RU63958U1 - AUTOMATED ELECTRONIC DOCUMENT CONTROL SYSTEM OF A UNIFIED TRAINING CENTER - Google Patents

Abstract

The invention relates to the field of computer technology, in particular, to an automated electronic document management system for a single training center, designed to prepare users of automated information systems and, in particular, users of the state automated system “Justice”. The technical result is to increase the system performance by identifying the readiness of text documents at the time of recording the last finished section of a text document in the system database. The technical result is achieved by the fact that the system comprises a block for receiving sections of text documents, a block for selecting base addresses of text documents, a block for generating signals for writing and reading a database, a block for gating sections of text documents, a block for counting the number of finished sections of text documents, block for setting the structure of text documents, two comparators, block for addressing text documents, block for receiving sections of text documents from the server database, block switching channels issuing sections of text documents and a counter. 8 ill.

Description

The invention relates to the field of computer technology, in particular, to an automated electronic document management system for a single training center, designed to prepare users of automated information systems, in particular, the state automated system “Justice”.

The State Automated System of the Russian Federation “Justice” is a geographically distributed automated information system designed to create a single information space for courts of general jurisdiction and the system of the Judicial Department under the Supreme Court of the Russian Federation (SD), providing information and technological support for legal proceedings on the principles of maintaining the required balance between need citizens, society and the state in the free exchange of information and necessary programs Nitsyami on the dissemination of information.

The judicial reform in the country, considering the judiciary as the most important tool for democratizing society and protecting the rights and interests of citizens, sets the task of radically improving the quality of the work of courts at all levels.

The main tasks of court informatization involve filling the system with specific knowledge in the form of specialized software and databases (knowledge) that ensure the successful performance of specific functions of the judiciary.

Automated technology for court management provides the transfer to computer technology of the vast majority of production functions related to the registration, development and storage of documents, as well as obtaining information certificates, collecting primary data and preparing the required statistical reports on their basis.

The special software of the system is more flexible and more easily adapts to all kinds of changes to the current procedural codes, instructions for judicial proceedings, and other documents regulating the content and procedure of proceedings in courts of general jurisdiction. The system also acquired these qualities due to powerful administrative tools that make it easy to configure it for the specific features of the court proceedings of a particular court.

In this regard, the tasks of training and educating users to work in a distributed electronic document processing network of the judicial department were especially acute. The courts of various instances have to solve such problems in situations when separate sections of the same document are distributed and processed by specialists of various departments of the judicial

clerical work, and then all processed sections should be presented for general editorial revision of the automated workplace of a judge considering criminal and civil cases.

Known systems that could be used to solve the problem (1, 2).

The first of the known systems contains data reception and storage units connected to control and data processing units, search and selection units connected to data storage and display units, the synchronizing inputs of which are connected to the outputs of the control unit (1).

A significant drawback of this system is the impossibility of solving the problem of updating data stored in memory in the form of relevant documents at the same time as solving the problem of delivering the contents of these documents to users in real time.

Another system is known that contains data processing units, the information inputs of which are connected to the data reception and control units, and the outputs are connected to the first group of memory units, the central processor, the inputs of which are connected to the outputs of the memory units of the first group and data processing units, and the outputs are connected with the inputs of the memory blocks of the second group and data display blocks (2).

The last of the above technical solutions is closest to the described.

Its disadvantage is the low speed of the system, due to the fact that the procedure for determining the readiness of sections of text documents of various users is implemented through a search of the data state of sections of text documents throughout the database.

Such an organization of data processing with large volumes of text documents inevitably leads to unreasonably large costs of time.

The purpose of the invention is to increase the system performance by identifying the readiness of text documents at the time of recording the last finished section of a text document in the system database.

This goal is achieved by the fact that in a known system containing a block for receiving sections of text documents, the information and synchronizing inputs of which are the first information and synchronizing inputs of the system, a block for addressing text documents, the information and synchronizing inputs of which are the second information and synchronizing inputs of the system, the receiving block sections of text documents from the server database information and synchronizing inputs of which are the third information m and synchronizing inputs of the system, a switching unit for channels for issuing text documents, one information input of which is connected to the output of the receiving unit of text documents from the server database, another information input is connected to the output of the addressing unit of text documents, the synchronizing input is connected to the third synchronizing input of the system, and information outputs are information outputs of a system group, the address output block of which is the address output of the system, and the first and second synchronizing the outputs are the first and second synchronizing outputs of the system, a block for selecting the base addresses of text documents is introduced, the information input of which is connected to the first output of the block for receiving sections of text documents, the synchronizing input is connected to the first synchronizing input of the system, and the information and synchronizing outputs are connected to one information and

the synchronizing inputs of the writing and reading database signal generation block, the text document structure selection block, one information input of which is connected to the second information output of the text document sections receiving block, and the information and synchronizing outputs are connected to other information and synchronizing inputs of the writing and reading signal generation block database, while the third information output of the block receiving sections of text documents is an information output of systems s, a block for gating sections of text documents, the synchronizing input of which is connected to the second synchronizing output of the block for generating signals for writing and reading the database, and the control inputs of the group are connected to the corresponding control outputs of the group for the block of selection of basic addresses of text documents, the block for counting the number of ready sections of text documents, the control inputs of the group of which are connected to the corresponding control outputs of the group of the block of the gating section of text documents, and the input inputs of the group of which are connected to the corresponding counting outputs of the block of gating of sections of text documents, the block for specifying the structure of text documents, the control inputs of the group of which are connected to the corresponding control outputs of the group of the block of gating sections of text documents, the first comparator, one information input of which is connected to the output of the block of counting numbers ready-made sections of text documents, another information input is connected to the output of the unit for setting the structure of text documents, and the synchronizing input is connected to the synchronizing output of the gating unit of text document sections, while one output of the first comparator is connected to the first synchronizing input of the text document structure selection unit, and the other output is connected to the installation inputs of the receiving section of text documents,

selection of the base addresses of text documents, gating sections of text documents, generating write and read signals of a database, a counter, the counting input of which is connected to the first synchronizing output of the switching unit of the channels for issuing text documents, and the output is connected to another information input of the block for selecting the structure of the text document, and the second comparator, one information input of which is connected to the output of the unit for setting the structure of text documents, another information input is connected to the output counter, and the synchronizing input is connected to the second output of the switching unit of the channels for issuing text documents, while one output of the second comparator is connected to the second synchronizing input of the unit for selecting the structure of text documents, and the other output is connected to the installation inputs of the address blocks of text documents, receiving sections of text documents from server database, selecting the structure of a text document, generating recording and reading signals for the database and counter.

The invention is illustrated by drawings, in which Fig. 1 is a structural diagram of a device, Fig. 2 is a structural diagram of a selection block of base addresses of text documents, Fig. 3 is a structural diagram of selecting a structure of a text document, and Fig. 4 is a structural diagram of a forming unit database write and read signals, FIG. 5 is a block diagram of a strobe block of text document sections, FIG. 6 is a block diagram of a counting unit of ready-made text document sections, and FIG. 7 is a block diagram of a task block structure of text documents, 8 - a block diagram of switching unit dispensing channel sections of text documents.

The system (Fig. 1) comprises a block 1 for receiving sections of text documents, a block 2 for selecting base addresses of text documents, a block 3 for selecting a structure of a text document, a block 4 for generating

database write and read signals, block 5 gating sections of text documents, block 6 counting the number of finished sections of text documents, block 7 defining the structure of text documents, first 8 and second 9 comparators, block 10 addressing text documents, block And receiving sections of text documents from server database, block 12 switching channels issuing sections of text documents and counter 13.

Figure 1 shows the first 20, second 21 and third 22 information inputs of the system, the first 23, second 24 and third 25 synchronizing inputs of the system, as well as information 26 and address 27 outputs of the system, the first 28 and second 29 synchronizing outputs of the system, and groups 30-32 information outputs of the system.

Block 1 receiving sections of text documents is made in the form of a register having an information input 20, synchronizing 23 and installation inputs, as well as the first 161, second 162 and third 163 information outputs.

Block 2 (figure 2) selection of the base addresses of text documents contains a register 33, elements 34-36 And, a decoder 37, a memory unit 38, made in the form of read-only memory, delay elements 39-1, 39-2, 39-3. The drawing shows information 41, synchronizing 42 and installation 43 inputs, as well as information 44, synchronizing 45 outputs and control 46-48 outputs of the group.

Block 3 (FIG. 3) of the structure of the text document contains a trigger 51, a group 52, 53 of AND elements, a group of 54 OR elements, an OR element 55, a delay element 56.

The drawing shows information 58, 59, synchronizing 60, 62 and installation 61 inputs, as well as information 63 and synchronizing 64 outputs.

Block 4 (figure 4) of the formation of the write and read signals of the database contains an adder 70, elements 71, 72 OR, elements 73, 74 delay. The drawing shows information 76, 77 inputs, synchronizing 78, 79 and installation 80, 81 inputs, as well as address 27 output, the first 28 and second 29 synchronizing.

Block 5 (figure 5) of the gating sections of text documents contains triggers 83-85, elements 86-88 And, element 89 delay. The drawing shows a counting 90, installation 91 and controlling 92-94 inputs, as well as a synchronizing 95 output, controlling 96-98 group outputs, and counting 99-101 group outputs.

Block 6 (Fig.6) counting the number of finished sections of text documents contains counters 105-107, groups 108-110 of AND elements, and a group 111 of OR elements. The drawing shows the control inputs 112-114 group inputs, counting 115-117 group inputs, as well as information 118 output.

Block 7 (Fig. 7) for setting the structure of text documents contains registers 121-123, groups 124-126 of AND elements, a group of 127 OR elements. The drawing shows the control 128-129 inputs of the group, as well as information 131 output.

Block 10 addressing text documents is made in the form of a register having information 21, synchronizing 24 and installation inputs, as well as information output.

Block 11 receiving sections of text documents from the server database is made in the form of a register having information 22, synchronizing 25 and installation inputs, as well as information output.

Block 12 (Fig. 8) of switching channels for issuing sections of text documents contains a decoder 150, groups 151-153 of elements And, elements 154-155 of delay. The drawing shows information 156-157 inputs, synchronizing 158 input, as well as first 159 and second 160 synchronizing outputs, and a group of 30-32 information outputs.

The counter 13 (figure 1) has a counting input connected to the output 159 of the block 12, and the installation input connected to the output 142 of the comparator 9.

All nodes and elements of the system are made on standard potential-impulse elements.

The system operates as follows.

In the process of completing tasks for processing sections of text documents in a distributed network, each of the workers, working at a remote workstation, after completing the task, generates a codogram that indicates the identifier of the text document on the corresponding section of which the given work was performed, the number of the section and its contents.

The structure of such a codogram is as follows:

the code THE CODE THE CODE Text document id Section Number Section Content

This codogram from the input 20 of the system enters the information input of the register of block 1, where it is entered by the synchronizing pulse from the input 23 of the system.

From the output 161 of block 1, the identifier of the text document goes to the information input 41 of block 2, from where it is issued to the input of the decoder 37.

The decoder 37 decodes the identifier of the text document and prepares the signal path from input 42, opening one of the elements 34-36 I. For definiteness, we assume that a high potential is received at one input of the element 36 I.

In parallel with this, the synchronizing pulse from the input 23 of the system enters the input 42 of block 2, is delayed by element 39-1 for the time the codogram is entered in block 1 and the decoder 37 is activated, and then it goes to the inputs of elements 34-36 I.

Considering the fact that only AND element 36 will be open at one input, then passing through this AND element, the clock pulse is fed to the read input of a fixed memory cell of the permanent storage device 38, where the code of the base address of the server database corresponding to the identifier of the text document is stored.

The code of the base address of the server database is read to the information input of the register 33, where it is entered by the same synchronizing pulse delayed by the element 39-2 while the code is being read from the memory unit 38.

The base address from the output 44 of block 2 goes to the input 77 of block 4, and the synchronizing pulse from the output of the delay element 39-2 is again delayed by the element 39-3 while the base address code is entered in register 33 and through the output 45 of block 2 it goes to the synchronization input 78 block 4.

In parallel with this, the code of the finished section of the text document from the output 162 of block 1 goes to the input 58 of block 3. Given that in the initial state, the trigger 51 gives a high potential to the inverse output, then the 53 AND elements will be open. As a result, the code of the section number of the text document passes through the elements 53 AND groups, then the elements 54 OR groups, and then from the output 63 of the block 3 is issued to the input 76 of the block 4, and from there it goes to the input of the adder 70, the other input of which through the input 77 of block 4 the code of the base address of the text document is supplied from the output 44 of block 2.

The synchronization signal from the input 78 of block 4 through the element 71 is fed to the synchronizing input of the adder 70, which sums the base address of the text document with the section number executed by the executor, and generates the server database address at which the ready section of the text document should be recorded at system output 27 .

In addition, the same clock pulse is delayed by the delay element 73 for the duration of the adder response and is output to the system output 29 as a clock pulse to control the recording of an incoming section of a text document. From the output 29 of the system, this pulse is fed to the input of the first channel of the database server interrupt.

By this signal, the server goes to the subroutine for recording the contents of the section of the text document, which from the output 163 of the block 1 is issued to the output 26 of the system, at the address generated at the output of the system 27.

In addition, in parallel with the process of writing a section of a text document in the server database, the synchronizing pulse from the output 29 of block 4 is supplied to the input 90 of the block 5. At this point in time, the synchronizing pulse from the output of the element 36 AND of block 2 also comes through the output 48 of the block 2 to the input 94 of block 5 and further to the single input of trigger 85, setting it to a single state, in which a high potential is established at the direct output of trigger 85, opening element 88 I.

The clock pulse from input 90 of block 5 through element 88 AND passes to output 101 of block 5 and then goes to the counting input 117 of block 6, from where it goes to the counting input of counter 107, which records the fact of writing one finished section of a text document to the server database.

In addition, given that the high potential of the trigger 85 from the output 98 also enters through the input 114 of the block 6 to one of the inputs of the AND elements of the group 110, the code of the counter 107 through the elements 110 of the OR group and the elements 111 of the OR will be output to the output 118 of the block 6, from where this code is issued to the input 133 of the comparator 8.

The high potential from the trigger 85 through the output 98 of the block 5 is also output to the input 130 of the block 7 and opens the elements 126 AND groups one input, thereby connecting the output of the register 123 through the elements 126 AND groups and the elements 127 OR groups to the output 131 of the block 7 and further input 134 of the comparator 8.

In registers 121-123, the number of sections that contain text documents processed in a distributed system is entered in advance. The selection of the corresponding register is carried out by the identifier of the text document in block 2, which provides control of the corresponding trigger in block 5.

With the arrival of a synchronizing pulse at input 135, comparator 8 compares the input codes and, given that the counter 107 is less than the number of sections from input 134, a pulse is generated at the output of comparator 8, which is fed to the installation inputs of blocks 1, 2, 4, 5, returning them to the initial state of waiting for the readiness of the next section of a text document.

In addition, in parallel with the process of recording the contents of the first section of a text document in the server database, the synchronizing pulse from the output of the delay element 93 of block 4 also arrives at the counting input of the counter 92 and increases its readings by one more unit, and from the output 98 of block 4 to the input 66 of block 2, where the OR element 61 passes and is delayed by the element 63 for the duration of writing the contents of the first section of the text document into the database memory, after which, from the output of 69 block 2, it is again output to the input 95 of block 4.

The described process of writing sections of a text document to the server database will continue until all sections of the text document are written to the memory of the server database. This point in time will be fixed by the comparator 91 of block 4 by issuing a signal to output 99 and to the installation input of the counter 92, returning it to its original state.

In addition, from the output 99 of block 4, the signal to finish recording sections of a text document in the server database is supplied to installation input 67 of block 2, where it returns register 57 to its initial state, and to installation input 45 of block 1, where, firstly, it sets the initial state is register 41, and, secondly, the trigger 42 returns to its initial state and thereby removing the blocking signal from the output 52 of block 1.

Thus, each text document will be entered into the server database, where it will be placed as follows:

Server database cell address Cell contents Cell with the base address of the text document The entire codogram of a text document Cell with base address + 1 The first section of a text document Cell with base address + 2 Second section of a text document - - Cell with base address + N Nth section of a text document

The head of the distributed processing of text documents, for example, a judge of the executive court, looks at sections of text documents at his workstation (AWP) and appoints executors for processing each of them. To this end, he sequentially generates codograms of the following content:

The code The code The code Text document id Text Document Section Number Artist ID (AWP)

Each of these codograms from the output of the workstation of the chief editor goes to the input 24 of the system, and the synchronizing signal from the output of the workstation goes to the input of the system 29.

The synchronizing signal from input 29 through input 83 of block 3 is fed to the input of element 74 AND, which will be open only after writing text input documents to the server database has finished, with high potential from inverse output 52 of trigger 42. After passing element 74 AND, the synchronizing the pulse from the output 85 of block 3 is fed to the clock input 87 of block 7 and enters the input codogram into it.

The code of the identifier of a text document from the output 88 of block 7 enters through the input 81 of block 3 to the input of the decoder 72. The decoder 72 decodes the identifier of the text document and prepares the signal path from the output of the delay element 78, opening one of the elements 75-77 I. For definiteness, put that high potential entered one input of element 75 I.

In parallel with this, the synchronizing pulse from the output of element 74 AND is delayed by element 78 for the duration of entering the codogram into block 7 and the operation of decoder 72, and then polls the states of elements 75-77 I.

Considering the fact that only the AND element 75 will be open at one input, then passing through this AND element, the clock pulse arrives at the read input of the fixed memory cell of the permanent storage device 71, where the code of the base address of the server database corresponding to the identifier of the text document is stored.

The code of the base address of the server database is read into the information input of the register 73, where it is entered by the same synchronizing pulse delayed by the element 79 while the code is being read from the memory unit 71.

The base address from the output 84 of block 3 is fed to the input 117 of block 8, and the synchronizing pulse from the output of the delay element 79 is again delayed by the element 80 while the base address code is entered into the register 73 and through the output 86 of the block 3 it goes to the synchronizing input 119 of the block 8, another information input 118 which serves the code number of the section of the text document from the output 89 of block 7.

Block 8 summarizes the base address with the section number of the text document and provides the total address from output 120 to input 186 of block 15, from where the final code of the read address passes through the elements of 180 OR groups to address 31 of the system output.

In addition, the synchronizing pulse from the output 86 of block 3 goes to the input 192 of block 15. where it is delayed by the time the formation of the read address in block 8, and through the output 34 of the system it goes to the input of the second channel of the database server interrupt.

By this signal, the server switches to the subroutine for reading the contents of that section of the text document, the address of which is generated at the output of the system 31.

In parallel with this process, the identifier code of the artist from the output 90 of block 7 goes to the input 176 of block 14 and then to the input of the decoder 171, which decrypts the code of the identifier of the artist and opens the corresponding group of elements 172-174 AND, for example, the group of elements 172 AND, connecting the input 177 of the block 14 to the output 35.

As a result of reading the indicated section of this text document, its contents go to input 22 of block 9, where it is entered by the server synchronizing pulse, which goes to system input 27.

At the same time, the pulse from the input 27 of the system immediately goes to the synchronizing input of block 14, where it is delayed by element 175 for the time the code is entered into block 9, and then it goes to the third input of elements 172 And groups, overwriting the contents of the text document section through the system output 35 to the automated workstation of the relevant contractor, who, having received the appropriate section, proceeds to its processing, for example, to translate or edit.

Similarly, the editor-in-chief distributes the contents of sections of the relevant documents among all the executors working in this system.

In the process of completing the assigned tasks, each of the performers at his workstation generates a codogram having the following structure:

The code The code Artist ID The contents of the processed section of a text document

This codogram is fed to the input 23 of the system and then to the input of block 10, where it is recorded by the synchronizing signal supplied to the input 28 of the system from the workstation of the performer.

The code of the identifier of the executor from the output 196 of block 10 goes to the input 136 of block 11 and then to the input of the decoder 126. The decoder 126 decodes the code combination and prepares the signal path from input 137, opening one of the elements 128-130 I. For definiteness, we assume that high the potential entered one input of element 130 I.

In parallel with this, the synchronizing pulse from the input 28 of the system enters the input 137 of block 11, where it is delayed by element 131 for the duration of entering the codogram into block 10 and the operation of decoder 126, and then polls the states of elements 128-130 I.

Considering the fact that only the And element 130 will be open at one input, then passing through this And element, the clock pulse is fed to the read input of a fixed memory cell of the permanent storage device 125, where the code of the reference address of the database area reserved for recording the results of the work performed is stored performer.

The code of the reference address of the database area from the memory unit 125 is read into the information input of the register 127. In parallel with the described process, the same read pulse from the output of the delay element 131, which delays the pulse by the time it takes to read the contents of the fixed cell ROM 125, is fed to the clock input of the register 127, fixing the read code. The address code from the output of register 127 is issued to input 166 of block 13, to the other input of which output 164 of block 12 is connected.

At the same time, the pulse from the output of the element 130 And through the output 141 of the block 12 enters the input 161 of the block 12 and then goes to the direct input of the trigger 148, setting it to a single state, in which the high potential from the direct output of the trigger 148 opens one input element 151 AND, as well as a group of elements 154 AND, thereby connecting the output of the counter 145 through elements 154 AND, as well as elements 157 OR groups to the output 164 of block 12 and then to the input 167 of block 13.

In parallel, the pulse from the output of the delay element 132 is again delayed by the element 133 for the duration of the trigger 148 and arrives at the clock input 168 of the block 13, which sums the address code from the output 138 of the block 11 with the readings of the counter 145 of the block 12 and generates the database address for recording the results of the work performed.

This address from the output 169 of block 13 through the input 187 of block 15 passes the elements of 180 AND groups to the output 31 of the system, and the clock pulse from the output of the delay element 133 is again delayed by the time the recording address was generated by block 13 and from the output 140 of block 11, firstly, arrives at input 191 of block 15, where OR element 182 passes, and through system output 33 it is fed to the input of the first server interrupt channel.

By the synchronization signal, the first interrupt channel passes to the subroutine for recording the contents of the work performed by the executor from the system output 32 to the server database at the address generated at the system output 31.

To this end, the contents of the work performed from the output 197 of the block 10 is issued to the input 189 of the block 15 and then through the elements 181 OR groups to the information output 32 of the system.

In addition, in parallel with the process of recording the contents of the work performed in the server database, the synchronizing pulse from the output 140 of the block 11 is fed to the input 160 of the block 12, where it is delayed by the element 158 while recording the contents of the work performed in the server database and then through the open element 151 AND enters the counting input of the counter 145, increasing its readings by one.

The next work performed by the same contractor will be recorded at the next following the previous address, since the counter 145 will be added to the base address of the contractor.

The readings of the counters 145-147 are also displayed on the workstation of the editor-in-chief (not shown in the drawing), therefore, according to their testimonies, the editor-in-chief determines the degree of readiness of sections of text documents processed at the workstations of the executors.

Upon full readiness of the relevant sections, the editor-in-chief launches a program for formatting the new content of the entire text document as a whole.

Thus, the introduction of new nodes and blocks has significantly improved system performance by identifying the readiness of text documents at the time of writing the last finished section of a text document in the system database.

Sources of information taken into account when drawing up the description of the application:

1. US patent No. 5136708 M. cl. G06F 15/16, 1992

2. US Patent No. 5129083 M. cl. G06F 12/00, 15/40, 1992 (prototype).

Claims (1)

An automated electronic document management system for a single training center, containing a block for receiving sections of text documents, information and synchronizing inputs of which are the first information and synchronizing inputs of the system, a block for addressing text documents, information and synchronizing inputs of which are the second information and synchronizing inputs of the system, block for receiving sections text documents from the server database, information and synchronization inputs to Orogy are the third information and synchronizing inputs of the system, the switching unit of channels for issuing sections of text documents, one information input of which is connected to the output of the receiving unit of text sections of documents from the server database, the other information input is connected to the output of the address block of text documents, the synchronizing input is connected to the third synchronizing system input, and the information outputs are the information outputs of the system group, the unit for generating recording signals and counts a database, the address output of which is the address output of the system, and the first and second synchronizing outputs are the first and second synchronizing outputs of the system, characterized in that the system contains a selection block for the base addresses of text documents, the information input of which is connected to the first output of the block for receiving text sections documents, the synchronizing input is connected to the first synchronizing input of the system, and the information and synchronizing outputs are connected to the same information and synchronizing the input inputs of the unit for generating signals for writing and reading the database, the unit for selecting the structure of text documents, one information input of which is connected to the second information output of the unit for receiving sections of text documents, and the information and synchronizing outputs are connected to other information and synchronizing inputs for the unit for generating signals for writing and reading database, while the third information output of the unit for receiving sections of text documents is the information output of the system, the building block section of text documents, the synchronizing input of which is connected to the second synchronizing output of the unit for generating the write and read signals of the database, and the control inputs of the group are connected to the corresponding control outputs of the group of the selection block of the base addresses of text documents, the unit for counting the number of ready sections of text documents, the control inputs of the group which are connected to the corresponding control outputs of the group of the strobe block of sections of text documents, and the counting inputs are PPs are connected to the corresponding counting outputs of the strobe section of text documents, a block for setting the structure of text documents, the control inputs of which are connected to the corresponding control outputs of the group of the selection block of basic addresses of text documents, the first comparator, one information input of which is connected to the output of the block for counting the number of finished sections text documents, another information input is connected to the output of the unit for setting the structure of text documents, and synchronizing the input is connected to the synchronizing output of the gating unit of text document sections, while one output of the first comparator is connected to the first synchronizing input of the text structure selection block, and the other output is connected to the setting inputs of the receiving blocks of text document sections, selecting base addresses of text documents, gating text sections documents, generating signals for writing and reading the database, and a counter, the counting input of which is connected to the first synchronizing output m of the switching unit of the channels for issuing sections of text documents, and the output is connected to another information input of the block for selecting the structure of the text document, and a second comparator, one information input of which is connected to the output of the unit for setting the structure of text documents, another information input is connected to the counter output, and the synchronizing input connected to the second output of the block switching channels for issuing text documents, while one output of the second comparator is connected to the second synchronizing input of the selection block structure of text documents, and the other output is connected to the installation inputs of blocks of addressing text documents, receiving sections of text documents from the server database, selecting the structure of the text document, generating recording and reading signals from the database and counter.