1) drilling pump
钻井泵
1.
Material Selection and processing of small gear shaft in drilling pump;
钻井泵小齿轮轴的选材与加工
2.
Application of demodulated resonance and fuzzy distinguishing technique to fault diagnosis of bearings in drilling pump;
共振解调和模糊识别技术在钻井泵轴承故障诊断中的应用
2) mud pump
钻井泵
1.
To meet test requirement for larger power and ultra-high pressure mud pump(52 MPa),a new AC VFD test stand is designed and developed to upgrade the testing capability.
针对大功率、超高压(52 MPa)钻井泵的试验问题,设计了采用交流变频控制技术,提高试验能力的试验台架。
2.
After carefully researched the actual problem, we designed the power switch system for the mud pump electric power system of 70DS.
从钻井生产中所遇到的实际问题出发,设计出了一套可以满足实际生产需求的电动钻机钻井泵用动力切换装置,是解决问题的有效办法。
3.
When using the mud pump in the oilfield,the high pressure mud often damages the valve covers due to erosion or stab action,such result in mud ejecting leakage,which makes the mud pump stop working for repairing.
钻井泵在使用中经常出现高压泥浆冲蚀或刺坏阀盖喷射泄漏事故,造成钻井泵停机维修。
3) drill pump
钻井泵
1.
A bimetal drill pump liner with outer layer of carbon steel and inner layer of high chromium cast iron 17CrMoCu was manufactured by centrifugal casting.
利用复合离心铸造工艺制备了碳钢/高铬铸铁双金属复合材料钻井泵缸套,确定了复合离心铸造的工艺参数,设计了阶梯升温的热处理工艺,并对内套材料的组织和性能进行了测试。
4) drilling pump valve
钻井泵阀
1.
Testing method of the impacting force of drilling pump valve in the course of valve closing;
钻井泵阀冲击力的应变测试方法
2.
In view of the characteristic of severe erosion and abrasion in the drilling pump valve,the flow field of the play of it by FLUENT was simulated and computed in this paper.
针对钻井泵阀冲蚀磨损严重的特点,利用FLUENT软件对钻井泵阀隙内流场分布进行了仿真计算,得到阀隙流场在某一时刻泥浆流速的分布规律。
3.
According to the impact fatigue failure appeared in drilling pump valve,the mechanical characteristic and effect degree of the maximum stress concentration spot when the impact of pump valve happens were mainly studied,hence a non-impact working condition of drilling pump valve based on the effects of stress concentration was put forward.
针对钻井泵阀的冲击疲劳破坏,重点研究了泵阀冲击时产生最大应力集中部位的受力特征及其影响程度,提出了基于应力集中影响的钻井泵阀无冲击工作条件。
5) deep bore well pump
深钻井泵
6) drilling pump liner
钻井泵缸套
1.
Application and analysis of surface engineering technology on drilling pump liner;
表面工程技术在钻井泵缸套中的应用分析
2.
Wear-resistance of the drilling pump liner in oil industry is one of the key factors to the service life.
石油钻井泵缸套的耐磨性能是影响其使用寿命的主要因素之一,如何提高其耐磨性是解决问题的关键。
3.
The surface of 45 steel drilling pump liner was modified by plasma spraying and the ceramic coating of the liner was prepared.
利用等离子喷涂技术对45号钢钻井泵缸套表面进行改性,制造金属陶瓷涂层缸套。
补充资料:隔膜泵与柱塞泵在涂装机械中的比较
高压无气喷涂效率高,表面细腻平整,附着力强,涂料损耗少而得到建筑机械 船舶 家具等行业的广泛使用。
高压无气喷涂机分为气动式无气喷涂机,电动式无气喷涂机(柱塞泵)和电动无气喷涂机(隔膜泵),由于气动式无气喷涂机需要带压缩空气源而限制了气动喷涂机的使用。
现仅将电动柱塞无气喷涂机与电动隔膜无气喷涂机作比较,柱塞泵是将直流电动机带动柱塞复运动将涂料吸入,加压后排出,由于其柱塞裸露,且柱塞在涂料中工作,在涂料研磨作用下柱塞磨损非常快,一旦配备口径较大的喷嘴,其柱塞往复频率提高,加剧柱塞的磨损,机器寿命短。而更换柱塞价格非常昂贵,如果电压不正常也将直接导致工作直流电的不正常。另外,由于大幅来回往复运动,柱塞泵的工作脉动很大,使得喷涂不稳定,涂料喷上的墙面平整度就不够好。但柱塞泵初始吸料较快是其长处。
隔膜式无气喷涂机(隔膜泵),其设计是在柱塞泵基础上得到了更大的改进,原理为用电动机带动活塞往复工作(注意,活塞并不直接接触涂料),再推动隔膜运动,将涂料吸收加压后推出,通过喷嘴喷向涂装物体,由于其活塞在防磨损的油中工作,工作环境大大优化,寿命大大提高,经过掺透硬化处理的活塞更是不易损坏,加上高分子材料制成的高抗绞隔膜更使隔膜泵寿命进一步提高。运行可靠是隔膜泵的又一长处,故障率极底,对电压要求底,对环境要求底,维修容易,维修费用仅为柱塞泵的五分之一左右。
隔膜泵性价比优,其优异的性能价格比将推动隔膜泵的推广。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条