LABELLING MACHINE WITH REMOVABLE LABELLING DEVICE
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DESCRIPTION
This invention relates to a labelling machine equipped with one or more removable labelling devices, allowing a change in the machine configuration.
In the sector, this type of labelling machine is usually called modular, in the sense that each labelling device is a module which, according to production requirements, may or may not be associated with the carrousel, even in different positions if necessary. Examples of such labelling machines are described in international patent applications PCT/IT2009/000398 and PCT/IT2009/000459 in the name of this Applicant, and in patent applications US 2007/204563, US 2009/301662, US 2005/153427 and US 2004/099379. In general, the angular position of the labelling device and its distance from the carrousel are set in advance using special technical solutions for connection/alignment of the various parts. Moreover, each labelling device may rest only on the ground/floor, or partly on the ground and partly on the frame of the labelling machine (US 2009/301662) or on another structure which is fixed relative to the frame (US 2007/204563).
However, consequently, in all of the prior art solutions, vertical alignment between the carrousel and the labelling device depends on the floor on which both rest. A perfectly flat, level floor would not create problems. However, industrial floors in general are not perfectly flat or level. Instead, they tend to have slopes and channels to guarantee water drainage.
Therefore, to allow simple levelling of the various parts, all of the prior art interchangeable labelling devices are equipped with height-adjustable supporting means. The supporting means normally consist of a plurality of feet which can be vertically adjusted either manually (for example, by simply screwing) or automatically (for example, using hydraulic, pneumatic or electric actuators). Therefore, each time the labelling device is positioned
relative to the carrousel, the supporting means have to be adjusted to achieve the correct levelling. Machines with interchangeable labelling device are designed to allow a series of different labelling operations to be carried out using a single machine (for example, if there is a change in the size of the objects to be labelled), by simply fitting, removing or repositioning the various labelling devices.
This may be a significant disadvantage in terms of both productivity and labour costs.
It is easy to see how the need to perform a new levelling operation each time the device is moved on one hand is very time consuming, with a negative impact on productivity, and on the other hand requires action by suitably skilled personnel for a predetermined time, thus increasing costs. This is the case in particular when the same device must often be moved to various positions around the carrousel.
Another problem, if the supporting means of the devices are manually operated, is that in many applications access to the supporting means located close to the carrousel may be difficult or even impossible. In particular, when there are many devices around a single carrousel, the devices may be practically alongside each other.
Since labelling devices are relatively heavy, in some solutions as well as the supporting means described, the devices have a plurality of wheels for transporting them, the wheels being positioned in such a way that they remain raised off the ground while the device is operating. However, in that case, for each movement the supporting means must be retracted upwards so that the wheels rest on the ground, representing a further disadvantage in terms of the time needed for the next new levelling operation especially if the device is subsequently returned to the same position.
In contrast, regarding devices designed to be partly supported either by the frame of the machine or by another structure which is fixed relative to the frame (see US 2009/301662 and US 2007/204563), a further disadvantage
is the fact that the modules can never be detached from the machine, since they are unable to support themselves. Therefore, in that case, the various devices can only be positioned in various positions relative to the carrousel, limiting the versatility of the labelling machine.
In this situation the technical purpose which forms the basis of this invention is to provide a labelling machine with a removable labelling device which overcomes the above-mentioned disadvantages.
In particular, the technical purpose of this invention is to provide a labelling machine with a removable labelling device which allows simplification of the operations for levelling the device relative to the carrousel.
This invention also has for a technical purpose to provide a labelling machine with a removable labelling device which allows the levelling operations to be performed only once if the module must always be positioned in the same position relative to the carrousel.
This invention also has for a technical purpose to provide a labelling machine with a removable labelling device which also allows the removal even of labelling devices which are designed to be partly supported either by the frame of the machine or by another structure which is fixed relative to the frame.
The technical purpose specified and the aims indicated are substantially achieved by a labelling machine with a removable labelling device made as described in the appended claims.
Further features and the advantages of this invention are more apparent in the detailed description, with reference to the accompanying drawings which illustrate several preferred, non-limiting embodiments of a labelling machine with a removable labelling device, in which:
- Figure 1 is a side view, with some parts schematically illustrated, of a labelling machine made in accordance with this invention;
- Figure 2 is an axonometric top view of the lower part of a labelling device of the machine of Figure 1 ;
- Figure 3 is an axonometric bottom view of an alternative embodiment of the lower part of the device of Figure 2;
- Figure 4 is an axonometric top view of a second alternative embodiment of the device of Figure 2;
- Figure 5 is an axonometric bottom view of a third alternative embodiment of the device of Figure 2;
- Figure 6 is an axonometric top view of a supporting structure for any of the devices of Figures 2 to 4;
- Figure 7 is an axonometric top view of the lower part of the labelling device of Figure 2 resting on the supporting structure of Figure 6;
- Figure 8 is a side view of Figure 7;
- Figure 9 is an axonometric top view of a device similar to that of Figure 5 resting on an alternative embodiment of the supporting structure of Figure 6;
- Figure 10 is an axonometric bottom view of a further alternative embodiment of the device of Figure 2;
- Figure 11 is an axonometric top view of the device of Figure 10 in a different operating configuration;
- Figure 12 is an axonometric view of a labelling machine without labelling devices;
- Figure 13 is an axonometric view of the labelling machine of Figure 11 with the labelling device of Figure 2 coupled to it; and
- Figure 14 shows a step of transferring the labelling device of Figure 2 (again shown without the upper part) between the condition of Figure 7 and that of Figure 13.
With reference to the accompanying drawings, the numeral 1 denotes in its entirety a labelling machine equipped with at least one removable labelling device 2 made in accordance with this invention. Although for simplicity the accompanying drawings only show a machine 1 equipped with a single labelling device 2, this invention may advantageously be applied even to machine equipped with any number of labelling devices 2.
With reference to Figures 1 , 12 and 13, in the known way the labelling machine 1 in general comprises at least a main supporting frame 3, a carrousel 4 rotatably mounted on the main supporting frame 3 according to a substantially vertical main axis of rotation and equipped on its periphery with sustaining means for the objects to be labelled, and at least one labelling device 2 (supporting plates 5 in the embodiment illustrated).
In the embodiment illustrated the machine 1 also comprises means 6 for feeding the products to be labelled and for picking up labelled products which are also mounted on the main supporting frame 3 (in particular on the portion 7 of the frame which has the shape of a parallelepiped, visible in Figure 12). Since for the carrousel 4, the means 6 for feeding the products to be labelled and for picking up the labelled products solutions are used which are known to experts in the field, not forming part of the subject matter of this invention, they are not described in further detail.
The labelling device 2 can move at least between a non-operating position in which it is distanced from the carrousel 4 and uncoupled from it, and at least one operating position in which it is removably associated with the periphery of the carrousel 4 for, in practice, allowing the labelling device to label the objects supported by the sustaining means as they pass the labelling device.
However, advantageously, the labelling device 2 can move between the non-operating position and a plurality of operating positions, at each of which it is in a different angular position relative to the main axis of rotation of the carrousel 4. In the embodiment illustrated, to guarantee correct radial positioning and centring relative to the carrousel 4, the machine 1 illustrated also comprises, for each labelling device 2, coupling and centring means 8 which are fixed to the main supporting frame 3. The coupling and centring means 8 can move freely along the extension of the carrousel 4 and allow free positioning of the labelling device 2 at any angular position. The coupling and centring means 8 are described in detail in patent application
PCT/IT2009/000398 by this Applicant, which should be consulted and whose content is incorporated for reference herein.
Moreover, in the embodiment illustrated, as described in more detail below, the labelling device 2 is of the type designed to rest partly on the ground and partly on a positioning unit 9 which is fixed relative to the main supporting frame 3 of the machine 1. That does not prevent this invention from also being applicable to devices 2 designed to rest exclusively on the ground.
As shown in Figure 1 , in the known way the labelling device 2 comprises a lower body 10, labelling means 11 mounted on the lower body 10 and first, height-adjustable supporting means 12 associated with the lower body 10 and designed to autonomously support the device 2 when it is associated with the carrousel 4. Since the labelling means 11 are of the known type and may have any structure depending on the requirements (for example, depending on the size of the labels to be applied, whether or not the labels are self-adhesive, etc.) they are shown only in Figure 1 and only schematically.
In the embodiments illustrated, the first supporting means 12 comprise both first resting elements 13 and second resting elements 14. The first resting elements 13 are positioned on the side of the device 2 which faces the carrousel 4, whilst the second resting elements 14 are positioned on the opposite side.
Depending on requirements, the height adjustment of the various resting elements 13, 14 may be achieved in any way. However, in the embodiments illustrated, the first resting elements 13 can be adjusted manually by screwing their first supporting rod 15 then locking with suitable first nuts 16. This is because, as described in more detail below, in all of the embodiments illustrated, adjustment of the first resting elements 13 may be performed once.
As regards the second resting elements 14, various possible alternative
embodiments are shown in the accompanying drawings. In the case in Figures 2, 5 and 9 to 11 , for example, the second resting elements 14 are adjusted manually by manually screwing a relative second supporting rod 17 and locking it in position with suitable second nuts 18. To make screwing easier, the top of each second rod 17 is provided with a handwheel 19. In contrast, in the case in Figure 3 each second resting element 14 comprises a hydraulic, pneumatic or electromechanical actuator 20. Instead, in the embodiment in Figure 4, an electric motor 21 connected by a driving belt 22 controls screwing of the second rod 17 of each second resting element 14. In accordance with this invention, as well as the first supporting means 12 described above, the labelling device 2 comprises second supporting means 23 designed to autonomously support the device 2 when it is not associated with the carrousel 4, and which can be switched between a first configuration in which they allow the labelling device 2 to be supported solely by the first supporting means 12 and a second configuration in which they completely and autonomously support the labelling device 2 irrespective of the height adjustment of the first supporting means 12. This means that, whatever the height adjustment of the first supporting means 12, it is possible to configure the second resting means in such a way that they completely support the labelling device 2, preventing contact between the first supporting means 12 and the floor.
In this way, the second supporting means 23 allow the labelling device 2 to be put in the non-operating position without having to change the adjustment of the first supporting means 12.
Depending on the embodiments, there are two main types of second supporting means 23: a first type in which the supporting means are completely mounted on the labelling device 2, and a second type in which the second supporting means 23 are partly fixed to the labelling device 2 and partly positioned in the device 2 non-operating position.
Regarding the first type, the second supporting means 23 comprise a
plurality of resting feet 24 which can move between a first position defining the first configuration and a second position defining the second configuration. A first example of this is shown in Figures 10 and 11 , where the resting feet 24 can move between the first and second positions by rotating about a secondary axis which in practice is substantially horizontal. It can be seen how each resting foot 24 has the shape of an overturned "V" with the vertex hinged to the lower body 10. However, obviously, said resting feet 24 may also have other shapes. A second example is shown in Figure 5, where the resting feet 24 can be height-adjusted relative to the lower body 10 (in the same ways as described above relative to the resting elements), and therefore are able to move between an upper height in which they are higher than the second resting elements 14, and a lower height in which they are lower than them.
In contrast, regarding the second type, the second supporting means 23 comprise on one hand at least one supporting structure 25 which can rest oh the ground in the non-operating position, and on the other at least one resting portion 26 (advantageously more than one) which is fixed to the lower body 10 of the labelling device 2. Each resting portion 26 may comprise either directly a part of the lower body 10 (Figures 2 to 8) or a fixed foot which is fixed to the lower body 10 (Figure 9 - these feet are the same as those of Figure 5 except for the fact that they are not height- adjustable). Each resting portion 26 is also designed to be rested on the supporting structure 25 when the labelling device 2 is in the non-operating position. Consequently, in the first configuration of the second supporting means 23, the resting portion 26 is uncoupled from the supporting structure 25 whilst, in the second configuration of the second supporting means 23, the resting portion 26 rests on the supporting structure 25.
Two examples of the supporting structure 25 are shown respectively in Figures 6 to 8 and in Figure 9.
Advantageously, the supporting structure 25 comprises a plurality of
supporting elements 27 extending vertically and connected to each other, on which the resting portions 26 can rest.
In the preferred embodiment, when the labelling device 2 is resting on the supporting structure 25 the latter forms, below the labelling device 2, an empty space 28 which can be accessed from at least one side, and which is designed to allow the insertion of lifting means under the labelling device 2. In this way, as shown in Figure 14, the labelling device 2 can be moved from the non-operating position to the operating position (and vice versa) easily with the aid of lifting means, such as a pallet truck 29.
As already indicated, in the preferred embodiment illustrated in the accompanying drawings, the labelling machine 1 also comprises at least one positioning unit 9 which is fixed relative to the frame 3, on which the first resting elements 13 rest when the labelling device 2 is in the operating position.
In the embodiment illustrated the positioning unit 9 comprises an arched section bar fixed to the ground at the carrousel 4. However, in other embodiments, the positioning unit 9 may be an integral part of the main supporting frame 3 or fixed to it.
When the labelling device 2 is in the operating position, and the first resting elements 13 are resting on the positioning unit 9, each second resting element 14 is positioned at a height lower than each first resting element 13.
Depending on the embodiments, the machine 1 may comprise either a single positioning unit 9 extending along the extension of the carrousel 4 and which allows the first resting elements 13 to rest at a plurality of different angular positions relative to the main axis of rotation (Figure 12), or a plurality of separate positioning units 9 for allowing resting of the first resting elements 13 and which are positioned at a plurality of different angular positions relative to the main axis of rotation (solution not illustrated, but which corresponds for example to the division of the positioning unit 9 of
Figure 12 into several separate pieces). However, in both cases, at each of said angular positions each positioning unit 9 has the same relative positioning and distance relative to the carrousel 4. In the embodiment illustrated this is achieved by simply ensuring that at each angular position the positioning unit 9 has a resting surface 30 for the first supporting means 12 which lies in a single plane and which is parallel with the plane in which the carrousel 4 lies (both of said planes are substantially horizontal). In this way, the first resting elements 13 can maintain the same adjustment at each of said angular positions, so that it is enough to adjust them only once during the first installation of the labelling device 2.
This invention also relates to two methods for repeatedly changing the configuration of a labelling machine 1 of the type described above.
The first method relates to machines in which a specific labelling device 2 may or may not be present, but in which the device 2 must be mounted repeatedly at the same angular position relative to the main axis of rotation. That method can be applied to any machine 1 according to this invention and comprises a first operating step in which the labelling device 2 is associated for the first time with the carrousel 4 at a predetermined operating position and during which it is levelled relative to the carrousel 4 using the first supporting means 12. Therefore, at the end of that first operating step a first operating configuration of the labelling machine 1 is obtained. When, to obtain a second operating configuration of the labelling machine 1 , the device 2 must be removed, the method comprises the operating step of moving it to the non-operating position while at the same time maintaining unchanged the adjustment of the first supporting means 12 and preventing them from supporting the device 2 (which instead is supported only by the second supporting means 23).
Finally, when the labelling machine 1 first configuration is required again, the method comprises the operating step of returning the device 2 to the operating position, again maintaining unchanged the adjustment of the first
supporting means 12.
In contrast, the second method can be applied when the machine 1 is equipped with one or more positioning units 9 which allow the labelling device 2 to be mounted at a plurality of different angular positions and which, at said separate angular positions, have the same relative positioning and distance relative to the carrousel 4.
In this case, to obtain a labelling machine 1 first configuration, the method comprises a first operating step in which the labelling device 2 is associated with the carrousel 4 at its first operating position and is levelled relative to the carrousel 4 using the first supporting means 12. In contrast, to obtain a labelling machine 1 second configuration corresponding to a different positioning of the labelling device 2 relative to the axis of rotation, the method comprises the operating step of moving the device 2 to a second operating position, maintaining unchanged the adjustment of each first resting element 13 which must rest on the positioning unit 9, and instead changing, if necessary, only the adjustment of each second resting element 14.
Obviously, this method may also be applied in the case in which between one operating position and another the device 2 is temporarily kept in the non-operating position. In that position, the adjustment of the first supporting means 12 is not modified.
This invention brings important advantages.
First, a labelling machine made in accordance with this invention allows simplification of the operations for levelling the device relative to the carrousel with each configuration change, since a new levelling operation can be entirely or partly avoided.
Second, if the labelling device must always be placed in the same position relative to the carrousel, thanks to this invention it is possible to perform the levelling operations only once. During the period when it is not used, said adjustment does not have to be modified thanks to the use of the second
supporting means for sustaining the device.
Moreover, a labelling machine made in accordance with this invention allows the momentary removal even of labelling devices designed, in practice, to be partly supported either by the machine frame or by another structure which is fixed relative to the frame, significantly increasing the versatility of the machine.
Finally, it should be noticed that this invention is relatively easy to produce and that even the cost linked to implementing the invention is not very high. The invention described above may be modified and adapted in several ways without thereby departing from the scope of the inventive concept. Moreover, all details of the invention may be substituted with other technically equivalent elements and the materials used, as well as the shapes and dimensions of the various components, may vary according to requirements.