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3d digital model Print milling system

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Publication number
CN103658783B
CN103658783B CN 201210347153 CN201210347153A CN103658783B CN 103658783 B CN103658783 B CN 103658783B CN 201210347153 CN201210347153 CN 201210347153 CN 201210347153 A CN201210347153 A CN 201210347153A CN 103658783 B CN103658783 B CN 103658783B
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CN 201210347153
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CN103658783A (en )
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冯黎
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冯黎
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Abstract

一种数字模型3D打印铣削加工系统,包括公用机床床身、3D打印系统、铣削加工系统、扫描测量装置、计算机系统,它还包括加工控制软件,3D打印系统、铣削加工系统组合安装在公用机床床身上独立运行,通过安装在铣削加工系统上的扫描测量装置测量3D打印系统在校正板位置打印的矩形(或圆形)图案得到矩形(或圆形)图案的中心点坐标,加工控制软件根据矩形(或圆形)图案的中心点坐标建立铣削加工系统3D打印系统一致的坐标系,加工控制软件根据数字模型控制3D打印系统分层堆叠打印实体模型,同时控制铣削加工系统完成对实体模型的精确加工。 A digital model milling 3D printing system, comprising a common machine bed, 3D printing system, milling system, the scanning measuring device, the computer system further comprises a process control software, 3D printing system, milling system installed in a common combination machine bed body run independently, the measurement rectangular (or circular) pattern obtained center coordinates rectangular (or circular) pattern 3D printing systems for printing by the scanning position correction plate measuring device is mounted on the milling system, in accordance with process control software the coordinates of the center point of a rectangular (or circular) pattern milling 3D printing system establishes a consistent coordinate system, process control software system of 3D printing digital print layered stack model of a solid model, while controlling the system to complete the milling entity model precision machining.

Description

数字模型3 D打印铣削加工系统 3 D digital model of the printing system milling

技术领域 FIELD

[〇〇〇11本发明涉及3D打印制造技术。 [〇〇〇11 The present invention relates to 3D printing fabrication techniques. 背景技术 Background technique

[0002] 现有技术中,3D打印制造的方式有:快速成型技术与堆叠打印技术。 [0002] In the prior art, 3D printing, manufacturing methods are: rapid prototyping and stacking printing technology.

[0003] 现有技术存在的问题是:快速成型技术打印制造成本高且效率低,不适合大尺寸模型的3D打印(如汽车模型),堆叠打印技术打印制造精度差,无法满足一般的模型制造精度要求。 [0003] The problem of the prior art: a high printing rapid prototyping manufacturing cost and low efficiency, not suitable for printing large size 3D model (e.g., vehicle model), the stacked printing technology for producing printing accuracy, can not meet the general model manufactured accuracy requirements. 发明内容 SUMMARY

[0004] 本发明为3D打印制造提供一种数字模型3D打印铣削加工系统,能够解决大尺寸模型(如汽车模型)3D打印制造效率低、精度差的问题。 [0004] The present invention provides a 3D digital model of manufacturing printing 3D printing milling system, a large-sized model can solve the problem (e.g., car model) 3D printing low production efficiency, accuracy is poor.

[0005] 为达到上述目的,本发明采用的技术方案是:一种数字模型3D打印铣削加工系统, 包括公用机床床身、与所述的公用机床床身机械连接的3D打印系统、与所述的公用机床床身机械连接的铣削加工系统、与所述的铣削加工系统机械连接的扫描测量装置、与所述的3D打印系统、所述的铣削加工系统、所述的扫描测量装置电连接的计算机系统,它还包括加工控制软件,其特征是:所述的3D打印系统、铣削加工系统组合安装在所述的公用机床床身上独立运行,所述的加工控制软件接收所述的计算机系统输入的数字模型,通过安装在所述的铣削加工系统上的所述的扫描测量装置测量所述的3D打印系统在校正板位置打印的矩形(或圆形)图案得到矩形(或圆形)图案的中心点坐标,所述的加工控制软件根据矩形(或圆形)图案的中心点坐标建立所述的铣削加工系统与所 [0005] To achieve the above object, the technical solution of the present invention is that: a digital 3D model of the printing milling system, comprising a common machine bed, with a common machine bed of the machine of 3D printing system, the the common mechanical milling machine bed systems connected with the scanning of the measuring device mechanically connected to the milling system, a 3D printing system according to the milling system, said measuring means electrically connected to the scanning the computer system further comprises a process control software, characterized in that: said 3D printing system, milling system is mounted on said common combination machine bed independently, the processing of the control software of the computer system receives input digital model, by being mounted on the milling system scanning said measuring means measuring the 3D printing systems rectangular (or circular) printed in the correction position of the pattern plate to give a rectangular (or circular) pattern center point coordinates, to establish the process control software and the milling system according to the center point coordinates of the rectangle (or circular) pattern 的3D打印系统一致的坐标系, 所述的加工控制软件根据输入的数字模型控制所述的3D打印系统分层堆叠打印实体模型, 同时控制所述的铣削加工系统完成对实体模型的精确加工。 The 3D coordinate system consistent with the printing system, the print processing control software layered stack model of the 3D solid model of a digital printing system according to input from the control, while the control system of the completion of milling precision machining of the solid model.

[0006] 由于上述技术方案的运用,本发明与现有技术相比它产生的有益效果是:3D打印系统与铣削加工系统的组合应用,解决了现有技术对大尺寸模型(如汽车模型)3D打印制造成本高、效率低、精度差的问题。 [0006] As the use of the above technical solutions, and advantages of the invention over the prior art is that it produces: 3D printing systems in combination with the milling system solves the prior art model of a large size (e.g., car model) 3D printing high manufacturing cost and low efficiency, accuracy is poor. 附图说明 BRIEF DESCRIPTION

[0007] 附图1为本发明的原理框图: Block diagram [0007] Figure 1 of the present invention:

[0008] 其中:1、公用机床床身;2、3D打印系统;3、铣削加工系统;4、扫描测量装置;5、计算机系统;6、加工控制软件。 [0008] wherein: 1, the common machine bed; 2,3 D printing system; 3, milling system; 4, scan measurement device; 5, the computer system; 6, process control software. 具体实施方式 detailed description

[0009] 参见附图1: 一种数字模型3D打印铣削加工系统,包括公用机床床身、与所述的公用机床床身机械连接的3D打印系统、与所述的公用机床床身机械连接的铣削加工系统、与所述的铣削加工系统机械连接的扫描测量装置、与所述的3D打印系统、所述的铣削加工系统、所述的扫描测量装置电连接的计算机系统,它还包括加工控制软件,所述的3D打印系统、铣削加工系统组合安装在所述的公用机床床身上独立运行,所述的加工控制软件接收所述的计算机系统输入的数字模型,通过安装在所述的铣削加工系统上的所述的扫描测量装置测量所述的3D打印系统在校正板位置打印的矩形(或圆形)图案得到矩形(或圆形)图案的中心点坐标,所述的加工控制软件根据矩形(或圆形)图案的中心点坐标建立所述的铣削加工系统与所述的3D打印系统一致的坐标系,所述的加工控 [0009] Referring to Figure 1: A digital model milling 3D printing system, comprising a common machine bed, and the common machine bed 3D mechanical printing system described, and the common machine bed mechanically connected to the milling system, the scanning of the measuring device mechanically connected to the milling system, a 3D printing system according to the milling system, the scanning measuring device electrically connected to the computer system further comprising a control processing software, the 3D printing system, common milling machine bed mounted in said composition systems run independently, a digital model of the process control system computer software to receive the input, by milling machining the mounting rectangular (or circular) scan of the measuring device on a measurement system of the 3D printing system print position of the pattern in the correction plate obtained center coordinates rectangular (or circular) pattern, in accordance with the process control software rectangular center coordinates (or circular) pattern establishing said milling system coincides with the 3D coordinate system of the printing system, the processing control 制软件根据输入的数字模型控制所述的3D打印系统分层堆叠打印实体模型,同时控制所述的铣削加工系统完成对实体模型的精确加工。 Printing system software layered stack model mockup digital control input of the 3D printing system, while the control system of the completion of milling precision machining of the solid model.

[0010]实际应用时,操作加工控制软件,根据输入的数字模型及3D打印系统的打印起始位置建立3D打印系统与输入的数字模型一致的坐标系,在校正板位置控制3D打印系统打印一矩形(或圆形)图案,操作铣削加工系统利用扫描测量装置测量打印的矩形(或圆形)图案,操作加工控制软件根据矩形(或圆形)图案的中心点坐标建立铣削加工系统与3D打印系统一致的坐标系,操作加工控制软件,根据输入的数字模型进行铣削加工系统的加工轨迹编程,操作加工控制软件进行打印加工,加工控制软件控制3D打印系统进行堆叠打印实体模型,同时,加工控制软件根据堆叠打印情况控制铣削加工系统进行精确加工直至实体模型完成。 [0010] In practice, the operation of process control software to build 3D digital model of the printing system and the input coordinate system coincides accordance with the print start position and a 3D digital model input printing system, the printing control system 3D position of the printing plate a correction rectangular (or circular) pattern, rectangular milling system operating a scanning measuring device to print (or circular) pattern operation process control software systems in accordance with established milling center point coordinates of the rectangle (or circular) pattern and a 3D printing the system consistent coordinate system, the operating process control software, the digital model input processing path programming milling system in accordance with the operating process control software for the print processing, the processing control software 3D printing systems stacked printing solid model, while process control The milling system control software stack print situation precisely machined solid model until completion.

Claims (1)

1.一种数字模型3D打印铣削加工系统,包括公用机床床身(1)、与所述的公用机床床身(1)机械连接的3D打印系统(2)、与所述的公用机床床身(1)机械连接的铣削加工系统(3)、 与所述的铣削加工系统(3)机械连接的扫描测量装置(4)、与所述的3D打印系统(2)、所述的铣削加工系统(3)、所述的扫描测量装置(4)电连接的计算机系统(5),它还包括加工控制软件(6 ),其特征是:所述的3D打印系统(2 )、铣削加工系统(3)组合安装在所述的公用机床床身(1)上独立运行,所述的加工控制软件(6)接收所述的计算机系统(5)输入的数字模型,通过安装在所述的铣削加工系统(3)上的所述的扫描测量装置(4)测量所述的3D打印系统(2) 在校正板位置打印的矩形(或圆形)图案得到矩形(或圆形)图案的中心点坐标,所述的加工控制软件(6)根据矩形(或圆形)图案的中心点坐标建立所述的铣削加工系统(3) A digital model milling 3D printing system, comprising a common machine bed (1), 3D printing system and the common machine bed (1) mechanical connection (2), the common machine bed (3), with said apparatus milling milling system scan measuring system (1) mechanical connection (3) mechanical connection (4), and the 3D print system according to (2), said milling system (3), said scanning measuring means (4) is electrically connected to the computer system (5) further comprises process control software (6), characterized in that: said 3D printing system (2), milling system ( common machine bed 3) is mounted in said composition (1) operate independently, the digital model of the process control software (6) receiving said computer system (5) input, by mounting in the milling (4) measuring the scanning system of the measuring device (3) a 3D printing system (2) a rectangular (or circular) printing plates in the correction position of the pattern center coordinates obtained rectangular (or circular) pattern the process control software (6) establishing the milling system (3) according to the coordinates of the center point of a rectangular (or circular) pattern 所述的3D打印系统(2)—致的坐标系,所述的加工控制软件(6)根据输入的数字模型控制所述的3D 打印系统(2)分层堆叠打印实体模型,同时控制所述的铣削加工系统(3)完成对实体模型的精确加工。 The 3D printing system (2) - consistent coordinate system, the process control software (6) (2) The layered stack printing solid model 3D digital model of the printing system according to input from the control, while the control the milling system (3) to complete the processing precision of the solid model.
CN 201210347153 2012-09-19 2012-09-19 3d digital model Print milling system CN103658783B (en)

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CN104550954A (en) * 2014-12-19 2015-04-29 机械科学研究总院先进制造技术研究中心 Forming method of meal piece through composite milling in 3D (Three-dimensional) printing

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CN1207067A (en) * 1995-12-31 1999-02-03 株式会社新兴塞尔比克 Moldless molding method using no mold and apparatus therefor
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