CN106294948A - Intelligent Materials Library system based on CMF and management method - Google Patents

Abstract

Based on CMF the intelligent Materials Library system of present invention offer and management method, system includes digital material storehouse, for providing unlike material, color and the mathematical model material of technique for Consumer's Experience test terminal, solid material storehouse, for storing material sample, and according to the instruction experiencing test terminal, the material sample corresponding to the mathematical model material of user's selection is screened and transmits, experience test terminal, for inputting instruction, select digital material model, and the solid material sample that user is chosen by controlled entity material depot takes out；Based on CMF intelligent Materials Library system in the present invention and management method, associated with modeling material foundation by the production code member of sample, select corresponding mathematical model just can automatically deliver out, according to the needs of user, the sample of material that user wants from this Materials Library, the present invention substantially increases the efficiency selecting material in design process, reduce time cost, simple in construction, the suitability is strong, and beneficially spread uses.

Description

Intelligent Material Library System and Management Method Based on CMF

technical field

The invention relates to the field of automatic control, in particular to a CMF-based intelligent material library system and management method.

Background technique

CMF (Color, Material & Finishing) refers to the basic cognition of color, material and process of product design. The problems involved in CMF are not professionally targeted and special in scope of application, but pervade all aspects of our lives. CMF is currently Mostly translated as surface treatment process, CMF design acts on the design object, and it is the deep emotional part that connects and interacts between the object and the user. It is mostly used in the detailed processing of color, material, processing and other design objects in product design. Considering that modern consumers no longer simply use the function of the product as the main indicator when purchasing products, characteristics such as personalization, aesthetics, and affinity have gradually become important reference indicators that affect whether consumers buy. Designers need to find new ways to interpret the design and emotion of products. Under the background of diversified modern consumer demand, the color matching, material selection and surface treatment of products are applied on the basis of satisfying product functions and structures. The emotional, symbolic, aesthetic and other external values are more and more sought after by modern people. Color research, material research and surface treatment technology research related to products have gradually become important research contents in the field of product design.

At present, the existing CMF mainly has the following problems. When the designer needs to find the material he needs, it takes a lot of time to find the corresponding material, and after finding the material, he needs to find the material according to the material number. Process, color, supplier information and other information, various materials exist in the material library at the same time, which is very inconvenient to manage and greatly reduces work efficiency. Therefore, there is an urgent need for a new technical means, which can facilitate designers to quickly find the corresponding materials and understand material-related information, so as to reduce time costs and improve work efficiency.

Contents of the invention

In view of this, the present invention provides a CMF-based intelligent material library system and management method to solve the above problems.

A CMF-based intelligent material library system provided by the present invention includes

The digital material library is used to provide digital model materials of different materials, colors and processes for user experience testing terminals,

The physical material library is used to store material samples, and select and transmit the material samples corresponding to the digital model materials selected by the user according to the instructions of the experience test terminal,

The experience test terminal is used to input instructions, select digital material models, and control the physical material library to take out the physical material samples selected by the user.

Further, the experience testing terminal includes

A processing unit is used to establish a digital model and process user instruction information,

The display module is used to display materials of different materials, colors and processes in the digital model and the user's digital material library,

The input module is used to input control commands,

The association setting module is used to associate the material sample coordinates in the physical material library with the corresponding digital model materials in the digital material library,

The signal sending and receiving processing unit is used for sending and receiving control signal instructions.

Further, the digital material library includes a database module and a storage module for storing material information;

The physical material library includes a material board, a material box for storing the material board, material samples set on the material board, and a driving device for pushing the material board.

Further, the material information includes material sample number, material type, process, color, processing time, cost and supplier information.

Further, it also includes a remote terminal and a server. The remote terminal is connected to the server in a wireless manner, and is used for remotely logging in to the server, selecting a digital material model, and controlling the physical material library to take out the physical material sample selected by the user.

The present invention also provides a management method for a CMF-based intelligent material library, comprising: associating model materials of different materials, colors and processes in the digital material library with material samples in the physical material library, Select the model material to control the entity material library to output material samples corresponding to the model material.

Further, specifically include:

s1. Establish a physical material library, store similar material samples in a physical material library, and count the coordinates of the material samples in the physical material library,

s2. Establish a digital material library, establish a one-to-one corresponding model material with the material sample in the digital material library, and associate the coordinates of the material sample in the physical material library with the corresponding model material in the digital material library,

s3. Select the required model material through the experience test terminal,

s4. According to the model material selected by the user, control the entity material library to output the corresponding material sample.

Further, step s4 includes, numbering the material board, and dividing the position on the material board into several areas in the form of coordinates, and setting different material samples in different areas of the material board. A material plate is arranged in the material box, and the material plate is controlled by a driving device to move out of the material box.

Further, the sample information contained in the digital material library includes material sample number, material type, process, color, processing time, cost and supplier information.

Further, it also includes setting up a remote terminal and a server, and the remote terminal is connected to the server in a wireless manner, and is used for remotely logging in to the server, selecting a digital material model, and controlling the physical material library to take out the physical material sample selected by the user.

Beneficial effects of the present invention: the CMF-based intelligent material library system and management method in the present invention put a class of products into a material library, associate the product number of the sample with the model material, and select the corresponding digital model From the material library, the material samples that the user wants can be automatically transmitted according to the needs of the user, avoiding the need for the user to spend a lot of time looking for the material they need, and the process of finding the material according to the material number after finding the material , color and supplier information; the invention greatly improves the efficiency of material selection in the design process, reduces the time cost, has a simple structure, strong applicability, and is conducive to popularization and use in large areas.

Description of drawings

The present invention will be further described below in conjunction with accompanying drawing and embodiment:

FIG. 1 is a schematic diagram of the principle of an experience testing terminal of the present invention.

Fig. 2 is a schematic flow chart of the present invention.

detailed description

The present invention will be further described below with reference to the accompanying drawings and embodiments: FIG. 1 is a schematic diagram of the principle of the experience testing terminal of the present invention. Fig. 2 is a schematic flow chart of the present invention.

As shown in Figure 1, the CMF-based intelligent material library system in this embodiment includes

The digital material library is used to provide digital model materials of different materials, colors and processes for user experience testing terminals,

The physical material library is used to store material samples, and select and transmit the material samples corresponding to the digital model materials selected by the user according to the instructions of the experience test terminal,

The experience test terminal is used to input instructions, select digital material models, and control the physical material library to take out the physical material samples selected by the user.

The experience test terminal includes

A processing unit is used to establish a digital model and process user instruction information,

The display module is used to display materials of different materials, colors and processes in the digital model and the user's digital material library,

The input module is used to input control commands,

The association setting module is used to associate the material sample coordinates in the physical material library with the corresponding digital model materials in the digital material library,

The signal sending and receiving processing unit is used for sending and receiving control signal instructions.

In this embodiment, the product number of a certain type of product can be put into a material library, and the material library can automatically exit the material sample that the user wants to experience according to the user's needs, and select the design model through the experience test terminal. In the area where materials need to be added, select the model material, and automatically select and output the material sample corresponding to the selected model material through the physical material library.

In this embodiment, the digital material library includes a database module and a storage module for storing material information; the physical material library includes material boards, material boxes for storing material boards, material samples set on material boards, and a drive for pushing the sheet of material. In this embodiment, the driving device can use common mechanical transmission structures such as V-shaped slide rails and synchronous belt transmission modules in the prior art to transport the material boards out of the material box, which will not be repeated here.

Material information includes material sample number, material type, process, color, processing time, cost, and supplier information. During the research and development of a system or other design, the user can store all the information of a certain type of product material in the material library, including pictures, materials, processes, colors, processing time, cost, and suppliers who can make the material The information, including the phone number and contact information of the supplier, is stored. When the user selects the corresponding material sample, he can easily see the material information. It avoids that users spend a lot of time looking for the materials they need, and after finding the materials, they have to find the process, color and supplier information of the materials according to the material numbers; set the same type of material samples in a material library, for example Various materials include mobile phones and home appliances, making it easy to manage and find. For example, in the mobile phone design industry, in the process of designing a mobile phone, it is necessary to inquire about the material and process of the mobile phone case and the supplier information. First, log in to the system, enter the mobile phone case, select the material, color, cost and other attributes, and the system will automatically screen out For the material inquired by the designer, the designer clicks on the picture of the material, and the material library will launch the corresponding material sample for the designer to experience. If the car is expressed as a two-dimensional rendering, import the two-dimensional rendering of the car into the display area of the car design expression, through The rectangular frame selection tool selects the closed area composed of the body parts of the 2D rendering. Each flat closed area is a live area. After each live area is selected and touched or clicked, it will first be recognized in the software. The basic color, and then have a corresponding relationship with the color card of the same color in the material box. If the product industrial design is expressed as a 3D model, drag and load the product 3D model into the product industrial design expression display area, use the 3D box selection tool to select the closed area of each component material of the product 3D model as an active area, and each active area Contains a set of three-dimensional coordinate data, sets the association correspondence between each active area and the output control signal of the physical material sample in the material library, and saves the association correspondence. After the corresponding material is selected, the control signal is sent to the physical material library, and the physical material library executes the operation instructions of the material template after receiving the signal. Those skilled in the art can know that this system can not only be used in the mobile phone design industry, but also can be used in other industries that need to quickly select materials, such as automobile design, clothing design and so on.

In this embodiment, it also includes a remote terminal and a server, the remote terminal is connected to the server in a wireless manner, and is used to log in to the server remotely, select a digital material model, and control the physical material library to take out the physical material sample selected by the user , in this embodiment, the remote terminal can use a mobile smart device such as a mobile phone or a tablet computer to connect to the server through an APP, remotely select model materials, and control the physical material library to output the required material samples, which greatly improves flexibility.

Correspondingly, this embodiment also provides a management method of a CMF-based intelligent material library,

The model materials of different materials, colors and processes in the digital material library are associated with the material samples in the physical material library, and by selecting the model material in the digital material library, the physical material library is controlled to output the material samples corresponding to the model materials.

As shown in Figure 2, specifically include:

s1. Establish a physical material library, store similar material samples in a physical material library, and count the coordinates of the material samples in the physical material library,

s2. Establish a digital material library, establish a one-to-one corresponding model material with the material sample in the digital material library, and associate the coordinates of the material sample in the physical material library with the corresponding model material in the digital material library,

s3. Select the required model material through the experience test terminal,

s4. According to the model material selected by the user, control the entity material library to output the corresponding material sample.

Step s4 includes, numbering the material board, and dividing the position on the material board into several areas in the form of coordinates, setting different material samples in different areas of the material board, where there are multiple material boards, dividing the multiple material The board is arranged in the material box, and the driving device controls the material board to move out of the material box.

The sample information included in the digital material library, the sample information includes material sample number, material type, process, color, processing time, cost and supplier information. It also includes setting up a remote terminal and a server. The remote terminal is connected to the server in a wireless manner, and is used to remotely log in to the server, select a digital material model, and control the physical material library to take out the physical material sample selected by the user. In this embodiment In , the material board is divided into several areas, and material samples of similar material types are placed in adjacent areas. Each area has its unique coordinates. There are multiple material plates, and multiple material plates are set in the material box. The same The material box prevents materials of the same type, and multiple material boxes can be set to store multiple types of material samples in order to distinguish them. Preferably, an RFID electronic tag is set on each material box, and the electronic tag contains its identity information and The type information of the material sample can be read and written by the reader to determine its identity, so that the position of the material box does not have to be fixed at a specific coordinate point, which is convenient for actual operation, and the multiple material plates and material plates inside the material box The position where the material sample is located will not change because it is relative to the material. The drive device in the prior art can easily realize that the material plate is sent out from the corresponding position of the material box. The material plate can be It is placed in multiple layers in the material box, and each material plate can be moved out of the material box independently through the driving device. Of course, the material plate can also be divided into multiple active areas according to the coordinates, and each active area can be removed from the material box independently. Moving out, the active area can be one row or one column, that is to say, the material plate is calibrated on the X-Y axis, the same X-axis coordinate or the same Y-axis coordinate can be moved out through the driving device alone, and the user can set particularly similar material samples in the same row Or, when taken out, similar material samples can also be compared.

Finally, it is noted that the above embodiments are only used to illustrate the technical solutions of the present invention without limitation. Although the present invention has been described in detail with reference to the preferred embodiments, those of ordinary skill in the art should understand that the technical solutions of the present invention can be carried out Modifications or equivalent replacements without departing from the spirit and scope of the technical solution of the present invention shall be covered by the claims of the present invention.

Claims (10)

1. A CMF-based intelligent material library system, characterized in that: comprising The digital material library is used to provide digital model materials of different materials, colors and processes for user experience testing terminals, The physical material library is used to store material samples, and select and transmit the material samples corresponding to the digital model materials selected by the user according to the instructions of the experience test terminal, The experience test terminal is used to input instructions, select digital material models, and control the physical material library to take out the physical material samples selected by the user. 2. The intelligent material library system based on CMF according to claim 1, characterized in that: the experience testing terminal includes A processing unit is used to establish a digital model and process user instruction information, The display module is used to display materials of different materials, colors and processes in the digital model and the user's digital material library, The input module is used to input control commands, The association setting module is used to associate the material sample coordinates in the physical material library with the corresponding digital model materials in the digital material library, The signal sending and receiving processing unit is used for sending and receiving control signal instructions. 3. the intelligent material library system based on CMF according to claim 1, is characterized in that: The digital material library includes a database module and a storage module for storing material information; The physical material library includes a material board, a material box for storing the material board, material samples set on the material board, and a driving device for pushing the material board. 4. The CMF-based intelligent material library system according to claim 3, wherein the material information includes material sample number, material type, process, color, processing time, cost and supplier information. 5. the intelligent material library system based on CMF according to claim 4, is characterized in that: also comprise remote terminal and server, described remote terminal is connected with server by wireless mode, is used for logging in server remotely, selects digital material model , and control the physical material library to take out the solid material samples selected by the user. 6. A management method based on a CMF-based intelligent material library, characterized in that: comprising The model materials of different materials, colors and processes in the digital material library are associated with the material samples in the physical material library, and by selecting the model material in the digital material library, the physical material library is controlled to output the material samples corresponding to the model materials. 7. The management method based on the intelligent material storehouse of CMF according to claim 6, is characterized in that: specifically comprises: s1. Establish a physical material library, store similar material samples in a physical material library, and count the coordinates of the material samples in the physical material library, s2. Establish a digital material library, establish a one-to-one corresponding model material with the material sample in the digital material library, and associate the coordinates of the material sample in the physical material library with the corresponding model material in the digital material library, s3. Select the required model material through the experience test terminal, s4. According to the model material selected by the user, control the entity material library to output the corresponding material sample. 8. The management method of the intelligent material library based on CMF according to claim 7, characterized in that: step s4 includes, numbering the material board, and simultaneously dividing the position on the material board into several areas in the form of coordinates, dividing Different material samples are arranged in different areas of the material board, and there are multiple material boards, and the multiple material boards are set in the material box, and the driving device controls the material board to move out of the material box. 9. The management method of the intelligent material storehouse based on CMF according to claim 8, is characterized in that: the sample information that contains in the digital material storehouse, described sample information comprises material sample number, material type, process, color, Processing time, cost, and supplier information. 10. The management method of the intelligent material library based on CMF according to claim 8, characterized in that: it also includes setting a remote terminal and a server, the remote terminal is connected to the server in a wireless manner, and is used to log in to the server remotely, select Digital material model, and control the physical material library to take out the solid material samples selected by the user.