RU83640U1 - HARDWARE AND SOFTWARE COMPLEX OF AUTOMATED ACCOUNTING OF THE ENTERPRISE'S PRODUCTION PROCESS - Google Patents

Abstract

1. The hardware-software complex for automated accounting of the enterprise’s production process, which is a group of automated workstations (AWS), which has a part of them equipped with barcode readers, connecting the entire group to a network server of the enterprise equipped with a software product for electronic registration real-time barcodes printed on accounting cards for technological operations (KUVTO), digital information processing as a result of reading these barcodes and presenting processed digital information on the specified workstation in the form that provides the possibility of an operational assessment of the efficiency of the production process, characterized in that the complex is built on an end-to-end system of parallel KUVTO streams that reflect all stages of the production process and that contain a set of bar codes in each accounting card, identifying the main technological operations of the production process. ! 2. The complex according to claim 1, characterized in that the AWP group includes the AWP of the enterprise’s chief manager, economist and sales manager, and the AWP — terminals with scanners for reading bar codes installed on geographically separated production areas of the enterprise, and KUVTO are made in the form forms of technical specifications for the manufacture of the product, with barcodes printed on each of them, identifying the technical specifications, the basic component, each of the list of basic technological operations for manufacturing the product, acceptance the clinical control of the outcome of each of the responsible

Description

The utility model relates to the field of automation of production management, in particular to computer tools for accounting for the production process of an enterprise and can be used in small-scale production of commercial products, such as commercial special vehicles.

The use of computer tools in production management is a significant resource for improving the efficiency of manufacturing products, especially in small-scale production of a variety of commercial products.

This is the well-known system for managing production (see RF patent for utility model No. 17641, G06F 17/60, 2001), built on the basis of several automated workstations (AWS) - personal computers integrated into a local area network and working with a single database located on the hard disk of the file server, and allowing you to quickly create and analyze a dynamic picture of the state of production.

However, the creation of a picture of the state of production on the monitors of the workplaces of the technologist, dispatcher, executor, storekeeper, economist and manager in the form of event and / or task logs for each of the five stages - “application for production”,

“Technological assignment”, “completed operations”, “acceptance of technical control” and “warehouse” are characterized by an insufficiently high degree of automation of maintaining entries in the indicated journals that display production processes in dynamics, due to the need to generate them (manual and interface) by each of the listed participants in production management.

A well-known automated control system for real-time production of products by customers' orders at the enterprise (see RF patent for utility model No. 43384, G06F 17/60, 2005), containing a system database with information on technological routes, information on resource consumption rates and duration each production operation, and the pre-determined dependence of the technological route indicators on the values of the volume of finished products, cost of production costs and production volumes; a subsystem for planning production volumes and sales of finished products and resource requirements; a subsystem for planning a production schedule; and a subsystem for monitoring the state of production.

Despite the fact that this system is the result of increased automation of production management, it is too enlarged and complicated to apply to the needs of small-scale production, because in particular, in the subsystem for monitoring the state of production, registration tools are provided with a predetermined frequency on each of the sections of technological routes, including input means in the form of local automated control systems for workshops and production facilities. In addition, this system is designed for a metallurgical enterprise.

A similar analogue is known (a method of electronic recording of movement of resources in organizations) with automation tools in the form of resource movement accounting cards with barcodes, an automated workstation for registering movement of resources — a personal computer connected to the organization’s computer server and a scanner for reading barcodes of movement accounting cards resources (see application for invention No. 2007109340, G07C 3/00, 2008).

In this analogue, also, despite the fact that the listed automation tools are close to the composition of the claimed utility model, the hardware-software complex of automated accounting, according to the applicant, they cannot be selected as a prototype, because similarly to the subsystem for monitoring the state of production in the previous analogue (see RF patent No. 43384), they are intended not for manufacturing products, but for the movement of resources during production with passive automated data collection in a reduced form from the point of view of technical performance in connection with the execution of another ( fragmentary in relation to the accounting of the production process) utilitarian task.

In connection with the above, in accordance with the rules of design, the applicant chose the description form and formulas of the claimed utility model - without a prototype.

The problem that the proposed utility model is aimed at is the optimization of automation of the production process accounting in the conditions of small-scale production in the manufacture of a variety of commercial products in a dedicated permanent production area.

To achieve the specified technical result, the proposed hardware-software complex

automated accounting of the enterprise’s production process, which is a workstation group having some of them equipped with scanners for reading barcodes, connecting the entire group to the enterprise’s network server equipped with a software product for real-time electronic registration of barcodes printed on accounting cards execution of technological operations (KUVTO), processing of digital information as a result of reading these barcodes and presenting processed digital information to the specified workstations in ide, providing an opportunity for rapid assessment of the efficiency of the production process, characterized in that it is built on a system of parallel streams through KUVT embodying all stages of the production process and comprising for this purpose in each card accounting set barcode identifying the basic technological operation of the production process.

In a private version of the proposed complex, the AWP group includes the AWP of the enterprise’s chief manager, economist and sales manager, and the AWP — terminals with barcode scanners installed on geographically separated production areas of the enterprise, and KUVTO are made in the form of technical specifications for the manufacture of the product, with barcodes printed on each of them identifying the technical task, the basic component, each of the list of the main technological operations of manufacturing the product, ku technical monitoring result of each of the main responsible of process steps and overall acceptance of products made of technical control in general, and supplemented cards with bar codes identifying performers

technological operations and executors of technical control acceptance, and a tablet-card with barcodes located on each geographically remote production site identifying the viewer with the contractor's technical task, as well as the beginning and end of each technological operation.

Figure 1 shows the structural block diagram of the inventive hardware-software complex automated accounting of the production process of the enterprise; figure 2 - block diagram of the algorithm for reading the executor of technological operations barcodes on paper media interactive feedback information on the workstation - terminal of the production site; figure 3 is an example implementation of KUVTO with barcodes in the form of technical specifications; figure 4 is an example implementation of the identification card of the executor of technological operations or the executor of the acceptance of technical control with a bar code; figure 5 is an example implementation of a tablet card for reading the actions indicated in it in the form of bar codes by process executors at the workstation - terminal of the production site; Figures 6 and 7 are samples, respectively, of the accounting form for the economist and the reporting form for the general manager, automatically prepared in the enterprise server for reading barcodes on paper media of interactive feedback on the workstation terminal of the production site.

The proposed hardware-software complex for automated accounting of the production process of an enterprise (car factory) contains 1 enterprises connected to the server (computer network of the car factory) equipped with a software product (based on the program - 1C: Enterprise. Version 8.1), AWP

chief manager 2, economist 3 and sales managers 4, as well as 5 performers of technological operations and technical control acceptance with scanners 6 for reading barcodes located (one at a time) on AWP (terminals) production sites (see Fig. 1).

At the same time, the production site is equipped with a card-tablet 7 with bar codes for the operational registration by executors of technological operations of the beginning and end of their execution (see Fig. 5). And the executor of technological operations or the executor of the acceptance of technical control is equipped with an identification card 8 with a bar code (see Fig. 4) and on a paper technical specification 9 with bar codes (see Fig. 3).

The functioning of the proposed hardware-software complex is as follows.

The executor of technological operations in accordance with the reading algorithm (see figure 2) using a scanner 6 as part of the workstation 5 at the production site reads the barcode of card 8 for identification (see figure 4), barcodes of the tablet card 7 (see figure 5) to register the viewing of the technical task and the start of the given main technological operation with the subsequent registration of the end of its execution and bar codes of the technical task 9 (see figure 3) to identify the task itself and this main technological operation.

And the performer of the technical control acceptance also with the help of the scanner 6 (see figure 1) reads the barcode of card 8 for identification (see figure 4) and the barcodes of technical specifications 9 (see figure 3) for registration of acceptance technical control of the result of the implementation of this responsible core technological

operations or general acceptance of the manufactured special vehicle as a whole (to expand the operational capabilities of registering the general acceptance of the manufactured vehicle, the barcode for its identification is duplicated on the tablet card 13 (see Fig. 5)).

Digital signals for reading these barcodes from AWP 5 are sent to the car factory 1 server, where they are processed using a software product, acquiring the accounting form (see Fig. 6) for the economist users and the reporting form (see Fig. 7) for user - the chief manager of the car factory, and the specified users arrive at the workstation (see figure 1).

As a result, the proposed utility model makes it possible to provide an operational assessment of the efficiency of the production process at a car plant with a large number of products of an ever-changing assortment in the conditions of small-scale production at the same working site of the production site by increasing the productivity of automated tools for recording interactively the manufacturing conditions of commercial special vehicles on car factory.

Claims (2)

1. The hardware-software complex for automated accounting of the enterprise’s production process, which is a group of automated workstations (AWS), which has a part of them equipped with barcode readers, connecting the entire group to a network server of the enterprise equipped with a software product for electronic registration real-time barcodes printed on accounting cards for technological operations (KUVTO), digital information processing as a result of reading these barcodes and presenting processed digital information on the specified workstation in the form that provides the possibility of an operational assessment of the efficiency of the production process, characterized in that the complex is built on an end-to-end system of parallel KUVTO streams that reflect all stages of the production process and that contain a set of bar codes in each accounting card, identifying the main technological operations of the production process. 2. The complex according to claim 1, characterized in that the AWP group includes the AWP of the enterprise’s chief manager, economist and sales manager, and the AWP — terminals with scanners for reading bar codes installed on geographically separated production areas of the enterprise, and KUVTO are made in the form forms of technical specifications for the manufacture of the product, with barcodes printed on each of them, identifying the technical specifications, the basic component, each of the list of basic technological operations for manufacturing the product, acceptance technical control of the result of each of the critical process operations and the general acceptance of the technical control of the manufactured product as a whole, and are supplemented by cards with barcodes identifying process operations executors and technical control acceptance performers, and a tablet-card placed on each geographically remote production site barcodes identifying the actions performed: viewing by the contractor of the technical task, as well as registering them on the beginning and completion of the main technological operation.