The present invention relates to a method and an apparatus for filling bags with a quantity of bulk material and to an automatic filling machine equipped with said apparatus.
It is known in the technical sector relating to the packaging of bulk material that there exists the need to arrange said material inside bags which must be filled with a metered quantity of material and then sealed.
It is also known that, for this purpose, automatic bag filling machines have been developed, an example of said machines consisting of so-called forming, filling and sealing (FFS) machines which are able to perform at high speed the cycle of forming the bag, filling the bag and final sealing of the bag mouth.
Said machines, which are known per se, comprise in particular a station for filling the bag with the material contained inside a hopper arranged at a height above the height of the bag mouth, in a position substantially coaxial with the bag itself. The quantity of product used for filling may be determined essentially using two main methods known as:
Machines of this type, which are known for example from EP 0,595,778 or EP 1,459,981 in the name of the same present Applicant, comprise a bag filling step which is performed by allowing the product to fall by means of gravity inside the bag which is filled with given quantities of product using one of the aforementioned metering methods.
Although performing its function, filling of the bag which is performed in a single step gives rise to a number of problems including the fact that products with a high quantity of intramolecular air, such as cements, finely ground calcium carbonates, powdered milk, starches, and the like have, when handled, the characteristic that their specific volume increases even by more than 50% compared to the settled product condition, owing to the air which is trapped between the molecules of the material.
These products, once bagged, if they have not been suitably treated, are highly unstable. Consequently, specific treatments are required in order to reduce the volume of the product inside the bag, in order to make them suitable for marketing.
In addition, it is also mentioned that a suitable compaction of the volume of bagged product results in a reduction of the material needed for packaging, thereby reducing the final cost and the impact on the environment.
In order to reduce the volume of these materials, auxiliary mechanisms such as vibrators and porous suction probes are used, these being designed to remove the air from the already bagged material and being installed on automatic filling machines, such as the abovementioned FFS machines for forming, filling and sealing the bag.
The deaeration and compaction steps described cause, however, an increase in the cycle times of the machine, with a consequent reduction of the productive capacity.
The compaction of the product inside the bag is moreover often unsatisfactory.
The technical problem which is therefore posed is that of solving or at least partially overcoming the said drawbacks of the prior art.
The technical problem which is posed in particular is that of developing a method for filling bags with a quantity of material, in particular bulk materials which increase their volume owing to the intramolecular air which they incorporate during filling, and of providing an automatic apparatus for implementing the method, said method and apparatus being designed to:
In connection with this problem, it is also required that this apparatus should have small dimensions, be easy and inexpensive to produce and assemble and be able to be easily installed on different types of bagging machines.
These results are obtained according to the present invention by a method for filling bags with a quantity of bulk material according to the features of claimed invention and by a filling apparatus according to claimed invention.
According to a first aspect, the invention therefore relates to a method and an apparatus for filling bags with a quantity of product, which involves:
The Applicant has surprisingly noticed that, owing to the fact at least a part (a semi-quantity) and preferably the whole quantity dispensed for filling a bag is deaerated before being dispensed to the filling means of one or more filling stations and from these discharged into the bag, it is possible to obtain better deaeration and compaction of the product inside the bag.
According to preferred embodiments of the method or the apparatus, the quantity of intercepted product retained inside a connection duct and deaerated by means of deaeration means before arrival at the filling means of the filling station is a metered quantity for entire filling of the bag in a single dispensing operation; in further embodiments, the quantity intercepted may be a metered quantity for partial filling of the bag.
The entire metered quantity of product for filling a bag may therefore be discharged into the bag in a single filling station.
According to a further preferred aspect, however, the predefined metered quantity of product is divided up into a first and at least one second semi-quantity of product, each dispensed through a respective connection duct connected to a respective filling station, so that each filling station fills the bag with the respective semi-quantity of product. The semi-quantities may be approximately equal.
According to preferred embodiments:
If a plurality of filling stations are used for filling a same bag it is advantageously possible:
In order to optimize the speed of the filling cycle the duct for connection to the first filling station may not have means for intercepting and deaerating the corresponding quantity of product to be dispensed.
In each filling station deaeration and/or vibration and compaction of the product contained in the bag may or may not be envisaged. According to further preferred embodiments of the method or of the apparatus, the entire metered quantity of product for filling a bag is intercepted, retained in one or more connection ducts and deaerated by means of deaeration means before arrival at the filling means of a respective filling station.
The method may envisage a further step of deaeration of the product inside the bag.
The quantity of product fed to the metering container may preferably be metered using the volumetric or net-weight method; in this latter case the container may be associated with weighing means, forming overall a hopper scale.
Preferably, the filling station may have filling means which comprise a respective hopper connected at the bottom to a bag-engaging filling device, preferably provided with valves rotating from a closed position to an open position and vice versa.
According to a preferred aspect of the invention the providing by means of metering of a quantity of product for filling a following bag may be performed at least partly at the same time as the deaeration of a metered quantity of product for filling the preceding bag inside the connection duct.
According to further preferred embodiments, dispensing of the metered quantity of product for filling a bag through the connection duct, with interception and retaining of the metered quantity inside the connection duct and/or deaeration by the means for deaerating the product retained inside the connection duct, may be performed at least partially at the same time as one or more of the following steps:
A further aspect of the present invention relates to a machine for filling bags with a metered quantity of bulk products comprising one or more apparatus for filling a bag according to the present invention, for example arranged in-line in a direction of feeding of the bags or in parallel perpendicularly to the direction of feeding of the bags.
Preferably, the machine according to the invention is a forming, filling and sealing (FFS) machine with bags formed in-line from a tubular material, or a filling machine with bags prefabricated and retrieved from a magazine associated with the said machine.
The entire metered quantity of product for filling a bag may be discharged into the bag in a single filling station.
In alternative embodiments, it is advantageously possible to use a plurality of filling stations of a filling machine for filling a same bag.
In each filling station, a deaeration and/or vibration and compaction of the product contained in the bag may or may not be performed.
The machine may also comprise a station for deaerating the bagged product downstream of the last filling station.
The features of the invention are particularly advantageous with products having a high quantity of intramolecular air.
Further details may be obtained from the following description of non-limiting examples of embodiment of the subject of the present invention, provided with reference to the accompanying drawings, in which:
As shown in
According to conventional technology, the filling station R1 may comprise filling means for example comprising a hopper T31 for feeding the product to a bag-engaging unit R11 designed to be inserted inside the bag and to discharge the product inside it. The bag-engaging unit may be for example of the type arranged in the region of grippers (not shown) for retaining the bag and provided with valves rotating from a closed position into an open position and vice versa.
The container B11 is connected at the bottom to a respective duct B14 connected to the filling station R1 for supplying the product QP to the hopper T31 for feeding the associated filling means.
In the context of the present invention “connection duct” is understood as meaning any connecting structure or combination of connecting structures suitable for defining a travel path for the product, in particular by means of gravity, between the bodies which it connects together.
As shown in
The bottom of the hopper-shaped section T10 of the duct B14 is provided with a shut-off valve 15 which can be controlled so as to close/open in order to retain/discharge the product inside/from the duct B14, said valve being an example of interception means designed to retain the product inside the duct B14 or allow it to pass through towards the filling station R1.
The hopper T10 also has, inserted inside it, a deaerator 220 which is designed to deaerate the product QP retained inside the duct B14 before it falls into the filling hopper T31 and then into the bag.
With this configuration, a metered quantity QP of product prepared inside the container B11 may be fed through the duct B14 towards the filling means T31, R11 of the filling station R1.
According to an advantageous aspect of the invention, at least one semi-quantity (namely at least a part) of the dispensed quantity QP, preferably the entire quantity QP of dispensed product for filling a bag is intercepted and retained by the shut-off valve 15 inside the duct B14 and deaerated by means of the deaerator 200, before being released by the valve 15 and conveyed to the filling means of the filling station R1 and discharged from the latter inside the bag S1.
The Applicant has in fact surprisingly noted that preliminary deaeration of the product, before it is bagged, is able to achieve a better deaeration and compaction thereof inside the bag.
The container B11 may for example be closed at the bottom by a partition which can be rotationally operated so as to open/close the respective volume and therefore dispense/intercept the product quantity QP.
As shown in
As shown in
Advantageously, the deaerator 200 may therefore be kept in the raised non-interference position for allowing through-flow of the product and/or filling with those types of product which do not require deaeration.
It is therefore clear how with the apparatus according to the invention it is possible advantageously to make use of the time required for filling the bag at the filling station and/or the time required for transportation of a bag between the stations of a filling machine in order to meter and/or deaerate the metered product for filling a following bag, intercepting it inside the duct B14, before feeding it to the filling station R1 and discharging it into the bag. With reference to
The deaerator 300 of the filling station R1 may be movable between one position (in the example raised position,
As will become clear below, with this configuration it is possible to achieve both a further improved deaeration and compaction of the product P1 inside the bag and the further advantage of being able to make use of the deaeration time of the product P1 inside the bag S1 for the metering and/or the interception and deaeration of the product P2 for filling a following bag S2.
With reference to
With this configuration of the apparatus, the filling method may comprise the following steps:
It is therefore clear how the filling method according to the invention is able to achieve optimum deaeration of the product by making use also of what is normally the idle time required for transporting and positioning a bag as well as metering the product and where necessary deaerating the product, in order to perform one or more operations involving metering, interception and preliminary deaeration of the product for filling a following bag. This therefore improves both the deaeration and the productivity.
According to one advantageous aspect, one or more filling apparatus according to the present invention may be incorporated in a bag filling machine, for example arranged in-line or in parallel with respect to a direction of feeding of the bags. A filling machine, in particular of the FFS type, may for example comprise:
Conveying of the bag from one station to the other is preferably performed by transportation means, for example in the form of a slide provided with means for gripping the bag, while conveying of the bag out of the machine may be performed by extraction means, for example comprising a motor-driven belt or rollerway.
Each filling station R1 may also be provided with pairs of fixed grippers of suitable dimensions for gripping the top part of the bag.
The filling stations provided by way of example may also be equipped with vibrating devices arranged underneath the bag in order to compact the product before the bag is sealed.
It is therefore clear how the method, the apparatus and the machine according to the invention allow the filling of bags also with products which increase their own volume owing to the intramolecular air using a continuous cycle within automatic bagging machines, for example of the FFS type or the like, with a substantial reduction in the idle time and a consequent increased hourly productivity compared to similar machines of the prior art; this is due to the fact that the deaeration of the product inside the discharge hopper may be advantageously made use of and carried out simultaneously with the transfer of the bag from the filling station to the following mouth closing means, which with the conventional systems are not used.
In addition, the discharging of the product into the connection duct inside which it is retained and deaerated results in initial consolidation of the product. Discharging of the deaerated product into the bag and subsequent deaeration result in further consolidation and compaction. The compaction of the bagged product is therefore improved.
The filling of each bag with a quantity of already deaerated product may also allow much faster deaeration and compaction during filling since the volumes of product to be treated in the filled bag, and therefore the retained air, are smaller.
The deaeration in a connection duct between the metering system and a respective filling station may advantageously take place during idle time previously not made use of in known filling machines; for example it possible to make use of the time during which the product is at a standstill waiting for the bag to arrive at the bag filling station and/or the time required for deaeration of the product inside the previously filled bag and/or the time required for metering the metering the metered quantity of product for filling the next bag.
The filling apparatus according to the invention is therefore able to:
Although the metered quantity of product QP has been described with reference to the quantity necessary for filling a bag, it is understood that this metered quantity could also be a quantity for partial filling of the bag; the filling of each bag with a partial quantity may allow deaeration and compaction during filling faster than the similar operations performed on a bag filled with the entire volume of the product, since the product volumes to be treated at each metering, deaeration and discharging operation, and hence the treated air, are smaller.
With reference to
In greater detail, in the same way as described with reference to
Each filling station R1, R2 is connected at the top to a container B11 fed with a metered quantity QP of product for filling a bag; in particular, the container may be for example provided with means for weighing the metered amount of product, forming therefore a metering and dispensing apparatus.
The container B11 is divided up (
Each half-volume B11a,B11b is connected at the bottom to a respective duct B14a, B14b connected to a respective filling station R1; R2; in particular to one hopper of the two hoppers T31, T32 for feeding the filling means, so that each hopper is preferably fed by a duct B14a or B14b leading from the container B11.
In the example shown, the second duct B14b which receives the semi-quantity Q2P1 of the second half-volume B11b forms, in a bottom section thereof, a hopper T10 arranged upstream of the hopper T32 for feeding the filling means of the second station, along the falling path of the product Q2P1.
On the bottom of the hopper T10 there is a shut-off valve 15, which can be operated so as to close and open in order to retain/discharge the product inside/from the duct B14b.
As shown, the hopper T10 has a lateral extension T11 (
As shown in
Advantageously, the deaerator may therefore be kept in the raised position for filling with a product which does not require deaeration or in order to facilitate the transit of the product to be deaerated inside the duct.
Although not shown, one or more of the filling stations R1, R2 may be provided with air suction probes for reducing the volume of the product inside the bag and/or vibration means may be provided for compacting the product inside the bag.
Therefore in the apparatus according to
In embodiments with multiple filling stations R1, R2 it may in fact be preferred that there should be present only means for intercepting and means for deaerating the semi-quantities of each half-volume connected to a filling station arranged downstream of the first filling station R1, arranged between the half-volume and the filling means of the respective station. In this way it is possible advantageously to make use of the filling time at the first station and the transportation time between stations in order to deaerate the product before feeding it to the respective following downstream filling stations.
With reference to
With reference to
Conveying of the bag from one station to the other is preferably performed by means of a slide provided with means for gripping the bag, while conveying of the machine out of the machine may be performed by means of motor-driven belt or rollerway 113.
Each filling station R1, R2 and deaeration station D is also provided with pairs of fixed grippers 12 of suitable dimensions for gripping the top part of the bag.
In detail, each filling station R1, R2 comprises a respective hopper T31,T32 which has, connected to the bottom opening thereof, a tube 210 for connection to the bag-engaging device 210a arranged in the vicinity of the fixed grippers 112 and provided with valves 210b rotating from a closed position to an open position, and vice versa.
As described above, each filling hopper T31, T32 is connected at the top by means of a respective duct B14a, B14b to the metering and dispensing system B10, the container B11 of which is divided up into two halves B11a, B11b, respectively, preferably by a vertical dividing wall B12, so as to form two independent half-volumes with a capacity preferably substantially equal to half the total capacity of the container, so that the metered quantity QP of product is divided up into two semi-quantities Q1P1 and Q2P1; each half-volume is closed at the bottom by a respective partition B13a, B13b which can be operated into the open/closed position in order to dispense/intercept the semi-quantity of product Q1P1,Q2P1 contained inside it.
The second duct B14b receives the second semi-quantity Q2P1 through the intermediate hopper T10 formed in the second duct upstream of the second filling station R2; the shut-off valve 15 is provided on the bottom of the hopper T10 and the deaerator 220 is movable inside the hopper T10 so as to deaerate the product Q2P1 before it falls into the hopper T32 and then into the bag 1.
As shown, air suction probes 300 for reducing the volume of the product inside the bag may be provided in the filling stations R1,R2 and the deaeration station D.
The three stations R1,R2,D shown by way of example are also provided with vibrating devices 400 arranged below the bag in order to compact the product before sealing the bag.
Programming and control means 1000 are provided for automated execution of the various operating steps.
With the apparatus configurations described above the bag packaging machine operates in accordance with the steps of the following method (
If required, deaeration may be completed both in the first and/or second station R1, R2 and in the deaeration and final compaction station D before the mouth 1a of the bag is sealed, by means of the deaeration system 300 and vibration system 400.
It is therefore clear how the method, the apparatus with multiple filling stations and the machine described are able to perform the filling of bags containing products which increase their volume owing to the intramolecular air, with a substantial reduction in the idle time and consequent increase in the hourly productivity compared to similar machines of the prior art since:
By making use of this time it is also possible to:
The machine also results in smaller overall dimensions since only one metering system is present.
The filling apparatus could also have more than two, in particular for example three filling stations which are designed to fill a same bag with respective semi-quantities of metered product. The aforementioned technical advantages increase proportionally with the increase in the number of filling stations, but this advantage must be weighed up against the increase in the complexity and size of the machine and the transportation time between the successive stations so that it is considered that, preferably, the apparatus should not have more than four filling stations for the same bag.
Although the apparatus and the FFS machine have been described in connection with metering of the product performed using the net-weight method, it is envisaged that the metering and dispensing system may be of any known type, for example with metering of the product using the volumetric method.
In this case, since weighing is not necessary, the quantity of product introduced into the container B11 or into the respective half-volumes B11 may for example be determined with precision upstream thereof, on the basis of suitable devices.
All the embodiments are also preferably provided with programming and control means, such as an electronic unit which controls suitable actuators, for automated execution of the various operating steps.
It is also envisaged that the method and the filling apparatus according to the present invention may be applied also to filling machines in which the bag is already formed and stacked in a magazine from where it is removed and conveyed directly to the mouth of the bag-engaging device of the filling station R1 from where the already described cycle starts.
Although described in connection with a number of embodiments and a number of preferred examples of implementation of the invention, it is understood that the scope of protection of the present patent is determined solely by the claims below.
Number | Date | Country | Kind |
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102021000011882 | May 2021 | IT | national |
102021000011900 | May 2021 | IT | national |
Filing Document | Filing Date | Country | Kind |
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PCT/IB2022/054210 | 5/6/2022 | WO |