# Method for printing of serial symbols and device for its realisation

FIELD: technological processes; printing industry.

SUBSTANCE: device represents numerator that comprises at least six numbering wheels, namely wheel of units digit, wheel of hundred's unit, wheel of thousand's unit, wheel of thousand tens unit and wheel of thousand hundred's unit. Wheels comprise combinations of ratchet profiles and cuts on their side surfaces. Mentioned numbering wheels are actuated by drive lever that interacts with above mentioned combinations of ratchet profiles and cuts on numbering wheels via the first and second drive pawls. The first drive pawl is a two-pronged drive pawl that interacts with ratchet profiles and cuts on the right side of units digit wheel and tens' unit wheel. The second drive pawl is a five-pronged drive pawl that interacts with ratchet profiles and cuts on front side of ten's unit wheel, hundred's unit wheel, thousand's unit wheel, thousand ten's unit wheel and thousand hundred's unit wheel.

EFFECT: provision of serial printing and therefore complete automation of carriers processing.

12 cl, 16 dwg, 28 tbl, 3 ex

The technical field to which the invention relates.

The present invention relates to a method of sequential printing of characters on a medium, and device for its implementation. The present invention also relates to a method of sequential printing and to a device with wheels that has a unique profile of the star wheels and cut.

Background of the invention

The main assignment of numbering are the determination of the number, identification, control and security. The numbering is the simplest way to make unique products, izgotovliaemye in identical form. In addition to the numbering can be applied to other ways of giving to the uniqueness of the finished articles (for example, an alphabetic sequence or symbols). But such methods are often complex and do not provide instant determine the number.

There are many ways of numbering. The most widely used standard numbering, which is suitable for sequential numbering of individual identical products (cash office) at the output of the production process. The tools used for numbering money from minimum to maximum numbers are called enumerators. In the conventional numbering system for numbering in the production process with parallel output lines could the t to use an identical numbering. Any enumerator can generate any number within the required range. In the case of numbering many items in the normal numbering system, it is necessary to pay attention to the fact that there is no duplication of numbers.

Patent EP 1389524, entitled "Method of numbering and the numerator for the implementation of the method" ("Numbering process and numbering box to carry out the process"), describes the numerator for the printing application numbers on the sheet or cloth fed to the printing machine, number of p digits k*n products on these sheets or canvas to ensure consistent accumulation of these products in the process of completing layouts and layers of q sheets or canvases, sliced layers of q sheets, with the specified numerator performs just consistent action with numbers from 1 to s.

Indian banknotes printed on 40, 50, 60, 36, etc. bills one sheet at a time. In addition, 100 consecutive banknotes (bills) must be Packed at the output of the process, and 10 consecutive packs will form 1000 consecutive bills (banknotes) and are called in one package.

In a typical system the numbering scheme for the n-th cycle to obtain the "m" products for the cycle is shown in Figure 4.

In the above example, enumerators And_{11}and a_{12}can't work consistently, because after one qi is La installation And_{
11}will be equal to the previous installation And_{12}. Thus, after all cycles will be sequential numbering And_{11}And_{21}And_{31}......And_{n1}and similar in the other column. If a_{12}set the next number And_{n1}then, when a_{n2}for a_{11}to form a sequence. Thus, As_{nm}for a_{11}can generate sequential order. Therefore, when partial processing will not work consecutive banknotes. Thus, you will have to wait for the numbering for all the money in sequential order. Therefore, automation of the process cannot be used for further processing, such as packaging until you have completed the entire cycle. Therefore, the conventional system is not suitable for a unique sequential numbering money in the production process with parallel output lines.

The system SPaNS (serial numbering System packs) represents a different numbering system, which was invented to minimize the above disadvantages of conventional systems. The system SPaNS used in the processing of sheets on which banknotes/components packs made in the number 10 on the list. For example, fifty packs of 50 banknotes per sheet) obtained after Eski one block (100 sheets) in the system SPaNS, that will give 5 packages. Each package has money, numbered, at least three significant digits from 001 to 000, for example from the first number 000001 banknotes up to 1000-th number of the banknote (the bottom of the banknote in the package), i.e. non 001000. Above 5 pack, made from a single block, are not consistent. Usually the specified process performed with reverse increment, i.e. the maximum number to the minimum number. This is called reverse numbering.

These two methods cannot receive packets with the full sequence. Thus, even with the use of the system SPaNS impossible to obtain a fully consistent package that is necessary for further processing, such as packaging. It requires manual sorting after cutting all 20,000 sheets for the manufacture of 1000000 banknote sheets of 50 banknotes). Therefore, automation may not be applied between the cutting and packaging in any similar printing machine where you want to package serial packets.

The numbering system corresponding to the present invention was developed primarily to overcome the above disadvantages. This numbering system applies to process sheets of monetary signs (e.g. banknotes) in the number 10 on the list.

The purpose of the invention

The main the purpose of the present invention is to develop a method of sequential printing of characters on a medium, and device for its implementation.

The aim of the present invention is to develop a method and a numerator with wheels that has a unique profile of the star wheels and cut, so as to achieve consistent printing.

Another objective of the present invention is to develop a method and numerator to obtain sequentially numbered tile package/banknotes.

Another objective of the present invention is to develop a method and numerator to obtain the sequence numbers by generating a unique set of numbers each of multiple enumerators.

Another objective of the present invention is to develop a method and numerator for the complete exclusion of any manual intervention during the sequential process including printing, cutting and packaging.

The invention

The present invention provides a method of sequential printing of characters on a medium such as a sheet, and a device for its implementation. The device corresponding to the present invention, represents the numerator, with plenty of numbering wheels, which, in turn, is equipped with a unique profile of the star wheels and cut to achieve consistent printing and, thus, the full automation of printing, cutting and packaging of media packets. Numbering wheel is equipped with a unique combination of profiles Shapovalov and cut located on the lateral surfaces of the respective wheels. The first numbering wheel is a wheel discharge units with a profile of the combination ratchet and neckline. The wheel of the tens digit is a combination ratchet with cut-out without cut-out. Wheel discharges of hundreds and thousands equipped with a unique combination of a multitude of cuts and star wheels. Wheel discharges tens and hundreds of thousands equipped with a ratchet one notch. The wheels of the numerator in the working position is connected with the drive dogs. The present invention also provides a method of sequential printing of characters, according to which a consistent use of symbols/numbers that you want to print on the sheet, initially carried out by proper installation of the print surface of the numbering wheels all the enumerators. The enumerators are in a unique combination in the form of a matrix with the maximum rows (mr) and maximum columns (mc) for printing on the first sheet. Print the enumerators carried out by rows, starting from the first row (i.e. the number of mr). After printing on the first page of the enumerators are driven, and the printing wheel surface are changed in accordance with the profile of the ratchet and cut. Then carry out the printing characters on the second sheet and the print continues on the following 99 pages. The village is e 100th sheet first enumerator for the 101st sheet set suitable value by using the characteristic profile wheels discharges of hundreds and thousands. Finally, carry out a progressive stamp sheets from the 101st to the required maximum number of printed sheets for receiving sequentially numbered packets, with the specified sequence from the 101st sheet corresponds to the last enumerator for the 100th sheet.

Brief description of drawings

Figure 1 - view of the numbering device corresponding to the present invention;

Fig-2.10 - type continuous series showing a typical embodiment of the profiles of the star wheels and cut the wheels of the numerator for printing 50 sheets;

Figure 3 - view of the additional wheels discharges of hundreds and thousands that are required to be printed on 20 and 40 sheets in addition to shown on figure 2;

4 is a numbering scheme according to the conventional system;

5 is a numbering format banknotes, cheques or other documents;

Figa - serial numbers of the banknotes of five packages formed after printing the first 100 sheets;

Fig.6b - serial numbers of the banknotes of five packages formed after printing the following 100 sheets.

Detailed description of the invention

The present invention provides a receiving method and a numerator with wheels that has a unique profile of the star wheels and cut to achieve consistent printing characters on the sheets. Thanks to the method corresponding to this is obreteniyu, the operation of printing, cutting and packaging is fully automated.

Preferred embodiments of the present invention is described in connection with the accompanying drawings. The present invention provides a receiving numerator for serial printing characters. The numerator contains many of the numbering wheels. The appearance of one node of the numerator is shown in figure 1. The numerator corresponding to the present invention, includes an external housing (3), which is made of hard alloy, and this enclosure (3) contains all the node enumerator. The side walls of the housing (3) have a round slot passing through them in the center. Inside the housing (3) is the case (4) of the cranked lever, which is made of hard alloy. The dimensions of the housing (4) of the cranked lever is adjusted in such a way that he just planted inside the housing (3). In case (4) crank arm is made all the cuts, fits all slots in the side walls of the housing (3). In case (4) of the cranked lever is a metal cylindrical shaft extending from the circular slot in one side wall of the housing (4) crank arm to the other of the circular slots of the other side wall of the housing (4) of the cranked lever. The cylindrical shaft has plenty of numbering wheels. Wheels mounted on the shaft with a sliding fit, which is down the free rotation of the wheel together with the shaft. Wheels are round and have ten digits (characters) on the peripheral surface of each wheel. On the peripheral surface of each wheel in the required sequence engraved required figures in mirroring. Depending on the type of application you will use many of the numbering wheels. For example, for printing on one million banknotes use a minimum of six numbering wheels to obtain numbers from 000000 to 999999. 1000000-Yu banknote produce in the course of another process, or in the same device may be included additional wheel. For the above enumeration, the enumerator will have 6 numbering wheels, i.e. wheels discharge units to the wheel discharge of hundreds of thousands. In practice, each enumerator supply 6 numbering wheels, 1-m spacing wheel, 3 prefix wheels. Prefix wheels can be numeric or alphabetic. Prefix wheels fixed for numbering a million banknotes. These prefix wheels apply to digital and alphabetic type and used in accordance with the banknote. The numbering format of any banknotes, cheques or any other documents, when you want to create serial numbers, generally shown in figure 5.

According to the structure of the wheels prefix wheels usually fall into three categories, i.e. a) digital: these wheels have numbering ten digits 0, 9, 8, 7, 6, 5, 4, 3, 2, 1; (b) alpha-I: these wheels have the letters A, B, C, D, E, F, G, H, K, L; and (C) alpha-II: these wheels have the letters M, N, P, Q, R, S, T, U, V, W. In accordance with the usage you can use any combination of these signs. The above numbers and letters usually called symbols. The mirror image of these characters always engrave on the wheel, but the front edge of these symbols will be located closer to the next lower number, or farther from lower digits, depending on the direction of movement of the document. The relative position of all of the wheels depends on the movement document and the requirements. Each of the numbering wheels of the numerator shows the outside of the numerator corresponding to the present invention, is shown in figure 1.

The first six numbering wheels are connected mechanically. This mechanical connection includes three components, namely ratchet profile, grooved profile and drive pawl (2). Form profiles of the star wheels and cut unique to different numbering wheels. Figure 1 shows a typical scenario illustrating the profiles of the star wheels and cut numbering wheels of one enumerator No. 1 of the 50 enumerators. Case (4) of the cranked lever also comprises a pair of drive dogs (2). Drive pawl (2) is a spring-loaded tabs on the hinge and are designed to engage the ratchet wheel to prevent reverse movement. One of the driving dogs (2) equipped with a pair of teeth, and is called a two-pronged drive dog (2), and the other drive-dog (2) is equipped with five teeth and is called pachisuro drive dog (2). Spring drive pawl (2) is installed in the housing (4) crank arm by means of mounting pins. The device corresponding to the present invention, is shown in figure 1, represents the numerator with the driving lever (1)located on the left side of the enumerator. Figure 1 also shows the drive pawl (2) on the opposite side, or on the right side of the numerator. In the embodiment of the present invention numbering wheels are positioned so that the wheel discharge units is on the right side. However, the scope of the present invention also includes a numerator with a drive lever (1) on the right side of the numerator and driven dogs (2) on the left side of the enumerator.

The drive lever (1) the numerator is supplied by the primary engine. The primary engine and the drive lever (1) upon actuation of the numerator cause engagement of the drive pawl (2) with the numbering wheels and install it in the working position of the characters that you want to print.

Many of the numbering wheels are located on a cylindrical shaft in the following sequence, in which the wheel discharge units races is halogeno at one end, followed by the wheel of the tens digit, wheel discharge hundreds, wheel discharge thousand, wheel discharge of tens of thousands and wheel discharge of hundreds of thousands. If necessary, we may also apply an additional wheel for printing the additional symbol. Each of these numbering wheels is equipped with a combination of profiles ratchet and cut-out located on the side surfaces of the numbering wheels. The location of the notches in the star wheels depends on the location of the drive pawl (2) with respect to the printing surface.

On the wheel of discharge units stamped a combination of one cut and ratchet on the right side wheels of the discharge units. Wheel discharge units similar for all enumerators and shows the position B1.1 figure 2. Wheel discharge units in the operating position is connected with the first prong two drive dogs (2). Immediately behind the wheel of the discharge units on the cylindrical shaft is a wheel of the tens digit. The wheel of the tens digit is a unique wheel and punched in a combination of one cut and ratchet on the left hand side and the ratchet without a cut on his right side. Wheel of the tens digit is the same for all the enumerators and their right side with ratchet without cut position shown V in figure 2. Ratchet with cut wheels tens digit position shown VA in figure 1. The ratchet without the cutting wheel of the tens digit in the working position is connected with the second prong two drive dogs (2). Wheel discharge of hundreds is located near the wheel of the tens digit on the cylindrical shaft, and stamped the combination of a variety of cuts and ratchet on the left hand side. Wheel discharge of hundreds, with the combination of a multitude of cuts and ratchet shown positions V, W, V, W, V, W, V, W, V, W in figure 2. Another possible type of wheel discharge hundreds of shows position B1.3 figure 3. Wheel discharge of hundreds in the operating position is connected to the second prong pachisuro drive pawl (2). Wheel discharge thousand is located near the wheel discharge hundreds on a cylindrical shaft, and stamped the combination of a variety of cuts and ratchet on the left hand side. Types of multiple slots in the wheel discharge thousand positions shown V, W, V, W, V, W, W (7 positions) on the above 3), V, W, V, W, V, W, V, W, V, W in figure 2. Wheel discharge thousand in operating position is connected with the third prong pachisuro drive pawl (2). The wheel of the tens of thousands is located near the wheel discharge thousand on a cylindrical shaft, and stamped one ratchet with a cut on his left side, as shown by the position B in figure 2. The wheel of the tens of thousands in operating position is connected with the fourth prong pachisuro drive pawl (2). Wheel discharge of hundreds of thousands in the working position is Oedipe with the fifth prong pachisuro drive pawl (2) and provided with a ratchet and one cut on his left side, position B in figure 2.

The object of the present invention is also a method of printing consecutive characters. The method of printing characters carried out using the numerator corresponding to the present invention. As shown in figures 1, 2 and 3, many of the enumerators to achieve consistent printing and specified many enumerators come in the form of a matrix composed of rows and columns. The matrix consists of the maximum number (mr) series, and the maximum number (mc) speakers. The number of mr denotes the maximum number of rows in the matrix, and the number of mc denotes the maximum number of columns in the matrix. The combination of the mr series and mc speakers may be located in the matrix for the formation of 50, or 40, or 20 rooms. The value of mr and mc will depend on the system used. In the case of a system for printing 50-sheet various combinations of values of mr and mc are as follows: mr=5 and mc=10, or mr=10 and mc=5, or mr=25 & mc=2, mr=2 and mc=25. In this embodiment of the invention uses a matrix with the value of mr is equal to 10, and the value of mc is equal to 5. However, the scope of the present invention includes various required values for the maximum number of rows and columns required for the user that is used with suitable modification of the matrix.

Accordingly, for example, the case we need to print 40 rooms on the worksheet values of mr and mc meet mr=5 and mc=8, or mr=8 & mc=5, or mr=10 and mc=4, mr=4 and mc=10, or mr=20 & mc=2, mr=2 and mc=20, respectively. Similarly, in the case of a system for printing 20 numbers on a sheet values of mr and mc meet mr=2 and mc=10, or mr=10 and mc=2, or mr=5 and mc=4, mr=4 and mc=5, respectively.

The method corresponding to the present invention is described taking into account the need to print 50 rooms on the sheet. Thus, the values of mr and mc used in this system are mr=10 and mc=5, respectively. The enumerators in each cell of a matrix is unique, that is, numbers that are generated by any of the enumerators may not be formed in any other enumerator. For example, if you want to print on 20 and 40 sheets, in addition to the unique numbering wheels, shown in figure 2, the wheels digit and the hundreds digit thousands replace the corresponding wheels of the digit and the hundreds digit thousands, shown in figure 3. This is applicable to the printing system 20, 40, and 50 rooms on the sheet.

The location of the enumerators (for 50 sheets)of the present invention, in the form of a matrix shown in table 1.

Table 1 | ||||

Num. 50 | Num. 40 | Num. 30 | Num. 20 | Num. 10 |

Num. 49 | Num. 39 | Num. 29 | Num. 19 | Num. 09 |

Num. 48 | Num. 38 | Num. 28 | Num. 18 | Num. 08 |

Num. 47 | Num. 37 | Num. 27 | Num. 17 | Num. 07 |

Num. 46 | Num. 36 | Num. 26 | Num. 16 | Num. 06 |

Num. 45 | Num. 35 | Num. 25 | Num. 15 | Num. 05 |

Num. 44 | Num. 34 | Num. 24 | Num. 14 | Num. 04 |

Num. 43 | Num. 33 | Num. 23 | Num. 13 | Num. 03 |

Num. 42 | Num. 32 | Num. 22 | Num. 12 | Num. 02 |

Num. 41 | Num. 31 | Num. 21 | Num. 11 | Num. 01 |

The enumerators (for 50 sheets) are arranged in a matrix for printing on the first sheet. The location of the enumerators in the matrix given in the following sequence. The first enumerator is located in the cell (mr)×(mc) matrix, then the second numerator is located in the cell (mr-1)×(mc) matrix. Subsequent enumerators are consistent matrix cells from the second numerator. (mr-10)-th numerator is located in the cell (mr)×(mc-1) matrix. Then the following sequential numbering is aspolozhena by iterative execution of the steps above the first location, the second and subsequent enumerators to the location of the last enumerator. The last numerator is located in the cell (mr-9)×(mc-4).

After the location of the enumerators in the above special sequence for all enumerators manually specify a predefined initial position of the numbering wheels for printing the initial sequence number on the first sheet. These numbering wheels are a range of wheel discharge units to the wheel discharge of hundreds of thousands. For neighboring enumerators in the matrix define the difference between the values (numeric sequence), component 100 in rows and 1000 columns. The numerator in each column of the matrix will be the difference values relative to the numerator in the neighboring column of the matrix component 1000, and the numerator in each row of the matrix will be the difference values relative to the numerator in the next row of the matrix component 100.

After initial installation of all enumerators made, carry out printing by the enumerators. Printing characters enumerators carried out on the first sheet by positioning the respective wheels of the enumerators and push them on a sheet of paper under the enumerators. This seal is realized by means of the simultaneous printing of all enumerators range (mr) and then all enumerators series (mr1) and other series to series (mr-9). Printing is performed by rows, where each row is printed at a given point in time. Then print the enumerators of the second row, or series (mr-1). The printing sequence continue the series until you print all the enumerators last row, or series (mr-9). Upon completion of printing by the enumerators of the last row of the matrix starts printing the characters on the second sheet. Before printing on the second sheet numbering trigger line by means of a drive lever (1). When the actuation values rooms numbering wheels change with a negative increment by 1 and print on the second sheet. When performing the following procedures, actuation of enumerators carry out printing on the next successive sheet until printing is finished on the following 99 pages.

The process of actuation

Actuation numbering wheels is in their connection with each other. The actuation is carried out with the aid of drive dogs (2). Numbering wheel in the working position are connected to each other by means of drive dogs to achieve the specified sequential change rooms with a negative increment. Actuation with a given sequential change of rooms is carried out using a combination of drive dogs and profiles of the star wheels and cut. Applied two privode the e dogs (2), the first drive-dog (2) is a two-pronged drive dog (2), and the second is patisaul drive dog (2). When the actuation trigger the drive lever (1) of the numerator. Actuation of the drive lever numerator is first submitted a bidentate drive dog (2). When receiving the drive movement of the first prong two-pronged drive pawl (2) is engaged with the ratchet wheel of the discharge units. Wheel discharge unit turns on one number under the first prong two drive dogs (2). This turning of the wheel of the discharge units occurs at each actuation of the drive lever (1). Wheel discharge units contains characters (digits from 0 to 9 engraved on its surface. At the end of the range of numbers on the wheel discharge units, that is, when the change of numbers on the wheel discharge units from 0 to 9, the first prong two-pronged drive pawl (2) is cut wheel discharge units. The second prong two drive dogs (2) in the working position is connected to the first prong two drive dogs (2) to enter into engagement with the wheel of the tens digit and turn it to one digit. The wheel of the tens digit is rotated by one digit with each turn of the wheel of the discharge units from 0 to 9. When the wheel of the tens digit is 0 as the value for the th printing surface, the first prong pachisuro drive pawl (2) is cut wheels tens digit, and the second prong pachisuro drive pawl (2) actuates the wheel discharge hundreds. Wheel discharge hundreds of turns on one figure, when the wheel of the tens digit is set to 0, and when the wheel of the tens digit is not set to 0, the wheel discharge of hundreds of fixed and does not rotate. When making a wheel discharge hundreds of turnover from 0 to 9 or from 9 to 0, or from n to n+1 or more rotation with 9, if you want to put the ten digits on one wheel, the second prong pachisuro drive pawl (2) is cut wheel discharge hundreds of printable 50 enumerators. When making a wheel discharge hundreds of turnover from 0 to 9 or from 9 to 0, or from n to (n+1) the second prong pachisuro drive pawl (2) is cut wheel discharge hundreds of printable 20 and/or 40 enumerators. Here the value of n is selected from 0, 1, 2, 3, 4, 5, 6, 7 or 8. When the second prong pachisuro drive pawl (2) is cut wheel discharge of hundreds, the third prong pachisuro drive pawl (2) actuates the wheel discharge thousand. When making a wheel discharge of thousands of turnover from 0 to 9 or turning from 4 to 9, or 3 to 9, or 3 to 8, or from 2 to 8, or from 2 to 7, or from 1 to 7, or from 1 to 6, or from 0 to 6, or from 0 to 5 to 50 sheets, or 1 to 8, or from 0 to 9 or from 1 to 7, or 3 to 9, or 0 to 7, or from 2 what about the 9, or from 0 to 6, or from 2 to 8 for 40 sheets or from 0 to 9, or 1 to 9, or from 0 to 8 to 20 sheets third prong pachisuro drive pawl (2) is cut wheel discharge thousand. When the third prong pachisuro drive pawl (2) is cut wheel discharge thousand, the fourth prong pachisuro drive pawl (2) sets in motion the wheel of the tens of thousands. When making a wheel of the tens of thousands of turnover from 0 to 9, the fourth prong pachisuro drive pawl (2) is cut wheels tens of thousands. When the fourth prong pachisuro drive pawl (2) is cut wheels tens of thousands, the fifth prong pachisuro drive pawl (2) actuates the wheel discharge of hundreds of thousands. When making turn of the wheel of the discharge of hundreds of thousands from 0 to 9 is driven wheel discharge of millions (if it applies).

The rotation of the wheels of higher order depends on the revolution of the wheel nearest the lower order, such as the wheel of the tens digit depends on the turn of the wheel of the discharge units. The ratchet wheel discharge units, which is directed to the case of a numerator that is actuated when the actuation of the drive lever (1). In turn, the drive lever (1) moves the body (4) of the cranked lever which engages a spring-loaded double-toothed dog (2) stake the Ohm discharge units. Located on the opposite side of the numbering wheels spring-loaded dog allows only one rotation of the numbering wheel for actuation. The curvature of the cutouts of the star wheels corresponds to the curvature of the drive dogs. Wheel discharge units will operate at each actuation of the drive lever (1). The drive lever can be located on either of the two sides of the enumerator. The result of printing enumerators of the present invention, the first sheet on which printing using 50 enumerators, shown in table 2.

Table 2 | ||||

995100 | 996100 | 997100 | 998100 | 999100 |

995200 | 996200 | 997200 | 998200 | 999200 |

995300 | 996300 | 997300 | 998300 | 999300 |

995400 | 996400 | 997400 | 998400 | 999400 |

995500 | 996500 | 997500 | 998500 | 999500 |

995600 | 996600 | 997600 | 998600 | 999600 |

995700 | 996700 | 997700 | 998700 | 999700 |

995800 | 996800 | 997800 | 998800 | 999800 |

995900 | 996900 | 997900 | 998900 | 999900 |

996000 | 997000 | 998000 | 999000 | 1000000 |

100-th sheet, printed using 50 enumerators is shown in table 3.

Table 3 | ||||

995001 | 996001 | 997001 | 998001 | 999001 |

995101 | 996101 | 997101 | 998101 | 999101 |

995201 | 996201 | 997201 | 998201 | 999201 |

995301 | 996301 | 997301 | 998301 | 999301 this |

995401 | 996401 | 997401 | 998401 | 999401 |

995501 | 996501 | 997501 | 998501 | 999501 |

995601 | 996601 | 997601 | 998601 | 999601 |

995701 | 996701 | 997701 | 998701 | 999701 |

995801 | 996801 | 997801 | 998801 | |

995901 | 996901 | 997901 | 998901 | 999901 |

Upon completion of printing on 100-m sheet you want to print on the 101-th sheet. Before printing on the 101-th sheet for the first enumerator set the new value. This setting is performed by using the characteristic profile of the wheels of the digit and the hundreds digit thousands. The value that is specified for the first enumerator, get through a negative increment by 1 the value of the numerator in the cell (mr-9)×(mc-4) matrix for the 100th sheet. After that, the first enumerator for the 101st sheet will have the value of the last enumerator for the 100th sheet minus 1.

Values for all other enumerators receive using the same above logic set enumerators for the first sheet.

After printing 101-m sheet all stages of print and actuation are performed repeatedly, as described above, before committing to print the required number of sheets.

Profiles of characters, ratchet and cut the wheel discharge of hundreds, where the configuration of the matrix corresponds to mr=10 and mc=5, shows the positions V, W, V, W, V, W, V, W, V, W in figure 2. Profiles of characters, ratchet and cut the wheel discharge of hundreds, where the configuration of the matrix corresponds to mr=8 & mc=5, shows the positions B1.3 (figure 3), V, W, V, W, V,W, V, W, W in figure 2. Profiles of characters, ratchet and cut the wheel discharge of hundreds, where the configuration of the matrix corresponds to mr=10 and mc=2, shows the positions B1.3 (figure 3), V, W, V, W, V, W, V, W, W in figure 2. Profiles of characters, ratchet and cut the wheel discharge thousand, where the configuration of the matrix corresponds to mr=10 and mc=5, shows the positions V, W, V, W, V, W, V, W, V, W in figure 2. Profiles of characters, ratchet and cut the wheel discharge thousand, where the configuration of the matrix corresponds to mr=8 & mc=5, shows the positions V, W, V, V figure 3. Profiles of characters, ratchet and cut the wheel discharge thousand, where the configuration of the matrix corresponds to mr=10 and mc=2, shows the positions In 1.13, W, W 3.

After printing on the first 100 sheets form a 5 packets having sequence numbers of the banknotes, as shown in figa.

After printing on the next 100 sheets form a 5 packets having sequence numbers of the banknotes, as shown in fig.6b.

Similarly, of the cutting machine will consistently exceed all other packages. From the above example it is clear that automatic packaging machine can be easily connected with cutting machine. Thus, the sequence of printing, cutting and packaging can be performed precisely in the correct order of steps.

Media serial symb the crystals are selected from any media, require serial printing characters, preferably sheets of banknotes, securities and passports.

In addition, as a typical example in the following tables describes the wheels with the profiles of the star wheels and cut to print 50 sheets. Details are shown in the tables, will be better understood when reading the corresponding figures listed in tables.

Table 4 | ||||||

Item numbers depicting the wheel of enumerators for printing 50 sheets | ||||||

No. of enumerator | The discharge units | Tens | The discharge of hundreds | The discharge of thousands of | Tens of thousands of | The discharge of hundreds of thousands of |

1 | POS. B1.1 | POS. W | POS. W | POS. W | POS. W | POS. W |

2 | -"- | -"- | POS. W | POS. W | -"- | -"- |

3 | -"- | -"- | POS. W | -"- | -"- | -"- |

4 | -"- | -"- | POS. W | -"- | -"- | -"- |

5 | -"- | -"- | POS. W | -"- | -"- | -"- |

6 | -"- | -"- | POS. W | -"- | -"- | -"- |

7 | -"- | -"- | POS. W | -"- | -"- | -"- |

8 | -"- | -"- | POS. W | -"- | -"- | -"- |

9 | -"- | -"- | POS. W | -"- | -"- | -"- |

10 | -"- | -"- | POS. W | -"- | -"- | -"- |

11 | -"- | -"- | POS. W | POS. W | -"- | -"- |

12 | -"- | -"- | POS. W | POS. W | -"- | -"- |

13 | -"- | -"- | POS. W | -"- | -"- | -"- |

14 | -"- | -"- | POS. W | -"- | -"- | -"- |

15 | -"- | -"- | POS. W | -"- | -"- | -"- |

16 | -"- | -"- | POS. W | -"- | -"- | -"- |

17 | -"- | -"- | POS. W | -"- | -"- | -"- |

18 | -"- | -"- | POS. W | -"- | -"- | -"- |

19 | -"- | -"- | POS. W | -"- | -"- | -"- |

20 | -"- | -"- | POS. W | -"- | -"- | -"- |

21 | -"- | -"- | POS. W | POS. 1.27 | -"- | -"- |

22 | -"- | -"- | POS. W | POS. 1.28 | -"- | -"- |

23 | -"- | -"- | POS. W | -"- | -"- | -"- |

24 | -"- | -"- | POS. W | -"- | -"- | -"- |

25 | -"- | -"- | POS. W | -"- | -"- | -"- |

26 | -"- | POS. W | -"- | -"- | -"- | |

27 | -"- | -"- | POS. W | -"- | -"- | -"- |

28 | -"- | -"- | POS. W | -"- | -"- | -"- |

29 | -"- | -"- | POS. W | -"- | -"- | -"- |

30 | -"- | -"- | POS. W | -"- | -"- | -"- |

31 | -"- | -"- | POS. W | POS. W | -"- | -"- |

32 | -"- | -"- | POS. W | POS. W | -"- | -"- |

33 | -"- | -"- | POS. W | -"- | -"- | -"- |

34 | -"- | -"- | POS. W | -"- | -"- | -"- |

35 | -"- | -"- | POS. W | -"- | -"- | -"- |

36 | -"- | -"- | POS. W | -"- | -"- | -"- |

37 | -"- | -"- | POS. W | -"- | -"- | -"- |

38 | -"- | -"- | POS. W | -"- | -"- | -"- |

39 | -"- | -"- | POS. W | -"- | -"- | -"- |

40 | -"- | -"- | POS. W | -"- | -"- | -"- |

41 | -"- | -"- | POS. W | POS. W | -"- | -"- |

42 | -"- | -"- | POS. W | POS. W | -"- | -"- |

43 | -"- | -"- | POS. W | -"- | -"- | -"- |

44 | -"- | -"- | POS. W | -"- | -"- | -"- |

45 | -"- | -"- | POS. W | -"- | -"- | -"- |

46 | -"- | -"- | POS. W | -"- | -"- | -"- |

47 | -"- | -"- | POS. W | -"- | -"- | -"- |

48 | -"- | -"- | POS. W | -"- | -"- | -"- |

49 | -"- | -"- | POS. W | -"- | -"- | -"- |

50 | -"- | -"- | POS. W | -"- | -"- | -"- |

Table 5 | ||||||

Item numbers depicting the wheel of enumerators for printing on 40 sheets | ||||||

No. of enumerator | The discharge units | Tens | The discharge of hundreds | The discharge of thousands of | Tens of thousands of | The discharge of hundreds of thousands of |

1 | POS. B1.1 | POS. W | POS. B1.3 | POS. W | POS. W | POS. W |

2 | -"- | -"- | POS. W | POS. W | -"- | -"- |

3 | -"- | -"- | POS. W | -"- | -"- | -"- |

4 | -"- | -"- | POS. W | -"- | -"- | -"- |

5 | -"- | -"- | POS. W | -"- | -"- | -"- |

6 | -"- | -"- | POS. W | -"- | -"- | -"- |

7 | -"- | -"- | POS. W | -"- | -"- | -"- |

8 | -"- | -"- | POS. W | -"- | -"- | -"- |

9 | -"- | -"- | POS. W | -"- | -"- | -"- |

10 | -"- | -"- | POS. W | -"- | -"- | -"- |

11 | -"- | -"- | POS. B1.3 | POS. W | -"- | -"- |

12 | -"- | -"- | POS. W | POS. W | -"- | -"- |

13 | -"- | -"- | POS. W | -"- | -"- | -"- |

14 | -"- | -"- | POS. W | -"- | -"- | -"- |

15 | -"- | -"- | POS. W | -"- | -"- | -"- |

16 | -"- | -"- | POS. W | -"- | -"- | -"- |

17 | -"- | -"- | POS. W | -"- | -"- | -"- |

18 | -"- | -"- | POS. W | -"- | -"- | -"- |

19 | -"- | -"- | POS. W | -"- | -"- | -"- |

20 | -"- | -"- | POS. W | -"- | -"- | -"- |

21 | -"- | -"- | POS. B1.3 | POS. B1.18 | -"- | -"- |

22 | -"- | -"- | POS. W | POS. B1.19 | -"- | -"- |

23 | -"- | -"- | POS. W | -"- | -"- | -"- |

24 | -"- | -"- | POS. W | -"- | -"- | -"- |

25 | -"- | -"- | POS. W | -"- | -"- | -"- |

-"- | -"- | POS. W | -"- | -"- | -"- | |

27 | -"- | -"- | POS. W | -"- | -"- | -"- |

28 | -"- | -"- | POS. W | -"- | -"- | -"- |

29 | -"- | -"- | POS. W | -"- | -"- | -"- |

30 | -"- | -"- | POS. W | -"- | -"- | -"- |

31 | -"- | -"- | POS. B1.3 | POS. W | -"- | -"- |

32 | -"- | -"- | POS. W | POS. W | -"- | -"- |

33 | -"- | -"- | POS. W | -"- | -"- | -"- |

34 | -"- | -"- | POS. W | -"- | -"- | -"- |

35 | -"- | -"- | POS. W | -"- | -"- | -"- |

36 | -"- | -"- | POS. W | -"- | -"- | -"- |

37 | -"- | -"- | POS. W | -"- | -"- | -"- |

38 | -"- | -"- | POS. W | -"- | -"- | -"- |

39 | -"- | -"- | POS. W | -"- | -"- | -"- |

40 | -"- | -"- | POS. W | -"- | -"- | -"- |

Table 6 | ||||||

Item numbers depicting the wheel of enumerators to be printed on 20 sheets | ||||||

No. of enumerator | The discharge units | Tens | The discharge of hundreds | The discharge of thousands of | Tens of thousands of | The discharge of hundreds of thousands of |

1 | POS. B1.1 | POS. W | POS. B1.3 | POS. W | POS. W | POS. W |

2 | -"- | -"- | POS. W | POS. W | -"- | -"- |

3 | -"- | -"- | POS. W | -"- | -"- | -"- |

4 | -"- | -"- | POS. W | -"- | -"- | -"- |

5 | -"- | -"- | POS. W | -"- | -"- | -"- |

6 | -"- | -"- | POS. W | -"- | -"- | -"- |

7 | -"- | -"- | POS. W | -"- | -"- | -"- |

8 | -"- | -"- | POS. W | -"- | -"- | -"- |

9 | -"- | -"- | POS. W | -"- | -"- | -"- |

10 | -"- | -"- | POS. W | -"- | -"- | -"- |

11 | -"- | -"- | POS. B1.3 | POS. B1.3 | -"- | -"- |

12 | -"- | -"- | POS. W | POS. W | -"- | -"- |

13 | -"- | -"- | POS. W | -"- | -"- | -"- |

14 | -"- | -"- | -"- | -"- | -"- | |

15 | -"- | -"- | POS. W | -"- | -"- | -"- |

16 | -"- | -"- | POS. W | -"- | -"- | -"- |

17 | -"- | -"- | POS. W | -"- | -"- | -"- |

18 | -"- | -"- | POS. W | -"- | -"- | -"- |

19 | -"- | -"- | POS. W | -"- | -"- | -"- |

20 | -"- | -"- | POS. W | -"- | -"- | -"- |

Electronic control system

Due to excessive contact pressure between the colorful roller and wheels can happen improper rotation of the wheel (wheel), leading to incorrect numbering. She may continue if there is no system of operational control. To eliminate errors in the print sequence according to the present invention apply a suitable electronic control system.

When a prefix wheels fixed for all the sheets on which print, this item is efeknya wheel is locked, and for automatic control system is not necessary. As shown in figure 2, each wheel is usually numbering ten characters. You must create ten separate models for recognizing the print surface. In the binary system a minimum of 4-bit encoder on one wheel can successfully perform this task. Because space is limited use magnets with three States (North pole (N), South pole (S) and without pole (i.e. About)). As indicated below, read all three magnetic provisions can provide 27 different States.

In the above table highlights two sets of ten separate States (No. 1-10 and No. 11-20) from 27 States. In a suitable embodiment, the application can create and use any other accommodation (having the nature of a counting device with a circular diagram). Magnetic fields/spaces (O) may be included between two numbers on the wheel, as shown by the arrows on the images of the wheels. You can also understand that any magnetic orientation of the pole can be used for any of the numbers on the wheel. Therefore, this method can be defined in each position of the ten positions of the wheel.

For example, to identify the print surface can use is to use the first set of magnetic orientations, shown in table 8.

Table 8 | |

The print surface | Magnetic orientation |

0 | NSN |

1 | ONS |

2 | SON |

3 | OSO |

4 | NOS |

5 | ONO |

6 | OON |

7 | SOO |

8 | NSO |

9 | SNS |

To determine the orientation of the magnetic poles of each wheel using three Hall sensors located on the numerator. These sensors can be fixed in any suitable place for reading successive magnetic poles on the wheel to determine the numbers that will be printed, as shown in figure 2. After reading the magnetic orientation of all numbering wheels of each enumerator (except prefix wheels) of the processing unit generates the model numbering each enumerator, which should be performed when printing. These models numbering of all enumerators are compared with given input data corresponding to the numbering system. Consequently, any incorrect rotation of any wheel can be you the go when using the control system, and the machine is stopped for additional correction.

The method of printing of consecutive characters can be described using the following examples.

Example 1

The method of printing of consecutive characters to 50 sheets and the corresponding numbering

The enumerators used for printing 50 sheets shown in table 1. The location of the enumerators depends on schedule packets in a cutting machine.

Print rooms follows the principle of reverse printing rooms. In this system receive 50 sequentially numbered packs (10×5 packs=5 packets) after processing 100 sheets in the cutting and packaging machines, and subsequent packets take after processing the next block. The model is repeated for all packages.

Structure wheels

The figures shown in table 4, are located on the printing surface.

Wheel discharge units: wheel discharge units at each position, in fact, identical. They will rotate after each printing.

Table A1 | |||

No. of enumerator | The numbers on the wheel | Actuation of the wheel of the tens digit | No. of position |

1-50 | 0, 9, 8, 7, 6, 5, 4, 3, 2, 1 | Each turn from "0" to "9" wheel discharge units | B1.1 |

The wheel of the tens digit wheels of the tens digit of all enumerators similar. They will rotate with the turning of the wheel of the discharge units from "0" to "9".

Table B1 | |||

No. of enumerator | The numbers on the wheel | Actuation of the wheel discharge hundreds | No. of position |

1-50 | 0, 9, 8, 7, 6, 5, 4, 3, 2, 1 | When the wheel of the tens digit is set to "0" | W |

Wheel discharge hundreds: it will rotate together with the wheel discharge units, only when the wheel of the tens digit is set to "0". Each wheel contains two digits, as shown below.

Table C1 | |||

No. of enumerator | The numbers on the wheel | Actuation of the wheel discharge thousand | No. of position |

1, 11, 21, 31, 41 | 0, 9, 9, 9, 9, 9, 9, 9, 9, 9 | Each turn from "0" to "9" and "9" to "0" wheels discharge hundreds of them, and three times more rotation together with "9" wheel discharge hundreds | W |

2, 12, 22, 32, 42 | 9, 8, 8, 8, 8, 8, 8, 8, 8, 8 | Each turn of the digit "n" to "n+1" wheel discharge hundreds (where n=0, 1, 2, 3, 4, 5, 6, 7, 8) | |

3, 13, 23, 33, 43 | 8, 7, 7, 7, 7, 7, 7, 7, 7, 7 | W | |

4, 14, 24, 34, 44 | 7, 6, 6, 6, 6, 6, 6, 6, 6, 6 | W | |

5, 15, 25, 35, 45 | 6, 5, 5, 5, 5, 5, 5, 5, 5, 5 | W | |

6, 16, 26, 36, 46 | 5, 4, 4, 4, 4, 4, 4, 4, 4, 4 | W | |

7, 17, 27, 37, 47 | 4, 3, 3, 3, 3, 3, 3, 3, 3, 3 | W | |

8, 18, 28, 38, 48 | 3, 2, 2, 2, 2, 2, 2, 2, 2, 2 | W | |

9, 19, 29, 39, 49 | 2, 1, 1, 1, 1, 1, 1, 1, 1, 1 | W | |

10, 20, 30, 40, 50 | 1, 0, 0, 0, 0, 0, 0, 0, 0, 0 | W |

Wheel discharge thousands:

Table D1 | |||

No. of enumerator | The numbers on the wheel discharge thousand | Actuation of the wheel of the tens of thousands of | No. of position |

1 | 0, 9, 9, 9, 9, 5, 4, 4, 4, 4 | Each turn from "0" to "9" wheel discharge thousand | W |

2-10 | 9, 4, 9, 4, 9, 4, 9, 4, 9, 4 | Each turn from "4"to "9" wheel discharge thousand | W |

11 | 9, 8, 8, 8, 8, 4, 3, 3, 3, 3 | Each turn from "3"to "9" wheel discharge thousand | W |

12-20 | 8, 3, 8, 3, 8, 3, 8, 3, 8, 3 | Each turn from "3" to "8" wheel discharge thousand | W |

21 | 8, 7, 7, 7, 7, 3, 2, 2, 2, 2 | Each turn from "2" to "8" wheel discharge thousand | W |

22-30 | 7, 2, 7, 2, 7, 2, 7, 2, 7, 2 | Each turn from "2" to "7" wheels discharge thousand | W |

31 | 7, 6, 6, 6, 6, 2, 1, 1, 1, 1 | Each turn from "1" to "7" wheels discharge thousand | W |

32-40 | 6, 1, 6, 1, 6, 1, 6, 1, 6, 1 | Each turn from "1" to "6" wheels discharge thousand | W |

41 | 6, 5, 5, 5, 5, 1, 0, 0, 0, 0 | Each turn from "0" to "6" wheels discharge thousand | W |

42-50 | 5, 0, 5, 0, 5, 0, 5, 0, 5, 0 | Each turn from "0" to "5" wheels discharge thousand | W |

The wheel of the tens of thousands:

Table E1 | |||

No. of enumerator | The numbers on the wheel | Actuation of the wheel discharge of hundreds of thousands of | No. of position |

1-50 | 0, 9, 8, 7, 6, 5, 4, 3, 2, 1 | Each turn from "0" to "9" wheel of tens of thousands of | W |

Wheel hundred thousand is h: wheel discharge of hundreds of thousands in each position, in fact, identical. They contain numbers"0, 9, 8, 7, 6, 5, 4, 3, 2, 1".

Table F1 | |||

No. of enumerator | The numbers on the wheel | Actuation of the wheel discharge million | No. of position |

1-50 | 0, 9, 8, 7, 6, 5, 4, 3, 2, 1 | Each turn from "0" to "9" wheel of the tens of thousands (if such a wheel is used) | W |

To print more than one million products you want to apply for more wheels, such as wheel discharge of hundreds of thousands. In the last wheel cutout is not required.

Example 2

Table 9 shows the numbering for numbering 40 sheets. The location of the enumerators depends on schedule packets in a cutting machine.

Print rooms follows the principle of reverse printing rooms. In this system receive 40 sequentially numbered packs (10×4 pack=4 pack) after processing 100 sheets in the cutting and packaging machines, and subsequent packets take after processing the next block. The model is repeated for all packages.

Table 9 | ||||

The numerator No. 40 | The numerator No. 32 | The numerator no 24 | The numerator No. 16/td> | The numerator No. 8 |

The numerator No. 40 | The numerator No. 31 | The numerator No. 23 | The numerator No. 15 | The numerator No. 7 |

The numerator No. 39 | The numerator No. 30 | The numerator No. 22 | The numerator No. 14 | The numerator No. 6 |

The numerator No. 38 | The numerator No. 29 | The numerator No. 21 | The numerator No. 13 | The numerator No. 5 |

The numerator No. 36 | The numerator no 28 | The numerator No. 20 | The numerator No. 12 | The numerator No. 4 |

The numerator No. 35 | The numerator No. 27 | The numerator No. 19 | The numerator No. 11 | The numerator No. 3 |

The numerator No. 34 | The numerator No. 26 | The numerator No. 18 | The numerator No. 10 | The numerator No. 2 |

The numerator No. 33 | The numerator No. 25 | The numerator No. 17 | The numerator No. 9 | The numerator No. 1 |

Structure wheels

The figures shown in table 5, are located on the printing surface.

Wheel rasra the and units: wheel discharge units in each position, in fact, identical. They will rotate after each printing.

Table A2 | |||

No. of enumerator | The numbers on the wheel | Actuation of the wheel of the tens digit | No. of position |

1-40 | 0, 9, 8, 7, 6, 5, 4, 3, 2, 1 | Each turn from "0" to "9" wheel discharge units | B1.1 |

The wheel of the tens digit wheels of the tens digit of all enumerators similar. They will rotate with the turning of the wheel of the discharge units from "0" to "9".

Table B2 | |||

No. of enumerator | The numbers on the wheel | Actuation of the wheel discharge hundreds | No. of position |

1-40 | 0, 9, 8, 7, 6, 5, 4, 3, 2, 1 | When the wheel of the tens digit is set to "0" | W |

Wheel discharge hundreds: wheel discharge hundreds in every situation, in fact, identical. They will rotate together with the wheel discharge units, only when the wheel of the tens digit is set to "0". Each wheel contains two digits, as shown below.

Table C2 | |||

No. num is operator | The numbers on the wheel | Actuation of the wheel discharge thousand | No. of position |

1, 11, 21, 31 | 0, 9, 9, 9, 9, 9, 9, 9, 9, 9 | Each turn from "0" to "9" and "9" to "0" wheels discharge hundreds | B1.3 |

2, 12, 22, 32 | 9, 8, 8, 8, 8, 8, 8, 8, 8, 8 | Each turn of the digit "n" to "n+1" wheel discharge hundreds (where n=0, 1, 2, 3, 4, 5, 6, 7, 8) | W |

3, 13, 23, 33 | 8, 7, 7, 7, 7, 7, 7, 7, 7, 7 | W | |

4, 14, 24, 34 | 7, 6, 6, 6, 6, 6, 6, 6, 6, 6 | W | |

5, 15, 25, 35 | 6, 5, 5, 5, 5, 5, 5, 5, 5, 5 | W | |

6, 16, 26, 36 | 5, 4, 4, 4, 4, 4, 4, 4, 4, 4 | W | |

7, 17, 27, 37 | 4, 3, 3, 3, 3, 3, 3, 3, 3, 3 | W | |

8, 18, 28, 38 | 3, 2, 2, 2, 2, 2, 2, 2, 2, 2 | W | |

9, 19, 29, 39 | 2, 1, 1, 1, 1, 1, 1, 1, 1, 1 | W | |

10, 20, 30, 40 | 1, 0, 0, 0, 0, 0, 0, 0, 0, 0 | W |

Wheel discharge thousands:

Table D2 | |||

No. of enumerator | The numbers on the wheel discharge thousand | Actuation of the wheel of the tens of thousands of | No. of position |

1 | 0, 9, 9, 9, 9, 5, 4, 4, 4, 4 | Each turn from "0" to "9" wheel discharge thousand | W |

2-10 | 9, 4, 9, 4, 9, 4, 9, 4, 9, 4 | Each turn from "4"to "9" wheel discharge thousand | W |

11 | 9, 8, 8, 8, 8, 4, 3, 3, 3, 3 | Each turn from "3"to "9" wheel discharge thousand | W |

12-20 | 8, 3, 8, 3, 8, 3, 8, 3, 8, 3 | Each turn from "3" to "8" wheel discharge thousand | W |

21 | 8, 7, 7, 7, 7, 3, 2, 2, 2, 2 | Each turn from "2" to "8" wheel discharge thousand | W |

22-30 | 7, 2, 7, 2, 7, 2, 7, 2, 7, 2 | Each turn from "2" to "7" wheels discharge thousand | W |

31 | 7, 6, 6, 6, 6, 2, 1, 1, 1, 1 | Each turn from "1" to "7" wheels discharge thousand | W |

32-40 | 6, 1, 6, 1, 6, 1, 6, 1, 6, 1 | Each turn from "1" to "6" wheels discharge thousand | W |

41 | 6, 5, 5, 5, 5, 1, 0, 0, 0, 0 | Each turn from "0" to "6" wheels discharge thousand | W |

42-50 | 5, 0, 5, 0, 5, 0, 5, 0, 5, 0 | Each turn from "0" to "5" wheels discharge thousand | W |

Wheels the discharge of tens of thousands:

Table E2 | |||

No. of enumerator | The numbers on the wheel | Actuation of the wheel discharge of hundreds of thousands of | No. of position |

1-50 | 0, 9, 8, 7, 6, 5, 4, 3, 2, 1 | Each turn from "0" to "9" wheel of tens of thousands of | W |

Wheel of hundreds of thousands: wheel discharge of hundreds of thousands in every situation, in fact, identical. They contain numbers"0, 9, 8, 7, 6, 5, 4, 3, 2, 1".

Table F2 | |||

No. of enumerator | The numbers on the wheel | Actuation of the wheel discharge million | No. of position |

1-50 | 0, 9, 8, 7, 6, 5, 4, 3, 2, 1 | Each turn from "0" to "9" wheel of the tens of thousands (if such a wheel is used) | W |

To print more than one million products you want to apply for more wheels, such as wheel discharge of hundreds of thousands. In the last wheel cutout is not required.

Example 3

Below is described the method of printing of consecutive characters to 20 sheets and the corresponding numbering:

Table 10 | ||

The numerator No. 20 | The numerator No. 10 | |

The numerator No. 19 | The numerator No. 9 | |

The numerator No. 18 | The numerator No. 8 | |

The numerator No. 17 | The numerator No. 7 | |

The numerator No. 16 | The numerator No. 6 | |

The numerator No. 15 | The numerator No. 5 | |

The numerator No. 14 | The numerator No. 4 | |

The numerator No. 13 | The numerator No. 3 | |

The numerator No. 12 | The numerator No. 2 | |

The numerator No. 11 | The numerator No. 1 |

Structure wheels

Wheel discharge units: wheel discharge units at each position, in fact, identical. They will rotate after each printing.

Table A3 | |||

No. of enumerator | The numbers on the wheel | Actuation of the wheel of the tens digit | No. of position |

1-20 | 0, 9, 8, 7, 6, 5, 4, 3, 2, 1 | Each turn from "0" to "9" wheel discharge units | B1.1 |

The wheel of the tens digit wheels of the tens digit of all enumerators similar. They will rotate with the turning of the wheel of the discharge units from "0" to "9".

Table B3 | |||

No. of enumerator | The numbers on the wheel | Actuation of the wheel discharge hundreds | No. of position |

1-20 | 0, 9, 8, 7, 6, 5, 4, 3, 2, 1 | When the wheel of the tens digit is set to "0" | W |

Wheel discharge hundreds: wheel discharge hundreds in every situation, in fact, identical. They will rotate together with the wheel discharge units, only when the wheel of the tens digit is set to "0". Each wheel contains two digits, as shown below.

Table C3 | |||

No. of enumerator | The numbers on the wheel | Actuation of the wheel discharge thousand | No. of position |

1, 11 | 0, 9, 9, 9, 9, 9, 9, 9, 9, 9 | Each turn from "0" to "9" and "9" to "0" wheels discharge hundreds | B1.3 |

2, 12 | 9, 8, 8, 8, 8, 8, 8, 8, 8, 8 | Each turn of the digit "n" to "n+1" wheel discharge hundreds (where n=0, 1, 2, 3, 4, 5, 6, 7, 8) | W |

3, 13 | 8, 7, 7, 7, 7, 7, 7, 7, 7, 7 | W | |

4, 14 | 7, 6, 6, 6, 6, 6, 6, 6, 6, 6 | W | |

5, 15 | 6, 5, 5, 5, 5, 5, 5, 5, 5, 5 | W | |

6, 16 | 5, 4, 4, 4, 4, 4, 4, 4, 4, 4 | W | |

7, 17 | 4, 3, 3, 3, 3, 3, 3, 3, 3, 3 | W | |

8, 18 | 3, 2, 2, 2, 2, 2, 2, 2, 2, 2 | W | |

9, 19 | 2, 1, 1, 1, 1, 1, 1, 1, 1, 1 | W | |

10, 20 | 1, 0, 0, 0, 0, 0, 0, 0, 0, 0 | W |

Wheel discharge thousands:

Table D3 | |||

No. of enumerator | The numbers on the wheel discharge thousand | Actuation of the wheel of the tens of thousands of | No. of position |

1, 11 | 0, 9, 8, 7, 6, 5, 4, 3, 2, 1 | Each turn from "0" to "9" wheel discharge thousand | W |

2-10 | 9, 7, 5, 3, 1 | Each turn from "1"to "9" wheel discharge thousand | W |

12-20 | 8, 6, 4, 2, 0 | Each turn from "0" to "8" wheel discharge thousand | W |

The wheel of the tens of thousands:

Table E3 | |||

No. of enumerator | The numbers on the wheel | Actuation of the wheel discharge of hundreds of thousands of | No. of position |

1-20 | 0, 9, 8, 7, 6, 5, 4, 3, 2,1 | Each turn from "0" to "9" wheel of tens of thousands of | W |

Wheel discharge of hundreds of thousands: wheel discharge of hundreds of thousands in every situation, in fact, identical. They contain numbers"0, 9, 8, 7, 6, 5, 4, 3, 2, 1".

Table F3 | |||

No. of enumerator | The numbers on the wheel | Actuation of the wheel discharge million | No. of position |

1-20 | 0, 9, 8, 7, 6, 5, 4, 3, 2, 1 | Each turn from "0" to "9" wheel of the tens of thousands (if such a wheel is used) | W |

To print more than one million products you want to apply for more wheels, such as wheel discharge of hundreds of thousands.

Advantages

1. When using the method and device of the present invention, receive packages of sheets after processing any stop of the paper, and for further processing is not required shifting the packages.

2. The method and the device corresponding to the present invention, allow the packets are received after processing only a single block (that is, 100 sheets). Therefore, sequential processing nodes can start work within a short period of time. This leads to a more rapid conclusion, based on the aqueous process.

3. The present invention eliminates the need for manual sorting and provides complete automation of the processes of printing, cutting and packaging.

4. According to the present invention due to the cancellation of a single sheet will be broken only a few packets (for example, 4 pack for 40 sheets etc) with the necessity of opening and organize manually.

5. Electronic control system, calibrated in the system serial printing, forms the operational control system for detecting incorrect numbering.

1. Serial printing numbering characters on successive sheets, each of which is subject to the numbering in the many provisions in the form of a matrix cell, which consists of the maximum number (mr) series, and the maximum number (mc) speakers, while the work of mr × mc multiples of ten, comprising stages:

(a) providing mr × mc serial numbering, each of which has many of the numbering wheels;

(b) the installation of enumerators in the form of a matrix from the maximum number (mr) series, and the maximum number (mc) columns in accordance with a matrix of provisions, which shall be numbered sheets, with the first of the enumerators is located in the cell matrix (mr; mc), the second of the enumerators is located in the cell (mr-1; mc), and so on until the last of the enumerators, the set is built in the cell matrix (1; 1);

(c) install the wheels of enumerators in a position in which is formed a given sequence numbering symbols, and other enumerators have difference values, component 100 in rows and mr × 1000 columns;

(d) printing the enumerators of the first sheet of the series of one hundred sheets, thus providing a seal of the above sequence in the above provisions on the sheet;

(e) bringing into action all the enumerators so that all sequence numbering of symbols formed by enumerators, be decreased by one;

(f) printing the numbering of the subsequent sheet so that provided a print of the above sequence numbering of characters, minus one on the second sheet;

(g) repeating steps (e)-(f) to perform printing on the one hundredth sheet,

(h) reinstall the provisions of the numbering wheels of the numbering so that the sequence numbering of symbols formed by enumerators, corresponded to the sequence numbering of characters when printing a first series of one hundred sheets on the stage (d), reduced by the value of mr × mc × 100;

(i) repeating steps from (d) to (h) for the subsequent series of one hundred sheets.

2. The method according to claim 1, in which each sheet is a matrix of the five cells, and in which mr and mc is selected from the following combinations: (mr=25; mc=2)or (mr=2; mc=25).

3. The method according to claim 2, in which mr=10 and mc=5, and the profiles of the characters of the star wheels and cut the wheel above the enumerators selected in accordance with table 4.

4. The method according to claim 1, in which each sheet is a matrix of four cells, with mr and mc is selected from the following combinations: (mr=5; mc=8), (mr=8; mc=5), (mr=10; mc=4), (mr=4; mc=10), (mr=20; mc=2) or (mr=2; mc=20).

5. The method according to claim 4, in which mr=8: mc=5, and the profiles of the characters of the star wheels and cut the wheel above the enumerators selected in accordance with table 5.

6. The method according to claim 1, in which each sheet is a matrix of twenty cells, while mr and mc is selected from the following combinations: (mr=2; mc=10), (mr=10; mc=2), (mr=5; mc=4) or (mr=4; mc=5).

7. The method according to claim 6, in which mr=10 and mc=2, and the profiles of the characters of the star wheels and cut the wheel above the enumerators selected in accordance with table 6.

8. The method according to claim 3, in which each enumerator contains at least six numbering wheels, wheel discharge units, wheel discharge hundreds, wheel discharge thousand, wheel discharge of tens of thousands, and the wheel discharge of hundreds of thousands, while the numbering wheels are numbers and are driven in accordance with tables A1, B1, C1, D1, E1 and F1.

9. The method according to claim 5, in which each enumerator contains at least six numbering wheels, wheel discharge units, wheel discharge hundreds, wheel discharge thousand, the number is from the tens of thousands, and the wheel of the discharge of hundreds of thousands, while the numbering wheels are numbers and are driven in accordance with tables A2, B2, C2, D2, E2 and F2.

10. The method according to claim 7, in which each enumerator contains at least six numbering wheels, wheel discharge units, wheel discharge hundreds, wheel discharge thousand, wheel discharge of tens of thousands, and the wheel discharge of hundreds of thousands, while the numbering wheels are numbers and are driven in accordance with tables A3, B3, C3, D3, E3 and F3.

11. The method according to claim 1, in which the sheets are sheets for the production of banknotes, securities and passports.

12. The numerator for performing the method according to any one of claims 1 to 11, containing at least six numbering wheels, wheel discharge units, wheel discharge hundreds, wheel discharge thousand, wheel discharge of tens of thousands and wheel discharge of hundreds of thousands, while the wheels contain a combination of the profiles of the star wheels and cuts on their lateral surfaces, while the numbering wheels are driven through a drive lever that interacts with the above combinations of profiles of the star wheels and cut on the numbering wheels through first and second drive pawls, the first drive-dog is a two-pronged drive dog, interacting with profiles of the star wheels and cut in the right a hundred the one wheel of the discharge unit and the wheel of the tens digit, and the second drive-dog is patisaul drive dog, interacting with profiles of the star wheels and cut-outs on the left side of the wheel of the tens digit, wheel discharge hundreds, wheel discharge thousand, wheel discharge of tens of thousands of wheels and discharge hundreds of thousands.

**Same patents:**

FIELD: technological processes; printing industry.

SUBSTANCE: device represents numerator that comprises at least six numbering wheels, namely wheel of units digit, wheel of hundred's unit, wheel of thousand's unit, wheel of thousand tens unit and wheel of thousand hundred's unit. Wheels comprise combinations of ratchet profiles and cuts on their side surfaces. Mentioned numbering wheels are actuated by drive lever that interacts with above mentioned combinations of ratchet profiles and cuts on numbering wheels via the first and second drive pawls. The first drive pawl is a two-pronged drive pawl that interacts with ratchet profiles and cuts on the right side of units digit wheel and tens' unit wheel. The second drive pawl is a five-pronged drive pawl that interacts with ratchet profiles and cuts on front side of ten's unit wheel, hundred's unit wheel, thousand's unit wheel, thousand ten's unit wheel and thousand hundred's unit wheel.

EFFECT: provision of serial printing and therefore complete automation of carriers processing.

12 cl, 16 dwg, 28 tbl, 3 ex

FIELD: printing industry.

SUBSTANCE: invention relates to the field of securities numbering. The method of treatment of a substrate in the form of sheets or periodically repeating sections of a roll consists in the fact that stacks from sheets or periodically repeating roll sections turned into separate sheets are formed and processed into packs of separate objects by cutting of the specified stacks along the specified rows and columns. At the same time the packs produced by means of serial cutting of the stacks that follow each form a continuous flow of serially numbered objects. A numerator for typographic numbering on sheet or roll printing machines, at the same time the specified numerator includes numbering wheels to form serial numbers. The numbering wheels are actuated by a fully sequential driving facility and a fully individually adjusted driving facility.

EFFECT: group of inventions makes it possible to form stacks in the form of a continuous flow of serially numbered objects.

11 cl, 27 dwg