RU2282940C2 - Complex system for controlling status of product from remote station - Google Patents

Abstract

FIELD: complex system for controlling status of product, mounted on mobile platform, meant for gathering data about said product and for transmission of accumulated information to users.

SUBSTANCE: system consists of server, positioned on moving carrier, at least one source of product status data and means of two-directional communication between aforementioned server and remote station, while server, mounted on moving carrier, is leading assembly for web-page with data about product, means of access to which contains portal, and leading assembly for portal is an external server, positioned remotely from moving carrier.

EFFECT: possible realization of remote diagnostics of product by manufacturer, servicing organization, or operator, using the product.

17 cl, 1 dwg

Description

FIELD OF THE INVENTION

The present invention relates to a comprehensive Internet portal and a microserver control system for monitoring a commissioned product.

State of the art

There are three main types of product maintenance. These include maintenance upon request (usually this occurs when the product fails), scheduled maintenance (due to the manufacturer’s standards, according to which the period after which the trouble-free operation of the product is no longer possible), and maintenance based on operational conditions (carried out with the greatest exhaustion by the product of its resource, but before its failure). The essence of maintenance on the application is obvious: the element is out of order and requires repair or replacement. Usually this is the result of the operator’s ignorance of the product’s service life or operating conditions and is fraught with serious labor and time. Unfortunately, this type of maintenance is the most common. Scheduled maintenance is less costly, but can be very uneconomical. Depending on the operating conditions, it happens that the elements whose life is far from exhausted are replaced. This option is connected with issues, the solution of which is increasingly entrusted to a consumer experiencing a shortage of financial resources, which often leads to the choice of the first option mentioned above, sometimes with catastrophic consequences of such a step as a result. The third type of maintenance is carried out according to operating conditions, which, as the “Grail”, are resorted to when performing maintenance in many industries. If the manufacturer or service organization is able to accurately determine the duration of the maximum service life of an element based on its actual wear, life and operating conditions, this will subsequently allow for optimal and timely maintenance and replacement of this element, thereby giving the consumer the opportunity to make the most of the product’s resource and plan replacement activities for a period of time when the product has not yet failed. As a result, the manufacturer of the product, relying on maintenance under operating conditions, is better able to plan the production of spare parts and save millions of dollars due to the absence of unnecessary surpluses of such products, requiring storage space and entailing the cost of maintaining stock.

However, the condition of the latter type of maintenance is the availability of a closed information system focused on the analysis of information on the operation of each product. Without reliable information about the condition of the product after its purchase and installation in the unit, the manufacturer or service organization has no real way to assess the future wear of the elements according to the operating parameters. Thus, it remains possible to return to the above types of maintenance. People engaged in the operation of products are better than others able to collect this information with the highest degree of reliability. But most of them are too burdened by the operation of the equipment and profit from the use of the product, and also do not have the time, money and / or personal inclination to try to fix this information and convey it to the manufacturer or service organization, although this would serve their own interests.

Various methods have been tested to collect valuable information from the places where the products were used. When operating equipment of a low level of complexity as primary elementary measures of this kind, there was a study of the opinions of consumers, filling out feedback forms by them, and interacting with the technical support service. In the operation of more complex and expensive products, such as aircraft engines, the most common record is the recording of operational features on paper in the form of operational logs. A similar method of collecting information on the operation is not convenient and rather laborious. For many years, attempts to simplify the procedure through a system of collecting information using computers (computers) have not stopped. But, however, and this still requires significant human intervention.

The latest achievement here is the integration of products with automated data recording devices, such as engine data recording units used for gas turbine engines, where communication with electronic engine control systems is established and operating parameters are recorded using various sensors. However, collecting information from such devices is still extremely difficult and expensive, since for this mechanics have to perform manual operations at the place of use using special equipment or portable personal computers (PCs) such as laptops with cable connections, the staff are not trained enough to work with them or are interested this is not so high. It remains only to rely on the delivery of the product back to the factory floor for radical inspection and repair, and the data on the condition and operation of the product will already become useless from the point of view of failure prevention and will remain interesting only from the perspective of analyzing failures and malfunctions that have already occurred or a picture of average statistics Park equipment work.

In a number of industrial sectors, the source of information about the operation and condition of products is usually the audit conducted by personnel, and only recently, along with planned and unscheduled calls to the service department, they began to use laptop PCs for diagnostic purposes. Usually, there are two ways to do this: sending personnel to service the product at the place of operation and delivering the product to a service center, or both. The first method is applicable when servicing stationary equipment such as elevators, heating, ventilation and air conditioning systems, nuclear power plants, large-sized household appliances. The second method serves cars, small household appliances, consumer electronics, lawn mowers and other products whose dimensions do not interfere with delivery to a service center. Both methods are not efficient and entail long-term equipment downtime.

Currently, under the influence of progress in the field of low-cost automation, wireless technology and the Internet, companies have turned to the possibility of remote data collection on the work and condition of products in an automated mode.

From US patent No. 6263268 (the closest analogue of the invention) there is known a comprehensive system for monitoring from a remote location the status of the product put into operation on a mobile medium, comprising a server installed on a mobile medium, at least one source of product status data associated with the server, and means of two-way communication of the server and the remote point. Many systems that use high-frequency components, cell phones or wireless methods of transmitting data to ground stations have a very high cost due to attempts to use advanced technologies to solve the same problem - archiving files and transferring them to a remote central control point through departmental networks , public networks or the Internet to unzip the data and analyze it by the operator. The result is a situation where high costs limit the ability to use wireless remote control systems for expensive products such as jets and helicopters. Thus, there remains a need for low-cost wireless systems to assess the condition of an installed product, relying on data on its actual wear, life and operating conditions with the transmission of this information to consumers, manufacturers, operators or any other interested users, and with the possibility of deploying such systems together with products for a more flexible interaction than is the case with conventional data transfer.

SUMMARY OF THE INVENTION

Accordingly, the aim of the present invention is to provide an inexpensive and reliable integrated system for monitoring the status of a commissioned (installed) product, collecting product data and providing information to interested users.

Another objective of the present invention is the creation of the above integrated system for conducting remote diagnostics of the product by the manufacturer, service organization or operator operating the product.

Also, the aim of the present invention is to provide the above integrated system, comprising a means of collecting information about the commissioned product on a mobile carrier (platform), such as a vehicle.

Another objective of the present invention is the creation of the above integrated system for two-way communication with a mobile product after its sale to the customer and when used in the field.

The above objectives are achieved using the integrated system in accordance with the present invention.

The present invention provides an integrated system for monitoring from a remote location the state of an article put into operation on a movable medium. The system is designed to collect information (data) about the product and to disseminate product data in general and contains a server installed on a movable medium, at least one source of data on the status of the product and a means of two-way communication between the server and the remote location. The server can be a stand-alone device or embedded in part of another component of the product. The difference between the system and the closest analogue is that the server installed on the mobile medium is the leading node for the web page with product data, the access means of which contain the portal, and the leading node for the portal is an external server located far from the mobile media and connected to a server installed on a mobile medium via said two-way communication medium.

In accordance with the present invention, the system can be used to solve a wide range of problems, including for monitoring, collecting product data and for disseminating the collected information about the product, system or component installed on an aircraft, automobile, sea vessel, spacecraft, or any other removable media.

Other elements of the system in accordance with the present invention, as well as the objectives and advantages associated with the invention, are disclosed in the detailed description and the attached drawing.

List of figures and other materials

The drawing schematically shows an integrated system for monitoring and control, data collection and dissemination of information about the commissioned product in accordance with the present invention.

Information confirming the possibility of carrying out the invention

The drawing shows a system 10, designed to control the commissioned (installed) product, to collect data about the product and to provide the collected information to interested users. The system is also capable of monitoring and restricting access of interested users to data arrays, and can also store data or integrate them with the product itself, as is the case with firmware updates. Because of its use in relation to the specified system, the term “commissioned product” (“installed product”) refers to a wide range of objects and can mean any product, element or installation (system) of a vehicle. For example, an installed product may mean a propulsion system of a vehicle, a compartment of a vehicle, or a braking system thereof.

The system 10 comprises a server 12 located on a movable medium (platform) 14 and connected to at least one data source about the specified commissioned product. The movable carrier 14 may be a ship, an airplane, a spaceship, a car, a train, or any other moving object or vehicle. Server 12 can monitor the status of the installed product and / or collect data about it in a number of ways. For example, the server 12 can be connected or combined with the storage device 16 of the vehicle (mobile medium), which contains information about the installed product. The data source may include product image acquisition means located on a mobile medium, for example, server 12 can be connected to a video camera 18, such as a web camera, for real-time or time-lapse image acquisition of an article. The data source may include means for reading at least one product parameter, for example, the server 12 can be connected to a number of sensors 20, such as vibration or temperature sensors, to obtain additional information about the status of the installed product or the nature of the environment around the product.

Programming the server 12 can be performed in any of the languages known to specialists in order to collect data about the installed product and transmit it to interested users in the desired format. For example, a server can act as a host (hosting) of a web page, i.e. server 12 may provide hosting for a web page with information about one or more products installed on a mobile medium. This web page can have a menu with which an interested subscriber will be able to access the collected data about a particular installed product. Presentation of data on the product (s) on the server can be carried out in the desired format or form. Server 12 may also be programmed to perform user diagnostic procedures on the product (s) and / or to update software associated with the product (s).

Since the system 10 in accordance with the present invention was created mainly to provide remote users with access to product information, mechanics and engineers may also need to access the server 12 while the mobile carrier 14 is on board. For this category of users, a local server can be provided A USB port providing access to the specified server or other communication port 22 for direct connection. Access to the server 12 for mechanics and engineers can be provided by connecting their laptop PCs or other devices, such as a video borescope or barcode reader, through communication port 22. Other examples of communication ports for accessing server 12 include wireless channels communication between peers of the network. Then, a mechanic or engineer will be able to carry out diagnostic procedures and even eliminate a malfunction in the product.

Server 12 may be equipped with any suitable computing machine or processor known in the art. In a preferred embodiment of the invention, the server 12 is a small-sized microserver with a Linux operating system. Also, server 12 can have its own web address, a firewall and security system protocols that are known only to a narrow category of users, for example, the manufacturer of the installed product.

In accordance with the present invention, interested users can access the server 12 through the portal 24 and the Internet or the global system of nodes for storing hypertext documents. For this purpose, the server 12 can have an integrated communication device, such as a modem, for connecting the server 12 to the portal 24. The communication device can provide communication in the radio frequency range, for example, cellular communications, satellite communications, or wireless communication between the server 12 and the portal 24. Additionally The communication of the server 12 with the portal 24 can be organized via an optical communication channel, for example, through an infrared channel.

The hosting for portal 24 is provided by an external server, which can be any server known in the art. The server hosting the portal 24 is also equipped with suitable communication tools built into it for accessing the server 12 and vice versa.

The data collected on server 12 can, if desired, be uploaded to portal 24. For example, server 12 can be programmed in such a way that data will be periodically uploaded to a server where hosting for portal 24 is available, or data about special events such as like boarding an airplane or arriving at a train or car at a destination. The server 12 can also provide data to the portal 24 when the switch is pressed by an operator located on a movable medium. Alternatively, the portal server can send data to the microserver. This data may contain updates for the programs built into the product or technical manuals available to interested users.

Portal 24 can be equipped with a number of software tools called utility tools for automatic analysis, organization, and sorting of data coming from server 12. Sorting is carried out in such a way that different data arrays are available to different categories of users. For example, one of the categories is made up of existing and potential customers of the product supplier company, and a certain category of data is available to them, while the engineering and design personnel, forming a different category of users, have access to other types of information. As follows from the above discussion, the portal 24 is very flexible in determining how and to whom to transmit information. The portal 24 also forms a virtual space that is accessible to various users for messaging, and provides collective access to information about the installed product for technical support engineers, operators and even product designers. Portal 24 can also be adapted for conducting chats between users, for supporting electronic bulletin boards and online teleconferences, where communication is established between interested users.

One of the advantages of using portal 24 is the ability to operate in a secure and web-based environment with a user-friendly interface. Representatives of a certain category of users are allowed to the portal when entering an identification name and / or password and gain access to current information about the installed product. Another advantage of using the portal 24 is the ability to upload to the server 12 data, information, instructions, operational and diagnostic software. Thus, diagnostic tests can be carried out by an engineer from a remote location via the Internet.

Access to the portal 24 can be carried out in a number of different ways and using a variety of devices, the description of which is given below. For example, an interested user can establish a connection with the portal 24 using his / her own personal computer 38, on which a web browser (web browser) is installed. Computer 38 may be part of a workstation in a user's office or be a laptop or desktop PC in a user's home. Access to the portal 24 is even possible from an Internet cafe through a computer 40. A means of access to the portal 24 directly from the workshop of the manufacturer of the product may be a wireless tablet PC 36. Communication with the portal 24 can also be established via an internal computer network 30 manufacturer or supplier of the installed product. When connecting the portal 24 to the network 30, a data pipeline can be used in the interests of users who need automated information exchange. If desired, a wireless “handheld” computer (PDA) can also become a means of accessing the portal 24 from the institution’s internal network.

The configuration of the system 10 may be such that access to the server 12 is also possible directly from the internal network 30 of the institution via the Internet when entering the web address of the specified server. In the case of such a configuration, a firewall may be installed between the internal network 30 and the server 12 as a firewall.

As follows from the above description, the system 10 in accordance with the present invention is quite applicable for solving a wide range of problems. For example, as indicated above, the system 10 can be used by an engineer of the product manufacturer to access the server 12 to perform diagnostic procedures or eliminate a specific malfunction in the installed product. The engineer can carry out all these operations from a remote location when the movable carrier 14 is in the process of movement, thereby eliminating the need to deliver the product back to the manufacturer for diagnosis and repair.

System 10 can also be used to determine the status of an installed product. A dispatcher, for example, managing a squad of aircraft and having a network 30 at his disposal, can establish a connection with a server 12 on a specific aircraft, either directly or through a portal 24 to determine the location of the aircraft and assess the condition of this aircraft. There is another possibility when the manufacturer of the jet engine can access the server 12 through its own network either directly or through the portal 24 to assess the condition of the jet engine or its individual node in order to find out when it may be necessary to maintain the engine as a whole or its a separate unit, as well as to collect information on the average performance of a particular product and the operating parameters of the aircraft fleet as a whole for further design improvements si and improve the quality of maintenance. This will allow the manufacturer to spend less on measures for warranty service and maintenance of equipment due to wear and tear of the latter, as well as the production of spare parts.

The advantages of the system in accordance with the present invention include the simplicity and low cost of its installation on a vehicle. For example, server 12 can be installed in the aircraft cabin using standard control ports derived from the engine / glider of the aircraft.

Claims (17)

1. An integrated system for monitoring from a remote location the status of the product put into operation on a mobile medium, comprising a server installed on a mobile medium, at least one source of product status data associated with the server, and means for two-way communication between the server and the remote location characterized in that the server installed on a mobile medium is the leading node for the web page with product data, the access means to which contain the portal, and the leading node for the portal is external a server located remotely from the mobile medium and connected to a server installed on the mobile medium through said two-way communication means. 2. The system according to claim 1, characterized in that at least one source of product status data contains a means for obtaining product images. 3. The system according to claim 1, characterized in that at least one source of product status data comprises means for reading at least one product parameter. 4. The system according to claim 1, characterized in that at least one source of data on the status of the product is a storage device of a movable medium. 5. The system according to claim 1, characterized in that it further comprises a local USB port providing direct access to said server. 6. The system according to claim 1, characterized in that the server mounted on a movable medium is portable. 7. The system according to claim 1, characterized in that the means of two-way communication is a component of a server installed on a mobile medium. 8. The system according to claim 1, characterized in that the means of two-way communication is wireless. 9. The system according to claim 1, characterized in that the means of two-way communication is made in the form of radio communications. 10. The system according to claim 1, characterized in that the means of two-way communication is made in the form of means of optical communication. 11. The system according to claim 1, characterized in that the web page has a menu for invoking a specific procedure, and the portal is equipped with means for sorting data by user category. 12. The system according to claim 1, characterized in that the portal is equipped with a means of downloading at least one array of data and instructions to a server installed on a mobile medium. 13. The system according to claim 1, characterized in that it further comprises an internal network and means of direct communication between the internal network and the server installed on a mobile medium via the Internet. 14. The system according to any one of claims 1 to 13, characterized in that the carrier vehicle is a land vehicle. 15. The system according to any one of claims 1 to 13, characterized in that the mobile carrier is an aircraft. 16. The system according to any one of claims 1 to 13, characterized in that the product is a movable carrier element. 17. The system of clause 15, wherein the product is an engine or compartment of an aircraft.