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空中護衛 農業植保無人機

瀏覽次數:711 分類:創新設計與研發生產案例 分類:新工業設備

成都拓成工業產品設計_外觀設計_結構設計_注塑加工_植保無人機?

成都拓成工業產品設計_外觀設計_結構設計_注塑加工_植保無人機

成都拓成工業產品設計_外觀設計_結構設計_注塑加工_植保無人機成都拓成工業產品設計_外觀設計_結構設計_注塑加工_植保無人機成都拓成工業產品設計_外觀設計_結構設計_注塑加工_植保無人機

概要

尺寸:含機翼、支架(2054*1065*830 mm)不含機翼、支架(530*320*265 mm)
材質:塑料,碳纖維,鋁合金。
技術:碳纖維成型,塑料吹塑,鋁合金CNC加工。
軟件:Rhino 5.0 ;Keyshot 6.0 ;Photoshop CS6

Size: 2054*1065*830mm, 530*320*265 mm
Material: plastic, carbon fiber, aluminum alloy.
Technology: carbon fiber molding, plastic blow molding, aluminum alloy, CNC processing.
Software: Rhino 5; Keyshot 6; Photoshop CS6

說明

這是一種遙控式農業噴藥小飛機,機體型嬌小而功能強大,可負載10L農藥,在低空噴灑農藥,每分鐘可完成一畝地的作業。其噴灑效率是傳統人工的30倍。該飛機采用智能操控,操作手通過地面遙控器及GPS定位對其實施控制,其旋翼產生的向下氣流有助于增加霧流對作物的穿透性,防治效果好,同時遠距離操控施藥大大提高了農藥噴灑的安全性。

Description: This is a remote control agricultural spraying small aircraft, airframe type small and powerful, can load 10L pesticides, spraying pesticides at low altitude, every minute to complete the operation of one mu of land. Its spraying efficiency is 30 times that of traditional manual. The aircraft used intelligent control, manipulator through ground remote controller and GPS mapping of the implementation of control, the downdraft rotor helps to increase the flow of fog penetrating crops, good control effect, and remote control application greatly improves the safety of pesticide spraying

理念
在設計過程中,如何將無人機本身的重量降到最低是一大難題,同時還需要滿足雨天作業,以及后期清洗的防水處理,由于內部元器件發熱量大,散熱也是一個令人頭痛的問題。另一方面還需要降低無人機降落到地面時由于慣性對內部元器件的損害。 因此我們我們最后給出的方案為無人機外殼以及骨架均采用碳纖維材料,主體部分采用模塊化設計,方便安裝與拆卸同時解決防水問題。至于散熱,我們設計了一款L型的吹塑水箱,在滿足載藥量不變的同時,讓水箱輔助散熱。然后在支架底部設計了緩沖器,有效解決了無人機降落時緩沖的問題。

In the design process, how will the UAV itself to a minimum weight is a big problem, but also need to meet the rain and water treatment operation, late cleaning, due to internal components of heat, heat is also a headache. On the other hand, there is also a need to reduce the damage to internal components due to inertia when the UAV lands on ground. Therefore, we finally give the program for the UAV shell and skeleton are carbon fiber material, the main part of the modular design, easy installation and disassembly, while solving the waterproof problem. As for heat dissipation, we designed a L type blow tank, which can be used to heat the tank at the same time as the loading dose is constant. Then the buffer is designed at the bottom of the support to effectively solve the problem of landing when the UAV is landing.

無人駕駛小型直升機具有作業高度低,飄移少,可空中懸停,無需專用起降機場,旋翼產生的向下氣流有助于增加霧流對作物的穿透性,防治效果高,遠距離遙控操作,噴灑作業人員避免了暴露于農藥的危險,提高了噴灑作業安全性等諸多優點。另外,電動無人直升機噴灑技術采用噴霧噴灑方式至少可以節約50%的農藥使用量,節約90%的用水量,這將很大程度的降低資源成本。

Small unmanned helicopter operation with low height, low drift, but hovering and without special landing airport, downdraughts rotor helps to increase the flow of fog penetrating crop, control effect, remote operation, spraying operation personnel to avoid the risk of exposure to pesticides, improve the advantages of spraying safety. In addition, the electric unmanned helicopter spraying technology adopts spray spraying method, at least 50% of the pesticide consumption can be saved, and 90% of the water consumption is saved, which will greatly reduce the resource cost.

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