前苏联专利SU1274618A3 Method for automatic processing of stack of numbered sheets of various series securities

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专利摘要:
This invention relates to the field of securities processing. The aim of the invention is to reduce the time of a simple machine between the last row of packs of one processed one. feet of securities and the first row of the subsequent foot being processed. The goal is achieved in that stacks of sheets 1, containing respectively x used units in a sheet, are cut in a cutting device 6 for strip cutting into m strips 8 of sheets, then all belonging to the same stack of 1 sheets and pre-nodded strips of 11 are assembled sheets, are fed together as a group 14 one after the other in the longitudinal direction of the strip to the device 16 for cutting packs and there each strip of sheets is cut into p packs, the packs 17 are fed one after the other into one of the two alternately filled and empty drive drums 21, 22, which have N drives 23, are distributed around the perimeter, and thus rotate at a constant speed, that packs 17 one after another go to different drives 23. There, respectively, 10 packs of one series are stacked, then 24 packs can be taken out in a package. The number N is equal to the maximum possible number nij, X units used, which can have one
公开号:SU1274618A3
申请号:SU823470943
申请日:1982-08-03
公开日:1986-11-30
发明作者:Кюфусс Рунвальт
申请人:Де Ла Рю Жиори С.А. (Фирма)；
IPC主号:

专利说明:

2 f 3 4 s
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discount sheet. If the number of units used in a sheet is less than N, after each group is cut, 14 strips of sheets are added. The floor thickness of the steps before the first cut is to get packs of the next group and, in addition, with further transport of packs 17 after each
series of m packs 17 are added ga o
hectares of empty places, so that the corresponding drives 23 of the drive drums remain free, which thus, without changing the number of drives, allow processing of sheets with different numbers of units used. 5 il.
The invention relates to the automatic processing of a foot of numbered and containing a large number of used units of sheets of securities, in particular banknotes.
The aim of the invention is to reduce the time just to mash between the last row of packs of one treated foot and the first row of the subsequent processed foot.
Fig. 1 shows a diagram of an apparatus for carrying out the proposed method; Figures 2 to 5 show schematic representations of the distribution of the filled and remaining empty storage drives of the storage drum for various cases of the numbers of units used in each sheet.
In the device (Fig. 1) implementing the method, a stack of 1 sheets with 100 sheets each, which have already numbered printed banknotes (units of use), are arranged in the correct number sequence, is fed to the device 2 for lining sheets of an automatic cutting machine. Such sheets of sheets are fed to the exit of the numbering machine. Each sheet has 24 units of use, which are arranged in the form of a matrix in six rows and pass transversely to the feed direction of the foot 1 during its cutting (in the direction of arrow 3) and four columns that pass in the feed direction. The units of use that lay one on top of the other in each stack of sheets, respectively, belong to a certain series of numbers and are pronummed inside this series;
but
The automatic cutting machine has two parallel opposing-longitudinal cutting devices 4, a transverse cutting device 6 for cutting 5 strips and an additional cutting device 16 for cutting packs. A foot 1 of sheets is fed in the direction of the arrow 3 to two longitudinal cutting devices 4, the blades of which 0 are oriented in the direction of feed and at the same time cut off the side edges of the sheets of each stack of sheets. With the aid of an electronically programmable feed supply means 5, the sheets are then oriented to a transverse cutting device 6, which has a knife oriented perpendicularly to the direction of transport. Here, the edge is first cut on the front side of the sheet of sheets, then the sheet of sheets is gradually divided into six strips of individual layers and on the back of the last strips of layers the rear edge cut is performed. Waste paper is discharged using the waste shutter 7. When the stack of sheets is cut, the next stack of sheets is automatically fed,
0 The strips of layers 8 are fed one after the other into the banding machine 9 with the four banding devices in operation, to which the wrappers 10 are applied to which the glue is pre-applied. The banding devices at the same time cover the parcels 10 with each of the strips 8 of the layers on the four positions of the securities or the positions fSf of the units of use
Fully wrapped stripes
11 of the layers (arrow) are initially retracted from the machine 9 for banding in the longitudinal direction of the strips and then, after changing the feed direction by 90 °, are fed transversely to the longitudinal direction of the strips 5 using the next electronic programmable device 12 to the site of 13 dp layer overlap. There, six strips 11 of sheets belonging to the same foot of one sheet are collected, 10 are scribed and pushed together. They form the group of tenants designated by the position 14 in a series of strips of sheets, which is by means of an electron. The programmable feeder 15 is fed simultaneously to the transverse cutting device 16, which has knives extending over all strips of sheets. Here, all six strips 11 of sheets are gradually cut into separate wrapped packs 17 at the same time, and in the described example three sections are needed, so each strip of sheets or each of the original row of sheets 25 has four units of use.
The wrapped bundles 17 cut into the specified format are automatically shifted to the transport section 18, through which they are at a predetermined distance from one another to the distribution device 19. and from it to the intermediate storage 20 consisting of two equally drums drives 21,. and 22. Each of the storage drums 21 and 22 has drives 23 distributed over their perimeter, the storage drums rotate in the direction of
the shooter uniformly at such a speed 40 that the packs 17 belonging to the same initial stack of 1 sheets, during the complete revolution of the drum, one after another enter (fall) into different drives 23 of one drum,. 45 for example (Fig. 1) - the drum 21, and the following packs 17, which originate from the nearest sheets of sheets, follow the next turn of the drum to the same accumulators, respectively, 23 and so on. Thus, all the packs 17, which originate from ten successively one-sheet stop 1 sheets and respectively have the same values of values on the sheets, 55 are stacked one above the other in one of the accumulators 23 of the storage drum 21 until
the accumulators will be collected respectively in ten packs. Since in the numbering machine, which numbered the sheets before the formation of a stop of 1 sheet, the same positions or units of using successive sheets within one batch were numbered, 1000 banknotes of all packs 17 in the thus formed and consisting of ten packs
24packs belong to the same series respectively and are numbered under
After the accumulator 23 of the first storage drum 21 is completely filled, the next packs 17 are automatically guided in the dispenser 19 to another storage drum 22, where the described sorting is repeated.
At the same time, the full drum-drive 21 is gradually (step-by-step) discharged, so that packs of 24 packs, as shown in FIG. 1, for the other drum 22, are pushed one by one out of each drive 23 and are conveyed by the transport system.
25 to transport section 26. In this transport section 26, further processing of packs of 24 packs takes place, which, after another count, is automatically wrapped and packaged.
Until now, it was necessary that the number of drive drums 21 and 22 drives uniformly distributed around the perimeter of the drives 23 should be the same as the number of units used in each sheet of securities. It is necessary to use storage drives with respectively 24 accumulators, since the entire device was so planned that the following one after the other without pauses and overlapping one with the other of the foot of sheets were cut into strips of sheets, and the next after another group of 14 strips of sheets bundles 17 and packs were brought along transport section 18 in a non-explosive sequence to intermediate accumulator 20. Under these conditions, the number of accumulators 23 would have to be equal to the number of units of use in each sheet to tel x 23 contained packages with the correct consecutive numbered notes. However, the number of used units in each sheet can vary widely, for example, from 4 X 6 24 to the maximum number of used units in a 6x10 60 sheet. In order for sheets with a different number of used units to be processed by the device, it is necessary not only to adjust the cutting control machine n other devices to the appropriate sheet format and the number of units used, but also storage drums 2 to 2.2 so re-equip, so that the number of drives 23 uniformly distributed around their perimeter 23 is equal to h The number of units used in each sheet.
According to the invention, the storage drums 21 and 22 have a constant number N of drives 23, which is equal to the maximum possible number of units used in the sheets to be processed. In this example, in accordance with the maximum number of units used is 6 x 10 60 units used in each sheet, on which the units used are located in 10 rows and 6 columns. To allow these drums to also process sheets with a smaller number of used units without changing the number of accumulators, idle cycles are entered into the normal working rhythm during cutting and during feeding such that the sum of working and idle cycles corresponds to processing one full foot, is equal to the sum of processing sheets with 60 units used and thus corresponds to one revolution of storage drum 21 or 22, in which then the corresponding numbers are free; corresponding numbers;
The workflow in the considered example with sheets of 4 x 6 by 24 units of use is controlled as follows. The operation of the feeder (feed) 5 for the foot 1 sheet and the cutting rhythm of the cutting devices 4 and 6 can be adjusted independently of the feed strips 11 of the sheets, groups of 14 bands of sheets and packs 17, as well as the cutting rhythm of the cutting device 16 and are chosen so that the working period of complete cutting of the foot of 1 sheet into strips of 8 of the levs: Article was equal to the working period during which sheets with 10 rows of used units were cut, i.e. with the maximum number of rows The following workflow is to collect groups of 14 strips 11 of sheets instead of 13 for putting sheets, i.e. feeding the individual strips 8 of the sheets, banding them in the device for embolishing 9 and their further feeding to the place 13 where the sheets are laid, occurs so that inside of each working period a full group of 14 of the six strips defined above 11 of the sheets is formed.
After a group of 14 strips of sheets has been fed to the cutting device, 16, and there is tactfully cut into packs 17 in a normal working rhythm, before starting the next group of 14 strips of sheets, two idle clocks or idle slices are inserted as if strips of sheets had the maximum number of six units used. During these two idle cycles the cutting
device 16 does not perform any cutting movements. Thus, the next group of 14 lanes of sheets relative to the previous group is on. some distance, which is equal to the segment, which is occupied by two used units, measured in the longitudinal direction of the strip of sheets. Six packs 17 leaving the cutter 16 after each slice and cut into a format are fed (Fig. 1) to the transport section 18 in such a way that they arrive there displaced in time, transported at a predetermined distance one after the other along the transport section 18 and are delivered to the intermediate storage 20, where they are fed to six adjacent drives 23 of a filled storage drum. tel 21.
The submission of the next sequence of six packs 17, which are displaced to transport section 18, is now slowed down by the chain of idle clocks, so that on the transport section 18 two adjacent sequences (batches) (each of the bundles of packs 17) are separated from one another by four empty in places. In connection with the last of the four, all belonging to the same groan. 1

权利要求:
Claims (1)
[1]
Sheets of packs of six packs of 17 each, on the transport section 18, on the basis of the two blank cycles or idle cuts described, there is a gap covering a total of 24 empty spaces until the first packs of the batches have been received. . These 24 empty places are obtained, on the one hand, from four empty places in connection with the last series of packs and, on the other hand, from twice in ten empty places that came out of two idle cycles before the next group 14 in connection with with four empty places, followed respectively by them. The workflow when feeding packs 17 from the cutting device 16 to the transport section 18 in all cases occurs so that there is a maximum number of ten strips of sheets and in each stripe of sheets there is a maximum number of six packs. Due to the described gaps or empty spaces on the transport section 18, the accumulators 23 of the storage drum 21 are filled in such a way that the packs filled with packs are marked with the designation of pack bundles (Fig. 1). If we designate in general, t is the maximum number of strips of used units of each sheet, which is the maximum number of units used in the feed direction of a sheet of 1 sheets when fitting a cutting device 6 or the maximum number of bands of 8 sheets of each stack of 1 sheets, the maximum number of columns used units, which is the maximum number of units used across to the feed direction or the number of packs 17 in each strip of 8 of the sheets and therefore x n is the maximum number of sheets used in each sheet, then the implementation of the method according to the invention in the case of processing sheets with X units used can be described, with hectares less than m and / or less than Pr. After simultaneously cutting the m strips of sheets, which are grouped in group 14 and all occurring from the same foot of 1 sheet, respectively, п packs in each strip of sheets, idle sticks or idle cuts are inserted (), so that with respect to to the nearest group of 188 14 bands from sheets originating from the next foot of 1 sheets, a certain distance arises, which corresponds to the length (n) of the units used, measured in the longitudinal direction of the strip. This control of the feeding and cutting of strips from sheets into packs occurs when idle cycles are added in this way. strips of sheets have corresponding units. Further, the supply of the packs 17 leaving the cutting device 16 takes place at the maximum number of tons of strips from sheets of each foot from sheets; after a series of packs of m packs has been fed to the transport section 18 are added to this () empty places, before the next series of m packages with a delay arrives at the transport section 18. V. In connection with the last of a series of packs, originating from one specific sheet of sheets, (Shd-t) + (Prn) .mo empty places appear. Figures 2-5 schematically show the distribution of the remaining empty drives for the case of drum drives with sixty drives () and for four different numbers of used units per sheet, which corresponds to the distribution of empty places on the transport section 18. If in FIG. .2 and, respectively, two empty accumulators follow the eight filled storage units, since n is equal to the maximum number of packs in each strip of sheets. If (fig.Z) and, then eight adjacent drives are filled, both of the following drives are empty, and, moreover, as soon as there are five packs in each strip of sheets, the last ten drives are also free. If (Fig. 3) and, then, respectively, seven filled storage devices are followed by three empty ones and two more rows of ten storage units remain empty. The advantages of the proposed method are that sheets with any number of used units can be processed without any primary or modified storage drum 21 and 22, and the rotation speed of the storage drum 9 is always constant and is determined by the capacity L of the machine, depending on the number used units in each sheet, using the formula (m x n / 4- (t + 1) packs per minute. This gives when,... with a maximum number of 60 used units per sheet, 82 packs or 8200 banknotes per minute, and in the case of tb, i.e. at 24 Units per sheet, 51 packs or 51,000 banknotes per minute. Formula of the invention. A method for automatically processing a stack of numbered sheets of securities of various series arranged in a form of a matrix having heaps of rows and n columns, consisting of a stack with numbered secondary securities. stacked one on another, cut into strips, the number of which corresponds to the number of rows, push all strips simultaneously in the direction of transporting the strips and cut into bundles, the number of which corresponds to the number one hundred btsov n, then one after another they are placed in storage, consisting claim at least one reel with the number of cells distributed over its
A / -e
Sh
phases. 2
Fig4 / 7) SG77
W n -ShBP 1810 perimeter, the corresponding product m X n and turn at an average speed, with arriving one after the other packs are distributed in different cells, where a specified number of packs of one series is pre-packed in a package, after which the package is removed from the drum and served A packaging machine, characterized in that, in order to reduce the time for simply mashing, a distance corresponding to () is set between the last row of packs of one processed foot and the first row of the next processed foot, each The next pack in the foot row is successively shifted relative to the other in the direction of transport of the foot being processed by a distance corresponding to (rajj-m), and the distance between the last row of processed foot packs and the first row of the next foot being processed in the direction of the pack transport is corresponding. em (pd-p) + (p-n), provided that, and (,, where Year is the maximum number of bands of the foot being processed; Hj., is the maximum number of packs of bands of the foot being processed.

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引用文献:

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法律状态:

优先权:

申请号 | 申请日 | 专利标题

CH512081|1981-08-10|

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