LABVIEW-based wall-hanging furnace real-time online debugging method
Technical Field
The invention relates to a wall-mounted boiler debugging method, in particular to a wall-mounted boiler real-time online debugging method based on LABVIEW.
Background
The old wall-hanging stove commissioning is a field commissioning mode. The system needs an engineer to bring a computer, a writer and other necessary tools on a business trip, and is debugged on the spot according to the influence of conditions such as actual environment temperature, gas type, air pressure and the like on the machine. When the test platform is used for the items such as real machine test, monitoring and the like, the specific feeling of a tester is taken as a test standard. Such debugging and test not only waste time and energy, receive external environment influence moreover easily, influence the parameter setting and the later stage of hanging stove and use.
Disclosure of Invention
In order to solve the problems, the invention aims to provide a wall-hanging stove real-time online debugging method based on LABVIEW, which is used for carrying out remote real-time online debugging on the wall-hanging stove through an LABVIEW upper computer interface, effectively saving manpower and material resources, improving the debugging efficiency and facilitating parameter setting and later use of the wall-hanging stove.
The technical scheme adopted by the invention for solving the problem is a wall-hanging furnace real-time online debugging method based on LABVIEW, which comprises the following steps:
collecting real-time parameters of the wall-mounted boiler and uploading the real-time parameters to a constructed LABVIEW upper computer interface;
and carrying out real-time remote online debugging on the wall-mounted boiler on the LABVIEW upper computer interface according to the parameters uploaded by the wall-mounted boiler.
Further, the wall-mounted boiler also comprises a peripheral sensor used for measuring the air pressure, the temperature and the humidity of the external environment, after the controller of the wall-mounted boiler receives detection data of the peripheral sensor, the detection data are transmitted to the computer end through the cloud end, the LABVIEW upper computer interface is constructed at the computer end, the computer end carries out model analysis on the detection data of the peripheral sensor, and parameters of the wall-mounted boiler are remotely adjusted through the LABVIEW upper computer interface according to analysis results. The wall-mounted boiler can adjust the temperature control scheme according to the specific environment, so that the wall-mounted boiler is more intelligent and humanized, and a user feels more comfortable.
Further, the peripheral sensor measures 24-hour parameters of the environment where the wall-mounted furnace is located and sends all the parameters to the computer end, the computer end respectively depicts all the parameters into corresponding curves by taking time points as a horizontal axis, the computer end substitutes all the parameter curves into the temperature control model so as to obtain a real-time temperature control curve of the wall-mounted furnace in the area, and the computer end adjusts the operation parameters of the wall-mounted furnace in real time through the LABVIEW upper computer interface according to the real-time temperature control curve. The real-time temperature control curve of the computer end is updated every 24 hours. The LABVIEW upper computer interface is constructed at a computer end or/and a mobile phone end. According to the wall-mounted boiler temperature control device, parameters of the wall-mounted boiler can be intelligently adjusted according to the environment where the wall-mounted boiler is located, and the real-time temperature control curve can be timely updated according to the change of the environment, so that the wall-mounted boiler is more intelligent and humanized.
Further, the hanging stove is provided with hanging stove controller, and hanging stove controller is provided with entity serial ports communication terminal, and hanging stove controller adopts RS485 or RS232 communication protocol to build and the high in the clouds between the data transmission channel, with the real-time data upload high in the clouds of collecting. The wall-mounted boiler is provided with a program online upgrading module, and the program online upgrading module downloads an updating program from the cloud to upgrade the internal program of the wall-mounted boiler controller. The wall-mounted boiler can be upgraded on line in real time by the arrangement of the invention, so that the wall-mounted boiler is more intelligent and humanized.
Further, the hanging stove includes the bathroom device, and the bathroom device is provided with temperature sensor and water flow sensor, and bathroom device, temperature sensor and water flow sensor are connected to hanging stove controller, and hanging stove controller feeds back the data intelligence regulation and control bathroom device's water temperature and discharge according to temperature sensor and water flow sensor.
Further, the hanging stove is including the comdenstion water collection device that is used for collecting the comdenstion water, and the comdenstion water collection device is provided with water pressure sensor, and comdenstion water collection device and water pressure sensor are connected to hanging stove controller, and hanging stove controller opens or closes comdenstion water collection device according to the water pressure data that water pressure sensor passes back.
Further, the LABVIEW upper computer interface is provided with an alarm tool and a data export tool. The invention not only facilitates the analysis of the parameters, but also ensures that the staff can find the parameter abnormity in time.
The invention has the beneficial effects that: the invention relates to a wall-mounted boiler real-time online debugging method based on LABVIEW, which carries out remote real-time online debugging on the wall-mounted boiler through an LABVIEW upper computer interface.
Drawings
The invention is further illustrated with reference to the following figures and examples.
FIG. 1 is a system block diagram of the present invention.
Detailed Description
Fig. 1 is a system block diagram of the invention, and as shown in fig. 1, the invention is a wall-hanging stove real-time online debugging method based on LABVIEW, which includes the following steps:
collecting real-time parameters of the wall-mounted boiler and uploading the real-time parameters to a constructed LABVIEW upper computer interface;
and carrying out real-time remote online debugging on the wall-mounted boiler on the LABVIEW upper computer interface according to the parameters uploaded by the wall-mounted boiler.
According to the wall-mounted boiler remote real-time online debugging method, the wall-mounted boiler is remotely debugged in real time through the LABVIEW upper computer interface, and compared with the on-site debugging of the traditional engineer, the wall-mounted boiler remote real-time online debugging method has the advantages that manpower and material resources are effectively saved, the debugging efficiency is improved, and the parameter setting and later-stage use of the wall-mounted boiler are facilitated.
Preferably, the wall-hanging stove of the invention further comprises a peripheral sensor 6 for measuring the external environment air pressure, temperature and humidity, the wall-hanging stove controller 9 receives the detection data of the peripheral sensor 6 and transmits the detection data to the computer end 8 through the cloud, the LABVIEW upper computer interface is established at the computer end 8, the computer end 8 performs model analysis on the detection data of the peripheral sensor 6, and the parameters of the wall-hanging stove are remotely adjusted through the LABVIEW upper computer interface according to the analysis result. The wall-mounted boiler can adjust the temperature control scheme according to the specific environment, so that the wall-mounted boiler is more intelligent and humanized, and a user feels more comfortable. The peripheral sensor 6 measures 24-hour parameters of the environment where the wall-mounted boiler is located and sends all the parameters to the computer end 8, the computer end 8 represents all the parameters into corresponding curves respectively by taking time points as a horizontal axis, the computer end 8 substitutes all the parameter curves into the temperature control model so as to obtain a real-time temperature control curve of the wall-mounted boiler in the area, and the computer end 8 adjusts the operation parameters of the wall-mounted boiler in real time through an LABVIEW upper computer interface according to the real-time temperature control curve. The real-time temperature control curve of the computer end 8 is updated every 24 hours. The LABVIEW upper computer interface is constructed at the computer end 8 or/and the mobile phone end 10. According to the wall-mounted boiler temperature control device, parameters of the wall-mounted boiler can be intelligently adjusted according to the environment where the wall-mounted boiler is located, and the real-time temperature control curve can be timely updated according to the change of the environment, so that the wall-mounted boiler is more intelligent and humanized.
Preferably, the wall-mounted boiler is provided with a wall-mounted boiler controller 9, the wall-mounted boiler controller 9 is provided with a physical serial port communication terminal, the wall-mounted boiler controller 9 adopts an RS485 or RS232 communication protocol to build a data transmission channel with the cloud, and collected real-time data are uploaded to the cloud. The wall-mounted boiler is provided with a program online upgrading module 7, and the program online upgrading module 7 downloads an updating program from the cloud to upgrade the internal program of the wall-mounted boiler controller 9. The wall-mounted boiler can be upgraded on line in real time by the arrangement of the invention, so that the wall-mounted boiler is more intelligent and humanized. The hanging stove includes bathroom device 2, and bathroom device 2 is provided with temperature sensor 1 and water flow sensor 3, and bathroom device 2, temperature sensor 1 and water flow sensor 3 are connected to hanging stove controller 9, and hanging stove controller 9 feeds back according to temperature sensor 1 and water flow sensor 3 and feeds back data intelligent control bathroom device 2's temperature and discharge.
Preferably, the wall-hanging stove of the invention comprises a condensed water collecting device 4 for collecting condensed water, the condensed water collecting device 4 is provided with a water pressure sensor 5, the condensed water collecting device 4 and the water pressure sensor 5 are connected to a wall-hanging stove controller 9, and the wall-hanging stove controller 9 turns on or off the condensed water collecting device 4 according to water pressure data transmitted back by the water pressure sensor 5. The LABVIEW upper computer interface is provided with an alarm tool and a data export tool. The invention not only facilitates the analysis of the parameters, but also ensures that the staff can find the parameter abnormity in time.
The above description is only a preferred embodiment of the present invention, and the present invention is not limited to the above embodiment, and the present invention shall fall within the protection scope of the present invention as long as the technical effects of the present invention are achieved by the same means.