本文主要研究该蔬菜自动嫁接机的夹持机构。
This text mainly studies the structure of the automatically machine for vegetable grafting.
最后,通过越障实验验证了行走夹持机构的可行性。
Finally, the feasibility of walking and holding mechanism was verified by means of surmounting obstacles test.
一种喷枪升降横移车夹持机构,属于铁水在线脱硫装置技术领域。
The utility model relates to a clamping mechanism of a lifting transition carriage of a spray gun, belonging to the technical field of molten iron online desulphurization devices.
通过对基于浮力测量的三维实体测量与重构系统测量要求的研究,设计了一种夹持机构。
Through analyzing the three-dimensional entity measurement and reconfiguration based on the buoyancy measurement, the paper has designed a new clamping device.
T型三通的输出端连接喷雾阀的输入端,环隙式喷雾阀通过夹持机构固定连接在等离子割炬上。
The output end of the T-shaped three-way is communicated with the input end of the annular-space spray valve which is fixedly connected to the plasma cutting torch by the holding mechanism.
在研究柔性铰链的基础上,介绍了平面柔性铰链微夹持机构的设计与制作,并对此进行了张合实验。
Design and manufacture of a new type of planar flexure hinges micro-grabber were introduced based on the research of flexure hinges associated with an opening-closing experiment.
夹持机构含有结构件主体(1)和通 过弹性连接的结构件(2),其中结构件主体(1)与附加镜片相连, 结构件(2)设有至少一个通过机械运动夹持底镜中梁的所述机械夹 钩。
The organization includes the principal part1, the part2 that is connected to part1 by elasticity. The part1 is linked with the additional lens, and the part2 has at least one clip mentioned above.
本测量系统硬件主要由工作台、数码像机夹持及调整机构、光学系统、数码像机、图像采集卡和计算机组成,系统结构简图如图1所示。
This measuring system is composed of worktable, clamping and adjusting structure, optical system, digital camera, image card and computer. Picture 1 is system structure diagram.
本实用新型公开了一种新型子午线轮胎钢丝圈自动定位机构,包括 左、右预置器和夹持器。
The utility model discloses a novel radial ply tyre bead wire automatic positioning mechanism comprising a left presetting device, a right presetting device and a clamp holder.
研究了夹持自锁取种机构的充种过程,建立了充种速度模型;
The process of clamping and self-locking clip of seed-filling has been studied, and built a model on the seed-filling speed.
通过对夹持器机构的虚拟设计和仿真,不但可以直观地了解夹持物体的具体过程,还可以通过仿真曲线了解其速度、加速度以及接触力的变化情况。
Through the virtual design and simulation of the grippers, not only can the process of gripping objects be visually learned, but also the changes of the speed, acceleration and contact forces can...
通过对夹持器机构的虚拟设计和仿真,不但可以直观地了解夹持物体的具体过程,还可以通过仿真曲线了解其速度、加速度以及接触力的变化情况。
Through the virtual design and simulation of the grippers, not only can the process of gripping objects be visually learned, but also the changes of the speed, acceleration and contact forces can...
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