CN115167325B - Intelligent processing control method, system, equipment and storage medium for cable - Google Patents

Abstract

The invention discloses a cable intelligent processing control method, a system, equipment and a storage medium, which comprise the following steps: acquiring a control program, wherein the control program comprises a main control program applied to main control equipment and sub-control programs applied to each execution control equipment end; acquiring a sub-control program list corresponding to a control program, transmitting each sub-control program to sub-control equipment of corresponding execution control equipment, starting the control program after all the sub-control equipment is loaded successfully, and transmitting a control instruction to each sub-control equipment according to the main control program so that each sub-control equipment can control the execution control equipment to transmit the control instruction according to the corresponding sub-control program. And by sending each sub-control program to each execution control equipment end to load the corresponding sub-control program, budget during control is distributed to each execution control equipment end, so that the workload of the main control equipment is greatly reduced, and the failure rate of the main control equipment is reduced.

Description

Intelligent processing control method, system, equipment and storage medium for cable

Technical Field

The invention belongs to the technical field of cable production, and particularly relates to an intelligent processing control method, system and equipment for cables and a storage medium.

Background

The current cable products have huge market space and huge production capacity formed by the cable manufacturing industry. With the continuous expansion of the power industry, the data communication industry, the urban rail transit industry, the automobile industry, shipbuilding and other industries, the demand for wires and cables is rapidly increased, and the wire and cable industry has great development potential in the future.

The manufacturing of wire and cable is quite different from the way most electromechanical products are produced. Electromechanical products typically employ assembly of parts into components, reassembly of multiple components into a single product, and metering of the product in pieces or pieces. The electric wire and cable are measured in basic units of length. All wires and cables are manufactured by applying insulation, shielding, cabling, a sheath, etc. layer by layer around the conductor from the conductor processing. The more complex the product structure, the more layers are superimposed. The main process of the electric wire and cable is that the electric wire and cable are formed by: the drawing, twisting and cladding processes are completed, and the more complex the model specification is, the higher the repeatability is.

With the development of intelligent industry, cable processing is produced by intelligent production line mostly, in order to control the normal work of each equipment, need use electrical system to control whole production line, because cable processing technology is complicated, consequently processing equipment quantity is more, the controller requirement to electrical system is higher, general electrical system only sets up a plurality of processing equipment of industrial computer control, consequently the industrial computer needs stronger computing power to guarantee that equipment work is makeing mistakes, the cost of electrical system has been improved, and when one of them processing equipment appears unusual, can lead to whole industrial computer unable drive other equipment work, lead to the production line to stop, cause the loss for the enterprise.

At present, the whole electric control system is composed of an overall control industrial personal computer and a front-end control device which is independently controlled, and the main control machine indirectly controls the cable processing device through the front-end control device, so that the operation amount of the industrial personal computer can be reduced, and the normal operation of the whole processing assembly line can be intelligently controlled without higher configuration. Through setting up storage module, clock module, I/O serial ports module, fault alarm module and touch display screen in the industrial computer inside, can realize the storage of data also can artificially import or delete different cable processing procedure, strengthen the function of industrial computer. Even if one cable processing device breaks down during cable processing, the front end control device can cut off the connection with the main control computer, so that the main control computer can continuously control the work of other processing devices, the assembly line operation is more stable, the front end control device is provided with an emergency switch for manually operating the start and stop of the processing device, and the front end control device is provided with a fault detection module for detecting the working condition of the processing device, so that the management of the processing device is facilitated. However, the current production line has different production requirements and different modes to be controlled, and the current control mode is mainly at one end of the main control equipment, so that control operation is not really separated to the end of each front-end control equipment, and the workload load of an industrial personal computer is large.

Disclosure of Invention

The invention aims to provide a cable intelligent processing control method and system, which solve the problems that the existing control mode is mainly used at one end of main control equipment, control operation is not really separated to each front-end control equipment end, and the working load of an industrial control computer is large.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

in a first aspect, a method for intelligent processing control of a cable is provided, including the steps of:

acquiring a control program, wherein the control program comprises a main control program applied to main control equipment and sub-control programs applied to each execution control equipment end;

acquiring a sub-control program list corresponding to a control program, wherein execution control equipment information corresponding to each sub-control program is recorded in the sub-control program list;

according to the list of the sub control programs, each sub control program is sent to the corresponding sub control device of the execution control device so that the sub control device loads the sub control program, and when the sub control device is successfully loaded, loading success information is returned;

receiving loading success information returned by the sub control equipment;

when all the sub control devices are loaded successfully, changing the control program into an available state;

and starting the control program, and sending control instructions to each sub-control device according to the main control program so that each sub-control device can control the execution control device to send the control instructions according to the corresponding sub-control program.

According to the technology, the control program comprises the main control program applied to the main control equipment and each sub-control program applied to each execution control equipment, and the budget during control is distributed to each execution control equipment by sending each sub-control program to load the corresponding sub-control program to each execution control equipment, so that the workload of the main control equipment is greatly reduced, and the failure rate of the main control equipment is reduced; meanwhile, the sub-control program of each execution control equipment terminal can be adjusted according to the requirements, so that the controllability of each execution control equipment is stronger, and the application range is wider; the whole electric control system is set to be composed of an industrial personal computer which is controlled in a total mode and front-end control equipment which is controlled independently, and the main control computer indirectly controls equipment for cable processing through the front-end control equipment, so that the operation amount of the industrial personal computer can be reduced, and the normal operation of the whole processing assembly line can be controlled intelligently without higher configuration.

In one possible design, the control program of the available state is pre-stored; when a calling instruction for the control program is received, calling a pre-stored control program according to the calling instruction, and starting the pre-stored control program to control each execution control equipment end. The used program is pre-stored, and is directly called when being used again, so that the program is not required to be uploaded again, and the use is more convenient.

In one possible design, the method for calling the pre-stored control program according to the calling instruction and starting the pre-stored control program to control each execution control device comprises the following steps:

after receiving the calling instruction, determining a control program to be called according to the calling instruction;

determining a corresponding sub-control program list according to the control program;

determining each piece of sub-control equipment corresponding to the called control program and the corresponding sub-control program of each piece of sub-control equipment according to the list of the sub-control program;

generating verification information according to each sub-control device and a sub-control program corresponding to each sub-control device;

the verification information is sent to each piece of sub-control equipment so that each piece of sub-control equipment verifies whether the sub-control program corresponding to the called control program can be normally used or not, and if yes, the sub-control equipment returns usable confirmation information to the main control equipment;

and after receiving the confirmation information of all the sub control devices in the sub control program list, starting a control program corresponding to the calling instruction.

In one possible design, a control program is acquired, and a main control program, each sub-control program and a sub-control program list in the control program are backed up and stored; when verification information is sent to each piece of sub-control equipment, if the sub-control program corresponding to the control program called by the sub-control equipment through verification cannot be used normally, the sub-control equipment returns confirmation information which cannot be used and the sub-control equipment information to the main control equipment; the main control equipment searches the sub control program corresponding to the sub control equipment according to the sub control program list, sends the corresponding sub control program to the sub control equipment for reloading, and after loading is completed, performs re-verification on the sub control equipment to determine whether the sub control equipment is available or not, and starts the control program corresponding to the calling instruction after receiving the confirmation information of all the sub control equipment in the sub control program list.

In a second aspect, a cable intelligent processing control system is provided, including a plurality of execution control devices and a master control device, each execution control device controls through a corresponding sub-control device, and the master control device is in communication connection with each sub-control device; the main control equipment comprises a control program acquisition module, a sub-control program list acquisition module, a sub-control program sending module, a sub-control program loading judgment module, a control program state module and a control program starting module,

the control program acquisition module is used for acquiring a control program, wherein the control program comprises a main control program applied to main control equipment and sub-control programs applied to each execution control equipment end, and each sub-control program in the control program transmission is transmitted to the sub-control program transmission module;

the sub control program list acquisition module is used for acquiring a sub control program list corresponding to a control program, transmitting the sub control program list to the sub control program sending module, and recording execution control equipment information corresponding to each sub control program in the sub control program list;

the sub control program sending module is used for sending each sub control program to the corresponding sub control equipment of the execution control equipment according to the list of the sub control program list so that the sub control equipment loads the sub control program, and when the sub control equipment is successfully loaded, the sub control equipment returns loading success information to the sub control program loading judging module;

the sub control program loading judging module is used for judging whether the sub control program is loaded successfully or not and transmitting a judging result to the control program state module;

the control program state module is used for changing the control program into an available state after all the sub-control devices are loaded successfully;

the control program starting module is used for starting the control program and sending control instructions to each sub-control device according to the main control program so that each sub-control device can control the execution control device to send the control instructions according to the corresponding sub-control program.

In one possible design, the main control device further comprises a control program pre-storing module and a control program calling instruction receiving module; the control program pre-storing module is used for pre-storing the control program in the available state; the control program calling instruction receiving module is used for receiving a calling instruction of a control program and transmitting the calling instruction to the control program starting module; the control program starting module is also used for calling a pre-stored control program according to the calling instruction, and starting the pre-stored control program to control each execution control equipment end.

In one possible design, the main control device further includes a control program determining module, a sub control program list determining module, a sub control device determining module, a sub control program determining module, a verification information generating module, a verification information sending module and a verification information receiving module, wherein the control program determining module is used for determining a control program to be called according to a calling instruction and transmitting related information of the control program to the sub control program list determining module;

the sub control program list definition determining module is used for determining a corresponding sub control program list according to the related information of the control program and transmitting the corresponding sub control program list definition to the sub control equipment determining module and the sub control program determining module;

the sub control equipment determining module is used for determining each sub control equipment corresponding to the called control program according to the list of the sub control program list and transmitting information of each sub control equipment to the verification information generating module;

the sub control program determining module is used for determining a sub control program verification information generating module corresponding to each sub control device corresponding to the called control program according to the sub control program list; transmitting the information of the sub-control program corresponding to each sub-control device to a verification information generation module;

the verification information generation module is used for generating verification information according to the information of each sub-control device and the information of the corresponding sub-control program of each sub-control device, and transmitting the verification information to the verification information transmission module;

the verification information sending module is used for sending the verification information to each piece of sub-control equipment so that each piece of sub-control equipment verifies whether the sub-control program corresponding to the called control program can be normally used or not, and if so, the sub-control equipment returns usable confirmation information to the main control equipment;

in one possible design, the main control device further includes a program backup module, and the program backup module is configured to backup and store the main control program, each sub-control program, and the list of sub-control programs in the control program after the control program is acquired.

In a third aspect, an electronic device is provided, including a memory and a processor, the memory and the processor being interconnected by a bus; the memory stores computer-executable instructions; the processor executes computer-executable instructions stored in the memory, causing the processor to perform the cable intelligent process control method as described in the first aspect and any one of the possible designs of the first aspect.

In a fourth aspect, there is provided a storage medium having instructions stored thereon which, when executed on a computer, perform the cable intelligent process control method as described in any one of the possible designs of the first aspect and the first aspect.

The beneficial effects are that: the control program comprises a main control program applied to the main control equipment and sub-control programs applied to each execution control equipment end, and the budget during control is distributed to each execution control equipment end by sending each sub-control program to load the corresponding sub-control program to each execution control equipment end, so that the workload of the main control equipment is greatly reduced, and the failure rate of the main control equipment is reduced; meanwhile, the sub-control program of each execution control equipment terminal can be adjusted according to the requirements, so that the controllability of each execution control equipment is stronger, and the application range is wider; the whole electric control system is set to be composed of an overall controlled industrial personal computer and a front-end control device which is independently controlled, and the main control machine indirectly controls the cable processing device through the front-end control device, so that the operation amount of the industrial personal computer can be reduced, and the normal operation of the whole processing assembly line can be intelligently controlled without higher configuration;

the used program is pre-stored, and is directly called when being used again, so that the program is not required to be uploaded again, and the use is more convenient.

Drawings

Fig. 1 is a schematic flow chart of an intelligent processing control method for a cable in an embodiment.

Fig. 2 is a schematic block diagram of a cable intelligent processing control system according to an embodiment.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the present invention will be briefly described below with reference to the accompanying drawings and the description of the embodiments or the prior art, and it is obvious that the following description of the structure of the drawings is only some embodiments of the present invention, and other drawings can be obtained according to these drawings without inventive effort to a person skilled in the art. It should be noted that the description of these examples is for aiding in understanding the present invention, but is not intended to limit the present invention.

Examples:

as shown in fig. 1, in a first aspect, the present embodiment provides a cable intelligent processing control method, including the following steps:

acquiring a control program, wherein the control program comprises a main control program applied to main control equipment and sub-control programs applied to each execution control equipment end;

acquiring a sub-control program list corresponding to a control program, wherein execution control equipment information corresponding to each sub-control program is recorded in the sub-control program list;

according to the list of the sub control programs, each sub control program is sent to the corresponding sub control device of the execution control device so that the sub control device loads the sub control program, and when the sub control device is successfully loaded, loading success information is returned;

receiving loading success information returned by the sub control equipment;

when all the sub control devices are loaded successfully, changing the control program into an available state;

and starting the control program, and sending control instructions to each sub-control device according to the main control program so that each sub-control device can control the execution control device to send the control instructions according to the corresponding sub-control program.

In one possible implementation, the control program of the available state is pre-stored; when a calling instruction for the control program is received, calling a pre-stored control program according to the calling instruction, and starting the pre-stored control program to control each execution control equipment end.

Specifically, the method for calling the pre-stored control program according to the calling instruction and starting the pre-stored control program to control each execution control equipment comprises the following steps:

after receiving the calling instruction, determining a control program to be called according to the calling instruction;

determining a corresponding sub-control program list according to the control program;

determining each piece of sub-control equipment corresponding to the called control program and the corresponding sub-control program of each piece of sub-control equipment according to the list of the sub-control program;

generating verification information according to each sub-control device and a sub-control program corresponding to each sub-control device;

the verification information is sent to each piece of sub-control equipment so that each piece of sub-control equipment verifies whether the sub-control program corresponding to the called control program can be normally used or not, and if yes, the sub-control equipment returns usable confirmation information to the main control equipment;

and after receiving the confirmation information of all the sub control devices in the sub control program list, starting a control program corresponding to the calling instruction.

In the specific implementation, after the control program is acquired, the main control program, each sub-control program and a sub-control program list in the control program are backed up and stored; when verification information is sent to each piece of sub-control equipment, if the sub-control program corresponding to the control program called by the sub-control equipment through verification cannot be used normally, the sub-control equipment returns confirmation information which cannot be used and the sub-control equipment information to the main control equipment; the main control equipment searches the sub control program corresponding to the sub control equipment according to the sub control program list, sends the corresponding sub control program to the sub control equipment for reloading, and after loading is completed, performs re-verification on the sub control equipment to determine whether the sub control equipment is available or not, and starts the control program corresponding to the calling instruction after receiving the confirmation information of all the sub control equipment in the sub control program list.

As shown in fig. 2, in a second aspect, there is provided a cable intelligent processing control system, including a plurality of execution control devices each controlled by a corresponding sub-control device and a main control device communicatively connected to each sub-control device; the main control equipment comprises a control program acquisition module, a sub-control program list acquisition module, a sub-control program sending module, a sub-control program loading judgment module, a control program state module and a control program starting module,

the control program acquisition module is used for acquiring a control program, wherein the control program comprises a main control program applied to main control equipment and sub-control programs applied to each execution control equipment end, and each sub-control program in the control program transmission is transmitted to the sub-control program transmission module;

the sub control program list acquisition module is used for acquiring a sub control program list corresponding to a control program, transmitting the sub control program list to the sub control program sending module, and recording execution control equipment information corresponding to each sub control program in the sub control program list;

the sub control program sending module is used for sending each sub control program to the corresponding sub control equipment of the execution control equipment according to the list of the sub control program list so that the sub control equipment loads the sub control program, and when the sub control equipment is successfully loaded, the sub control equipment returns loading success information to the sub control program loading judging module;

the sub control program loading judging module is used for judging whether the sub control program is loaded successfully or not and transmitting a judging result to the control program state module;

the control program state module is used for changing the control program into an available state after all the sub-control devices are loaded successfully;

the control program starting module is used for starting the control program and sending control instructions to each sub-control device according to the main control program so that each sub-control device can control the execution control device to send the control instructions according to the corresponding sub-control program.

In a possible implementation manner, the main control device further comprises a control program pre-storing module and a control program calling instruction receiving module; the control program pre-storing module is used for pre-storing the control program in the available state; the control program calling instruction receiving module is used for receiving a calling instruction of a control program and transmitting the calling instruction to the control program starting module; the control program starting module is also used for calling a pre-stored control program according to the calling instruction, and starting the pre-stored control program to control each execution control equipment end.

In a possible implementation manner, the main control device further comprises a control program determining module, a sub-control program list determining module, a sub-control device determining module, a sub-control program determining module, a verification information generating module, a verification information sending module and a verification information receiving module, wherein the control program determining module is used for determining a control program to be called according to a calling instruction and transmitting relevant information of the control program to the sub-control program list determining module;

the sub control program list definition determining module is used for determining a corresponding sub control program list according to the related information of the control program and transmitting the corresponding sub control program list definition to the sub control equipment determining module and the sub control program determining module;

the sub control equipment determining module is used for determining each sub control equipment corresponding to the called control program according to the list of the sub control program list and transmitting information of each sub control equipment to the verification information generating module;

the sub control program determining module is used for determining a sub control program verification information generating module corresponding to each sub control device corresponding to the called control program according to the sub control program list; transmitting the information of the sub-control program corresponding to each sub-control device to a verification information generation module;

the verification information generation module is used for generating verification information according to the information of each sub-control device and the information of the corresponding sub-control program of each sub-control device, and transmitting the verification information to the verification information transmission module;

the verification information sending module is used for sending the verification information to each piece of sub-control equipment so that each piece of sub-control equipment verifies whether the sub-control program corresponding to the called control program can be normally used or not, and if so, the sub-control equipment returns usable confirmation information to the main control equipment;

in one possible implementation manner, the main control device further includes a program backup module, and the program backup module is configured to backup and store the main control program, each sub-control program, and the list of sub-control programs in the control program after the control program is acquired.

In a third aspect, an electronic device is provided, including a memory and a processor, the memory and the processor being interconnected by a bus; the memory stores computer-executable instructions; the processor executes computer-executable instructions stored in the memory, causing the processor to perform the cable intelligent process control method as described in the first aspect and any one of the possible designs of the first aspect. By way of specific example, the Memory may include, but is not limited to, random-Access Memory (RAM), read-Only Memory (ROM), flash Memory (Flash Memory), first-in first-out Memory (First Input First Output, FIFO), and/or first-in last-out Memory (First Input Last Output, FILO), etc.; the processor may not be limited to use with a processor of the type X86, internet series or other microprocessor; the transceiver may be, but is not limited to, a wired transceiver, a wireless fidelity (Wireless Fidelity, wiFi) wireless transceiver, a bluetooth wireless transceiver, a general packet radio service technology (General Packet Radio Service, GPRS) wireless transceiver, and/or a ZigBee wireless transceiver (low power local area network protocol based on the ieee802.15.4 standard), etc. The electronic device may also include, but is not limited to, a power module, a display screen, and other necessary components.

In a fourth aspect, there is provided a computer readable storage medium having instructions stored thereon which, when executed on a computer, perform the cable intelligent process control method as described in the first aspect and any one of the possible designs of the first aspect. The computer readable storage medium refers to a carrier for storing data, and may include, but is not limited to, a floppy disk, an optical disk, a hard disk, a flash Memory, and/or a Memory Stick (Memory Stick), etc., where the computer may be a general purpose computer, a special purpose computer, a computer network, or other programmable devices.

The working process, working details and technical effects of the foregoing computer readable storage medium provided in the fourth aspect of the present embodiment may refer to the interaction method described in the foregoing first aspect or any one of the possible designs of the first aspect, which are not repeated herein.

A fifth aspect of the present embodiments provides a computer program product comprising instructions which, when run on a computer, cause the computer to perform the cable intelligent process control method as set forth in the first aspect or any one of the possible designs of the first aspect. Wherein the computer may be a general purpose computer, a special purpose computer, a network of computers, or other programmable devices.

Finally, it should be noted that: the foregoing description is only of the preferred embodiments of the invention and is not intended to limit the scope of the invention. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The intelligent processing control method for the cable is characterized by comprising the following steps of:

acquiring a control program, wherein the control program comprises a main control program applied to main control equipment and sub-control programs applied to each execution control equipment end;

acquiring a sub-control program list corresponding to a control program, wherein execution control equipment information corresponding to each sub-control program is recorded in the sub-control program list;

according to the list of the sub control programs, each sub control program is sent to the corresponding sub control device of the execution control device so that the sub control device loads the sub control program, and when the sub control device is successfully loaded, loading success information is returned;

receiving loading success information returned by the sub control equipment;

when all the sub control devices are loaded successfully, changing the control program into an available state;

enabling the control program, and sending control instructions to each sub-control device according to the main control program so that each sub-control device can control the execution control device to send control instructions according to the corresponding sub-control program;

pre-storing a control program of the available state; when a calling instruction for the control program is received, calling a pre-stored control program according to the calling instruction, and starting the pre-stored control program to control each execution control equipment end;

the method for starting the pre-stored control program to control each execution control equipment end comprises the following steps of:

after receiving the calling instruction, determining a control program to be called according to the calling instruction;

determining a corresponding sub-control program list according to the control program;

determining each piece of sub-control equipment corresponding to the called control program and the corresponding sub-control program of each piece of sub-control equipment according to the list of the sub-control program;

generating verification information according to each sub-control device and a sub-control program corresponding to each sub-control device;

the verification information is sent to each piece of sub-control equipment so that each piece of sub-control equipment verifies whether the sub-control program corresponding to the called control program can be normally used or not, and if yes, the sub-control equipment returns usable confirmation information to the main control equipment;

and after receiving the confirmation information of all the sub control devices in the sub control program list, starting a control program corresponding to the calling instruction.

2. The intelligent processing control method of claim 1, wherein after the control program is acquired, a main control program, each sub-control program and a list of sub-control programs in the control program are also backed up and stored; after the verification information is sent to each piece of sub-control equipment, if the sub-control program corresponding to the control program called by the sub-control equipment verification cannot be used normally, the sub-control equipment returns confirmation information which cannot be used and corresponding piece of sub-control equipment information;

after receiving the confirmation information which can not be used and the information of the sub-control equipment, the main equipment searches the sub-control program corresponding to the sub-control equipment in a sub-control program list according to the information of the sub-control equipment, sends the corresponding sub-control program to the sub-control equipment for reloading, and after loading is completed, performs the re-verification on the sub-control equipment to determine whether the sub-control equipment is available or not, and after receiving the confirmation information of all the sub-control equipment in the sub-control program list, starts the control program corresponding to the calling instruction.

3. The intelligent cable processing control system is characterized by comprising a plurality of execution control devices and a main control device, wherein each execution control device is controlled by a corresponding sub-control device, and the main control device is in communication connection with each sub-control device; the main control equipment comprises a control program acquisition module, a sub-control program list acquisition module, a sub-control program sending module, a sub-control program loading judgment module, a control program state module and a control program starting module,

the control program acquisition module is used for acquiring a control program, wherein the control program comprises a main control program applied to main control equipment and sub-control programs applied to each execution control equipment end, and each sub-control program in the control program transmission is transmitted to the sub-control program transmission module;

the sub control program list acquisition module is used for acquiring a sub control program list corresponding to a control program, transmitting the sub control program list to the sub control program sending module, and recording execution control equipment information corresponding to each sub control program in the sub control program list;

the sub control program sending module is used for sending each sub control program to the corresponding sub control equipment of the execution control equipment according to the list of the sub control program list so that the sub control equipment loads the sub control program, and when the sub control equipment is successfully loaded, the sub control equipment returns loading success information to the sub control program loading judging module;

the sub control program loading judging module is used for judging whether the sub control program is loaded successfully or not and transmitting a judging result to the control program state module;

the control program state module is used for changing the control program into an available state after all the sub-control devices are loaded successfully;

the control program starting module is used for starting the control program and sending control instructions to each sub-control device according to the main control program so that each sub-control device can control the execution control device to send control instructions according to the corresponding sub-control program;

the main control equipment also comprises a control program pre-storing module and a control program calling instruction receiving module; the control program pre-storing module is used for pre-storing the control program in the available state; the control program calling instruction receiving module is used for receiving a calling instruction of a control program and transmitting the calling instruction to the control program starting module; the control program starting module is also used for calling a pre-stored control program according to the calling instruction, and starting the pre-stored control program to control each execution control equipment end;

the main control equipment further comprises a control program determining module, a sub control program list determining module, a sub control equipment determining module, a sub control program determining module, a verification information generating module, a verification information sending module and a verification information receiving module, wherein the control program determining module is used for determining a control program to be called according to a calling instruction and transmitting relevant information of the control program to the sub control program list determining module;

the sub control program list definition determining module is used for determining a corresponding sub control program list according to the related information of the control program and transmitting the corresponding sub control program list definition to the sub control equipment determining module and the sub control program determining module;

the sub control equipment determining module is used for determining each sub control equipment corresponding to the called control program according to the list of the sub control program list and transmitting information of each sub control equipment to the verification information generating module;

the sub control program determining module is used for determining a sub control program verification information generating module corresponding to each sub control device corresponding to the called control program according to the sub control program list; transmitting the information of the sub-control program corresponding to each sub-control device to a verification information generation module;

the verification information generation module is used for generating verification information according to the information of each sub-control device and the information of the corresponding sub-control program of each sub-control device, and transmitting the verification information to the verification information transmission module;

the verification information sending module is used for sending the verification information to each sub-control device so that each sub-control device verifies whether the sub-control program corresponding to the invoked control program can be normally used or not, and if yes, the sub-control device returns usable confirmation information to the main control device.

4. The intelligent cable processing control system of claim 3, wherein the main control device further comprises a program backup module for backup storage of the main control program, each sub-control program and the list of sub-control programs in the control program after the control program is acquired.

5. An electronic device, comprising a memory and a processor, wherein the memory and the processor are connected with each other through a bus; the memory stores computer-executable instructions; the processor executes computer-executable instructions stored in the memory, causing the processor to perform the cable intelligent process control method according to any one of claims 1 to 2.

6. A storage medium having instructions stored thereon which, when executed on a computer, perform the cable intelligent process control method according to any one of claims 1 to 2.