CN112015434A - Remote upgrading debugging control method, system, device and storage medium - Google Patents

Abstract

The invention is suitable for the technical field of remote control, and provides a remote upgrading debugging control method, a system, a device and a storage medium, wherein the method comprises the following steps: when the local terminal receives the debugging instruction, sending a networking instruction to the local Internet of things card so as to control the remote Internet of things card to start a hot spot to generate a debugging network; the remote terminal is connected to a debugging network, and the local terminal sends the upgrading debugging file to the remote terminal according to the debugging network; the relay combination carries out data input on the programmer by the upgrade debugging file and sends the upgrade debugging file to the prototype equipment; when the transmission of the input data is finished, the connection between the programming device and the prototype equipment is cut off, and the relay combination starts the power supply of the prototype equipment; the model machine equipment operates according to the input data to generate operating data, and the remote terminal displays the operating data at the local terminal. The invention realizes the function of remotely controlling the prototype equipment to carry out program upgrading or operation parameter regulation and control by controlling the programming device to send the input data to the prototype equipment.

Description

Remote upgrading debugging control method, system, device and storage medium

Technical Field

The invention belongs to the technical field of remote control, and particularly relates to a remote upgrading debugging control method, a system, a device and a storage medium.

Background

At present, when various electronic devices are in a construction stage, all the electronic devices need to be debugged in place after being installed in place. Meanwhile, at the initial stage of the operation of the electronic device, the operation strategy, program operation, parameters and the like of the electronic equipment need to be adjusted and modified according to the time condition so as to ensure the safe and reliable operation of the electronic equipment. After the electronic equipment is put into operation, the control software also needs to be analyzed, monitored and debugged on line in time once the electronic equipment fails.

And as more electronic equipment is installed, the distribution range is wider, and the time spent by a professional on arriving at the site is long, so that the electronic equipment has long waiting time, and operation with a fault or operation quitting is necessary in many cases. Meanwhile, when the operation strategy of the electronic equipment needs to be modified and updated or the electronic equipment fails, and needs to be processed by a professional, the professional cannot timely perform the processing, so that the safety and reliability of the equipment are reduced.

Disclosure of Invention

Embodiments of the present invention provide a method, a system, an apparatus, and a storage medium for remote upgrade debugging control, which are used to solve the problem of low safety and reliability caused by the fact that the operation strategy of the electronic device cannot be modified, updated, or repaired in time during the use of the existing electronic device.

The embodiment of the invention is realized in such a way that a remote upgrade debugging control method is used for a local terminal to control a remote terminal to remotely upgrade or remotely regulate and control prototype equipment, a local internet of things card is arranged in the local terminal, and a remote internet of things card in communication connection with the local internet of things card is arranged in the remote terminal, and the method comprises the following steps:

when the local terminal receives a debugging instruction, the local terminal sends a networking instruction to the local Internet of things card so as to control the local Internet of things card to control the remote Internet of things card to open a hot spot to generate a debugging network;

the remote terminal is connected to the debugging network through WIFI, and the local terminal sends an upgrading debugging file to the remote terminal according to the debugging network;

the remote terminal carries out data entry on the programming device by the upgrading debugging file through a local relay combination and controls the programming device to send the entered data to the prototype device;

when the transmission of the input data is finished, the connection between the programming device and the prototype equipment is cut off, and meanwhile, the relay combination starts the power supply of the prototype equipment;

when the prototype equipment is powered on, the prototype equipment operates according to the input data to generate operating data, and the prototype equipment sends the operating data to the remote terminal;

and the remote terminal displays the running data at the local terminal according to the debugging network.

Further, after the step of displaying, by the remote terminal, the operating data at the local terminal according to the debug network, the method further includes:

the local terminal judges whether the running data needs to be debugged;

if yes, an alarm prompt is sent out.

Further, the step of the local terminal determining whether the operation data needs to be debugged includes:

judging whether the change condition of the current stored in the operation data accords with the normal operation process or not;

when the change condition is judged to be not in accordance with the normal operation process, judging that the operation data needs to be debugged;

judging whether the rotating speed stored in the operating data falls within a preset rotating speed range or not;

when the rotating speed is judged to exceed the preset rotating speed range, judging that the operating data needs to be debugged;

judging whether the temperature stored in the operation data falls within a preset temperature range or not;

when the temperature is judged to exceed the preset temperature range, judging that the operation data needs to be debugged;

judging whether a system version number stored in the running data is a preset version number or not;

and when the system version number is judged not to be the preset version number, judging that the running data needs to be debugged.

Further, the step of displaying, by the remote terminal, the operation data at the local terminal according to the debug network includes:

the remote terminal sends the locally stored equipment number, the model machine number of the model machine equipment and the operation data to the local terminal;

and the local terminal inquires a target display area according to the equipment number and the model machine number and correspondingly displays the operating data according to the target display area.

Further, after the step of correspondingly displaying the operating data according to the target display area, the method further includes:

and the local terminal acquires the parameters to be debugged existing in the running data and debugs and marks the current running state display picture according to the parameters to be debugged.

Furthermore, after the step of the remote terminal performing data entry on the programmer by the upgrade debugging file through the local relay combination, the method further includes:

and the relay combination controls the power-off of the prototype equipment.

Furthermore, the upgrade debugging file is an HEX file.

Another object of the embodiments of the present invention is to provide a remote upgrade debugging control system, configured to control a remote terminal to perform remote upgrade or remote control on prototype equipment by a local terminal, where a local internet of things card is disposed in the local terminal, and a remote internet of things card in communication connection with the local internet of things card is disposed in the remote terminal, the system including:

the hot spot opening module is used for controlling the local terminal to send a networking instruction to the local Internet of things card when the local terminal receives a debugging instruction so as to control the local Internet of things card to control the remote Internet of things card to open a hot spot to generate a debugging network;

the file sending module is used for controlling the remote terminal to be connected to the debugging network through WIFI and controlling the local terminal to send an upgrading debugging file to the remote terminal according to the debugging network;

the file input module is used for controlling the remote terminal to input the data of the upgrade debugging file into the programming device through the local relay combination and controlling the programming device to send the input data to the prototype device;

the power-off control module is used for controlling the programming device to cut off the connection with the prototype equipment and simultaneously controlling the relay combination to start the power supply of the prototype equipment when the programming device finishes sending the input data;

the data generation module is used for controlling the prototype equipment to operate according to the input data to generate operation data and controlling the prototype equipment to send the operation data to the remote terminal when the prototype equipment is powered on;

and the display control module is used for controlling the remote terminal to display the running data on the local terminal according to the debugging network.

Another objective of an embodiment of the present invention is to provide a remote upgrade debugging control apparatus, including a storage device and a processor, where the storage device is used to store a computer program, and the processor runs the computer program to make the remote upgrade debugging control apparatus execute the above remote upgrade debugging control method.

Another object of an embodiment of the present invention is to provide a storage medium, wherein a computer program used in the above remote upgrade debugging control device is stored, and the computer program implements the steps of the above remote upgrade debugging control method when executed by a processor.

According to the embodiment of the invention, the programming device is controlled to transmit the input data to the prototype equipment, so that the prototype equipment is controlled remotely to perform program upgrading or operation parameter regulation and control effectively, the phenomenon of low safety and reliability caused by incapability of timely modifying, updating or fault maintenance of the operation strategy of the electronic equipment is prevented, the display design of the operation data is performed at the local terminal, the remote worker can know the state of the debugged prototype equipment conveniently, and the remote upgrading regulation and control failure of the prototype equipment caused by incapability of connecting a client intranet is prevented effectively through the generation of the debugging network and the design that the remote terminal is connected to the debugging network through WIFI.

Drawings

Fig. 1 is a flowchart of a remote upgrade debugging control method according to a first embodiment of the present invention;

fig. 2 is a flowchart of a remote upgrade debugging control method according to a second embodiment of the present invention;

fig. 3 is a schematic structural diagram of a remote upgrade debugging control system provided in a third embodiment of the present invention;

fig. 4 is a schematic structural diagram of a remote upgrade debugging control apparatus according to a fourth embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example one

Referring to fig. 1, a flowchart of a remote upgrade debugging control method according to a first embodiment of the present invention is shown, where the remote upgrade debugging control method is used for a local terminal to control a remote terminal to perform remote upgrade or remote control on prototype equipment, a local internet of things card is disposed in the local terminal, and a remote internet of things card communicatively connected to the local internet of things card is disposed in the remote terminal, and the method includes the steps of:

step S10, when the local terminal receives a debugging instruction, the local terminal sends a networking instruction to the local Internet of things card so as to control the local Internet of things card to control the remote Internet of things card to open a hot spot to generate a debugging network;

the debugging instruction can be transmitted in a voice instruction mode, a key instruction mode or a wireless instruction mode, the debugging instruction is used for triggering generation of the debugging network, preferably, the debugging network can be an internet of things or a local area network and the like, and the debugging network is used for facilitating subsequent network communication of the remote terminal so as to effectively guarantee subsequent data communication on the remote terminal;

specifically, in this embodiment, the sending of the debugging instruction may be controlled in an APP manner, that is, after the remote control personnel correspondingly opens the APP program, the sending of the debugging instruction is triggered and controlled for the target remote terminal, so that the control circuit of the local physical link card controls the control circuit of the remote physical link card to open the hot spot, in addition, the prototype device is any electronic device, and in this embodiment, the prototype device is a motor device;

step S20, the remote terminal is connected to the debugging network through WIFI, and the local terminal sends an upgrade debugging file to the remote terminal according to the debugging network;

the remote terminal is set with a WIFI automatic connection, that is, when the debugging network is started, the remote terminal automatically triggers the connection with the debugging network through a WIFI function, preferably, the upgrade debugging file includes an upgrade file and/or a debugging file, the upgrade file is used for updating or modifying a system or an operation strategy in the prototype device, the debugging file is used for adjusting an operation parameter in the prototype device, and further, in this embodiment, the upgrade debugging file is an HEX file;

step S30, the remote terminal carries out data entry on the programming device by the upgrade debugging file through a local relay combination, and controls the programming device to send the entered data to the prototype device;

specifically, in the step, the programmer can completely send the input data to the prototype equipment by adopting a switching copy mode so as to ensure the subsequent program updating or parameter regulation and control of the prototype equipment;

step S40, when the transmission of the input data is finished, the connection between the programming device and the prototype equipment is cut off, and meanwhile, the relay combination starts the power supply of the prototype equipment;

the power supply voltage of the prototype equipment is 220V commercial power, and serial port communication on the prototype equipment is started simultaneously to ensure transmission and sending of subsequent operation data;

step S50, when the prototype equipment is powered on, the prototype equipment operates according to the input data to generate operation data, and the prototype equipment sends the operation data to the remote terminal;

the operation data comprises a motor speed parameter, a current parameter, a temperature parameter, an NTC parameter, a switch detection parameter, an anti-overflow signal parameter and the like, and particularly, in the step, the prototype device acquires the operation parameters in real time to generate operation data, preferably, in the step, the prototype device can also acquire the parameters in an interval acquisition mode, namely, the prototype device acquires the parameters at intervals according to locally pre-stored time intervals to correspondingly draw operation characteristic curves of different parameters and send the drawn operation characteristic curves to the remote terminal, so that the operation data can be understood;

step S60, the remote terminal displays the operation data on the local terminal according to the debugging network;

in this embodiment, the local terminal can simultaneously display the operating data of a plurality of different prototype devices, that is, data display is performed on different prototype devices corresponding to different regions;

in the embodiment, the programming device is controlled to send the input data to the design of the prototype equipment, so that the prototype equipment is controlled remotely to upgrade programs or regulate and control operation parameters, the phenomenon of low safety and reliability caused by the fact that operation strategies of electronic equipment cannot be modified, updated or repaired in time is avoided, the display design of the operation data is carried out on the local terminal, remote workers can know the state of the prototype equipment after debugging effectively and conveniently, and the remote upgrading regulation and control failure of the prototype equipment caused by the fact that a customer intranet cannot be connected is effectively avoided through the generation of the debugging network and the design that the remote terminal is connected to the debugging network through WIFI.

Example two

Referring to fig. 2, a flowchart of a remote upgrade debugging control method according to a second embodiment of the present invention is shown, including the steps of:

step S11, when the local terminal receives a debugging instruction, the local terminal sends a networking instruction to the local Internet of things card so as to control the local Internet of things card to control the remote Internet of things card to open a hot spot to generate a debugging network;

step S21, the remote terminal is connected to the debugging network through WIFI, and the local terminal sends an upgrade debugging file to the remote terminal according to the debugging network;

step S31, the remote terminal carries out data entry on the programming device by the upgrade debugging file through a local relay combination, and controls the programming device to send the entered data to the prototype device;

before the programmer records the prototype equipment, the relay combination controls the prototype equipment to be powered off, and further, in the embodiment, the upgrade debugging file is an HEX file;

step S41, when the transmission of the input data is finished, the connection between the programming device and the prototype equipment is cut off, and meanwhile, the relay combination starts the power supply of the prototype equipment;

step S51, when the prototype equipment is powered on, the prototype equipment operates according to the input data to generate operation data, and the prototype equipment sends the operation data to the remote terminal;

step S61, the remote terminal sends the locally stored equipment number, the model machine number of the model machine equipment and the operation data to the local terminal;

the accuracy of position display of the subsequent corresponding running data on a display screen of the local terminal is effectively improved through the transmission design of the equipment number and the model machine number;

step S71, the local terminal inquires a target display area according to the equipment number and the model machine number, and correspondingly displays the running data according to the target display area;

the local terminal is internally stored with a coordinate display table, the coordinate display table is internally stored with a plurality of groups of corresponding relations among the equipment numbers, the model machine numbers and the target display areas, and the target display areas can be stored in a mode of midpoint coordinates, display area coordinates or display boundaries, so that the position display accuracy of the running data is effectively improved;

step S81, the local terminal judges whether the operation data needs to be debugged;

specifically, the step of judging whether the running data needs to be debugged by the local terminal includes:

judging whether the change condition of the current stored in the operation data accords with the normal operation process or not;

when the change condition is judged to be not in accordance with the normal operation process, judging that the operation data needs to be debugged;

judging whether the rotating speed stored in the operating data falls within a preset rotating speed range or not;

when the rotating speed is judged to exceed the preset rotating speed range, judging that the operating data needs to be debugged;

judging whether the temperature stored in the operation data falls within a preset temperature range or not;

when the temperature is judged to exceed the preset temperature range, judging that the operation data needs to be debugged;

judging whether a system version number stored in the running data is a preset version number or not;

when the system version number is judged not to be the preset version number, judging that the running data needs to be debugged;

preferably, in this step, it may be further determined whether the temperature parameter, the NTC parameter, the switch detection parameter, and the anti-overflow signal parameter stored in the operation data need to be debugged;

when the step S81 determines that debugging is required in the operation data, execute step S91;

step S91, the local terminal obtains the parameters to be debugged existing in the running data, and debugs the current running state display picture according to the parameters to be debugged;

the method comprises the following steps that a debugging mark is designed on a current running state display picture, so that remote workers can effectively and conveniently check parameters to be debugged, and preferably, in the step, the debugging mark can be marked in a pattern filling mode, a character highlighting mode or a color filling mode;

the image filling mark is used for covering the corresponding target display area according to a locally pre-stored background picture so as to prompt that the corresponding operation parameter of a remote worker needs to be debugged;

the character highlighting is used for amplifying the resolution of the characters or images in the corresponding target display area so as to prompt a remote worker that the corresponding operation parameters need to be debugged;

the color filling is used for filling the background and/or characters corresponding to the target display area according to a preset color prestored locally so as to prompt a remote worker that the corresponding operation parameter needs to be debugged;

in the embodiment, the programming device is controlled to send the input data to the design of the prototype equipment, so that the prototype equipment is controlled remotely to upgrade programs or regulate and control operation parameters, the phenomenon of low safety and reliability caused by the fact that operation strategies of electronic equipment cannot be modified, updated or repaired in time is avoided, the display design of the operation data is carried out on the local terminal, remote workers can know the state of the prototype equipment after debugging effectively and conveniently, and the remote upgrading regulation and control failure of the prototype equipment caused by the fact that a customer intranet cannot be connected is effectively avoided through the generation of the debugging network and the design that the remote terminal is connected to the debugging network through WIFI.

EXAMPLE III

Please refer to fig. 3, which is a schematic structural diagram of a remote upgrade debugging control system 100 according to a third embodiment of the present invention, configured to enable a local terminal 102 to control a remote terminal 103 to perform remote upgrade or remote control on a prototype device 104, where a local internet of things card is disposed in the local terminal 102, and a remote internet of things card communicatively connected to the local internet of things card is disposed in the remote terminal 103, and the system includes:

the hot spot starting module 10 is configured to, when the local terminal 102 receives a debugging instruction, control the local terminal 102 to send a networking instruction to the local internet of things card, so as to control the local internet of things card to control the remote internet of things card to start a hot spot to generate a debugging network;

the file sending module 11 is configured to control the remote terminal 103 to be connected to the debug network through WIFI, and control the local terminal 102 to send an upgrade debug file to the remote terminal 103 according to the debug network;

the file entry module 12 is configured to control the remote terminal 103 to perform data entry on the upgrade debugging file to the writer through a local relay combination, and control the writer to send entry data to the prototype device 104;

the power-off control module 13 is used for controlling the programming device to cut off the connection with the prototype device 104 and simultaneously controlling the relay combination to start the power supply of the prototype device 104 when the programming device finishes sending the input data;

the data generation module 14 is configured to, when the prototype device 104 is powered on, control the prototype device 104 to operate according to the entered data to generate operation data, and control the prototype device 104 to send the operation data to the remote terminal 103;

and a display control module 15, configured to control the remote terminal 103 to display the operating data in the local terminal 102 according to the debug network.

The remote upgrade debugging control system 100 further includes:

an anomaly detection module 16, configured to control the local terminal 102 to determine whether the operating data needs to be debugged; if yes, an alarm prompt is sent out.

Further, the anomaly detection module 16 is further configured to: judging whether the change condition of the current stored in the operation data accords with the normal operation process or not; when the change condition is judged to be not in accordance with the normal operation process, judging that the operation data needs to be debugged; judging whether the rotating speed stored in the operating data falls within a preset rotating speed range or not; when the rotating speed is judged to exceed the preset rotating speed range, judging that the operating data needs to be debugged; judging whether the temperature stored in the operation data falls within a preset temperature range or not; when the temperature is judged to exceed the preset temperature range, judging that the operation data needs to be debugged; judging whether a system version number stored in the running data is a preset version number or not; and when the system version number is judged not to be the preset version number, judging that the running data needs to be debugged.

Specifically, the display control module 15 is further configured to: controlling the remote terminal 103 to send the locally stored equipment number, the model number of the model equipment 104 and the running data to the local terminal 102; and controlling the local terminal 102 to inquire a target display area according to the equipment number and the model machine number, and controlling the local terminal 102 to correspondingly display the operating data according to the target display area.

In addition, the display control module 15 is further configured to: and the local terminal 102 is controlled to acquire the parameters to be debugged in the running data, and debug and mark the current running state display picture according to the parameters to be debugged.

Further, the file entry module 12 is further configured to: and controlling the relay combination to control the prototype equipment 104 to be powered off.

In this embodiment, the programming device is controlled to send the input data to the design of the prototype device 104, so as to effectively remotely control the prototype device 104 to perform program upgrading or operation parameter regulation and control, thereby preventing the phenomenon of low safety and reliability caused by the fact that the operation strategy of the electronic device cannot be modified, updated or fault maintenance in time, effectively facilitating the remote staff to know the state of the prototype device 104 after debugging through the display design of the operation data at the local terminal 102, and effectively preventing the failure of remote upgrading regulation and control of the prototype device 104 caused by the fact that the customer intranet cannot be connected through the generation of the debugging network and the design that the remote terminal 103 is connected to the debugging network through WIFI.

Example four

Referring to fig. 4, a remote upgrade debugging control device 101 according to a fourth embodiment of the present invention includes a storage device and a processor, where the remote upgrade debugging control device is electrically connected to a local terminal 102, a remote terminal 103, and a prototype device 104, respectively, the storage device is used to store a computer program, and the processor runs the computer program to enable the remote upgrade debugging control device 101 to execute the remote upgrade debugging control method.

The present embodiment also provides a storage medium on which a computer program used in the above remote upgrade debugging control apparatus 101 is stored, and when executed, the program includes the following steps:

when the local terminal 102 receives a debugging instruction, the local terminal 102 sends a networking instruction to the local internet of things card to control the remote internet of things card to start a hot spot to generate a debugging network;

the remote terminal 103 is connected to the debugging network through WIFI, and the local terminal 102 sends an upgrade debugging file to the remote terminal 103 according to the debugging network;

the remote terminal 103 carries out data entry on the programming device by the upgrade debugging file through a local relay combination, and controls the programming device to send the entered data to the prototype device 104;

when the transmission of the input data is finished, the connection between the programming device and the prototype equipment 104 is cut off, and meanwhile, the relay combination starts the power supply of the prototype equipment 104;

when the prototype equipment 104 is powered on, the prototype equipment 104 operates according to the input data to generate operation data, and the prototype equipment 104 sends the operation data to the remote terminal 103;

and the remote terminal 103 displays the operation data on the local terminal 102 according to the debugging network. The storage medium, such as: ROM/RAM, magnetic disk, optical disk, etc.

It will be apparent to those skilled in the art that, for convenience and brevity of description, only the above-mentioned division of the functional units and modules is used as an example, in practical applications, the above-mentioned function distribution may be performed by different functional units or modules according to needs, that is, the internal structure of the storage device is divided into different functional units or modules to perform all or part of the above-mentioned functions. Each functional unit and module in the embodiments may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit, and the integrated unit may be implemented in a form of hardware, or may be implemented in a form of software functional unit. In addition, specific names of the functional units and modules are only for convenience of distinguishing from each other, and are not used for limiting the protection scope of the present application.

Those skilled in the art will appreciate that the component structure shown in fig. 3 does not constitute a limitation of the remote upgrade commissioning control system 100 of the present invention and may include more or fewer components than those shown, or combine certain components, or a different arrangement of components, and that the remote upgrade commissioning control method of fig. 1-2 may also be implemented using more or fewer components than those shown in fig. 3, or combine certain components, or a different arrangement of components. The units, modules, etc. referred to herein are a series of computer programs that can be executed by a processor (not shown) in the remote upgrade debug control system 100 and that can perform specific functions, and all of the computer programs can be stored in a storage device (not shown) of the remote upgrade debug control system 100.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. A remote upgrade debugging control method is used for a local terminal to control a remote terminal to remotely upgrade or remotely regulate prototype equipment, and is characterized in that a local Internet of things card is arranged in the local terminal, and a remote Internet of things card in communication connection with the local Internet of things card is arranged in the remote terminal, and the method comprises the following steps:

when the local terminal receives a debugging instruction, the local terminal sends a networking instruction to the local Internet of things card so as to control the local Internet of things card to control the remote Internet of things card to open a hot spot to generate a debugging network;

the remote terminal is connected to the debugging network through WIFI, and the local terminal sends an upgrading debugging file to the remote terminal according to the debugging network;

the remote terminal carries out data entry on the programming device by the upgrading debugging file through a local relay combination and controls the programming device to send the entered data to the prototype device;

when the transmission of the input data is finished, the connection between the programming device and the prototype equipment is cut off, and meanwhile, the relay combination starts the power supply of the prototype equipment;

when the prototype equipment is powered on, the prototype equipment operates according to the input data to generate operating data, and the prototype equipment sends the operating data to the remote terminal;

and the remote terminal displays the running data at the local terminal according to the debugging network.

2. The remote upgrade debugging control method according to claim 1, wherein after the step in which the remote terminal displays the operation data on the local terminal according to the debugging network, the method further comprises:

the local terminal judges whether the running data needs to be debugged;

if yes, an alarm prompt is sent out.

3. The remote upgrade debugging control method according to claim 2, wherein the step of the local terminal determining whether the operation data needs to be debugged includes:

judging whether the change condition of the current stored in the operation data accords with the normal operation process or not;

when the change condition is judged to be not in accordance with the normal operation process, judging that the operation data needs to be debugged;

judging whether the rotating speed stored in the operating data falls within a preset rotating speed range or not;

when the rotating speed is judged to exceed the preset rotating speed range, judging that the operating data needs to be debugged;

judging whether the temperature stored in the operation data falls within a preset temperature range or not;

when the temperature is judged to exceed the preset temperature range, judging that the operation data needs to be debugged;

judging whether a system version number stored in the running data is a preset version number or not;

and when the system version number is judged not to be the preset version number, judging that the running data needs to be debugged.

4. The remote upgrade debugging control method according to claim 3, wherein the step of the remote terminal displaying the operation data at the local terminal according to the debugging network comprises:

the remote terminal sends the locally stored equipment number, the model machine number of the model machine equipment and the operation data to the local terminal;

and the local terminal inquires a target display area according to the equipment number and the model machine number and correspondingly displays the operating data according to the target display area.

5. The remote upgrade debugging control method according to claim 4, wherein after the step of correspondingly displaying the operating data according to the target display area, the method further comprises:

and the local terminal acquires the parameters to be debugged existing in the running data and debugs and marks the current running state display picture according to the parameters to be debugged.

6. The remote upgrade debugging control method according to claim 1, wherein after the step of the remote terminal performing data entry of the upgrade debugging file into a writer through a local relay combination, the method further comprises:

and the relay combination controls the power-off of the prototype equipment.

7. The remote upgrade debugging control method according to claim 1, wherein the upgrade debugging file is a HEX file.

8. A remote upgrading and debugging control system is used for a local terminal to control a remote terminal to remotely upgrade or remotely regulate and control prototype equipment, and is characterized in that a local Internet of things card is arranged in the local terminal, a remote Internet of things card in communication connection with the local Internet of things card is arranged in the remote terminal, and the system comprises:

the hot spot opening module is used for controlling the local terminal to send a networking instruction to the local Internet of things card when the local terminal receives a debugging instruction so as to control the local Internet of things card to control the remote Internet of things card to open a hot spot to generate a debugging network;

the file sending module is used for controlling the remote terminal to be connected to the debugging network through WIFI and controlling the local terminal to send an upgrading debugging file to the remote terminal according to the debugging network;

the file input module is used for controlling the remote terminal to input the data of the upgrade debugging file into the programming device through the local relay combination and controlling the programming device to send the input data to the prototype device;

the power-off control module is used for controlling the programming device to cut off the connection with the prototype equipment and simultaneously controlling the relay combination to start the power supply of the prototype equipment when the programming device finishes sending the input data;

the data generation module is used for controlling the prototype equipment to operate according to the input data to generate operation data and controlling the prototype equipment to send the operation data to the remote terminal when the prototype equipment is powered on;

and the display control module is used for controlling the remote terminal to display the running data on the local terminal according to the debugging network.

9. A remote upgrade debugging control apparatus comprising a storage device for storing a computer program and a processor for executing the computer program to cause the remote upgrade debugging control apparatus to execute the remote upgrade debugging control method according to any one of claims 1 to 7.

10. A storage medium storing a computer program for use in the remote upgrade debug control apparatus of claim 9, the computer program, when executed by a processor, implementing the steps of the remote upgrade debug control method of any one of claims 1 to 7.

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