CAJ | 학술논문

　　喷雾泵泵芯运动通过两个尺寸相同的主、从动齿轮进行啮合传动，通过该泵基本参数要求和远程喷雾机的工作特点，定制喷雾泵芯部运动结构方案，利用CATIA进行三维的造型和布局的绘制，并且利用ANSYS建立啮合齿轮的简化模型，分析验证理论计算结果的合理性，证明该喷雾泵具有重要的价值及推广性。分析结果显示，齿轮最大应力值为17.9039 MPa，主动齿轮轴最大应力为7.904 MPa。
　　분무빙빙심운동통과량개척촌상동적주、종동치륜진행교합전동，통과해빙기본삼수요구화원정분무궤적공작특점，정제분무빙심부운동결구방안，이용CATIA진행삼유적조형화포국적회제，병차이용ANSYS건립교합치륜적간화모형，분석험증이론계산결과적합이성，증명해분무빙구유중요적개치급추엄성。분석결과현시，치륜최대응력치위17.9039 MPa，주동치륜축최대응력위7.904 MPa。
The pump gear transmission through the same size of the two main, driven gear, through basic pa-rameter requirements of the pump and the working characteristics of long-distance sprayer then we can cus-tom spray pump core motion scheme.First,we can drawing three-dimensional modeling and layout using CATIA, and using ANSYS software to establish a simplified analysis model of gear and gear shaft .The cor-rectness of the analysis and calculation results verify the theory, prove that spray pump designed by us is has a more important value and popularization. The results show that the greatest stress of gear is 17.903 9 MPa, the active gear axle maximum fatigue stress is 7.904 MPa.