17, during the deforming stage, the plastic material or at least a part of the plastic material is brought to a softening or melting temperature of the plastic material, the lateral portion consequently sealedly welding to the portion of the wall.
In a 19th aspect, in accordance with any one of the preceding aspects, the step of deformation comprises realising grooves on the part of the lateral wall of the closing element, on the part of the portion of wall of the container and on the lateral portion of the layer interposed there-between.
In a 20th aspect, in accordance with any one of the preceding aspects, the step of deformation comprises realising grooves defining coupling/decoupling surfaces for rotating between the closing element and the container.
In a 21st aspect, in accordance with any one of the preceding aspects, the step of predisposing a container made of paper material defining internally thereof at least a housing chamber, the chamber exhibiting at least an access delimited by a portion of wall of the structure and by a free edge of the wall.
In a 22nd aspect, in accordance with any one of the preceding aspects, the step of associating comprises associating the container to the closing element made of paper material and to the sealing layer in such a way as to insert the base wall of the closing element into the container compartment, at least partially through the access, the lateral wall of the closing element being inserted internally of the container compartment at the wall portion of the container and the sealing layer realising a sealed closure of the containing compartment.
In a 23rd aspect, in accordance with any one of the preceding aspects, the step of deformation enables obtaining grooves on the container, on the sealing layer and on the closing element in reciprocal coupling conditions thereof.
In a 24th aspect, in accordance with any the preceding aspect, the grooves define respective threads extending on the surface over a development of more than 120°.
In a 25th aspect, in accordance with any the preceding aspect, the grooves define respective threads extending on the surface over a development of more than 360°.
In a 26th aspect, in accordance with any the preceding aspect, the grooves define respective threads extending on the surface over a development of more than 540°.
In a 27th aspect, in accordance with any one of the preceding aspects, the lateral portion of the sealing layer extends along the grooves.
In a 28th aspect, in accordance with any one of the preceding aspects, the step of deformation comprises a substep of inserting a shaped portion into the cavity of the structure, the shaped portion exhibiting gullies facing externally of the shaped portion and further substeps of: predisposing mobile deforming organs external of the structure exhibiting ribs substantially complementarily-shaped to the gullies of the shaped portion; and moving the mobile organs nearingly to the structure such as to at least partially insert the ribs internally of the gullies.
In a 29th aspect, in accordance with the preceding aspect, corresponding parts of the lateral wall of the closing element, the lateral portion of the layer and the portion of lateral wall of the container are trapped between the gullies and ribs and are deformed, following the nearing, such as to define the grooves for coupling/decoupling by rotation between the closing element and the container.
In a 30th aspect, in accordance with the preceding aspect, the substep of moving the organs comprises a nearing thereof to the shaped portion in a direction contained in a perpendicular plane to a development axis of the container, the nearing direction being for example a radial direction.
In a 31st aspect, in accordance with one of aspects from 27 to 29, each mobile organ exhibits respective ribs, the ribs of all the mobile organs defining a continuous helical rib when in gripping conditions on the container.
In a 32nd aspect, a container made according to the process of any one of the preceding aspects is disclosed.
In a 33rd aspect, a container is provided, for example made according to the process of any one of the preceding aspects, comprising a structure made of paper material defining a housing chamber, exhibiting at least an access delimited by a portion of wall and a free edge;
a closing element made of a paper material having a base wall (6), a lateral wall (7) emerging from the base wall; and
a sealing layer for closing the housing chamber.
In a 34th aspect, according to the preceding aspect, the closing element in an engaged condition, coupled to the structure in order to at least partly close the access, with the lateral wall of the closing element positioned at the portion of the wall of the structure, in the engaged condition of the closing element, the sealing layer is located superposingly on the base wall and on at least a portion of the lateral wall, the sealing layer comprising a lateral portion interposed between the portion of the wall of the structure and the lateral wall of the closing element, and sealingly fixed to the portion of the wall, and
the closing element is separable from the structure and displaceable into a disengaged condition from the structure, without compromising the sealing fixture of the lateral portion to the portion of the wall of the structure.
In a 35th aspect, according to any one of the preceding claims from 32 to 34, the lateral portion of the lateral wall of the closing element, the portion of wall of the container and the lateral portion of the layer interposed there-between have an identical shape, obtained by contemporary deformation thereof.
In a 36th aspect, according to any one of the preceding claims from 32 to 35, the base wall and the lateral wall of the closing element are realised in at least a first material and the sealing layer is realised in a second material, different to the first material.
In a 37th aspect, according to the preceding claim, the first and the second material are selected so that, following the deformation step, an adhesion force is defined per unit of surface between the portion of wall of the container and the lateral portion of the layer which is considerably greater than an adhesion force per unit of surface between the lateral portion of the layer and the lateral wall of the closing element.
In a 38th aspect according to any one of the preceding claims from 36 to 37, the second material of the sealing layer comprises at least a continuous plastic film extending to close the chamber or a part thereof and able to realise a substantial seal against gas.
In a 39th aspect according to any one of the preceding claims from 36 to 38, the first material with which the closing element is realised is one selected from a group comprising: a paper material, a paper material with a covering film such as for example a single polyolefin, a paper material with a plurality of covering films among which at least a plastic film, for example a polyolefin, and at least a metal film, for example made of aluminium.
In a 40th aspect, according to any one of the preceding claims from 36 to 39, at least a layer of the base wall and the lateral wall of the closing element (5) destined to be facing towards and in contact with the sealing layer is made of a material which is not chemically compatible with the second material.
In a 41st aspect according to any one of the preceding claims from 32 to 40, the structure is made of a material selected from a group comprising: a paper material, a paper material with a covering film such as for example a single polyolefin, a paper material with a plurality of covering films among which at least a plastic film, for example a polyolefin, and at least a metal film, for example made of aluminium.
In a 42nd aspect according to any one of the preceding claims from 36 to 41, at least a layer of the container wall destined to be facing towards and in contact with the sealing layer (204) is made of a material which is chemically compatible with the second material.
In a 43rd aspect according to any one of the preceding claims from 32 to 42, at least a part of the material forming the lateral portion of the sealing layer comprises a plastic material.
In a 44th aspect according to any one of the preceding claims from 32 to 43, at least a part of the material forming the portion of the wall comprises a plastic material.
In a 45th aspect according to any one of the preceding claims from 43 or 44, the lateral portion, during the deformation in which the plastic material is brought to a softening or melting temperature, sealingly welds with the portion of the wall by hot-deforming of the portions themselves.
In a 46th aspect according to any one of the preceding claims from 32 to 45, the portion of wall of the containing structure, the lateral wall of the closing element and the lateral portion interposed there-between exhibit corresponding coupled grooves.
In a 47th aspect according to any one of the preceding claims from 32 to 46, the portion of wall of the containing structure, the lateral wall of the closing element and the lateral portion interposed there-between exhibit corresponding coupled grooves destined to define coupling/decoupling surfaces by rotation, between the closing element and the containing structure.
In a 48th aspect according to the preceding claim, the grooves define relative threads extending on the surface over an extension of more than 120°.
In a 49th aspect according to the preceding claim, the grooves define relative threads extending on the surface over an extension of more than 360°.
In a 50th aspect according to the preceding claim, the grooves define relative threads extending on the surface over an extension of more than 540°.
In a 51st aspect according to any one of aspects from 48 to 50, the lateral portion of the sealing layer extends along the grooves.
In a 52nd aspect according to any one of aspects from 32 to 51, the base wall and the lateral wall of the closing element are inserted through the access of the housing compartment, the containing structure exhibiting a flat portion emerging distancingly from the free edge, the closing element exhibiting a corresponding flat portion emerging from the lateral wall, the flat portions being at least partially in contact with one another and defining at least a further reciprocal constraining zone with an unremovable coupling.
In a 53rd aspect according to any one of aspects from 32 to 52, the base wall exhibits an access destined to define a passage between the containing compartment and the external environment in coupling conditions of the structure to the closing element.
In a 54th aspect according to the 53rd, the container further comprises a sealing body destined to hermetically close the access, the sealing body being still more preferably de-filmable in order for the passage to be opened.
In a 55th aspect, according to any one of aspects from 32 to 54, a further sealing element is comprised, for example a film, for enabling a closing of a volume defined internally of the closing element on an opposite side to the compartment defined by the base wall, preferably a hermetic closure.
Further characteristics and advantages will more fully emerge from the detail description that follows, of a preferred but not exclusive embodiment of a container as well as of a method and an apparatus for realising containers in paper material, and a relative closing cap, according to the invention.
The description will be made in the following with reference to the accompanying figures of the drawings, provided by way of non-limiting example, in which:
a is a section showing a possible variant of the container of
a and 7a show two sections of a variant of the equipment of
a and 9b show the coupling of two containers, one of which defines the closing element;
c shows a variant of the coupled containers
With reference to the
In the embodiment illustrated in
In the specific case (non-limiting) the product to be contained might be a beverage or the like and the container 1 is defined by a beaker made of paper internally lined with a film for use with foodstuffs, such as a single polyolefin (polyethylene or polypropylene or another) or coupled with aluminium, EVOH or other barrier layers.
In other words, in general the use of a paper (plain or extensible) coupled (mechanically) to a polyolefin film ensures additional advantageous aspects of the product, as will be more fully described in the following.
The bottom wall 2 exhibits in section a vertical plane having an upturned U-profile, of a conventional type in such a way as to define a perimeter edge 2a destined to be sealed to the lateral wall 3 (
The lateral wall exhibits a truncated cone shape emerging from the bottom wall 2, having a circular plan shape and terminating in a free upper edge 3a defining the mouth of the beaker, which is also substantially circular.
The bottom wall and the lateral wall 2 and 3 define in cooperation a housing compartment 4, in suitable for receiving the product/products to be contained.
It is quite clear, however, that for the purposes of the exhibit invention the shape of the container, as well as the fact that it is realised starting from a single sheet of paper material or from a plurality of sheets suitably constrained to one another is entirely by way of example, and therefore irrelevant.
Purely by way of example, the container of
As previously mentioned, if intended to come into contact with foodstuffs such as beverages, the paper materials defining the container will be coated at least at the surface facing towards the cavity 4 with the appropriate plastic film for foodstuffs, such as a polyolefin. For example a tape is used to cover the longitudinal edge of the sheet.
The container also has at least one closing element 5 exhibiting a base wall 6 having a substantially circular profile which exhibits a lateral wall 7, for example having a conical progression, preferably ending in a top flap 8 directed radially and towards the outside of the lateral wall 7.
In the embodiment illustrated in
In other terms, the base 6 has a plan size such as to enable insertion internally of the upper portion 3a of the lateral wall 3 of the container; in turn, the lateral wall 5 of the lateral element 7 of the closing element 5 is substantially complementarily shaped with respect to the access area 3a of the container, perfectly marrying the internal surface. Further, the folded edge 8 of the closing element is, in use, destined to abut against the free upper edge 20 of the container.
Differently,
In other words, in addition to a truncated cone shape open at the top, the portions may for example be perfectly cylindrical (
Note however that both the container and the closing element can be either or both made starting from extensible paper, i.e. paper able to withstand, without breakage, deformations of greater than 5% (up to 20%).
In this sense complex shapes of the container can be defined, which might exhibit textures, curved walls, or more besides according to the needs of the moment. This enables obtaining the containers having shapes other than cylindrical or truncoconical.
In addition, the closing element 5 can be made from a single flat sheet of paper material appropriately deformed and deep-drawn (
Moreover, making the closing element 5 of extensible paper enables obtaining contact surfaces with the container that are substantially flat and, if possible, without any pleating or excess of material which are normally generated, deforming a flat element made of paper material, realised starting from common paper.
The presence of substantially flat surfaces, the absence of pleats due to excess of material, can contribute to increasing the seal of the covering element coupled to the container 1, for example, the seal against oxygen and liquids.
Further, an improved seal can be realised, obtaining an additional seal by spraying on the desired surface (for example on the closing element) of a substance which, once solidified the appropriate (and possibly heat-treated) significantly increases resistance to external liquids and agents.
For example, this substance could be applied so as in use to be interposed between the closing element 5 and the free edge 20 of the container, ensuring the seal around the whole circular perimeter.
Note also that the upper portion 3a of the lateral wall 3 of the container exhibits a suitable spiral groove 9 aimed at defining a path that extends over a little less than two turns (obviously shorter or longer paths can also be defined without forsaking the inventive concept of the present invention).
Correspondingly the closing element 5 exhibits a groove 10 which is also likely to perfectly marry the above-mentioned groove 9 of the upper portion 3a of the lateral wall 3.
This groove 10 is defined at the closing element 7 of the lateral wall 5 in such a way as to enable a rotating coupling of the container to the closing element.
In this way, if the grooves are sufficiently developed, a screw-coupling is defined for screwing the closing element 5 on the container.
In particular, the spiral arrangement of the ribs is such that, in certain embodiments, with the coupling achieved, the folded edge 8 of the closing element 5 goes to abut against the free upper surface 20 of the lateral wall 3.
The locking force is such as to enable a good pull on the above-cited surfaces, such as to be able to guarantee seal of the container during the closing step.
Note however that the film made of plastic material for cladding the container and cover will be in contact at the free upper surface 20, contributing to increasing the fluid seal of the container.
The spiral grooves 9, 10 have very small inclination with respect to the vertical, so as to define an optimal locking force (merely by way of example, the angle of inclination of the spiral with respect to the vertical will be between 1 and 15 degrees).
In the first embodiment, shown in
The container 1 represented herein in general has a section along a horizontal circular plane of progression, though, while being made of paper, can exhibit broadenings or recesses, for example in the median zone of the containing volume, which would be impossible to obtain with normal papers.
The example exhibits an anatomic profiling 31 for receiving the fingers of a user; obviously, other and different profiling is possible.
The appropriate thread locking element 5 is at the access opening, and is coupled, by complementary joining, to the upper cylindrical portion of the lateral wall 3.
The closing element 5 also exhibits a deformed expanded area 21 at the bottom wall 6 defining, for example, a gripping element for facilitating the screwing/unscrewing of the closing element 5.
A further embodiment is also illustrated in
In particular, the locking element 5 is made in two pieces exhibiting a lateral wall 7 and a bottom 6 coupled by heat sealing.
In addition, the closing element 5 presents a folded edge 1 which as well as having aesthetic functions as mentioned above, also has an important function of insulating any contents contained in the closing element 5 so that it is possible to exploit it for consumption of hot beverages or the like.
In particular,
As can be seen, in this situation a housing compartment 4 is defined internally of the container 1, close by the closing element, but a further containing volume 22 can also be noted (present in any case, even though smaller even in other embodiments, for example
In the embodiment shown in
Note also the presence of a sealing element 29 defined by a closing film applied on the element 5 (and later separable there-from) in order to create a seal against external agents also for the containment volume 22 in the closing element 5. In this way containers can be realised which can accommodate two different products, one in the main compartment 4, the other in the volume 22 of the closure element 5. By way of example, the containing compartment 4 can house a suitable paint, while the compartment in the closing element 5 can accommodate a second component to be mixed at the appropriate time (two-component food or non-food, medicine).
The embodiment shown in
At the upper edge of the lateral wall 3 the container 1 also presents a curled edge 14 with the curl towards the outside and arranged in the closed position of the closing element 5 at the above-mentioned flat edge 12.
In this way the two facing surfaces of those portions of the edge 12, 14 substantially touch and can be suitably welded (at one or more points) together defining, when fully joined, a sealed closed condition of the assembly.
Another sealing possibility when both circumferential edges 12 and 14 of the container cap are associated could be the application of a plastic ring (which might be applied during realisation by injection moulding) which would then have to be removed when opening the package.
It is clear that the presence of the sealing layer (polythene or otherwise), coupled to the paper or extensible paper, guarantees that it can contain liquid or the like, as well as enabling the welding one or more parts of container and cap to one another.
Weakened lines 13 can be advantageously provided, on both one and the other (or both, as shown) of the surfaces of the flat portions, previously defined, in particular in a zone close to the upper edge of the container in such a way as to allow a facilitated opening of the container.
Operating in this way, the product contained within the compartment 4 cannot escape from it, or the outside air penetrate it so as to ensure optimal conservation of the product.
Note also that, as in the case of
The embodiment of
A further noteworthy point is that it is possible not only to realise an unremovable coupling with heat-retractable elements, but it will also be possible to define couplings (that while guaranteeing optimal sealing to outside air and therefore to oxygen) which can be separated by simple peeling, and not by tearing of the entire portion 29 (such as for example in
Operating in this way a perfect seal can be guaranteed against agents external of the container 1 plus closing element 5 system, enabling, once the circular band or film is permanently removed, the container to be opened and closed using the threaded element which engages on the corresponding thread on the lateral wall of the container. In this way the container can be sold with guarantee of sterility/conservation of the product contained therein; and the user can continue to use the container by opening/closing it.
In this case it is clear that, though not necessary, the use of a extensible paper enable an easier and better sealing of surfaces that can be substantially flat though being fashioned by deforming, drawing, compressed air, vacuum, or a combination thereof. The embodiment of
In a further embodiment, not shown, the access 26 may be defined by a plurality of holes and be closed with the sealing body 27.
Once the sealing body has been removed, a product in granule form contained in the compartment housing 4 (salt, oregano, seasoning or other item) can be accessed and used.
The embodiment of
In fact, the container 1 shown therein, when made using extensible paper, can be deformed so as to provide a suitable annular abutting surface 30 which can enable an easier coupling of the sealing film 28.
In particular, the sealing element 28 is applied, for example by means of a punch, and will guarantee the seal exactly at the above-mentioned portion of the annular abutting surface 30.
Note that the abutting surface 30 can constitute the bottom of the closing element 5 such as to avoid the need for screwing operations beyond the end run of the threads. Obviously the volume 22 can be closed with one or more of the above-described methods.
Lastly,
In fact, the container of
The one, the other or both of the accesses can be suitably closed by duly threaded closing elements 5.
In particular, the example of
Note also that the closing element 7 of the lateral wall 5 is arranged, in terms of use of the container, externally of the lateral wall 3.
b shows a container 1 equipped with two closing elements 5, for closing both accesses to the compartment 4.
In this case too, the lateral wall 7 of both closing elements 5 is arranged externally of the lateral wall 3.
Note however that the container of
Note also that in a further embodiment (not shown) with the threaded defined in the lower edge, the truncoconical structure can be drawn, oppositely to its conicity, at the lower zone (obviously this can only be realised with the use of extensible paper) and a beaker can be constructed, for example, with a upturned-conical pedestal, creating a much stabler cup.
Still from the structural point of view, both the thread 9 fashioned on the upper portion of the container, and the thread 10 realised on the closing element, are defined by suitable recesses which face towards the inside of the container, i.e. towards the inside of the lateral wall 7 of the closing element (facing towards the axis A of the container).
In other words, compared to the undeformed condition of the lateral wall 3, or the lateral wall 7, the threads 9, 10 emerge towards the inside of the containing chamber 4, i.e. towards the inside of the circular base of the closing element 5. Also, the ribs/deformations that define each of the threads, on both the closing element 5 and the lateral wall 3, are continuous, i.e. they do not exhibit interruptions in the three-dimensional extension thereof. In some embodiments, which are not illustrated, a rotation coupling can be provided, of the bayonet type, between the container and the closing element.
In relation to the above,
By way of example, the container could be retained therein by means of a vacuum applied at the bottom of the container itself.
Still observing
The fixed table 103 is supported by a plurality of uprights 104, in turn borne by a support plate 105.
Also present is a moving body 106 which is rested on and supported by the fixed table 103 to which it is further coupled by means of a flange 121 which is guided by the lateral surface 103a in such a way that the mobile body 106 can rotate about a central vertical axis of development 108 relative to the fixed table 103.
With the aim of moving the mobile body 106 in rotation, or rather in oscillation about the vertical axis 108, activating means 107 are also provided. The activating means 107, which may be of different nature, are defined in particular in the embodiment illustrated, by a hydraulic or pneumatic actuator 109 which can move an arm 110 to and fro to which a drawing element 111 is suitably hinged, by means of a vertical pivot.
The drawing element 111 has one end tied to the mobile body 106, and the other arm hinged to the arm 110.
In this way the to-and-fro motion defined by the hydraulic/pneumatic activation 109 is transformed into an oscillatory rotary motion on the mobile body 106. In
The coupling between the mobile organs 112 and the circular sectors 113 is such that the mobile organs maintain a degree of sliding liberty in a radial direction towards the central and vertical axis 108.
As can be observed, an external end of the mobile deforming organs 112 is coupled to the grooved guides, in such a way that a partial rotation of the mobile body 106 in one or the other direction leads to corresponding translations in nearing/distancing directions to the central axis 108 of each of the mobile bodies 112.
It should be noted that the grooved guides 115 have differentiated profiles such as to define times of movement and velocity of movement of the different mobile organs 112. The illustrated embodiment (not limiting) illustrates six mobile organs 112 intervalled by six circular sectors 113.
Three grooved guides 115 (alternated to the other three guides 115) exhibit a profile provided with recessed portions 115a in such a way that the rotation of the mobile body 106 involves a translation of the respective mobile organs 112 that in terms of time precedes the mobile bodies 112 inserted and coupled to the grooved guides lacking the recessed portions 115a.
In this way, during the gripping operations of the mobile organs 112 to the container, three of them, not contiguous, go into contact with the container before the other three, guaranteeing an optimal closure without interference.
As can be seen in the section of
The above guarantees precise radial to and fro movement of the mobile organs 112 without snagging.
Note also that the represented sections of the equipment illustrate two additional components that were removed from the perspective views in order to simplify understanding of the functioning of the equipment.
In particular, and still observing
Further, a counter-die 119 is present, positioned superiorly of the device and coupled to the upper plate.
The counter-plate 119 is positioned at the housing seating of the container 101 such that a profiled portion 120 thereof exhibiting respective gullies 120a on the external surface thereof is located (in operating conditions of the device), at least partially inserted in the closing element 5.
In this regard, note that each of the mobile organs 112 has, on its inner end, ribs 112a that are substantially complementarily shaped with and predisposed to cooperate with the gullies 120a.
A further embodiment of the apparatus for realising the screw-couplings on the container 1 and closing element 5 is shown in the sections of
Compared to the equipment shown in
The presence of the above-mentioned expandable sectors 122 is necessary in order to optimise the extraction of the container 1 and the relative closing element 5 once the threading is realised thereon (
In the rest condition, the sectors 122 of the counter-die 119 exhibiting the gullies 120a are retracted towards the central axis 108 of the apparatus and thus do not interfere with the ribs 9, 10 freshly created on the container 1 and on the closing element 5.
In the transition from the rest state to the working state of the device, not only do the mobile organs 112 near the container, deforming the suitable portions thereof, but the expandable internal sectors 122 of the counter-die 199 also come into contact with the internal surface of the closing element 5 such as to be able to cooperate with the corresponding ribs 119a, as described herein above.
On conclusion of the operation of deformation, not only will the mobile organs 112 distance from the lateral walls 3, 7, but also the expandable internal portions 122 will retract towards the development axis 108 of the containing structure 102, freeing the thread 9, 10 just realised and enabling a simple extraction.
Conversely in the configuration shown in
Observing the embodiment illustrated in
Also provided are additional activating means 123, substantially identical to those previously described, but arranged on the opposite side with respect to the support frame of the machine.
The means 123 move suitable relay organs 124 such as to synchronise the movement of the expandable sectors 122 with the movement of the mobile organs 112, as shown in the sequence between
As with the mobile organs, the activating means 123 set in oscillating rotation a disc 125 on a fixed circular body 126. Suitable cam couplings transform the rotary oscillating motion into a movement of radial expansion/retraction of the sectors 122.
This will generate a working position of both the mobile organs 112, and the expandable internal sectors 122, which cooperate and deform the lateral walls of the closing element 5 and of the container 1 (
As can be seen in
It is clear that other embodiments of the production apparatus are to be considered comprised in the inventive concept of the present invention, even though they are not represented.
For example, the apparatus may include different handling mechanisms such as compressed air and/or gas mechanisms suitable for exploiting the depression such as to obtain the necessary deformations, while however maintaining the same principles of movement.
Following the structural description above, the procedure implemented in accordance with the present invention is as follows.
When the container 1 made of paper material is predisposed, it is positioned in the housing seating 101.
During this stage, the container 1 exhibits a substantially smooth lateral wall 3, free of grooves/ribs or threads.
Also, the closing element 5 is positioned at least partially inserted in the containing chamber 4 such that the lateral wall 7 joins with the corresponding portion of the lateral wall 3 of the container 1.
The closing element 5 also has no rib/groove at the lateral wall 7.
The profiled portion 120 of the counter-die 119 is then inserted internally of the closing element.
In this configuration the apparatus is such that each of the mobile organs 112 exhibiting the ribs 112a on the internal end thereof is distanced by a few millimeters from the lateral surface of the container 1 (
The profiled portion 120 of the counter-die 119 is also inserted and is substantially complementarily-shaped to the lateral wall 7 of the closing element 5. It should however be noted that the profiled portion exhibits respective gullies 120a which, in this configuration, define cavities that are superficially closed by the lateral wall 7 of the closing element 5.
At this point the activating means rotate the mobile body 106.
In this way, each of the mobile organs 112, following the trajectories and times imposed by the respective grooved guides 115, is brought first into contact and then into interference with the lateral wall 3 of the container 1.
When the rotating run defined by the activating means 107 is complete, the apparatus is in the configuration of
As can be seen, a portion of the lateral wall 7 of the closing element 5 and a portion of the lateral wall 3 of the container 1 are interposed and deformed between each of the ribs 112a and the respective gullies 120a.
The gullies 120a also define a same progression, in negative, such that the pressure exerted on the portions of paper material internally of the structures are such as to generate the helical rib on both the container and the closing element, thus defining a threading which extends in general over at least 120° and in particular for more than 360° (and even more preferably over 540° in such a way as to define more than a revolution and a half of helix on the two pieces).
The defined surfaces represent two respective threads, substantially identical in engaged conditions, and the container and the cap of the container can be constrained to one another by a suitable rotation.
In the case of the embodiment of
In this way a removable coupling of the screw type is defined on the container. As an option a further stage of sealing of at least a portion of the closing element 5 can be provided, to at least a corresponding portion of the container 1.
The sealing stage can be performed at the same time as the realising of the threads or even at a later or preceding stage.
For example, observing the container of
In fact, working with appropriate pressures and heating, a partial fusion of the polyolefin plastic film cladding the paper material can be achieved, thus guaranteeing a solid and sterile seal of the two elements.
Also, at least one of the flat portions 12, 14 (and preferably both) exhibit respective weakened lines 13 in order to allow separation of the sealed portions from one another and the container.
The above procedure enables a removal of an external annular closing portion so that access can be gained to the contents.
The removal of permanent closure, however, does not affect the ability to open and then close the cover by turning the closing element 5.
Alternatively, it is possible to realise the further constraint zone between the closing element 5 and the container 1 only at least at a portion of the structure 1 and at least a portion of the closing element 5 (either two or more separate portions).
It is clear that working in this way, a further constraint zone 25 is defined (different from the threaded coupling) which is not hermetically sealed, but has the exclusive function of being anti-tampering.
In other words, once the product is packaged, the user can know whether the container has already been used/opened simply by verifying the integrity of the seals. It is clear that the further constraint zone 25 can be defined at the upper contact perimeter between the free edge 20 of the container of the closing element 5, corresponding to the flat surfaces 12, 14, previously mentioned, or even to other areas of contact between the closing element 5 and the lateral wall 3, for example at the upper zone with the respective portion 11 that extends towards the bottom of the closing element 5.
It is also clear that the presence of a plastic film coupled to paper material can be helpful during the step of realising the sealing (complete or partial).
With reference to figures from 13 to 19 aspects of the invention are below illustrated in accordance with further variants.
A forming tool 202 cooperating with a counter-tool 203 is moved relatively to the superposed layers 200 and 201 such as to close the layers between the two tools (
In the examples of
Further, the curled edge 8 of the closing element is destined, in use, to abut against the free upper edge 20 of the container, following interposing of the terminal edge 8a of the sealing layer 204.
The closing element 5 is then positioned in an apparatus 100 for controlled deformation of the closing element 5 and for coupling to a container 1. For example, the apparatus may be the one illustrated in
Again with reference to
In greater detail, the base wall 6 and the lateral wall 7 of the closing element 5 are realised at least of a first material (for example paper material), while the sealing layer 204 is realised in a second material (for example, and non-limitingly, a plastic film, for example made of polyethylene or polythene) that is different to the first material and able to sealingly adhere with the wall 3 of the container 1. For this purpose, the wall 3 can internally bear a film made of a plastic material, chemically compatible with the material of the sealing layer for example once more a polyolefin, for example polyethylene or polythene). In any case the second material used for realising the sealing layer 204, as in the illustrated examples, comprises at least a continuous plastic film extending to close the compartment 4 and able to realise a substantial gas seal. In the examples illustrated in
In order to achieve an anchoring and a tight coupling between the stable layer 204 and is the container 1, at least part of the material forming the lateral portion 7a of the sealing layer and/or at least part of the material forming the portion 3a of the wall 3 comprise a plastic material. During this deformation stage, the temperature near the area of mutual contact between the layer 204 and the portion 3a is brought to a level that is high enough to cause localized melting or softening of the plastic material, so that the lateral portion 7a sealingly welds to the portion 3a of the wall 3.
In turn, the closing element 5—which, as mentioned above can be made of paper, cardboard, paper material laminated to plastic or metal films—exhibits at least a layer of the base wall and the lateral wall intended to be facing towards and in contact with the sealing layer made of a material that is chemically compatible with the second material. For example, the closing element can be entirely made of paper such as easily to disengage from the container 1, without compromising the continuity of the seal given by the layer 204.
Note that during the above-described deformation stage, a part of the portion 3a of lateral wall 3 of the container 1 can be profiled, and the corresponding parts of the walls 7 and 7a too, such as to define coupling/decoupling surfaces by rotation between the closing element 5 and the container 1.
In any case, thanks to the greater bond strength between the layer 204 and the internal surface of the container 1 with respect to the bond strength between the layer 204 and the closing element 5, the closing element 5 can easily be separated from and newly re-coupled to the container 1 without even minimally compromising the continuity of the coupling between the layer 204 and the container 1, even in the presence of surface coupling/decoupling defined by grooves or threads, as shown in the examples of
It should finally be noted that each of the technical characteristics illustrated in the specific examples can be translated to other examples shown in the present application. In other words, the presence of the sealing element 29 shown in
In fact, these technical characteristics have been shown in different specific embodiments only by way of example, and so as not to pack the present description with a plurality of further embodiments combining the technical elements.
Last but not least, it should be stressed that the methodology, the container and the apparatus described can find a specific (by way of example), but advantageous application in machinery for the automatic distribution of products (vending machines). In fact, for example, vending machines (such as coffee or other) are effective completed but can provide, even with selective consumer choice, the presence of a screw-cap closure, as described, on the container.
This enables easier transportation and a more secure handling of the product, also improving hygiene.
An apparatus of the type described (or modified while retaining the inventive essence in order better to be adapted to a housing in the distributor) might automatically position the cover, realising the thread and delivering the product in a closed container ready for use.
Evidently, this application also extends to other products in addition to beverages, such as detergent, sweet foods, beads, small objects, and so on.
The invention therefore offers important advantages.
First, the proposed method enables obtaining a thread and a counter-thread on the cap and container, which are perfectly joined and complementarily-shaped one to the other, such as to improve the sealing characteristics of the closed container. The container can also be realised with a further addition of a sealing film 204. In this case, thanks to the particular solution described, the decouplability of the closing element from the container is guaranteed, and useful for example for inspecting the contents, while ensuring the hermetic closing of the compartment in the container.
Further, the method provides the possibility of operating with containers and caps that are undeformed, completing the packaging of the product and thus being able to realise the removable closing element only once the product has already been inserted in the container.
In other terms, the present method can be exploited with known-type containers and with closing elements that are already available on the market, enabling realisation of the threads both during the production stage and during the packaging stage, according to needs.
Moreover, the constructional simplicity of the apparatus for performing the deformations also enables design and construction of non-automatic machines for the manual realisation of the threads, even at point of sale of the product. The use of extensible paper for the container and/or the closing element enable optimisation of the fluid seal of the coupling, and also enable obtaining, on each of the two elements, deformations that would be impossible to realise using common papers.
Lastly, the possibility of creating an additional closing system by sealing guarantees the conservation of the product, avoiding any possible type of leakage of the product to the outside, while maintaining the operational possibility of removably opening/closing of the container on the part of the consumer.
Further, both the container and the closing element are made of a paper material and are therefore easier to eliminate once used.
| Number | Date | Country | Kind |
|---|---|---|---|
| M12010A1845 | Oct 2010 | IT | national |
| Filing Document | Filing Date | Country | Kind | 371c Date |
|---|---|---|---|---|
| PCT/IB2011/054426 | 10/7/2011 | WO | 00 | 6/4/2013 |
| Publishing Document | Publishing Date | Country | Kind |
|---|---|---|---|
| WO2012/046215 | 4/12/2012 | WO | A |
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| Number | Date | Country | |
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| 20130320077 A1 | Dec 2013 | US |
