CAJ | 학술논문

针对全自动移栽机在田间作业中，因苗盘的钵苗格缺苗而导致的漏栽问题，研制了一种苗盘钵苗自动识别及控制试验装置。该试验装置采用单苗爪取苗，步进电机驱动钵苗盘纵向和横向移动，光电传感器作为钵苗识别装置，由可编程逻辑控制器（programmable logic controller，PLC）为控制核心，触摸屏作为人机界面，可适应不同规格的苗盘参数，可选择对该装置进行手动或自动控制。试验结果表明，该装置可有效地对钵苗格是否缺苗进行自动识别，并控制苗盘输送装置，使缺苗的钵苗格快速跳过取苗爪，提高取苗爪的抓取效率，以降低漏栽率；相对于没有采用钵苗自动识别的移栽模式，该系统漏栽率整体降低了约12%。该研究可为全自动移栽机的进一步自动化智能化设计提供参考。
침대전자동이재궤재전간작업중，인묘반적발묘격결묘이도치적루재문제，연제료일충묘반발묘자동식별급공제시험장치。해시험장치채용단묘조취묘，보진전궤구동발묘반종향화횡향이동，광전전감기작위발묘식별장치，유가편정라집공제기（programmable logic controller，PLC）위공제핵심，촉모병작위인궤계면，가괄응불동규격적묘반삼수，가선택대해장치진행수동혹자동공제。시험결과표명，해장치가유효지대발묘격시부결묘진행자동식별，병공제묘반수송장치，사결묘적발묘격쾌속도과취묘조，제고취묘조적조취효솔，이강저루재솔；상대우몰유채용발묘자동식별적이재모식，해계통루재솔정체강저료약12%。해연구가위전자동이재궤적진일보자동화지능화설계제공삼고。
In order to solve the problem of seedlings leakage planting caused by the lack of plug seedlings in trays during with the all automatic transplanter working, an automatic recognition and control device for vegetable plug seedling transplanter was designed. In contrast to the home and abroad information, the design considered the domestic user price affordability and practicality. In this device, a stepping motor was used for driving the seedling disc horizontal motion and another was used for driving the seedling disc vertical motion. Four photo-electric sensors as the seedling recognition device were fitted on both sides of the seedling gripper and seedling disc, which can detect of seedling shortage from four directions. A programmable logic controller (PLC) was used to control clamping seedling gripper motion and the seedling disc transport along horizontal and vertical direction. A touch screen as man-machine interface can set the parameter to fit different size seedling disc, which can also choose manually or automatic control method. In this paper, a comparative experiment f was carried out at different transplanting velocity under the condition of automatic recognition system or one month old pepper seedling. The results showed that it could work effectively. The movement of the seedling trigger photoelectric sensor produced a signal, so that the seedlings were stopped and clamped away when moving to the position of the seedling gripper. On the contrary, the lack of seedling lattice cannot trigger photoelectric sensor, on arrival will not stop the seedling fetching device position, but quickly through, directly send the next seedling to stop on position of the seedling gripper, waiting for the clamping seedling gripper. This improves the seedling grab efficiency, reducing the leakage rate of transplanting machine plant. Automatic recognition and control device had low misjudge rate when transplanting speed was form 60 to 120 seedling per minutes. When transplanting speed was from 60 to 90 seedling per minute, the transplanter had well leakage plantings rate and throwing seedlings rate that can effectively work at transplanting seedling. The response speed of automatic recognition and control device can work at high speed transplanter. The leakage transplanting rate with automatically seedlings picking recognition control system was 12% lower than without the automatically seedlings picking control system. The device achieved the objective of reducing leakage rate purpose. Relative to not used for automatic identification of transplanting seedling mode, it is reduced about 12%that the leakage rate of the whole system of plant in 60-90 seedling/min transplanting speed. Leakage rate of transplanting machine plant is close to the practical level of planting. It achieved the purpose of reducing the leakage rate of planting. <br> Through observation and analysis during experiments, if the conveying of seedling disk was changed to horizontal, it can maximize the seedling erect and reducing sensor misjudgment caused by seedling roll or tilt, the identification rate was improved. The system was only carried out in the laboratory test, but field test has not yet performed. In field operation, some factor may affect the automatic recognition and seedling fetching device reliability and stability, such as vibration of machines, interference of the sensor by sunshine outdoor. These need further test and examination. More field experiment needs to be tested for the influences of machine vibration and sunlight to the photoelectric sensor.