電氣伺服控制 的英文怎麼說
中文拼音 [diànqìcìbìkòngzhì]
電氣伺服控制
英文
electro servo-control- 電 : Ⅰ名詞1 (有電荷存在和電荷變化的現象) electricity 2 (電報) telegram; cable Ⅱ動詞1 (觸電) give...
- 氣 : Ⅰ名詞1 (氣體) gas 2 (空氣) air 3 (氣息) breath 4 (自然界冷熱陰晴等現象) weather 5 (氣味...
- 服 : 服量詞(用於中藥; 劑) dose
- 控 : 動詞1 (告發;控告) accuse; charge 2 (控制) control; dominate 3 (使容器口兒朝下 讓裏面的液體慢...
- 制 : Ⅰ動詞1 (製造) make; manufacture 2 (擬訂; 規定) draw up; establish 3 (用強力約束; 限定; 管束...
- 電氣 : [電學] electrical; electric電氣安裝 electric mounting; 電氣保護 electric protection; 電氣保護裝置...
- 控制 : control; dominate; regulate; govern; manage; check; cybernate; manipulate; encraty; rule; rein; c...
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Then it introduces the developing - history and current application situation of pneumatic cushioning methods. in the end this chapter points out the main content of the research work, especially introduces the electropneumtic proportional / servo control theory and application
最後指出了本課題的提出過程和研究內容,著重介紹了電-氣比例伺服位置控制技術在氣缸緩沖控制中的應用,並總結了本論文的主要工作。The whole thesis consists of five sections : chapter one first briefly states the technique feature, the current application situation and the frontiers of pneumatic control techniques, then introduces the necessity. the current development state and the trend of pneumatic cushioning technique, especially introduces the control theory applied in electropneumtic proportional / servo control system, and the current development state of smart pneumatic cushioning techniques. in the end this chapter points out the subjects of main research work
本論文主要分為五個章節:第一章首先扼要敘述了氣動技術的特點、發展狀況和最新發展方向;然後介紹了氣動緩沖的必要性和發展現狀以及發展方向,著重介紹了控制理論在電-氣比例伺服控制技術中的應用以及智能緩沖技術的發展狀況:最後指出了用智能pid控制策略實現智能緩沖的可能性,指出了本文研究的主要內容。Now with the development of computer control technique applied in it, computer control technique has had a profound influence on pneumatic system structure / control performance / control theory etc. this thesis deeply researches on the task - computer control smart high - speed pneumatic cushioning system. which mainly includes the design of mechanical structure / electronical circuit / pneumatic loop and the researches of system modeling / simulation / control strategy
計算機控制技術和電-氣比例伺服控制技術的結合,更是對控制系統的性能、系統的結構以及控制理論等多方面都產生了極為深刻的影響。本文對計算機控制智能高速氣動緩沖系統進行了機械、電氣、氣路系統的設計以及系統建模方法、系統辨識研究和控制策略研究。In order to return to the synchronous state, through changing the mechanism position asynchronies into electrical control variables. it is resumed synchronous state by control variable decoupling
為了使伺服系統回到同步狀態,需要把機械位置的不同步轉化為電氣控制變量的變化,通過對控制變量的解耦,使其恢復到同步狀態。Sim - cheng lin, yung - yaoo chen. design of silf - learning fuzzy sliding mode controllers based on genetic algorithm. fuzzy sets and systems. 1997, 86 : 139 - 153
鄭懷林,陳維南.基於遺傳演算法的模糊滑模控制器設計及其在直流伺服系統中的應用.電氣自動化, 2000 ( 1 ) 38 - 39The inverter controls main drive, the serve motor, the pneumatic components control the auto - doffer. the machine ensures safety and reliability
變頻器控制主傳動,伺服電機、氣動控制自動落紗,性能安全可靠。User can chang it freely. the signals sampled on hardware interrupt assure the real - time property and control reliability. chapter 4 first analyzes the basic characteristics of electropneumtic proportional / servo cushioning controlled system, especial study the influence of the valve dead zone, system friction and saturation phenomenon
第四章首先將電-氣比例伺服控制引入到緩沖控制中,分析了系統被控對象的基本特性,著重分析了氣源壓力變化、閥口死區、系統摩擦力特性和氣路飽和現象對控制系統的影響。Due to the component of natural gas is very complex in different zone of our country, the product has taked on special design, it set up moore component factor of thirteen kinds, which offer user to select and setup, so as to satisfy measurement for contains various component natural gas, at the same time established many take - pressure way in order to suit to different measure device, and have automatic calculate and display super - compression factor function
A q型操作器輸出svout : 010ma 420ma 05v 15v信號,可直接驅動執行機構變頻器或再由伺服放大器去驅動電動調節閥門或由電氣轉換器和閥門定位器去驅動氣動薄膜閥。操作器處于自動工作狀態時,其信號輸入svin和操作輸出信號相當於是直通的。以實現dcs系統或調節器對執行機構的自動控制。The appearance of electropneumtic proportional / servo control methods. which has developed the pneumatic system from traditional point - to - point control way to servo control way, greatly widen the application area of pneumatic system
電-氣比例伺服控制技術的出現,使氣動系統從傳統的點位控制向伺服控制過渡,大大拓展了氣動技術的應用領域。Their structures and principle were narrated in details and at the same time, the new actuators used in electric - pneumatic proportion / servo valve in the future were presented
對現有電氣比例伺服控制閥的結構及工作原理作了簡單的敘述,結合新型驅動方法闡述了未來電氣比例伺服控制元件的發展。Industrial controlling equipment and its system, sensor, converter, factory / process automation technology and equipments, distribution control system ( dcs ) / analytical controlling system / intelligent controlling system / process automation controlling system / automatic controlling system / test and control system / supervision system / numerical controlling system / digital display equipment / frequency speed control, servo - control, computer aided design and control, various specialized systems, power transmission techniques, programmable controller / hydraulic pneumatic element, automatic storage retrieval system, logistics, other electronic devices, communication, electric controlled equipments, various fitting, whole - set system and installation
工業控制機及其系統、傳感器、變頻器(培訓) 、工廠/過程自動化技術與設備、集散控制系統/分析控制系統/智能控制系統/過程自動化控制系統/自控系統/測控系統/監控系統/數控系統/數顯設備/變頻調速與伺服控制、計算機輔助設計與控制及各類專用系統、動力傳動技術、可編程序控制器/液壓與氣動元件、自動化立體倉庫、物流、其它有關電子、通訊、電控設備、各類配件及成套系統和裝置。To solve the problem of automatic potting pastern to electronic horn ' s circuit panel, a manipulator control system was made in this article. one important part is how to design the automatic control system in this article. the whole blue print, target and its function have been confirmed
為了解決汽車電子喇叭控制板生產的自動塗膠問題,本文主要研究了塗膠機械手如何從手動操作設計成為自動塗膠的機械手的方法,提出了設計自動塗膠機械手的整體方案和目標及功能要求;給出了自動塗膠機械手的本體設計(機械結構的設計) ;驅動執行裝置的設計(電氣部分及伺服電動機的設計) ;系統控制部分的設計等。A pneumatic servo controller based on dsp is thus developed in this thesis to meet the industry demands
為了推動電-氣動伺服技術的工業化廣泛應用,本課題研製了一套基於dsp的氣動伺服控制器。We use the full - distributed control technology as the basic control mode, and distributed the control system of the pneumatic servo sub - system and the electrical servo sub - system. also, we coordinate them through can - bus. the experiment results have proved that it is a good solution for the mixed - driven system
論文採用完全分散式控制技術,將氣動伺服與電動伺服分散控制,通過can總線實現氣動伺服與電動伺服之間的協調,很好解決了混合驅動問題。According to the features of precision, efficiency, inspection dimension and accuracy varying great range, designed closed - loop control system composition of servomechanism and grating to assure system ’ s precision, smooth, efficiency, and to realize the great dimension range measurement ; designed image capture system composition of ccd, automatic variable power lens and self - adaptive lighting, to realize integration of large inspection precision range ; designed electric control and software system to make the inspection convenience and fast. finally, developed the prototype instrument
針對微電子產品視覺檢測的精密、高效、檢測精度和測量范圍變換大的特點,設計了伺服驅動、精密光柵採集組成閉環控制系統以保證運動精密、平穩、高效,和大的尺寸測量范圍;設計了由ccd攝像機、大范圍自動變倍鏡頭和自適應光源組成的圖像採集系統,集不同精度等級的檢測於一體;設計了電氣控制和軟體系統使檢測方便快捷。With the development of pneumatic technology, electric - pneumatic proportion / servo technology has been widely used in industry automatization, more and more proportion / servo valves have been developed and used in pneumatic orientation system
摘要隨著氣動技術的發展,電氣比例伺服技術在伺服控制系統中得到廣泛的應用。The paper is the project named " theory of dynamic precision synchronization traverse and research of realization methods for linear servo dual position loops system ( no - 50075057 ) " as the background, which is supported by national natural science foundation of china drive directly by linear permanent magnet synchronous ac motor, the controlled plant eliminates middle drive parts and avoids the effects of the mechanical transmission chains from rotary motions to linear ones
本文以國家自然科學基金資助項目《直線伺服雙位置環動態精密同步進給理論和實現方法研究( no 50075057 ) 》為背景,針對直線同步進給提出了一種新的控制方案:模型參考自適應控制。機床採用永磁直線同步電動機直接驅動,省掉了中間的傳動環節,消除了機械傳動鏈的影響;又因永磁直線同步電動機採用高能永磁體,具有電磁推力強度高、損耗低、電氣時間常數小、響應快等特點。分享友人