design handbook
- design handbook的基本解释
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[计] 设计手册
- 更多网络例句与design handbook相关的网络例句 [注:此内容来源于网络,仅供参考]
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The EnglishChinese Technical and Scientific Dictionary;the Chemical Industry Products Handbook;Dictionary of Chemistry;Biopolymer;Encyclopedia of Chemical Industry Equipment Design;Mechanical Design Handbook;Chinese Commercial Handbook of Petroleum and Chemical Industry;Guide to the Chinese Coating Industry;Yearbook of Chinese Plastics Industry (2004 );Development Report of Chinese New Materials(2004 );Powder Technology Handbook;Technical Manual of Modern Coal Industry;Applications of Synthetic Resin Latices;the Collected Safe Hygiene Regulation of Chinese Chemical Industry;Encyclopedia of Safety Technology for Dangerous Chemicals.
英汉技术科学词典》,《化工产品手册》《化学辞典》《生物高分子》,《化工设备设计全书》《机械设计手册》(第4版),《中国石油和化工商务手册》《中国涂料工业指南》《中国塑料工业年鉴》(2004)》,《中国新材料发展报告》(2004)《粉体技术手册》《现代煤化工技术手册》《合成聚合物乳液的应用》,《中国化工安全卫生法规汇编》《危险化学品安全技术全书》。
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First according to the hydraulic pressure elevator system diagram, use the machine design and hydraulic transmission knowledge calculates the diameter of the plunger, cylinder tube wall thickness as well as cylinder bottom thickness; second, through the examination confirmation to the obtained result to complete the work of cylinder design; Simultaneously has carried on the component choice and the computation; Through to the system calorific capacity computation the and the volume of cooling water while the fuel tank cools when needs to complete the hydraulic pressure elevator fuel tank design; Based on the system oil stream condition to calculated the tube internal pressure lose, the local pressure loss as well as the all of the pressure lose to carried on the system checking calculation; Finally through the consult correlation design handbook to calculation and examines the belt, the band pulley, the axis, as well as the key, has completed the hydraulic pressure elevator pumping station transmission system design.
首先根据液压电梯系统原理图,利用机械设计与液压传动等方面的知识计算出柱塞的直径、缸筒的壁厚以及缸底厚度,并对所得结果进行校核验证完成了工作油缸的设计;同时进行了元件的选择和计算;其次,通过系统发热量的计算和油箱冷却时需要的冷却水量的计算完成了液压电梯油箱的设计;依据系统油流状态计算出管内压力损失、局部压力损失以及总压力损失进行了系统的验算;最后通过查阅相关设计手册对带、带轮、轴、以及键进行设计计算和校核,完成了液压电梯的泵站传动系统的设计。
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Firstaccording to the hydraulic pressure elevator system diagram, usethe machine design and hydraulic transmission knowledge calculatesthe diameter of the plunger, cylinder tube wall thickness as wellas cylinder bottom thickness; second, through the examinationconfirmation to the obtained result to complete the work ofcylinder design; Simultaneously has carried on the component choiceand the computation; Through to the system calorific capacitycomputation the and the volume of cooling water while the fuel tankcools when needs to complete the hydraulic pressure elevator fueltank design; Based on the system oil stream condition to calculatedthe tube internal pressure lose, the local pressure loss as well asthe all ofthe pressure lose to carried on the system checking calculation;Finally through the consult correlation design handbook tocalculation and examines the belt, the band pulley, the axis, aswell as the key, has completed the hydraulic pressure elevatorpumping station transmission system design.
首先根据液压电梯系统原理图,利用机械设计与液压传动等方面的知识计算出柱塞的直径、缸筒的壁厚以及缸底厚度,并对所得结果进行校核验证完成了工作油缸的设计;同时进行了元件的选择和计算;其次,通过系统发热量的计算和油箱冷却时需要的冷却水量的计算完成了液压电梯油箱的设计;依据系统油流状态计算出管内压力损失、局部压力损失以及总压力损失进行了系统的验算;最后通过查阅相关设计手册对带、带轮、轴、以及键进行设计计算和校核,完成了液压电梯的泵站传动系统的设计。