KR20050092608A - Aircraft loading device testing management system - Google Patents

Abstract

The present invention relates to a vehicle-mounted equipment test operation system, and more particularly, to a vehicle-mounted equipment test operation system that works with a plurality of test devices connected to the equipment for checking the function of the equipment mounted on the aircraft. A schedule and operation setting module for receiving a database and a schedule and operation setting data consisting of execution time, type of inspection, and inspection items for performing a function check of a vehicle-mounted equipment, and storing the data in the database; A function checking module for generating an inspection routine according to the schedule and operation data stored by the schedule and operation setting module and applying operation command data to the corresponding test device; and the test according to the application of the schedule and operation setting data and the operation command data. Report the results of the device The data display module for displaying in the form of a graph and the data flow and storage between the above-described modules as a whole, and the schedule and operation setting data stored in the database are transferred to the function check module and the check received from the test apparatus. The present invention relates to a vehicle-mounted equipment test operation system composed of a control module that performs a function of transmitting a result to a data display module.

According to the present invention, in conjunction with the test devices for testing the equipment mounted on the aircraft, the operator collectively controls the schedule and operation commands of the test devices, and also collects and outputs the test result data, the aircraft is mounted There is an advantage to improve the efficiency of the equipment test.

Description

Aircraft Loading Device Testing Management System

The present invention relates to a vehicle-mounted equipment test operation system that allows the operator to collectively control the schedule and operation commands of the test devices in conjunction with the test devices for testing the equipment mounted on the aircraft.

In general, before the test flight of the aircraft after the manufacture of the aircraft to check the operation of the equipment mounted on the aircraft to determine whether there is an abnormality, the aircraft equipped equipment to enable the repair and replacement of the equipment in the event of an error Testing is mandatory.

In order to test such a vehicle-mounted equipment, conventionally, the test apparatus is connected to the check terminals provided in the vehicle-mounted equipment, and the test result data transmitted from each test apparatus is collected, and the normal operation of each on-board equipment is performed based on the data. Determine whether or not.

However, since there is no system that can collectively control the operation and the result collection of each test device in this conventional case, the operator has to operate each test device and order the test of the onboard equipment one by one. The test results transmitted should be collected and analyzed by the operator.

Therefore, it is difficult to obtain a test result that is time-consuming and reliable when performing the test on the aircraft mounted equipment, and it is true that it is difficult to determine the abnormality by using the test result data unless it is an operator with expert knowledge in the analysis.

Therefore, there is an urgent need to develop a vehicle-mounted equipment test operation system that can control the operation of each test device according to the needs of the operator when testing the vehicle-mounted equipment, and as a result, facilitate the collection and output of data. It is becoming.

The present invention was devised in this background, and interlocked with test devices for testing equipment mounted on a vehicle, collectively controlling schedule and operation setting commands of test devices, and easily collecting and outputting test result data. By providing a vehicle-mounted equipment test operation system, the object is to improve the efficiency and reliability of the vehicle-mounted equipment test.

In order to achieve the above object, the present invention, in the aircraft equipped equipment test operation system that interoperates with a plurality of test devices connected to the equipment for checking the function of the equipment mounted on the aircraft, the database and the aircraft mounted A schedule and operation setting module for receiving a schedule and operation setting data consisting of execution time, inspection type, and inspection items for performing a function check of the equipment and storing them in the database, and stored by the schedule and operation setting module. A function check module that generates an inspection routine according to schedule and operation data and applies operation command data to the corresponding test device, and reports and charts the inspection result of the test device according to the application of the schedule and operation setting data and the operation command data. Or display in graph form A data display module, a self-diagnosis module for applying a self-diagnosis performance command signal to each of the modules and the test equipment through real-time and reservation setting so as to determine whether the above-described modules and the test equipment have software abnormalities. It controls the data flow and storage between each module as a whole, and transmits the schedule and operation setting data stored in the database to the function check module and the check result received from the test device to the data display module. It consists of a control module.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art can easily implement the present invention in detail.

First, in adding reference numerals to components of each drawing, the same components are described so as to have the same reference numerals as much as possible even if displayed on different drawings.

1 is a block diagram showing an application state of a vehicle-mounted equipment test operation system according to a preferred embodiment of the present invention.

As shown, each of the equipment 20 mounted on the aircraft 10 is provided with a check terminal for checking whether the normal operation, the test terminal (test device for performing the test of the on-board equipment 20) 30 are respectively connected.

The vehicle-mounted equipment test operation system 100 is interlocked with the test apparatuses 30 and the wired / wireless communication network 40 to transmit operation setting and command data to each test apparatus 30 and perform the test when performing the test. It receives data about the result and processes it.

FIG. 2 is a block diagram showing the configuration of the vehicle-mounted equipment test operation system 100 shown in FIG. 1, and as shown in FIG. 2, a vehicle-mounted equipment test operation system 100 according to a preferred embodiment of the present invention. To the database 160, the external interface module 150, the schedule and operation setting module 110, the self-diagnosis module 120, the function check module 130, the data display module 140 and the control module 101. Is done.

The external interface module 150 transmits / receives data so that data can be exchanged through the wired / wireless communication network 40 with each of the test apparatuses 30 connected to each other to check the function of the equipment 20 mounted on the vehicle 10. By performing the interface function, it performs a function to enable real-time interworking with each test equipment (30).

The schedule and operation setting module 110 receives a schedule and operation setting data such as an execution time, an inspection type, and an inspection item for performing a function inspection of the aircraft-mounted equipment 20 from a worker and stores the data in the database 160. Do this.

In this case, the execution time may be set in real time or in a reservation, and in the case of a reservation, a period may be input. In addition, the inspection type means the type of the vehicle-mounted equipment 20 to be inspected, that is, a communication system, an imaging system, a navigation system, a servo motor system, an electric propulsion system, etc., and the inspection item is a sub-detail inspection item of each system to be inspected. Means to specify in advance.

The self-diagnosis module 120 performs a real-time input or reservation setting of the operator so that the modules 101 to 160 in the vehicle-mounted equipment test operation system 100 and the software abnormality of each of the connected test equipments 30 can be identified. It performs a function of applying a self-diagnosis performance command signal to each module (101 ~ 160) and the test equipment (30) through.

The function check module 130 generates a test routine according to the execution time, the check type, and the check item preset by the schedule and operation setting module 110 so as to determine whether the aircraft onboard equipment 20 is abnormal. Perform a function of generating and authorizing operation instruction data to perform a check on the device 30.

In this case, the function check module 130 may operate in two modes, namely, the automatic check mode and the manual check mode. The automatic check mode is stored in the database 160 by the schedule and operation scheduling module 110. It means a mode that operates to apply the operation command data to the test device 30 according to the execution time, the type of inspection and the inspection item, the manual inspection mode receives the operation type and inspection items one by one in real time from the operator It means the mode to apply data.

The data display module 140 displays a function check, a self-diagnosis result, a schedule, an operation setting situation, and the like in a report, chart, or graph format. In this case, the data display module 140 has a function of displaying only an item in which an abnormality has occurred, a function check, a self-diagnosis performance history search, and a search function.

The control module 101 performs a function of overall control of data flow and storage between the above-described modules 110 to 160. In particular, the control module 101 checks the schedule and operation setting data stored in the database 160. 130, the result data is stored in the database 160, and when a data viewing request is received from an operator, the data is called from the database 160 and transferred to the data display module 140.

FIG. 3 is a flowchart illustrating an operation of the vehicle-mounted equipment test operation system 100 illustrated in FIG. 2, and using the vehicle-mounted equipment test operation system 100 to automatically check the monitor port of the navigation system-mounted equipment of the vehicle. It shows the process of operating the test apparatus.

1 through 3, first, the operator inputs' September 24, 2003 7:05 'as a time for performing a function check by calling the schedule and operation setting module 110, and the cycle' Enter '0', 'Navigation system' as the inspection type and 'Monitor port' as the inspection item (step: S1). This is to be stored in the database 160 (step: S2).

When the input and storage of the schedule and operation setting data is completed, the control module 101 periodically checks the scheduling stored in the database 160 and calls the function check module 130 when the corresponding date is reached. And the operation setting data (step S3).

Subsequently, the function checking module 130 generates an operation command signal by designating a routine to check the monitor port of the navigation system equipment 20a in response to the schedule and operation setting data transmitted from the control module 101 ( Step: S4), which is applied to the test device 30a connected to the navigation system equipment 20a via the external interface module 150 (step: S5).

When the function check of the monitor port item of the navigation system equipment 20a is completed according to the operation of the test apparatus 30a, the result is transmitted to the control module 101 through the external interface module 150 and the control module 101. Receives it and stores it in the database 160 (step: S6), and then displays it to the worker in the form of reports, charts and graphs through the data display module 140 (step: S7).

On the other hand, in order to inspect the monitor port items of the navigation system equipment 20a in the manual inspection mode, the operator sets the execution time in real time and inputs the inspection routine into the schedule and operation setting module 110 for inspection. .

As mentioned above, although preferred embodiments of the present invention have been described in detail, those of ordinary skill in the art to which the present invention pertains should realize the present invention without departing from the spirit and scope of the present invention as defined in the appended claims. It will be appreciated that various modifications or changes can be made. Accordingly, modifications to future embodiments of the present invention will not depart from the technology of the present invention.

As described above, according to the present invention, the operator collectively controls the schedule and operation commands of the test apparatuses in conjunction with the test apparatuses for testing the equipments mounted on the aircraft, and easily collects and outputs the test result data. Therefore, there is an advantage that can improve the efficiency of the test vehicle equipped equipment.

1 is a block diagram showing an application state of a vehicle-mounted equipment test operation system according to a preferred embodiment of the present invention.

FIG. 2 is a block diagram showing the configuration of a vehicle-mounted equipment test operation system shown in FIG. 1.

FIG. 3 is a flowchart showing the operation of the vehicle-mounted equipment test operation system shown in FIG. 2.

<Description of the symbols for the main parts of the drawings>

10: aircraft

20: mounted equipment

30: test device

40: communication network

100: test vehicle system

101: control module

110: schedule and operation setting module

120: self diagnostic module

130: function check module

140: data display module

150: external interface module

160: database

Claims (3)

In a vehicle-mounted equipment test operation system that interoperates with a plurality of test devices that are connected to the equipment for checking the function of the equipment mounted on the aircraft, database; A schedule and operation setting module configured to receive a schedule and operation setting data consisting of execution time, inspection type, and inspection items for performing a function check of the onboard vehicle, and store the data in the database; A function check module for generating an inspection routine according to the schedule and operation data stored by the schedule and operation setting module and applying operation command data to a corresponding test device of the test device; A data display module configured to display the schedule and operation setting data and an inspection result of the test apparatus according to the application of the operation command data in a report, chart or graph form; Overall control of data flow and storage between the modules, and transfers the schedule and operation setting data stored in the database to the function check module, and delivers the check result received from the test device to the data display module Test vehicle system equipped with a vehicle, characterized in that it comprises a control module for performing a function. The test vehicle according to claim 1, wherein the inspection type is a type of a system of a device for checking a function among the equipment mounted on the vehicle, and the inspection item is a detailed inspection item of each system. system. The self-diagnosis module according to claim 1, further comprising a self-diagnosis module for applying a self-diagnosis performance command signal to each of the modules and the test equipment through real-time and reservation setting to identify whether the modules and the test equipment have software abnormalities. Vehicle mounted equipment test operation system, characterized in that it further comprises.