阅读说明：本技术 用于制造设置有过滤器的胶囊的方法和设备 (Method and apparatus for manufacturing capsules provided with a filter ) 是由 A·巴尔托利 D·卡皮蒂尼 于 2018-04-06 设计创作，主要内容包括：本发明涉及一种用于制造设置有主体的胶囊的方法,所述主体包含适合于接收用于制备饮料的产品的过滤元件,所述方法包括：根据供应方向(F2)将由热塑性材料制成的第一膜(6)以及由过滤材料制成的第二膜(8)供应至成形模具(1),将所述第二膜(8)叠加于所述第一膜(6)上,所述成形模具(1)包括其中获得有多个空腔(3)的下半部模具(2)以及设置有多个拉伸元件(5)的上半部模具(4),每个空腔(3)一个拉伸元件(5),所述拉伸元件(5)可沿垂直于所述供应方向(F2)的方向(F1)运动；通过布置于所述成形模具(1)的上游的预先加热装置(10)将所述由热塑性材料制成的第一膜(6)预先加热至软化温度；使所述成形模具(1)闭合,使所述下半部模具(2)和所述上半部模具(4)朝向彼此运动,直至它们在彼此之间夹持所述由热塑性材料制成的第一膜(6)和所述由过滤材料制成的第二膜(8)；使用所述拉伸元件(5)在所述空腔(3)中同时形成所述胶囊的主体以及相应的过滤元件。另外,本发明涉及一种用于制造设置有主体的胶囊的设备,所述主体包含适合于接收用于制备饮料的产品的过滤元件,所述设备包括一个成形模具(1),其包括其中获得有多个空腔(3)的下半部模具(2)以及设置有多个拉伸元件(5)的上半部模具(4),每个空腔(3)一个拉伸元件(5),所述拉伸元件(5)可沿方向(F1)运动；供应装置(11),其可沿垂直于所述方向(F1)的前进方向(F2)运动,以将由热塑性材料制成的第一膜(6)以及由过滤材料制成的第二膜(8)同时供应至所述成形模具(1)并保持由热塑性材料制成的第一膜(6)以及由过滤材料制成的第二膜(8)绷紧；预先加热装置(10),用于在所述由热塑性材料制成的第一膜(6)被供应至所述成形模具(1)之前预先加热至少所述由热塑性材料制成的第一膜(6)。(The present invention relates to a method for manufacturing a capsule provided with a body containing a filtering element suitable for receiving a product for the preparation of a beverage, said method comprising: -feeding a first film (6) made of thermoplastic material and a second film (8) made of filtering material to a forming die (1) according to a feeding direction (F2), superimposing the second film (8) on the first film (6), the forming die (1) comprising a lower die (2) in which a plurality of cavities (3) are obtained, one stretching element (5) per cavity (3), and an upper die (4) provided with a plurality of stretching elements (5), the stretching elements (5) being movable along a direction (F1) perpendicular to the feeding direction (F2); -preheating said first film (6) made of thermoplastic material to a softening temperature by preheating means (10) arranged upstream of said forming die (1); -closing the forming mould (1), moving the lower half-mould (2) and the upper half-mould (4) towards each other until they clamp between each other the first film (6) made of thermoplastic material and the second film (8) made of filtering material; -simultaneously forming the body of the capsule and the respective filter element in the cavity (3) using the stretching element (5). Furthermore, the invention relates to a device for manufacturing capsules provided with a body containing a filtering element suitable for receiving a product for the preparation of a beverage, said device comprising a forming die (1) comprising a lower die (2) in which a plurality of cavities (3) is obtained, and an upper die (4) provided with a plurality of drawing elements (5), one drawing element (5) per cavity (3), said drawing elements (5) being movable along a direction (F1); -a supply device (11) movable along an advancement direction (F2) perpendicular to said direction (F1) to simultaneously supply a first film (6) made of thermoplastic material and a second film (8) made of filtering material to said forming die (1) and keep taut the first film (6) made of thermoplastic material and the second film (8) made of filtering material; -preheating means (10) for preheating at least said first film (6) made of thermoplastic material before said first film (6) made of thermoplastic material is supplied to said forming die (1).)

1. A method for manufacturing capsules provided with a body (12), the body (12) containing a filtering element (13) suitable for receiving a product for the preparation of a beverage, characterized in that it comprises:

-feeding a first film (6) made of thermoplastic material and a second film (8) made of filtering material to a forming die (1) according to a feeding direction (F2), superimposing the second film (8) on the first film (6), the forming die (1) comprising a lower die (2) in which a plurality of cavities (3) are obtained, and an upper die (4) provided with a plurality of stretching elements (5), one stretching element (5) per cavity (3), the stretching elements (5) being movable along a direction (F1) perpendicular to the feeding direction (F2);

-preheating said first film (6) made of thermoplastic material to a softening temperature by preheating means (10) arranged upstream of said forming die (1);

-closing the forming mould (1), moving the lower half-mould (2) and the upper half-mould (4) towards each other until they clamp between each other the first film (6) made of thermoplastic material and the second film (8) made of filtering material;

-simultaneously forming the body (12) of the capsule and the respective filter element (13) in the cavity (3) using the stretching element (5).

2. Method according to claim 1, characterized in that before closing the forming mould (1), the stretching elements (5) are moved towards the lower half-mould (2) until they come into contact with the second film (8) of filtering material superimposed to the first film (6) of thermoplastic material and partially deform the first film (6) of thermoplastic material and the second film (8) of filtering material.

3. Method according to claim 1 or 2, wherein said forming comprises advancing said drawing element (5) inside the cavity (3) of the lower half-mould (2) to obtain simultaneously a pre-shaping of the body (12) of the capsule and of the respective filtering element (13).

4. The method according to any one of the preceding claims, wherein the first film (6) and the second film (8) are advanced and kept taut along the advancing direction (F2) by at least one supply device (11) located downstream of the die (1) with respect to the advancing direction (F2).

5. Method according to any preceding claim, characterized in that during said closing, said first film (6) and said second film (8) are welded together in a preset area (15).

6. The method according to any one of the preceding claims, wherein compressed air is delivered to the forming mould (1) to separate the first film (6) of thermoplastic material from the second film (8) of filter material and to deform both the thermoplastic material and the filter material until they reach the final shape of the respective capsule body (12) and of the filter element (13) associated therewith in each cavity (3).

7. Method according to claim 6, characterized in that, during or after the delivery of compressed air to the forming die (1), when the first film (6) of thermoplastic material is separated from the second film (8) of filter material, the stretching element (5) performs an additional stroke downwards to increase the depth of the filter element (13) inside the body (12) of the capsule.

8. Method according to any one of claims 1 to 4, characterized in that said first film (6) made of thermoplastic material and said second film (8) made of filtering material are both preheated and pressed onto each other by said preheating means (10) so as to be welded together before being fed to said forming die (1).

9. The method according to claim 8, characterized in that compressed air is delivered to the forming mould (1) to deform the thermoplastic material and the filtering material welded together until they reach the final shape of the respective capsule body (12) and of the filtering element (13) associated therewith in each cavity (3).

10. The method according to any preceding claim, further comprising opening the mould (1) at the end of forming the capsule body (12) and the respective filter element (13), and extracting the capsule body (12) and the respective filter element (13) from the mould (1) by means of the supply device (11).

11. The method according to any of the preceding claims, wherein the thermoplastic material (6) is a bulk-able material.

12. An apparatus for manufacturing capsules provided with a body (12), said body (12) containing a filtering element (13) suitable for receiving a product for the preparation of a beverage, said apparatus comprising a forming die (1), said forming die (1) comprising a lower die (2) in which a plurality of cavities (3) are obtained, one stretching element (5) per cavity (3), and an upper die (4) provided with a plurality of stretching elements (5), said stretching elements (5) being movable along a direction (F1), characterized in that it further comprises:

-a supply device (11) movable along an advancement direction (F2) perpendicular to said direction (F1) to simultaneously supply a first film (6) made of thermoplastic material and a second film (8) made of filtering material to said forming die (1) and keep taut the first film (6) made of thermoplastic material and the second film (8) made of filtering material,

-preheating means (10) for preheating at least said first film (6) of thermoplastic material before said first film (6) of thermoplastic material is supplied to said forming die (1).

13. The apparatus according to claim 12, characterized in that the forming die (1) is provided with a duct (14), through which duct (14) compressed air can be delivered inside the forming die (1).

14. The apparatus according to claim 12 or 13, characterized in that the supply means comprise gripper elements (11) or catenary elements.

15. The apparatus according to any one of claims 12 to 14, characterized in that the pre-heating means comprise a heating plate (10) or a heating lamp.

16. The apparatus according to any preceding claim, wherein said second film (8) of filtering material is arranged to be pre-heated by said pre-heating means (10) together with said first film (6) of thermoplastic material.

17. The apparatus according to claim 16 when depending on claim 15, wherein the heating plate (10) is arranged to exert pressure on the first film (6) of thermoplastic material and the second film (8) of filter material during the pre-heating thereof, so that the first film (6) and the second film (8) are welded together.

Technical Field

The present invention relates to a method and a device for manufacturing, by thermoforming, capsules or similar containers provided with an internal filter suitable for containing a product for the preparation of beverages, such as coffee, tea or other beverages. They are known as disposable capsules, sealed with a filter element or an internal filter, comprising an outer container or casing, made of plastic material, having a glass-or cup-like shape, provided with a bottom wall and a side wall defining an open cavity. The opening of the open cavity is hermetically closed by a covering element, so as to seal inside the cavity of the casing a filter element containing the product from which the beverage is obtained. The cover element, and the bottom wall of the capsule, are generally pierceable to allow the introduction, under pressure, of a liquid, generally water (generally through the cover element), and the withdrawal, through the product, of the beverage obtained by percolating the above-mentioned liquid (generally through the bottom wall).

Background

The filter, which is shaped to constitute a respective upwardly open cavity for housing said product, is sealed to the side wall of the container at the upper peripheral edge thereof. Thus, the filter divides the interior of the container into a first upper chamber containing the product and accessible through the upper opening of the container (to allow filling) and a second lower chamber comprised between the filter and the bottom wall and/or the side wall of the container, allowing the extraction of the beverage obtained from the product.

The casing made of plastic material and the filtering element are generally made separately and associated in a packaging machine which also provides for filling with the beverage preparation product and closing the capsule with a covering element.

The capsule shells may be manufactured in a thermoforming apparatus comprising a plurality of operating stations through which sheets of thermoformable plastic material unwound from rolls are advanced by suitable advancing means.

The operating stations generally comprise, in sequence, a heating station, a forming station and a shearing station.

In the heating station, the sheet material is ready for the subsequent forming operation, i.e. it is heated until it reaches a predetermined softening temperature, in order to increase its plasticity and deformability. The forming station comprises a forming die in which one or more male dies push the sheet inside the corresponding cavities of the female die in order to make the shell. In the shearing station, a shearing element separates the shells formed on the sheet of plastic material, shearing the sheet of plastic material according to a preset cutting profile.

Alternatively, the capsule shell may be manufactured in an injection molding apparatus comprising one closed mold, wherein a plastic material at a melting temperature is injected under high pressure to manufacture a single capsule or a plurality of capsules arranged, for example, in a row or along a two-dimensional array.

Filter elements constructed of permeable materials such as filter paper or nonwoven fabrics are made by suitably folding a portion of material cut from a film made of the above material, unwound from a roll, to form a cavity, typically having a conical or frustoconical shape.

The filter elements are introduced into the respective housing of the capsule in a packaging machine and fixed thereto by welding.

The above-mentioned production method is complex and laborious and requires the packaging machine to be provided with stations capable of assembling the capsules, in other words, to fix the filter elements to the respective housings.

The steps of extracting, moving and inserting the filter element are particularly critical due to the fragility and instability of the filter element after it is folded and formed. The assembly station means must be very precise and accurate to ensure that the filter elements are not damaged or deformed or positioned incorrectly in the capsules, resulting in the capsules being discarded and therefore reducing the productivity of the packaging machine.

Such machines are therefore more complex and expensive than the packaging machines usually used to fill capsules with products such as coffee, tea and the like.

From WO2013064988 a method and apparatus are known for making beverage capsules, such capsules comprising a cup-shaped outer rigid body comprising a closed bottom and an upper opening coupled to a filter of concave section extending along the rigid body to form a containment chamber of a quantity of product; and a foil cover to close the upper opening of the rigid body of the capsule along the outer edge of the rigid body.

Said method being characterized in that it comprises the following steps:

-positioning a flat filter sheet on the rigid body;

-joining the flat filter sheet at least at the edge of the rigid body;

-shaping said filter sheet inwardly to said rigid body by plastic deformation of said filter sheet to define a containment chamber;

-filling a quantity of product in the containment chamber;

-closing the chamber and the rigid outer body with a foil cover.

The method further provides cutting a filter sheet from the continuous strip by a cutting unit, moving the filter sheet over the opening of the rigid body, and subsequently welding the flat filter sheet to the outer edge of its rigid body by a joining device.

The method further provides that the forming step comprises a first preforming step in which the portion of the annular filter close to the edge is elastically deformed by stretching by a first annular punch, and a second finishing step in which the central portion of the filter is elastically deformed by a second punch.

The first preform drawing step and the second finish forming drawing step are performed by a hot punch.

The flat filter sheet is adhered to the outer edge of its rigid body by means of a thermal welding joining device or using a gluing unit.

In the method disclosed in WO2013064988, the step of positioning the filter sheet on the body of the capsule is particularly critical, since a wrong positioning may impair the bonding of the filter to the edge of the capsule and thus lead to discarding of the capsule and a reduction in productivity.

The apparatus for producing capsules according to WO2013064988 is rather complex, since it provides a cutting station for cutting a filter sheet from a continuous strip of filter material, a station for positioning and fixing the filter to the capsule and at least one station for forming the filter. Furthermore, the apparatus must be associated with a machine for forming the body of the capsule.

From WO2013171663 in the name of the applicant of the present application, a method and an apparatus are known for manufacturing capsules provided with a casing containing a filtering element suitable for receiving a product for preparing a beverage.

The method provides the steps of:

-applying a membrane made of a filter material to a housing with a cavity so as to cover an opening of the cavity;

-plugging the membrane to the housing;

-heating and stretching a portion of the membrane facing the cavity and being plugged to the housing, so as to form and obtain a filter element.

The apparatus comprises superimposing means for applying a film made of filter material to at least one housing with a cavity so as to cover an opening of the cavity; a sealing device for sealing the membrane made of filter material to the housing; a first stretching means included in the first stretching station for heating and stretching a portion of the membrane made of filtering material facing said cavities and blocked on said casing, so as to obtain a filtering element; and a second stretching device included in the second stretching station for further stretching and stabilizing the filter element.

The apparatus disclosed in WO2013171663 is also quite complex, as it provides a station for applying a film made of filter material onto the capsule body and two separate stations for filter formation. Furthermore, the device disclosed in WO2013171663 must also be associated with a machine for forming the body of the capsule.

Disclosure of Invention

One object of the present invention is to simplify the method and the apparatus for forming a beverage capsule provided with a filter, a concave section, which extends inside the cavity of the capsule body to form a chamber for containing a quantity of product for producing a beverage.

Another object of the present invention is to provide a method and an apparatus which allow to reduce the production costs of the capsules and to minimize production rejects.

Drawings

One non-limiting embodiment of the method and apparatus according to the invention will be described hereinafter with reference to the accompanying drawings, in which:

FIG. 1 is a schematic view of an apparatus according to the present invention;

fig. 2 is a view like the view of fig. 1, showing a first step of the method according to the invention;

fig. 3 is a view like the view of fig. 2, showing a second step of the method according to the invention;

FIG. 4 is a view like that of FIG. 3 showing a third step of the method according to the invention;

FIG. 5 is a schematic diagram showing a fourth step of the method according to the invention;

FIG. 6 is a schematic diagram illustrating a variant of the method according to the invention;

fig. 7 is a view like that of fig. 1, in relation to another variant of the invention; and

fig. 8 is a view like that of fig. 1, which is related to yet another variation of the present invention.

Detailed Description

In fig. 1, a forming die 1 is shown for manufacturing a beverage capsule provided with a filter element 13 (fig. 4) of concave section, said filter element 13 extending inside a cavity of the body 12 of the capsule for forming a containing chamber of a quantity of product for the production of the beverage.

The mould 1 comprises a lower mould half 2, in which a plurality of cavities 3 are obtained for forming the capsule body, and an upper mould half 4 provided with a plurality of stretching elements 5 (for example male moulds), one stretching element 5 per cavity 3, said stretching elements 5 being movable in the direction indicated by the double arrow F1 and being intended to form the body 12 of the capsule and the respective filtering element 13 by stretching the thermoplastic material and the filtering material, respectively, as will be explained in detail hereinafter. In the example shown, a mold 1 with two cavities 3 is shown. It should be understood that any number of cavities 3 may be present in the mold 1.

The mould 1 is supplied with a first film 6 made of thermoformable plastic material (which may also be, for example, stackable plastic material), and with a second film 8 made of filtering material (in particular non-woven tissue), and the second film 8 made of filtering material is arranged superimposed to the strip made of thermoformable plastic material.

A first film 6 of thermoformable plastic material may be wound on a first reel 7 and a second film 8 of filter material may be wound on a second reel 9. Alternatively, the first film 6 made of thermoformable plastic material and the second film 8 made of filtering material may be wound on the same roll.

The first film 6 made of thermoformable plastic material and the second film 8 made of filtering material are advanced together between the upper die half 4 and the lower die half 2 in a direction perpendicular to the direction F1 along which the male die 5 can move and in an advancement direction indicated by the arrow F2. The transverse dimensions of the first film 6 and of the second film 8 in a direction perpendicular to the advancing direction F2 and to the direction F1 are preferably substantially the same. Upstream of the mould 1 with respect to the advancement direction F2, a preheating device is arranged, which comprises a pair of heating elements, comprising for example heating plates or lamps, by means of which the first film 6 is heated up to a softening temperature to allow subsequent deformation for forming the capsule bodies.

In the embodiment shown, only the first film 6 made of thermoformable plastic material passes through the pair of heating elements 10. Alternatively, the second web 9 may be placed upstream of the heating element 10, so that the second film 8 of filtering material may also pass through the heating element 10 and may be preheated, in order to facilitate the deformation during the formation of the filtering element 13 (fig. 7).

If the films are all wound on the same roll 16 (fig. 8), this roll is arranged upstream of the heating element 10 so that the films can all pass through the heating element to preheat them.

Downstream of the die 1 with respect to the advancement direction F2, a gripper element 11 or catenary (catenary) is positioned, movable in two ways along the advancement direction F2, which is used to advance the first film 6 and the second film 8 along the advancement direction F2 and keep them taut. The gripper element 11 or catenary acts as a supply of the first film 6 and the second film 8 to the forming die 1, since it unwinds the first film 6 and the second film 8 from their respective reels when moving in the advancing direction F2.

If the second film 8 of filter material has not been preheated, the preheated first film 6 of thermoplastic material heats the second film 8 of filter material when both films are supplied to the mould 1, in order to facilitate the deformation of the second film 8 of filter material during the formation of the filter material 13.

In fig. 1, the mould 1 is shown in an open position before starting to form the capsule bodies and their respective filters.

In fig. 2, a first step of forming the capsule body 12 and the filter element 13 is shown, in which the lower die 2 and the upper die 4 are moved towards each other and the male die 5 is moved towards the lower die 2 until they contact and partially deform the first film 6 made of thermoplastic material and the second film 8 made of filter material to achieve a first stretching of the first film 6 and the second film 8, by performing a so-called "enrichment" process on the thermoplastic material and the filter material, avoiding possible tearing or excessive thinning of the thermoplastic material and the filter material during the subsequent stretching or deep-drawing operations required to form the body 12 (fig. 6) of the capsule and the filter element 13 according to the desired dimensions and volumes.

In fig. 3, the second step of the method according to the invention is shown, in which the mould 1 is closed, so as to clamp the first and second membranes 6, 8 between the lower mould 2 and the upper mould 4, and the punch 5 is advanced inside the cavity 3 to simultaneously obtain the pre-shaping of the body 12 of the capsule and of the filtering element 13.

When the first film 6 made of thermoplastic material and the second film 8 made of filtering material are clamped between the lower mould half 2 and the upper mould half 4, the thermoplastic material and the filtering material are welded together in the predetermined area 15, since the thermoplastic material that has been heated by the heating plate 10 is in a softened state (which, together with the pressure exerted by the two mould halves, determines the welding of the thermoplastic material to the filtering material). It should be noted that, in order to ensure the fusion of the thermoplastic material and the filtering material, it is not necessary to heat the two half-moulds, which allows a considerable saving of energy.

In fig. 4, a third step of the method according to the invention is shown, in which compressed air is injected into the mould 1 through inlet channels 14 provided, for example, in the upper mould half 4. The entry of air is indicated by arrow a in fig. 4. The compressed air passing through the second membrane 8 of filtering material separates the first membrane 6 of thermoplastic material from the second membrane 8 of filtering material and deforms both the thermoplastic material and the filtering material until they assume, in each cavity 3, the final shape of the respective capsule body 12 and of the filtering element 13.

During or after the entry of the compressed air into the mould, when the first film 6 made of thermoplastic material has separated from the second film 8 made of filtering material, an additional downward stroke of the male die 5 can be provided to increase the depth of the filtering element 13 inside the body 12 of the capsule.

In fig. 5, the final step of forming the capsule bodies 12 with their respective filter elements 13 is shown, wherein the mould 1 is opened and the formed capsule bodies 12 with the respective filter elements 13 are taken out of the mould 1, the mould 1 being ready for a subsequent forming cycle.

In fig. 6, a variant of the method according to the invention is shown, in which the "enrichment" process of the material is omitted. In this variant of the method according to the invention, in a first step shown in fig. 6, the mould is closed so as to weld together, in the predetermined area 15, the first film 6 made of thermoplastic material and the second film 8 made of filtering material. As explained previously, it is not necessary to heat the two half moulds to obtain the welding of the thermoplastic material to the filter material.

Thereafter, in a second step, the punch 5 is advanced inside the cavity 3 to obtain a pre-shaping of the body 12 of the capsule and of the filter element 13, similar to that illustrated in figure 3.

In a third step, similar to that illustrated in fig. 4, compressed air is introduced into the upper half-mould 4 in order to separate the first membrane 6 made of thermoplastic material from the second membrane 8 made of filtering material and to deform both the thermoplastic material and the filtering material until they assume, in each cavity 3, the final shape of the respective capsule body 12 and of the filtering element 13.

Finally, the mould 1 is opened to extract the formed capsule body 12 and the respective filter element 13 therefrom, as already illustrated in fig. 5.

The capsule bodies 12 and the respective filter elements 13, after being extracted from the forming die 1, are conveyed towards a shearing station (not shown) in which the capsule bodies 12 are separated from each other by shearing. The shearing may be performed in the region where the thermoplastic material 6 and the filter material 8 are welded together, or may be performed in the region where the two materials are not welded together. In the latter case, the thermoplastic material in the sheared scrap may be easily separated from the filter material, thereby facilitating disposal of the scrap.

Thanks to the present invention, the process and the forming apparatus for forming the capsule body 12 and the respective filter element 13 are significantly simplified, since the capsule body 12 and the filter element 13 are formed simultaneously in a single mould, thereby significantly reducing the production time and the equipment costs, since it is no longer necessary to provide separate stations for forming the capsule body 12 and the filter element 13.

Moreover, the simultaneous formation of the capsule body 12 and of the respective filtering element 13 minimizes production waste with respect to the methods and apparatuses known in the prior art. It should be noted that if the first film 6 made of thermoplastic material and the second film 8 made of filtering material are heated together, the heating plate 10 can be used to weld the two films together before they reach the forming die 1 by applying pressure by the heating plate 10.

Thus, the first film 6 made of thermoplastic material and the second film 8 made of filtering material, joined together, undergo the same deformations during the formation of the capsule body 12 and of the filtering element 13, due to the action of the punch and of the compressed air. Thus, a filter element 13 having substantially the same shape and size as the capsule body 12 can be obtained.