摘要
花椒的生长环境一般在海拔较高的山地,以人工采摘为主,存在效率较低的问题。试验提出花椒采摘器几个合理的方案,在方案之间进行对比,确定最终需要选择的方案。在确定好方案后,根据方案设计相应的传动结构方案,根据传动结构方案确定箱体的外形尺寸。另外在采摘花椒时需要考虑电池问题,每次采摘时不可能携带大量的电池,新型太阳能电池成为电池的首选供能设备,新型太阳能电池根据采摘所在地的日照时间来计算功率。考虑太阳电池板的材料成本及转化效率,确定最终的电池材料。设计研究具有重要的实践意义,能够大幅提高采摘效率,解放人力物力。
The growth environment of pepper is generally in the mountains with high altitude. It is mainly based on manual picking, and there is a problem of low efficiency. Several reasonable schemes for the pepper picker were proposed, and the schemes were compared to determine the final choice of the scheme. After determining the good solution, the corresponding transmission structure scheme was designed according to this scheme, and then the outer dimensions of the box were determined according to the transmission structure scheme. In addition, when picking pepper, it is necessary to consider the battery problem. It is impossible to carry a large number of batteries every time when picking. The new type of solar battery becomes the preferred energy supply device for the battery. The new solar battery calculated the power according to the sunshine time of the picking location. Considering the material cost and conversion efficiency of solar panels, identify the final battery material. The design research has very important practical significance, which can greatly improve the efficiency of picking and liberate human and material resources.
作者
付子桐
严文超
FU Zitong;YAN Wenchao(Hubei Three Gorges Vocational and Technical College,Yichang 443000)
出处
《食品工业》
CAS
北大核心
2020年第6期233-236,共4页
The Food Industry
关键词
花椒采摘器
太阳能
电池
转化效率
prickly ash picker
solar energy
battery
conversion efficiency
