河蟹养殖船载自动均匀投饵系统设计及效果试验

    Design of automatic and uniform feeding system carried by workboat and effect test for raising river crab

    • 摘要: 针对目前河蟹养殖投饵喂料劳动强度大、自动化程度低、投饲饵料分布不均匀等问题,该文提出了一种空气螺旋桨风力驱动船载自动投饵系统及均匀投饵方法。该系统由空气螺旋桨风力驱动船、自动投饵装置、ARM(advanced RISC machine)主控制器、GPRS(general packet radio service)通信模块和GPS(global positioning system)导航装置等组成。采用空气螺旋桨风力驱动,可解决常规作业船水下螺旋桨吸卷缠绕水草影响行驶问题;利用喂料器落料流速可控、抛料器抛幅可调、料仓内剩余饵料量可测的自动投饵装置,可解决投饵喂料分布不均匀问题。该系统以S3C2440为主控制器,通过GPRS通信模块M590接收作业指令。该文对投饵装置抛料器、饲料颗粒斜抛运动、饵料在水面上的累积密度分布进行建模,建立投饵均匀度目标函数,采用遗传算法GA进行最优运行参数求解,确定船载自动投饵系统最优运行参数:当饵料分布密度期望值为9 g/m2时,2个相邻投饵行程宽度的最优值为8.21 m,自动投饵装置投饵扇角的最优值为80°,喂料器单位时间内落料量的最优值为32.01 g/s,下方投饵行程船速的最优值为0.43 m/s,上方投饵行程船速的最优值为0.43 m/s,抛盘转速的最优值为1 480 r/min;并通过GPS导航装置BD982实现路径跟踪,完成自动均匀投饵作业。对饲料颗粒斜抛运动、饵料平均累积密度和分布密度均方差等进行仿真,在水平地面上与人工抛洒饵料进行对比试验,并在池塘内进行投饵试验,结果表明,该系统可使投饲饵料分布均匀度较人工投饵提高3倍以上,投饲饵料分布密度均值与设定值的相对误差为5.11%,为适应河蟹昼伏夜出的生活习性,可在夜晚进行投饲,使用1套该船载自动投饵系统能够精细管理6.67 hm2左右河蟹养殖池塘,相当于5个农村劳动力投饵喂料,节省人力提高效率,提高饲料的利用率15%以上,能使饲料节约15%以上,产量提高20%以上;同时,该船载自动投饵系统可以定时定量均匀投饲,保证养殖的河蟹个头大小均等,提高产值,大幅提高养殖面积增加效益。该文可为河蟹养殖全池自动均匀投饵喂料和其他水产养殖中需要沿池或全池自动均匀投饲研究提供重要参考。

       

      Abstract: Abstract: In order to solve the feeding problem in river crab aquaculture such as high labor intensity, low automation and non-uniform feed distribution, an automatic air propeller driven feeding system carried by a workboat and uniform feeding method was proposed. The system is mainly composed of a workboat driven by air propellers, automatic feeding device, ARM (advanced RISC machine) main controller, GPRS (general packet radio service) communication module and GPS (global positioning system) navigation device. A air propeller driven device was designed to solve the effect of waterweeds intertwine with underwater propellers of common workboat on sailing, and an automatic feeding device equipped with the flow velocity controllable bait feeder, distance adjustable thrower and quantity of feed in the bin measurable device was designed to solve the problem of non-uniform distribution of the feed. The ARM S3C2440 was used for the control system which could perform automatic uniform feeding by receiving task information through the GPRS communication module M590, modeling for the thrower of the automatic feeding device, motion of the feed particle and cumulative distribution of feed on the water, creating a target function for cumulative distribution density, using genetic algorithm (GA) to solve the optimal operation parameters such as flow velocity of the feeder, speed of the rotary table, feed sector angle, speed of the workboat and distance between adjacent feeding travel of trajectory planning which optimal value of distance between adjacent feeding travel was 8.21 m, feed sector angle was 80°, the workboat speed above and below the feeding travel were both 0.43 m/s, flow velocity of the feeder was 32.01 g/s, speed of the rotary table was 1480 r/min when the expected value of distribution density was 9 g/m2, and implementing trajectory tracking by GPS navigation device BD982. We conducted simulation of oblique throwing movement, feed average cumulative distribution density and distribution density variance, feeding contrast test between feeding device and artificial on the ground and feeding test on pond respectively. The results showed that the automatic feeding system can obtain good uniform feeding effect by working with the optimal operation parameters. The feed distribution uniformity of the automatic feeding system carried by workboat can be increased by three times than that with the artificial feeding, compared with the feed distribution density set value, the feed average distribution density relative error was 5.11%. In order to adapt the river crabs nocturnal habits, the automatic feeding can be performed in the night, one automatic feeding system carried by workboat could fine management about 6.67 hm2 crab pond which was equivalent to feeding with five rural labor force so that it would save manpower and increase efficient utilization of the feed. The automatic feeding system carried by workboat could make the feed utilization rate improved by more than 15%, resulting feed saving by more than 15% and crab output per unit area increased by more than 20%. At the same time, the automatic feeding system carried by workboat could perform timing; quantitative and uniform feeding which ensured that river crabs grow with equal size, as such improved the production and aquaculture area use efficiency. This research provides technology reference for further study of automatic uniform feeding on the whole pond in river crab aquaculture and other aquaculture needing for feeding along the pond or on the whole pond.

       

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