北京工业大学学报
北京工業大學學報
북경공업대학학보
Journal of Beijing University of Technology
2015年
11期
1718-1726
,共9页
王新华%孙肖%涂承媛%邢欢欢%杨鹏
王新華%孫肖%塗承媛%邢歡歡%楊鵬
왕신화%손초%도승원%형환환%양붕
锥螺杆-衬套副%曲面建模%结构参数%运动分析
錐螺桿-襯套副%麯麵建模%結構參數%運動分析
추라간-츤투부%곡면건모%결구삼수%운동분석
cone screw-bush pair%surface modelling%structure parameters%motion analysis
为提高螺杆泵的承载能力,增加螺杆泵流量的平稳性,解决由于油气泄漏产生的气穴现象,基于多头柱螺杆和单头锥螺杆的理论研究提出了一种多头锥螺杆的曲面成形方法. 通过空间啮合理论,建立了锥螺杆-衬套副的曲面方程;依据锥螺杆-衬套副截面方程及其变化规律,建立了多头锥螺杆-衬套副的流量方程,并确定了给定流量下螺杆泵的结构尺寸计算方法;对多头锥螺杆-衬套副进行了运动学分析,建立了多头锥螺杆-衬套副的运动学方程,得出了多头锥螺杆-衬套副的运动规律. 基于锥螺杆-衬套副三维模型与3D打印技术,完成了多头锥螺杆与锥衬套的实体加工,验证了多头锥螺杆-衬套副曲面方程的正确性,并基于Pro/Mechanisn对多头锥螺杆-衬套副进行了仿真分析,验证了其运动学规律.
為提高螺桿泵的承載能力,增加螺桿泵流量的平穩性,解決由于油氣洩漏產生的氣穴現象,基于多頭柱螺桿和單頭錐螺桿的理論研究提齣瞭一種多頭錐螺桿的麯麵成形方法. 通過空間齧閤理論,建立瞭錐螺桿-襯套副的麯麵方程;依據錐螺桿-襯套副截麵方程及其變化規律,建立瞭多頭錐螺桿-襯套副的流量方程,併確定瞭給定流量下螺桿泵的結構呎吋計算方法;對多頭錐螺桿-襯套副進行瞭運動學分析,建立瞭多頭錐螺桿-襯套副的運動學方程,得齣瞭多頭錐螺桿-襯套副的運動規律. 基于錐螺桿-襯套副三維模型與3D打印技術,完成瞭多頭錐螺桿與錐襯套的實體加工,驗證瞭多頭錐螺桿-襯套副麯麵方程的正確性,併基于Pro/Mechanisn對多頭錐螺桿-襯套副進行瞭倣真分析,驗證瞭其運動學規律.
위제고라간빙적승재능력,증가라간빙류량적평은성,해결유우유기설루산생적기혈현상,기우다두주라간화단두추라간적이론연구제출료일충다두추라간적곡면성형방법. 통과공간교합이론,건립료추라간-츤투부적곡면방정;의거추라간-츤투부절면방정급기변화규률,건립료다두추라간-츤투부적류량방정,병학정료급정류량하라간빙적결구척촌계산방법;대다두추라간-츤투부진행료운동학분석,건립료다두추라간-츤투부적운동학방정,득출료다두추라간-츤투부적운동규률. 기우추라간-츤투부삼유모형여3D타인기술,완성료다두추라간여추츤투적실체가공,험증료다두추라간-츤투부곡면방정적정학성,병기우Pro/Mechanisn대다두추라간-츤투부진행료방진분석,험증료기운동학규률.
To improve the carrying capacity and the flow stability of the screw pump and to solve the problem of cavitation generated by oil and gas leakages, a surface forming method was investigated based on the multiple column screw and single cone screw theory. An equation of the cone screw-bush pair surface was established according to the space engagement theory. A flow equation of multiple cone screw-bush pair was built up based on the cone screw-bush pair sectionequation and the rule of its variation. The calculation method of the screw structure size at a given flow rate was determined as well. A kinematics equation of the multiple cone screw-bush pair was obtained after a through kinematics analysis of the multiple cone screw-bush pair was conducted. The movement rule of a multiple cone screw-bush pair was summarized. A cone screw and a bush solid model were processed based on the 3D model of the cone screw-bush pair and the 3D printing technology. The correctness of the kinematics equation about multiple cone screw-bush pair was verified. Moreover, the motion simulation of the pair was conducted by using pro/mechanism and the kinematics rules were verified at the same time.