The present invention relates to a device for separating packs of laminar products from one another, for example packs of paper serviettes produced by a folding machine. The invention relates also to a corresponding method for separating packs of laminar products from one another, as well as a folding machine which incorporates said device and which implements said method.
From WO-A-9728076 a device is known for dividing a pile of laminar products into packs and for separating said packs from one another, said device comprising a path of advance for the pile of laminar products and, along said path of advance, a pair of guides defining respective closed paths along which pairs of separator fingers are made to advance. Each guide has an advance stretch and a return stretch, where at least the advance stretch is substantially parallel to the path of advance of the pile of laminar products. In order to separate two adjacent packs of products from one another in the unloading area and thus to enable separate and individual unloading of each pack, while holding back the subsequent pack, this known device envisages a system which, in the unloading area, causes temporary divarication of the two fingers making up each pair. In this way, the most advanced pack in the pile is moved away from the next, and is then unloaded. This known device is particularly effective, simple to build and reliable, especially as compared to the devices known previously. However, the pairs of fingers and the mechanism that causes their divarication in the area for unloading the packs of serviettes may, under certain working conditions, require relatively frequent maintenance interventions to eliminate the dust that may lead to jamming.
The object of the present invention is to provide a device that is even simpler and more reliable than prior devices.
The above and further objects and advantages, which will emerge clearly for persons skilled in the art from the ensuing text, are basically achieved by means of a device in which it is envisaged that, in the vicinity of the end of the advance stretch of the guide where the separator fingers (which are, in this case, single, and not double) slide, there is set a separating member provided with a movement of insertion and extraction with respect to the pile of products that is moving forward along the path of advance. The movement of the separating member is synchronized with the movement of advance of the products along the path of advance, so that the separating member is inserted between two contiguous packs of laminar products, between which a respective separator finger is inserted. In this way, the separating member withholds the pile of laminar products temporarily, whilst the separator finger is moved away from the path of advance and the first pack in the pile can be unloaded. At the same time, a retention member for holding back the front face of the next pack is introduced.
Basically, thanks to the present invention, a method can be implemented for separating adjacent packs of laminar products, which comprises the steps of:
The device that is thus obtained is simpler, and consequently more reliable, than the previously known devices, in so far as a single separating member (or else, two symmetrical separating members set on either side of the path of advance) in a fixed position with respect to the direction of advance of the products performs, in combination with the individual separator finger, the function previously performed by pairs of fingers. In this way, the number of components of the device is reduced, and reciprocally moving parts, which might get jammed on account, for instance, of the large amount of dust frequently present in plants for producing this type of paper articles, are eliminated.
Further advantageous characteristics and embodiments of the device and method according to the invention are described in what follows and are defined in the attached claims.
A better understanding of the invention will be obtained by following the description and the attached drawings illustrating a possible, non-limiting, embodiment of the invention. More in particular, in drawings:
In the attached drawings, and with reference first in particular to
Operation of the folding machine briefly described above is in itself known and will hence not be illustrated in greater detail herein.
The pile P of folded weblike material is pushed against a transverse blade 9, which cuts the pile into two parts P1 and P2, each made up of a plurality of serviettes folded into two or into four. Set downstream of the blade 9 is a partition wall, which keeps the two parts P1 and P2 into which the pile has been cut separate from one another, so enabling independent manipulation of the two parts.
The pile P, P1, P2 advances along a path of advance defined by a feed channel delimited by a pair of side walls 11 (see also
To separate one pack of serviettes M1 from the next pack M2, at the sides of the feed channel for the pile P, P1, P2, two series of separator fingers 15 are set, one on each side of the channel. Each separator finger 15 is integral with a respective slider 19, which slides in a respective slide guide. The arrangement can be seen in particular in
The slide guide 23 houses, inside it and along the internal rectilinear stretch, i.e., the one closest to the feed channel for the pile of serviettes, a drive belt 24 with a U-shaped cross section which defines a seat of engagement for bottom teeth 19X provided on the sliders 19. The belt has a speed of advance that can be adjusted and is approximately equal to the speed of advance of the pile P of products in order to control movement of advance of the fingers 15 and of the sliders 19.
Alternatively, the belt 24 may not be present, and the sliders 19 can engage directly in a fixed slide channel having a low coefficient of friction, which forms the slide guide 23. In this case, advance of the sliders is obtained by means of the thrust exerted by the pile of folded products.
Each slider is moreover provided with a rear appendage 19A for the purposes that will be described hereinafter.
The guides 23 define a closed path, and in each one of the guides 23 there is preferably set an equal number of sliders 19, so that on each side of the feed channel there corresponds, to each slider 19 and to the associated finger 15 in the guide 23, a slider 19 and an associated finger 15 in the guide 23 on the opposite side of the feed channel for the folded products.
In an area corresponding to the two arched end areas of each guide 23 there are present a respective first grooved spool 31 (in the vicinity of the respective folding roller 1, 3) with a series of longitudinal grooves 31A, and a second spool 33 (in the unloading area).
Two hooks 33A are hinged to each spool 33 (see, in particular,
With the above arrangement, the stepwise rotation in a clockwise direction, indicated by the arrow f31, of the first grooved spool 31 causes hooking of the rear appendages 19A of the sliders 19 by the grooves 31A, and hence transfer of the sliders 19 from the respective external rectilinear stretch of the guide 23 to the internal rectilinear stretch, i.e., the stretch facing the pile P of products. Stepwise rotation of the grooved spool 31 can be obtained using any suitable system, for instance, using a free-wheel mechanism operated by a linear cylinder-piston actuator, or else using a rotary actuator. Likewise, stepwise rotation of the second spool 33 in the direction indicated by the arrow f33 causes hooking and transfer of the sliders 19 and of the fingers 15 that are integral with them from the internal rectilinear stretch to the external rectilinear stretch of the respective guide 23.
On each side of the feed channel for the pile P, P1, P2 of products and parallel to the external rectilinear stretch of each guide 23 a continuous flexible member 35 develops, which is run over two pulleys and which is provided with bristles that engage the fingers 15 transferred by the second spool 33 onto the external rectilinear stretch of the respective guide 23 and draw them along in the direction indicated by the arrow f35, in a direction opposite to the direction of advance of the pile P, P1, P2 of products. The sliders 19 are carried by the flexible member 35 until they come into contact with the first spool 31, as may be seen in
In the vicinity of the end area (i.e., the one furthest away from the folding rollers 1, 3) of each guide 23 there is set a separating member generically designated by 101, which does not translate in the direction of advance of the pile of products and which is provided with a transverse movement of insertion and extraction with respect to the pile itself. This movement, as will emerge clearly from what follows, is synchronized with the movement of the separator fingers 15 to enable temporary withholding, separation and unloading of each pack of products.
Each separating member 101 (see in particular
The operation of the device so far described is as follows.
The folding rollers 1 and 3 rotate continuously to form the pile P, which is then cut by the blade 9 into the two parts P1, P2. In this step, in a position adjacent to each roller 1 and 3 there is waiting a respective separator finger 15, which remains stationary outside the folding area. When a pre-set number of folds has been reached, which will give rise to a pre-set number of serviettes as a result of the cutting operation performed by the blade 9, on each side of the machine the respective grooved spool 31 rotates by one step, so bringing the slider 19, and consequently the respective separator finger 15, from the extracted position external to the folding rollers in the folding area, into a position that is more advanced with respect to the point in which the subsequent fold of the weblike material N is formed. This movement is made possible by the presence of annular grooves in the folding rollers 1 and 3. The sliders 19 are totally released from the grooved spool 31 and are inserted with their bottom appendages 19X into the respective longitudinal seats of the belts 24 set in the guides 23, along the stretch of path facing the feed channel.
As feeding of the weblike material N continues, and hence folding thereof with accumulation of material folded into the pile P, the two fingers 15 on the two sides of the feed channel, drawn along by the respective grooved spools 31 into the active area of folding, remain engaged between one fold and the next, and start to advance along the guides 23, being pushed by the pile P, P1, P2 itself of products that are advancing as a result of the action of the arms 7, aided therein by the action of the respective drive belts 24, the speed of advance of which (as has been said previously) is approximately equal to the speed of advance of the pile P.
When the two sliders 19 on the two sides of the feed channel of the pile P, P1, P2 reach the end of the rectilinear stretch of the guides 23, the first group of laminar products or serviettes M1 is separated from the next group M2 by means of the pair of separator fingers 15 and by the separating members 101 in the way illustrated in
In
The second hook 33A carried by the spool 33 undergoes a similar rotation, and in this way brings a slider 19, previously removed from the area of unloading of the serviettes, up to the external rectilinear branch of the guide 23, along which it is drawn until it reaches the grooved spool 31 again, so that it can be re-used. Return of the sliders 19 along the external rectilinear branch of the guide 23 is obtained by means of a flexible member 35 in a way in itself known.
The means for turning over and unloading the individual packs M1, M2, . . . , Mn of products separated by means of the separator fingers and the stems 103 are illustrated in particular in
The wall 12 defining the bottom of the feed channel for the pile P, P1, P2 ends with a comb-like portion 12A, which co-operates with a moving surface 41 defined by a plurality of laminas 41A carried by a bracket 43 articulated in 45 to a block 47. Each lamina 41A has a slot 41B within which there engages, in an adjustable position, a bar 49 which is orthogonal to the surface 41. The bars 49 are aligned together to define the aforesaid vertical contrast surface, which also has the function of containing the pile of products.
The surface 41 formed by the laminas 41A can be turned over about the horizontal axis 45 by means of a cylinder-piston actuator 51. In addition, the block 47, with the plate 53, the actuator 51, and the surface 41, can translate according to the double-headed arrow f47 by means of a mechanism illustrated in
Set above the surface 41 is the blade 81, operated, for example, by means of a mechanism illustrated in isolation, in particular in
The support 81A of the blade (
The arrangement now described is symmetrical, there being provided a pair of blades 81 set alongside one another, one in a position corresponding to each portion P1, P2 of the pile of products coming from the machine.
The operations of unloading packs of products take place as described below.
The bars 49 are brought initially into the position where they are closest to the folding rollers 1 and 3, and the most advanced products in the pile P, P1, P2 rest on the bars 49 and are pushed against them. As the weblike material N is folded and the serviettes are formed by the rollers 1, 3 and by the blade 9, the bars 49 translate under the control of the motor 61 to provide room for the new products coming from the machine.
A sensor (not shown) emits a signal when a pair of fingers 15 reaches the position of
The next pack M2 is withheld at the front by the stems 103 and then by the blade 81 after the latter has been inserted with a movement about the axis of the stem 88.
Once the pack M1 has been deposited on the conveyor 91 and has been removed from the unloading area by means of the conveyor 91 itself, the surface 41 is raised up again by means of the cylinder-piston actuator 51, whilst the actuator 61 causes the ensemble 41, 43, 47, 49 to move back to a position in which the bars 49 come into contact with the front surface of the pack M2. This position is determined by the PLC which controls the actuator 61 according to the values of thickness of the weblike material N and the rate of production, in so far as, in the meantime, the blade 81 is pushed forwards under the thrust of the pile of products to enable continuous operation of the folding machine without substantial increase in the compression of the products. Before the surface 41 and the bars 49 return to the position in which they are resting against the advancing pile, the fingers 15 are extracted by the spools 33 (
When the bars 49 are again in contact with the first serviette of the advancing pile, the blade 81 is slid out upwards by means of the actuator 87 and is then retracted into the initial position by means of the actuator 89.
As may be seen in the attached figures, the actuators and devices that enable unloading of the packs of products are double and symmetrical, in so far as the unloading of the packs M1 from the two portions P1 and P2 into which the pile P has been cut cannot take place simultaneously.
In the embodiment so far described, the stem 103 of the separating member 101 describes a movement orthogonal to the direction of advance of the products and substantially parallel to the axis of the stem itself. In certain cases, it may be convenient for the stem 103 to be inserted between adjacent packs of products in a position as close as possible to the position in which the separator finger is located. This is convenient, for example, when the products are made of very compliant material which tends to close immediately onto the separator fingers without leaving sufficient space for insertion of the stem 103.
In such a case, it may be envisaged that the separator fingers 15 and the sliders 19 have a guide groove within which the stem 103 slides during its movement of insertion between adjacent packs of products. Once the end of the stem 103 is inserted between the consecutive packs of products, the stem 103 can be raised to be released from the slider 19 and from the finger 15.
One way to obtain this movement may be that of appropriately shaping the finger 15, as illustrated in
The movement of raising of the stem 103 can be obtained by bending of the stem itself, or else also by the stem being mounted, together with the corresponding actuator 107, so that it can oscillate in a vertical plane.
The possibility is not ruled out of the movement of raising the stem 103 with its consequent release from the guide groove 15X taking place in a different way, for example by means of a further actuator, or else by means of a cam profile which is outside the area of the finger 15 and the slider 19.
The return path of the separator fingers can develop on different levels so as to prevent collision of the fingers with the stem 103 in the return step. Alternatively, the stem 103 can be appropriately shaped with a double Z-like curvature, with the distal area at a lower level corresponding to the level of the separator fingers 15 to be inserted between the adjacent packs of products, whilst the proximal area with respect to the actuator 107 is at a higher level so as not to interfere with passage of the fingers 15 in the return path.
When a lifting movement of the stem 103 is not required, its insertion in the gap between adjacent packs of products in a position corresponding to the overall dimensions of the separator finger 15 can be obtained also with a different shaping of the finger itself, as illustrated in
It is understood that the drawings only provides an illustrative example furnished purely by way of practical demonstration of the invention, given that the invention may vary in its embodiments and arrangements without thereby departing from the scope of the idea that underlies the invention itself. The possible presence of reference numbers in the attached claims has the purpose of facilitating reading thereof with reference to the description and to the drawings, and in no way limits the scope of protection represented by the claims.
Number | Date | Country | Kind |
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FI2000A0182 | Aug 2000 | IT | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/IT01/00439 | 8/7/2001 | WO | 00 | 3/20/2003 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO02/14196 | 2/21/2002 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
4162649 | Thornton | Jul 1979 | A |
4508333 | Byrt | Apr 1985 | A |
4796879 | Martini et al. | Jan 1989 | A |
4938465 | Marsiletti | Jul 1990 | A |
5145159 | Vits | Sep 1992 | A |
5281082 | Ghilardi | Jan 1994 | A |
6120240 | Ghilardi | Sep 2000 | A |
Number | Date | Country |
---|---|---|
0 240 691 | Oct 1987 | EP |
1018235 | Jan 1966 | GB |
WO 9728076 | Aug 1997 | WO |
Number | Date | Country | |
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20040035681 A1 | Feb 2004 | US |