CN114968019A - Multi-group core-pulling layout method and device, terminal equipment and storage medium - Google Patents

Abstract

The invention discloses a multi-group core-pulling layout method, a multi-group core-pulling layout device, terminal equipment and a storage medium, and relates to the technical field of core pulling, wherein the multi-group core-pulling layout method is applied to a control end, the control end comprises a first interactive interface, the first interactive interface comprises a first display area and a second display area, and the multi-group core-pulling layout method displays the first interactive interface; triggering a corresponding core pulling instruction based on the movable plate core pulling control of the first display area and the fixed plate core pulling control of the second display area; and controlling the corresponding component to execute the core pulling action according to the core pulling instruction. Through a first display area and a second display area in a displayed first interactive interface, the movable plate core pulling control and the fixed plate core pulling control are displayed in a concentrated mode, and then corresponding core pulling instructions are triggered based on the display and the components are controlled to execute core pulling actions.

Description

Multi-group core-pulling layout method and device, terminal equipment and storage medium

Technical Field

The present invention relates to the field of core pulling technologies, and in particular, to a method and an apparatus for multiple-group core pulling layout, a terminal device, and a storage medium.

Background

In the field of mechanical equipment such as die casting machines and injection molding machines, the core pulling mechanism is a common mechanism in a die, the core pulling mechanism moves along with an upper die, positioning or guiding mechanisms such as guide blocks are adopted, the core pulling precision is guaranteed, the die structure can be simplified, and the die space is reduced. At present, core pulling control in the production process is mostly completed through application software, but core pulling pages on a user interface of the existing application software are numerous and inconvenient to switch and use, and core pulling efficiency is influenced.

Therefore, it is necessary to provide a solution for improving the core pulling efficiency.

Disclosure of Invention

The invention mainly aims to provide a multi-group core-pulling layout method, a multi-group core-pulling layout device, a terminal device and a storage medium, and aims to improve core-pulling efficiency.

In order to achieve the above object, the present invention provides a multi-group core pulling layout method, which is applied to a control end, wherein the control end includes a first interactive interface, the first interactive interface includes a first display area and a second display area, and the multi-group core pulling layout method includes the following steps:

displaying the first interactive interface;

triggering a corresponding core pulling instruction based on the movable plate core pulling control of the first display area and the fixed plate core pulling control of the second display area;

and controlling the corresponding component to execute the core pulling action according to the core pulling instruction.

Optionally, the movable plate core pulling control corresponds to a plurality of groups of movable plate core pulling, the fixed plate core pulling control corresponds to a plurality of groups of fixed plate core pulling, and the movable plate core pulling control and the fixed plate core pulling control are symmetrically displayed.

Optionally, the step of triggering the corresponding core pulling instruction based on the movable plate core pulling control of the first display area and the fixed plate core pulling control of the second display area includes:

receiving a core-pulling parameter configuration instruction, and performing parameter configuration on the movable plate core-pulling control of the first display area and/or the fixed plate core-pulling control of the second display area according to the core-pulling parameter configuration instruction to obtain each configuration parameter;

and triggering a corresponding core pulling instruction based on each configuration parameter.

Optionally, the receiving a core-pulling parameter configuration instruction, and performing parameter configuration on the movable-plate core-pulling control of the first display area and/or the fixed-plate core-pulling control of the second display area according to the core-pulling parameter configuration instruction to obtain each configuration parameter includes:

receiving the core pulling parameter configuration instruction, selecting a core pulling control corresponding to the first display area and/or the second display area according to the core pulling parameter configuration instruction, and displaying a parameter variable corresponding to the core pulling control;

and obtaining the core pulling parameters input by the first interactive interface, and binding the core pulling parameters with the parameter variables of the corresponding core pulling control to obtain the configuration parameters.

Optionally, the first interactive interface further includes a third display area and a fourth display area, and the step of selecting the corresponding core-pulling control in the first display area and/or the second display area and displaying the parameter variable corresponding to the core-pulling control includes:

when a core pulling selection instruction is received, displaying a preset core pulling parameter variable corresponding to the core pulling selection instruction in the third display area, wherein the preset parameter variable comprises core entering pressure and flow, core exiting pressure and flow, and core pulling travel and time;

when a core pulling activation instruction is received, displaying a core pulling sequence parameter variable corresponding to the core pulling activation instruction in a fourth display area, wherein the fourth display area comprises a sequence sliding control, the sequence sliding control is used for adjusting the sequence parameter variable, and the sequence parameter variable is used for controlling a core entering or core exiting sequence of the core pulling.

Optionally, the third display region further includes a hold control during injection and a loose core hold control, and the step of selecting the corresponding loose core control in the first display region and/or the second display region and displaying the parameter variable corresponding to the loose core control further includes:

when an injection instruction is received, changing the injection time keeping control into a selected state, wherein the injection time keeping control is used for controlling the core-pulling inlet valve to be electrified in the injection process;

and when a core pulling maintaining instruction is received, the core pulling maintaining control is changed into a selected state, and the core pulling maintaining control is used for controlling the core pulling inlet valve to be kept electrified in the core pulling action process until the core pulling action is finished.

Optionally, the third display area further includes a functional sliding control, and the step of selecting the corresponding core-pulling control in the first display area and/or the second display area and displaying the parameter variable corresponding to the core-pulling control further includes:

and when a function adjusting instruction is received, displaying corresponding function icons according to the positions of the function sliding controls, wherein the function sliding controls are used for adjusting to the positions corresponding to the function icons so as to perform function adjustment, and the function icons comprise insert function icons, core-pulling function icons and extrusion function icons.

In addition, to achieve the above object, the present invention further provides a multiple-group core-pulling layout device, which includes a control end, where the control end includes a first interactive interface, the first interactive interface includes a first display area and a second display area, and the multiple-group core-pulling layout device further includes:

the display module is used for displaying the first interactive interface;

the triggering module is used for triggering a corresponding core pulling instruction based on the movable plate core pulling control of the first display area and the fixed plate core pulling control of the second display area;

and the execution module is used for controlling the corresponding component to execute the core pulling action according to the core pulling instruction.

In addition, in order to achieve the above object, the present invention further provides a terminal device, where the terminal device includes a memory, a processor, and multiple sets of loose core layout programs stored in the memory and operable on the processor, and the multiple sets of loose core layout programs implement the steps of the multiple sets of loose core layout method as described above when executed by the processor.

In addition, to achieve the above object, the present invention further provides a computer-readable storage medium, where multiple sets of loose core layout programs are stored, and when executed by a processor, the multiple sets of loose core layout programs implement the steps of the multiple sets of loose core layout method described above.

The invention provides a multi-group core pulling layout method, a multi-group core pulling layout device, terminal equipment and a storage medium, wherein the multi-group core pulling layout method is applied to a control end, the control end comprises a first interactive interface, the first interactive interface comprises a first display area and a second display area, and the first interactive interface is displayed; triggering a corresponding core pulling instruction based on the movable plate core pulling control of the first display area and the fixed plate core pulling control of the second display area; and controlling the corresponding component to execute core pulling action according to the core pulling instruction. Through a first display area and a second display area in a displayed first interactive interface, the movable plate core pulling control and the fixed plate core pulling control are displayed in a concentrated mode, and then corresponding core pulling instructions are triggered based on the display and the components are controlled to execute core pulling actions.

Drawings

FIG. 1 is a schematic flow chart diagram of an exemplary embodiment of a multiple-set loose core layout method according to the present invention;

FIG. 2 is a first schematic diagram of a first interactive interface in an embodiment of the present invention;

FIG. 3 is an enlarged partial view of FIG. 2;

FIG. 4 is a flowchart illustrating the step S20 in the embodiment of FIG. 1;

FIG. 5 is a second schematic diagram of a first interactive interface in an embodiment of the present invention;

FIG. 6 is a third diagram illustrating a first interactive interface according to an embodiment of the present invention;

fig. 7 is a schematic view of functional modules of a terminal device to which the multiple groups of core pulling layout devices belong according to the present invention.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The main solution of the embodiment of the invention is as follows: applying a plurality of groups of core pulling layout methods to a control end, wherein the control end comprises a first interactive interface, the first interactive interface comprises a first display area and a second display area, and the first interactive interface is displayed; triggering a corresponding core pulling instruction based on the movable plate core pulling control of the first display area and the fixed plate core pulling control of the second display area; and controlling the corresponding component to execute core pulling action according to the core pulling instruction. Through a first display area and a second display area in a displayed first interactive interface, the movable plate core pulling control and the fixed plate core pulling control are displayed in a concentrated mode, and then corresponding core pulling instructions are triggered based on the display and the components are controlled to execute core pulling actions.

Specifically, referring to fig. 1, fig. 1 is a schematic flow chart of an exemplary embodiment of a multi-group core pulling layout method according to the present invention. The multiple groups of core-pulling layout methods are applied to a control end, the control end comprises a first interactive interface, the first interactive interface comprises a first display area and a second display area, and the multiple groups of core-pulling layout methods comprise the following steps:

step S10, displaying the first interactive interface;

referring to fig. 2, fig. 2 is a first schematic diagram of a first interactive interface according to an embodiment of the present invention, and as shown in fig. 2-3 and 5-6, the first interactive interface is displayed at a control end, and the first interactive interface includes a first display area, a second display area, a third display area, and a fourth display area. The first display area is arranged to display eight sets of movable plate core pulling controls, and in other embodiments, the number of the sets of movable plate core pulling controls can be set according to actual conditions. Similarly, a plurality of sets of fixed plate core-pulling controls, such as a fixed plate core-pulling 1, a fixed plate core-pulling 2, and the like, are displayed in the second display area, and the fixed plate core-pulling and the movable plate core-pulling are displayed symmetrically. In addition, in the first display area and the second display area, the right side of each movable plate core pulling control and the left side of each fixed plate core pulling control are provided with a function icon, a selection icon and a setting icon.

Specifically, referring to fig. 3, fig. 3 is a partially enlarged schematic view of fig. 2, and as shown in fig. 3, the movable plate core 1 is a core pulling name of a first group of movable plate cores, and the core pulling name is mainly used for describing the group of core pulling, so as to distinguish the groups of core pulling; the right side of the movable plate core pulling 1 is provided with corresponding function icons, selection icons and setting icons, the function icons are used for displaying the three core pulling functions, namely the insert function, the core pulling function and the extrusion function, and the displayed function icons correspond to the core pulling functions; the selection icon is in a hook shape, when the selection icon displays the hook shape, the group of loose cores is used, and if the group of loose cores is not used, the selection icon displays a blank space; the set icon is used for setting parameters of the group of loose cores, the set icon in the embodiment of the invention is in a gear shape, when the set loose cores need to be subjected to parameter setting, the set icon is highlighted, and the set parameters of the group of loose cores are displayed in the third display area and the fourth display area.

Step S20, triggering corresponding core pulling instructions based on the movable plate core pulling control of the first display area and the fixed plate core pulling control of the second display area;

further, after the control end displays the first interactive interface, parameter setting is performed on a movable plate core-pulling control in a first display area and a fixed plate core-pulling control in a second display area of the first interactive interface, and the parameter setting mainly comprises core-pulling core-entering and core-pulling core-exiting pressure and flow setting, core-pulling limit selection stroke and time control, core-pulling as an insert, core-pulling and local pressurization (the selection item can be replaced by a core-pulling function icon in fig. 3); and maintaining the output function of the coil during core pulling injection and the output function of the coil in the whole circulation process of core pulling. When each group of buttons configured for core pulling is clicked, the variable corresponding to the group of core pulling is bound to the core pulling parameter part, and the picture does not need to be switched, so that the picture is concise and attractive. After the parameter setting is completed, the corresponding core-pulling instruction can be triggered.

And step S30, controlling the corresponding component to execute the core pulling action according to the core pulling instruction.

Furthermore, when the parameter setting of each group of core pulling of the first interactive interface is completed and the corresponding core pulling instruction is triggered, the corresponding component can be controlled to execute the core pulling action according to the core pulling instruction, and each core pulling component executes the core pulling action strictly according to the set parameters, so that the core pulling task is completed.

In this embodiment, the first interactive interface is displayed; triggering a corresponding core pulling instruction based on the movable plate core pulling control of the first display area and the fixed plate core pulling control of the second display area; and controlling the corresponding component to execute core pulling action according to the core pulling instruction. Through a first display area and a second display area in a displayed first interactive interface, the movable plate core pulling control and the fixed plate core pulling control are displayed in a concentrated mode, and then corresponding core pulling instructions are triggered based on the display and the components are controlled to execute core pulling actions.

Referring to fig. 4, fig. 4 is a detailed flowchart of step S20 in the embodiment of fig. 1. This embodiment is based on the embodiment shown in fig. 1, and in this embodiment, the step S20 includes:

step S201, receiving a core-pulling parameter configuration instruction, and performing parameter configuration on the movable plate core-pulling control of the first display area and/or the fixed plate core-pulling control of the second display area according to the core-pulling parameter configuration instruction to obtain each configuration parameter;

specifically, the process of performing parameter configuration on each group of loose cores according to the received loose core parameter configuration instruction includes:

receiving the core pulling parameter configuration instruction, selecting a core pulling control corresponding to the first display area and/or the second display area according to the core pulling parameter configuration instruction, and displaying a parameter variable corresponding to the core pulling control;

and obtaining the core pulling parameters input by the first interactive interface, and binding the core pulling parameters with the parameter variables of the corresponding core pulling control to obtain the configuration parameters.

Referring to fig. 5, fig. 5 is a second schematic diagram of the first interactive interface in the embodiment of the present invention, and as shown in fig. 5, the first interactive interface further includes a third display area and a fourth display area, and by clicking the position of each display area in fig. 5, parameter variables corresponding to each group of loose core controls may be configured, for example:

when a core pulling selection instruction is received, displaying a preset core pulling parameter variable corresponding to the core pulling selection instruction in the third display area, wherein the preset parameter variable comprises core entering pressure and flow, core exiting pressure and flow, and core pulling travel and time;

if the position shown in (1) in fig. 5 is clicked, that is, the setting icon of the gear shape beside each group of loose core control pieces is clicked, the icon is highlighted to indicate that the group of loose cores is selected, the parameters of the group of loose cores are displayed in the third display area, as shown in fig. 5, the pressure and the flow of the movable plate loose core 1 entering/exiting the core are displayed, and the parameters in the input box can be changed. The stroke or time of the loose core can be modified through a sliding control on the right side of the stroke/time, whether the loose core reaches the limit or not is judged by adopting a time mode/limit mode, if the time mode is selected, whether the limit is reached or not can be judged according to the modified time, and if the duration is 10s, the loose core is inserted for 10s and then is in place as shown in fig. 5. If the limit mode is selected, whether the loose core reaches the core entering or core exiting limit is judged according to the limit switch in-place signal.

When a core pulling activation instruction is received, displaying a core pulling sequence parameter variable corresponding to the core pulling activation instruction in a fourth display area, wherein the fourth display area comprises a sequence sliding control, the sequence sliding control is used for adjusting the sequence parameter variable, and the sequence parameter variable is used for controlling a core entering or core exiting sequence of the core pulling.

If the position shown in (2) in fig. 5 is clicked, that is, the set of cores is selected to be activated, the selection icon is displayed as a check, and if the set of cores is not activated, the selection icon is displayed as a blank, that is, the program does not run the set of cores. Referring to fig. 6, fig. 6 is a third schematic view of the first interactive interface in the embodiment of the present invention, as shown in fig. 6, activated loose cores may display a sequence of loose core exit and entry in a fourth display area, an entry and exit sequence of each group of loose cores may be adjusted by a sequential sliding control, and an upper sequence number is an entry or exit sequence thereof, for example, sequence number 1 is a first core entry or exit.

When an injection instruction is received, changing the control for keeping injection into a selected state, wherein the control for keeping injection is used for controlling the core-pulling inlet valve to be electrified in the injection process;

specifically, if the position shown in (3) in fig. 5 is clicked, that is, a holding instruction during injection is triggered, and a control is held during injection is selected, the core-pulling inlet valve is powered on in the whole injection process; if the control state is kept to be the unselected state during injection, the core-pulling inlet valve is powered off as long as the core-pulling is in place.

And when a core pulling maintaining instruction is received, the core pulling maintaining control is changed into a selected state, and the core pulling maintaining control is used for controlling the core pulling inlet valve to be kept powered in the core pulling action process until the core pulling action is completed.

Specifically, if the position shown in (5) in fig. 5 is clicked, that is, a core pulling maintaining instruction is triggered, and a core pulling maintaining control is selected, the power of the core pulling inlet valve cannot be lost according to the limit when the core pulling inlet valve is powered up to operate the core pulling outlet, and otherwise, the power of the core pulling inlet valve is lost according to the core pulling inlet limit.

The third display area further comprises a function sliding control, and when a function adjusting instruction is received, corresponding function icons are displayed according to the position of the function sliding control, wherein the function sliding control is used for adjusting to the position corresponding to each function icon to perform function adjustment, and each function icon comprises an insert function icon, a core-pulling function icon and an extrusion function icon.

Specifically, if the position shown in (4) in fig. 5 is clicked, a function adjustment instruction may be triggered, the position of the function sliding control is adjusted, three function icons are corresponding to the lower side of the function sliding control, and insert, core pulling and extrusion are sequentially performed from left to right, that is, the core pulling may be used as an insert function, the core pulling is selected as a core pulling function, and the extrusion is selected as an extrusion function, after the function is used as the extrusion function, as the delay time displayed above the function sliding control in fig. 5, the delay time corresponding to core entry is the delay time before the extrusion function is performed, and the delay time corresponding to core exit is how long the delay time is after the extrusion is performed in place, and the extrusion is performed.

And step S202, triggering corresponding core pulling instructions based on the configuration parameters.

Further, after the configuration of each group of core pulling parameters is completed, the corresponding core pulling instruction can be triggered based on each configuration parameter, so that the corresponding component is controlled to execute the core pulling action, and the core pulling task is completed.

According to the scheme, in the embodiment, each configuration parameter is obtained by specifically receiving a core-pulling parameter configuration instruction and performing parameter configuration on the movable plate core-pulling control in the first display area and/or the fixed plate core-pulling control in the second display area according to the core-pulling parameter configuration instruction; and triggering a corresponding core pulling instruction based on each configuration parameter. The movable plate core pulling control and the fixed plate core pulling control are centralized on a first interactive interface for displaying, the core pulling parameter configuration of each group is completed on the first interactive interface, then the corresponding core pulling instruction is triggered based on each configuration parameter, the components are controlled to execute the core pulling action, and the multi-group core pulling layout mode does not need to be switched on a page, so that the operation process is simpler, and the core pulling efficiency is improved.

In addition, an embodiment of the present invention further provides a multi-group core pulling layout device, where the multi-group core pulling layout device includes a control end, the control end includes a first interactive interface, the first interactive interface includes a first display area and a second display area, and the multi-group core pulling layout device further includes:

the display module is used for displaying the first interactive interface;

the triggering module is used for triggering a corresponding core pulling instruction based on the movable plate core pulling control of the first display area and the fixed plate core pulling control of the second display area;

and the execution module is used for controlling the corresponding component to execute the core pulling action according to the core pulling instruction.

In this embodiment, please refer to the above embodiments, which are not described herein again.

The executing body of the method embodiment of the present invention may be a plurality of sets of loose core layout devices or terminal devices, and the present embodiment exemplifies a plurality of sets of loose core layout devices. The above method embodiment is based on the following terminal device architecture but is not limited to the following architecture.

Specifically, referring to fig. 7, fig. 7 is a schematic view of functional modules of a terminal device to which multiple groups of core pulling layout devices belong according to the present invention. The multiple sets of core-pulling layout devices may be independent of the terminal device, and may be loaded on the terminal device in a hardware or software manner. The terminal device can be an intelligent mobile terminal with a data processing function, such as a mobile phone and a tablet personal computer, and can also be a fixed terminal device or a server with a data processing function.

In this embodiment, the multiple sets of loose core layout methods are applied to a control end, where the control end is a terminal device to which the multiple sets of loose core layout devices belong, the control end includes a first interactive interface, the first interactive interface includes a first display area, a second display area, a third display area, and/or a fourth display area, a user can operate on the first interactive interface according to display contents of the display areas, and the terminal device to which the multiple sets of loose core layout devices belong at least includes an output module 110, a processor 120, a memory 130, and a communication module 140.

An operating system and a plurality of groups of core pulling layout programs are stored in the memory 130, and the plurality of groups of core pulling layout devices can store information such as a core pulling instruction triggered by the movable plate core pulling control based on the first display area and the fixed plate core pulling control based on the second display area in the memory 130; the output module 110 may be a display screen or the like, and may present the first interactive interface or other display content for displaying information input by the user or information provided to the user. The communication module 140 may include a WIFI module, a mobile communication module, a bluetooth module, and the like, and communicates with an external device or a server through the communication module 140.

Wherein, the multiple sets of loose core layout programs in the memory 130 realize the following steps when executed by the processor:

displaying the first interactive interface;

triggering a corresponding core pulling instruction based on the movable plate core pulling control of the first display area and the fixed plate core pulling control of the second display area;

and controlling the corresponding component to execute core pulling action according to the core pulling instruction.

Further, the sets of loose core layout programs in the memory 130 when executed by the processor further implement the following steps:

receiving a core-pulling parameter configuration instruction, and performing parameter configuration on the movable plate core-pulling control of the first display area and/or the fixed plate core-pulling control of the second display area according to the core-pulling parameter configuration instruction to obtain each configuration parameter;

and triggering a corresponding core pulling instruction based on each configuration parameter.

Further, the sets of loose core layout programs in the memory 130 when executed by the processor further implement the following steps:

receiving the core pulling parameter configuration instruction, selecting a corresponding core pulling control in the first display area and/or the second display area according to the core pulling parameter configuration instruction, and displaying a parameter variable corresponding to the core pulling control;

and obtaining the core pulling parameters input by the first interactive interface, and binding the core pulling parameters with the parameter variables of the corresponding core pulling control to obtain the configuration parameters.

Further, the sets of loose core layout programs in the memory 130 when executed by the processor further implement the following steps:

when a core pulling selection instruction is received, displaying a preset core pulling parameter variable corresponding to the core pulling selection instruction in the third display area, wherein the preset parameter variable comprises core entering pressure and flow, core exiting pressure and flow, and core pulling travel and time;

when a core pulling activation instruction is received, displaying a core pulling sequence parameter variable corresponding to the core pulling activation instruction in a fourth display area, wherein the fourth display area comprises a sequence sliding control, the sequence sliding control is used for adjusting the sequence parameter variable, and the sequence parameter variable is used for controlling a core entering or core exiting sequence of the core pulling.

Further, the sets of loose core layout programs in the memory 130 when executed by the processor further implement the following steps:

when an injection instruction is received, changing the injection time keeping control into a selected state, wherein the injection time keeping control is used for controlling the core-pulling inlet valve to be electrified in the injection process;

and when a core pulling maintaining instruction is received, the core pulling maintaining control is changed into a selected state, and the core pulling maintaining control is used for controlling the core pulling inlet valve to be kept electrified in the core pulling action process until the core pulling action is finished.

Further, the sets of loose core layout programs in the memory 130 when executed by the processor further implement the following steps:

and when a function adjusting instruction is received, displaying corresponding function icons according to the positions of the function sliding controls, wherein the function sliding controls are used for adjusting to the positions corresponding to the function icons so as to perform function adjustment, and the function icons comprise insert function icons, core-pulling function icons and extrusion function icons.

According to the scheme, the first interactive interface is displayed specifically; triggering a corresponding core pulling instruction based on the movable plate core pulling control of the first display area and the fixed plate core pulling control of the second display area; and controlling the corresponding component to execute core pulling action according to the core pulling instruction. The movable plate core pulling control and the fixed plate core pulling control are displayed in a centralized mode through the first display area and the second display area in the displayed first interactive interface, and then the corresponding core pulling instruction is triggered based on the core pulling control and the components are controlled to execute core pulling actions.

In addition, an embodiment of the present invention further provides a terminal device, where the terminal device includes a memory, a processor, and multiple sets of loose core layout programs that are stored in the memory and are executable on the processor, and the multiple sets of loose core layout programs implement the steps of the multiple sets of loose core layout method described above when executed by the processor.

Since the multiple sets of loose core layout programs are executed by the processor, all technical solutions of all the embodiments are adopted, so that at least all the beneficial effects brought by all the technical solutions of all the embodiments are achieved, and detailed description is omitted here.

In addition, an embodiment of the present invention further provides a computer-readable storage medium, where multiple sets of loose core layout programs are stored on the computer-readable storage medium, and when executed by a processor, the multiple sets of loose core layout programs implement the steps of the multiple sets of loose core layout method described above.

Since the multiple sets of loose core layout programs are executed by the processor, all technical solutions of all the embodiments are adopted, so that at least all the beneficial effects brought by all the technical solutions of all the embodiments are achieved, and detailed description is omitted here.

Compared with the prior art, the multiple groups of core pulling layout methods, the multiple groups of core pulling layout devices, the terminal equipment and the storage medium provided by the embodiment of the invention display the first interactive interface; triggering a corresponding core pulling instruction based on the movable plate core pulling control of the first display area and the fixed plate core pulling control of the second display area; and controlling the corresponding component to execute core pulling action according to the core pulling instruction. Through a first display area and a second display area in a displayed first interactive interface, the movable plate core pulling control and the fixed plate core pulling control are displayed in a concentrated mode, and then corresponding core pulling instructions are triggered based on the display and the components are controlled to execute core pulling actions.

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 system 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 system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or system that comprises the element.

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

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solutions of the present application may be embodied in the form of a software product, which is stored in a storage medium (e.g., ROM/RAM, magnetic disk, optical disk) and includes instructions for enabling a terminal device (e.g., a mobile phone, a computer, a server, a controlled terminal, or a network device) to execute the method of each embodiment of the present application.

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 modifications of equivalent structures and equivalent processes, which are made by using the contents of the present 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 multi-group core pulling layout method is characterized in that the multi-group core pulling layout method is applied to a control end, the control end comprises a first interactive interface, the first interactive interface comprises a first display area and a second display area, and the multi-group core pulling layout method comprises the following steps:

displaying the first interactive interface;

triggering a corresponding core pulling instruction based on the movable plate core pulling control of the first display area and the fixed plate core pulling control of the second display area;

and controlling the corresponding component to execute core pulling action according to the core pulling instruction.

2. The multi-group core pulling layout method according to claim 1, wherein the movable plate core pulling control corresponds to a plurality of groups of movable plate core pulling, the fixed plate core pulling control corresponds to a plurality of groups of fixed plate core pulling, and the movable plate core pulling control and the fixed plate core pulling control are symmetrically displayed.

3. The multi-group core-pulling layout method according to claim 1, wherein the step of triggering the corresponding core-pulling instruction based on the movable-board core-pulling control in the first display area and the fixed-board core-pulling control in the second display area comprises:

receiving a core-pulling parameter configuration instruction, and performing parameter configuration on the movable plate core-pulling control of the first display area and/or the fixed plate core-pulling control of the second display area according to the core-pulling parameter configuration instruction to obtain each configuration parameter;

and triggering a corresponding core pulling instruction based on each configuration parameter.

4. The multi-group core-pulling layout method according to claim 3, wherein the step of receiving a core-pulling parameter configuration instruction and performing parameter configuration on the movable-plate core-pulling control in the first display area and/or the fixed-plate core-pulling control in the second display area according to the core-pulling parameter configuration instruction to obtain each configuration parameter comprises:

receiving the core pulling parameter configuration instruction, selecting a core pulling control corresponding to the first display area and/or the second display area according to the core pulling parameter configuration instruction, and displaying a parameter variable corresponding to the core pulling control;

and obtaining the core pulling parameters input by the first interactive interface, and binding the core pulling parameters with the parameter variables of the corresponding core pulling control to obtain the configuration parameters.

5. The multi-group loose core layout method according to claim 4, wherein the first interactive interface further includes a third display area and a fourth display area, and the step of selecting the corresponding loose core control in the first display area and/or the second display area and displaying the parameter variable corresponding to the loose core control includes:

when a core pulling selection instruction is received, displaying a preset core pulling parameter variable corresponding to the core pulling selection instruction in the third display area, wherein the preset parameter variable comprises core entering pressure and flow, core exiting pressure and flow, and core pulling travel and time;

when a core pulling activation instruction is received, displaying a core pulling sequence parameter variable corresponding to the core pulling activation instruction in a fourth display area, wherein the fourth display area comprises a sequence sliding control, the sequence sliding control is used for adjusting the sequence parameter variable, and the sequence parameter variable is used for controlling a core entering or core exiting sequence of the core pulling.

6. The multi-group core-pulling layout method according to claim 5, wherein the third display region further includes a shot-time holding control and a core-pulling holding control, and the step of selecting the corresponding core-pulling control in the first display region and/or the second display region and displaying the parameter variable corresponding to the core-pulling control further includes:

when an injection instruction is received, changing the injection time keeping control into a selected state, wherein the injection time keeping control is used for controlling the core-pulling inlet valve to be electrified in the injection process;

and when a core pulling maintaining instruction is received, the core pulling maintaining control is changed into a selected state, and the core pulling maintaining control is used for controlling the core pulling inlet valve to be kept electrified in the core pulling action process until the core pulling action is finished.

7. The multi-group loose core layout method according to claim 5, wherein the third display area further includes a functional slide control, and the step of selecting the corresponding loose core control in the first display area and/or the second display area and displaying the parameter variable corresponding to the loose core control further includes:

and when a function adjusting instruction is received, displaying corresponding function icons according to the positions of the function sliding controls, wherein the function sliding controls are used for adjusting to the positions corresponding to the function icons so as to perform function adjustment, and the function icons comprise insert function icons, core-pulling function icons and extrusion function icons.

8. The utility model provides a multiunit layout device of loosing core, its characterized in that, multiunit layout device of loosing core includes the control end, the control end includes first interactive interface, first interactive interface includes first display area and second display area, the multiunit layout device of loosing core still includes:

the display module is used for displaying the first interactive interface;

the triggering module is used for triggering a corresponding core pulling instruction based on the movable plate core pulling control of the first display area and the fixed plate core pulling control of the second display area;

and the execution module is used for controlling the corresponding component to execute the core pulling action according to the core pulling instruction.

9. A terminal device, characterized in that the terminal device comprises a memory, a processor and a plurality of sets of loose core layout programs stored on the memory and executable on the processor, and that the plurality of sets of loose core layout programs, when executed by the processor, implement the steps of the plurality of sets of loose core layout method according to any one of claims 1 to 7.

10. A computer-readable storage medium having stored thereon sets of loose core layout programs, which when executed by a processor implement the steps of the sets of loose core layout methods according to any one of claims 1-7.

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