CN114298561B - Method and device for generating equipment production conditions, electronic equipment and storage medium - Google Patents

Abstract

The application provides a method and a device for generating equipment production conditions, electronic equipment and a storage medium, wherein the method for generating equipment production conditions comprises the following steps: responding to triggering operation on a parameter setting interface, and acquiring at least one parameter identifier to be set under a target object according to the corresponding relation between the target object and the parameter identifier; determining a parameter relation and a parameter value of the parameter identification in response to input operation in an input box corresponding to each parameter identification; and generating production constraint conditions of the target object according to the parameter relation and the parameter value, and carrying out production according to the production constraint conditions. By adopting the technical scheme provided by the application, the parameter relation and the parameter identifier to be set under the parameter value setting target object can be input or selected through the parameter setting interface, and the production constraint condition is directly and automatically generated according to the input of the parameter setting interface so as to carry out production, so that the workload of equipment production constraint condition setting is greatly reduced, and the efficiency of equipment production constraint condition generation is improved.

Description

Method and device for generating equipment production conditions, electronic equipment and storage medium

Technical Field

The present disclosure relates to the field of electronic raw material processing, and in particular, to a method and an apparatus for generating production conditions of a device, an electronic device, and a storage medium.

Background

The MES system, namely the manufacturing execution system, is an information hub between production manufacture and target planning, and the equipment constraint is a constraint for setting conditions on equipment, and allowing the equipment to produce the constraint meeting the conditions or not meeting the conditions according to the conditions. In the conventional equipment constraint, the equipment constraint can set the key parameters according to the current production requirement and the historical experience, but in the production, the requirements on the equipment constraint can be increased or changed due to the improvement of the process, the upgrading of the product, the updating of the equipment and the change of the production requirement of the product.

At present, in the traditional equipment constraint, the new key parameters can only be added in various places such as a database, program logic and an interface by adding the key parameters supported by the conditions in the equipment constraint, and the setting conditions in the equipment constraint can be set by using the new key parameters, so that the setting process is complex, the efficiency is low, and the operation and maintenance are difficult. Therefore, how to reduce the workload of equipment production constraint condition setting and improve the efficiency of equipment production constraint condition generation becomes a problem to be solved urgently.

Disclosure of Invention

In view of this, an object of the present application is to provide a method, an apparatus, an electronic device, and a storage medium for generating a device production condition, which can input or select a parameter relationship and a parameter identifier to be set under a parameter value setting target object through a parameter setting interface, and automatically generate the production constraint condition directly according to the input at the parameter setting interface, so as to perform production, thereby greatly reducing the workload of setting the device production constraint condition, and improving the efficiency of generating the device production constraint condition.

The application mainly comprises the following aspects:

in a first aspect, an embodiment of the present application provides a method for generating a device production condition, and provides a parameter setting interface, where the parameter setting interface includes a plurality of parameter identifiers and input boxes corresponding to the parameter identifiers, and the method includes:

responding to triggering operation on the parameter setting interface, and acquiring at least one parameter identifier to be set under the target object according to the corresponding relation between the target object and the parameter identifier;

responding to input operation in an input box corresponding to each parameter identifier, and determining a parameter relation and a parameter value of the parameter identifier;

And generating a production constraint condition of the target object according to the parameter relation and the parameter value, and carrying out production according to the production constraint condition.

Further, the corresponding relation between the target object and the parameter identifier is constructed through the following steps:

classifying manufacturing processes in a production system, and determining the classification result as a plurality of target objects; each target object comprises a plurality of parameter identifiers, and the parameter identifiers are used for restraining the target object;

and constructing a corresponding relation between the target object and the parameter identifiers according to the plurality of parameter identifiers contained under each target object.

Further, the step of obtaining at least one parameter identifier to be set under the target object according to the corresponding relationship between the target object and the parameter identifier in response to the triggering operation on the parameter setting interface includes:

determining a selected target object in response to a triggering operation on the parameter setting interface;

acquiring all parameter identifiers under the target object according to the corresponding relation between the target object and the parameter identifiers;

detecting whether parameter identifiers to be set exist in all the parameter identifiers according to production requirements;

If the parameter identification to be set does not exist, the parameter identification to be set is newly added under the target object, the corresponding relation between the target object and the parameter identification is updated, all the parameter identifications under the updated target object are determined according to the updated corresponding relation between the target object and the parameter identification, at least one parameter identification to be set under the target object is obtained from all the parameter identifications, and an input frame corresponding to the parameter identification is displayed;

and if the parameter identifiers to be set exist, acquiring at least one parameter identifier to be set under the target object from all the parameter identifiers, and displaying an input frame corresponding to the parameter identifier.

Further, the step of determining the parameter relation and the parameter value of the parameter identifier in response to the input operation in the input box corresponding to each parameter identifier includes:

responding to input operation in an input box corresponding to each parameter identifier, and displaying a history setting record list of the parameter identifiers; the history setting record list comprises a plurality of history setting records, and the plurality of history setting records are displayed in the history setting record list in a sequence from high to low according to the setting frequency;

Detecting whether a required parameter relation and a parameter value exist in the history setting record list according to production requirements;

if so, responding to the selection operation of the history record list, and acquiring the parameter relation and the parameter value of the parameter identifier from the history record list;

and if the parameter identification is not present, acquiring the parameter relation and the parameter value of the parameter identification in response to the input operation at the corresponding position in the input box.

Further, the step of generating the production constraint condition of the target object according to the parameter relation and the parameter value and carrying out production according to the production constraint condition includes:

detecting whether the parameter relation and the parameter value meet production rules at the same time according to the parameter relation and the parameter value;

if not, generating an input error prompt and displaying the input error prompt on the parameter setting interface, and reacquiring a parameter relation and a parameter value to carry out production rule detection until the parameter relation and the parameter value simultaneously meet the production rule;

if the parameter relation and the parameter value are met, generating a production constraint condition of the target object, carrying out production according to the production constraint condition, and storing the production constraint condition in a history setting record list.

In a second aspect, an embodiment of the present application further provides a device for generating a device production condition, and provides a parameter setting interface, where the parameter setting interface includes a plurality of parameter identifiers and input boxes corresponding to the parameter identifiers, and the generating device includes:

the acquisition module is used for responding to the triggering operation on the parameter setting interface and acquiring at least one parameter identifier to be set under the target object according to the corresponding relation between the target object and the parameter identifier;

the determining module is used for responding to the input operation in the input box corresponding to each parameter identifier and determining the parameter relation and the parameter value of the parameter identifier;

and the generation module is used for generating the production constraint conditions of the target object according to the parameter relation and the parameter value, and carrying out production according to the production constraint conditions.

Further, the generating device further includes a construction module, where the construction module is specifically configured to:

classifying manufacturing processes in a production system, and determining the classification result as a plurality of target objects; each target object comprises a plurality of parameter identifiers, and the parameter identifiers are used for restraining the target object;

And constructing a corresponding relation between the target object and the parameter identifiers according to the plurality of parameter identifiers contained under each target object.

Further, when the obtaining module is configured to respond to a triggering operation on the parameter setting interface, and obtain at least one parameter identifier to be set under the target object according to a correspondence between the target object and the parameter identifier, the obtaining module is specifically configured to:

determining a selected target object in response to a triggering operation on the parameter setting interface;

acquiring all parameter identifiers under the target object according to the corresponding relation between the target object and the parameter identifiers;

detecting whether parameter identifiers to be set exist in all the parameter identifiers according to production requirements;

if the parameter identification to be set does not exist, the parameter identification to be set is newly added under the target object, the corresponding relation between the target object and the parameter identification is updated, all the parameter identifications under the updated target object are determined according to the updated corresponding relation between the target object and the parameter identification, at least one parameter identification to be set under the target object is obtained from all the parameter identifications, and an input frame corresponding to the parameter identification is displayed;

And if the parameter identifiers to be set exist, acquiring at least one parameter identifier to be set under the target object from all the parameter identifiers, and displaying an input frame corresponding to the parameter identifier.

In a third aspect, embodiments of the present application further provide an electronic device, including: a processor, a memory and a bus, said memory storing machine readable instructions executable by said processor, said processor and said memory communicating over the bus when the electronic device is running, said machine readable instructions when executed by said processor performing the steps of the method of generating device production conditions as described above.

In a fourth aspect, embodiments of the present application also provide a computer-readable storage medium having stored thereon a computer program which, when executed by a processor, performs the steps of the method for generating device production conditions as described above.

The embodiment of the application provides a method, a device, an electronic device and a storage medium for generating equipment production conditions, and provides a parameter setting interface, wherein the parameter setting interface comprises a plurality of parameter identifiers and input boxes corresponding to the parameter identifiers, and the method comprises the following steps: responding to triggering operation on the parameter setting interface, and acquiring at least one parameter identifier to be set under the target object according to the corresponding relation between the target object and the parameter identifier; responding to input operation in an input box corresponding to each parameter identifier, and determining a parameter relation and a parameter value of the parameter identifier; and generating a production constraint condition of the target object according to the parameter relation and the parameter value, and carrying out production according to the production constraint condition.

Therefore, by adopting the technical scheme provided by the application, the parameter relation and the parameter identifier to be set under the parameter value setting target object can be input or selected through the parameter setting interface, and the production constraint condition is directly and automatically generated according to the input of the parameter setting interface so as to carry out production, so that the workload of equipment production constraint condition setting is greatly reduced, and the efficiency of equipment production constraint condition generation is improved.

In order to make the above objects, features and advantages of the present application more comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered limiting the scope, and that other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 shows a flow chart of a method for generating device production conditions provided by an embodiment of the present application;

FIG. 2 is a flow chart illustrating another method for generating device production conditions provided by embodiments of the present application;

FIG. 3 is a schematic diagram showing one of the construction of a device for generating production conditions of equipment according to an embodiment of the present application;

FIG. 4 is a second schematic diagram of a device for generating production conditions of equipment according to an embodiment of the present application;

fig. 5 shows a schematic structural diagram of an electronic device according to an embodiment of the present application.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application, and it should be understood that the accompanying drawings in the present application are only for the purpose of illustration and description, and are not intended to limit the protection scope of the present application. In addition, it should be understood that the schematic drawings are not drawn to scale. A flowchart, as used in this application, illustrates operations implemented according to some embodiments of the present application. It should be appreciated that the operations of the flow diagrams may be implemented out of order and that steps without logical context may be performed in reverse order or concurrently. Moreover, one or more other operations may be added to the flow diagrams and one or more operations may be removed from the flow diagrams as directed by those skilled in the art.

In addition, the described embodiments are only some, but not all, of the embodiments of the present application. The components of the embodiments of the present application, which are generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present application, as provided in the accompanying drawings, is not intended to limit the scope of the application, as claimed, but is merely representative of selected embodiments of the application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present application without making any inventive effort, are intended to be within the scope of the present application.

In order to enable those skilled in the art to make and use the present disclosure, the following embodiments are provided in connection with a particular application scenario "setup of device production constraints", and it will be apparent to those skilled in the art that the general principles defined herein may be applied to other embodiments and applications scenarios without departing from the spirit and scope of the present disclosure.

The method, apparatus, electronic device or computer readable storage medium described below in the embodiments of the present application may be applied to any scenario in which a device production constraint condition needs to be set, and the embodiments of the present application do not limit a specific application scenario, and any scheme using the method, apparatus, electronic device and storage medium for generating a device production condition provided in the embodiments of the present application is within the scope of protection of the present application.

Notably, the MES system, i.e., the manufacturing execution system, is an information hub between production manufacturing and target planning, and the facility constraints are constraints that set conditions on the facility that allow the facility to produce constraints that either satisfy or do not satisfy the conditions, depending on the conditions. In the conventional equipment constraint, the equipment constraint can set the key parameters according to the current production needs and the historical experience, but in the production, the requirements on the equipment constraint can be increased and changed due to the improvement of the process, the upgrading of the product, the updating of the equipment and the change of the production requirements of the product.

At present, in the traditional equipment constraint, the new key parameters can only be added in various places such as a database, program logic, an interface and the like by adding the key parameters supported by the conditions in the equipment constraint, and the setting conditions in the equipment constraint can be set by using the new key parameters, so that the setting process is complex, the efficiency is low, and the operation and maintenance are difficult; therefore, how to reduce the workload of equipment production constraint condition setting and improve the efficiency of equipment production constraint condition generation becomes a problem to be solved urgently.

Based on this, the application provides a method, a device, an electronic device and a storage medium for generating a device production condition, and provides a parameter setting interface, where the parameter setting interface includes a plurality of parameter identifiers and input boxes corresponding to the parameter identifiers, and the generating method includes: responding to triggering operation on the parameter setting interface, and acquiring at least one parameter identifier to be set under the target object according to the corresponding relation between the target object and the parameter identifier; responding to input operation in an input box corresponding to each parameter identifier, and determining a parameter relation and a parameter value of the parameter identifier; and generating a production constraint condition of the target object according to the parameter relation and the parameter value, and carrying out production according to the production constraint condition. By adopting the technical scheme provided by the application, the parameter relation and the parameter identifier to be set under the parameter value setting target object can be input or selected through the parameter setting interface, and the production constraint condition is directly and automatically generated according to the input of the parameter setting interface so as to carry out production, so that the workload of equipment production constraint condition setting is greatly reduced, and the efficiency of equipment production constraint condition generation is improved.

In order to facilitate understanding of the present application, the technical solutions provided in the present application are described in detail below in conjunction with specific embodiments.

Referring to fig. 1, fig. 1 is a flowchart of a method for generating equipment production conditions according to an embodiment of the present application, first, a parameter setting interface is provided, where the parameter setting interface includes a plurality of parameter identifiers and input boxes corresponding to the parameter identifiers, and as shown in fig. 1, the method includes:

s101, responding to triggering operation on the parameter setting interface, and acquiring at least one parameter identifier to be set under a target object according to the corresponding relation between the target object and the parameter identifier;

in this step, the correspondence between the target object and the parameter identifier needs to be constructed by the following steps before the step S101 is performed:

1) Classifying manufacturing processes in a production system, and determining the classification result as a plurality of target objects;

in the step, each target object comprises a plurality of parameter identifiers, and the parameter identifiers are used for restraining the target object; classifying the manufacturing processes in the production system to form a plurality of process types, namely a plurality of process types in the MES system; exemplary process categories include products, product processes, procedures, equipment, recipes, customers, product lots, data collection, tools, and the like. Each process category includes a plurality of parameter identifiers; exemplary, when the process type is a product, the parameters include: product number, product name, product type, etc.; when the process type is a product lot, the parameters include: lot ID (product Lot number), product number, lot status, etc.

It should be noted that, in the embodiment of the present application, the concept OIOV (Object Item Operate Value) of the Object parameter method is provided, and a method for generating the production conditions of the device is designed, and when the process type is set in the MES or the process type is added, the process type is added to the Object (Object), that is, the target Object; for example, in modeling an MES, the type of process being modeled, such as a product, a product process, a procedure, equipment, a recipe, a customer, a product lot, a data collection, a tool, etc., is added to the target object, such that the target object contains the type of process to be set.

Here, MES modeling is the creation of a production model in the MES that determines the process type, and the target objects (objects) in the equipment constraints that need to be managed are typically less than the process type modeled in the MES. When a new process type is needed, the user needs to add the process type to the parameter setting interface, and after the new process type is created, corresponding parameters are needed to be created under the process type. After the process type is established, whether the process type is to be incorporated into the equipment production constraint management can be determined according to actual needs, and if so, the process type is added into a target Object (Object) on a parameter setting interface.

2) And constructing a corresponding relation between the target object and the parameter identifiers according to the plurality of parameter identifiers contained under each target object.

In this step, the parameter identifier (Item) is a parameter under the target Object (Object); for example, if an Object is a product lot, then an Item is a parameter under the product lot, including: lot ID (product Lot number), product number, lot status, etc. Here, all parameter identifiers (items) under a target Object (Object) are associated with the target Object (Object).

In step S101, in response to a triggering operation on the parameter setting interface, at least one parameter identifier to be set under the target object is obtained according to a correspondence between the target object and the parameter identifier;

it should be noted that, referring to fig. 2, fig. 2 is a flowchart of another method for generating equipment production conditions according to an embodiment of the present application, and as shown in fig. 2, specific steps include:

s201, responding to a triggering operation on the parameter setting interface, and determining a selected target object;

In this step, when a certain target Object is clicked on the parameter setting interface, the background acquires a selected target Object (Object) in accordance with a trigger operation (click) in response to the parameter setting interface.

S202, acquiring all parameter identifiers under the target object according to the corresponding relation between the target object and the parameter identifiers;

in this step, all parameter identifiers (Item) under the target Object (Object) selected in step S201 are obtained according to the correspondence between the target Object and the parameter identifiers constructed in step 2); it should be noted that, when clicking on the target Object (Object), an update operation is triggered to update all parameter identifiers (items) under the target Object (Object).

S203, detecting whether parameter identifiers to be set exist in all the parameter identifiers according to production requirements;

in this step, it is determined whether there is a parameter identifier to be set among all the parameter identifiers acquired in step S202 according to the production requirement.

S204, if the parameter identification to be set does not exist, newly adding the parameter identification to be set under the target object, updating the corresponding relation between the target object and the parameter identification, determining all the parameter identifications under the updated target object according to the updated corresponding relation between the target object and the parameter identification, acquiring at least one parameter identification to be set under the target object from all the parameter identifications, and displaying an input frame corresponding to the parameter identification;

In the step, if the parameter identifier to be set does not exist in all the obtained parameter identifiers according to production requirements, the parameter identifier to be set is newly added under the target object, after the new addition, the target object is clicked to trigger updating operation, the corresponding relation between the target object and the parameter identifier is updated, all the updated parameter identifiers under the target object are obtained, at least one parameter identifier to be set under the target object is obtained in all the updated parameter identifiers, and an input frame corresponding to the parameter identifier is displayed.

When the new parameter identifier needs to be added, the parameter identifier needs to be added to the corresponding interface of the process type, and then the corresponding relationship between the parameter identifier and the process type is established. When the target object is selected, all the parameter identifiers are acquired under the corresponding relation according to the selected process type in the target object, and the user can select the parameter identifier to be set from all the parameter identifiers. Because all the parameter identifiers are obtained through the corresponding relation every time the target object is selected, when the parameter identifiers are added, the parameter identifiers corresponding to the process types are also added, so that a user can obtain all the parameter identifiers under the target object through the corresponding relation between the target object and the parameter identifiers.

S205, if the parameter identification to be set exists, acquiring at least one parameter identification to be set under the target object from all the parameter identifications, and displaying an input frame corresponding to the parameter identification.

In the step, if the parameter identifier to be set exists in all the obtained parameter identifiers according to production requirements, at least one parameter identifier to be set in the target object is obtained in all the parameter identifiers in the target object, and an input frame corresponding to the parameter identifier is displayed.

Here, when the device production constraint condition is set, a certain modeled target Object (Object) is selected, for example, a product lot is selected, all parameters under the product lot are automatically synchronized into a parameter identifier (Item), the parameter identifier (Item) includes a product number, the lot number and the lot status, and a user can select the parameter identifier (Item) according to the production requirement to set the condition of the device production constraint.

It should be noted that, in the conventional device production constraint, there is no concept of a target Object (Object) and a parameter identifier (Item), and only a concept of a key parameter. Traditional equipment constraints the equipment production constraints can set conditions for key parameters, such as product numbers, lot numbers, based on current production needs and historical experience. When parameters in the MES need to be incorporated into new key parameter management (e.g., product types need to be incorporated into key parameter management), fields of the product types need to be added in the equipment production constraint table of the database, and the product types need to be added at corresponding positions of the parameter setting interface, and judgment logic of the product types needs to be added in the program code, so that the process is very complex. In the Object parameter method proposed in the present solution, because of the introduction of the correspondence between the target Object (Object) and the parameter identifier (Item), for example, the user selects the product in the target Object (Object), then all the parameter identifiers under the product can be selected, and when the production requirement is to be set according to the product type, the product type is directly selected in the parameter identifier (Item).

S102, responding to input operation in an input box corresponding to each parameter identifier, and determining a parameter relation and a parameter value of the parameter identifier;

in this step, in the input box corresponding to the parameter identifier to be set displayed in step S204 or step S205, the input operation in the input box is triggered by selection or input, so as to obtain the parameter relationship and the parameter value of the parameter identifier to be set.

S1021, responding to input operation in an input box corresponding to each parameter identifier, and displaying a history setting record list of the parameter identifiers;

in the step, when an input box corresponding to a parameter identifier to be set on a parameter setting interface is clicked, a history setting record list of the parameter identifier is displayed, wherein the history setting record list comprises a plurality of history setting records, and the plurality of history setting records are displayed in the history setting record list in a sequence from high to low according to the setting frequency.

S1022, detecting whether a required parameter relation and a parameter value exist in the history setting record list according to production requirements;

in the step, whether the required parameter relation and parameter value exist in the history setting record list is detected according to the production requirement; illustratively, the parameter relation (operation) may be a mathematical controller, in the conventional equipment production constraint, only the parameter in the judgment condition is equal to a certain value, and in the parameter relation (operation) of the present embodiment, the parameter relation (operation) includes: equal to, unequal to, in, not in, inclusive of, not inclusive of, greater than, less than, greater than or equal to, less than or equal to, and the like. The parameter Value (Value) may be a specific Value of the parameter identification, for example, in a conventional equipment production constraint, the parameter Value (Value) is only a specific Value, and the parameter Value (Value) of the present solution may be a plurality of values.

S1023, if so, responding to the selection operation of the history setting record list, and acquiring the parameter relation and the parameter value of the parameter identifier from the history setting record list;

in the step, if a record of a parameter relation and a parameter value required by the parameter identifier exists in the history setting record list according to production requirements, the record is selected, a selection operation is triggered, and a background acquires the parameter relation and the parameter value corresponding to the parameter identifier in the history setting record list.

And S1024, if the parameter identification is not present, responding to the input operation at the corresponding position in the input box, and acquiring the parameter relation and the parameter value of the parameter identification.

In the step, if the record of the parameter relation and the parameter value required by the parameter identifier does not exist in the history setting record list according to the production requirement, the parameter relation and the parameter value of the parameter identifier are respectively input at the corresponding position of the input box; here, comma intervals such as 1,2,3,4 are used if the parameter value is a plurality of values; the parameter value is used when it is a fuzzy value, for example, AB, indicating that the parameter value includes AB; illustratively, the production requirement is to set a rule on the equipment that allows production, provided that the lot number of the product lot is 01, 02, 03; first, a product lot is selected in the Object (Object), a lot number is selected in the acquired parameter identifier (Item), a parameter relation (operation) is selected or entered therein, and a parameter Value (Value) is selected or entered 01, 02, 03. It means that on this apparatus, the product batches with batch numbers 01, 02, 03 are allowed to be produced without setting three conditions, respectively 01 can be produced, 02 can be produced, and 03 can be produced.

And S103, generating production constraint conditions of the target object according to the parameter relation and the parameter value, and carrying out production according to the production constraint conditions.

In the step, according to the parameter relation and the parameter value required to be set by the parameter identification acquired in the step S1024, generating a production constraint condition of the target object, and carrying out production according to the production constraint condition; illustratively, the production constraint generated is that the product lots (objects) of lot number (Item) 01, 02, 03 (Value), where (operation) allows production, according to which production is performed.

S1031, detecting whether the parameter relation and the parameter value meet production rules at the same time according to the parameter relation and the parameter value;

in the step, whether the parameter relation and the parameter value simultaneously meet the production rule of the parameter identifier to be set or not is detected according to the parameter relation and the parameter value.

S1032, if not, generating an input error prompt and displaying the input error prompt on the parameter setting interface, and reacquiring a parameter relation and a parameter value to carry out production rule detection until the parameter relation and the parameter value simultaneously meet the production rule;

in the step, if the selected or input parameter relation and parameter value do not meet the production rule of the parameter identifier to be set, an input error prompt is generated and displayed on a parameter setting interface, a user can input or select the parameter relation and the parameter value again according to the input error prompt, and the background acquires the parameter relation and the parameter value again to carry out production rule detection until the parameter relation and the parameter value meet the production rule at the same time; for example, when the selected or entered parameter relationship and parameter Value are the product lots (objects) of which the lot number (Item) is 01, 02, 03 (Value) is (operation), but the production rule is that there is no product lot (Object) of which the lot number (Item) is 01, 02, 03 (Value), then an input error prompt is generated: the parameter relation or parameter value input error, please input again after determination, is displayed on the parameter setting interface, and the user can input or select the parameter relation and the parameter value again according to the input error prompt. For example, the updated parameter relation and the parameter Value are that the lot number (Item) of the product lot (Object) is not 01, 02, 03 (Value) among them (operation), satisfying the production rule.

S1033, if the parameter relation and the parameter value are met, generating a production constraint condition of the target object, carrying out production according to the production constraint condition, and storing the production constraint condition in a history setting record list.

In the step, if the selected or input parameter relation and parameter value meet the production rule of the parameter identifier to be set, generating a production constraint condition of the target object according to the selected or input parameter relation and parameter value, producing according to the production constraint condition, and storing the production constraint condition in a history setting record list. Illustratively, the parameter relation and the parameter Value are that the lot number (Item) of the product lot (Object) is not 01, 02, 03 (Value) therein (operation), the production rule is satisfied, the production constraint condition of the target Object (operation) is generated, the production is performed according to the production constraint condition, and the production constraint condition is saved in the history record list.

It should be noted that, there are a plurality of production constraints on a production device, when the production device performs production according to the production requirement, it further includes verifying whether the production device can perform production, if all the production constraints on the production device are satisfied, the production device can perform production, otherwise, the production device cannot perform production, the production constraint limiting the production is obtained, and the production constraint can be modified to enable the production device to perform the production at this time, or one production device is replaced to perform the production.

The embodiment of the application provides a method for generating equipment production conditions, which provides a parameter setting interface, wherein the parameter setting interface comprises a plurality of parameter identifiers and input boxes corresponding to the parameter identifiers, and the method comprises the following steps: responding to triggering operation on the parameter setting interface, and acquiring at least one parameter identifier to be set under the target object according to the corresponding relation between the target object and the parameter identifier; responding to input operation in an input box corresponding to each parameter identifier, and determining a parameter relation and a parameter value of the parameter identifier; and generating a production constraint condition of the target object according to the parameter relation and the parameter value, and carrying out production according to the production constraint condition.

Therefore, by adopting the technical scheme provided by the application, the parameter relation and the parameter identifier to be set under the parameter value setting target object can be input or selected through the parameter setting interface, and the production constraint condition is directly and automatically generated according to the input of the parameter setting interface so as to carry out production, so that the workload of equipment production constraint condition setting is greatly reduced, and the efficiency of equipment production constraint condition generation is improved.

Based on the same application conception, the embodiment of the application further provides a device for generating the equipment production condition, which corresponds to the method for generating the equipment production condition provided by the embodiment, and because the principle of solving the problem by the device in the embodiment of the application is similar to that of the method for generating the equipment production condition in the embodiment of the application, the implementation of the device can refer to the implementation of the method, and the repetition is omitted.

Referring to fig. 3 and 4, fig. 3 is one of schematic structural diagrams of a device for generating equipment production conditions provided in an embodiment of the present application, fig. 4 is a second schematic structural diagram of a device for generating equipment production conditions provided in an embodiment of the present application, first, a parameter setting interface is provided, the parameter setting interface includes a plurality of parameter identifiers and input boxes corresponding to the parameter identifiers, and as shown in fig. 3 and 4, the generating device 310 includes:

the obtaining module 311 is configured to obtain at least one parameter identifier to be set under the target object according to a corresponding relationship between the target object and the parameter identifier in response to a triggering operation on the parameter setting interface;

a determining module 312, configured to determine a parameter relationship and a parameter value of the parameter identifier in response to an input operation in an input box corresponding to each parameter identifier;

And the generating module 313 is configured to generate a production constraint condition of the target object according to the parameter relation and the parameter value, and perform production according to the production constraint condition.

Optionally, as shown in fig. 4, the generating apparatus 310 further includes a construction module 314, where the construction module 314 is specifically configured to, when configured to construct a correspondence between a target object and a parameter identifier, construct:

classifying manufacturing processes in a production system, and determining the classification result as a plurality of target objects; each target object comprises a plurality of parameter identifiers, and the parameter identifiers are used for restraining the target object;

and constructing a corresponding relation between the target object and the parameter identifiers according to the plurality of parameter identifiers contained under each target object.

Optionally, when the obtaining module 311 is configured to obtain, in response to a triggering operation on the parameter setting interface, at least one parameter identifier to be set under the target object according to a correspondence between the target object and the parameter identifier, the obtaining module 311 is specifically configured to:

determining a selected target object in response to a triggering operation on the parameter setting interface;

Acquiring all parameter identifiers under the target object according to the corresponding relation between the target object and the parameter identifiers;

detecting whether parameter identifiers to be set exist in all the parameter identifiers according to production requirements;

if the parameter identification to be set does not exist, the parameter identification to be set is newly added under the target object, the corresponding relation between the target object and the parameter identification is updated, all the parameter identifications under the updated target object are determined according to the updated corresponding relation between the target object and the parameter identification, at least one parameter identification to be set under the target object is obtained from all the parameter identifications, and an input frame corresponding to the parameter identification is displayed;

and if the parameter identifiers to be set exist, acquiring at least one parameter identifier to be set under the target object from all the parameter identifiers, and displaying an input frame corresponding to the parameter identifier.

Optionally, when the determining module 312 is configured to determine the parameter relation and the parameter value of the parameter identifier in response to the input operation in the input box corresponding to each parameter identifier, the determining module 312 is specifically configured to:

Responding to input operation in an input box corresponding to each parameter identifier, and displaying a history setting record list of the parameter identifiers; the history setting record list comprises a plurality of history setting records, and the plurality of history setting records are displayed in the history setting record list in a sequence from high to low according to the setting frequency;

detecting whether a required parameter relation and a parameter value exist in the history setting record list according to production requirements;

if so, responding to the selection operation of the history record list, and acquiring the parameter relation and the parameter value of the parameter identifier from the history record list;

and if the parameter identification is not present, acquiring the parameter relation and the parameter value of the parameter identification in response to the input operation at the corresponding position in the input box.

Optionally, when the generating module 313 is configured to generate a production constraint condition of the target object according to the parameter relation and the parameter value, and perform production according to the production constraint condition, the generating module 313 is specifically configured to:

detecting whether the parameter relation and the parameter value meet production rules at the same time according to the parameter relation and the parameter value;

If not, generating an input error prompt and displaying the input error prompt on the parameter setting interface, and reacquiring a parameter relation and a parameter value to carry out production rule detection until the parameter relation and the parameter value simultaneously meet the production rule;

if the parameter relation and the parameter value are met, generating a production constraint condition of the target object, carrying out production according to the production constraint condition, and storing the production constraint condition in a history setting record list.

The embodiment of the application provides a device for generating equipment production conditions, which provides a parameter setting interface, wherein the parameter setting interface comprises a plurality of parameter identifiers and input boxes corresponding to the parameter identifiers, and the device comprises: the acquisition module is used for responding to the triggering operation on the parameter setting interface and acquiring at least one parameter identifier to be set under the target object according to the corresponding relation between the target object and the parameter identifier; the determining module is used for responding to the input operation in the input box corresponding to each parameter identifier and determining the parameter relation and the parameter value of the parameter identifier; and the generation module is used for generating the production constraint conditions of the target object according to the parameter relation and the parameter value, and carrying out production according to the production constraint conditions.

Therefore, by adopting the technical scheme provided by the application, the parameter relation and the parameter identifier to be set under the parameter value setting target object can be input or selected through the parameter setting interface, and the production constraint condition is directly and automatically generated according to the input of the parameter setting interface so as to carry out production, so that the workload of equipment production constraint condition setting is greatly reduced, and the efficiency of equipment production constraint condition generation is improved.

Referring to fig. 5, fig. 5 is a schematic structural diagram of an electronic device according to an embodiment of the present application. As shown in fig. 5, the electronic device 500 includes a processor 510, a memory 520, and a bus 530.

The memory 520 stores machine-readable instructions executable by the processor 510, and when the electronic device 500 is running, the processor 510 communicates with the memory 520 through the bus 530, and when the machine-readable instructions are executed by the processor 510, the steps of the method for generating the device production conditions in the method embodiments shown in fig. 1 and fig. 2 can be executed, and detailed description thereof will be omitted.

The embodiment of the present application further provides a computer readable storage medium, where a computer program is stored on the computer readable storage medium, and when the computer program is executed by a processor, the steps of the method for generating the device production conditions in the method embodiments shown in fig. 1 and fig. 2 may be executed, and a specific implementation manner may refer to the method embodiments and will not be described herein.

It will be clear to those skilled in the art that, for convenience and brevity of description, specific working procedures of the above-described systems, apparatuses and units may refer to corresponding procedures in the foregoing method embodiments, and are not repeated herein.

In the several embodiments provided in this application, it should be understood that the disclosed systems, devices, and methods may be implemented in other manners. The above-described apparatus embodiments are merely illustrative, for example, the division of the units is merely a logical function division, and there may be other manners of division in actual implementation, and for example, multiple units or components may be combined or integrated into another system, or some features may be omitted, or not performed. Alternatively, the coupling or direct coupling or communication connection shown or discussed with each other may be through some communication interface, device or unit indirect coupling or communication connection, which may be in electrical, mechanical or other form.

The units described as separate units may or may not be physically separate, and units shown as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of this embodiment.

In addition, each functional unit in each embodiment of the present application may be integrated in one processing unit, or each unit may exist alone physically, or two or more units may be integrated in one unit.

The functions, if implemented in the form of software functional units and sold or used as a stand-alone product, may be stored in a non-volatile computer readable storage medium executable by a processor. Based on such understanding, the technical solution of the present application may be embodied essentially or in a part contributing to the prior art or in a part of the technical solution, in the form of a software product stored in a storage medium, including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to perform all or part of the steps of the methods described in the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a random access Memory (Random Access Memory, RAM), a magnetic disk, or an optical disk, or other various media capable of storing program codes.

Finally, it should be noted that: the foregoing examples are merely specific embodiments of the present application, and are not intended to limit the scope of the present application, but the present application is not limited thereto, and those skilled in the art will appreciate that while the foregoing examples are described in detail, the present application is not limited thereto. Any person skilled in the art may modify or easily conceive of the technical solution described in the foregoing embodiments, or make equivalent substitutions for some of the technical features within the technical scope of the disclosure of the present application; such modifications, changes or substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present application, and are intended to be included in the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (5)

1. A method for generating equipment production conditions, characterized in that a parameter setting interface is provided, the parameter setting interface comprises a plurality of parameter identifiers and input boxes corresponding to the parameter identifiers, and the generating method comprises:

step 1, responding to triggering operation on the parameter setting interface, and acquiring a parameter identifier to be set of at least one target object according to a corresponding relation between the target object and the parameter identifier;

the step 1 specifically includes:

step 101, responding to a triggering operation on the parameter setting interface, and determining a selected target object; when the selected target object is determined, triggering an updating operation to update all parameter identifiers under the target object;

102, acquiring all parameter identifiers under the target object according to the corresponding relation between the target object and the parameter identifiers; the specific construction mode of the corresponding relation between the target object and the parameter identifier is as follows: classifying manufacturing processes in a production system to form a plurality of process types, and determining the process types as a plurality of target objects; each target object comprises a plurality of parameter identifiers, and the parameter identifiers are used for restraining the target object; constructing a corresponding relation between the target object and the parameter identifiers according to the plurality of parameter identifiers contained under each target object;

Step 103, detecting whether parameter identifiers to be set exist in all the parameter identifiers according to production requirements;

step 104, if the parameter identifier to be set does not exist, newly adding the parameter identifier to be set under the target object, and updating the corresponding relation between the target object and the parameter identifier to be set, specifically, adding the parameter identifier to be set on a corresponding interface of the process type when the parameter identifier to be set is newly added, establishing the corresponding relation between the parameter identifier to be set and the process type, and after the new addition, updating the corresponding relation between the target object and the parameter identifier to be set by clicking the target object to trigger an updating operation; determining all parameter identifiers under the updated target object according to the corresponding relation between the updated target object and the parameter identifiers to be set, and acquiring the parameter identifier to be set of at least one of the target objects from all parameter identifiers; displaying an input frame corresponding to the parameter identifier to be set;

step 105, if the parameter identifier to be set exists, acquiring the parameter identifier to be set of at least one target object from all the parameter identifiers, and displaying an input frame corresponding to the parameter identifier to be set;

Step 2, responding to input operation in an input box corresponding to each parameter identifier to be set, and determining a parameter relation and a parameter value of the parameter identifier to be set;

step 3, generating a production constraint condition of the target object according to the parameter relation and the parameter value, and carrying out production according to the production constraint condition;

the step 3 specifically includes:

step 301, detecting whether the parameter relation and the parameter value meet a production rule at the same time according to the parameter relation and the parameter value; wherein the parameter relationship includes equal to, unequal to, in, out of, inclusive of, exclusive of, greater than, less than, equal to, and less than;

step 302, if not, generating an input error prompt and displaying the input error prompt on the parameter setting interface, and reacquiring a parameter relation and a parameter value to carry out production rule detection until the parameter relation and the parameter value simultaneously meet the production rule;

and 303, if the parameter relation and the parameter value are met, generating a production constraint condition of the target object, carrying out production according to the production constraint condition, and storing the production constraint condition in a history setting record list.

2. The method according to claim 1, wherein the step 2 specifically includes:

responding to input operation in an input box corresponding to each parameter identifier to be set, and displaying a history setting record list of the parameter identifiers to be set;

the history setting record list comprises a plurality of history setting records, and the plurality of history setting records are displayed in the history setting record list in a sequence from high to low according to the setting frequency;

detecting whether a required parameter relation and a parameter value exist in the history setting record list according to production requirements;

if so, responding to the selection operation of the history setting record list, and acquiring the parameter relation and the parameter value of the parameter identifier to be set from the history setting record list;

if the parameter identification to be set does not exist, responding to the input operation at the corresponding position in the input box, and acquiring the parameter relation and the parameter value of the parameter identification to be set.

3. A device for generating equipment production conditions, characterized in that a parameter setting interface is provided, the parameter setting interface comprises a plurality of parameter identifiers and input boxes corresponding to the parameter identifiers, and the device is used for executing the steps of the method for generating equipment production conditions according to any one of claims 1 to 2.

4. An electronic device, comprising: a processor, a memory and a bus, said memory storing machine readable instructions executable by said processor, said processor and said memory communicating via said bus when the electronic device is running, said machine readable instructions when executed by said processor performing the steps of the method of generating device production conditions according to any one of claims 1 to 2.

5. A computer-readable storage medium, characterized in that the computer-readable storage medium has stored thereon a computer program which, when executed by a processor, performs the steps of the method of generating device production conditions according to any one of claims 1 to 2.

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