The present invention relates generally to an apparatus and method for preparing rolls of previously wound material for an unwinding machine. More particularly, the method improves the automation of moving rolls of sheet form material and the like to be loaded in preparation for unwinding and then, when a previously loaded roll has been unwound disposing of the remaining core.
Many products are manufactured from elongated sheet or stock material that is shipped and stored in the form of a roll or coil. Continuous strips or webs of thin, flexible material are commonly provided on storage rolls that are subsequently unwound for production of items made from these materials. Examples of these materials are plastic film, metal foil, tissue and paper.
During the manufacture of paper products such as napkins, newspapers, and magazines, for example, very large storage rolls of paper are used to provide the stock material from which the paper items are produced. The storage rolls are unwound for further processing such as cutting, folding or printing. The rolls of raw material may have a length of up to about 300 inches (750 cm) and a weight of up to about 8,000 lbs (3600 kg). Machines such as printing machines or laminating machines to which the sheet is supplied by the unwinding machine usually require the sheet to be supplied at a constant speed and tension. When nearly the entire roll has been unwound from the core, it is necessary for the machine to stop unwinding sheet from the almost empty roll and to commence unwinding sheet from a new roll without any interruption in the supply of sheets to the operating machine. It is thus necessary for the sheet to be cut from the nearly empty roll and to be secured to the sheet on the new roll to ensure continuous supply of sheet.
Conventionally, the rolls of stock material are prepared for the winding and unwinding machine in a rather labor intensive operation that can sometimes present dangerous working conditions for the operator. The large rolls of material are usually delivered to a work station by conveyor or cart or the like. At the work station, the operator inserts plugs into each end of the roll of stock material. The operator then commonly uses an overhead crane to engage the plugs and lift the roll of stock material off the conveyor or cart. The operator then prepares the roll for delivery to the unwinding machine. Such preparation usually involves cleaning the surface of the roll and positioning the leading edge of the web of stock material in a certain orientation. Using the overhead crane, the operator then lifts the prepared roll of material and delivers it to the unwinding station. The operator then uses the overhead crane to pick up a spent roll of material and return the spent roll to the work station wherein the operator removes whatever stock material remains on the core, removes the plugs, and delivers the spent core to a spent core storage area. It can be seen that having the operator in such close proximity with the large roll of stock material that sometimes can reach upwards of 8000 pounds presents many challenges for work place safety and efficiency.
Clearly, a need exists for a unique method to quickly change to a new roll once the previous roll is spent.
We have developed a unique method to efficiently and safely prepare and transport a new roll of raw material to the apparatus and unwinding station, while also retrieving a spent roll.
The automated process sequentially moves rolls of material having cores from storage to a core plugging station and then to an unwinding station and sequentially moves spent rolls of material from the unwinding station back to a spent core station. The process comprises the steps of sequentially:
(a) feeding unplugged rolls of material having cores to a core plugging station;
(b) automatically aligning at least one core plug with the core of the roll of material in the core plugging station;
(c) automatically inserting the at least one core plug into the core of the roll of material;
(d) feeding the plugged roll of material to an unwinding station;
(e) removing a spent roll of material from the unwinding station;
(f) automatically removing the at least one core plug from the spent roll; and,
(g) feeding the spent roll of material to a spent core station.
In a preferred embodiment, the plugging station provides for automatically elevating the roll to allow it to be prepared before sending it to the unwinding station.
In another preferred embodiment, the step of automatically aligning further includes vertically aligning and horizontally aligning the core plug with the core of the roll of material. In another embodiment, the core plug has a central axis, the core of the roll of material has a central axis and the step of automatically aligning further includes aligning the central axis of the core plug with the central axis of the core of the roll of material. The process further includes the step of a spent core gripper receiving the spent roll and transporting it to the spent core station.
Other objects and advantages of the present invention will become apparent to those skilled in the art upon a review of the following detailed description of the preferred embodiments and the accompanying drawings.
The apparatus of this invention sequentially receives rolls of raw material wound about hollow cores and automatically moves the rolls to a core plugging station. The rolls are plugged and prepared for use. The rolls are then moved to an unwinding machine. The apparatus and method of the invention then automatically and sequentially moves spent rolls of material from the unwinding machine back to a spent core station. The apparatus comprises:
(a) a core plugging station;
(b) a roll conveyor station for feeding unplugged rolls of raw material having hollow cores to the core plugging station;
(c) a means for automatically aligning at least one core plug with the core of a roll of material in the core plugging station;
(d) a means for automatically inserting the at least one core plug into the core of the roll of material;
(e) a means for transferring the plugged roll of material to an unwinding station;
(f) a means for removing a spent roll of material from the unwinding station;
(g) a spent core station;
(h) a means for removing the at least one core plug from the spent roll; and
(i) a means for feeding the spent roll of material to the spent core station.
The roll of raw material is transferred from an inventory stock of rolls via conveyor until it is positioned on the roll cart conveyor. The roll cart conveyor is positioned on rails that extend between the conveyor station and the core plugging station. The roll cart conveyor automatically transports the roll of raw material to the core plugging station. The roll cart conveyor further includes a turntable assembly for angularly positioning the roll of raw material within the core plugging station.
In the preferred embodiment, the core plugging station includes the means for automatically aligning the at least one core plug, the means for automatically inserting the at least one core plug, and the means for removing the at least one core plug. The means for automatically aligning the at least one core plug further includes a lifting frame designed to vertically align the central axis of the core plug with the central axis of the hollow core and a roll cart conveyor for horizontally aligning the central axis of the core plug with the central area of the hollow core. Once the central axes are aligned, both vertically and horizontally, the core can be rotated by a turntable assembly to angular align the center lines. Upon complete vertical, horizontal and angular alignment, the core plugs are inserted into the hollow core at each end of the roll of raw material. In the preferred embodiment, there are two core plugs, one on each end. The core plugs are retained in the core plugging station by friction fit.
Once the core plugs are inserted into the hollow core of the roll of raw material, the lifting frame lifts the roll of raw material vertically so that it no longer engages with the roll cart conveyor. The lifting frame then supports the roll of raw material while the roll is prepared by a worker for placement in the unwinding machine. Once the roll is prepared an overhead crane lowers carry hooks to engage the core plugs, the core plug probes are withdrawn from the core plugs and the overhead crane lifts and carries the roll of raw material into position on the unwinding machine.
In the preferred embodiment, the roll of raw material replaces a spent roll of raw material. On the return trip, the overhead crane retrieves the spent roll of raw material and transfers the spent roll to the spent core cart. The spent core cart will transfer on tracks between the spent core station and the plugging station. At the plugging station, the core plug probes are inserted into the core plugs and the core plugs are removed from the spent core. The spent core cart returns to the spent core station where the worker cleans and prepares the core for reuse. Once the core is prepared and cleaned for reuse, a conveyor transports the spent core to a spent core storage bin.
Referring now to
The roll cart conveyor 44 is positioned on parallel tracks 45 for movement between the conveyor station 40 and the core plugging station 10. In operation, once the roll cart conveyor 44 receives a roll of raw material, it automatically drives itself to a position in the core plugging station 10 proximate the core plugging machines 12, 12′. As will be discussed in detail later, the roll cart conveyor 44 positions the roll of raw material at a proper angular relationship with respect to the core plugging machines 12, 12′. The core plugging machines and roll cart conveyor 44 then move vertically and horizontally to visually align the center line of the core of the roll of raw material with the center line of the core plugs 111, 111′. Once the roll of raw material receives the core plugs 111, 111′ the core plugging machines 12, 12′ elevate the roll of raw material off of the roll cart conveyor 44. The roll cart conveyor 44 then travels back to the conveyor station 40 to receive another roll of raw material.
Once the roll of raw material at the plugging station 10 is prepared for transport to the unwind machine, the overhead crane 50 (
Upon return from the unwind machine, the overhead crane 50 will retrieve a spent roll of material and return the spent roll of material to the spent core station 20. As will be discussed in detail with respect to further figures, the spent core station 20 has a spent core cart 122 with a gripper assembly.
The spent core cart 122 travels on rails between the spent core station 20 and the plugging station 10, where the core plugs are removed from the spent core. The spent core cart 22 then returns to the spent core station 20 where the worker cleans remaining raw material from the core. Once the core is cleaned, the spent core conveyor 24, 26 transfers the spent core to the spent core lift 28 for depositing in spent core storage (not shown).
Referring now to the remaining figures, the various components of the conveyor station 40, plugging station 10, and spent core station 20 will be discussed in greater detail. Referring now to
Referring now to
In operation, the roll cart conveyor 44 positions the roll of raw material proximate the core plugging station 10 and the sensors on the pulling head 106 align the center line of the core plug probe 105 and core plug 111 with the center line of the core of the roll of raw material. Alignment is effected by vertical movement of the lifting frame 103 and horizontal movement of the roll cart conveyor 44 on the rails. Angular alignment is achieved by the turntable 52 on the roll cart conveyor 44. Once the proper alignment of the center lines of the core of the roll of raw material and the core plug 111 are aligned, drive motor 108 is activated to move the pulling head forward toward the roll of raw material thus engaging the core plug 111 within the core. Drive motor 107 is then activated to elevate the lifting frame 103, thus lifting the roll of raw material off the surface of the roll cart conveyor 44. The roll of raw material is then prepared for transfer to the unwind machine by the worker. After the roll of raw material is prepared, the overhead crane 50 arrives to engage the core plugs 111111′. Clamping member 109 disengages from the lip 113 of the core plugs 111111″ and the roll of raw material can then be transported to the unwind machine.
Referring now to
Referring now to
Referring now to
The above detailed description of the present invention is given for explanatory purposes. It will be apparent to those skilled in the art that numerous changes and modifications can be made without departing from the scope of the invention. Accordingly, the whole of the foregoing description is to be construed in an illustrative and not a limitative sense, the scope of the invention being defined solely by the appended claims.
This application claims the benefit of provisional application Ser. No. 61/067,592, filed Feb. 29, 2008.
Number | Date | Country |
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04327449 | Nov 1992 | JP |
Number | Date | Country | |
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20090220323 A1 | Sep 2009 | US |
Number | Date | Country | |
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61067592 | Feb 2008 | US |