农业工程学报
農業工程學報
농업공정학보
2014年
18期
22-29
,共8页
欧阳玉平%洪添胜%苏建%徐宁%倪锡波%杨成威
歐暘玉平%洪添勝%囌建%徐寧%倪錫波%楊成威
구양옥평%홍첨성%소건%서저%예석파%양성위
农业机械%钢丝绳%高速摄影%山地果园%双轨运输机%制动装置%碰撞试验
農業機械%鋼絲繩%高速攝影%山地果園%雙軌運輸機%製動裝置%踫撞試驗
농업궤계%강사승%고속섭영%산지과완%쌍궤운수궤%제동장치%팽당시험
agricultural machinery%wire rope%high-speed photography%mountain orchard%double-track transporter%braking device%collision test
针对山地果园牵引式双轨运输机存在钢丝绳松脱或断裂可能引发溜车事故等问题,研制了一种断绳制动装置,描述了载物滑车的总体结构及制动装置关键结构尺寸关系,分析了制动装置制动过程的运动规律。应用SolidWorks建立制动装置简化模型,然后倒入ADAMS/View中建立了制动装置和轨道横梁虚拟样机,虚拟制动试验确定了制动过程的动力学变化规律。动力学仿真与台架试验结果表明,该断绳制动装置的制动成功率为100%,随着装载质量的增大,制动杆与轨道横梁碰撞后的明显回弹次数逐渐减少;碰撞点的应力以及制动杆的回弹距离均随着回弹次数的增大而逐渐减小;仿真结果与试验结果相差极小,验证了仿真过程是正确的。该研究可为山地果园轨道运输机械的安全制动装置设计及后续优化提供参考。
針對山地果園牽引式雙軌運輸機存在鋼絲繩鬆脫或斷裂可能引髮霤車事故等問題,研製瞭一種斷繩製動裝置,描述瞭載物滑車的總體結構及製動裝置關鍵結構呎吋關繫,分析瞭製動裝置製動過程的運動規律。應用SolidWorks建立製動裝置簡化模型,然後倒入ADAMS/View中建立瞭製動裝置和軌道橫樑虛擬樣機,虛擬製動試驗確定瞭製動過程的動力學變化規律。動力學倣真與檯架試驗結果錶明,該斷繩製動裝置的製動成功率為100%,隨著裝載質量的增大,製動桿與軌道橫樑踫撞後的明顯迴彈次數逐漸減少;踫撞點的應力以及製動桿的迴彈距離均隨著迴彈次數的增大而逐漸減小;倣真結果與試驗結果相差極小,驗證瞭倣真過程是正確的。該研究可為山地果園軌道運輸機械的安全製動裝置設計及後續優化提供參攷。
침대산지과완견인식쌍궤운수궤존재강사승송탈혹단렬가능인발류차사고등문제,연제료일충단승제동장치,묘술료재물활차적총체결구급제동장치관건결구척촌관계,분석료제동장치제동과정적운동규률。응용SolidWorks건립제동장치간화모형,연후도입ADAMS/View중건립료제동장치화궤도횡량허의양궤,허의제동시험학정료제동과정적동역학변화규률。동역학방진여태가시험결과표명,해단승제동장치적제동성공솔위100%,수착장재질량적증대,제동간여궤도횡량팽당후적명현회탄차수축점감소;팽당점적응력이급제동간적회탄거리균수착회탄차수적증대이축점감소;방진결과여시험결과상차겁소,험증료방진과정시정학적。해연구가위산지과완궤도운수궤계적안전제동장치설계급후속우화제공삼고。
A wire rope brake device was design to solve the problem of slipping accidents by wire rope loosening or fracture when the mountain orchard traction double-track transporter was working. Based on analyzing the principle of the structure of the wire rope brake device and the whole structure of the vehicle, the structure parameters of the brake lever and the walking mechanism were determined. After analyzing the kinematics principal of the braking process, a model was established by the software of SolidWorks. The virtual prototyping of brake device and track beam based on the simplified model of brake device was thrown into the software of ADAMS/View, in order to determine the kinetic changes of braking process. Using successful brake rate as the test index, the braking bench test and high speed photography collision test were carried out. The calculation results showed that the brake lever parameters were majority determined by the track gradient, the distance of upper and lower connecting rod and the height of connecting rod to the track beam. Dynamics simulation and bench test results showed that, the success rate of wire rope braking device was 100%.With the increase of loading quality, the obvious rebound number of the collision was gradually reduced after the brake lever hit the track cross beam. Collision stress between the brake level and the track cross beam and the distance of the rebounding were decreased gradually with the increasing of rebounding numbers. The collision time, frequency and vibration amplitude of vibration rebound of the brake lever were decreased with the increasing of load.The most violent collision was happened in 0 load of the vehicle. In this condition, the largest collision rebound number was 4 times, the whole braking process took up 3.264 s, the maximum rebound distance was 384 mm. Although the simulation data and experimental data had some errors, the overall trend was consistent, so the simulation process was right. This study can provide theoretical basis for design the safety braking device of slope orchard track vehicle and the subsequent optimization.