The present invention relates to a device and method for unloading laminar elements from a roll, and forming and transferring stacks of such laminar elements. The laminar elements can be, for example, labels, leaflets, loose sheets, etc., made of different materials, such as paper and plastic, among others.
The invention also relates to an adjustable transfer roll for handling said laminar elements and particularly to a rotating transfer roll with a cylindrical surface provided with pneumatic means for holding laminar elements coming from a supply device thereon and delivering them to a receiving device.
Different devices used for continuously creating stacks of laminar products are known. The laminar elements, such as, for example, labels, leaflets, loose sheets, etc., are supplied by a feed system to the upper part of a roll which is actuated to rotate in relation to a generally horizontal shaft. The roll includes means for temporarily holding the laminar elements until they reach a lower part of the roll, where they are separated by a barrier. The separated laminar elements fall on a stacking support where a stack is formed.
Patent application US 2003/0082044 describes a device of this type in which the roll is formed by a plurality of equidistantly separated wheels rotating in unison in relation to a common shaft. Each wheel has a plurality of spirally-shaped fingers arranged such that they partially overlap one another and which are provided for holding a laminar element between every two fingers. According to an embodiment, two separating members are alternately interposed between two of the laminar elements such that the lower element of said two elements is the last element of a stack and the upper element of said two elements is the first element of the next stack, which is formed on the separating member. During the stack formation, the separating member supporting it moves as it grows, while the other separating member deposits the previous finished stack on output conveyor means and then it moves out of the stacking area to be located in a suitable position for being positioned, when it is its turn, between two laminar elements and thus beginning a new stack thereon.
According to another embodiment of mentioned patent application US 2003/0082044, only one separating member is incorporated and the output conveyor means are adapted for moving up and down in a stopped condition so as to act as a support for the stacks being formed. Thus, the output conveyor means first move upwards to receive the stack which is formed on the separating member, which is released to be moved out of the stacking area and be located in a suitable position so as to be positioned at the appropriate time between two laminar elements. The output conveyor means move downwards as the stack is being formed. When the separating member is positioned between two laminar elements, a finished stack is arranged on the output conveyor means, the output conveyor means are set in motion to remove the stack, and a new stack is initiated on the separating member.
In the first of the two embodiments, the two separating members are provided with combined movements in two directions requiring considerably complicated mechanisms, with the drawback of making the device complex and expensive to manufacture and to maintain. In the second embodiment, the single separating member is also provided with movements in two directions, and the output conveyor means are provided with up and down movements, which is also considerably complex. In addition, this embodiment has the drawback that the formed stacks are relatively “loose”, given that means for pressing against the elements of the stack as it is being formed for the purpose of eliminating as much as possible any air between them are not provided.
Other background documents from the prior art relating to this type of device are described in patent documents EP-B-548216, EP-A-0561100, U.S. Pat. No. 6,581,927, U.S. Pat. No. 6,832,886 and U.S. Pat. No. 6,877,740.
European patent EP-A-0579985 discloses a device for applying thin film labels on small cylindrical articles. The device comprises a label transporting drum having an internal cylindrically configured hub and a cylindrical drum rotatably assembled on said hub, with means for rotating the drum on said hub. A device is adapted to supply a label on the surface of said drum. Multiple vacuum slots defining a circumferential label holding area and multiple pressure slots circumferentially aligned after said multiple vacuum slots are radially extended around a substantial part of the circumference of the hub. Valve port means communicating with the surface of said drum are arranged on the inner surface of said drum. The mentioned label holding area is adapted to receive the vacuum provided from said multiple vacuum slots to hold the label on the surface of said drum, while at the same time said label moves through said label holding area, which is also adapted for receiving pressure from said multiple pressure slots to release the front edge of the label until it is placed in contact with an article located in the appropriate position for applying the label to the article.
European patent EP-A-1037829 describes a device for the transfer of segregated flat-shaped products, especially patches, labels or stamps, onto a transport device comprising a transport device and a transfer device for the ordered feeding of said products to the said transport device. The transfer device comprises a roll with suction orifices arranged at the circumference thereof which are supplied with negative pressure via a groove with a vacuum system, and which, after a partial revolution, are supplied with air via a ventilation channel. The roll is arranged transversely to the transport device, and the respective suction orifices connected with the ventilation channel facing towards the transport device in each case and being able to be moved in front the same.
In the embodiments of the last two patents mentioned, it is not possible to selectively open or close communication between selected groups of suction orifices and the vacuum or blowing system.
The present invention contributes to solving the aforementioned and other drawbacks by providing a device for unloading laminar elements from a transfer roll, and for forming and transferring stacks of such laminar elements, characterized in that it comprises a barrier located in the path of said laminar elements when they are transported by said roll, for unloading the laminar elements from the roll in an unloading area; a support for receiving in a stacked manner laminar elements unloaded and detained by said barrier, forming a growing stack; a separator adapted for being moved from a retracted position to an extended position interposed between first and second adjacent laminar elements, where said first laminar element completes a finished stack on said support and said second laminar element is momentarily held by said separator in order to begin a new growing stack while said finished stack is taken off the support; and a push element adapted for being moved from a retracted position to an extended position for pushing the finished stack and transferring it from the support to an outlet support.
The previously mentioned members of the device are provided with linear movements which can be easily actuated by linear actuators, such as fluid dynamic cylinders, electric motors with nut and screw mechanisms, linear electric motors, among others.
The device comprises support actuation means adapted to move the support receiving the stacked laminar elements away from said unloading area at a speed according to a corresponding growing speed of the growing stack and maintaining a predetermined pressure between a last laminar element of the growing stack and a cylindrical surface of the roll, being in contact. With this, air is substantially prevented from being trapped between the laminar elements of the stack being formed, making the stack more compact and furthermore the transfer from the roll to the upper part of the stack is carried out in a controlled manner at all times and without damaging the laminar elements. To control the mentioned predetermined pressure, the device incorporates a position detecting arrangement associated to the mentioned support of the stack of laminar elements and a member suitable for exerting a substantially regular pressure against the support to push the stack of laminar elements against the periphery or cylindrical surface of the transfer roll. Said position detecting arrangement is connected with control means controlling support actuation means moving the support downwards as a stack of laminar elements is being formed thereon and such that a predetermined pressure of said stack against the surface of the roll is always maintained.
The support actuation means are further adapted to move the support, once the positioning of the separator to its extended position has completed the finished stack, away from said unloading area until placing it at the level of said outlet support and, once the finished stack is pushed off, bringing the support closer to the separator again to receive the growing stack therefrom. These movements for moving the stack away and bringing it closer are carried out at a greater speed than the growing speed of the growing stack on the separator, which gives time to receive the growing stack in the support when the stack is in an initial stage of its formation. Likewise, the time taken by the growing stack to be finished on the support is enough to allow the removal and repositioning of the separator.
The present invention also provides a method suitable for being carried out by the device of the invention described above. The method is characterized in that it comprises the steps of unloading the laminar elements from the roll in an unloading area with the aid of a barrier located in the path of said laminar elements when they are transported by said roll; receiving by means of a support stacks of the laminar elements unloaded and detained by said barrier forming a growing stack; moving a separator from a retracted position to an extended position interposed between first and second adjacent laminar elements, where said first laminar element completes a finished stack on said support and said second laminar element is momentarily held by said separator in order to begin a new growing stack whereas said finished stack is taken off the support; and pushing the finished stack and transferring it from the support to an outlet support by means of a push element adapted for being moved from a retracted position to an extended position.
The method comprises moving the support by means of support actuation means away from said unloading area at a speed according to a growing speed of the growing stack, preferably maintaining a predetermined pressure between a last laminar element of the growing stack and a cylindrical surface of the roll by using said support actuation means for the purpose of substantially preventing the presence of air between the laminar elements and ensuring a regular transfer from the roll to the upper part of the stack, without damaging said laminar elements.
The invention also contemplates the use of a rotating transfer roll with a cylindrical surface provided with holding means for holding thereon laminar elements coming from a supply device and delivering them to a receiving device, like the one described, for unloading and forming stacks of laminar elements and transferring such stacks. Such holding means comprise orifices in rows that are substantially parallel to the shaft of the roll and distributed at angular intervals in said cylindrical surface; inner ducts each of which is communicated to those orifices forming at least one of said rows and with an entrance; suction or blowing means in communication with the inner ducts through their entrances along at least a part of the rotation of the roll to apply a suction or blowing flow through the orifices for the purpose of holding the laminar elements by suction or releasing them by blowing, respectively, and shutting means to selectively allow or prevent said suction/blowing flow through the orifices for the purpose of adjusting the roll to laminar elements of different sizes.
The transfer roll of the present invention is characterized in that said shutting means comprise a shutter device associated to each inner duct, each shutter device being configured and arranged to be changed between an open position, in which it allows a flow between the inner duct and the suction means, and a closed position, in which it prevents said flow between the inner duct and the vacuum or blowing means.
With this arrangement it is possible to open or close all the orifices belonging to each line by means of the actuation of a single shutter device, which entails considerable savings in time and money. Furthermore, each of the shutter devices comprise a valve body retained in a housing transverse to the corresponding inner duct and adapted to rotate in said housing between said open and closed positions. Each valve body can be individually accessed from outside the roll by means of a tool to be selectively placed in said open position or in said closed position. The proliferation of loose parts, such as individual stoppers in the devices of the prior art, is thus prevented. To prevent an unwanted movement of the valve bodies inside their respective housings, means for fixing the angular position of each valve body inside its corresponding housing, both in the open position and in the closed position, have been provided.
The previous and other features and advantages of the present invention will be more fully understood form the following detailed description of several exemplary embodiments with reference to the attached drawings, in which:
With reference first to
In the mentioned unloading area, the device comprises a stationary barrier 10 located in the path of said laminar elements L when they are transported by said roll 11. When they reach the barrier 10, the suction orifices 23 of the roll 11 are disconnected from the suction means (and eventually connected to a blowing source before reaching said barrier) and the barrier 10 acts to unload the laminar elements L from the roll 11 in said unloading area. Next to the barrier 10 there is a support 12 arranged to receive thereon stacks of the laminar elements L unloaded and detained by said barrier 10. The laminar elements L are thus accumulated in stacks on the support 12 forming a growing stack P2. As better shown in
The device includes a separator 13 adapted for being moved from a retracted position (
Finally, the device comprises a push element 14 adapted for being moved from a retracted position (
According to an exemplary embodiment (
Thanks to the above, during the formation of the stack, the support actuation means 16 move the support 12 away from said unloading area at a speed according to the growing speed of the growing stack P2, which will depend on different factors, such as the rotation speed of the roll, the size of the labels (i.e. the number of labels which fit in a certain portion of the surface of the roll), and the thickness of the labels. Once the finished stack P1 is completed, i.e. once the separator 13 has moved to its extended position (
Said
As described above, the separator 13 is provided with first movements between its retracted and extended positions and with second movements in a direction substantially parallel to the barrier 10 between a position adjacent to the roll 11 (
As better shown in
On the other hand, push element actuation means 21 are in charge of the movements of said push element 14 between its retracted and extended positions, said push element actuation means 21 comprising for example, at each side of the frame 50, a linear actuator 34 having a mobile part fixed to the push element 14 and a fixed part connected to the frame 50. The movements of the mentioned retainer 17 between its retracted and extended positions are carried out by means of retainer actuation means comprising a linear actuator (not shown) on each side of the frame 50, with a fixed part mounted thereto and a mobile part connected to the retainer 17. In this case, pneumatic cylinders are also suitable to carry out the functions of linear actuators, without this being a limitation. The movements of the push element 14 and the retainer 17 are guided by corresponding guide means cooperating with the push element and retainer actuation means.
Specially referring now to
As shown with more detail in
The support 12 also comprises a plurality of support fingers 12a arranged aligned with the barrier fingers 10a and substantially perpendicular thereto. These support fingers 12a are adapted to be moved along the separating spaces between the barrier fingers 10a when the support 12 is moved from the unloading area to the level of said outlet support 15, and vice versa. The push element 14 also comprises a plurality of push element fingers 14a adapted to pass through the separating spaces between said barrier fingers 10a and through corresponding separating spaces formed between said support fingers 12a when the push element 14 is moved from its retracted position to its extended position. Likewise, the retainer 17 is also formed by a plurality of retainer fingers adapted to pass between said push element fingers 14a when the retainer 17 is moved to its extended position.
With this arrangement, the support 12, the separator 13, the push element 14 and the retainer 17 can carry out their movements without interfering with one another or with the stationary barrier 10.
The method for unloading laminar elements from a roll, and forming and transferring stacks of such laminar elements according to the present invention is described below with reference to
The method of the invention also comprises moving the support 12 by means of support actuation means 16 away from said unloading area at a speed according to a growing speed of the growing stack P2 and, preferably maintaining a predetermined pressure between a last laminar element L of the growing stack P2 and a cylindrical surface 11a of the roll 11 using said controlled support actuation means 16.
An inner cylindrical tube 57 having an outer surface at a distance from the inner surface of the outer cylindrical tube 52 is arranged in inner steps of the end parts 50. Partitions 58 extending from one end of the roll 11 to the other are radially arranged between said outer surface of the inner cylindrical tube 57 and said inner surface of the outer cylindrical tube. The mentioned partitions 58 together with the outer and inner cylindrical tubes 52, 57 define inner ducts 40, each of which is communicated with the orifices 23 forming at least one of said rows of orifices 23. In the illustrated embodiment, each inner duct 40 communicates with two rows of orifices 23. In at least one of the end parts 50 there is a plurality of openings 51 distributed at angular intervals such that each of said openings 51 communicates with a corresponding duct of said inner ducts 40. Each inner duct 40 thus has an entrance 51 in an outer end surface 50a of one of the end parts 50.
The device comprises suction means, known by themselves and shown in
Shutting means selectively allowing or preventing the suction flow through the orifices 23 are incorporated for the purpose of adjusting the roll 11 to laminar elements of different sizes. Therefore, each inner duct 40 is associated to at least one shutter device 56 located in a position close to its corresponding entrance 51, as shown in
The shutter devices are described in greater detail below in relation to
Each one of the housings 53 is arranged such that the axis of rotation of the valve body 56 is aligned with a corresponding opening 62 (
The shutting means preferably comprise devices for fixing the angular position of each valve body 56 inside its corresponding housing 53, both in the open position and in the closed position. To that end, according to the exemplary embodiment shown, each valve body 56 is mounted such that it can slide axially inside the corresponding housing 53 and is trapped inside the housing 53 by an entrance part 64 fixed in a corresponding recess 68 of the cylindrical surface 11a by means of screws 69 for example. An elastic element 55, such as a compression helical spring pushing the valve body 56 against said entrance part 64 is arranged between the inner end of the valve body 56 and the bottom of the housing 53. The opening 62 mentioned above is located in said entrance part 64 and first and second notches 65, 66 are defined in the contour of the opening 62. The head of the corresponding valve body 56 is formed to rotate in the opening 62 and comprises a lateral projection 67 adapted to fit, for example, in the first notch 65 when the valve body 56 is in the open position and in the second notch 66 when it is in the closed position.
To change, between the open and closed positions, for example, the valve body 56 can be moved (sunk) inwards by means of the mentioned tool against the force of said elastic element 55 to unlock the lateral projection 67 from the corresponding first notch 65, to then be rotated a quarter-turn and again released to house the lateral projection 67 in the second notch 66. To again change the status of the valve, i.e. to pass from the closed position to the open position, it is enough to carry out the reverse operation to change said lateral projection 67 from the second notch 66 to the first notch 65. When the valve body 56 is sunk there is no restriction for it to rotate in any of the two directions to pass from the open position to the closed position or vice versa.
It will be understood that the device can optionally comprise additional blowing means (not shown) communicated with the inner ducts 40 through their entrances 51 along at least another portion of the rotation of the roll 11 to apply a blowing flow through the same orifices 23 for the purpose of releasing the laminar elements by blowing once the suction has ended. To that end, it is enough to incorporate a blowing chamber formed by an additional groove formed in a stationary plate 61 leaning in a tight manner to said end surface 50a of the roll 11 in which said entrances 51 of the inner ducts 40 are opened in a manner similar to the suction chamber 59. In this case, the mentioned blowing chamber would be connected to a high pressure source (not shown) and the corresponding groove would encompass an angular portion or sector of the circular surface of the end part 50 different from that encompassed by the suction chamber. Differentiated orifices for the entrance to the ducts 40 (see
Number | Date | Country | Kind |
---|---|---|---|
P200402095 | Aug 2004 | ES | national |
P200402096 | Aug 2004 | ES | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/ES2005/000476 | 8/26/2005 | WO | 00 | 1/23/2007 |