版權(quán)說明:本文檔由用戶提供并上傳,收益歸屬內(nèi)容提供方,若內(nèi)容存在侵權(quán),請(qǐng)進(jìn)行舉報(bào)或認(rèn)領(lǐng)
文檔簡(jiǎn)介
1、 中文 中文 6512 字出處: 出處:International Journal of Precision Engineering and Manufacturing, 2010, 11(1): 39-47Development of a 3-axis Desktop Milling Machine and a CNC System Using Advanced Modern Control AlgorithmsKim B S, Ro
2、 S K, Park J K1. IntroductionAs new fields such as IT(Information Technology), BT(Bio Technology) and NT(Nano Technology) emerge as a driving force in the industry, the interests in micro-factory system have been growing
3、. The micro-factory is a miniaturized flexiblemanufacturing system which consumes minimal space and energy compared to theconventional one, and it is desired to produce micro/meso size mechanical components necessary for
4、 IT, BT and NT applications. Major technical units contributing to micro mechanical machining systems are,to name a few, high speed spindlesystems, micro high precision feeding systems, control systems to generate coordi
5、nated motions, tooling and chucking systems, frame design and module allocationschemes based upon optimization for high stiffness. Researchers have been trying to put micro technologies together to build micro-factory sy
6、stems which make micro/mesosize precision parts to meet the needs from the manufacturing industry.1In this paper, we present a miniaturized 3-axis milling machine and a dedicated CNC system for the machine. The 3-axis mi
7、lling machine is constructed as one of micro-factory module and designed to produce high precision micro parts. It has a desktop size of 200×300×200 mm3 and is serving as our testbed machine.From finite element
8、 analysis and an impact hammer test, we have verified that ithas a good structural stiffness and high natural frequencies. A high speed air turbine spindle on the horizontal z-axis can run at up to 160,000 rpm. This 3-ax
9、is milling machine was put under real machining tests and it successfully demonstrated its machining capabilities.A CNC system was developed for operation of the 3-axis desktop milling machine. The CNC system includes a
10、G-code interpreter which can process a basicset of G-codes and M-codes in real-time. The CNC system consists of two parts.The one is agraphical user interface which runs under Microsoft Windows, andthe other is a DSP pro
11、gram which interpolates commands and executes a real-time servo control. Two parts communicate each other through a dual port RAM(Random Access Memory). Job assignments for the two parts are discussed in detailin this pa
12、per. To improve the performance of the CNC system for the 3-axis milling machine beyond the traditional PID-type control, different control schemes have been tested including H∞ control, input shaping control, disturbanc
13、e observer and cross-coupled control on the 3-2.1 Static and Dynamic AnalysisFinite element analysis was done to investigate the static and dynamic characteristics of the designed 3-axis milling machine using a finite el
14、ement model as shown in Fig. 3. The computational results showed that the deflection due to its own weight was negligible. When a 10N force was located at the machining position in z-direction, the numerical results show
15、ed that the displacement change at the work table would be about 0.07 ., and the back fame would undergo less than 0.02 . deflection in z-direction. It seems that the 3-axis milling machine has good stiffness due to good
16、 frame design and a pair of small LM guides supporting each x- and y-direction.The modal analysis revealed many important dynamic modes of the 3-axis milling machine. We used the impact hammer test to verify the computed
17、 natural frequencies. The measured natural frequencies do not exactly match the computed ones, but the indicated frequency range from the finite element modal analysis was similar to that from the impact hammer test. Fig
18、. 4 and Table 1 show the measured natural frequencies and corresponding frequency response function of the 3-axis milling machine. It can be seen that the natural frequencies of z-axis stage, which is supposed to be low
19、in stiffness due to its air bearing, locate at a range of 250~390 Hz. The natural frequency of the XY stage shows at about 400 and 710 Hz and, for the back frame, it is around 440 and 640 Hz. It seems that the designed m
溫馨提示
- 1. 本站所有資源如無特殊說明,都需要本地電腦安裝OFFICE2007和PDF閱讀器。圖紙軟件為CAD,CAXA,PROE,UG,SolidWorks等.壓縮文件請(qǐng)下載最新的WinRAR軟件解壓。
- 2. 本站的文檔不包含任何第三方提供的附件圖紙等,如果需要附件,請(qǐng)聯(lián)系上傳者。文件的所有權(quán)益歸上傳用戶所有。
- 3. 本站RAR壓縮包中若帶圖紙,網(wǎng)頁內(nèi)容里面會(huì)有圖紙預(yù)覽,若沒有圖紙預(yù)覽就沒有圖紙。
- 4. 未經(jīng)權(quán)益所有人同意不得將文件中的內(nèi)容挪作商業(yè)或盈利用途。
- 5. 眾賞文庫僅提供信息存儲(chǔ)空間,僅對(duì)用戶上傳內(nèi)容的表現(xiàn)方式做保護(hù)處理,對(duì)用戶上傳分享的文檔內(nèi)容本身不做任何修改或編輯,并不能對(duì)任何下載內(nèi)容負(fù)責(zé)。
- 6. 下載文件中如有侵權(quán)或不適當(dāng)內(nèi)容,請(qǐng)與我們聯(lián)系,我們立即糾正。
- 7. 本站不保證下載資源的準(zhǔn)確性、安全性和完整性, 同時(shí)也不承擔(dān)用戶因使用這些下載資源對(duì)自己和他人造成任何形式的傷害或損失。
最新文檔
- 機(jī)械專業(yè)畢業(yè)論文外文翻譯--三軸工作臺(tái)銑床及運(yùn)用先進(jìn)現(xiàn)代控制算法
- 機(jī)械專業(yè)畢業(yè)論文外文翻譯--三軸工作臺(tái)銑床及運(yùn)用先進(jìn)現(xiàn)代控制算法
- 機(jī)械專業(yè)畢業(yè)論文外文翻譯--三軸工作臺(tái)銑床及運(yùn)用先進(jìn)現(xiàn)代控制算法.doc
- 機(jī)械專業(yè)畢業(yè)論文外文翻譯--三軸工作臺(tái)銑床及運(yùn)用先進(jìn)現(xiàn)代控制算法.doc
- 機(jī)械專業(yè)畢業(yè)論文_外文翻譯
- 機(jī)械專業(yè)畢業(yè)論文外文翻譯
- 機(jī)械專業(yè)畢業(yè)論文外文翻譯3
- 畢業(yè)論文-銑床的數(shù)控x-y工作臺(tái)設(shè)計(jì)
- 外文翻譯--一種采用現(xiàn)代先進(jìn)控制算法的3軸臺(tái)式數(shù)控系統(tǒng)銑床
- 外文翻譯--一種采用現(xiàn)代先進(jìn)控制算法的3軸臺(tái)式數(shù)控系統(tǒng)銑床
- 外文翻譯--在三軸數(shù)控銑床上使用plc模塊控制回轉(zhuǎn)工作臺(tái)切錐齒輪螺紋
- 外文翻譯--在三軸數(shù)控銑床上使用plc模塊控制回轉(zhuǎn)工作臺(tái)切錐齒輪螺紋
- 外文翻譯--一種采用現(xiàn)代先進(jìn)控制算法的3軸臺(tái)式數(shù)控系統(tǒng)銑床
- 專用擺線銑床工作臺(tái)的設(shè)計(jì)職業(yè)學(xué)院畢業(yè)論文
- 外文翻譯--一種采用現(xiàn)代先進(jìn)控制算法的3軸臺(tái)式數(shù)控系統(tǒng)銑床.doc
- 外文翻譯--在三軸數(shù)控銑床上使用plc模塊控制回轉(zhuǎn)工作臺(tái)切錐齒輪螺紋(譯文)
- 外文翻譯--一種采用現(xiàn)代先進(jìn)控制算法的3軸臺(tái)式數(shù)控系統(tǒng)銑床(英文)
- 外文翻譯--一種采用現(xiàn)代先進(jìn)控制算法的3軸臺(tái)式數(shù)控系統(tǒng)銑床.doc
- 機(jī)械設(shè)計(jì)專業(yè)畢業(yè)論文-φ25工作臺(tái)可移動(dòng)式鉆床設(shè)計(jì)
- 外文翻譯--plc模塊控制回轉(zhuǎn)工作臺(tái)在三軸數(shù)控銑床銑削螺旋傘齒輪中的應(yīng)用
評(píng)論
0/150
提交評(píng)論