This application claims priority to European Patent Application No. 13170498.3 filed on 4 Jun. 2013, the entire contents of which are incorporated herein by this reference.
Embodiments of the present invention relate to the field of secondary packaging, such as a machine and a method for side loading packaging.
Side loading secondary packaging machines of the prior art substantially operate according to either the principle of continuous loading or the principle of intermittent loading.
These machines generally comprise: a containers forming section starting from die-cuttings, by means of at least one feeding device; a loading section for loading the articles into the containers, a closing section of the containers. Said sections are aligned on a longitudinal direction of the machine.
A continuous motion machine comprises a main (master) conveyor for transportation of the containers, first empty and subsequently full of articles, from the forming section through the loading section, and up to the closing section. Said master conveyor imposes a constant advancing speed of the containers synchronised with the feeding device. Said device puts the containers on the conveyor distanced from one another by a given pitch p.
In the loading section of the machine, said main conveyor runs side by side of an auxiliary conveyor previously loaded with the articles, which are suitably divided into batches distanced from one another by said pitch p.
Along at least a portion of the loading section, the main conveyor and the auxiliary conveyor travel side by side at the same speed, so that a batch of articles on said auxiliary conveyor faces a corresponding container on the master conveyor. The loading is effected by suitable insertion members and is made while the two conveyors are running.
A machine operating according to this technique is described, for example, in EP-A-2 388 197.
An advantage of this approach is that the main mechanical components amongst which the feeding device, conveyors and insertion members, operate continuously. Such a condition is less severe for the mechanics. Moreover, the machine is found to be suitable for managing different formats. The presence of the two conveyors however renders the machine quite costly and bulky, especially in length. Moreover, a precise timing of articles is required by the continuous loading and, consequently, it is necessary to provide timing devices that increase the cost.
A machine with static or intermittent loading operates, on the other hand, in the following way. The master conveyor stops in the loading section of the machine, so that the insertion of the articles into the containers occurs in a static manner, i.e. while the containers are stopped. An auxiliary conveyor for the articles, also having intermittent movement, can be equally provided. This technique simplifies the loading operation and does not require a precise timing between the articles and the containers, but imposes an intermittent movement on the master conveyor and consequently also on the feeding group, which needs be coordinated with said master conveyor. This proves to be particularly burdensome for the mechanical components of the feeding group, which typically comprises an “orbital” rotary device with eccentric masses, and is highly stressed by repeated stops and restarts. In substance, the formation of boxes in an intermittent machine is affected by the intermittence dictated by the loading operation, and thus strictly depends upon loading format and mode.
One or more embodiments of the invention aim to improve the previously described prior art. Indeed, there is an ongoing need for improvement, which includes not only the flexibility in the change of format, but also the reduction of the cost and size of the machine.
The applicant has thought about making a machine with a single conveyor, suitable for allowing the continuous formation of containers and static (or intermittent) loading, so as to overcome the aforementioned drawbacks.
The purposes of one or more embodiments of the invention are thus achieved with a side loading machine for packaging articles in containers, comprising:
a containers forming section from die-cuttings, said section comprising at least one feeding device;
a loading section of the articles into the containers,
a closing section of the containers,
said sections being substantially aligned along a longitudinal direction of the machine;
also comprising a conveyor that extends without solution of continuity along a closed two way path between said forming section and said closing section,
wherein said conveyor comprises a plurality of transportation members, each of said transportation members being configured to carry at least one container, and comprises motor means arranged to drive the forward movement of said transportation members or of groups of said transportation members independently from one another along at least part of said path,
and wherein said machine operates with:
a continuous formation of boxes, said at least one feeding device operating with a constant rate over time, and said transportation members advancing with continuous movement in correspondence of the forming section, and with:
a loading in a static condition, said transportation members being stationary during the loading of articles into the containers.
The loading section advantageously comprises at least one insertion group arranged for inserting articles directly from an accumulation area into respective containers located on the conveyor and in correspondence of the loading section.
Said conveyor is preferably a conveyor with a closed path that extends without solution of continuity from the containers forming section to the closing section, comprising a forward branch running from the forming section to the closing section, and a return branch running from the closing section to the forming section.
Said motor means, and a suitable control system, are arranged to drive the advance movement of a plurality of transportation members, or groups of the same transportation members, in an independent manner along at least part of the path of the conveyor. Groups of transportation members are also called “trains” and, accordingly, the conveyor is also termed “multiple trains”. The term “train” denotes a certain number of transportation members which, at least for a portion of the conveyor, keep the same distance from one another and move together like cars of a train. Said trains can be controlled in an independent manner, so that, for example, a first train can advance with continuous movement while a second train is stopped or advances with an intermittent movement. Moreover, a same train can advance selectively with continuous or intermittent movement.
Said transportation members, in some embodiments, are represented by container-carrying pockets or cells. In the technical language, the transportation members are also called “movers”.
The containers, in a preferred application, are represented by cardboard cases.
It should be noted that the forming section of the containers operates continuously with the advantage of a reduced stress of the mechanical components and particularly of the feeding device.
In particular, said at least one feeding device operates with a constant rate over time. The term of rate denotes the number of containers taken from the store and placed on the conveyor per time unit (for example 200 pieces/min). Said value remains constant during the operation of the machine; in other words said at least one feeding device operates without solution of continuity, unlike intermittent machines of the prior art where said device is also intermittent.
The loading, on the other hand, is carried out statically, with the insertion of the articles into stationary containers. Moreover, the conveyor is unique; therefore the embodiments of the invention avoid the provision of two side by side conveyors, thus reducing the cost and size.
Hence, some of the advantages of one or more embodiments of the invention can be summarised as follows:
Further preferred features of one or more embodiments of the invention are as follows.
Said loading section preferably comprises a plurality of insertion members, each of said insertion members being arranged so as to push articles from a respective accumulation area directly into a respective container. More preferably, said accumulation area is represented by the end section of feed tracks. The articles in each track can be arranged in a single row or several rows.
According to a preferred embodiment of the invention, said closing section comprises a first sub-section for application of glue, and a second sub-section for closure of the edges of the containers. In such a case, and even more preferably, said transportation members or groups of transportation members of the conveyor are driven with a continuous movement through the first sub-section, and are driven with an intermittent movement through the second sub-section. The applicant has found that a continuous advance movement is preferable when applying the glue, whereas an intermittent movement is advantageous during the closing operation.
Preferably, the conveyor comprises at least four channels. By this term, it is denoted that at least four transportation members or groups of transportation members (trains) can be controlled in an independent manner. Hence, at any moment of time, the four channel conveyor is able to drive:
By using a four channels system, the trains of the conveyor are in a number of four or a multiple of four. For example it is appropriate to have at least eight trains, so that while four trains operate in the forward branch of the conveyor, another four are already in the return branch and ensure the continuity of the operation of the machine.
Advantageously, the multiple train conveyor is implemented with one of the following techniques.
A first technique is the conveyor known from EP 695 703. In this case, each train comprises a certain number of transportation members secured to a respective motorised belt. Typically the transportation members are embodied as pockets. The conveyor comprises at least two motors that control two separate belts and two respective groups of pockets. For example a four channel conveyor as mentioned above can be realized with four belts each provided with its own independent motor. Each belt carries one train or, preferably, several trains of pockets.
A second technique is a linear sliders conveyor, which is known in the art and described in patent literature for example in WO 03 105324. In this case, the conveyor comprises a certain number of sliders controllable in an independent manner by means of linear motors. For example, each slider comprises reactive elements interacting with active elements incorporated in the path of the conveyor, obtaining the desired linear advance movement with variable speed. Normally, the reactive elements associated with the sliders are represented by magnets and the active elements incorporated in the path are represented by coils powered with an electric current. Each of the sliders carries one or more transportation members of the containers like pockets or the like.
In said second embodiment, it should be noted that the sliders dynamically form the previously mentioned trains. A certain number of sliders, at least for a portion of the path, can remain stationary or advance with the same speed, thus forming a train.
In a particularly preferred embodiment, the machine comprises an accumulation area for receiving and accumulating the articles, and said area comprises a track or a plurality of parallel tracks. Consequently, the input of articles is given by a row or by a certain number of rows of articles. Even more preferably, the insertion group comprises a mobile member, which is typically a mobile carriage or an equivalent member, arranged to process a number N of articles for each row, inserting said articles directly from the aforementioned tracks into the containers located in the loading area.
Preferably, said mobile member acts by positively pushing an N-th article of each row formed in the accumulation area, so as to push N articles (from the first to said N-th article) into the respective container. The term of positive pushing denotes that said mobile member grabs the aforementioned N-th article, for example with a gripper or an equivalent means, without moving it from the row.
Said preferred embodiment has shown to be particularly suitable for packaging capsules for the preparation of beverages, typically for coffee. Many applications on the market require the packing of said capsules in linear cases with a 1×N format, i.e. one row of capsules per each case. Frusto-conical capsules are advantageously alternated by adjoining base to vertex, in order to save space, said arrangement being however not essential for the embodiments of the present invention.
With reference to said preferred application, a machine for packaging coffee capsules according to one or more embodiments of the invention is fed by a number M of tracks, for example four tracks, which form respective rows of capsules in the accumulation area. A suitable carriage, for each loading cycle, transfers M rows of N capsules each into as many cases, whereas said cases stay on a train of the conveyor, in the loading area of the machine facing the accumulation area. Once the loading operation is completed, the train of conveyor transfers the full cases to the closing section downstream, whilst a new group of M empty cases, carried by another train, enters the loading station.
Another aspect of the invention consists of a method for packaging articles into containers, with a side loading, according to the attached claims.
The advantages of the embodiments of the invention shall become clearer with the help of the following detailed description which is given as an example and not for limiting purposes.
The machine comprises a section 3 for forming the cases 2, a loading section 4 and a closing section 5. Said sections 3, 4 and 5 are substantially aligned along a longitudinal direction, or longitudinal axis, of the machine denoted with L.
The machine comprises a linear conveyor, globally indicated with reference numeral 6, that substantially extends from the forming section 3 to the closing section 5, passing through the loading section 4.
The forming section 3 generates the cases 2 starting from cardboard die-cuttings housed in a store 7.
The framework of the machine is not illustrated, said framework supporting said sections 3, 4 and 5, the conveyor 6, the store 7, the other components that shall be described in the rest of the description and the auxiliary components.
The machine is now described also with reference to the
Said forming section 3 comprises a feeding device 8 that substantially forms the cases 2 to release them to transportation members of the underlying conveyor 6. Said device 8, in the illustrated example, comprises orbital gripping members 9 equipped with suction cups 10. Each of said gripping members 9 is configured to take a die-cutting 11 from the store 7 to form one of the cases 2 (
The loading section 4 is set alongside an accumulation area of the capsules 1. Said accumulation area is represented by the end portions of four feed tracks 12. Said loading section 4, moreover, comprises an insertion group that is represented by a mobile carriage 13. Said mobile carriage 13 is arranged so as to insert rows of capsules 1 from the feed tracks 12 into respective cases 2 located on the conveyor 6. The mobile carriage is only partially shown.
Advantageously, said mobile carriage 13 comprises a plurality of pincer members 14, each pincer member being able to grab the edge of a capsule 1 in the N-th position of one of the rows formed in the tracks 12. By grabbing the edge of a capsule, the carriage 13 can positively push a row of capsules, from a first capsule (machine side, close to the case) up to said N-th capsule (input side) into an open case 2. The direction of the active stroke of the carriage 13 is indicated by the arrow A. The carriage 13 can be realized as a single translating member (single carriage) or, in other embodiments, many carriages can be provided, for example a carriage for each track 12. Said pincer members 14 can be electromechanically or pneumatically driven.
The closing section 5 preferably comprises a sub-section 15 for applying glue and a sub-section 16 for closing the edges of the cases.
The conveyor 6 extends without solution of continuity from the forming section 3, through the section 4 and up to the closing section 5, with a closed path that comprises a forward branch and a return branch.
Said conveyor 6, in this example, substantially comprises four pairs of belts 17, which are moved by four respective motors 18 in an independent manner. Two of the motors 18 can be seen in
Each pair of belts 17 carries one or more groups (trains) of pockets 19, each pocket 19 being able to receive one of the cases 2. Each group or train of the conveyor 6 comprises at least one pocket 19 or, preferably, a plurality of said pockets, so as to transport several cases.
In
The conveyor 6 in this case is implemented with a transportation system with sliders 20 (also called movers), which are movable along a path defined by a track 21. Each slider 20 carries at least one pocket 19 for a respective case 2. Each slider 20 can be driven automatically by a control system of the conveyor itself. The track 21 is able to impart traction to the sliders 20 in a magnetic way. The traction of the sliders 20 is given, for example, by linear motors in the form of electrical windings incorporated in the track 21, which cooperate with magnets fixed to sliders 20.
In this embodiment the sliders are driven so as to form trains substantially equivalent to those of the machine of
Returning now to
Once the four cases have been loaded, said train of pockets is advanced to the position II. In said position II, the train is stopped to align the four cases 2 with the feed tracks 12. The mobile carriage 13, at this stage, performs the grabbing of an N-th capsule for each row, through the members 14, and then advances in the direction A, thus positively pushing four rows of N capsules into the four open cases 2 in the loading area.
It can be assumed, for example, that the cases are sized to house ten capsules each. The mobile carriage 13 grips the tenth capsule of each row and, with a single stroke, loads 40 capsules in four cases containing ten each.
In some embodiments, the train II can advance with intermittent movement during the loading, if for example the load comprises two insertion steps. For example insertion in a first group of cases and then in a second group of cases can be provided. In such a case the train takes a first position aligning the first cases with the input tracks 12, and subsequently advances by a pitch bringing the seconds cases in alignment with said tracks 12. In each case, the insertion is performed while the cases 2, intended to receive the articles, are stationary in the loading section 4 of the machine.
Once loading is completed, the train is advanced towards the closing section 5. In the position III, namely at the sub-section 15, the forward movement is preferably a continuous movement. In said sub-section 15, one or more groups for applying glue, mounted at the sides of the conveyor 6, apply a preset amount of glue on the edges of the cases 2. The actual closing of the cases 2 occurs in the sub-section 16 when the train is in the position IV in the figure. Preferably, the forward movement of the train in said sub-section 16 is intermittent and may be advantageously synchronised with mobile closing members, if provided.
The sealed cases 2 leaving the section 5 are delivered to a conveyor 30, which is generally outside the machine. The sealed cases 2 for example are conveyed to another device of a packaging line, for example to a palletizer to be grouped and packed into larger boxes.
It should be noted that the machine operates simultaneously on the various trains on the conveyor 6. For example, with reference to the situation of
The version of
In both the embodiments of
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