小微型大(dà)力矩變速箱是(shì)更緊湊、體積小、重量輕，但依然需要(yào / yāo)承受較大(dà)的(de)扭矩的(de)方案。适用于(yú)小微型設備。應用場景在(zài)比如機器人(rén)、無人(rén)機、小型電動車輛、精密儀器、航空航天執行器  。這(zhè)些領域對空間和(hé / huò)重量有嚴格限制，但扭矩需求較高，需解決如何在(zài)有限空間内實現高扭矩傳遞，同時(shí)保持高效率。

小微型變速箱可能需要(yào / yāo)使用高強度材料，比如钛合金或複合材料，以(yǐ)減輕重量。齒輪設計采用行星齒輪組或諧波傳動，這(zhè)些結構緊湊且能提供高減速比。通過特殊潤滑油脂來(lái)潤滑和(hé / huò)散熱。

微型大(dà)力矩變速箱扭矩範圍在(zài)0.1-5 Nm之(zhī)間，但體積隻有傳統的(de)70%。該小微型變速箱采用模塊化設計，方便集成到(dào)不(bù)同設備中，可根據智能控制功能要(yào / yāo)求集成傳感器實時(shí)監測運行狀态。成都中科智成公司可根據客戶需求研發定制方案，以(yǐ)适應更複雜的(de)場景應用。

小微型大(dà)力矩變速箱正朝着「更高扭矩密度、更智能集成、更極端環境适應」方向突破，未來(lái)在(zài)醫療機器人(rén)、太空探索等領域将催生更多颠覆性應用。

The small and micro high torque transmission is a more compact, smaller in size, and lighter in weight solution, but still needs to withstand greater torque. Suitable for small and micro devices. Application scenarios include robots, drones, small electric vehicles, precision instruments, and aerospace actuators. These fields have strict limitations on space and weight, but require high torque. It is necessary to solve how to achieve high torque transmission in a limited space while maintaining high efficiency.
Small and micro gearboxes may require the use of high-strength materials, such as titanium alloys or composite materials, to reduce weight. The gear design adopts planetary gear sets or harmonic drives, which are compact and can provide high reduction ratios. Lubricate and dissipate heat through special lubricating grease.
The torque range of the micro torque gearbox is between 0.1-5 Nm, but its volume is only 70% of the traditional one. This small and micro gearbox adopts a modular design, which is easy to integrate into different devices. It can integrate sensors to monitor the operating status in real time according to the requirements of intelligent control functions. Chengdu Zhongke Zhicheng Company can develop customized solutions according to customer needs to adapt to more complex scenario applications.
Small and micro high torque transmissions are breaking through towards higher torque density, smarter integration, and more extreme environmental adaptability. In the future, they will give rise to more disruptive applications in fields such as medical robots and space exploration.