1) swing movable teeth reducer
摆动活齿减速器
1.
A method of robust design based on the orthogonality design is used in the fuzzy optimization design of swing movable teeth reducer.
将基于正交设计的稳健设计法应用于摆动活齿减速器的模糊优化设计,提出了摆动活齿减速器的模糊稳健优化设计方法。
2.
A method of building the finite element model of swing movable teeth reducer was put forward according to the characteristics of the construction of swing movable teeth reducer.
针对摆动活齿减速器的结构特点 ,提出了摆动活齿减速器的有限元模型的建模方法。
3.
The shaft system of swing movable teeth reducer is a complicated multirotor system which has couple, so its dynamic characteristic is complicated.
摆动活齿减速器的转轴系统是一个复杂的多转子系统,转子之间相互耦合,其动力学特性比较复杂。
2) swinging movable teeth reducer
摆动活齿减速器
1.
Fuzzy robust optimum design of swinging movable teeth reducer;
摆动活齿减速器的模糊稳健优化设计
2.
Finite element modality analysis of swinging movable teeth reducer box;
摆动活齿减速器箱体的有限元模态分析
3) oscillating tooth reducer
活齿减速器
1.
Fuzzy fault tree analysis of cylinder sine oscillating tooth reducer;
圆柱正弦活齿减速器模糊故障树分析
4) roller oscillating teeth gear reducer
滚柱活齿减速器
1.
Modal analysis of shaft system of roller oscillating teeth gear reducer based on ANSYS
基于ANSYS的滚柱活齿减速器轴系的模态分析
5) swing movable teeth
摆动活齿
1.
The influence parameter analysis for meshing efficiency of swing movable teeth drive;
摆动活齿传动啮合效率的重要影响因素分析
补充资料:摆动式燃烧器调温
摆动式燃烧器调温
steam temperature control by tilting burner
bo一dongsh{ranshaoqlt旧owen摆动式瀚烧器调通(steam temperature con-trol by tilting burner)调整嫩烧器的倾角以改变火焰中心位!,借以改变炉膛出口烟温来实现汽温调节的方法。一般多用于切向燃烧的燃煤锅炉中。嫩烧器上下摆动200~300时,炉膛出口烟温变化约110~140℃,汽温调节幅度30~4。℃。此种调温方法,主要用于再热汽温的调节,但燃烧器倾角改变时对过热汽温亦有明显影响。当燃烧器上下摆动时,对靠近炉膛出口的受热面的换热温差影响较大,其吸热量变化也较大,因此应将被调对象的受热面(再热器或过热器)布t在炉膛出口附近,可以获得明显的调温效果。 对于低灰熔点燃料,为了防止结渣,其调温幅度应加限制.对于挥发分甚低的嫩料,不宜采用此种调温方式。 在嫩油锅炉中,由于火焰较短,摆动燃烧器对炉膛出口烟气温度影响较小,调温效果不明显,故一般不采用。 摆动式燃烧器调温方式调节灵敏,不需增加附加受热面和功率消耗,是调节再热汽温用得较多的手段之一。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条