CAJ | 학술논문

为了合理设计4YB-1型甘蓝收获机切割装置,使其对甘蓝根切割效果更好.该文在微机控制多功能试验机上,进行单因素和多因素正交试验,研究了切割方式、切割刀片形式、切割速度和切割位置对甘蓝根茎切割力的影响.结果表明,切割位置对切割力的影响最大,切割力随着切割位置接近甘蓝顶层叶而减小,较优的切割位置距顶层着叶5~40 mm处,根径为22~30 mm用锯齿刀滑切时能大大降低甘蓝根茎的切割力;切割力随着切割速度的增加而减小,切割速度为150 mm/min 时有利于顺利切割,此时最大切割力为97.8 N;甘蓝根茎切割采用锯齿刀、滑切方式为宜.研究结果为4YB-I型甘蓝收获机切割器的设计和安装提供了理论依据.
위료합리설계4YB-1형감람수획궤절할장치,사기대감람근절할효과경호.해문재미궤공제다공능시험궤상,진행단인소화다인소정교시험,연구료절할방식、절할도편형식、절할속도화절할위치대감람근경절할력적영향.결과표명,절할위치대절할력적영향최대,절할력수착절할위치접근감람정층협이감소,교우적절할위치거정층착협5~40 mm처,근경위22~30 mm용거치도활절시능대대강저감람근경적절할력;절할력수착절할속도적증가이감소,절할속도위150 mm/min 시유리우순리절할,차시최대절할력위97.8 N;감람근경절할채용거치도、활절방식위의.연구결과위4YB-I형감람수획궤절할기적설계화안장제공료이론의거.
The development of a cabbage harvester is urgent in China. The cabbage harvest is still in a condition of artificial operation, which results in labor intensity and low efficiency. Therefore, a kind of cabbage harvester is needed to finish the task. The cutting device plays an important role in the process of the cabbage harvest. In order to design a more reasonable cutting mechanism with a better cutting effect for the 4YB-I cabbage harvester, single factor and multi-factor orthogonal tests were carried out on the multi-function testing machine of microcomputer control. These factors were the main influencing factors of the cutting force applied to cabbage root. The maximum diameter of cabbage root chosen was 30 mm. Each experiment was carried out between top leaves and with a distance from the top leaves of 40 mm. The experiment was started on the distance from the top leaves of 40 mm. The main influencing factors were blade types, cutting ways, cutting speeds and cutting positions. Blade types were smooth-edge blade and serrated blade. Cutting ways were vertical cutting and sliding cutting. The angle of sliding cutting was 30°. To account for the influencing universality of cutting speed, cutting speeds were chosen randomly. They were 50, 100, 150 mm/min in the paper. When experiments of blade types and cutting ways were carried out, 60 similar cabbage roots were chosen, which were divided into groups of twelve. When experiments of cutting speeds were carried out, 135 similar cabbage roots were chosen, which were divided into groups of nine. Each group experiment was conducted five times to get an average. In order to cut the cabbage root cleanly, the work scope of the cutter was between top leaves and the distance from the top leaves was 40 mm. The above experiments were all done on distances from the top leaves of 40, 20, or 5 mm. Based on the single factor orthogonal test, a multi-factor orthogonal test was carried out in a different cutting way, blade type and cutting position. Finally, experimental dates were analyzed by an analysis of variance. In the experiment, some results were obtained. Cutting position on the cabbage root had the greatest effects on the cutting force. The cutting force would be decreased with the changing of the position of the cabbage root, which showed that the best position was between the top leaves and with the distance from the top leaves of 40 mm. Cutting force could be greatly reduced by using a serrated blade with the angle of sliding cutting. The cutting force of the cabbage root would be decreased with the increasing cutting velocity. It was good for smoothly cutting to keep a certain cutting speed, which was 150 mm/min. At this time, the maximum cutting force was 97.8 N. The changing of the cutting speed in the experiment has provided an actual cutting speed of cutter of 4YB-1 cabbage harvester with a theoretical basis. The best way of cutting cabbage root was using a serrated blade with sliding cutting angle. The best position of cutting had provided a theoretical basis for the installation position of the cutter of the 4YB-I cabbage harvester.