螺旋起重機 的英文怎麼說

中文拼音 [luóxuánzhòng]
螺旋起重機 英文
bottle screw
  • : 1. [動物學] (軟體動物) spiral shell; snail; conch 2. (螺旋形的指紋) whorl (in fingerprint)
  • : 旋Ⅰ動詞1 (旋轉) whirl 2 (用車床切削或用刀子轉著圈地削) turn sth on a lathe; lathe; pare Ⅱ名詞...
  • : 起Ⅰ動詞1 (站起; 坐起) rise; get up; stand up 2 (取出; 取走) draw out; remove; extract; pull 3...
  • : 重Ⅰ名詞(重量; 分量) weight Ⅱ動詞(重視) lay [place put] stress on; place value upon; attach im...
  • : machineengine
  • 螺旋 : 1 (具有螺紋的圓柱體 屬于斜面類的簡單機械) corkscrewspin; screw; spiral; helix 2 (螺旋現象;尾旋...
  • 起重機 : crane; derrick; crab; freight elevator; hoist; lifter; cranage; hoister
  • 起重 : jack up起重臂 jib loading boom; cargo boom; erector arm; jibboom; 起重車 carriage hoist; crane ca...
  1. From 1980 to 1996, the amount of accident jet plan and turbine aerotransport which taking off weight exceed 5700kg all over the world is 621 times. in which there were 287 times wretched accident in the approach and landing phase, occupying 46 percent

    從1980年至1996年,全世界最大量5700公斤以上的噴氣式和渦輪漿運輸發生大死亡事故621,其中發生在進近著陸階段的大死亡事故287,佔46 。
  2. Cranes ; crane rail wheels, screwed - on gear wheels

    .軌道輪.連接的齒輪
  3. Screw geared chain hoist

    鏈條
  4. In this thesis hydraulic experimental studies and theoretical analyses on the vortex - flow drop shaft were conduced and the following results were accomplished : ( 1 ) in the model test some hydraulic characteristics including the shape of air core in the center of the drop shaft, the radial distribution of water flow velocity and the distribution of pressure on the wall of the drop shaft were measured under the condition of high water head above 250m and large discharge above 1400m3 / s. ( 2 ) a kind of computational method for the spiral water flow in the air core region of drop shaft was discussed and applied and the results agree the experimental data well. ( 3 ) the total ratio of energy dissipation in the drop shaft can reach 90 % and the energy dissipation in every region was discussed quantitatively

    本文通過試驗研究與理論分析對流式豎井泄洪洞應用於高水頭、大泄流量情況時存在的一些水力學問題進行了研究和探討,取得以下主要成果:一、結合小灣工程導流洞改建,對高水頭( 252m ) 、大泄流量( 1400m ~ 3 s )條件下流式豎井中的水流運動特徵進行了比較全面的測量,包括空腔形態、徑向流速分佈及井壁壓強等;二、提出了豎井空腔段水流水力計算方法,其計算結果與實測值吻合良好;三、利用試驗與計算結果,對流式豎井的消能理進行了探討,對豎井各部分的消能能力有了總體認識;四、對豎井下部消力井的合理井深進行了優化試驗研究,發現消力井合理深度為0 . 9d左右;五、通過試驗研究,歸納出豎井水流總摻氣量估算方法,為導流洞排氣方案的設計提供了參考依據;六、在高水頭、大流量條件下,豎井空腔段下部流速很高,盡管水流運動引的離心力可以確保井壁壓強保持正壓,但空化數依然較低,因此豎井的空化空蝕始終是工程界關注的大問題。
  5. The propeller may be overloaded which caused by some reasons when ship has been serviced for a period of time. as a result, the rated revolution of the engine cannot be achieved, or the engine may be on overloaded operation condition. it will not be in the optimum matching between the propeller and the engine

    船舶在使用過程中,常因各種因素使槳出現負荷過「」的現象,主達不到額定轉速或超負荷運轉,槳不能處于最佳匹配;另外當船舶人為地降速航行時,主處在半負荷情況下工作,如果轉速下降太多,使得主的工作條件變壞,容易引部件的損壞。
  6. Then the paper dissertates theory of parts measurement and its exercise in measurement and repair of waterway fixed assets, bases the measurement of the fixed assets on the parts, and distributes value of the vessel to hull, shafting and screw propeller, telecom facility, air - conditioning system, electric system, main - engine and subsidiary engine system, and so on. the following expenditure should be capitalized : ( 1 ) adding new components ; ( 2 ) replacing the current components, and all other expenditure be expensed

    集中闡述了船舶應按照船體、靠泊系統、主輔系統、槳與軸系、空調系統、電氣設備、電信設備、貨系統、救生系統等主要部件進行計價;在修理支出中,應將符合下面兩個條件的支出項目予以資本化: ( 1 )增置新的部件, ( 2 )現有部件的置。
  7. The screw propeller which is used by ships abroad is one typical application of ejecting mode because it is easy to manufacture and install and is reliable. but it has many shortcomings such as inefficiency, large dimension and heavy weight. therefore, it is very difficult to apply the screw propeller to micro mobile robot in liquid

    漿推進器既具有容易加工、可靠性高和安裝簡便等優點,也具有能源效率低,結構尺寸和量大,對環境擾動大,噪音大,動、加速性能差以及運動靈活性能差等缺點,因此在把槳推進方式應用到微器人上時存在許多困難,有必要研究採用其它推進方式的在液體中運動的微器人。
  8. And the last, some sea trial results show that the match among the main engine and propeller is slightly heavy for the real vessel construction. although the reasons are very complex, most of them can be resolved by the method of propeller trailing edge modification. because of lack of guidance in theory, the actual quantities of modification were very difficult to decided and lots of quarrels may be raised between the shipyard and the owner before

    最後,針對實際船舶建造過程中,部分船舶的試航結果表現出來的槳匹配稍問題,雖原因比較復雜,但絕大部分可以採用槳隨邊修正的方法解決,因為沒有理論數據給予指導,很容易引爭議,在具體修正的數量上較難卻定,其修正後的槳工況更難準確預報。
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