游梁式抽油機 的英文怎麼說

中文拼音 [yóuliángshìchōuyóu]
游梁式抽油機 英文
beam pumper
  • : Ⅰ動詞1 (人或動物在水裡行動) swim 2 (各處從容地行走; 閑逛) rove around; wander; travel; tour 3...
  • : 名詞1 (屋架中架在柱子上的長木) beam 2 (通常也指檁) purlin 3 (橋) bridge4 (物體中間條狀隆起...
  • : 名詞1 (樣式) type; style 2 (格式) pattern; form 3 (儀式; 典禮) ceremony; ritual 4 (自然科...
  • : 動詞1 (把夾在中間的東西拉出; 提取) take out (from in between) 2 (從全部里取出一部分; 騰出) ...
  • : Ⅰ名詞1 (脂肪; 油脂) oil; fat; grease 2 (姓氏) a surname Ⅱ動詞1 (用桐油、油漆等塗抹) apply t...
  • : machineengine
  1. The optimum design method is utilized to design 12 - 5 - 48hb double - horse head beam pumping unit with rear horse head s outline of spiral of archimedes, and the optimum result is analyzed and compared with double - horse head beam pumping unit with rear horse head s outline of three - section circular arc and beam pumping unit

    用該優化方法對12 - 5 - 48hb型后驢頭為阿基米德螺線雙驢頭進行了優化設計,並對優化結果和后驢頭為三段圓弧的雙驢頭游梁式抽油機進行對比分析。
  2. Analysis and research on the projection declination of horsehead ' s pendulous point of beam pumping unit

    游梁式抽油機驢頭懸點投影偏差的分析研究
  3. Study and application of packing feeder for pumping unit on oil well

    游梁式抽油機井口盤根旋進器的研製與應用
  4. This article presents a mathematical calculation model of kinematic parameters for the unusual shape beam pumping unit by analyzing its geometry relationship and kinematic characteristics

    異形游梁式抽油機后臂有效長度隨曲柄轉角而變化,故無法利用常規游梁式抽油機的解析方法來計算其運動參數。
  5. Design and simulation analysis of reconfigurable beam pumping unit

    可重構游梁式抽油機的設計和模擬分析
  6. Reforming beam pumping unit into dual variable - diameter wheel pumping unit

    游梁式抽油機改造成的雙變徑輪
  7. Study and simulation about pumping unit with double circulation and each - other balance

    雙循環互平衡游梁式抽油機的設計及模擬
  8. Beam pumping units

    游梁式抽油機
  9. Beam - pumping unit

    游梁式抽油機
  10. Adopting high slip motor and increasing the rotary inertia of the rotating parts is an effective approach to achieving good power - saving effect of beam pumping units

    採用高轉差率電動,並增加旋轉件的轉動慣量,是綜合提高游梁式抽油機節能效果的有效途徑。
  11. Based on the series of problems of the practical beam unit dragging system, an excellent energy conservation method is proposed in this paper, i. e. the slip frequency is kept constant in variable frequency system. and a digital spwm generator is adopted to put this control method into practice

    針對實際游梁式抽油機拖動系統存在的一系列問題,提出了一種優良的節能方案? ?轉差頻率恆定的變頻調速系統,並用一種數字spwm發生器來實現該控制方案。
  12. The operational characteristic of beam pumping unit is introduced, beam pumping unit is running, the cause changing three - phase asynchronous motor as a generator is also analyzed in detail

    介紹了游梁式抽油機的工作特性,詳細分析了運行時三相異步電產生「倒發電」現象的原因。
  13. The main factors influencing power saving of the beam pumping unit with high slip motor are pumping speed of the unit, slip ratio of the motor and rotary inertia of rotating parts

    指出影響使用高轉差率電動游梁式抽油機節能的主要因素是的沖次、電動轉差率和旋轉件的轉動慣量。
  14. On the basis of 3d modeling and virtual prototyping technology and energy saving transformation method for parameterized simulation moving beam typed oil suction pump, and using the eccentric gear reducer to replace the ordinary gear reducer to let the driving radius of eccentric gear be kept a variation of similar tendency with the load of crank in order to improve load property of the motor, thus raised the working efficiency of the entire oil suction pump and achieved the effect of energy saving

    摘要基於三維建模和虛擬樣技術,參數化模擬游梁式抽油機節能改造方法,用偏心齒輪減速器代替普通齒輪減速器,使偏心齒輪驅動半徑和曲柄負載保持同趨勢變化,以改善電負載特性,提高整個的工作效率,達到了節能的效果。
  15. Base on the series of problems in beam unit dragging system above mentioned, some of them can be solved by adopting high - slipping motor, which makes beam unit dragging system saving energy in all

    針對上面游梁式抽油機拖動系統中存在的一系列問題,採用高轉差率電動可以解決拖動系統中存在的一些問題,使系統總體節能。
  16. Abstract : in the light of the problems of high power consumption and low working efficiency in a beam pumping unit, a new method for power saving of the unit is proposed, that is, adopting an optimum structure of the unit and decreasing the periodic load coefficient of the pumping unit by changing the performance characteristics of the electric motor and by increasing the rotary inertia of the unit

    文摘:針對游梁式抽油機能耗大,工作效率低的問題,提出遊節能的新方法,即在採用優化結構的基礎上,通過改變電動的工作特性和增加轉動慣量的辦法降低周期載荷系數。
  17. The calculation model can be used to optimize the structure and size of the rear horsehead, solve the problem that the structure and size of the rear horsehead affect the kinematic parameters of the polished rod and the torque factor, as well as the performance of the unusual shape beam pumping unit

    利用此方法可以準確而迅速地求出不同型的懸點位移、速度、加速度及扭矩因數等各項運動參數,也可計算優化后驢頭的結構尺寸,解決異形游梁式抽油機后驢頭結構與尺寸直接影響懸點的運動參數和扭矩因數,進而影響工作性能的問題。
  18. The beam unit is considered as controlled object in this paper, and the fundamental principle of variable frequency, the operating principle and the load feature of the beam unit are expatiated and analyzed in detail

    本論文以游梁式抽油機為被控對象,對變頻調速的基本原理和的工作原理及負載特性進行了詳細的闡述和分析。
  19. Accordingly, this method can restrain the generate electricity of the beam unit, soften its feature and realize the stepless speed regulation, so that optimal control is brought into use and large quantity of energy is economized

    該方法可以較好地抑制游梁式抽油機的發電狀態,使游梁式抽油機的特性變軟,可以實現無級調速,從而實現游梁式抽油機變頻調速的最優控制,而且可以節約大量電能。
  20. Kinematic parameters of different types of pumping units, including the displacement, velocity and acceleration of the polished rod and the torque factor can be calculated easily and accurately by using this method

    為此,根據幾何關系和運動特點,建立了運動學模型,提出了異形游梁式抽油機運動參數的求解方法。
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