CN115357000B - Production parameter issuing method, device, equipment and storage medium - Google Patents

Abstract

The application discloses a method, a device, equipment and a storage medium for issuing production parameters, wherein the method comprises the following steps: receiving a calling instruction of a manager, and performing authority verification on the calling instruction; if the authority passes the verification, receiving the process parameters issued by the manager, and determining an issuing interface corresponding to the calling instruction; and issuing the process parameters to preset production equipment based on the issuing interface, and determining whether to acquire an execution result of the production equipment. In the application, the safety of the manager is determined by verifying the calling authority, whether the issuing is successful is fed back according to the determination of the issuing interface, and whether the technological parameters are complete is further determined, so that the safety of the technological parameters in the issuing process is improved.

Description

Production parameter issuing method, device, equipment and storage medium

Technical Field

The present application relates to the field of remote control technologies, and in particular, to a method, an apparatus, a device, and a storage medium for issuing a production parameter.

Background

With the increasing digitalization and intellectualization of production equipment, the production equipment can realize real-time reporting of equipment parameters and production process parameters through a cloud platform and remotely issue optimal process parameters, so that the machine-switching time in the manual production process is reduced, and the production efficiency is improved.

The method has the advantages that the dispatching time of a user can be reduced when the parameters are issued to the production equipment from the cloud platform, but the user needs to pass through a plurality of platforms or nodes, and a network needs to be used when the parameters are issued, so that the parameters can be lost or tampered by attack due to instability of a network environment, and the safety of the cloud platform on the transmission of the production parameters of the production equipment is further reduced.

Disclosure of Invention

The application mainly aims to provide a method, a device, equipment and a storage medium for issuing production parameters, and aims to solve the technical problem that in the prior art, when a cloud platform issues the production parameters to production equipment, the parameters are easy to lose or are tampered by attack, and then the safety of the parameters issued by the cloud platform is reduced.

In order to achieve the above object, the present application provides a method for issuing production parameters, where the method for issuing production parameters includes:

receiving a calling instruction of a manager, and performing authority verification on the calling instruction;

if the authority passes the verification, receiving the process parameters issued by the manager, and determining an issuing interface corresponding to the calling instruction;

and issuing the process parameters to preset production equipment based on the issuing interface, and determining whether to acquire an execution result of the production equipment.

Optionally, the receiving a call instruction of the manager, and performing permission verification on the call instruction includes:

receiving a calling instruction of a manager;

performing authority analysis on the calling instruction to determine authority data in the calling instruction;

and carrying out error analysis on the authority data, and if the authority data is determined to be error-free, the calling instruction passes the authority verification.

Optionally, the step of performing permission analysis on the call instruction and determining permission data in the call instruction includes:

performing authority analysis on the call instruction, and determining the call time of the call instruction;

and when the calling time does not exceed the preset execution time, determining the authority data in the calling instruction.

Optionally, the performing error analysis on the authority data, and if it is determined that the authority data has no error, the step of verifying that the call instruction passes the authority includes:

carrying out error analysis on the authority data to determine the integrity of the authority data;

if the integrity is larger than a preset check value, performing authenticity detection on the authority data;

and if the authority data is real, determining that the authority data has no error, and verifying the calling instruction by the authority.

Optionally, the step of issuing the process parameter to a preset production device based on the issuing interface, and determining whether to acquire an execution result of the production device includes:

based on the issuing interface, issuing the process parameters to preset production equipment;

the issuing interface comprises a synchronous issuing interface;

if the issuing interface is a synchronous issuing interface, issuing an execution result acquisition command to the production equipment within preset time;

and acquiring the processing result of the production equipment on the process parameters within the preset time, and uploading the processing result to the manager.

Optionally, if the permission verification passes, the step of receiving the process parameter issued by the manager and determining an issuing interface corresponding to the call instruction includes:

if the authority passes the verification, analyzing the call instruction, and determining the emergency degree of the call instruction;

determining an issuing interface corresponding to the calling instruction based on the emergency degree;

the issuing interface comprises a synchronous issuing interface and an asynchronous issuing interface.

Optionally, the step of determining, based on the urgency level, an interface to be issued corresponding to the call instruction includes:

if the emergency degree is smaller than a preset emergency level, determining that an issuing interface corresponding to the calling instruction is an asynchronous issuing interface;

and if the emergency degree is greater than the emergency level, determining that the issuing interface corresponding to the calling instruction is a synchronous issuing interface.

The application also provides a production parameter issuing device, the production parameter issuing device includes:

the receiving module is used for receiving a calling instruction of the manager and verifying the authority of the calling instruction;

the calling module is used for receiving the process parameters issued by the manager and determining an issuing interface corresponding to the calling instruction if the authority verification passes;

and the selection module is used for issuing the process parameters to preset production equipment based on the issuing interface and determining whether to acquire the execution result of the production equipment.

The application also provides a device for issuing the production parameters, wherein the device for issuing the production parameters is an entity node device, and the device for issuing the production parameters comprises: the system comprises a memory, a processor and a program of the method for issuing the production parameters, wherein the program of the method for issuing the production parameters is stored in the memory and can run on the processor, and the steps of the method for issuing the production parameters can be realized when the program of the method for issuing the production parameters is executed by the processor.

The application also provides a storage medium, wherein a program for realizing the production parameter issuing method is stored on the storage medium, and the program for realizing the production parameter issuing method realizes the steps of the production parameter issuing method when being executed by a processor.

Compared with the prior art that when a cloud platform issues production parameters to production equipment, the parameters are easy to lose or are attacked and tampered, and the safety of the cloud platform issued parameters is further reduced, in the method, a call instruction of a manager is received, and authority verification is performed on the call instruction; if the authority passes the verification, receiving the process parameters issued by the manager, and determining an issuing interface corresponding to the calling instruction; and issuing the process parameters to preset production equipment based on the issuing interface, and determining whether to acquire an execution result of the production equipment. In the application, after a calling instruction of a manager is received, authority verification is carried out on the calling instruction, after the authority verification is passed, the process parameter issued by the manager is received, so that the issuing safety of the process parameter is increased, issuing interfaces corresponding to the calling instruction are determined, the process parameter is issued to production equipment according to different issuing interfaces, whether the execution result of the production equipment is obtained is determined, whether feedback issuing is successful or not is determined, and then the issuing safety of the process parameter is determined.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present application and together with the description, serve to explain the principles of the application.

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious for those skilled in the art to obtain other drawings without inventive exercise.

FIG. 1 is a schematic flow chart of a first embodiment of a method for issuing production parameters according to the present application;

FIG. 2 is a schematic flow chart of a second embodiment of a method for issuing production parameters according to the present application;

FIG. 3 is a schematic diagram of an apparatus mechanism of a hardware operating environment according to an embodiment of the present application;

fig. 4 is a schematic diagram of a network topology of a system for issuing production parameters according to the present application.

The objectives, features, and advantages of the present application will be further described with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of and not restrictive on the broad application.

In a first embodiment of the method for issuing the production parameter, referring to fig. 1, the method for issuing the production parameter includes:

step S10, receiving a calling instruction of a manager, and performing authority verification on the calling instruction;

step S20, if the authority passes the verification, receiving the process parameters issued by the manager, and determining an issuing interface corresponding to the calling instruction;

and S30, issuing the process parameters to preset production equipment based on the issuing interface, and determining whether to acquire an execution result of the production equipment.

The present embodiment is intended to: the safety of the cloud platform when issuing the technological parameters to the production equipment is improved.

In this embodiment, it should be noted that the method for issuing the production parameter may be applied to an apparatus for issuing the production parameter, where the apparatus for issuing the production parameter is subordinate to an apparatus for issuing the production parameter, and the apparatus for issuing the production parameter belongs to a system for issuing the production parameter.

Referring to fig. 4, it should be noted that the production parameter issuing system includes a manager, an internet of things platform, an edge gateway, and a production device. Wherein the manager corresponds to the MES production management system in fig. 4 and the edge gateway corresponds to the edge gateway service in fig. 4.

It should be noted that the manager may obtain the process parameters required by the production equipment, and call the internet of things platform to issue the process parameters to the internet of things platform; the issuing result of the technological parameters responded by the Internet of things can be received; the platform of the Internet of things can carry out authority verification on the calling instruction of the manager, receive the process parameters issued by the manager after the verification is passed, and issue the process parameters to the edge gateway; the system is also used for calling the corresponding issuing interface based on the calling instruction; the system is also used for obtaining the result of the corresponding action made by the production equipment fed back by the edge gateway according to the process parameters and uploading the result to the manager; the edge gateway is used for receiving process parameters issued by the Internet of things platform; the system is also used for converting the process parameters into a format which can be received by a communication protocol of the production equipment; obtaining the result of corresponding action of the production equipment according to the process parameters; the production equipment can make corresponding actions according to the process parameters.

The down sending interface at least comprises a synchronous down sending interface and an asynchronous down sending interface.

It should be noted that different issuing interfaces do not affect the issuing process of the process parameter, and different issuing interfaces can determine whether the execution result needs to be fed back to the manager after the production equipment performs the corresponding action according to the process parameter.

In this embodiment, whether the manager is safe is determined through a call instruction issued by the internet of things platform to the manager, so that it is avoided that the issued process parameters are aggressive, which causes the production equipment to be damaged, or the parameters of the production equipment to be stolen.

It should be noted that the manager may obtain the optimal process parameter from the cloud platform, and the optimal process parameter is determined by the cloud platform, where the optimal process parameter may be a control parameter when the productivity of the production equipment reaches the highest and the quality reaches the optimal.

In this embodiment, after the call instruction of the manager is subjected to authority verification, the safety of the manager is determined, the process parameters issued by the manager are obtained, and the process parameters are issued to the production equipment through the edge gateway, so that the issuing safety of the process parameters is improved, the situation that an aggressive manager issues dangerous parameters to the production equipment is avoided, after the safety of the manager is determined, an issuing interface which needs to be called by the manager is determined from the call instruction, and according to the issuing interface, whether the execution result of the production equipment needs to be obtained is determined, and the result that the production equipment makes corresponding actions according to the process parameters is obtained.

In this embodiment, referring to fig. 4, fig. 4 is a schematic network topology diagram of a system for issuing production parameters of the present application.

The method comprises the following specific steps:

step S10, receiving a calling instruction of a manager, and performing authority verification on the calling instruction;

it should be noted that the manager may obtain the most suitable process parameters for the production from the cloud platform, and remotely issue the process parameters to the production equipment, so as to reduce the tuning time of the user to the production equipment.

The process parameters may be optimal parameters determined by the cloud platform according to the production requirements of the current equipment, for example, when the production equipment needs to improve the precision of a product and reduce the production quality of the product, the fastest speed of the production of the product may be determined according to the precision, and each working parameter of the production equipment at the speed is defined as the optimal process parameter.

In this embodiment, the process parameters are remotely issued to the production equipment through the manager, the process parameters need to be issued in a network transmission manner in the issuing process, and the issued process parameters are easily intercepted and replaced in the second process, so that when the platform of the internet of things receives the call instruction of the manager, the authority of the call instruction is verified, and the manager issuing the process parameters is determined to be the parameters acquired from the cloud platform, so that the safety of the process parameters in the issuing process is ensured.

Specifically, the step of receiving a call instruction of the manager and performing authority verification on the call instruction includes:

step S11, receiving a calling instruction of a manager;

step S12, carrying out authority analysis on the calling instruction, and determining authority data in the calling instruction;

and S12, carrying out error analysis on the authority data, and if the authority data is determined to be error-free, the calling instruction passes the authority verification.

In this embodiment, the authority analysis is performed on the received call instruction of the manager, the authority data is determined from the call instruction, and if the authority data cannot be determined from the call instruction, it is directly determined that the call instruction issued by the manager has no call authority, so that the process parameter issued by the manager is not received, and the production equipment is protected.

In this embodiment, if the authority data can be determined from the call instruction, error analysis is performed on the authority data, that is, whether the authority data is complete, safe and real is determined, and when it is determined that the authority data is error-free, it is determined that the general instruction passes the authority verification.

In this embodiment, the authority verification is performed on the call instruction issued by the manager, and after the call instruction passes the authority verification, the process parameters issued by the manager are received, so that the process parameters issued by the danger manager can be isolated, and the problem that the process parameters are wrongly issued to the internet of things platform due to the instability of the network when the manager issues the process parameters through the network can be avoided, so that the internet of things platform applies the wrong process parameters to the production equipment corresponding to the internet of things.

Specifically, the step of performing permission analysis on the call instruction and determining permission data in the call instruction includes:

step S121, carrying out authority analysis on the calling instruction, and determining the calling time of the calling instruction;

the calling time can be used for managing the time when the device calls the instruction, and the time for transmitting the instruction at the normal network speed can be ignored, namely the time when the Internet of things platform receives the calling instruction can be used as the calling time.

It should be noted that, when there is network delay, the call time is the time when the platform of the internet of things receives the call instruction.

In this embodiment, since the network has a delay property, after the call instruction is acquired, the authority analysis is performed on the call instruction to determine the call time of the call instruction, and it is determined that the process parameter corresponding to the call instruction is not to be used through the call time.

It should be noted that, because the production equipment may adjust the process parameters at any time according to the requirements of the processing technology during the processing process, if the calling time is not detected, the process parameters corresponding to the previous processing technology may be applied to the current processing technology, and the processing progress of the production equipment may be affected.

And step S122, when the calling time does not exceed the preset execution time, determining the authority data in the calling instruction.

In this embodiment, the execution time may be a time for the production device to prepare for processing the product, and since the production device has a preparation time before performing formal processing on the product, the operation of the mechanical component of the device is stable, and the preparation time may be determined by a user, and if the call time of the call instruction does not exceed the preset execution time, the authority data in the call instruction is determined.

In this embodiment, the calling time of the call instruction issued by the manager is determined, the calling time is compared with the time for the production equipment to prepare for processing the product due to network delay, and when the calling time is less than the execution time, the permission data in the call instruction is determined, so that redundant work of the internet of things platform is avoided.

Specifically, the step of performing error analysis on the authority data, and if it is determined that the authority data has no error, verifying that the call instruction passes the authority verification includes:

step S121, carrying out error analysis on the authority data, and determining the integrity of the authority data;

step S122, if the integrity is larger than a preset check value, performing authenticity detection on the authority data;

step S123, if the authority data is true, determining that the authority data is error-free, and the calling instruction passes the authority verification.

In this embodiment, when a call instruction is issued from a manager to an internet of things platform due to unstable network, the authority data may be disordered due to network reasons to cause an authority data error, the integrity of the authority data is damaged, and then the call instruction cannot be subjected to authority verification, so as to avoid that process parameters are disordered due to network reasons, the call instruction is defined as an authority verification failure.

In this embodiment, because the fluctuation of the network is unavoidable, if the integrity is within the verification error, the authenticity of the authority data can be verified, and the process parameter is prevented from being attacked and replaced during network transmission, wherein the call instruction and the process parameter are bound together, and the process parameter is lost, or the call instruction is replaced and lost, or replaced accordingly.

And step S20, if the authority passes the verification, receiving the process parameters issued by the manager, and determining an issuing interface corresponding to the calling instruction.

In this embodiment, if the authority of the calling instruction of the manager passes verification, the issuing interface corresponding to the calling instruction is determined according to the calling instruction, the process parameter is issued to the edge gateway through the issuing interface, and the process parameter is issued to the production equipment by the edge gateway.

It should be noted that which issuing interface is called is determined by the cloud platform according to the importance degree of the product processed by the production equipment, for example, when the carton is cut, if the size of one of the edges needs to be determined, the cutting result of the edge is immediately obtained after the cutting of the edge is completed, and at this time, the synchronous issuing interface needs to be selected.

In this embodiment, the issuing interface is determined according to the actual situation, so that the transmission resource of the device can be saved, and the efficiency of the device can be improved.

And step S30, issuing the process parameters to preset production equipment based on the issuing interface, and determining whether to acquire the execution result of the production equipment.

In this embodiment, different issuing interfaces do not affect the issuing process of the process parameter, and the different issuing interfaces can determine whether the execution result needs to be fed back to the manager after the production equipment performs a corresponding action according to the process parameter, and if the selected issuing interface is the synchronous issuing interface, the execution structure of the production equipment on the process parameter needs to be fed back to the manager; if the selected issuing interface is the asynchronous issuing interface, the execution structure of the production equipment on the process parameters does not need to be fed back to the manager and then fed back to the cloud platform.

In this embodiment, the cloud platform can selectively receive and issue feedback of the process parameters through different issuing interfaces, so that the situation that the cloud platform cannot determine whether the parameters are successfully issued is avoided, and the waste of resources of the cloud platform caused by the fact that excessive data are fed back to the cloud platform is also avoided.

In this embodiment, the calling instruction issued by the manager is verified, and the process parameter issued by the manager is received after the verification is passed, so that intrusion of dangerous data is avoided, safety of production equipment is further guaranteed, safety and selectivity of process parameter issuing are ensured, after the verification of the calling instruction is passed, the issuing interface selected for use is determined according to the calling instruction, whether the execution result of the production equipment according to the process parameter needs to be fed back to the cloud end is determined according to the issuing interface, and the problem that resources of the cloud platform are wasted due to excessive data fed back to the cloud platform is avoided.

Compared with the prior art that when a cloud platform issues production parameters to production equipment, the parameters are easy to lose or are attacked and tampered, and the safety of the cloud platform issued parameters is further reduced, in the method, a call instruction of a manager is received, and authority verification is performed on the call instruction; if the authority passes the verification, receiving the process parameters issued by the manager, and determining an issuing interface corresponding to the calling instruction; and issuing the process parameters to preset production equipment based on the issuing interface, and determining whether to acquire an execution result of the production equipment. In the application, after a calling instruction of a manager is received, authority verification is carried out on the calling instruction, after the authority verification is passed, the process parameter issued by the manager is received, so that the issuing safety of the process parameter is increased, issuing interfaces corresponding to the calling instruction are determined, the process parameter is issued to production equipment according to different issuing interfaces, whether the execution result of the production equipment is obtained is determined, whether feedback issuing is successful or not is determined, and then the issuing safety of the process parameter is determined.

Further, based on the above-mentioned embodiment in the present application, another embodiment of the present application is provided, and in this embodiment, referring to fig. 2, the step of issuing the process parameter to a preset production device based on the issuing interface, and determining whether to acquire an execution result of the production device includes:

step S01, issuing the process parameters to preset production equipment based on the issuing interface;

the issuing interface comprises a synchronous issuing interface;

in this embodiment, the process parameters are issued to the edge gateway according to the issuing interface, the process parameters are converted into communication protocols of the production equipment through the edge gateway, and the communication protocols are forwarded to the production equipment, for example, the ModBus protocol.

Step S02, if the issuing interface is a synchronous issuing interface, issuing an execution result acquisition command to the production equipment within preset time;

in this embodiment, if the issuing interface is a synchronous issuing interface, the instruction for obtaining the execution result needs to be issued to the production equipment in advance, so that a time process is avoided, and timeliness of the obtained execution result disappears.

And S03, acquiring a processing result of the production equipment on the process parameters within the preset time, and uploading the processing result to the manager.

In this embodiment, after the execution result of the production equipment is obtained, the execution result needs to be uploaded to the manager within a preset time, and then the execution result is uploaded to the cloud platform by the manager, where the preset time for issuing the instruction for obtaining the execution result is the same as the preset time corresponding to the uploaded execution result, that is, within the preset time, the issuing of the instruction for obtaining the execution result needs to be completed, the execution result of the production equipment needs to be obtained, and the uploading of the execution result to the manager needs to be completed, so that timeliness and accuracy of the execution structure are ensured.

For example, if the preset time is 8 seconds, the issuing of the command for obtaining the execution result needs to be completed within 8 seconds after the production equipment completes the action, the execution result of the production equipment needs to be obtained, and the uploading of the execution result to the manager needs to be completed.

In this embodiment, a corresponding issuing interface is selected according to an actual situation of the production equipment, when the issuing interface is a synchronous issuing interface, execution of the production equipment is completed according to process parameters, and when the execution is successful, an execution result is fed back to the internet of things platform within a preset time, and the execution result is fed back to the manager through the internet of things platform, and when the selected issuing interface is an asynchronous issuing interface, the execution result does not need to be fed back to the manager. In this embodiment, the execution condition of the production equipment is selectively fed back to the management equipment according to the actual condition, so that the success of issuing the process parameters by the cloud platform is determined, or the execution condition of the production equipment is not fed back to the management equipment, that is, the cloud platform does not need to know whether the process parameters are successfully issued.

In this embodiment, the selective feedback may be that the cloud platform does not miss each important feedback result, and does not waste the space of the cloud platform.

Further, based on the foregoing embodiment of the present application, another embodiment of the present application is provided, in which if the permission verification passes, the step of receiving the process parameter issued by the manager and determining an issue interface corresponding to the call instruction includes:

step A10, if the authority verification is passed, analyzing the call instruction, and determining the emergency degree of the call instruction;

step A20, based on the emergency degree, determining an issuing interface corresponding to the calling instruction;

the issuing interface comprises a synchronous issuing interface and an asynchronous issuing interface.

In this embodiment, the urgency of the call instruction may be the importance of the cloud platform needing to execute the result, that is, the importance of the process parameter to the efficiency of the production equipment.

In this embodiment, the emergency degree of the call instruction is determined according to the importance degree of the execution result to the cloud platform, and the issuing interface is selected according to the importance degree of the execution result to the cloud platform, so as to determine whether the execution result of the device needs to be fed back to the cloud end.

Specifically, the step of determining, based on the urgency level, an interface to be issued corresponding to the call instruction includes:

step A21, if the emergency degree is less than a preset emergency level, determining that an issuing interface corresponding to the calling instruction is an asynchronous issuing interface;

and A22, if the emergency degree is greater than the emergency level, determining that the issuing interface corresponding to the calling instruction is a synchronous issuing interface.

In this embodiment, the importance of the execution result is determined by the cloud platform, that is, the urgency is determined by the cloud platform.

In this embodiment, the issuing interface is selected according to the importance of the execution result, that is, the importance of the process parameter, the important process parameter is issued to the production equipment through the synchronous issuing interface, the execution result is fed back to the cloud platform, the unimportant process parameter is issued to the production equipment asynchronously, and the execution result does not need to be managed, so that the important data can be received and fed back by the cloud platform, and the processing space of the cloud platform is prevented from being wasted by unnecessary data.

Referring to fig. 3, fig. 3 is a schematic device mechanism diagram of a hardware operating environment according to an embodiment of the present application.

As shown in fig. 3, the sending device of the production parameters may include: a processor 1001, such as a CPU, a memory 1005, and a communication bus 1002. The communication bus 1002 is used for realizing connection communication between the processor 1001 and the memory 1005. The memory 1005 may be a high-speed RAM memory or a non-volatile memory (e.g., a magnetic disk memory). The memory 1005 may alternatively be a memory device separate from the processor 1001 described above.

Optionally, the issuing device of the production parameter may further include a rectangular user interface, a network interface, a camera, a Radio Frequency (RF) circuit, a sensor, an audio circuit, a WiFi module, and the like. The rectangular user interface may comprise a Display screen (Display), an input sub-module such as a Keyboard (Keyboard), and the optional rectangular user interface may also comprise a standard wired interface, a wireless interface. The network interface may optionally include a standard wired interface, a wireless interface (e.g., WI-FI interface).

Those skilled in the art will appreciate that the production parameter downloader mechanism shown in FIG. 3 does not constitute a limitation of the production parameter downloader, and may include more or fewer components than those shown, or some components may be combined, or a different arrangement of components.

As shown in fig. 3, a storage 1005 as a storage medium may include an operating system, a network communication module, and a production parameter issuing program. The operating system is a program for managing and controlling hardware and software resources of the issuing equipment of the production parameters, and supports the issuing program of the production parameters and the running of other software and/or programs. The network communication module is used for realizing communication among the components in the memory 1005 and communication with other hardware and software in the production parameter issuing system.

In the apparatus for issuing production parameters shown in fig. 3, the processor 1001 is configured to execute a program for issuing production parameters stored in the memory 1005, so as to implement the steps of any one of the above-mentioned methods for issuing production parameters.

The specific implementation manner of the sending device of the production parameter of the present application is substantially the same as that of each embodiment of the sending method of the production parameter, and is not described herein again.

The application also provides a production parameter issuing device, the production parameter issuing device includes:

the receiving module is used for receiving a calling instruction of the manager and carrying out authority verification on the calling instruction;

the calling module is used for receiving the process parameters issued by the manager and determining an issuing interface corresponding to the calling instruction if the authority verification passes;

and the selection module is used for issuing the process parameters to preset production equipment based on the issuing interface and determining whether to acquire the execution result of the production equipment.

Optionally, the receiving module includes:

the receiving submodule is used for receiving a calling instruction of the manager;

the authority analysis module is used for carrying out authority analysis on the calling instruction and determining authority data in the calling instruction;

and the error analysis module is used for carrying out error analysis on the authority data, and if the authority data is determined to be error-free, the calling instruction passes the authority verification.

Optionally, the permission analysis module includes:

the authority analysis submodule is used for carrying out authority analysis on the calling instruction and determining the calling time of the calling instruction;

and the determining module is used for determining the authority data in the calling instruction when the calling time does not exceed the preset execution time.

Optionally, the error analysis module comprises:

the error analysis submodule is used for carrying out error analysis on the authority data and determining the integrity of the authority data;

the authenticity detection module is used for carrying out authenticity detection on the authority data if the integrity is greater than a preset detection value;

and the judging module is used for determining that the authority data is error-free if the authority data is real, and the calling instruction passes the authority verification.

Optionally, the selection module comprises:

the issuing module is used for issuing the process parameters to preset production equipment based on the issuing interface;

the issuing interface comprises a synchronous issuing interface;

the command module is used for issuing an execution result acquisition command to the production equipment within preset time if the issuing interface is a synchronous issuing interface;

and the feedback module is used for acquiring the processing result of the production equipment on the process parameters within the preset time and uploading the processing result to the manager.

Optionally, the invoking module includes:

the analysis module is used for analyzing the calling instruction if the authority verification passes, and determining the emergency degree of the calling instruction;

the determining submodule is used for determining an issuing interface corresponding to the calling instruction based on the emergency degree;

the issuing interface comprises a synchronous issuing interface and an asynchronous issuing interface.

Optionally, the determining sub-module includes:

the first determining unit is used for determining that the issuing interface corresponding to the calling instruction is an asynchronous issuing interface if the emergency degree is smaller than a preset emergency level;

and the second determining unit is used for determining that the issuing interface corresponding to the calling instruction is a synchronous issuing interface if the emergency degree is greater than the emergency level.

The specific implementation of the device for issuing the production parameters is basically the same as that of each embodiment of the method for issuing the production parameters, and is not described herein again.

The embodiment of the present application provides a storage medium, and the storage medium stores one or more programs, and the one or more programs are further executable by one or more processors for implementing the steps of the method for issuing the production parameter according to any one of the above-mentioned items.

The specific implementation of the storage medium of the present application is substantially the same as that of each embodiment of the foregoing method for issuing the production parameter, and is not described herein again.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrases "comprising a component of' 8230; \8230;" does not exclude the presence of another like element in a process, method, article, or apparatus that comprises the element.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

Through the description of the foregoing embodiments, it is clear to those skilled in the art that the method of the foregoing embodiments may be implemented by software plus a necessary general hardware platform, and certainly may also be implemented by hardware, but in many cases, the former is a better implementation. Based on such understanding, the technical solutions of the present invention or portions thereof contributing to the prior art may be embodied in the form of a software product, which is stored in a storage medium (such as ROM/RAM, magnetic disk, optical disk) and includes instructions for enabling a terminal device (such as a mobile phone, a computer, a server, an air conditioner, or a network device) to execute the method according to the embodiments of the present invention.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent mechanisms or equivalent processes performed by the present invention in the specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A method for issuing production parameters is characterized by comprising the following steps:

receiving a calling instruction of a manager, and performing authority verification on the calling instruction;

if the authority passes the verification, receiving the process parameters issued by the manager, and determining an issuing interface corresponding to the calling instruction;

the calling instruction is bound with the process parameters, and if the process parameters are lost or replaced, the calling instruction is lost or replaced;

based on the issuing interface, issuing the process parameters to preset production equipment, and determining whether to acquire an execution result of the production equipment;

the different issuing interfaces do not influence the issuing process of the process parameters, and the different issuing interfaces are used for determining whether the execution result needs to be fed back to the manager after determining that the production equipment makes corresponding actions according to the process parameters.

2. The method for issuing the production parameter according to claim 1, wherein the step of receiving the call instruction of the manager and performing the authority verification on the call instruction includes:

receiving a calling instruction of a manager;

performing authority analysis on the call instruction, and determining authority data in the call instruction;

and carrying out error analysis on the authority data, and if the authority data is determined to be error-free, the calling instruction passes the authority verification.

3. The method for issuing the production parameter according to claim 2, wherein the step of performing the permission analysis on the call instruction and determining the permission data in the call instruction includes:

performing authority analysis on the calling instruction to determine the calling time of the calling instruction;

and when the calling time does not exceed the preset execution time, determining the authority data in the calling instruction.

4. The method according to claim 2, wherein the step of analyzing the permission data for errors and verifying the permission if the permission data is determined to be error-free includes:

carrying out error analysis on the authority data to determine the integrity of the authority data;

if the integrity is larger than a preset check value, performing authenticity detection on the authority data;

and if the authority data is real, determining that the authority data has no error, and verifying the calling instruction by the authority.

5. The method for issuing the production parameter according to claim 1, wherein the step of issuing the process parameter to a preset production device based on the issuing interface and determining whether to acquire the execution result of the production device includes:

based on the issuing interface, issuing the process parameters to preset production equipment;

the issuing interface comprises a synchronous issuing interface;

if the issuing interface is a synchronous issuing interface, issuing an execution result acquisition command to the production equipment within preset time;

and acquiring the processing result of the production equipment on the process parameters within the preset time, and uploading the processing result to the manager.

6. The method for issuing the production parameters according to claim 1, wherein the step of receiving the process parameters issued by the manager and determining the issuing interface corresponding to the call instruction if the permission verification passes includes:

if the authority passes the verification, analyzing the calling instruction, and determining the emergency degree of the calling instruction;

determining an issuing interface corresponding to the calling instruction based on the emergency degree;

the issuing interface comprises a synchronous issuing interface and an asynchronous issuing interface.

7. The method for issuing the production parameter according to claim 6, wherein the step of determining the issuing interface corresponding to the call instruction based on the urgency level includes:

if the emergency degree is smaller than a preset emergency level, determining that an issuing interface corresponding to the calling instruction is an asynchronous issuing interface;

and if the emergency degree is greater than the emergency level, determining that the issuing interface corresponding to the calling instruction is a synchronous issuing interface.

8. The issuing device for the production parameters is characterized by comprising the following components:

the receiving module is used for receiving a calling instruction of the manager and carrying out authority verification on the calling instruction:

and the calling module is used for receiving the process parameters issued by the manager and determining an issuing interface corresponding to the calling instruction if the permission verification passes:

if the technological parameter is lost or replaced, the calling instruction is lost or replaced

The selection module is used for issuing the process parameters to preset production equipment based on the issuing interface and determining whether to acquire an execution result of the production equipment;

the different issuing interfaces do not influence the issuing process of the process parameters, and the different issuing interfaces are used for determining whether the execution result needs to be fed back to the manager after determining that the production equipment makes corresponding actions according to the process parameters.

9. The equipment for issuing the production parameters is characterized by comprising the following components: a memory, a processor and a program stored on the memory for implementing the method for issuing the production parameters,

the memory is used for storing a program for realizing the issuing method of the production parameters:

the processor is used for executing a program for realizing the method for issuing the production parameters so as to realize the steps of the method for issuing the production parameters according to any one of claims 1 to 7.

10. A storage medium, wherein a program for implementing a method for issuing production parameters is stored on the storage medium, and the program for implementing the method for issuing production parameters is executed by a processor to implement the steps of the method for issuing production parameters according to any one of claims 1 to 7.

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