CN113434242B - Newly-built method and device for dyeing process, electronic equipment, storage medium and management system - Google Patents

Abstract

The invention discloses a new construction method, a new construction device, electronic equipment, a storage medium and a management system of a dyeing process, wherein by applying the method, process workers can perform editing operation on a visual dyeing process editing interface, select and add a main function step required by the new dyeing process through a main function step list in a function library area, select and add a parallel function step required by a specified main function step in a parallel function step list in the function library area, and edit specific process parameters of the main function step or the parallel function step through a process parameter editing area; the main function adding step and the parallel function adding step do not need to be repeatedly searched, the parallel function step can be inherited, the dyeing process is convenient and visual to edit, in addition, the main function step required by the newly-built dyeing process is added in a visual dragging mode, and the working efficiency of process personnel can be effectively improved.

Description

Newly-built method and device for dyeing process, electronic equipment, storage medium and management system

Technical Field

The invention relates to the technical field of computers, in particular to a new method, a new device, electronic equipment, a storage medium and a management system for a dyeing process.

Background

The grey cloth is processed into finished cloth from fabrics through a series of steps of pretreatment, dyeing, printing, finishing and the like, generally speaking, different dyeing processes need to be set according to different fabric types and clothing performance requirements, the editing operation of the related dyeing processes on the market is mechanical, tedious and humanized, and generally several hours are needed for editing one dyeing process (for example, the adding, searching, selecting and editing one by one parameters are needed when one functional step is added). The visual effect on the interface is poor, the primary and secondary distinctiveness is poor, the whole process is complicated, and the learning cost is high.

Disclosure of Invention

The invention aims to provide a new method, a device, electronic equipment, a storage medium and a management system for a dye process, which can improve the working efficiency of process personnel.

In order to solve the technical problems, the invention adopts the following technical scheme:

the invention provides a new construction method of a dyeing process in a first aspect, which comprises the following steps: creating a new dyeing process; displaying a dyeing process editing interface for editing the newly-built dyeing process, wherein the dyeing process editing interface comprises a function library area, a current dyeing process editing area and a process parameter editing area, and the function library area is used for displaying a main function step list; in response to the operation of selecting the main function step required by adding the new dyeing process in the main function step list, loading the main function step required by the new dyeing process and controlling a current dyeing process editing area to display the main function step required by the new dyeing process; when receiving an operation of selecting a main function step in the current dye process editing area, controlling a process parameter editing area to display a process parameter configuration menu corresponding to the selected main function step; responding to the configuration operation in the process parameter configuration menu, determining process parameter configuration data corresponding to the selected main function step, and controlling the current dye process editing area to display the process parameters corresponding to the selected main function step; and when an operation instruction for editing and confirming is received, generating a dyeing process file according to the main function steps required by the newly-built dyeing process and the process parameter configuration data corresponding to each main function step.

The invention provides a new device for a dyeing process, which comprises the following steps: the dyeing process creating module is used for creating a new dyeing process; the editing interface display module is used for displaying a dyeing process editing interface used for editing the newly-built dyeing process, the dyeing process editing interface comprises a function library area, a current dyeing process editing area and a process parameter editing area, and the function library area is used for displaying a main function step list; the function adding module is used for responding to the operation of selecting the main function step required by adding the new dyeing process in the main function step list, loading the main function step required by the new dyeing process, and controlling the current dyeing process editing area to display the main function step required by the new dyeing process; the process parameter configuration module is used for controlling the process parameter editing area to display a process parameter configuration menu corresponding to the selected main function step when receiving an operation of selecting the main function step in the current dyeing process editing area, determining process parameter configuration data corresponding to the selected main function step in response to the configuration operation in the process parameter configuration menu, and controlling the current dyeing process editing area to display the process parameter corresponding to the selected main function step; and the process file generation module is used for generating the dyeing process file according to the main function steps required by the newly-built dyeing process and the process parameter configuration data corresponding to each main function step when receiving the operation instruction confirmed by editing.

A third aspect of the present invention provides an electronic device, which comprises at least one processor and at least one memory communicatively connected to the processor, wherein the memory stores program instructions, and the program instructions, when invoked and executed by the processor, implement the dye process new creation method according to any one of claims 1 to 6.

A fourth aspect of the present invention provides a storage medium storing program instructions which, when executed by a processor, implement the above-described dye process new creation method.

In a fifth aspect, the present invention provides a management system, which includes a dyeing machine control device and a central monitoring platform, wherein the dyeing machine control device includes a processor and a memory communicatively connected to the processor, and the memory stores program instructions, and the program instructions are called by the processor to implement the new method of dyeing process.

The beneficial technical effects of the invention are as follows: by applying the method, a process worker can perform editing operation on a visual dye process editing interface, select and add the main function steps required by the newly-built dye process through the main function step list in the function library area, select and add the parallel function steps required by the appointed main function step in the parallel function step list in the function library area, and edit the specific process parameters of the main function steps or the parallel function steps through the process parameter editing area; the main function adding step does not need repeated searching operation, so that the dyeing process is convenient and visual to edit, and the working efficiency of process personnel can be effectively improved.

Drawings

FIG. 1 is a schematic structural diagram of a newly-built device of a dyeing process of the invention;

FIG. 2 is a schematic diagram illustrating the effect of the dye process editing interface of the present invention in displaying a list of main function steps;

FIG. 3 is a schematic diagram illustrating the effect of the dye process editing interface of the present invention in displaying a list of parallel function steps;

FIG. 4 is a schematic flow chart of a newly-built method of a dyeing process in one embodiment of the present invention;

FIG. 5 is a schematic flow chart of a newly-built method of a dyeing process in another embodiment of the invention;

fig. 6 is a schematic structural diagram of a management system according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood by those skilled in the art, the present invention is further explained below with reference to the accompanying drawings and examples.

The invention provides a newly-built device for a dyeing process. As shown in fig. 1, in an embodiment of the present invention, the new dye process creating apparatus includes a dye process creating module 101, an editing interface display module 102, a function adding module 103, a process parameter configuring module 104, and a process file generating module 105.

The dyeing process creating module 101 is used for creating a new dyeing process.

In specific implementation, when receiving a new dyeing process establishing instruction, the dyeing process establishing module 101 displays a new dyeing process establishing interface, where the new dyeing process establishing interface includes a name configuration frame for configuring a name of a dyeing process, a machine type selection menu for configuring a machine type to which the dyeing process belongs (a workshop has different series of devices, such as a gas-liquid dyeing machine, a liquid flow dyeing machine, and the like), and a dyeing process group selection menu for configuring a dyeing process group to which the dyeing process belongs (the dyeing process group includes pretreatment, dyeing, post-treatment, and the like of a process). A process worker can input the name of the newly created dyeing process in the name configuration box through an input device such as a keyboard, a touch screen and the like, and the dyeing process creation module 101 responds to the input operation in the name configuration box and determines configuration data of the name of the newly created dyeing process; a process worker can select a machine type to which a new dyeing process belongs from the machine type selection menu through an input device such as a mouse and a touch screen, and the dyeing process creation module 101 determines configuration data of the machine type to which the new dyeing process belongs in response to selection operation in the machine type selection menu; a process worker can select a dye process group to which a new dye process belongs from the dye process group selection menu through an input device such as a mouse, a touch screen and the like, and the dye process creation module 101 responds to the selection operation in the dye process group selection menu and determines configuration data of the dye process group to which the new dye process belongs; when receiving an operation instruction for confirming the configuration, for example, when detecting that a process worker clicks a "confirm" key, the dye process creation module 101 creates a new dye process according to the configuration data of the name of the new dye process, the configuration data of the model to which the new dye process belongs, and the configuration data of the dye process group to which the new dye process belongs.

The editing interface display module 102 is configured to display a dye process editing interface for editing the newly created dye process, as shown in fig. 2, the dye process editing interface includes a function library area 10, a current dye process editing area 20, and a process parameter editing area 30, where the function library area 10 is configured to display a main function step list.

After the new dyeing process created by the dyeing process creation module 101 is completed, the editing interface display module 102 displays a dyeing process editing interface in which a process worker can edit the new dyeing process created by the dyeing process creation module 101. As shown in fig. 2, in one embodiment, the main function step list includes 7 main function categories of "enter water", "system", "drain water", "call", "dye", "charge", and "wash water", each main function category includes several main function steps, for example, the "enter water" main function category includes "enter water" main function step, and the "dye" main function category includes "bucket directly charge" main function step; in other embodiments of the present invention, other main function categories may be added as needed. All the dyeing process processes are formed by combining main functional steps into each step required by the dyeing process, but different dyeing process processes only select partial main functional steps from the main functional steps to be connected in series according to requirements (different customer requirements and different fabric functional requirements).

The function adding module 103 is configured to, in response to an operation of selecting a main function step required for adding the new dye process in the main function step list, load the main function step required for the new dye process and control the current dye process editing area 20 to display the main function step required for the new dye process.

And selecting and adding the main function steps required by the newly-built dye process in the main function step list by a process worker in a mode of mouse dragging or mouse double-clicking. The function adding module 103 responds to the operation of the process worker selecting the main function step required for adding the new dye process in the main function step list, loads the main function step required for the new dye process from the dye process function library, and controls the current dye process editing area 20 to display the loaded main function step required for the new dye process. As shown in fig. 2, the main function step display bar of the current dye process editing area 20 displays the serial number, icon, name and initial process parameters of the main function step. The dye process function library comprises all main function step modules required by the dye process, and can be stored locally or in a cloud server.

The process parameter configuration module 104 is configured to, when receiving an operation of selecting a main function step in the current dye process editing area 20, control the process parameter editing area 30 to display a process parameter configuration menu corresponding to the selected main function step, and determine process parameter configuration data corresponding to the selected main function step in response to the configuration operation in the process parameter configuration menu.

The process parameter editing area 30 is used to edit the specific process parameters of each main functional step. When a process worker selects a main function step in the current dye process editing area 20 by clicking with a mouse or the like, the process parameter configuration module 104 responds to the selected operation of the process worker, and controls the process parameter editing area 30 to display a process parameter configuration menu corresponding to the selected main function step.

As shown in fig. 2, in an embodiment, the process parameter configuration menu corresponding to the "water level enters water" main function step includes three parameter configuration menus of "enter water valve selection", "water level" and "whether to subsequently replenish water", and a process worker may configure the process parameters of the main function step in the configuration menu. The process parameter configuration module 104 is responsive to the above configuration operations by process personnel to determine process parameter configuration data corresponding to the selected primary functional step. In a preferred embodiment of the present invention, after the process parameter configuration module 104 determines the process parameter configuration data corresponding to the selected main function step, the current dye process editing area 20 displays the process parameter corresponding to the selected main function step. At this time, the sequence number, icon and name of the main function step are displayed on the left side of the main function step display bar of the current dye process editing area 20, and the specific process parameters of the main function step are displayed on the right side.

And the process file generation module 105 is configured to generate a dyeing process file according to the main function steps required by the new dyeing process and the process parameter configuration data corresponding to each main function step when receiving the operation instruction confirmed by editing.

The process staff can input the operation instruction for editing confirmation by clicking a 'confirmation' key and the like, and the process file generation module 105 generates the dyeing process file according to the main function steps required by the newly-built dyeing process and the process parameter configuration data corresponding to each main function step when receiving the operation instruction for editing confirmation.

According to the newly-built device for the dyeing process, the visual dyeing process editing interface comprises the three display areas of the function library area 10, the current dyeing process editing area 20 and the process parameter editing area 30, the main function steps required by the newly-built dyeing process are selectively added in the main function step list in the function library area 10, the specific process parameters of the main function steps are edited in the process parameter editing area 30, the operation of repeatedly searching the main function steps is not needed when the main function steps are added, the dyeing process editing is convenient and visual, and the working efficiency of process workers can be effectively improved. In addition, the main function steps required by the newly-built dyeing process are added in a dragging mode, the dyeing process is edited in a visual dragging mode and is more humanized, and the working efficiency of process personnel is further improved.

In a preferred embodiment of the present invention, the function library region 10 includes a main function bar and a parallel function bar, and the main function bar and the parallel function bar can be switched and displayed by mouse clicking or touch sliding. The main function bar is used for displaying the main function step list, and the parallel function bar is used for displaying the parallel function step list.

In this embodiment, the function adding module 103 is further configured to, in response to an operation of selecting, in the parallel function step list, an operation of adding a parallel function step required for a specified main function step, load the parallel function step required for the specified main function step, and control the current dye editing area 20 to display the parallel function step required for the specified main function step.

The process staff can select a designated main function step in a mouse clicking mode, and then select a parallel function step required by adding the designated main function step in the parallel function step list in a mouse dragging or mouse double-clicking mode. The function adding module 103 responds to the operation of the parallel function step required by the process staff to select and add the specified main function step in the parallel function step list, loads the parallel function step required by the specified main function step from the dye process function library, and controls the current dye process editing area 20 to display the loaded parallel function step required by the specified main function step. As shown in fig. 3, in the step of adding the fan parallel function to the main function step of "water level enters into the water", the fan parallel function step is dragged from the parallel function step list to a position below the main function step of "water level enters into the water" in the current dye process editing area 20, and at this time, the parallel function step display bar of the current dye process editing area 20 displays the icon, the name and the initial process parameters of the fan parallel function step. The dyeing process function library comprises all parallel function step modules required by the main function step, and can be stored locally or in a cloud server.

The process parameter configuring module 104 is further configured to, when receiving an operation of selecting a parallel function step in the current dye process editing area 20, control the process parameter editing area 30 to display a process parameter configuration menu corresponding to the selected parallel function step, and determine, in response to a configuration operation in the process parameter configuration menu corresponding to the selected parallel function step, process parameter configuration data corresponding to the selected parallel function step.

At this time, the process parameter editing area 30 is used to edit the specific process parameters of each parallel function step. When a process worker selects a parallel function step in the current dye process editing area 20 by clicking with a mouse or the like, the process parameter configuration module 104 responds to the selected operation of the process worker, and controls the process parameter editing area 30 to display a process parameter configuration menu corresponding to the selected parallel function step.

As shown in fig. 3, in an embodiment, the process parameter configuration menu corresponding to the fan parallel function step includes three parameter configuration menus of fan speed, main pump speed, and nozzle, and a process worker may configure the process parameters of the fan parallel function step in the configuration menus. The process parameter configuration module 104 responds to the above configuration operations by process personnel to determine process parameter configuration data corresponding to the selected "fan" parallel function step. In a preferred embodiment of the present invention, the process parameter configuration module 104 controls the current dye process editing area 20 to display the process parameters corresponding to the selected parallel function step after determining the process parameter configuration data corresponding to the selected parallel function step. At this time, the serial number, icon and name of the main function step are displayed on the left side of the parallel function step display bar of the current dye process editing area 20, and the specific process parameters of the main function step are displayed on the right side of the display bar.

In the newly-built device for the dyeing process in the embodiment, the parallel function step required by the specified main function step is selected and added in the parallel function step list in the function library area 10, and when the parallel function step is added, the operation of repeatedly searching the parallel function step is not needed, so that the dyeing process is convenient and intuitive to edit, and the working efficiency of process personnel can be effectively improved. In addition, the main function steps required by the new dyeing process are added in a dragging mode, the dyeing process is edited in a visual dragging mode and is more humanized, and the working efficiency of process personnel is further improved.

In a preferred embodiment of the present invention, upon receiving an operation of selecting a main function step in the current dye edit area 20, only the parallel function step corresponding to the selected main function step is displayed in the parallel function step list.

As shown in fig. 3, a process worker selects a main function step of "water level enters water" in the current dye process editing area 20 by means of mouse click and the like, and only displays four parallel function steps corresponding to the main function step of "water level enters water" in a parallel function step list in the function library area 10, such as "speed", "blower", "cloth lifting speed" and "cloth swinging speed", and does not involve parallel function steps unrelated to the main function step of "water level enters water", such as "bucket feeding speed". Moreover, after the process staff drag the 'fan' parallel function step from the parallel function step list to the position below the 'water level entering' main function step in the current dye process editing area 20, the 'fan' parallel function step will disappear from the parallel function step list, thereby avoiding the repeated addition of the parallel function step.

In the newly-built device for the dyeing process in the embodiment, only the parallel function step corresponding to the selected main function step is displayed in the parallel function step list, and the parallel function step cannot be repeatedly added, so that misoperation of workers can be prevented.

In a preferred embodiment of the present invention, the process parameter configuration module 104 is further configured to automatically load a parallel function step corresponding to a previously added main function step for a currently added main function step when it is detected that the currently added main function step is associated with the previously added main function step.

Because the parallel function step relates to the function parameter setting of continuous operation of the equipment, each main function step does not need to be manually added with the parallel function step once, and the parallel function step can automatically adopt the characteristic of inheriting the last main function step. As shown in fig. 3, in one embodiment, "water level entry" and "water level drainage" are two corresponding main functional steps in the running control of the dyeing machine, which are associated by presetting. In the newly-built process of the dyeing process, a main function step of water level entering is added firstly, and a parallel function step of a fan is added for the main function step of water level entering, when the main function step of water level discharging is added, the process parameter configuration module 104 detects that the main function step of water level discharging and the previously added main function step of water level entering are in a correlation relation, the process parameter configuration module 104 automatically loads the parallel function step of the fan for the main function step of water level discharging, and controls the current dyeing process editing area 20 to display the parallel function step of the fan below the main function step of water level discharging.

In the newly-built device for the dyeing process in this embodiment, when the process parameter configuration module 104 detects that the currently added main function step and the previously added main function step have an association relationship, the parallel function step is automatically added to the currently added main function step, so that the work efficiency of process personnel is further improved.

The invention provides a new construction method of a dyeing process. As shown in fig. 4, in an embodiment of the present invention, the new method of the dye process includes steps S101 to S106.

S101, creating a new dyeing process.

This step is performed by the dye process creation module 101. In specific implementation, when receiving a new dye process creation instruction, the dye process creation module 101 displays a new dye process creation interface, where the new dye process creation interface includes a name configuration frame for configuring a dye process name, a machine type selection menu for configuring a machine type to which the dye process belongs (where a workshop includes different series of devices, such as a gas-liquid dyeing machine, a liquid flow dyeing machine, and the like), and a dye process group selection menu for configuring a dye process group to which the dye process belongs (where the dye process group includes pretreatment, dyeing, or post-treatment of a process). A process worker can input the name of the newly created dyeing process in the name configuration frame through an input device such as a keyboard and a touch screen, and the dyeing process creation module 101 responds to the input operation in the name configuration frame and determines the configuration data of the name of the newly created dyeing process; a process worker can select a machine type to which a new dyeing process belongs from the machine type selection menu through an input device such as a mouse and a touch screen, and the dyeing process creation module 101 determines configuration data of the machine type to which the new dyeing process belongs in response to selection operation in the machine type selection menu; a process worker can select a dyeing program group to which a new dyeing program belongs from the dyeing program group selection menu through an input device such as a mouse, a touch screen and the like, and the dyeing program creating module 101 responds to the selection operation in the dyeing program group selection menu and determines configuration data of the dyeing program group to which the new dyeing program belongs; when receiving an operation instruction for confirming the configuration, for example, when detecting that a process worker clicks a "confirm" key, the dye process creation module 101 creates a new dye process according to the configuration data of the name of the new dye process, the configuration data of the model to which the new dye process belongs, and the configuration data of the dye process group to which the new dye process belongs.

And S102, displaying a dyeing process editing interface for editing the newly-built dyeing process.

This step is performed by the editing interface display module 102. After the dye process creation module 101 finishes executing step S101, the editing interface display module 102 displays a dye process editing interface in which a process worker can edit the newly created dye process created by the dye process creation module 101. As shown in fig. 2, the dye process editing interface includes a function library area 10, a current dye process editing area 20, and a process parameter editing area 30, where the function library area 10 is used for displaying a main function step list. In one embodiment, the main function step list includes 7 main function categories of "enter water", "system", "drain", "call", "dye", "charge", and "wash water", and each main function category includes several main function steps, for example, the main function category of "enter water" includes the main function step of "enter water", and the main function category of "dye" includes the main function step of "charge bucket direct charge"; in other embodiments of the present invention, other main function categories may be added as needed. All the dyeing process processes are formed by combining main functional steps into each step required by the dyeing process, but different dyeing process processes only select partial main functional steps from the main functional steps to be connected in series according to requirements (different customer requirements and different fabric functional requirements).

S103, loading the main function steps required by the newly-built dyeing process.

This step is performed by the function addition module 103. And selecting and adding the main function steps required by the newly-built dye process in the main function step list by a process worker in a mode of mouse dragging or mouse double-clicking. The function adding module 103 responds to the operation of the process worker selecting the main function step required for adding the new dye process in the main function step list, loads the main function step required for the new dye process from the dye process function library, and controls the current dye process editing area 20 to display the loaded main function step required for the new dye process. As shown in fig. 2, the main function step display bar of the current dye process editing area 20 displays the serial number, icon, name and initial process parameters of the main function step. The dye process function library comprises all main function step modules required by the dye process, and can be stored locally or in a cloud server.

As shown in fig. 2, in one embodiment, when executing step S103, the function adding module 103 defaults to automatically load two necessary main function steps of "process start" and "process end", and then a process worker selects the main function step of "water level entering" from the main function category of "entering water" and drags the main function step to a position between the two main function steps of "process start" and "process end", at which time, sequence numbers between the main function steps in the current editing and dyeing range area are automatically changed. The function adding module 103 loads a main function step of 'water level entering water' in response to the dragging operation of process workers. And repeating the dragging action by the process staff, and loading the main function steps by the function adding module 103 in response to the dragging operation of the process staff until all the main function steps required by the newly built dyeing process are loaded. It should be noted that, after the main function step of "water level enters water" is added, the main function step of "water level enters water" in the main function list does not disappear, and the user can repeatedly drag and insert the main function step.

And S104, displaying a process parameter configuration menu corresponding to the selected main function step.

And S105, determining the process parameter configuration data corresponding to the selected main function step.

Steps S104 and S105 are performed by the process parameter configuration module 104. The process parameter editing area 30 is used to edit the specific process parameters of each main functional step. When a process worker selects a main function step in the current dye process editing area 20 by clicking with a mouse or the like, the process parameter configuration module 104 responds to the operation selected by the process worker, and controls the process parameter editing area 30 to display a process parameter configuration menu corresponding to the selected main function step.

As shown in fig. 2, in an embodiment, the process parameter configuration menu corresponding to the "water level enters water" main function step includes three parameter configuration menus of "water inlet valve selection", "water level" and "water replenishment follow-up", and a process worker can perform the process parameter configuration of the main function step in the configuration menu. The process parameter configuration module 104 is responsive to the above configuration operations by process personnel to determine process parameter configuration data corresponding to the selected primary functional step. In a preferred embodiment of the present invention, the process parameter configuration module 104 further controls the current dye process editing area 20 to display the process parameters corresponding to the selected main function step after determining the process parameter configuration data corresponding to the selected main function step. At this time, the sequence number, icon and name of the main function step are displayed on the left side of the main function step display bar of the current dye process editing area 20, and the specific process parameters of the main function step are displayed on the right side.

And S106, generating a dyeing process file.

This step is performed by the process file generation module 105. The process staff may input the operation instruction for editing confirmation by clicking a "confirmation" key, and the process file generating module 105 generates the dyeing process file according to the main function steps required by the newly-built dyeing process and the process parameter configuration data corresponding to each main function step when receiving the operation instruction for editing confirmation.

According to the new dyeing process establishing method, process workers can perform editing operation on a visual dyeing process editing interface, main function steps required by the new dyeing process are added through the main function step list in the function library area 10, specific process parameters of the main function steps are edited in the process parameter editing area 30, when the main function steps are added, the operation of searching the main function steps is not required to be repeated, the dyeing process editing is convenient and visual, and the working efficiency of the process workers can be effectively improved. In addition, the main function steps required by the new dyeing process are added in a dragging mode, the dyeing process is edited in a visual dragging mode and is more humanized, and the working efficiency of process personnel is further improved.

As shown in fig. 5, in another embodiment of the present invention, the new method of the dye process includes steps S201 to S209. Steps S201 to S205 are the same as steps S101 to S105 in the embodiment shown in fig. 4, and are not repeated here.

S206, loading the parallel function steps required by the specified main function step.

This step is performed by the function addition module 103. The process staff can select a designated main function step in a mouse clicking mode, and then select the parallel function step required by adding the designated main function step in the parallel function step list in a mouse dragging or mouse double-clicking mode. The function adding module 103 responds to an operation of a process worker selecting a parallel function step required for adding the specified main function step in the parallel function step list, loads the parallel function step required for the specified main function step from the dye process function library, and controls the current dye process editing area 20 to display the loaded parallel function step required for the specified main function step. As shown in fig. 3, when the fan parallel function step is added to the water level entry main function step, the fan parallel function step is dragged from the parallel function step list to a position below the water level entry main function step in the current dye-processing editing area 20, and at this time, the parallel function step display bar in the current dye-processing editing area 20 displays the icon, the name and the initial process parameters of the fan parallel function step. The dye process function library comprises all parallel function step modules required by the main function step, and can be stored locally or in a cloud server.

In a preferred embodiment, upon receiving an operation to select a main function step in the current dye edit area 20, only the parallel function step corresponding to the selected main function step is displayed in the parallel function step list. As shown in fig. 3, a process worker selects a main function step of "water level enters into water" in the current dye process editing area 20 by means of mouse click, and only displays four parallel function steps corresponding to the main function step of "water level enters into water", such as "speed", "blower", "cloth lifting speed", and "cloth swinging speed", in the parallel function step list in the function library area 10, and does not involve parallel function steps unrelated to the main function step of "water level enters into water", such as "bucket feeding speed". Moreover, after the process staff drags the fan parallel function step from the parallel function step list to a position below the water level entering main function step in the current dye process editing area 20, the fan parallel function step disappears from the parallel function step list, so that the repeated addition of the parallel function step is avoided.

And S207, displaying a process parameter configuration menu corresponding to the selected parallel function step.

And S208, determining process parameter configuration data corresponding to the selected parallel function step.

The steps S207 and S208 are executed by the process parameter configuration module 104. The process parameter editing area 30 is used to edit the specific process parameters of each parallel functional step. When a parallel function step is selected in the current dye process editing area 20 by a process worker through a mouse click or the like, the process parameter configuration module 104 responds to the selected operation of the process worker, and controls the process parameter editing area 30 to display a process parameter configuration menu corresponding to the selected parallel function step.

As shown in fig. 3, in an embodiment, the process parameter configuration menu corresponding to the fan parallel function step includes three parameter configuration menus of fan speed, main pump speed, and nozzle, and a process worker may perform the process parameter configuration of the fan parallel function step in the configuration menus. The process parameter configuration module 104 responds to the above configuration operations by process personnel to determine process parameter configuration data corresponding to the selected fan parallel function step. In a preferred embodiment of the present invention, the process parameter configuration module 104 controls the current dye process editing area 20 to display the process parameters corresponding to the selected parallel function step after determining the process parameter configuration data corresponding to the selected parallel function step. At this time, the serial number, icon and name of the main function step are displayed on the left side of the parallel function step display bar of the current dye process editing area 20, and the specific process parameters of the main function step are displayed on the right side of the display bar.

And S209, generating a dyeing process file.

This step is performed by the process file generation module 105. The process staff can input the operation instruction for editing confirmation by clicking a 'confirmation' key and the like, and the process file generation module 105 generates the dyeing process file according to the main function steps required by the newly-built dyeing process, the process parameter configuration data corresponding to the main function steps, the parallel function steps required by the main function steps and the process parameter configuration data corresponding to the parallel function steps when receiving the operation instruction for editing confirmation.

In the new dyeing process building method in this embodiment, a process worker can perform editing operation on a visual dyeing process editing interface, the main function step required for building a new dyeing process is selected and added through the main function step list in the function library area 10, the parallel function step required for specifying the main function step is selected and added through the parallel function step list in the function library area 10, the specific process parameters of the main function step or the parallel function step are edited through the process parameter editing area 30, and when the main function step and the parallel function step are added, the operation of repeatedly searching the parallel function step is not required, the dyeing process editing is convenient and intuitive, and the work efficiency of the process worker can be effectively improved. In addition, the main function steps required by the new dyeing process are added in a dragging mode, the dyeing process is edited in a visual dragging mode and is more humanized, and the working efficiency of process personnel is further improved. Finally, only the parallel function step corresponding to the selected main function step is displayed in the parallel function step list, and the parallel function step cannot be repeatedly added, so that misoperation of workers can be prevented.

In a preferred embodiment of the present invention, when the step 203 of loading the main function step is executed, if it is detected that the currently added main function step is associated with the previously added main function step, a parallel function step consistent with the previously added main function step is automatically loaded for the currently added main function step.

Because the parallel function step relates to the function parameter setting of continuous operation of the equipment, each main function step does not need to be manually added with the parallel function step once, and the parallel function step can automatically adopt and inherit the characteristics of the last main function step. As shown in fig. 3, in one embodiment, "water level in" and "water level out" are two corresponding main functional steps in the running control of the dyeing machine, which are associated by presetting. In the newly-built process of the dyeing process, a 'water level entering' main function step is added firstly, a 'fan' parallel function step is added for the 'water level entering' main function step, when the 'water level draining' main function step is added, if the 'water level draining' main function step is detected to be associated with the 'water level entering' main function step added firstly, the 'fan' parallel function step is automatically loaded for the 'water level draining' main function step, and the current dyeing process editing area 20 is controlled to display the 'fan' parallel function step below the 'water level draining' main function step.

In the new method for creating the dyeing process in the embodiment, when the correlation between the currently added main function step and the previously added main function step is detected, the parallel function step is automatically added to the currently added main function step, so that the working efficiency of process personnel is further improved.

The present invention also provides an electronic device comprising a processor and a memory communicatively coupled to the processor, wherein the memory is configured to store various types of data to support operations on the electronic device, and the data may include instructions for any application or method operating on the electronic device, as well as application-related data, such as program instructions for executing a new method for a dye process in the embodiment shown in fig. 4 or 5, process parameter configuration data, and the like. The Memory may be implemented by one or more volatile or non-volatile Memory devices of any type or combination of volatile and non-volatile Memory devices, such as Static Random Access Memory (SRAM), electrically Erasable Programmable Read-Only Memory (EEPROM), erasable Programmable Read-Only Memory (EPROM), programmable Read-Only Memory (PROM), read-Only Memory (ROM), magnetic Memory, flash Memory, magnetic disk, or optical disk. One or more processors may be used, and the processors are configured to control the overall operation of the electronic device, and to execute the program instructions stored in the memory to perform the steps of the new dye process method in the embodiment shown in fig. 4 or fig. 5.

The invention also provides a storage medium, wherein the storage medium stores program instructions, and the program instructions are executed by a processor to realize the steps of the new construction method of the dyeing process. The storage medium may be the above-mentioned memory including program instructions, and the program instructions may be executed by the processor to implement the steps of the new method of the dye process in the embodiment shown in fig. 4 or fig. 5.

The invention also provides a management system. As shown in fig. 6, the management system comprises a dyeing machine control device 1000 and a central monitoring platform 2000, wherein the dyeing machine control device comprises a processor and a memory communicatively connected to the processor, wherein the memory stores program instructions, and the program instructions are invoked by the processor to implement the new dyeing process method in the embodiment shown in fig. 4 or 5.

In a specific implementation, after the new method of the dyeing process is executed by the dyeing machine control device 1000, a dyeing process file can be obtained, and the dyeing process file can be stored locally or uploaded to the cloud server. When the dyeing machine control device 1000 needs to control the operation of the dyeing machine, the dyeing process file is called locally or downloaded from the cloud server, and the dyeing process file is analyzed to obtain each control instruction for controlling the operation of the dyeing machine, so that the operation of the dyeing machine is controlled.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention in any way. Various equivalent changes and modifications can be made by those skilled in the art based on the above embodiments, and all equivalent changes and modifications within the scope of the claims should fall within the protection scope of the present invention.

Claims (7)

1. A new method for a dyeing process is characterized by comprising the following steps:

creating a new dyeing process;

displaying a dyeing process editing interface for editing the newly-built dyeing process, wherein the dyeing process editing interface comprises a function library area, a current dyeing process editing area and a process parameter editing area, the function library area comprises a main function bar and a parallel function bar which can be displayed in a mutually switched mode, the main function bar is used for displaying a main function step list, the parallel function bar is used for displaying a parallel function step list, and the parallel function step list only displays parallel function steps which correspond to the selected main function steps in the current dyeing process editing area and are not added to the current dyeing process editing area;

in response to the operation of selecting the main function step required by adding the new dyeing process in the main function step list, loading the main function step required by the new dyeing process and controlling a current dyeing process editing area to display the main function step required by the new dyeing process;

when receiving an operation of selecting the main function step in the current dye process editing area, controlling a process parameter editing area to display a process parameter configuration menu corresponding to the selected main function step;

responding to the configuration operation in the process parameter configuration menu, determining process parameter configuration data corresponding to the selected main function step, and controlling the current dye process editing area to display the process parameters corresponding to the selected main function step;

in response to the operation of adding the parallel function steps required by the specified main function step in the parallel function step list, loading the parallel function steps required by the specified main function step, and controlling the current dye program editing area to display the parallel function steps required by the specified main function step;

when receiving an operation of selecting the parallel function step in the current dye process editing area, controlling a process parameter editing area to display a process parameter configuration menu corresponding to the selected parallel function step;

responding to configuration operation in a process parameter configuration menu corresponding to the selected parallel function step, determining process parameter configuration data corresponding to the selected parallel function step, and controlling a current dye process editing area to display process parameters corresponding to the selected parallel function step;

when detecting that the currently added main function step and the previously added main function step have an incidence relation, automatically loading a parallel function step consistent with the previously added main function step for the currently added main function step, and inheriting the sequencing characteristic of the parallel function step of the previously added main function step;

and when an operation instruction for editing confirmation is received, generating a dyeing process file according to the main function steps required by the newly-built dyeing process, the process parameter configuration data corresponding to each main function step, the parallel function steps required by each main function step and the process parameter configuration data corresponding to each parallel function step.

2. The new method for dye process according to claim 1, wherein the operation of selecting and adding the main function steps required by the new dye process in the main function step list comprises the following steps: and dragging the selected main function step from the main function step list to a current dye process editing area through a mouse.

3. The new method for a dye process according to claim 1, wherein the creating of the new dye process further comprises:

when a new dyeing process establishing instruction is received, displaying a new dyeing process establishing interface, wherein the new dyeing process establishing interface comprises a name configuration frame for configuring a dyeing process name, a machine type selection menu for configuring a machine type to which the dyeing process belongs and a dyeing process group selection menu for configuring a dyeing process group to which the dyeing process belongs;

in response to the input operation in the name configuration box, determining configuration data of the name of the newly-built program;

responding to the selection operation in the model selection menu, and determining configuration data of a model to which the newly-built dyeing process belongs;

responding to the selection operation in the dye process group selection menu, and determining configuration data of the dye process group to which the newly-built dye process belongs;

and when an operation instruction for confirming the configuration is received, creating the new dyeing process according to the configuration data of the name of the new dyeing process, the configuration data of the machine type to which the new dyeing process belongs and the configuration data of the dyeing process group to which the new dyeing process belongs.

4. A new device for a dyeing process is characterized by comprising the following steps:

the dyeing process creating module is used for creating a new dyeing process;

an editing interface display module, configured to display a dye process editing interface for editing the newly-created dye process, where the dye process editing interface includes a function library area, a current dye process editing area, and a process parameter editing area, the function library area includes a main function bar and a parallel function bar that can be displayed in a mutually switchable manner, the main function bar is used to display a main function step list, the parallel function bar is used to display a parallel function step list, and the parallel function step list only displays parallel function steps that correspond to main function steps selected in the current dye process editing area and are not added to the current dye process editing area;

the function adding module is used for responding to the operation of selecting the main function step required by adding the newly-added dye in the main function step list, loading the main function step required by newly-added dye, controlling the current dye editing area to display the main function step required by newly-added dye, responding to the operation of selecting the parallel function step required by adding the specified main function step in the parallel function step list, loading the parallel function step required by the specified main function step, controlling the current dye editing area to display the parallel function step required by the specified main function step, and automatically loading the parallel function step consistent with the previously-added main function step for the currently-added main function step when detecting that the currently-added main function step is in incidence relation with the previously-added main function step and inheriting the ordering characteristic of the parallel function step of the previously-added main function step;

a process parameter configuration module, configured to control a process parameter editing area to display a process parameter configuration menu corresponding to a selected main function step when receiving an operation of selecting the main function step in the current dye process editing area, determine process parameter configuration data corresponding to the selected main function step in response to the configuration operation in the process parameter configuration menu, control the current dye process editing area to display a process parameter corresponding to the selected main function step, control the process parameter editing area to display a process parameter configuration menu corresponding to a selected parallel function step when receiving an operation of selecting the parallel function step in the current dye process editing area, determine process parameter configuration data corresponding to the selected parallel function step in response to the configuration operation in the process parameter configuration menu corresponding to the selected parallel function step, and control the current dye process editing area to display a process parameter corresponding to the selected parallel function step;

and the process file generation module is used for generating a dyeing process file according to the main function steps required by the newly-built dyeing process, the process parameter configuration data corresponding to the main function steps, the parallel function steps required by the main function steps and the process parameter configuration data corresponding to the parallel function steps when receiving the operation instruction confirmed by editing.

5. An electronic device comprising at least one processor and at least one memory communicatively coupled to the processor, wherein the memory stores program instructions that, when executed by the processor, implement the dye process creation method of any of claims 1 to 3.

6. A storage medium storing program instructions which, when executed by a processor, implement the dye process new creation method of any one of claims 1 to 3.

7. A management system comprising a dyeing machine control unit and a central monitoring platform, wherein said dyeing machine control unit comprises a processor and a memory communicatively connected to said processor, wherein said memory stores program instructions which, when invoked and executed by said processor, implement the new dyeing process method of any one of claims 1 to 3.

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