5 DESCRIPTION

The present invention relates to a packaging plant comprising a plurality of modular apparatus for filling and closing randomly fed articles, in particular containers, and a method for packaging randomly fed articles.

It is known that, in the technical sector relating to the packaging of products,

10 for example in liquid, fluid or powder form, there exists the need to handle articles, in particular containers, which have different capacities and forms and which are fed to automatic operating machines such as filling, capping and labelling machines, each respectively designed to fill, close, label or subsequently forward the articles/products for packaging.

15 It is also known that these automatic machines must generally be fed continuously, at regular intervals and/or at a predefined constant speed, namely in accordance with parameters determined by the requirements of the said machines and by the production cycle for which they are designed and configured.

20 In addition, it may also be required that the containers should arrive at the automatic operating machines always in a certain - generally upright - position, i.e. with the filling opening directed upwards and/or with a specific orientation of their surfaces (conventionally identified as being front, side or rear relative to a longitudinal axis, the position of the filling mouth and/or the 25 advancing direction through the machine), so as to allow correct handling of the article, for example necessary during the filling and labelling operations.

In this context, the packaging plants generally comprise a plurality of apparatus and machines comprising feeding apparatus - conventionally called sorting apparatus - which, starting with articles, such as containers 30 arranged randomly in special hoppers - are able to sort and feed the containers in an ordered sequence and/or with a predefined orientation and/or position (e.g. erect position) to subsequent filling machines in which the containers are filled with the product and subsequently transported to capping apparatus for the application of a closing element, such as a cap, on 35 each filled container. Downstream of the capping station there may be further machines, such as labelling machines, scales for checking the weight of the packaged product and/or automatic wrapping machines. The known packaging plants have hitherto been designed with the aim of maximizing the production capacity, the speed for sorting, filling and capping the articles, and the efficiency of handling of said articles, with the aim of achieving maximum productivity during mass production . For this purpose, the plants are generally custom-designed and built according to the capacity and production requirements of the client, with a series of apparatus and machines arranged in series and configured to process with the maximum efficiency and speed certain specific types of articles and to operate with a given predetermined production capacity. One problem which has recently emerged is that resulting from the fact that the known packaging plants are not versatile with regard to the management of different production volumes or types of production.

In fact, if the demand for the type of article for which the plant is designed is less than that for which it has been configured, it is required to interrupt operation of the plants once production reaches the desired level.

Any changes in format of the articles to be handled and/or products to be dispensed require at least the intervention of specialized operators, washing of the apparatus and often also reconfiguration of the machine by the installation company. In addition, if instead it is required to increase the production capacity of the installed plant, the only solution is to install a new plant in order to meet the excess demand which cannot be guaranteed by the packaging plant which has already been installed.

The same aforementioned drawbacks also have repercussions on the manufacturers of the packaging plants, in particular of the filling and capping lines, who are generally obliged to design and construct each plant based on the specific production requirements and type of articles specified by the clients; as a result, the production of the packaging plants and in particular the sorting, filling and capping lines may be standardized only with regard to the more general aspects, but each plant must be subsequently designed and configured in each case with a huge investment in terms of time and technical and economic resources.

In the aforementioned context and in order to maximize the production capacity and the speed of packaging of the articles, the automation of the plants, in particular of the sorting apparatus, must be limited, since more complex and therefore highly automated apparatus work more slowly than simple apparatus which must not perform automatically complex operations or movements.

A further problem is that the known plants occupy a large space in particular lengthwise and, as mentioned, once installed, they cannot be easily removed or adapted to a reduction of or change in the production requirement.

The technical problem which is posed therefore is to provide a packaging plant, in particular for filling and closing randomly fed articles, such as containers, which solves or at least partially overcomes one or more of the said problems of the prior art.

A particular object of the present invention is to provide a plant for packaging articles, in particular containers, which is more versatile as regards variations in the volume and/or type of production required. This improved versatility may be desirable during design and construction of the plant and/or during production once the plant has been installed.

A further desirable aspect is that the plant should be have small dimensions, in particular lengthwise, be easy and low-cost from a production and assembly point of view and that it should be able to be easily installed at any user location. These results are obtained according to the present invention by a plant for packaging articles, comprising at least two modular apparatus for filling and closing randomly fed articles, in particular containers, by means of closing elements which are also randomly fed, according to the characteristic features of Claim 1 , and by a method for packaging articles according to the characteristic features of Claim 15.

Such a configuration of a packaging plant and method with multiple modular apparatus arranged in series allows the production of plants with different capacities for sorting, filling and capping articles such as containers to be filled with a fluid, using always a same modular structure of the filling and capping apparatus and simply combining a suitable number of such apparatus in series along the extraction direction in order to obtain the necessary productive capacity. Likewise it is possible to vary the capacity of a plant which has previously been installed by simply adding (or removing) further filling and capping modules upstream and downstream thereof in the longitudinal direction.

Also in connection with plants which have already been installed, it is also possible, owing to the modular structure of the apparatus, to vary the production capacity of the plant depending on the actual needs by operating only one or more of the filling and capping modules which are independent of each other; alternatively or in combination it is also possible to perform different types of production using the various filling and capping modules arranged along the same extraction line.

A preferred embodiment of the packaging plant according to the invention may comprise a processing and control unit for each apparatus, configured in particular to coordinate the positioning of the articles filled and closed by a modular filling and closing apparatus so as to occupy an extraction position on the extraction plane not occupied by filled and closed articles positioned by one of the upstream apparatus, in particular an extraction position from among a plurality of predefined extraction positions arranged preferably at a constant interval on the extraction plane. In this respect, there may be for example only one processing unit for two or more or all the apparatus and it may include a plurality of processing units each designed to control a respective apparatus and may include a coordinating unit which manages and coordinates single processing units of each modular apparatus, or it may be configured in accordance with a combination of such configurations.

In a packaging plant according to the invention, each modular apparatus may be preferably controlled and configured to fill and close articles A independently of one of one or more of the other modular apparatus, in particular to fill different articles or articles with a different filling product, and/or to close with a different closing element and/or with a different frequency and/or article filling and closing speed. The plant may further comprise operating machines for further processing of the common flow of filled and closed articles, preferably comprising at least one labelling machine, weighing scales and/or a packaging machine. In a particular embodiment, the plant is configured to package the filled and closed articles in batches (for example boxes) which contain mixed articles filled and closed by different apparatus and extracted in a common flow, for example by means of one of said packaging units.

According to a preferred aspect of the invention, a processing unit of the plant will have be provided with information about the position (initial position and subsequent advancing position) in the extraction direction X-X of all the articles in the flow of articles being extracted, it therefore being possible to make this information available both for controlling any downstream operating machines (for example labelling machines) and for following downstream modular filling and capping apparatus, which may thus be controlled so to deposit their filled articles in a predefined "empty" position not occupied by an article extracted by one of the modular upstream apparatus. Each modular apparatus preferably comprises gripping and positioning means for holding and/or displacing the articles into/to one or more of said positions and/or stations.

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 case where the articles to be sorted are containers, such as bottles containing a product, and to the attached drawings, in which:

Figure 1 : shows a perspective view of a first example of embodiment of a modular apparatus for filling and capping articles for use in a plant according to the present invention; Figure 2: shows a top plan view of the apparatus according to Fig. 1 ;

Figure 3: shows a front view of the apparatus according to Figure 1 ;

Figure 4: shows a detailed view of the gripping means of the pick and place devices of the apparatus according to Figure 1 ;

Figs. 5a-5f: show perspective views of an example of a filling, capping and extraction cycle performed by the apparatus according to Figure 1 ;

Figure 6: shows a perspective view of a first example of embodiment of a packaging plant according to the invention;

Figure 7: shows a top plan view of the plant according to Figure 6; and Figure 8: shows a second example of embodiment of a plant for packaging randomly fed articles A according to the present invention, comprising a plurality of modular filling and capping apparatus.

With reference to Figs. 1 and 2 an example of a modular apparatus for filling and capping articles A, in particular containers, randomly fed to the input of the said apparatus suitable for use in a plant of the present invention is described.

The exemplary modular apparatus preferably comprises a transport system 10 for transporting the articles A designed to transport said articles arranged randomly on a first transport plane 10a along a respective direction of transport A1 ; and a system 20 for transporting closing elements for closing the articles A, in particular caps C, designed to transport in a respective transport direction C1 said closing elements arranged randomly on a respective transport plane 20a. An extraction system 50 is designed to transport the filled and capped articles along a longitudinal extraction direction X-X (conventionally assumed for the sake of convenience as being a lengthwise dimension of the apparatus and plant) and in an extraction sense conventionally assumed as being from upstream to downstream.

In particular, the extraction system 50 comprises an extraction plane 50a for the filled and closed articles which is oriented parallel to the longitudinal direction X-X of extraction of the articles and to a transverse widthwise direction Y-Y of the apparatus and on which the filled and closed articles are transported, being arranged with a predefined orientation and/or position.

As shown in Figures 2 and 3, in the preferred embodiment shown, the transport plane 10a for the articles A and the transport plane 20a for the closing elements C are preferably arranged on opposite sides of the extraction system, in particular on opposite sides in the transverse direction of a longitudinal-vertical plane X-Z (Fig. 3) parallel to the longitudinal extraction direction and to the vertical heightwise direction Z-Z and passing orthogonally through the extraction plane 50a of the extraction system 50.

Owing to this configuration the filling and capping apparatus (and therefore the packaging plant) may advantageously be kept compact in the longitudinal direction.

With reference to Figures 1-3 a vertical heightwise direction Z-Z of the apparatus is also defined, assumed solely for the sake of easier description and without a limiting meaning as being orthogonal to the said longitudinal extraction direction X-X and transverse widthwise direction Y-Y. With reference still to Figs. 1-3, the filling and capping apparatus according to the invention also comprises:

- a filling station 60 provided with means for filling the articles, in particular designed to feed and dispense a fluid or powder product into an open top mouth or opening of the container A in order to fill the same; - a closing station 70 for closing the filled articles, provided with means 71 for applying each one of said closing elements C to the top mouth of each one of said filled articles A and arranged in a closing position;

- a detection system designed to detect the position and the arrangement of the articles A in transit on the transport plane 10a and of the closing elements C in transit on the respective transport plane 20a and make the information available for controlling the pick and place devices 30,40. The apparatus may also comprise a unit 500 for processing and controlling the components and the operating systems of the apparatus (only schematically shown in Figure 2), for example configured to receive the detection signals made available by the detection system and consequently control the movement of the pick and place devices 30,40.

The modular apparatus also preferably comprises gripping and positioning means for holding and/or displacing the articles (A; A') into/to one or more of said positions and/or stations.

The gripping and positioning means may in particular be configured and controlled to hold an article A in a filling position in the filling station, to displace a filled article A from the filling station 60 into a closing position in the closing station 70, to hold the article in the closing position during application of a closing element, and to displace a filled an closed article A' from the closing position in the closing station into a position and/or orientation for extraction on the extraction plane 50a.

In the preferred example of the modular apparatus shown, the gripping and positioning means advantageously comprise:

- one or more first pick and place devices 30 which are arranged and configured to pick up the articles A arranged randomly on the transport plane 10a and position them with a predefined orientation and/or position for filling at the filling station 60;

- one or more second pick and place devices 40, arranged and configured to pick up one of said closing elements from the said plane 20a of the respective transport system and feed it to the application means 71 of the closing station 70;

According to the invention, a packaging plant comprises at least one modular filling and closing apparatus coupled with a further similar modular filling and capping apparatus arranged upstream or downstream thereof in the longitudinal extraction direction, so as to construct a plant of the modular type in which each apparatus forms or comprises one module of a plurality of filling and capping modules arranged in series along a longitudinal extraction direction X-X and designed to deposit the filled and capped articles on a same extraction plane 50a.

"Modular" is understood as meaning that the apparatus forms as a whole a filling and closing unit which can be controlled independently, even if formed by a variety devices and groups and/or even if the extraction system is shared with other modular apparatus. In particular, each modular apparatus can be controlled so as to perform autonomously a cycle for filling and closing randomly fed articles by means of closing elements and/or is configured so that it can be added to / removed from a packaging plant substantially as a stand-alone unit and without substantially influencing the remaining structure of the plant.

It is therefore clear how such a configuration of modular apparatus allows the construction of plants with different capacities for sorting, filling and capping articles such as containers to be filled with a fluid, using always a same modular structure of the filling and capping apparatus and by simply combining a suitable number of such apparatus in series along the extraction direction in order to obtain the necessary production capacity. Likewise it is possible to vary the capacity of a plant which includes an apparatus according to the invention which has previously been installed by simply adding (or removing) further filling and capping modules upstream or downstream of the pre-existing modular apparatus in the longitudinal direction.

Also in connection with plants which have already been installed, it is also possible, owing to the modular structure of the plant with one or more modular apparatus, to vary the production capacity of the plant depending on the actual needs by operating only one or more of the filling and capping modules which are independent of each other; alternatively or in combination it is also possible to perform different types of production using the various filling and capping modules arranged along the same extraction line. Further advantageous aspects may be deduced from the following description, provided with reference still to Figures 1-3 and assuming a set of three reference axes in a longitudinal lengthwise direction X-X corresponding to the direction of extraction of filled and capped containers along the extraction plane, transverse widthwise direction Y-Y of the apparatus, orthogonal to said longitudinal direction, and vertical heightwise direction Z-Z of the apparatus orthogonal to the other two directions, as well as an upstream part and downstream part opposite to each other in the longitudinal extraction direction.

The transport system 10 for the containers may be of any type designed to transport articles arranged randomly on a transport plane. In the example shown in Figs. 1-3, the system 10 for transporting the articles A comprises a conveyor belt 10b, the top surface of which defines the support and transport plane 10a through the apparatus for the containers A randomly fed by an assembly 90 for feeding the containers A.

The belt 10b moves along a first direction and sense A1 of movement which is preferably directed at an angle, preferably of between 80° and 100°, with respect to the longitudinal direction of extraction X-X and in a sense directed towards the plane 50a of the said extraction system. In particular, particularly advantageous is an arrangement of the transport system 10 such that the transport plane 10a and the direction A1 of advancing movement are oriented so as to be substantially orthogonal to the longitudinal extraction direction X-X and therefore parallel to the transverse direction Y-Y. This allows among other things the maximum longitudinal compactness and facilitates the arrangement of an article feeding assembly 90 and of the pick and place devices 30.

The article feeding assembly 90 is designed to randomly feed empty articles A towards the transport plane 10a. As will become clear below, the feeding assembly may also be common to several modular apparatus.

In the preferred example shown, the assembly 90 comprises a chute 91 , a bottom end of which is arranged so as to cause containers A to fall onto the transport plane 10a in the vicinity of an end thereof which is distal from the extraction plane in the direction and sense of advancing movement A1 and in any case upstream of the detection means of the detection system. The chute 91 is supplied by a storage receptacle 92 to which the empty containers A are fed by means of a duct 93 with an inlet hopper 93a. Preferably, the storage receptacle 92 is arranged in a position situated below, in the vertical direction Z-Z, the container transport plane 10a and such that the containers A which are not picked up by the pick and release devices 30 fall into the storage receptacle 92 at the end of their travel movement along the transport plane 10a. In particular, the storage receptacle 92 may be arranged in a position situated below a terminal end of the plane 10a, between the plane 10a itself and the extraction system 50 and have an open mouth 92a for receiving the containers which fall at the end of their travel movement on the plane 10a.

This configuration is particularly advantageous because it facilitates recirculation of the containers not picked up by the pick and place devices 30, together with the further containers A fed to the apparatus. In the context of the modular apparatus according to the invention, a high degree of picking up and positioning efficiency by the pick and place devices 30 may in particular not be required, the versatility and automation of the said apparatus being more important; therefore, it is advantageous to have an efficient system for recirculating the containers A such that the devices 30 may for example be configured to pick up only the containers A arranged on the plane with one or more predefined orientations, for example with a certain predefined visible flank. Preferably a "porter" system (not shown) transports the containers A from the storage receptacle 92 to the chute 91 , causing them to travel from a level below the transport plane 10a to a level above the same where they are released to the chute 91. Preferably the porter system is configured to separate the containers A during transportation, for example by means of vibrating trays. The porter system is preferred since it allows a very regular flow of articles to the chute 91 ; other transport systems are however feasible and are known in the sector.

The transport system 20 for the closing elements C may be of any type designed to transport products arranged randomly on a transport plane. In the example shown in Figs. 1-3, the transport system 20 comprises a conveyor belt 20b, the top surface of which defines the support and transport plane 20a through the apparatus of the closing elements C, in particular caps for bottles, which are randomly fed by an assembly 80 for feeding closing elements, described further below.

The belt 20b moves along a respective direction and in a sense C1 of movement, which is preferably oriented at an angle, preferably of between 80° and 100°, with respect to the longitudinal extraction direction X-X and in a sense directed towards the plane 50a of the extraction system. In particular, particularly advantageous is an arrangement of the transport system 20 such that the transport plane 20a and the direction C1 of advancing movement are oriented so as to be substantially orthogonal to the longitudinal extraction direction X-X and therefore parallel to the transverse direction Y-Y. This allows maximum longitudinal compactness and facilitates the arrangement of the container feed assembly 80 and of the pick and place devices 40 for the closing elements.

According to a particularly preferred embodiment, the transport plane 10a for the containers A and the transport plane for the closing elements C are oriented at a same angle, in particular at right angles, with respect to the longitudinal direction X-X (measured on opposite sides of the extraction system) and preferably axially offset in the same direction by a certain distance Dx (Fig.2). The assembly 80 for feeding closing elements is designed to feed randomly closing elements C, in particular to the transport plane 20a. As will become clearer below, the feeding assembly may also be common to several modular apparatus. In the preferred example shown, the assembly 80 comprises a chute 81 , a bottom end of which is arranged so as to cause closing elements C to fall onto the transport plane 20a in the proximity of an end thereof distal from the extraction plane 50a in the direction and sense of advancing movement C1 and in any case upstream of detection means of the detection system. The chute 81 is supplied by a storage receptacle 82, to which the empty closing elements C are fed by means of a duct 83 with an inlet hopper 83a. Preferably the storage receptacle 82 is arranged in a position situated below, in the vertical direction Z-Z, the transport plane 20a for the closing elements and such that closing elements C not picked up by the pick and place devices 40 fall into the storage receptacle 82 at the end of their travel on the transport plane 20a. In particular, the storage receptacle 82 may be arranged in a position situated below a terminal end of the plane 20a, between the plane 20a itself and the extraction system 50, and have an open mouth 82a for receiving the closing elements which fall at the end of their travel on the plane 20a.

This configuration is particularly advantageous because it facilitates recirculation of the closing elements not picked up by the pick and place devices 40, together with the further closing elements C fed to the apparatus. In connection with the modular apparatus of the invention a high pick-up and positioning efficiency of the devices 40 may not in particular be required, the versatility and automation of the said apparatus being more important. It is therefore advantageous to have an efficient system for recirculation of the closing elements C such that the pick and place devices 40 may be for example configured to pick up only closing elements C arranged on the plane 20a with one or more predefined orientations, for example with the closed top surface visible, or vice versa. Preferably a "porter" system (not shown) transports the closing elements C from the storage receptacle 82 to the chute 81 , causing them to travel from a level below the transport plane 20a to a level above the same where they are released to the chute 81. Preferably the porter system is configured to separate the closing elements C during transportation, for example by means of vibrating trays. Other transport systems are feasible and known in the sector.

It is also preferred that the system 80 for feeding the articles and/or the system 90 for feeding the closing elements, in particular the chute 81 ,91 and/or the porter system and/or the duct 83;93 is/are arranged downstream in the longitudinal direction X-X of the respective first planes 10a, 20a of the transport systems 10,20, as will become clear below.

A filling station 60 is configured to fill with a product, such as a fluid or for example a powder product, the inside of an article A arranged in a filling position in the said station 60.

The filling station 60 may in particular be configured with means for feeding the product such as ducts 61 , and means for dispensing the product inside the container A, for example a nozzle 62 which can be operated to open and close so as to dispense a predetermined quantity of product. The filling position is generally such that the article A to be filled is arranged in a position situated below, in the vertical direction Z-Z, the dispensing means 62.

According to a particularly preferred embodiment, the respective transport planes 10a, 20a for the articles A to be filled and for the closing elements C are arranged on opposite sides, in the transverse direction Y-Y, at least of the dispensing means 62 of the filling station 60.

In particular, preferably the dispensing means 62 and therefore the filling position are located substantially above the extraction plane 50a and/or in a position such as to be intersected by said longitudinal-vertical plane X-Z. This facilitates and speeds up considerably the operations involving positioning of the articles and the caps by the pick and place devices 30,40 and also the positioning of the filled articles on the extraction plane 50a and at the same time allows the modular structure of the apparatus to be fully exploited. A closing station 70 of a modular filling and capping apparatus for use in a plant according to the invention may be configured to receive a closing element C, hold it until a filled article A arrives in a closing position in the closing station 70 and apply it to a top mouth or neck of the said article A in order to perform closing of the filled article. For this purpose, the closing station 70 may comprise means 71 for holding and applying a closing element C, such as a cap for a container, in particular comprising chuck means designed to receive the closing element C and apply it, for example by means of rotation or pressure, onto the neck of a container. These holding and application means, as well as other similar devices, are known in the sector and are not described in detail and may vary depending on the type of closing element and container being processed.

The closing position is generally such that the article A to be filled is arranged in a position situated below, in the vertical direction Z-Z, the application means 71.

According to a particularly preferred embodiment, the feeding planes 10a, 20a, respectively, of the articles A to be filled and of the closing elements C are arranged on opposite sides, in the transverse direction Y-Y, of the closing station 70, in particular at least of the holding and application means 71.

In particular, the holding and application means 71 and therefore the closing position are preferably located substantially above the extraction plane 50a and/or in a position such as to be intersected by said longitudinal-vertical plane X-Z. This facilitates and speeds up considerably the operations involving positioning of the articles and the caps by the pick and place devices 30,40 and also the positioning of the filled articles on the extraction plane 50a and at the same time allows the modular structure of the apparatus to be fully exploited.

Advantageously, the closing station 70 is preferably arranged downstream, in the longitudinal extraction direction X-X, of the filling station 60, but it is clear to the person skilled in the art that these position may also be reversed.

The filling and closing stations may be preferably arranged adjacent, in particular substantially aligned along the longitudinal extraction direction X- X.

According to preferred embodiments, the modular filling and closing apparatus according to the invention has gripping and positioning means which are configured to perform one or more, preferably all, of the following operations:

- holding an article A in a filling position in the filling station;

- displacing a filled article A from a filling station 60 into a closing position in a closing station 70;

- holding the article in the closing position during application of the closing element; - displacing a filled and closed article A' from a closing position in the closing station into given extraction position and/or orientation on the extraction plane 50a.

According to a preferred embodiment, the said gripping and positioning means may also be configured to discard an article, for example if the control unit 500 should detect an incorrect filling or capping operation, in particular depositing it on a static collection tray (not shown).

As will become clearer below, these gripping and positioning means are preferably mounted on the first and/or second pick and place devices. In particular, in a particularly preferred manner the second pick and place devices which are designed to pick up and feed a closing element C to the closing station 60 are configured to perform one or more of the operations described above. This allows the use of the second pick and place devices to be optimized, as will become clearer hereinafter. The invention is however not limited in this sense, it being possible to provide further auxiliary devices which are able to implement one or more of the operations described above.

With reference still to Figs. 1-3, the gripping and positioning means preferably include first devices 30 for picking and placing the articles and second devices 40 for picking and placing the closing elements.

The first pick and place devices may comprise at least one robotic arm 31 , a free end of which carries gripping means 32 for picking up an article from the transport plane 10a. The second pick and place devices 40 may also comprise at least one robotic arm 41 , a free end of which carries gripping means 42 for picking up a closing element from the transport plane 20a.

Advantageously, the at least one robotic arm 31 ;41 of the first and/or second pick and place devices may be of the anthropomorphic type, in particular with at least five, preferably at least six, axes of rotation and/or degrees of freedom. This is particularly advantageous in the case of the modular apparatus according to the invention since it ensures a high degree of automation and versatility during the picking up, orientation and/or positioning of articles A and/or closing elements C with different forms, including asymmetrical forms. Indeed, an innovative aspect of the present invention is that what is sought after is not the maximum speed and efficiency during sorting of the articles, such that simple and therefore fast- action pick and place devices would be preferred, but instead the maximum versatility of each modular apparatus when managing different volumes and production types; therefore the use of robotic arms of the type proposed allows greater versatility, even though the article processing speed may be penalized.

According to the preferred embodiment shown (Fig. 3) the first pick and place devices 30 and the second pick and place devices 40 are arranged on opposite sides of the extraction system, in particular on opposite sides, in the transverse direction, of the longitudinal-vertical plane X-Z parallel to the longitudinal extraction direction and to the vertical heightwise direction Z-Z and passing orthogonally through the plane 50a of the extraction system 50. In particular said devices may be arranged at the respective transport plane 10a for the articles or transport plane 20a for the closing elements, where a respective area of action of the pick and place devices for picking up the respective articles A or closing elements C is defined.

Preferably, the first pick and place devices 30 and the second pick and place devices 40 are arranged on opposite sides, in the transverse direction Y-Y, of the filling station, in particular of the dispensing means 62 and/or of the closing station 70, in particular at least of the holding and application means 71.

Preferably, the first pick and place devices 30 are configured to pick up an article A from the plane 10a, re-orient it if necessary, position it with a certain orientation in the filling position in the filling station 60 and hold the article A in the filling position in the filling station for a predefined time interval, in particular until further gripping and positioning means have taken it up before, during or after dispensing of the product by the dispensing means 62 of the station 60.

In the preferred embodiment shown, the gripping means 32 of the robotic arm 31 are of the sucker type, which are particularly effective for picking up containers A, including those with different forms.

Preferably the second pick and place devices 40 are configured to pick up a closing element C (in particular a cap) from the transport plane 20a, re-orient it if necessary, and feed it with a certain orientation to the application means 71 of the closing station 70, from where the closing element is received and stably held until the article A to be capped arrives.

As already described, particularly preferably the second pick and place devices 40 are also configured to carry out one or more, preferably all, of the following operations: - hold an article A in a filling position in the filling station for at least part of the product dispensing step;

- displace a filled article A from a filling station 60 into a closing position in a closing station 70; - hold the article in the closing position during application of the closing element;

- displace a filled and closed article A' from a closing position in the closing station into a given extraction position and/or orientation on the extraction plane 50a; - discard the article should the control unit detect incorrect capping and/or filling.

In this way the need to provide specific means for holding and moving the containers into/between the filling and closing stations and from the latter to the extraction system is avoided, thus improving further the versatility of the modular apparatus.

Moreover, when it is the second pick and positioning devices 40 which perform one or more of the aforementioned operations, they free the first pick and place devices 30, allowing them to pick up and re-orient a following article, while a preceding article is being filled, thus optimizing the processing time and ensuring that, at the end of a filling operation, a following article to be filled is immediately ready. Furthermore, the fact that the application of the closing elements is generally a more rapid operation than the bottle filling operation and that capping takes place in any case after filling is advantageously exploited. With reference to Fig. 4 a number of preferred embodiments of the pick and place devices 40 are now described.

As shown, the second devices 40 may comprise gripping means 42 arranged at the free end of a robotic arm 41.

The gripping means 42 preferably comprise a gripper 43 composed of two claws 44 arranged opposite each other and movable towards and away from each other in order to open and close the gripper 43.

Preferably, each claw 44 defines a first jaw 44a configured to form with the opposite first jaw 44a means for gripping a closing element and a second jaw 44b configured to form, together with the opposite second jaw 44b, means for gripping an article A. The two jaws will generally have different dimensions and/or a different form. In particular, each jaw 44a, 44b may be formed as a respective cavity directed towards the opposite jaw 44a, 44b, for example with a substantially parallelepiped or frustoconical or truncated pyramid form with a respective open larger base, situated opposite the other jaw.

Advantageously, opening and closing of the gripper 43 may be adjusted to different positions by means of operating means, for example electric actuators 46 which control the movement of the claws 44 towards and away from each other. Preferably, the operating means 46 are also able to adjust the closing force of the gripper 43. In this way a servo gripper 43 mounted on the second pick and place devices 40 is obtained, thus forming both the gripping means for picking up and feeding the closing elements to the closing station, and the gripping means which allow the pick and place devices to hold an article A in the filling position in the filling station and/or to displace a filled article A from a filling station 60 into a closing position in a closing station 70 and/or to keep the article in the closing position during application of the closing element, and/or to displace a filled and closed article from a closing position in the closing station into a given extraction position and/or orientation on the extraction plane 50a.

According to the present invention, an extraction system 50 extends in the longitudinal extraction direction X-X and is designed to transport the filled and capped articles, arranged with a predefined orientation and/or position on an extraction plane 50a which extends and moves along the said longitudinal direction X-X and in an extraction sense conventionally assumed to be from upstream to downstream.

In greater detail, the extraction plane 50a is able to receive the filled and closed articles A' and extract them from the apparatus along the extraction direction. The articles A' are in particular preferably released by gripping means which have been configured to move a filled and closed article from a closing position in the closing station 70 into a given extraction position and/or orientation on the extraction plane 50a, these gripping means being preferably mounted on the second pick and place devices 40.

The extraction system may in particular comprise a conveyor belt 50b which is operated by an associated actuator and the top surface of which defines the extraction plane 50a. As shown, the conveyor belt 50b is preferably arranged in a substantially central position in the transverse widthwise extension direction Y-Y of the machine, with the transport systems 10,20 and preferably the feeding systems 80,90 and/or the first and second pick and place devices 30,40 arranged on opposite sides, in the transverse direction, of the extraction belt 50b.

Preferably, the extraction plane 50a is not coplanar with the closing element transport plane 20 and/or the plane for transporting the articles A, this being advantageous for facilitating the movement trajectories of the robotic arms 31 ,41. This extraction plane may however be coplanar also with one of or both the closing element transport plane 20a and article transport plane 10a.

The transport planes 10a, 20a and extraction plane 50a are also preferably parallel. A particularly advantageous embodiment of the plant according to the invention is that in which the extraction system comprises a support plane 50a for the containers released by the pick and place devices which is arranged substantially equidistant from the container transport plane 10a and from the closing element transport plane 20a of one or more of the modular apparatus arranged in series. This allows the movements of the pick and release robots 31 ;41 which are associated with the respective first transport plane 10a, 20a to be managed more simply. The plant according to the invention is, however, not strictly limited in this sense, it being possible to arrange the extraction system at a different distance from the first transport planes 10a, 20a.

As regards the position for deposition of the filled and capped articles A' on the extraction plane 50a, according to a particularly preferred aspect of the present invention, said position is one of a plurality of predefined positions spaced from each other at a constant interval P along the extraction direction X-X.

According to this preferred embodiment, the apparatus is configured so that a plurality of consecutive positions are defined on the extraction plane 50a spaced from each other at a constant interval P, and the pick and place devices for picking up and positioning filled and capped articles on the extraction place 50a are controlled to place the filled and capped article A' in one of said predefined position and, if required, with a predefined orientation.

In this context it is not necessary for all the successive predefined positions to be occupied by an article A' to be extracted, but only that the position for release to the extraction system should be one of the predefined positions. This control operation may in particular be performed by the processing unit 500, as will emerge more clearly below. This configuration facilitates coordination of extraction of the filled and closed articles A' by various modular apparatus arranged in series along the extraction direction and configured to extract the filled and capped articles on a same extraction plane 50a. Indeed it will be sufficient for each modular apparatus to be controlled so as to deposit the articles A' to be extracted in one of the said predefined positions not occupied by an article A' filled and capped by a modular upstream apparatus. In particular, the processing and control units 500 of each modular apparatus (which may also be formed as a suitably configured processing unit of the plant) may perform the release of the filled and capped articles to the extraction belt 50b depending on a predefined arrangement for occupation of said predefined extraction positions (e.g. leaving free one position out of every two, three or more positions for the following modular apparatus situated downstream).

Moreover, according to a preferred aspect of the invention, the processing unit 500 will have information about the advancing position (initial position and subsequent advancing position) in the extraction direction X-X of all the filled and capped articles, thus being able to make said information available both for controlling any downstream operating machines (for example labelling machines) and for the following downstream modular filling and capping apparatus, which may in this way be controlled so as to deposit the associated filled articles in a predefined "empty" position not occupied by an article A' extracted by one of the upstream modular apparatus. A predefined rule for deposition of the articles A' to be extracted will therefore not be necessary. In any case the extreme versatility of the plant with modular apparatus according to the invention is evident, allowing for example a higher production volume to be obtained with a first upstream modular apparatus, which on average will occupy for example three positions out of every four successive extraction positions on the extraction plane 50a, while a following downstream modular apparatus will be able to realize the production of articles A' which require a greater filling time or for which a smaller production volume is required, occupying one position out of every four positions, which is left free on the extraction plane of the upstream apparatus. If it is desired to increase the volume of the second production it is possible simply to control the first upstream apparatus so as to occupy only two positions out of every four positions on the extraction plane, freeing one more position for the downstream filling apparatus.

It will be clear to the person skilled in the art that this general concept may be adjusted and adapted to a variety of production types, configurations of apparatus and number of modules or modular filling and capping apparatus arranged in series in a plant according to the present invention.

An example of a detection system may comprise at least a first and second camera (or other suitable image acquisition device) each arranged so as to be directed at a respective transport plane 10a;20a upstream in the direction of advancing movement A1 ,C1 of an action area, on the respective plane, of the respective first/second pick and place devices 30,40.

Each camera may be designed to record the position and arrangement of the containers A or closing elements C in transit on the respective transport plane within its viewing field, making the information available for controlling the operation of the respective pick and place devices 30,40. Cameras of this type are known in the sector of sorting machines and are not described in greater detail

Preferably, the detection system also comprises means for backlighting one or both the transport planes 10a, 20a, allowing the image acquired by a first or second camera to be improved.

The detection system 60 may preferably comprise also means 63 for measuring the advancing movement of the transport plane 10a;20a of one and/or the other transport system 10,20, for example comprising an encoder 63 associated with means for moving the belt 10b;20b which forms the plane 10a;20a.

The processing and control unit may control the positioning of the filled articles A' to be extracted and/or store information relating to their position on the extraction plane.

Advantageously, in the presence of several modular apparatus, there may be a single processing unit for all the apparatus, it may include a plurality of processing units each designed to control a respective apparatus, and there may be a coordinating unit which manages and coordinates the single processing units of each modular apparatus, or a combination of such configurations. The realization of such a processing unit or coordinating unit on the basis of the teachings of the present description is within the competence of the person skilled in the art. In relation to each modular apparatus, a control unit 500 is preferably at least configured to receive the information from the detection system and to control consequently the pick and place devices.

For the sake of easier description a container A is described, defined as asymmetrical, since it is characterized by an irregular form, such as that for example shown in Figs. 1-3.

The container has a form with neck or mouth part - intended to receive a closing cap - which is positioned eccentrically with respect to the container body. Each container is provided with a filling opening which normally may have a circular form, with a main (or longitudinal) axis - generally aligned with the greater dimension of the container - which may be orthogonal to said filling opening, passing through the centre thereof, or axially offset with respect thereto.

Each container may have a bottom surface which, in turn, may be perpendicular to said longitudinal axis and designed to support the container in the erect position.

For the container, moreover, it is possible to identify a first and a second side surface, which are arranged opposite each other in the transverse direction, as well as a front end side or surface and a rear end side or surface opposite to the front end side.

The front end surface is generally that which, at the outlet of the apparatus, must be directed forwards in the same sense as a sense of advancing movement during extraction, for example towards following handling machines which may be designed to apply a label to a predefined surface of the two side surfaces. It is clear to the person skilled in the art that the front side may also not have a surface, but be in the form of a line connecting the two opposite side surfaces.

For filling of the articles, in particular in the case of asymmetrical articles such as the container described above, the apparatus may advantageously be configured so that the first article pick and place devices 30 are intended to pick up only articles arranged on the respective transport plane 10a with one or more predefined first orientations, for example in order to pick up the containers which, arranged randomly, have a first side face visibly exposed on top. With this configuration and as shown in Figs. 5a-f the operating principle of the modular filling and capping apparatus in the context of a plant according to the invention may be as follows: - the containers A picked up from the storage receptacle 92a are randomly fed to the transport plane 10a which transports them in the direction A1 within the viewing range of a camera of the detection system, which detects the position and orientation thereof on the plane itself - for example defined by the orientation of the front and rear end faces and/or by the position of its two side faces which are respectively hidden resting on the belt 10b and visible on top - transmitting the information to the processing and control unit 500;

- the control unit 500, if necessary correlating this information with the information measuring the advancing movement of the belt, commands the operation of the first robotic arm 31 which is authorized to pick up, for example, only the containers which have a certain first orientation on the transport plane, while allowing instead the other containers to pass by;

- the first robot 31 picks up (Fig. 5a) by means of its gripping means 32 a selected container A and manipulates it so as to bring it into the filling position in the filling station (Fig. 5b) with a predetermined orientation, for example with neck erect and filling opening in a top position and front end face correctly directed in the predefined sense for extraction downstream;

- dispensing of the product inside the container A by the dispensing means 61 of the filling station 60 is started;

- simultaneously, the closing elements C are randomly fed to the transport plane 20a, their position and orientation is detected by the detection system and the second pick and place device 40 is controlled (Fig. 5a) so as to pick up a selected closing element C and feed it (Fig. 5b) to the application means 71 of the closing station 71 , which stably hold it;

- once the closing element has been released to the closing station 70, the second pick and place devices 40 position (Fig. 5c) the associated gripping means 43, in particular the internal jaws 44b, so as to grip the container A arranged in the filling position for receiving the product in the filling station 60, freeing the first gripping and positioning devices 31 (Fig. 5d) which may move to pick up (Fig. 5e) a new container A from the transport plane 10a.

The aforementioned operations may take place even before filling is performed or during filling;

- once filling has been completed, the pick and place device 40 moves the filled container A from the filling station to the closing position underneath the means 71 for application of the closing element C, inside the capping station (Fig. 5e); - the application means 71 apply, for example by means of screwing or pressure, the closing element C to the top mouth of the filled container A, held in the closing position by the gripping means 43 of the second robotic arm 41 ; - in the meantime, the first robotic arm 31 has picked up and redirected a new article A to be filled by positioning it (Figs. 5e, 5f) in the filling position in the filling station;

- once application of the closing element C has been completed, the second robotic arm 41 moves the filled and closed article A' from the closing station into an extraction position on the extraction plane 50a, releasing the said article by means of opening of the jaws 44b of the gripping means 43, for transportation in the longitudinal direction X-X by the extraction plane 50a;

- the second robotic arm 41 is now free to pick up a new closing element and feed it to the closing station 70 for capping the next article A already fed to the filling position by the first robotic arm 31 .

As shown in Fig. 5f, the containers A' being extracted on the extraction plane are preferably arranged in one position of a plurality of predefined extraction positions which are spaced from each other at a constant interval P.

With reference to Figs. 6 and 7, a first example of embodiment of a packaging plant of the present invention comprises a second filling and capping apparatus which includes a further transport plane 110a for transporting the articles A randomly fed in a respective further transport direction A11 , associated with at least one further pick and place device 130 for the articles A. A further plane 120a for transporting the closing elements C in a respective transport direction C11 is arranged on the opposite side of the extraction plane 50a with respect to the further transport plane 110a and is associated with a respective further second pick and place device 140.

As shown, in the example of Figs. 6,7, the further transport planes 110a, 120a are arranged downstream in the longitudinal direction of the first transport planes 10a, 20a and the extraction plane 50a is prolonged in the longitudinal extraction direction X-X so as to receive the articles A' filled in a further filling station 160 and capped in a further closing station 170, the further stations 160, 170 being arranged downstream of the first filling and capping stations 80, 70 in the longitudinal extraction direction X-X.

As regards the arrangement of the further filling stations 160 and capping stations 170, with respect to the further transport planes 110a, 120a and/or the first and second further pick and place devices 130, 140 and/or with respect to the extraction plane, the same preferred arrangements and configurations described in detail with reference to the embodiment of Figs.

1 ,2,3 apply. Preferably, the further transport planes 110a, 120a and/or the further filling and capping stations 160,170 are arranged symmetrically with respect to a vertical transverse plane y-z which separates two modular apparatus adjacent in the longitudinal direction (Fig. 7). It is also possible to instead arrange the further filling station 160 upstream of the further capping station 170 in the longitudinal extraction direction X-X.

It is therefore clear how, with this embodiment of the plant, it is possible to realize, in an extremely compact manner, a plant unit with two modular independent apparatus for filling and capping randomly fed articles arranged in series and configured to deposit articles A' to be extracted on the same extraction plane 50.

Advantageously, as shown in Figs. 6, 7, the first transport plane 10a and the further transport plane 110a for the articles A may be fed by a same feeding system 190 arranged between the first transport plane and the further transport plane 110a in the longitudinal direction X-X. The compactness in the longitudinal direction is in this way further improved.

Advantageously, this feeding system may also comprise a feeding hopper 103 which by means of a duct 193 feeds a first article storage receptacle 92 and a further storage receptacle 192 for storing the articles A which, by means of feeding system - for example a porter system - each feed the respective first chute 91 or further chute 191 for feeding the articles A to the respective first transport plane 10a or further transport plane 110a.

Similarly a single system 180 for feeding the closing elements may be arranged between the first plane 20a and the further plane 120a for transporting the closing elements C in order to feed by means of the respective chutes 81 , 181 the closing elements to the said planes.

The preferred aspects of the feeding system 180,190 described above, with reference to the embodiment of Fig. 1 , are also applicable to the embodiment of Figs. 6, 7 and are not repeated here.

As shown in Fig. 7, preferably, all the further systems 110, 120, 130, 140, 160, 170, 180, 190 are replicated in a mirror-image arrangement with respect to said transverse-vertical plane Y-Z of symmetry. This simplifies both the production and the configuration of the apparatus, for example in relation to the movements of the pick and place devices 30,40.

It will be clear to the person skilled in the art that other arrangements are possible, for example the further filling station 160 may be arranged, upstream in the longitudinal direction X-X, of the further closing station 170, or the further article and closing element transport planes 110a, 120a may be arranged on opposite sides of the extraction system with respect to the corresponding first transport planes 10a, 20a of the first modular apparatus. According to a preferred aspect, the processing and control unit 500 may be advantageously configured to control the first and second pick and place devices 30, 40 and the first filling station 60 and the first closing station 70 of the first modular apparatus independently of the further pick and place devices 130, 140 and the associated further filling and capping stations 60,

70 of the second modular apparatus. A further degree of versatility in the management of the production is therefore obtained since each modular apparatus is able to provide different production types and/or volumes along a same extraction plane 50a.

Preferably and as described above, the processing and control unit will coordinate the positioning on the extraction plane 50a of the articles A' output from the first closing station 70 or further closing station 170 so as to prevent interference and optimize the flow of filled and capped articles A' being extracted. Preferably, this will take place as described above by assigning for each article A' to be extracted a respective extraction position from among a plurality of extraction positions arranged at a constant interval P along the extraction direction X-X on the extraction plane.

Advantageously, by means of the processing unit 500, the spacing interval P of said predefined positions may be easily varied depending on the different production and configuration requirements of the plant, without structural alterations. This interval may also not be strictly constant, but comply for example with a certain periodic rule.

The free end of one or more of the pick and place devices 30,40, in particular of one or more of the robotic arms 41 ,141 of the second pick and place devices 40, 140, may be advantageously configured to perform an automated replacement of the gripping means 43 arranged at the free end with a different end tool. In particular (Fig. 1), the gripping means 43 may be replaced with gripping means 48 having a different format and/or size, suitable for different closing elements and/or articles A. In addition or alternatively, the end means 43 may also be replaced with different end means which are not intended to grip the closing elements C and/or articles A, but are designed to perform a maintenance or format change-over operation on the modular apparatus. In particular, these replacement end means may comprise a collector 49, for example in the form of a small cup, designed to be applied to the dispensing means of the filling station in order to collect a liquid for washing the product feeding and dispensing means of the filling station and convey it to a storage receptacle. Advantageously, a support S40 may be arranged in a position accessible by the pick and place devices 40 and is designed to carry one or more of said replacement end means 48,49. For example, the support S40 may be in the form of a tray and/or arranged in an outer position in the transverse direction Y-Y with respect to the robotic arm 41 , in particular adjacent to the distal end of the associated transport plane 20a on which the arm is configured to operate.

According to a preferred example of embodiment, the free end of one or more of the pick and place devices 30,40, in particular of one or more of the robotic arms 41 ,141 of the second pick and place devices 40,140, is configured with interface means for coupling/decoupling with/from the end means, allowing automated replacement of the said end means.

In particular, the interface means may be arranged so as to provide, once coupling has been performed, an electrical supply and/or a pneumatic supply to each one of the end means and/or to cooperate with complementary coupling/decoupling means arranged on the tray S40, for example comprising a support, provided with interface means, which engage and retain the end means, facilitating coupling or decoupling thereof with/from the interface means of the robotic arm.

Therefore, an even more improved flexibility, versatility and degree of automation of the modular apparatus is obtained.

In addition to the advantages already evident from the above description, there are numerous other advantages resulting from the plant structure with multiple modular apparatus according to the invention:

- the possibility of adjusting the production speed or volume of a packaging plant, replicating N times modular filling and capping apparatus and/or modules, with advantages both for the user of the machine (possibility of varying the production by adding other modules at a later time) and for the machine manufacturer (less design work).

- flexibility when defining the overall layout of the line, since the modules may be arranged in different positions with respect to each other, making better use of the available space; it is in fact clear to the person skilled in the art that the longitudinal extraction direction is not necessarily linear over the whole length of a packaging plant, it being possible for example to introduce bends in the extraction plane between one modular apparatus and the next one or between the modular filling and capping apparatus and following downstream operating machines;

- the possibility of filling the articles with different products or capping them with different closing elements, simultaneously on a same line of a plant and/or extracting them from a same flow of articles, and if necessary packaging them in batches (boxes) which contain mixed products; - the possibility of reducing or increasing the production volume of a plant, keeping inactive or activating one or more of the filling and capping modules or stations which may be independently controlled.

With reference to Figure 8, a further embodiment of a packaging plant according to the present invention comprises a plurality (preferably at least three) modular apparatus according to the present invention, arranged in series along the extraction direction X-X and configured to arrange filled and closed articles A' on the same extraction plane. In the example of embodiment shown in Fig. 8, the plant comprises three plant units FC1 ,

FC2, FC3, each with two filling and closing apparatus, realized according to the preferred embodiment of Figs. 6 and 7 and arranged in series along the extraction plane 50a in the longitudinal direction X-X.

The plant may advantageously comprise further downstream operating machines such as a labelling machine L and/or weighing machine W and/or an apparatus Q for checking the articles A' and/or a packaging machine. Preferably, one or more and preferably all said downstream operating machines are arranged in series along the extraction direction X-X in order to receive the articles A' extracted in sequence from the extraction plane 50a, as shown by way of example in Fig. 8.

Advantageously, two or more of said modular apparatus of the plant may be configured to manage production varying in terms of volume, dispensed product, article A or processed closing element and/or production times and modes. It is understood that part of the extraction plane or if necessary the entire extraction plane may also be only theoretical, for example in the case of extraction systems with movable grippers or cups which hold the filled articles move them suspended along an extraction direction. In a packaging plant according to the invention it is therefore also possible to separate structurally the various functions of the plant, allowing the user to add in a simple manner functions which were initially not provided, without radically altering or completely replacing the production line.

According to a particularly embodiment, the plant according to the invention is configured to package the filled and closed articles in batches (for example boxes) which contain mixed articles filled and closed by different apparatus and extracted in a common flow, for example by means of a packaging unit.

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 defined solely by the claims below.