CN103955360A - Configuration system and control method of vehicle-mounted monitoring device - Google Patents

Abstract

A monitoring device configuration system and control method include a monitoring reporting device, a monitoring display device, a configuration information database device, an alarm threshold device, a file configuration device, a parameter configuration device, and a communication device; the output end of the communication device is connected to the parameter configuration device, The data output end of the file configuration device is connected to the data input end of the parameter configuration device, the data output end of the parameter configuration device is connected to the data input end of the configuration information database device, and the data output end of the configuration information database device is respectively connected to the data input device of the alarm threshold device , the data input end of the monitoring display device, the data input end of the monitoring reporting device, the monitoring software configuration system and method of the present invention have good compatibility and expansibility.

Description

A vehicle monitoring device configuration system and control method

technical field

The invention relates to a monitoring system and a control method, in particular to a vehicle-mounted monitoring system and a control method.

Background technique

The function and system complexity of vehicle equipment systems are increasing day by day. Based on the consideration of vehicle operation safety and work safety, the monitoring of vehicle working process is becoming more and more important, and the requirements for various diagnostic devices and methods are also increasing.

Vehicle-mounted equipment systems are used in different engineering backgrounds, and a large number of electronic sensing and control devices need to be installed in the system to monitor the vehicle's working status and information in the working mode. Since different applications use different sensing and control devices, the configuration and setting of a general monitoring system cannot be realized. For each function of the vehicle system, a technical method needs to be developed and designed separately. If a technical method is to be applied to another vehicle-mounted system, the monitoring system must be redeveloped and designed, which cannot meet the requirements for compatibility and scalability.

Contents of the invention

The purpose of the present invention is to provide a configuration system and control method for a vehicle monitoring device, which are used to solve the technical problems related to the compatibility and scalability of the vehicle monitoring system.

A monitoring device configuration system and control method include a monitoring reporting device, a monitoring display device, a configuration information database device, an alarm threshold device, a file configuration device, a parameter configuration device, and a communication device; the output end of the communication device is connected to the parameter configuration device, The data output end of the file configuration device is connected to the data input end of the parameter configuration device, the data output end of the parameter configuration device is connected to the data input end of the configuration information database device, and the data output end of the configuration information database device is respectively connected to the data input device of the alarm threshold device , the data input end of the monitoring and display device, and the data input end of the monitoring and reporting device.

The monitoring and reporting device is used to judge the monitored information and configuration status, and generate information in a specific format;

The monitoring and display device is used to display the current monitoring information to the user in real time, including two parts: a graphic display method and a data display method, and then completes the setting of various parameters through the monitoring and display device;

The configuration information database device is used to maintain and record system configuration information and monitoring and alarm information;

The method for setting and judging the alarm by the alarm threshold device;

The file configuration device is used to provide the description of parameters used for configuration and the storage and modification of attribute values;

The parameter configuration device controls selection and modification of monitoring parameters;

The communication device is used to connect the communication device of the system. Including communication protocol format, device type selection, communication rate selection and other parameters.

The workflow of the vehicle-mounted monitoring device configuration method of the present invention comprises the following steps:

S1, start the initialization monitoring device configuration system;

S2. Start the configuration information database device to complete the setting of communication parameters;

S3, read the file configuration device setting information, and judge whether the configuration information needs to be updated again; if so, turn to S4, otherwise turn to S5;

S4, read new configuration information from the file configuration device, and modify the monitoring status;

S5. The monitoring and display device displays monitoring parameters;

S6, judging whether to trigger an alarm, if so, turn to the monitoring and reporting device, if not, turn to the monitoring and displaying device;

S7. Determine whether to end the system operation, if yes, go to end, if not, go to S3.

The communication parameters described in step S2 include: device type number, device channel number, communication protocol format, communication rate selection, and data encoding format.

The monitoring parameters described in step S5 include: leveling system left and right level sensors, support system pressure sensors, oil temperature control system sensors, hydraulic system oil return pressure and oil suction pressure sensors, top cover mechanism switch information, fault alarm information identification, Engine control system speed sensor.

The beneficial effect is that the vehicle-mounted monitoring device configuration system and method of the present invention have the new characteristics of being compatible with the old system and expanding new functions, and the vehicle-mounted monitoring software configuration system and method realized by the present invention have good system compatibility, which is reflected in: through the configuration information The conversion function of the database device C can match the vehicle-mounted equipment systems and corresponding functions of different models and hardware configurations, and can ensure stable work under different monitoring functions; the present invention realizes the scalability of the vehicle-mounted monitoring software configuration system and method Embodied in: for the vehicle-mounted equipment system with newly added hardware configuration, the configuration of the parameter information of the software corresponding to the newly added hardware configuration can be generated by configuring the information database device C, so as to realize the new monitoring function without re-developing new monitoring Configure the system. Therefore, the vehicle monitoring software configuration method has new features of being compatible with old systems and extending new functions.

The vehicle-mounted monitoring device configuration system and method of the present invention will be further described below in conjunction with the accompanying drawings.

Description of drawings

Fig. 1 is a block diagram of the vehicle monitoring device configuration system;

Fig. 2 is a workflow of the control method based on the configuration system of the on-vehicle monitoring device.

Detailed ways

As shown in Figure 1, the monitoring device configuration system of the present invention includes a monitoring reporting device A, a monitoring display device B, a configuration information database device C, an alarm threshold device D, a file configuration device E, a parameter configuration device F, and a communication device G; The output end of G is connected with the parameter configuration device F, the data output end of the file configuration device E is connected with the data input end of the parameter configuration device F, the data output end of the parameter configuration device F is connected with the data input end of the configuration information database device C, and configuration The data output end of the information database device C is respectively connected to the data input device of the alarm threshold device D, the data input end of the monitoring display device B, and the data input end of the monitoring reporting device A.

The monitoring and reporting device A is used to judge the monitored information and configuration status, and generate information in a specific format;

The monitoring and display device B is used to display the current monitoring information to the user in real time, including two parts, the graphic display method and the data display method, and complete the setting and setting of various parameters through the monitoring and display device B;

The configuration information database device C is used for maintaining and recording system configuration information and monitoring and alarm information;

The alarm threshold device D is used for setting and judging the method for alarming;

The file configuration device E is used to provide the description of parameters used for configuration and the storage and modification of attribute values;

The parameter configuration device F controls the selection and modification of monitoring parameters;

The communication device G is used to connect the communication devices of the system.

After the communication device G is started, the monitoring parameter information is read into the parameter configuration device F by the file configuration device E, and the parameter information to be monitored is determined and input into the configuration information database device C in real time. The configuration information database device C resides in the monitor hardware and maintains global hardware information and monitoring information. The configuration information database device C outputs the information to be monitored and displayed to the monitoring display device B according to the monitoring function, and at the same time passes the monitoring report in the form of a monitoring report. Reporting device A outputs a copy of the monitor display. The monitoring parameter information in the configuration information database device C is transmitted to the alarm threshold device D as an input, and the alarm threshold device D outputs an over-limit alarm.

As shown in Figure 2, the workflow of the control method based on the vehicle monitoring device configuration system includes the following steps:

S1, start the initialization monitoring device configuration system;

S2. Start the configuration information database device C to complete the setting of communication parameters;

S3, read the setting information of the file configuration device E, and judge whether the configuration information needs to be updated again; if so, turn to S4, otherwise turn to S5;

S4, read new configuration information from the file configuration device E, and modify the monitoring status;

S5. The monitoring and display device B displays monitoring parameters;

S6. Determine whether an alarm is triggered, if yes, turn to monitoring and reporting device A, if not, turn to monitoring and displaying device B;

S7. Determine whether to end the system operation, if yes, go to end, if not, go to S3.

After the system is initialized, the user sets the communication parameters according to the requirements and starts the communication. Then, according to the status of the vehicle at that time, select the parameters that need to be monitored. After the selection is completed, the system will automatically read the corresponding configuration and set up the monitoring interface. When the vehicle has an alarm, the system will automatically record the alarm content and alarm time.

Perform communication configuration before starting monitoring, and enter the monitoring interface after completion to select the parameters to be monitored (the parameters that can be monitored mainly include the left and right level sensors of the leveling system, pressure sensors of the support system, sensors of the oil temperature control system, oil return pressure of the hydraulic system and oil suction Pressure sensor, top cover mechanism switch information, fault alarm information identification, engine control system speed sensor, etc.), the parameters come from the configuration information database device C in Figure 2, which includes the configuration information and monitoring and alarm information of the maintenance and recording system Content. After the parameter configuration is completed, you will officially enter the main monitoring window. When the vehicle has an alarm, the system will prompt whether to perform real-time diagnosis and record the alarm.

The main problems to be solved in practical applications include obtaining the parameters of each control system and target components in the vehicle, recording and processing through the software system, making judgments on the vehicle status, and triggering an alarm. The method of realization is: during the working process of the vehicle, each state parameter is sent to the software configuration system in real time through the network, and the software configuration system compares and stores the data information matching the parameter, and displays it to the user in real time. While recording, the judgment system judges the state of the vehicle according to the algorithm and the alarm threshold of the vehicle parameters. In the over-limit alarm state, it extracts the data from the configuration database, triggers the diagnosis prompt, and generates the monitoring alarm status report of the vehicle.

The vehicle-mounted monitoring device configuration system and control method realized by the present invention have good system compatibility, which is reflected in: through the conversion function of the configuration information database device C, the vehicle-mounted equipment systems and corresponding functions of different models and hardware configurations can be matched. And can guarantee stable work under different monitoring functions; The present invention realizes the extensibility of vehicle-mounted monitoring software configuration system and method and is embodied in: for the vehicle-mounted equipment system that adds hardware configuration newly, can produce corresponding to by configuration information database device C The configuration of the software parameter information of the newly added hardware configuration realizes the new monitoring function without re-developing a new monitoring configuration system. Therefore, the vehicle monitoring software configuration method has new features of being compatible with old systems and extending new functions.

The above-mentioned embodiments are only descriptions of preferred implementations of the present invention, and are not intended to limit the scope of the present invention. Variations and improvements should fall within the scope of protection defined by the claims of the present invention.

Claims (5)

1. A monitoring device configuration system and control method including a monitoring reporting device (A), a monitoring display device (B), a configuration information database device (C), an alarm threshold device (D), a file configuration device (E), and a parameter configuration device (F), communication device (G); the output end of the communication device (G) is connected to the parameter configuration device, the data output end of the file configuration device (E) is connected to the data input end of the parameter configuration device (F), and the parameter configuration The data output end of the device (F) is connected to the data input end of the configuration information database device (C), and the data output end of the configuration information database device (C) is respectively connected to the data input device of the alarm threshold device (D) and the monitoring display device (B ), the data input end of the monitoring and reporting device (A). 2. The monitoring device configuration system according to claim 1, wherein the monitoring reporting device (A) is used to judge the monitored information and configuration status, and generate information in a specific format; The monitoring and display device (B) is used to display the current monitoring information to the user in real time, including two parts, the graphic display method and the data display method, and then complete the setting of various parameters through the monitoring and display device (B); The configuration information database device (C) is used to maintain and record system configuration information and monitoring and alarm information; The alarm threshold device (D) is used for setting and judging the alarm method; The file configuration device (E) is used to provide description of parameters used for configuration and storage and modification of attribute values; Said parameter configuration means (F) controls the selection and modification of monitoring parameters; The communication device (G) is used to connect the communication devices of the system. 3. The workflow of the vehicle-mounted monitoring device configuration method of the present invention comprises the following steps: S1, start the initialization monitoring device configuration system; S2. Start the configuration information database device (C), for completing the setting of communication parameters; S3. Read the setting information of the file configuration device (E), and judge whether the configuration information needs to be updated again; if so, turn to S4, otherwise turn to S5; S4. Read new configuration information from the file configuration device (E), and modify the monitoring status; S5. The monitoring display device (B) displays monitoring parameters; S6. Determine whether an alarm is triggered, if yes, transfer to the monitoring reporting device (A), if not, transfer to the monitoring display device (B); S7. Determine whether to end the system operation, if yes, go to end, if not, go to S3. 4. The monitoring device configuration system according to claim 3, wherein the communication parameters described in step S2 include: device type number, device channel number, communication protocol format, communication rate selection, and data encoding format. 5. The monitoring device configuration system according to claim 3, wherein the monitoring parameters described in step S5 include: leveling system left and right levelness sensors, support system pressure sensors, oil temperature control system sensors, hydraulic system return Oil pressure and oil suction pressure sensor, top cover mechanism switch information, fault alarm information identification, engine control system speed sensor.