CN114180096B - Maintenance and detection method for airborne products - Google Patents

Abstract

The application belongs to the technical field of maintenance and detection of airborne products, and particularly relates to a maintenance and detection method of airborne products.

Description

Maintenance and detection method for airborne products

Technical Field

The application belongs to the technical field of maintenance and detection of airborne products, and particularly relates to a maintenance and detection method of airborne products.

Background

The airborne products are various in variety and complex in function, such as a flight control system, an aircraft power supply electrical system, an aircraft brake system, an aircraft avionics system and the like, and have a self-maintenance detection function, but the maintenance detection of the airborne products is carried out based on the current technical scheme, so that the accurate positioning of maintenance detection faults of the airborne products is difficult to realize quickly and effectively, the overall maintenance detection efficiency of the aircraft is affected, and the requirement of quick movement of the aircraft cannot be met.

The present application has been made in view of the above-described technical drawbacks.

It should be noted that the above disclosure of the background art is only for aiding in understanding the inventive concept and technical solution of the present application, which is not necessarily prior art to the present patent application, and should not be used for evaluating the novelty and creativity of the present application in the case where no clear evidence indicates that the above content has been disclosed at the filing date of the present application.

Disclosure of Invention

It is an object of the present application to provide a method for on-board product maintenance inspection that overcomes or alleviates at least one of the known technical drawbacks.

The technical scheme of the application is as follows:

an on-board product maintenance detection method comprising:

The man-machine interaction interface responds to external input and sends an airborne product maintenance detection instruction to the monitor;

After a predetermined time is delayed after the man-machine interaction interface sends an airborne product maintenance detection instruction to the monitor, judging whether the information of communication faults with the airborne product sent by the monitor is received or not;

If the man-machine interaction interface receives the information of the communication failure with the airborne product sent by the monitor, the information of the communication failure with the airborne product is displayed, otherwise, whether the information of the communication failure with the airborne product sent by the monitor is received or not is judged, and maintenance detection information is not allowed;

If the man-machine interaction interface receives the maintenance impermissible detection information of the airborne product sent by the monitor, displaying the maintenance impermissible detection information of the airborne product, otherwise, judging whether abnormal information of maintenance detection instructions of the airborne product sent by the monitor is received;

If the man-machine interaction interface receives the abnormal information of the maintenance detection instruction of the airborne product, which is sent by the control, the abnormal information of the maintenance detection instruction of the airborne product is displayed, otherwise, whether the maintenance detection information of the airborne product, which is sent by the monitor, is received or not is judged;

If the man-machine interaction interface receives the maintenance detection information of the airborne product sent by the monitor, judging whether the maintenance detection fault information of the airborne product sent by the monitor is received, if not, judging whether the maintenance detection information of the airborne product sent by the monitor is not received by the man-machine interaction interface and exceeds the monitoring timeout time, if so, displaying the maintenance detection monitoring timeout information of the airborne product, otherwise, judging whether the communication fault information of the airborne product sent by the monitor is received by the man-machine interaction interface again;

if the man-machine interaction interface receives the maintenance detection fault information of the airborne product sent by the monitor, the maintenance detection fault information of the airborne product is displayed, otherwise, whether the maintenance detection overtime information of the airborne product sent by the monitor is received is judged;

If the overtime information of the maintenance detection of the airborne product sent by the monitor is received, the overtime information of the maintenance detection of the airborne product is displayed, otherwise, whether the normal information of the maintenance detection of the airborne product sent by the monitor is received is judged;

If the man-machine interaction interface receives the normal information of maintenance and detection of the airborne product sent by the monitor, displaying the normal information of maintenance and detection of the airborne product, otherwise, judging whether the normal information of maintenance and detection of the airborne product sent by the monitor is not received by the man-machine interaction interface and exceeds the monitoring timeout time, if so, displaying the time-out information of maintenance and detection of the airborne product, otherwise, judging whether the information of communication failure between the man-machine interaction interface and the airborne product sent by the monitor is received again;

After receiving the maintenance detection instruction of the airborne product sent by the man-machine interaction interface, the monitor continuously sends the maintenance detection instruction of the airborne product to the airborne product for a plurality of times, and continuously judges whether the communication with the airborne product is faulty or not in the period;

if the monitor continuously sends an airborne product maintenance detection instruction to the airborne product for a plurality of times, if the communication with the airborne product fails, sending information of the communication failure with the airborne product to the man-machine interaction interface, otherwise, judging whether the information of the maintenance detection of the airborne product sent by the airborne product is received or not;

if the monitor receives the on-board product maintenance detection information sent by the on-board product, the on-board product maintenance detection information is sent to the man-machine interaction interface, whether communication with the on-board product fails or not is continuously judged in the period, otherwise, whether the on-board product maintenance detection information sent by the on-board product is received or not is judged to be not allowed;

If the monitor receives the maintenance detection information which is sent by the airborne product and is not allowed by the airborne product, the maintenance detection information which is not allowed by the airborne product is sent to the man-machine interaction interface, otherwise, abnormal information is received by the maintenance detection instruction of the airborne product is sent to the man-machine interaction interface;

If the monitor sends maintenance detection information of the airborne product to the man-machine interaction interface, if the communication failure between the monitor and the airborne product occurs, the monitor sends communication failure information of the airborne product to the man-machine interaction interface, otherwise, whether maintenance end information of the airborne product sent by the airborne product is received is judged;

If the monitor receives the maintenance end information of the airborne product sent by the airborne product, judging whether maintenance detection result information sent by the airborne product is received, otherwise, judging whether the maintenance end information of the airborne product sent by the airborne product is not received by the monitor and exceeds the end timeout time, if so, sending the maintenance end timeout information of the airborne product to the man-machine interaction interface, and if not, judging whether the maintenance end information of the airborne product sent by the airborne product is received again;

If the monitor receives information of an airborne product maintenance detection result sent by an airborne product, sending information of an airborne product maintenance detection normal to the man-machine interaction interface when the airborne product maintenance detection result is normal, and sending information of an airborne product maintenance detection fault to the man-machine interaction interface when the airborne product maintenance detection result is abnormal;

After the airborne product continuously receives the airborne product maintenance detection instruction sent by the monitor for a plurality of times, judging whether the condition for carrying out airborne product maintenance detection is met;

If the airborne product does not meet the condition for carrying out maintenance detection of the airborne product, the airborne product is not allowed to carry out maintenance detection, and the airborne product is sent to the monitor, otherwise, the airborne product maintenance detection is started, the airborne product is sent to the monitor to carry out maintenance detection until the airborne product maintenance detection is finished, the airborne product maintenance detection finishing information is sent to the monitor, and the airborne product maintenance detection result information is sent.

According to at least one embodiment of the present application, in the method for detecting maintenance of an airborne product, after the man-machine interaction interface delays for a predetermined time after sending an airborne product maintenance detection command to the monitor, judging whether the information of communication failure with the airborne product sent by the monitor is received, specifically:

And after delaying for 200ms after the man-machine interaction interface sends the maintenance detection instruction of the airborne product to the monitor, judging whether the information of the communication fault with the airborne product sent by the monitor is received.

According to at least one embodiment of the present application, in the method for detecting maintenance of an airborne product, the step of judging whether the information of maintenance detection of the airborne product sent by the monitor is not received by the man-machine interface exceeds the monitoring timeout time, if yes, displaying the information of maintenance detection and monitoring timeout of the airborne product, otherwise, judging whether the information of communication failure with the airborne product sent by the monitor is received by the man-machine interface again is specifically:

Judging whether the man-machine interaction interface does not receive the on-board product maintenance detection information sent by the monitor for more than 12s, if so, displaying on-board product maintenance detection monitoring overtime information, otherwise, judging whether the man-machine interaction interface receives the on-board product communication fault information sent by the monitor.

According to at least one embodiment of the present application, in the method for detecting maintenance of an airborne product, the step of determining whether the normal information of maintenance and detection of the airborne product sent by the monitor is not received by the man-machine interface exceeds the monitoring timeout period, if yes, displaying the monitoring timeout information of maintenance and detection of the airborne product, otherwise, re-determining whether the failure information of communication with the airborne product sent by the monitor is received by the man-machine interface, specifically includes:

Judging whether the man-machine interaction interface does not receive the maintenance detection normal information of the airborne product sent by the monitor for more than 12 seconds, if so, displaying maintenance detection monitoring overtime information of the airborne product, otherwise, judging whether the man-machine interaction interface receives the communication fault information of the airborne product sent by the monitor again.

According to at least one embodiment of the present application, in the method for detecting maintenance of an airborne product, after the monitor receives an airborne product maintenance detection instruction sent by the man-machine interface, the monitor sends the airborne product maintenance detection instruction to the airborne product continuously for a plurality of times, and judges whether communication with the airborne product is faulty, specifically:

And after receiving the maintenance detection instruction of the airborne product sent by the man-machine interaction interface, the monitor continuously sends the maintenance detection instruction of the airborne product to the airborne product three times, and judges whether the communication with the airborne product is faulty.

According to at least one embodiment of the present application, in the method for detecting maintenance of an airborne product, the judging monitor does not receive the information of the maintenance end of the airborne product sent by the airborne product and exceeds the end timeout time, if yes, the information of the maintenance end timeout of the airborne product is sent to the man-machine interface, if no, it is again judged whether the information of the maintenance end of the airborne product sent by the airborne product is received, specifically:

And judging whether the monitor does not receive the airborne product maintenance detection end information sent by the airborne product and sent by the airborne product for more than 10s, if so, sending the airborne product maintenance detection end timeout information to the human-computer interaction interface, and if not, judging whether the airborne product maintenance end information sent by the airborne product is received again.

Drawings

FIG. 1 is a schematic diagram of an on-board product maintenance and inspection method provided by an embodiment of the present application;

FIG. 2 is a schematic diagram of a man-machine interface according to an embodiment of the present application;

FIG. 3 is a schematic diagram of the operation of a monitor provided by an embodiment of the present application;

Fig. 4 is a schematic diagram of maintenance detection of an on-board product according to an embodiment of the present application.

For the purpose of better illustrating the present embodiment, certain elements of the drawings may be omitted, enlarged or reduced and do not represent the size of the actual on-board product; further, the drawings are for illustrative purposes, wherein the terms describing the positional relationship are limited to the illustrative description only and are not to be construed as limiting the present patent.

Detailed Description

In order to make the technical solution of the present application and its advantages more clear, the technical solution of the present application will be further and completely described in detail with reference to the accompanying drawings, it being understood that the specific embodiments described herein are only some of the embodiments of the present application, which are for explanation of the present application and not for limitation of the present application. It should be noted that, for convenience of description, only the part related to the present application is shown in the drawings, and other related parts may refer to the general design, and the embodiments of the present application and the technical features of the embodiments may be combined with each other to obtain new embodiments without conflict.

Furthermore, unless defined otherwise, technical or scientific terms used in the description of the application should be given the ordinary meaning as understood by one of ordinary skill in the art to which the application pertains. The terms "upper," "lower," "left," "right," "center," "vertical," "horizontal," "inner," "outer," and the like as used in the description of the present application are merely used for indicating relative directions or positional relationships, and do not imply that the devices or elements must have a specific orientation, be constructed and operated in a specific orientation, and that the relative positional relationships may be changed when the absolute position of the object to be described is changed, thus not being construed as limiting the application. The terms "first," "second," "third," and the like, as used in the description of the present application, are used for descriptive purposes only and are not to be construed as indicating or implying any particular importance to the various components. The use of the terms "a," "an," or "the" and similar referents in the description of the application are not to be construed as limiting the amount absolutely, but rather as existence of at least one. As used in this description of the application, the terms "comprises," "comprising," or the like are intended to cover an element or article that appears before the term as such, but does not exclude other elements or articles from the list of elements or articles that appear after the term.

Furthermore, unless specifically stated and limited otherwise, the terms "mounted," "connected," and the like in the description of the present application are used in a broad sense, and for example, the connection may be a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can also be communicated with the inside of two elements, and the specific meaning of the two elements can be understood by a person skilled in the art according to specific situations.

The application is described in further detail below with reference to fig. 1 to 4.

An on-board product maintenance detection method comprising:

The man-machine interaction interface responds to external input and sends an airborne product maintenance detection instruction to the monitor;

After a predetermined time is delayed after the man-machine interaction interface sends an airborne product maintenance detection instruction to the monitor, judging whether the information of communication faults with the airborne product sent by the monitor is received or not;

If the man-machine interaction interface receives the information of the communication failure with the airborne product sent by the monitor, the information of the communication failure with the airborne product is displayed, otherwise, whether the information of the communication failure with the airborne product sent by the monitor is received or not is judged, and maintenance detection information is not allowed;

If the man-machine interaction interface receives the maintenance impermissible detection information of the airborne product sent by the monitor, displaying the maintenance impermissible detection information of the airborne product, otherwise, judging whether abnormal information of maintenance detection instructions of the airborne product sent by the monitor is received;

If the man-machine interaction interface receives the abnormal information of the maintenance detection instruction of the airborne product, which is sent by the control, the abnormal information of the maintenance detection instruction of the airborne product is displayed, otherwise, whether the maintenance detection information of the airborne product, which is sent by the monitor, is received or not is judged;

If the man-machine interaction interface receives the maintenance detection information of the airborne product sent by the monitor, judging whether the maintenance detection fault information of the airborne product sent by the monitor is received, if not, judging whether the maintenance detection information of the airborne product sent by the monitor is not received by the man-machine interaction interface and exceeds the monitoring timeout time, if so, displaying the maintenance detection monitoring timeout information of the airborne product, otherwise, judging whether the communication fault information of the airborne product sent by the monitor is received by the man-machine interaction interface again;

if the man-machine interaction interface receives the maintenance detection fault information of the airborne product sent by the monitor, the maintenance detection fault information of the airborne product is displayed, otherwise, whether the maintenance detection overtime information of the airborne product sent by the monitor is received is judged;

If the overtime information of the maintenance detection of the airborne product sent by the monitor is received, the overtime information of the maintenance detection of the airborne product is displayed, otherwise, whether the normal information of the maintenance detection of the airborne product sent by the monitor is received is judged;

If the man-machine interaction interface receives the normal information of maintenance and detection of the airborne product sent by the monitor, displaying the normal information of maintenance and detection of the airborne product, otherwise, judging whether the normal information of maintenance and detection of the airborne product sent by the monitor is not received by the man-machine interaction interface and exceeds the monitoring timeout time, if so, displaying the time-out information of maintenance and detection of the airborne product, otherwise, judging whether the information of communication failure between the man-machine interaction interface and the airborne product sent by the monitor is received again;

After receiving the maintenance detection instruction of the airborne product sent by the man-machine interaction interface, the monitor continuously sends the maintenance detection instruction of the airborne product to the airborne product for a plurality of times, and continuously judges whether the communication with the airborne product is faulty or not in the period;

if the monitor continuously sends an airborne product maintenance detection instruction to the airborne product for a plurality of times, if the communication with the airborne product fails, sending information of the communication failure with the airborne product to the man-machine interaction interface, otherwise, judging whether the information of the maintenance detection of the airborne product sent by the airborne product is received or not;

if the monitor receives the on-board product maintenance detection information sent by the on-board product, the on-board product maintenance detection information is sent to the man-machine interaction interface, whether communication with the on-board product fails or not is continuously judged in the period, otherwise, whether the on-board product maintenance detection information sent by the on-board product is received or not is judged to be not allowed;

If the monitor receives the maintenance detection information which is sent by the airborne product and is not allowed by the airborne product, the maintenance detection information which is not allowed by the airborne product is sent to the man-machine interaction interface, otherwise, abnormal information is received by the maintenance detection instruction of the airborne product is sent to the man-machine interaction interface;

If the monitor sends maintenance detection information of the airborne product to the man-machine interaction interface, if the communication failure between the monitor and the airborne product occurs, the monitor sends communication failure information of the airborne product to the man-machine interaction interface, otherwise, whether maintenance end information of the airborne product sent by the airborne product is received is judged;

If the monitor receives the maintenance end information of the airborne product sent by the airborne product, judging whether maintenance detection result information sent by the airborne product is received, otherwise, judging whether the maintenance end information of the airborne product sent by the airborne product is not received by the monitor and exceeds the end timeout time, if so, sending the maintenance end timeout information of the airborne product to the man-machine interaction interface, and if not, judging whether the maintenance end information of the airborne product sent by the airborne product is received again;

If the monitor receives information of an airborne product maintenance detection result sent by an airborne product, sending information of an airborne product maintenance detection normal to the man-machine interaction interface when the airborne product maintenance detection result is normal, and sending information of an airborne product maintenance detection fault to the man-machine interaction interface when the airborne product maintenance detection result is abnormal;

After the airborne product continuously receives the airborne product maintenance detection instruction sent by the monitor for a plurality of times, judging whether the condition for carrying out airborne product maintenance detection is met;

If the airborne product does not meet the condition for carrying out maintenance detection of the airborne product, the airborne product is not allowed to carry out maintenance detection, and the airborne product is sent to the monitor, otherwise, the airborne product maintenance detection is started, the airborne product is sent to the monitor to carry out maintenance detection until the airborne product maintenance detection is finished, the airborne product maintenance detection finishing information is sent to the monitor, and the airborne product maintenance detection result information is sent.

For the maintenance and detection method for the airborne product disclosed by the embodiment, those skilled in the art can understand that the maintenance and detection method for the airborne product is configured with the corresponding man-machine interaction interface and the monitor thereof, triggers the maintenance and detection of the airborne product, monitors and inquires the maintenance and detection result of the airborne product, can quickly and effectively realize the accurate positioning of the maintenance and detection fault of the airborne product, ensures the overall maintenance and detection efficiency of the aircraft, and meets the requirement of quick movement of the aircraft.

In some optional embodiments, in the method for detecting maintenance of an airborne product, after the man-machine interaction interface delays for a predetermined time after sending an airborne product maintenance detection instruction to the monitor, determining whether the information of communication failure with the airborne product sent by the monitor is received, specifically:

And after delaying for 200ms after the man-machine interaction interface sends the maintenance detection instruction of the airborne product to the monitor, judging whether the information of the communication fault with the airborne product sent by the monitor is received.

In some optional embodiments, in the method for detecting maintenance of an airborne product, the determining whether the information that the man-machine interaction interface does not receive the information that the airborne product sent by the monitor is being maintained and detected exceeds the monitoring timeout period, if yes, displaying the information that the maintenance and detection of the airborne product are overtime, otherwise, re-determining whether the information that the man-machine interaction interface receives the information that the communication fault between the man-machine interaction interface and the airborne product sent by the monitor is specifically:

Judging whether the man-machine interaction interface does not receive the on-board product maintenance detection information sent by the monitor for more than 12s, if so, displaying on-board product maintenance detection monitoring overtime information, otherwise, judging whether the man-machine interaction interface receives the on-board product communication fault information sent by the monitor.

In some optional embodiments, in the method for detecting maintenance of an airborne product, the determining whether the normal information of maintenance and detection of the airborne product sent by the monitor is not received by the man-machine interface exceeds the monitoring timeout, if yes, displaying the monitoring timeout information of maintenance and detection of the airborne product, otherwise, re-determining whether the failure information of communication with the airborne product sent by the monitor is received by the man-machine interface, specifically:

Judging whether the man-machine interaction interface does not receive the maintenance detection normal information of the airborne product sent by the monitor for more than 12 seconds, if so, displaying maintenance detection monitoring overtime information of the airborne product, otherwise, judging whether the man-machine interaction interface receives the communication fault information of the airborne product sent by the monitor again.

In some optional embodiments, in the method for detecting maintenance of an airborne product, after the monitor receives an airborne product maintenance detection instruction sent by the man-machine interaction interface, the monitor sends the airborne product maintenance detection instruction to the airborne product for multiple times, and judges whether communication with the airborne product is faulty, specifically:

And after receiving the maintenance detection instruction of the airborne product sent by the man-machine interaction interface, the monitor continuously sends the maintenance detection instruction of the airborne product to the airborne product three times, and judges whether the communication with the airborne product is faulty.

In some optional embodiments, in the method for detecting maintenance of an airborne product, the determining whether the monitor does not receive the end information of maintenance of the airborne product sent by the airborne product and sent by the airborne product exceeds the end timeout time, if yes, the end timeout information of maintenance of the airborne product is sent to the man-machine interface, and if no, it is determined whether the end information of maintenance of the airborne product sent by the airborne product is received again, specifically:

And judging whether the monitor does not receive the airborne product maintenance detection end information sent by the airborne product and sent by the airborne product for more than 10s, if so, sending the airborne product maintenance detection end timeout information to the human-computer interaction interface, and if not, judging whether the airborne product maintenance end information sent by the airborne product is received again.

In the description, each embodiment is described in a progressive manner, and each embodiment is mainly described by the differences from other embodiments, so that the same similar parts among the embodiments are mutually referred.

Having thus described the technical aspects of the present application with reference to the preferred embodiments shown in the drawings, it should be understood by those skilled in the art that the scope of the present application is not limited to the specific embodiments, and those skilled in the art may make equivalent changes or substitutions to the related technical features without departing from the principle of the present application, and those changes or substitutions will fall within the scope of the present application.

Claims (6)

1. An on-board product maintenance and inspection method, comprising:

The man-machine interaction interface responds to external input and sends an airborne product maintenance detection instruction to the monitor;

After a predetermined time is delayed after the man-machine interaction interface sends an airborne product maintenance detection instruction to the monitor, judging whether the information of communication faults with the airborne product sent by the monitor is received or not;

If the man-machine interaction interface receives the information of the communication failure with the airborne product sent by the monitor, the information of the communication failure with the airborne product is displayed, otherwise, whether the information of the communication failure with the airborne product sent by the monitor is received or not is judged, and maintenance detection information is not allowed;

If the man-machine interaction interface receives the maintenance impermissible detection information of the airborne product sent by the monitor, displaying the maintenance impermissible detection information of the airborne product, otherwise, judging whether abnormal information of maintenance detection instruction receiving of the airborne product sent by the monitor is received;

If the man-machine interaction interface receives the abnormal information of the maintenance detection instruction of the airborne product, which is sent by the control, the abnormal information of the maintenance detection instruction of the airborne product is displayed, otherwise, whether the maintenance detection information of the airborne product, which is sent by the monitor, is received or not is judged;

If the man-machine interaction interface receives the maintenance detection information of the airborne product sent by the monitor, judging whether the maintenance detection fault information of the airborne product sent by the monitor is received, if not, judging whether the maintenance detection information of the airborne product sent by the monitor is not received by the man-machine interaction interface and exceeds the monitoring timeout time, if so, displaying the maintenance detection monitoring timeout information of the airborne product, otherwise, judging whether the communication fault information of the airborne product sent by the monitor is received by the man-machine interaction interface again;

if the man-machine interaction interface receives the maintenance detection fault information of the airborne product sent by the monitor, the maintenance detection fault information of the airborne product is displayed, otherwise, whether the maintenance detection overtime information of the airborne product sent by the monitor is received is judged;

If the overtime information of the maintenance detection of the airborne product sent by the monitor is received, the overtime information of the maintenance detection of the airborne product is displayed, otherwise, whether the normal information of the maintenance detection of the airborne product sent by the monitor is received is judged;

If the man-machine interaction interface receives the normal information of maintenance and detection of the airborne product sent by the monitor, displaying the normal information of maintenance and detection of the airborne product, otherwise, judging whether the normal information of maintenance and detection of the airborne product sent by the monitor is not received by the man-machine interaction interface and exceeds the monitoring timeout time, if so, displaying the time-out information of maintenance and detection of the airborne product, otherwise, judging whether the information of communication failure between the man-machine interaction interface and the airborne product sent by the monitor is received again;

after receiving the maintenance detection instruction of the airborne product sent by the man-machine interaction interface, the monitor continuously sends the maintenance detection instruction of the airborne product to the airborne product for a plurality of times, and judges whether the communication with the airborne product is faulty or not;

if the monitor continuously sends an airborne product maintenance detection instruction to the airborne product for a plurality of times, if the communication with the airborne product fails, sending information of the communication failure with the airborne product to the man-machine interaction interface, otherwise, judging whether the information of the maintenance detection of the airborne product sent by the airborne product is received or not;

If the monitor receives the on-board maintenance detection information sent by the on-board product, the on-board maintenance detection information is sent to the man-machine interaction interface, whether communication with the on-board product is faulty or not is judged, otherwise, whether the on-board maintenance detection information which is sent by the on-board product and is not allowed to be carried out by the on-board product is judged;

If the monitor receives the maintenance detection information which is sent by the airborne product and is not allowed by the airborne product, the maintenance detection information which is not allowed by the airborne product is sent to the man-machine interaction interface, otherwise, abnormal information is received by the maintenance detection instruction of the airborne product is sent to the man-machine interaction interface;

If the monitor sends maintenance detection information of the airborne product to the man-machine interaction interface, if the communication failure between the monitor and the airborne product occurs, the monitor sends communication failure information of the airborne product to the man-machine interaction interface, otherwise, whether maintenance end information of the airborne product sent by the airborne product is received is judged;

If the monitor receives the maintenance end information of the airborne product sent by the airborne product, judging whether maintenance detection result information sent by the airborne product is received, otherwise, judging whether the maintenance end information of the airborne product sent by the airborne product is not received by the monitor and exceeds the end timeout time, if so, sending the maintenance end timeout information of the airborne product to the man-machine interaction interface, and if not, judging whether the maintenance end information of the airborne product sent by the airborne product is received again;

If the monitor receives information of an airborne product maintenance detection result sent by an airborne product, sending information of an airborne product maintenance detection normal to the man-machine interaction interface when the airborne product maintenance detection result is normal, and sending information of an airborne product maintenance detection fault to the man-machine interaction interface when the airborne product maintenance detection result is abnormal;

After the airborne product continuously receives the airborne product maintenance detection instruction sent by the monitor for a plurality of times, judging whether the condition for carrying out airborne product maintenance detection is met;

If the airborne product does not meet the condition for carrying out maintenance detection of the airborne product, the airborne product is not allowed to carry out maintenance detection, and the airborne product is sent to the monitor, otherwise, the airborne product maintenance detection is started, the airborne product is sent to the monitor to carry out maintenance detection until the airborne product maintenance detection is finished, the airborne product maintenance detection finishing information is sent to the monitor, and the airborne product maintenance detection result information is sent.

2. The method for on-board product maintenance inspection of claim 1, wherein,

After a predetermined time is delayed after the man-machine interaction interface sends an airborne product maintenance detection instruction to the monitor, judging whether the information of the communication fault with the airborne product sent by the monitor is received, specifically:

And after delaying for 200ms after the man-machine interaction interface sends the maintenance detection instruction of the airborne product to the monitor, judging whether the information of the communication fault with the airborne product sent by the monitor is received.

3. The method for on-board product maintenance inspection of claim 1, wherein,

Judging whether the man-machine interaction interface does not receive the on-board product maintenance detection information sent by the monitor and exceeds the monitoring timeout time, if so, displaying the on-board product maintenance detection monitoring timeout information, otherwise, judging whether the man-machine interaction interface receives the information of communication faults between the man-machine interaction interface and the on-board product sent by the monitor, specifically:

Judging whether the man-machine interaction interface does not receive the on-board product maintenance detection information sent by the monitor for more than 12s, if so, displaying on-board product maintenance detection monitoring overtime information, otherwise, judging whether the man-machine interaction interface receives the on-board product communication fault information sent by the monitor.

4. The method for on-board product maintenance inspection of claim 1, wherein,

And if yes, displaying the maintenance detection overtime information of the airborne product, otherwise, re-judging whether the man-machine interaction interface receives the communication fault information of the airborne product sent by the monitor, and specifically:

Judging whether the man-machine interaction interface does not receive the maintenance detection normal information of the airborne product sent by the monitor for more than 12 seconds, if so, displaying maintenance detection monitoring overtime information of the airborne product, otherwise, judging whether the man-machine interaction interface receives the communication fault information of the airborne product sent by the monitor again.

5. The method for on-board product maintenance inspection of claim 1, wherein,

After receiving the maintenance detection instruction of the airborne product sent by the man-machine interaction interface, the monitor continuously sends the maintenance detection instruction of the airborne product to the airborne product for a plurality of times, and judges whether the communication with the airborne product is faulty or not, specifically comprises the following steps:

And after receiving the maintenance detection instruction of the airborne product sent by the man-machine interaction interface, the monitor continuously sends the maintenance detection instruction of the airborne product to the airborne product three times, and judges whether the communication with the airborne product is faulty.

6. The method for on-board product maintenance inspection of claim 1, wherein,

Whether the monitor does not receive the airborne product maintenance detection end information sent by the airborne product and sent by the airborne product exceeds the end timeout time is judged, if yes, the airborne product maintenance detection end timeout information is sent to the man-machine interaction interface, if not, whether the airborne product maintenance end information sent by the airborne product is received is judged again, and specifically, the method comprises the following steps:

And judging whether the monitor does not receive the airborne product maintenance detection end information sent by the airborne product and sent by the airborne product for more than 10s, if so, sending the airborne product maintenance detection end timeout information to the human-computer interaction interface, and if not, judging whether the airborne product maintenance end information sent by the airborne product is received again.