磁懸軸承 的英文怎麼說
中文拼音 [cíxuánzhóuchéng]
磁懸軸承
英文
magnetic suspension- 磁 : 名詞1. [物理學] (磁性; 能吸引鐵、鎳等的性質) magnetism 2. (瓷) porcelain; china
- 軸 : 軸Ⅰ名詞1. (圓柱形的零件) axle; shaft 2. (對稱部分的直線) axis 3. (圓柱形的纏繞器物) roller; spool Ⅱ量詞(用於纏在軸上的線以及裝裱帶軸子的字畫)
- 承 : Ⅰ動詞1 (托著; 接著) bear; hold; carry 2 (承擔) undertake; contract (to do a job) 3 (客套話...
- 軸承 : [機械工程] bearing; axle bearing; bearing of shafts; gudgeon block; mechanical bearing; pillow; s...
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Application of comparative circuits in the control system of magnetic levitation axletree
比較電路在磁懸浮軸承控制系統中的應用The magnetic suspension bearingless motors generate both electromagnetic torque and magnetic levitation forces for the rotor suspension by the motor itself. the bearingless motor is comparatively suited for using as artificial heart blood pump motor due to the advantages of without mechanical wear and noise, structure compact and contactless
磁懸浮無軸承電機定、轉子既用於產生驅動力矩,同時又用於產生支撐轉子的磁懸浮力,具有無機械磨損、噪音小、可高轉速和體積小等特點,比較適用於人工心臟血泵電機。A new type of bearing - less disc pm motor is investigated. the motor consists of two functions, one part is a general short - span structure permanent motor and the other is the so - called hybrid type active magnetic bearing
本文研究了一種新型的片狀無軸承永磁電機,該電機由兩部分組成:普通片狀永磁電機和永磁偏置混合式磁懸浮軸承。The operational principle of magnetic levitating bearing is introduced, and its mathematics model is presented
摘要介紹了磁懸浮軸承工作原理,並給出了其數學模型。Permanent magnet bearings is one kind of magnetic bearings by using permanent magnet to levitate rotor
永磁軸承是利用永磁材料產生的磁場力將轉軸懸浮起來工作的一類磁力軸承。A digital magnetic levitating bearing control system based on tms320lf2407a is designed, and multiple - parameter pid algorithm is applied
以tms320lf2407a為核心設計了磁懸浮軸承數字控制系統,並應用了變參數pid控制演算法。Principles and development trend of active magnetic bearing
主動磁懸浮軸承的工作原理及發展趨勢The study on the electromagnetic design of active magnetic bearing
磁懸浮軸承的電磁設計計算研究Active magnetic bearing ( amb ) is a typical mechtronical system
主動磁懸浮軸承是典型的機電一體化系統。Decentralized control method is used to control active magnetic bearings
有源磁懸浮軸承控制系統的研究。Referencing the existing laser lithography tools and according the structure principle of maglev - bearing and maglev - vehicle, two structure patterns of precision stage based on maglev technology and driven non - contactly by linear motor are designed and researched. the two maglev precision stages will be of freedom information property and adapt to develop and manufacture laser lithography tools by ourselves
在參考國內外光刻機現有定位平臺結構形式的基礎上,根據磁懸浮軸承和列車的結構原理,以磁懸浮技術為基礎、以直線電機無接觸驅動為動力,研究並設計了具有自主知識產權的兩種結構模式磁懸浮精密定位平臺,以適應我國自主研製開發新一代光刻機的需要。The applications and developments of the rotor - ambs system in the engineering are showed in recent years. in particularly, we present the results for the studies of nonlinear dynamics in the rotor - ambs system. we also point out the trend of the rotor - ambs system in future and the necessity of the study on the nonlinear dynamics of the rotor - ambs system
本文的研究內容和所獲得的主要結果有以下幾個方面: ( 1 )綜述了磁懸浮研究的歷史,介紹了主動式電磁軸承-轉子系統在工程實際中的應用,主動式電磁軸承的研究現狀,總結了近十年來國內外對電磁軸承-轉子系統非線性動力學的研究進展和取得的成果,指出了電磁軸承發展的趨勢及進行非線性動力學研究的必要性。According to the working principle of magnetic bearing, there exists force coupling, magnetic coupling in radial magnetic bearings inside the magnetic suspension rotor system, and there exists force coupling, moment coupling between magnetic bearings as well
摘要磁懸浮轉子系統中,根據磁力軸承工作原理,徑向磁力軸承內存在力耦合、磁耦合;徑向磁力軸承之間存在力耦合、力矩耦合。1. this product is a new kind machinery induction - type electrical energy appliance. it adopts high coercive force aluminium nickl cobat material to make the special structure magnetic - hanged magnetic - propelled bearing. when it is electrified to operate, interrepulsion is produced between the bearing and the anxle so that it is electrified to operate. interrepulsion is produced between the bearing and the anxle so that it is suspend station. the friction loss is very small. it not only reduces energy exhaustion by a wide mardin, but also prolongs lifetime to 20 years and above
1 dd951型長壽命單相電度表是金雀儀表有限公司新開發的高可靠性民用電度表,本產品系一代機械感應式電能計量器具。採用高矯頑磁力鋁鎳鈷材料制面的特殊結構磁懸磁推軸承,能電動物時軸承與軸之間產生相互斥力合其和處于懸浮狀,運轉磨擦損耗極小,不但便能耗在幅下降,而且壽命可能性延長到二十年以上。Finally, a disc motor is designed and fabricated, and the static levitation of the rotor is successfully performed
最後,組建了整個片狀無軸承永磁電機系統,成功實現了電機轉子穩定懸浮。In addition, magnetic bearing, magnetic balance, magnetically levitated electric machines, and correlative technology applications have developed. high tech productions in foreign nations have already exploited and entered market
另外,在磁力軸承、磁懸浮天平、磁懸浮高速電機及相關技術的應用也都得到了發展,國外已經開發出這類高技術產品並已經進入市場。Active magnetic bearing ( amb ) is a high performance, novel type bearing which suspends the rotor by controlled magnetic force in a contact - free manner
磁軸承是利用受控電磁力將轉子無接觸地懸浮在空中地一種新型高性能軸承。4. magnet bearing and levitating technology are seldom used on magnetic force pumps, reducing sliding bearings " radial pressure is attempted, ways of calculating axial direction force are listed and summed in this paper, virtue and shortcoming of axial - magnetization ring and radial - magnetization ring are contrasted. 5
磁力軸承和懸浮技術在磁力泵上的應用鮮有報道,本文嘗試解決臥式磁力泵滑動軸承徑向受力問題,總結磁力泵軸向力計算的方法,比較軸向磁化和徑向磁化磁環排斥力和吸引力的優缺點。Electromagnetic field distribution of radial magnetic bearings and axial magnetic bearings in magnetic levitated hard disk drive are analyzed and calculated through fea method and ansys software ; electromagnetic field is measured on radial magnetic bearing stator of magnetic levitated hard disk drive, the results of fea and measurement are compared, the basic principle of electromagnetic field distribution is concluded
使用有限元方法和ansys軟體對磁懸浮硬盤的徑向軸承、軸向軸承的電磁場分佈進行了分析和計算;以磁懸浮硬盤徑向軸承定子為對象進行了磁場測量,並將有限元計算結果和實測結果進行了比較和分析,得出了磁力軸承電磁場分佈的基本規律。Basic structural parameters of magnetic bearings are analyzed and principles of selecting these parameters are introduced. basic characters of magnetic bearings are analyzed, including static working point, the largest magnetic force and power losses etc. assigning maximal magnetic force as objective function, the optimal design of radial magnetic bearing in magnetic levitated hard disk drive is completed, and the results of optimal design are presented
對磁力軸承的基本結構參數進行了分析,闡述了這些參數的選用原則;對磁力軸承的幾個基本特性進行了分析,包括靜態工作點、最大承載力、功率損耗等;以最大承載力為目標對磁懸浮硬盤的徑向軸承進行了結構優化設計,並對優化結果進行了分析。分享友人