RU66287U1 - MOBILE REPAIR AND DIAGNOSTIC COMPLEX - Google Patents

Abstract

The invention relates to relocatable repair bodies for monitoring, diagnosing maintenance and repairing complex technical systems in their places of operation.

The repair and diagnostic complex includes a self-propelled vehicle 1 and the body of a repair shop 2 mounted on it with the ability to move, in which life-support equipment 3, communication equipment 4, navigation aids 5, processing equipment 6, a set of spare parts 7 and an integrated system 8 are placed management of maintenance and repair processes. The control system consists of a computer - server 9 and a portable computer 13, which plays the role of a terminal, connected with it by an interface bus for remote access. The structure of the server 9 includes a database of reference data 10, a database of catalog data 11 on the serviced system and a database 11 of operational and repair documentation. The computer 13 of the remote terminal is equipped with a set of modular measuring instruments 14 and modular shapers of test effects 15, combined with the computer 13 in a portable diagnostic system. When carrying out maintenance and repair of complex products, the remote terminal computer 13 with a set of modular devices is placed directly at the components of the serviced product, while the remote set plays the role of a remote client location and provides personnel with access to the databases on server 9, as well as remote control and diagnostic system.

The invention provides improved quality of maintenance and repair of complex technical systems and reduced requirements for the level of qualification of repair personnel.

Description

The invention relates to the field of repair and maintenance of complex technical systems (including weapons systems and military equipment), in particular to relocated repair bodies for monitoring, diagnostics, maintenance and repair of complex technical systems in their places of operation.

Known relocated repair bodies, including self-propelled chassis, on which the body of the repair shop is located with equipment for maintenance and repair of complex products (Auth. Certificate. USSR No. 397862, class 60 R 3/14, 1971; RU patent No. 2057559, class B 60 Р 3/14, 1992; Authenticated certificate of the USSR No. 227863, 60 Р 3/14, 1967; RU patent No. 2003519, 60 Р 3/14, 1992; RU patent No. 33066, B 60 P 3/14. 2003).

The closest in technical essence to the invention is a mobile repair and diagnostic complex (mobile repair workshop) according to Patent RU No. 225805, 60 P 3/14, 3/345, 2003. This mobile repair and diagnostic complex, adopted as a prototype, contains self-propelled vehicle with a body of a repair shop installed on it, in which technological jobs are installed, equipped with technological tools and equipment according to the profile of the work to be performed on the serviced product, means life support, communications, navigation and topographic bindings, a set of spare property and accessories according to the profile of the product being serviced, a removable protective tent with fastening elements.

The advantage of this version of the mobile RDK, adopted as a prototype, is the speed of work on the control, diagnostics, maintenance and repair of complex technical systems (including military hardware systems) at the places of their operation, in the absence of developed infrastructure. The disadvantages of this option RDK are:

1) the dependence of the quality and completeness of the work on the qualifications of the repair personnel;

2) insufficient efficiency of the work, especially in the absence of a complete set of operational documentation and repair documentation (which occurs due to wear and tear during the operation of IWT systems);

3) low productivity due to the complexity of the coverage of all functional and structural relationships of the serviced product. The technical result from the use of the invention is:

1) improving the efficiency and quality of the maintenance and repair of complex systems (including military hardware systems) in the field of their operation;

2) increase in labor productivity;

3) reducing the total costs of various types of resources, as well as reducing the dependence of the quality of work on the skill level of repair personnel.

The specified technical effect is achieved by the fact that the mobile repair and diagnostic complex containing a self-propelled vehicle and

the body of the repair shop fixed on it with the ability to move, equipped with life support, communication, navigation and topographic location tools, technological workplaces, technological equipment, spare parts and accessories according to the profile of the product being serviced, a removable protective tent with fastening elements, additionally contains an integrated automated process control system and resources (ACS PR) based on a computer with a database of reference data on serviced technologies located in its memory systems, a catalog database of the components of serviced technical systems, a database of an electronic archive of operating and repair documentation on serviced technical systems, a database of spare property, materials and accessories as part of RDK and in sets of serviced products, a remote terminal for an automated workstation (AWP ) for monitoring and diagnostics of the components of a serviced technical system, connected by a remote access channel to a computer of the built-in ACS PR, p In this case, before leaving RDK for a specific type of work on a specific technical system, documents on the profile of this system are loaded into the ACS PR databases, upon arrival at the work site, the remote terminal is located at the work site directly at the serviced component of the product, and the terminal is equipped with measuring modules and modules for generating stimulating effects, connected to the corresponding points of the controlled components of the serviced and repaired technical systems .

Figure 1 shows the structural diagram of a mobile RDK.

The mobile RDK contains a self-propelled vehicle 1 and a body 2 of a repair shop fixed on it with the ability to move, which contains life support equipment 3, communication equipment 4, navigation and topographic equipment 5, technological workplaces and equipment 6, a set of spare parts 7, automated process and resource management system (ACS PR) 8, including a computer 9 with reference data base 10 stored in its memory, catalog database 11 and database 12 of the electronic archive of operational x and repair documents, a remote terminal 13 is connected to the computer 9 through the remote access channel, including measuring modules 14 and stimulating effect generation modules 15 connected to the corresponding points of the controlled components of the serviced technical system 16. The mobile RDK of FIG. 1 operates in following modes:

1) preparation for departure to the place of operation of the serviced technical system;

2) transportation to the place of work on the ASEZ;

3) transfer of RDK from transport to working position;

4) inspection and maintenance;

5) monitoring the technical condition and troubleshooting;

6) restoration of serviceability of the serviced system;

7) management of minimum reserves attached to the serviced system.

Before leaving for the place of operation of the serviced technical system, the mobile RDK of Fig. 1 is prepared for upcoming work on a specific sample (instance) of the technical system.

Preparation of the RDK includes the following technological procedures:

1) loading into the reference database 10 of the built-in ACS of PR 8 information on the procedure for servicing and repairing the component parts of the product, on the attached spare parts sets and control and diagnostic equipment (including the built-in monitoring system for the serviced product), on the characteristic technical parameters and identifiable technical conditions of the components , on the necessary composition of the RDK technological equipment, the composition of the repair spare parts and accessories of the RDK, etc .;

2) loading into the catalog database 11 a complete set of electronic documents on the hierarchical structure of the components, their characteristics, their appearance, possible replacement options, etc .;

3) loading into the database of the electronic archive of 13 electronic forms of operational and repair documentation for the serviced product and its components (including data on previous work, the composition of spare parts, etc.);

4) installation of sets of replaceable technological equipment 6 and a set of repair spare parts 7 for this product in a mobile RDK (based on information from the reference database 10 previously loaded

in ACS PR 8 and viewed using the remote terminal 13);

5) the completion of the remote terminal 13 with interchangeable measuring modules 14 and modules for generating stimulating effects 15 in accordance with the composition of the forthcoming work on the product 16;

6) bringing the entire set of equipment RDK figure 1 in the transport position.

In the route of the RDK, figure 1 periodically determines its current location using navigation and topographic location 5 and transmits its coordinates and information about the technical condition to the territorial service center using communication means 4.

Upon arrival at the place of work (to the location of the serviced product 16), the RDK equipment of Fig. 1 is transferred from the transport to the working position. The remote terminal 13 with the necessary set of interchangeable measuring modules 14 and stimulating action generation modules 15 is moved from the body of the repair shop 2 to the places of work on the components of the product 16 (including inside the housings of the components of the product 16). The computer 9 of the built-in ACS PR 8 remains part of the body of the repair shop 2. Two-way communication between the remote terminal 13 and the computer 9 is via a remote access channel, which can be implemented, for example, using a flexible interface cable, using an RF or optical communication line.

In the process of inspection and maintenance using the remote control 13, the RDK staff of figure 1 refers to the databases 10, 11 and 12 to clarify the sequence of actions (including in the event of emergency situations), as well as to quickly find the necessary tool, spare parts and materials (both as part of the RDK, and as part of a serviced product). This ensures an increase in labor productivity, quality of maintenance work and reduces the dependence of the quality of work on the qualifications of staff. Upon completion of each type of work, the service personnel, using the remote control 13, enter into the ASUN PR 8 actual data on the work performed for subsequent documenting of the results of the work. At the end of the cycle of work on the inspection and maintenance of the ACS, PR 8 issues to terminal 13 an indication of the transition to other activities or gives a hint about the missed procedures. Thanks to this, the completeness, quality and efficiency of the maintenance of complex technical systems at the places of their operation is increased.

Similarly, the control of the technical condition and diagnostics of malfunctions of the components of the serviced product are carried out. Based on the reference information from the databases 10 and 12, the sequence of checking the technical condition of the product 16 is specified. Using the built-in and attached control tools from the product kit 16, parameters that are outside the tolerances and indicate the presence of malfunctions in the individual components of the product 16. are identified. component points

of the product 16, the corresponding measuring modules 14 and the stimulating effect generation modules 15 included in the set of the remote terminal 13 (which in this case plays the role of the remote means of monitoring and diagnostics of the component part of the product 16) are connected. From computer 9, the corresponding diagnostic program is called to terminal 13, under the control of which a fault is diagnosed in the component part of the product 16 to the level of the replaceable unit. Fault diagnosis is based on a combination of the capabilities of the built-in control system from the composition of the product 1 6 and the functionality of the additional (external to the product 16) diagnostic tool - based on the remote terminal 13, equipped with sets of modules 14 and 15.

Tips from the reference database 10 and the database of operational documentation 12, issued at the request of RDK personnel to the remote terminal 13, can reduce the duration of monitoring the technical condition and troubleshooting. This saves product technical life and reduces troubleshooting time.

The restoration of modern complex technical systems (in particular - weapons and military equipment) at the places of their operation is carried out by the aggregate method. A faulty replaceable element detected as a result of troubleshooting using the remote terminal 13 is removed from the product. Information about it using the terminal 13 is entered into the computer 8 for the subsequent management of minimum reserves. Based on the appeal from the remote control 13 to the reference database 10, RDK repair personnel are instructed

about the location of the serviceable replacement element of the same type as the failed one (serviceable replacement element can be used from the spare part ZIP-O of item 16 or from the repair spare part 7). Serviceable SC is installed at the appropriate place in the product 16, and information about it through the remote terminal 13 is recorded in the reference database 10. The technical condition of the product 16 is repeated (using the built-in product monitoring tools and with the necessary use of the remote terminal 13, equipped with modules 14 and fifteen). The fact of restoring the operability of the product 16 is established, about which, using the remote control 13, the corresponding data is entered into the computer 8 (for documenting the results of the work) and in the reference database 10 (for maintaining statistical data on the TOR of this sample of the product 16).

To ensure the required level of readiness of the product 16, it is necessary to constantly maintain a predetermined level of irreducible stocks of property, materials and accessories used during the TOR of the operated product. This is provided by:

1) periodic check of the stock of spare parts and accessories, which is carried out by RDK staff using access to the reference database 10 using the remote terminal;

2) rechecking replaceable elements from the ZIP-O part of product 16 using technological equipment 6, which is part of the repair shop 2 (rechecking of expired batteries with expired shelf life);

3) repair of faulty solar cells (including those identified in the composition of the product of failed solar cells, as well as solar cells from the spare parts, which expired);

4) return of solar cells with a restored resource to the spare parts and accessories of the serviced product;

5) by identifying the deficit (as a result of the current expenditure of reserves during the ASEZ), forming, as part of ACS PR 8, an application for replenishment of reserves to fill the deficit.

Thus, due to the introduction of the ACC of FIG. 1, additional ACS of PR 8, including a computer 9 with databases 10, 11 and 12, as well as a remote terminal 13 with sets of modules 14 and 15, achieves the technical result from the application of the invention, namely:

1) increases the completeness, efficiency and quality of work on the ASEZ of complex technical systems (in particular, weapons and military equipment) at the places of their operation;

2) increases the labor productivity of repair personnel by reducing unproductive time losses (when performing work in sequence and based on prompts received from ACS PR 8 through the remote terminal 13);

3) the costs of material and human resources necessary to maintain a given level of readiness of the serviced systems are reduced, and the dependence of the quality of work on ASEZs on the level of qualification of repair personnel is reduced (because lack of knowledge

It is compensated by reference information from the database 10, catalog information from the database 11, information on operational and repair documentation from the database 12) that is promptly provided upon request.

The implementation of the invention is based on the use of technical solutions of the existing technical level.

As components 1, 2, ..., 7, technical means are used that are similar to the technical means of the same name used as part of well-known analogues and prototypes.

The automated process and resource management system 8 introduced into the RDC of FIG. 1 is a specialized built-in automated information system designed to solve the above-mentioned problems of managing technological processes of TOR of complex technical systems at their locations, as well as the tasks of managing the set of resources of TOR.

The built-in ACS of PR 8 is built on the basis of computer 8 located in the body of the repair shop 2 and connected to the power supply network of the repair shop 2. As computer 8, a serial computer is used — a server with average characteristics, made taking into account the requirements for the equipment, transported inoperative and designed to stay in the temperature range from minus 40 ° С to plus 60 ° С (taking into account the climatic zone of application of RDK). Climatic conditions during the operation of computer 9 are provided by means of life support 3 and an awning,

which is included in the repair shop 2. enclosure. An operating system is installed on computer 9 (for example, one of the Linux class OS versions) and the corresponding standard database management system (DBMS) that supports maintaining databases in the form of symbolic and graphic information. The computer 9 with an internal interface bus is connected to the automated technological workstations included in the set of technological equipment 6 of the RDK of FIG. 1. The computer kit, in addition to the system unit, includes a monitor, printer, manipulator (such as a “mouse”, “joystick” or similar), made according to the corresponding stiffness group — designed for transportation in an inoperative state.

The connection of the computer 8 with the remote terminal 13 when the remote terminal is removed up to 100 m can be via Ethernet (Fast Ethernet) cable, as well as via a wireless interface channel (for example, using the technology “W _i -F _i ” or “W _i MAX”, international standards 802.11 or 802.16). As a remote terminal, a serial “laptop” type portable computer equipped with appropriate sets of modular devices can be used. Serial modular devices of domestic and foreign manufacture (for example, modules of a digital oscilloscope, logic analyzer, RF signal power meter, programmable pulse generator, programmable RF generator, etc.) designed for connection to the corresponding standard interface bus (PCI, VME, VXI bus). Specified Modules Together

A portable automated system for monitoring and diagnosing the component parts of the product will be formed with a portable computer 16. In addition, due to the connection of the portable computer acting as a portable terminal 13, an information system based on the client-server architecture is formed through the interface channel with computer 8 (server) . Such an organization, when staffing the server 8 and laptop 13 with the appropriate application software, allows you to implement the whole range of previously considered functional tasks for managing the TOR processes of a complex technical system 16, as well as for effectively managing the entire set of resources used when carrying out TOR of complex technical systems on places of their deployment.

Thus, the implementation of the invention is entirely based on technical solutions that correspond to the existing technical level in the subject area of monitoring, diagnostics, maintenance and repair of complex technical systems (in particular - military hardware systems).

Claims (1)

1. A mobile repair and diagnostic complex (RDK) containing a self-propelled vehicle and a body of a repair shop fixed on it with the ability to move, equipped with life support equipment, communications, navigation and topographic location, technological workplaces, technological equipment, spare parts and accessories according to the profile of the serviced products, removable protective tent with fastening elements, characterized in that it further comprises a built-in automated control system for percent resources and resources (ACS PR) based on a computer with a database of reference data on serviced technical systems located in its memory, a catalog database on the components of serviced technical systems, a database of an electronic archive of operational and repair documentation on serviced technical systems, a database of spare property , materials and accessories as a part of RDK and in sets of serviced products and a remote terminal of an automated workstation (AWS) for monitoring and diagnostics with parts of the serviced technical system connected by a remote access channel to the computer of the built-in ACS of the PR, while before leaving the RDK for carrying out a specific type of work on a specific technical system, documents on the profile of this system are loaded into the databases of the ACS of the PR, upon arrival at the place of work, a remote terminal is located at the place of work directly at the serviced component of the product, and the terminal is equipped with measuring modules and modules for generating stimulating effects d, connected to the corresponding points of the controlled components of the serviced and repaired technical system.