阅读说明：本技术 一种基于3d打印的个性化香水包装制造系统及方法 (3D printing-based personalized perfume package manufacturing system and method ) 是由 黃夏芝 庄珊钊 郑宋武 赵泽华 陈晓帆 于 2020-11-26 设计创作，主要内容包括：本发明属于精细化工制造技术领域,具体地说,涉及一种基于3D打印的个性化香水包装制造系统及方法,该系统包括：需求录入单元、初步设计单元、数据采集单元、优化设计单元、3D打印单元。需求录入单元用于录入顾客个人信息和对香水包装的需求;初步设计单元用于分析信息得出初步设计方案；数据采集单元用于采集顾客实际使用香水时的手势数据；优化设计单元是对香水包装进行尺寸修正和造型结构优化：3D打印单元用于将整体产品设计方案通过3D打印设备打印成实物产品。本申请借助3D打印技术这一先进制造技术,将作业流程数字化降低了设计成本,无需开模成型降低了生产成本,设备材料支持用户端制造降低了仓储运输成本,从而降低了个性化香水包装制造的成本。(The invention belongs to the technical field of fine chemical manufacturing, and particularly relates to a personalized perfume package manufacturing system and method based on 3D printing, wherein the system comprises: the device comprises a demand entry unit, a primary design unit, a data acquisition unit, an optimization design unit and a 3D printing unit. The perfume package system comprises a demand input unit, a primary design unit, a perfume package processing unit and a control unit, wherein the demand input unit is used for inputting personal information of a customer and demands for perfume packages; the data acquisition unit is used for acquiring gesture data of a customer when the perfume is actually used; the optimization design unit is used for carrying out size correction and modeling structure optimization on perfume packages: the 3D printing unit is used for printing the whole product design scheme into a real object product through 3D printing equipment. By means of the advanced manufacturing technology of the 3D printing technology, the design cost is reduced by digitalizing the operation flow, the die sinking forming is not needed, the production cost is reduced, the equipment material supports the user side manufacturing, the storage and transportation cost is reduced, and therefore the cost of personalized perfume package manufacturing is reduced.)

1. A 3D printing-based personalized perfume package manufacturing system, comprising: demand entry unit, preliminary design unit, data acquisition unit, optimal design unit, 3D print unit, wherein:

the requirement input unit is used for inputting personal information of customers, modeling requirements on perfume packages, color preferences, requirements on perfume packaging materials and other special requirements;

the preliminary design unit is used for analyzing the information acquired by the requirement input unit, and performing preliminary design to obtain a preliminary design scheme and feeding the preliminary design scheme back to the customer;

the data acquisition unit is used for acquiring gesture data of a customer who confirms the preliminary design scheme when the perfume is actually used;

the optimal design unit is used for correcting the size of the perfume package according to the data collected by the data collection unit, optimizing the modeling structure and obtaining the design scheme of the whole product, so that the perfume package meets the requirements of use comfort of human engineering:

and the 3D printing unit is used for printing the whole product design scheme into a real object product through 3D printing equipment.

2. The system according to claim 1, further comprising a warehouse logistics unit for delivering the physical product to a customer.

3. The personalized perfume packaging and manufacturing system based on 3D printing according to claim 1 or 2, wherein the gesture data when perfume is actually used comprises: the length of the index finger, the length of the thumb, the area of the index finger pressing trace, the area of the thumb pressing trace, the length of the palm when the five fingers are closed, and the width of the palm when the five fingers are closed.

4. The 3D printing-based personalized perfume package manufacturing system according to claim 3, wherein: the preliminary design is presented in a three-dimensional software effect map.

5. The 3D printing-based personalized perfume package manufacturing system according to claim 3, wherein: the design scheme of the whole product is a three-dimensional digital model file which can be executed by the 3D printing equipment.

6. A 3D printing-based personalized perfume package manufacturing method, comprising:

receiving a customer's personal information, styling needs for perfume packaging, color preferences, and needs for perfume packaging materials and other special needs;

analyzing the collected information, and carrying out preliminary design to obtain a preliminary design scheme to be fed back to the customer;

collecting gesture data of a customer who confirms the preliminary design scheme when the perfume is actually used;

carry out size correction and molding configuration optimization and obtain whole product design according to the gesture data of gathering to perfume packing, make perfume packing accord with the demand that human engineering used the travelling comfort:

and printing the whole product design scheme into a real object product through 3D printing equipment.

7. The method of manufacturing a personalized perfume package based on 3D printing according to claim 6, further comprising delivering the physical product to a customer.

8. The personalized perfume package manufacturing method based on 3D printing according to claim 6 or 7, wherein the gesture data when perfume is actually used comprises: the length of the index finger, the length of the thumb, the area of the index finger pressing trace, the area of the thumb pressing trace, the length of the palm when the five fingers are closed, and the width of the palm when the five fingers are closed.

9. The manufacturing method of the personalized perfume package based on 3D printing according to claim 8, characterized in that: the preliminary design is presented in a three-dimensional software effect map.

10. The manufacturing method of the personalized perfume package based on 3D printing according to claim 8, characterized in that: the design scheme of the whole product is a three-dimensional digital model file which can be executed by the 3D printing equipment.

Technical Field

The invention belongs to the technical field of fine chemical manufacturing, and particularly relates to a personalized perfume package manufacturing system and method based on 3D printing.

Background

With the improvement of living standard of people and the convergence of east-west culture, perfume gradually becomes a tool for showing personal charm and expressing personal taste of people. Meanwhile, the demand of people for customized and personalized products is increasing day by day, and personalized perfume and package are not only the material demand, but also the spirit demand in the aspects of identity recognition, personalized expression and the like.

At present, personalized perfume packages do not enter the mass market along with personalized perfume, and high price and high cost are main obstacles for restricting the development of the personalized perfume packages. Compared with the traditional package production, the design cost and the production cost of the personalized package production are higher. Personalized packaging production also needs high-cost investment processes of early-stage proofing and die sinking, but higher early-stage costs of dies and the like cannot be shared through mass production, so that the overall production cost is greatly increased.

Disclosure of Invention

The invention provides a 3D printing-based personalized perfume package manufacturing system and a 3D printing-based personalized perfume package manufacturing method aiming at the problem of high manufacturing cost of personalized perfume packages.

To achieve the above object, according to an aspect of embodiments of the present invention, there is provided a personalized perfume package manufacturing system based on 3D printing.

A 3D printing-based personalized perfume package manufacturing system comprising: demand entry unit, preliminary design unit, data acquisition unit, optimal design unit, 3D print unit, wherein: the perfume packaging system comprises a demand input unit, a preliminary design unit, a perfume packaging material input unit, a perfume packaging unit and a control unit, wherein the demand input unit is used for inputting personal information of a customer, modeling requirements on perfume packaging, color preference, requirements on perfume packaging materials and other special requirements; the data acquisition unit is used for acquiring gesture data of a customer who confirms the preliminary design scheme when the perfume is actually used; the optimal design unit is used for correcting the size of the perfume package according to the data collected by the data collection unit, optimizing the modeling structure and obtaining the design scheme of the whole product, so that the perfume package meets the requirements of use comfort of human engineering: and the 3D printing unit is used for printing the whole product design scheme into a real object product through 3D printing equipment.

Optionally, the system further comprises a warehouse logistics unit for delivering the physical product to a customer.

Specifically, the gesture data in actual use of perfume includes: the length of the index finger, the length of the thumb, the area of the index finger pressing trace, the area of the thumb pressing trace, the length of the palm when the five fingers are closed, and the width of the palm when the five fingers are closed.

Specifically, the preliminary design scheme is presented in a three-dimensional software effect graph.

Specifically, the design scheme of the whole product is a three-dimensional digital model file which can be executed by the 3D printing equipment.

Based on the system, the application also provides a personalized perfume package manufacturing method based on 3D printing.

A 3D printing-based personalized perfume package manufacturing method, comprising:

receiving a customer's personal information, styling needs for perfume packaging, color preferences, and needs for perfume packaging materials and other special needs;

analyzing the collected information, and carrying out preliminary design to obtain a preliminary design scheme to be fed back to the customer;

collecting gesture data of a customer who confirms the preliminary design scheme when the perfume is actually used;

carrying out size correction and modeling structure optimization on the perfume package according to the collected gesture data and obtaining an overall product design scheme, so that the perfume package meets the requirement of human engineering use comfort;

printing the whole product design scheme into a real object product through 3D printing equipment;

optionally, the method for manufacturing the personalized perfume package based on 3D printing further comprises delivering the physical product to a customer;

specifically, the gesture data in actual use of perfume includes: the length of the forefinger, the length of the thumb, the area of the forefinger pressing trace, the area of the thumb pressing trace, the length of the palm when the five fingers are closed, and the width of the palm when the five fingers are closed;

specifically, the preliminary design scheme is presented by a three-dimensional software effect graph;

specifically, the design scheme of the whole product is a three-dimensional digital model file which can be executed by the 3D printing equipment.

The invention has the following beneficial effects: the operation flow is digitalized, die sinking forming is not needed, equipment materials support manufacturing of a user side, the manufacturing cost of the personalized perfume package is reduced from three aspects of design cost, production cost and transportation cost, and the development barrier of the personalized perfume package is overcome. Because only the three-dimensional digital model file can be printed by the 3D printing equipment, the design period of the product can be shortened in the face of personalized requirements. Different from the traditional mould production mode, the 3D printing production flow does not need die sinking, and the modeling can be constructed in the modes of layered processing and superposition molding of the 3D printer, so that the production efficiency of the personalized perfume packaging product is high, and the cost is low. The continuous progress of the technology enables the cost of 3D printing equipment and materials to be reduced year by year, the reduction of the cost enables the 3D printer to be capable of entering thousands of households, products are manufactured by the 3D printer at a user side, the traditional product storage and logistics flow can be changed and even cleared up, and the personalized product storage and logistics cost is greatly reduced.

Drawings

FIG. 1 is a logic block diagram of an embodiment of a 3D printing-based personalized perfume package manufacturing system of the present invention;

fig. 2 is a flow chart of an embodiment of the manufacturing method of the personalized perfume package based on 3D printing according to the invention.

Detailed Description

The present invention will be described in detail with reference to examples.

As shown in figure 1, the personalized perfume packaging and manufacturing system based on 3D printing comprises a requirement input unit, a primary design unit, a data acquisition unit, an optimization design unit and a 3D printing unit, wherein the requirement input unit and the data acquisition unit are integrated at a customer end, and the primary design unit, the optimization design unit and the 3D printing unit are integrated at an enterprise end.

The requirement input unit is used for inputting personal information of customers, modeling requirements on perfume packages, color preferences, requirements on perfume packaging materials and other special requirements;

the preliminary design unit is used for analyzing the information acquired by the demand entry unit, and performing preliminary design to obtain a preliminary design scheme to be fed back to the customer;

the data acquisition unit is used for acquiring gesture data of a customer who confirms the preliminary design scheme when the perfume is actually used;

the optimal design unit is used for correcting the size of the perfume package according to the data collected by the data collection unit, optimizing the modeling structure and obtaining the design scheme of the whole product, so that the perfume package meets the requirement of the use comfort of human engineering:

and the 3D printing unit is used for printing the whole product design scheme into a real object product through 3D printing equipment.

In this embodiment, because the 3D printing unit is integrated at the enterprise end, the 3D printing unit further needs to include a warehouse logistics unit, and is used to deliver the printed physical product to the customer.

Specifically, gesture data in actual use of perfume includes: the length of the index finger, the length of the thumb, the area of the index finger pressing trace, the area of the thumb pressing trace, the length of the palm when the five fingers are closed, and the width of the palm when the five fingers are closed.

Specifically, the preliminary design is presented in a three-dimensional software effect map.

Specifically, the design scheme of the whole product is a three-dimensional digital model file which can be executed by the 3D printing equipment.

Based on the above system, the present application also provides a 3D printing-based personalized perfume package manufacturing method, as shown in fig. 2, including:

s1, receiving personal information of customers, modeling requirements of perfume packages, color preferences, requirements of perfume packaging materials and other special requirements;

s2, analyzing the collected information, and performing primary design to obtain a primary design scheme to feed back to the customer;

s3, collecting gesture data of the customer who confirms the preliminary design scheme when the perfume is actually used;

s4, performing size correction and modeling structure optimization on the perfume package according to the collected gesture data to obtain an overall product design scheme, so that the perfume package meets the requirement of ergonomics use comfort;

s5, printing the whole product design scheme into a real object product through 3D printing equipment;

in this embodiment, a 3D printing-based personalized perfume package manufacturing method further includes delivering the physical product to a customer;

specifically, the gesture data in actual use of perfume includes: the length of the forefinger, the length of the thumb, the area of the forefinger pressing trace, the area of the thumb pressing trace, the length of the palm when the five fingers are closed, and the width of the palm when the five fingers are closed;

specifically, the preliminary design scheme is presented by a three-dimensional software effect graph;

specifically, the design scheme of the whole product is a three-dimensional digital model file which can be executed by the 3D printing equipment.

The foregoing is a more detailed description of the invention in connection with specific preferred embodiments and it is not intended that the invention be limited to these specific details. For those skilled in the art to which the invention pertains, several simple deductions or substitutions can be made without departing from the spirit of the invention, and all shall be considered as belonging to the protection scope of the invention.