农业工程学报
農業工程學報
농업공정학보
2013年
20期
40-45
,共6页
霍炜%张纪鹏%张洪信%张铁柱
霍煒%張紀鵬%張洪信%張鐵柱
곽위%장기붕%장홍신%장철주
优化%内燃机%泵%机械-液压双元动力发动机%锥形阀%容积效率
優化%內燃機%泵%機械-液壓雙元動力髮動機%錐形閥%容積效率
우화%내연궤%빙%궤계-액압쌍원동력발동궤%추형벌%용적효솔
optimization%internal combustion engines%pumps%mechanical-hydraulic dual power engine%cone valve%volume efficiency
机械-液压双元动力输出发动机(MHPE)将传统的内燃机和柱塞泵融为一体,可同时或单独输出机械、液压2种动力。MHPE采用锥形阀配流系统,其容积效率高低直接影响MHPE的整机性能。该文以容积效率为目标函数,以锥形阀的工作条件和结构尺寸为约束条件,以MHPE锥形阀的结构参数为优化变量,建立了优化模型,并基于iSIGHT软件进行优化设计。优化结果表明,优化后系统的容积效率提高5.71%,改善程度较大。
機械-液壓雙元動力輸齣髮動機(MHPE)將傳統的內燃機和柱塞泵融為一體,可同時或單獨輸齣機械、液壓2種動力。MHPE採用錐形閥配流繫統,其容積效率高低直接影響MHPE的整機性能。該文以容積效率為目標函數,以錐形閥的工作條件和結構呎吋為約束條件,以MHPE錐形閥的結構參數為優化變量,建立瞭優化模型,併基于iSIGHT軟件進行優化設計。優化結果錶明,優化後繫統的容積效率提高5.71%,改善程度較大。
궤계-액압쌍원동력수출발동궤(MHPE)장전통적내연궤화주새빙융위일체,가동시혹단독수출궤계、액압2충동력。MHPE채용추형벌배류계통,기용적효솔고저직접영향MHPE적정궤성능。해문이용적효솔위목표함수,이추형벌적공작조건화결구척촌위약속조건,이MHPE추형벌적결구삼수위우화변량,건립료우화모형,병기우iSIGHT연건진행우화설계。우화결과표명,우화후계통적용적효솔제고5.71%,개선정도교대。
Heat energy can be converted to hydraulic energy by a traditional engine-pump system(EPS). However, the EPS has some disadvantages, such as a long transmission line, low efficiency, and a complex and heavy structure. With an integrating traditional internal combustion engine and plunger pump to remove intermediate links, a mechanical-hydraulic dual power engine (MHPE) can convert heat energy to hydraulic energy directly. Therefore, the energy conversion efficiency was improved and the structure was simplified. MHPE can output one of or both machinery and hydraulic powers, and it can be used for excavators, loaders, bulldozers, and other engineering machineries. The distribution valve, the important element of MHPE, can affect the volume efficiency of the system directly by its structure and performance. The 36114ZG4B type six-cylinders radial MHPE was developed. A-H20L type one-way cone valve with the valve disk of 0.07557 kg quality, 0.028 m large diameter, 0.021 m small diameter and 40° angle is used as an inlet valve. A DIF-L20H type one-way cone valve with the valve disk of 0.04672 kg quality, 0.021 m large diameter, 0.016 m small diameter and 45° angle was used as an outlet valve. With the volume efficiency taken as an objective function, the cone valve’s working conditions and structure dimensions taken as constraint conditions, and the cone valve’s structure parameters taken as optimization variables, an optimization model was established. Based on Adolph's no-impact theory of pump valve, a valve disk’s speed cannot exceed the maximum allowable speed. In order to guarantee the normal work of the valve cone, the hydraulic oil’s flow rate through valve clearance is not allowed to exceed 6 m/s. iSIGHT software was used to optimize the cone valve’s structure with the inlet valve disk result of 0.04076 kg, 0.036 m large diameter, 0.028 m small diameter, and 46° angle as well as the outlet valve disk result of 0.05845 kg, 0.028 m large diameter, 0.021 m small diameter and 49° angle. At the same time, the volume efficiency of the system was simulated and has been found to increase significantly with the optimization:the volume efficiency increased by 5.71% to the maximum point, 98.06%, at about 1300 r/min; the volume efficiency of the system decreased when the rotate speed exceeded 1 300 r/min, which is due to the cone valve’s natural frequency is close to the integer times of the operating frequency of the system;and the volume efficiency is stable in the common condition area, which was from 1 200 to 1 400 r/min.
