阅读说明：本技术 基于组件化资产标签个性化设计的系统和方法 (System and method for personalized design based on componentized asset tags ) 是由 魏详雨 周鲁 孔峰 王鹏 顾伟 于文革 于 2021-07-27 设计创作，主要内容包括：本发明公开了基于组件化资产标签个性化设计的系统和方法,具体设计方法步骤如下：步骤一：项目开发技术负责人根据设计指标值编制资产标签个性化设计方案,并且进行技术方案会审,提出疑问并解答,技术人员编制专项设计方案和注意细节,并且向工作人员进行技术交底；步骤二：建立标签模版管理模块、组件化设计模块、可视化配置模块、解析打印模块并且新建一个标签模版,进入到标签设计界面,标签设计阶段包括初始化模块和编辑制作模块,初始化模块用来创建标签模版基于组件化资产标签个性化设计的系统和方法操作步骤简单,能在不用修改程序的前提下,让用户可以自行设计个性化标签的实现方式,造价低,实用性好,并且适合广泛推广使用。(The invention discloses a system and a method for individualized design based on a modular asset tag, wherein the specific design method comprises the following steps: the method comprises the following steps: project development technical responsible personnel compile asset tag personalized design schemes according to design index values, conduct technical scheme review, ask questions and answer, compile special design schemes and attention details by technical personnel, and conduct technical settlement to working personnel; step two: the method comprises the steps of establishing a label template management module, a modular design module, a visual configuration module and an analysis printing module, establishing a new label template, entering a label design interface, enabling the label design stage to comprise an initialization module and an editing and manufacturing module, enabling the initialization module to be used for establishing the label template based on the modular asset label personalized design, enabling the operation steps of the system and the method to be simple, enabling a user to design the implementation mode of the personalized label on the premise of not modifying a program, enabling the manufacturing cost to be low, enabling the practicability to be good, and being suitable for wide popularization and use.)

1. The system and the method for individualized design based on the modular asset tag are characterized in that the specific design method comprises the following steps:

the method comprises the following steps: project development technical responsible personnel compile asset tag personalized design schemes according to design index values, conduct technical scheme review, ask questions and answer, compile special design schemes and attention details by technical personnel, and conduct technical settlement to working personnel;

step two: establishing a label template management module, a componentized design module, a visual configuration module and an analytic printing module, newly establishing a label template, entering a label design interface, wherein the label design stage comprises an initialization module and an editing and manufacturing module, the initialization module is used for establishing the label template and managing the existing label template, the editing and manufacturing module is used for designing and manufacturing the label template, and the label template is generated by dragging a label component to be placed on a canvas for combination;

step three: in a label design interface, respectively dragging a text label component, a bar code component, a two-dimensional code component and a graphic component from a left label list column to a middle label canvas according to design requirements;

step four: selecting a label assembly on the canvas, setting the position, the title, the font height, the underline, the two-dimensional code data, the bar code data and the graphic data of the label, repeating the step, and setting the attributes of the label assembly;

step five: storing the label, selecting a label template when printing the fixed asset label, and automatically rendering by a system to generate a final fixed asset data label;

step six: in the label printing stage, asset data labels generated by printing and rendering are printed, fixed asset labels are usually printed by using label paper with a specified size and capable of being pasted through a label bar code printer, and when a program is used for printing, the asset data labels are firstly converted into a tspl instruction set of the label printer, the automatic paper feeding of the labels is controlled, the printing positions are aligned, and the asset data are printed item by item;

step seven: debugging the data to be large-sized screen, and releasing the data to be large-sized screen after preview display is correct.

2. The system and method for modular asset tag-based personalization design according to claim 1, wherein: in the first step, the transaction data of the technical transaction should be signed by both parties and then filed and saved.

3. The system and method for modular asset tag-based personalization design according to claim 1, wherein: and step two, after configuring the label attribute through the component attribute column, storing the label attribute in a label template library, and selecting a label template to be printed when printing the label.

4. The system and method for modular asset tag-based personalization design according to claim 1, wherein: and fifthly, after the label template to be printed is selected, rendering the template and traversing the text label component, the bar code component, the two-dimensional code component and the graphic component attribute configuration value in the label template one by one, and filling the fixed asset data into the component label in sequence according to the set attribute value to generate a final asset data label.

5. The system and method for modular asset tag-based personalization design according to claim 1, wherein: the label personalized design is sequentially divided into three stages of label design, label rendering and label printing according to a label design time sequence.

Technical Field

The invention belongs to the technical field of fixed asset management and label design printing, and particularly relates to a system and a method based on modular asset label personalized design.

Background

The fixed assets are indispensable parts in the operation process of the enterprise, and play the most important role in the daily operation management of the enterprise. For enterprises, fixed asset management is very important, assets owned by the enterprises can be effectively and reasonably distributed by enhancing management of the assets of the enterprises, the assets are reasonably managed and used, the daily operation of the enterprises is maximized, the operation cost of the enterprises is reduced, the working efficiency is improved, and the income of the enterprises is improved. The general asset management software carries out scientific management around the processes of entering, exiting and using all links of asset equipment, completes various management works of daily business registration, allocation, borrowing, returning, maintenance, calibration, scrapping and the like of an enterprise on the asset equipment, comprehensively reflects the increase, reduction and related change conditions of the equipment, reminds the maintenance and calibration of the equipment in time, provides full life cycle tracking management aiming at the equipment, and helps the enterprise to manage the equipment more effectively and comprehensively. The assets and the objects are accurately monitored in all directions from the aspects of purchase, reception, transfer, inventory, maintenance, scrapping and the like, so that the enterprises can manage the fixed assets more easily and effectively, and all levels of related managers and related leaders can quickly inquire and count the assets and conditions, so that reasonable allocation of resources is realized, and a basis is provided for decision making.

After the assets are purchased and warehoused, the asset labels need to be printed and posted according to the requirements of standard management, and the names of the assets, warehousing time, users and other information are noted. Most asset tag templates of asset management systems are fixed formats, some software may provide several templates for users to select, and even if the template modification function is provided, the template simple modification function is often completed by means of third-party software such as excel and the like. If additional label functions such as two-dimensional codes, pictures and other information are needed, the above method cannot be realized. The existing system and method based on the individualized design of the modular asset tag have complex operation steps, can not allow a user to design the realization mode of the individualized tag by himself on the premise of not modifying a program, have high manufacturing cost and poor practicability, and are not suitable for wide popularization and use.

Disclosure of Invention

The invention aims to provide a system and a method based on individualized design of a modular asset tag, which aim to solve the problems that the prior system and method based on individualized design of a modular asset tag, which are provided in the background art, have complicated operation steps, can not allow a user to design an implementation mode of the individualized tag by himself without modifying a program, have high manufacturing cost and poor practicability, and are not suitable for wide popularization and use.

In order to achieve the purpose, the invention provides the following technical scheme: the system and the method based on the individualized design of the modular asset tag comprise the following specific design method steps:

the method comprises the following steps: project development technical responsible personnel compile asset tag personalized design schemes according to design index values, conduct technical scheme review, ask questions and answer, compile special design schemes and attention details by technical personnel, and conduct technical settlement to working personnel;

step two: establishing a label template management module, a componentized design module, a visual configuration module and an analytic printing module, newly establishing a label template, entering a label design interface, wherein the label design stage comprises an initialization module and an editing and manufacturing module, the initialization module is used for establishing the label template and managing the existing label template, the editing and manufacturing module is used for designing and manufacturing the label template, and the label template is generated by dragging a label component to be placed on a canvas for combination;

step three: in a label design interface, respectively dragging a text label component, a bar code component, a two-dimensional code component and a graphic component from a left label list column to a middle label canvas according to design requirements;

step four: selecting a label assembly on the canvas, setting the position, the title, the font height, the underline, the two-dimensional code data, the bar code data and the graphic data of the label, repeating the step, and setting the attributes of the label assembly;

step five: storing the label, selecting a label template when printing the fixed asset label, and automatically rendering by a system to generate a final fixed asset data label;

step six: in the label printing stage, asset data labels generated by printing and rendering are printed, fixed asset labels are usually printed by using label paper with a specified size and capable of being pasted through a label bar code printer, and when a program is used for printing, the asset data labels are firstly converted into a tspl instruction set of the label printer, the automatic paper feeding of the labels is controlled, the printing positions are aligned, and the asset data are printed item by item;

step seven: debugging the data to be large-sized screen, and releasing the data to be large-sized screen after preview display is correct.

Further, the method comprises the following steps of; in the first step, the transaction data of the technical transaction should be signed by both parties and then filed and saved.

Further, the method comprises the following steps of; and step two, after configuring the label attribute through the component attribute column, storing the label attribute in a label template library, and selecting a label template to be printed when printing the label.

Further, the method comprises the following steps of; and fifthly, after the label template to be printed is selected, rendering the template and traversing the text label component, the bar code component, the two-dimensional code component and the graphic component attribute configuration value in the label template one by one, and filling the fixed asset data into the component label in sequence according to the set attribute value to generate a final asset data label.

Further, the method comprises the following steps of; the label personalized design is sequentially divided into three stages of label design, label rendering and label printing according to a label design time sequence.

Compared with the prior art, the invention has the beneficial effects that:

(1) the project development technology responsible person compiles the individualized design scheme of the asset tag according to the design index value, and carries out technical scheme review, questions are raised and answered, the technical person compiles a special design scheme and attention details, and carries out technical settlement to the staff, so that the individualized design scheme of the asset tag works well and orderly, errors are prevented from occurring, the accuracy of data is prevented from being influenced, an emergency plan is convenient to specify according to the individualized design scheme of the asset tag and the attention details, when an accident happens, timely processing is convenient, and the accident expansion is effectively prevented. The label template management module, the modular design module, the visual configuration module and the analysis printing module are built in a modular asset label personalized design system, so that data transmission is compact, efficiency is high, accuracy is high, design is divided into three stages of label design, label rendering and label printing according to a label design time sequence in sequence, disorder is not prone to occurring, and working efficiency is improved. A label template management module: adding, deleting and storing a label template; a modular design module: a user designs asset tags meeting requirements by dragging and placing the component tags; a visualization configuration module: configuring information such as tag component position, display content, font size, underline, two-dimensional code/bar code data, graph and the like; analyzing the printing module: the asset label is generally printed by a barcode printer, cannot be directly printed like a common printer, and needs to be analyzed and printed by a printing module to perform data filling on a label template to generate a final asset data label, and then the final asset data label is converted into a tspl instruction set of the barcode printer and sent to the printer for printing.

(2) The label design stage comprises an initialization module and an editing and manufacturing module, wherein the initialization module is used for creating a label template and managing the existing label template. The editing and manufacturing module is used for designing and manufacturing a label template, and the label template is generated by dragging the label assembly to be placed on the canvas for combination. Configuring label attributes through a component attribute column, storing the label attributes into a label template library, selecting a label template to be printed when printing a label, wherein a label rendering stage is to select the label template to be printed, then traversing a text label component, a bar code component, a two-dimensional code component and a graphic component attribute configuration value in the label template one by a rendering module, sequentially filling fixed asset data into a component label according to a set attribute value to generate a final asset data label, and printing the asset data label generated by rendering in a label printing stage, wherein the fixed asset label is usually printed by using label paper with a specified size and capable of being pasted by using a label bar code printer. When the program is used for printing, asset data labels are firstly converted into a tspl instruction set of a label printer, automatic paper feeding of the labels is controlled, printing positions are aligned, and asset data are printed item by item.

(3) When the fixed asset label is printed, a label template is selected, the system automatically renders to generate a final fixed asset data label, accurate positioning is achieved, data deviation is prevented, the established data large screen is utilized, the index value of the data is obtained, and a data source is created. The system comprises a label template management module, a modular design module, a visual configuration module and an analysis printing module, wherein the visual configuration module is used for freely dragging and distributing visual views in a canvas according to a dragging instruction so as to realize the pattern configuration of a data component and a user-defined component, so that the system and the method based on the modular asset label personalized design have simple operation steps, can enable a user to design a realization mode of a personalized label by himself on the premise of not modifying a program, have low manufacturing cost and good practicability, and are suitable for wide popularization and use.

Drawings

FIG. 1 is a block diagram of a modular design system for a modular asset tag based personalization design provided by an embodiment of the present invention;

FIG. 2 is a block diagram of a modular asset tag based personalization design system provided by an embodiment of the present invention;

FIG. 3 is a flow chart of a modular asset tag based personalization design provided by an embodiment of the present invention;

fig. 4 is a schematic diagram of a development framework of a personalized design system based on a componentized asset tag according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

As shown in fig. 1-4, the system and method based on the personalized design of the modular asset tag comprises the following steps:

the method comprises the following steps: project development technical responsible personnel compile asset tag personalized design schemes according to design index values, conduct technical scheme review, ask questions and answer, compile special design schemes and attention details by technical personnel, and conduct technical settlement to working personnel;

step two: establishing a label template management module, a componentized design module, a visual configuration module and an analytic printing module, newly establishing a label template, entering a label design interface, wherein the label design stage comprises an initialization module and an editing and manufacturing module, the initialization module is used for establishing the label template and managing the existing label template, the editing and manufacturing module is used for designing and manufacturing the label template, and the label template is generated by dragging a label component to be placed on a canvas for combination;

step three: in a label design interface, respectively dragging a text label component, a bar code component, a two-dimensional code component and a graphic component from a left label list column to a middle label canvas according to design requirements;

step four: selecting a label assembly on the canvas, setting the position, the title, the font height, the underline, the two-dimensional code data, the bar code data and the graphic data of the label, repeating the step, and setting the attributes of the label assembly;

step five: storing the label, selecting a label template when printing the fixed asset label, and automatically rendering by a system to generate a final fixed asset data label;

step six: in the label printing stage, asset data labels generated by printing and rendering are printed, fixed asset labels are usually printed by using label paper with a specified size and capable of being pasted through a label bar code printer, and when a program is used for printing, the asset data labels are firstly converted into a tspl instruction set of the label printer, the automatic paper feeding of the labels is controlled, the printing positions are aligned, and the asset data are printed item by item;

step seven: debugging the data to be large-sized screen, and releasing the data to be large-sized screen after preview display is correct.

Further, the method comprises the following steps of; in the first step, the data of the technical transaction bottom is signed by both parties and then filed and recorded for storage; the individualized design scheme of the asset tag is enabled to work well and orderly, errors are prevented from occurring, the accuracy of data is prevented from being influenced, an emergency plan is convenient to specify according to the individualized design scheme of the asset tag and the attention details, when an accident happens, the emergency plan is convenient to process in time, and the accident expansion is effectively prevented.

Further, the method comprises the following steps of; after configuring the label attribute through the component attribute column in the second step, storing the label attribute into a label template library, and selecting a label template to be printed when printing a label; and the system automatically renders and generates a final fixed asset data tag, so that accurate positioning is realized, data deviation is prevented, and an index value of the data is acquired and a data source is created by utilizing the established data large screen. The system comprises a label template management module, a componentized design module, a visual configuration module and an analysis printing module, wherein the visual configuration module is used for freely dragging and distributing visual views in a canvas according to a dragging instruction so as to realize the style configuration of data components and custom components, and the system and the method based on the componentized asset label personalized design are simple in operation steps.

Further, the method comprises the following steps of; and fifthly, after the label template to be printed is selected, rendering the template and traversing the text label component, the bar code component, the two-dimensional code component and the graphic component attribute configuration value in the label template one by one, and filling the fixed asset data into the component label in sequence according to the set attribute value to generate a final asset data label.

Further, the method comprises the following steps of; the label personalized design is sequentially divided into three stages of label design, label rendering and label printing according to the label design time sequence; the system and the method based on the individualized design of the modular asset tag have simple operation steps, can enable a user to design the implementation mode of the individualized tag on the premise of not modifying a program, and have low manufacturing cost and good practicability.

Example two

As shown in fig. 1-4, the system and method based on the personalized design of the modular asset tag comprises the following steps:

the method comprises the following steps: project development technical responsible personnel compile asset tag personalized design schemes according to design index values, conduct technical scheme review, ask questions and answer, compile special design schemes and attention details by technical personnel, and conduct technical settlement to working personnel;

step two: establishing a label template management module, a componentized design module, a visual configuration module and an analytic printing module, newly establishing a label template, entering a label design interface, wherein the label design stage comprises an initialization module and an editing and manufacturing module, the initialization module is used for establishing the label template and managing the existing label template, the editing and manufacturing module is used for designing and manufacturing the label template, and the label template is generated by dragging a label component to be placed on a canvas for combination;

step three: in a label design interface, respectively dragging a text label component, a bar code component, a two-dimensional code component and a graphic component from a left label list column to a middle label canvas according to design requirements;

step four: selecting a label assembly on the canvas, setting the position, the title, the font height, the underline, the two-dimensional code data, the bar code data and the graphic data of the label, and setting the attributes of the label assembly by adopting a computer programming technology;

step five: storing the label, selecting a label template when printing the fixed asset label, and automatically rendering by a system to generate a final fixed asset data label;

step six: in the label printing stage, asset data labels generated by printing and rendering are printed, fixed asset labels are usually printed by using label paper with a specified size and capable of being pasted through a label bar code printer, and when a program is used for printing, the asset data labels are firstly converted into a tspl instruction set of the label printer, the automatic paper feeding of the labels is controlled, the printing positions are aligned, and the asset data are printed item by item;

step seven: debugging the data to be large-sized screen, and releasing the data to be large-sized screen after preview display is correct.

Further, the method comprises the following steps of; in the first step, the data of the technical transaction bottom is signed by both parties and then filed and recorded for storage; the individualized design scheme of the asset tag is enabled to work well and orderly, errors are prevented from occurring, the accuracy of data is prevented from being influenced, an emergency plan is convenient to specify according to the individualized design scheme of the asset tag and the attention details, when an accident happens, the emergency plan is convenient to process in time, and the accident expansion is effectively prevented.

Further, the method comprises the following steps of; after configuring the label attribute through the component attribute column in the second step, storing the label attribute into a label template library, and selecting a label template to be printed when printing a label; and the system automatically renders and generates a final fixed asset data tag, so that accurate positioning is realized, data deviation is prevented, and an index value of the data is acquired and a data source is created by utilizing the established data large screen. The system comprises a label template management module, a componentized design module, a visual configuration module and an analysis printing module, wherein the visual configuration module is used for freely dragging and distributing visual views in a canvas according to a dragging instruction so as to realize the style configuration of data components and custom components, and the system and the method based on the componentized asset label personalized design are simple in operation steps.

Further, the method comprises the following steps of; after selecting a label template to be printed in the fifth step, rendering the template to traverse the attribute configuration values of the text label component, the bar code component, the two-dimensional code component and the graphic component in the label template one by one, and filling the fixed asset data into the component label in sequence according to the set attribute value to generate a final asset data label; the method is established in a modular asset tag personalized design system, so that data transmission is compact, efficiency is high, accuracy is high, the design is divided into three stages of tag design, tag rendering and tag printing in sequence according to the tag design time sequence, disorder is not prone to occurring, and working efficiency is improved. A label template management module: adding, deleting and storing a label template; a modular design module: a user designs asset tags meeting requirements by dragging and placing the component tags; a visualization configuration module: configuring tag component position, display content, font size, underlining, two-dimensional code/bar code data, graphics, etc.

Further, the method comprises the following steps of; the label personalized design is sequentially divided into three stages of label design, label rendering and label printing according to the label design time sequence; the system and the method based on the individualized design of the modular asset tag have simple operation steps, can enable a user to design the implementation mode of the individualized tag on the premise of not modifying a program, and have low manufacturing cost and good practicability.

When the invention works: the project development technology responsible person compiles the individualized design scheme of the asset tag according to the design index value, and carries out technical scheme review, questions are raised and answered, the technical person compiles a special design scheme and attention details, and carries out technical settlement to the staff, so that the individualized design scheme of the asset tag works well and orderly, errors are prevented from occurring, the accuracy of data is prevented from being influenced, an emergency plan is convenient to specify according to the individualized design scheme of the asset tag and the attention details, when an accident happens, timely processing is convenient, and the accident expansion is effectively prevented. The label template management module, the modular design module, the visual configuration module and the analysis printing module are built in a modular asset label personalized design system, so that data transmission is compact, efficiency is high, accuracy is high, design is divided into three stages of label design, label rendering and label printing according to a label design time sequence in sequence, disorder is not prone to occurring, and working efficiency is improved. A label template management module: adding, deleting and storing a label template; a modular design module: a user designs asset tags meeting requirements by dragging and placing the component tags; a visualization configuration module: configuring information such as tag component position, display content, font size, underline, two-dimensional code/bar code data, graph and the like; analyzing the printing module: the asset label is generally printed by a barcode printer, cannot be directly printed like a common printer, and needs to be analyzed and printed by a printing module to perform data filling on a label template to generate a final asset data label, and then the final asset data label is converted into a tspl instruction set of the barcode printer and sent to the printer for printing. The label design stage comprises an initialization module and an editing and manufacturing module, wherein the initialization module is used for creating a label template and managing the existing label template. The editing and manufacturing module is used for designing and manufacturing a label template, and the label template is generated by dragging the label assembly to be placed on the canvas for combination. Configuring label attributes through a component attribute column, storing the label attributes into a label template library, selecting a label template to be printed when printing a label, wherein a label rendering stage is to select the label template to be printed, then traversing a text label component, a bar code component, a two-dimensional code component and a graphic component attribute configuration value in the label template one by a rendering module, sequentially filling fixed asset data into a component label according to a set attribute value to generate a final asset data label, and printing the asset data label generated by rendering in a label printing stage, wherein the fixed asset label is usually printed by using label paper with a specified size and capable of being pasted by using a label bar code printer. When the program is used for printing, asset data labels are firstly converted into a tspl instruction set of a label printer, automatic paper feeding of the labels is controlled, printing positions are aligned, and asset data are printed item by item. When the fixed asset label is printed, a label template is selected, the system automatically renders to generate a final fixed asset data label, accurate positioning is achieved, data deviation is prevented, the established data large screen is utilized, the index value of the data is obtained, and a data source is created. The system comprises a label template management module, a modular design module, a visual configuration module and an analysis printing module, wherein the visual configuration module is used for freely dragging and distributing visual views in a canvas according to a dragging instruction so as to realize the pattern configuration of a data component and a user-defined component, so that the system and the method based on the modular asset label personalized design have simple operation steps, can enable a user to design a realization mode of a personalized label by himself on the premise of not modifying a program, have low manufacturing cost and good practicability, and are suitable for wide popularization and use.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.