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磁性流体密封技术(2)

原作者:[标签:作者] 添加时间:2007-06-28 原文发表:2007-06-28 人气:1

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Optimum Torque Transmission: Through-shaft construction permits 100 percent torque transmission and provides in-phase rotation without backlash.

低阻尼和高速旋转能力：磁性流体极低的粘滞阻力和磁性流体进行给装置无需接触密封圈的结构，决定了它的稳定操作和高速转动。

Low Viscous Drag and High-Speed Capability: The low viscous drag of the Magnetic fluid, and non-contacting seal configuration of the Magnetic fluid feed through assure its extremely smooth operation and its high-speed capabilities.

磁性流体密封装置的轴承疲劳寿命按照以下的方法来计算

To determine Ball bearing Rating Fatigue Life of Ferro fluid sealed spindles, please use this table and the basic equation below.

L0：壳体端面到负载的距离
Distance fro housing end to load point

L1：真空侧轴承到壳体端面的距离
Distance from load side ball bearing to housing end

L2：轴承间距
Ball bearing span

Cr：轴承基本额定支负载
Dynamic load rating of ball bearing

L3：长度
Total length of shaft

Fa：压差产生的轴向负载
Axial exerted by atmospheric pressure

Cor：轴承基本额定静负载
Static load rating of ball bearing

Fr：径向负载
Radial load

n：转速
Rotation speed

fw：负载系统
Load factor

P：轴承当量动负载
Equivalent load

Lh：额定寿命
Rating fatigue life

●这些负荷能力特指使用SUJ2材料的轴承，如果使用SUS材料的轴承，则使用参数的80%。

This load capacity is for SUJ2 bearings. If bearing are used. Please apply an 80% darting factor.

例1
Example

型号为SFL020NN，其真空侧转由上的径向负载Fr=50kgf，转速n=200rpm时的额定寿命。

For a vacuum application, to obtain the fatigue life factor, Lh, of Model Number SFL202NN, when it is

used under a radial load Fr=50kgf at the shaft end and the rotation speed is n=200rpm.

由于轴承头部承受有Fr=50kgf，以下方法求出轴承6005上的Fr1，Fr2。

Radial load Fr=50kgf is applied at the shaft end, and the radial load on #6005 ball bearing should be distributed to Fr1 and Fr2. The can be obtained from the equation following:

由上述的负载分配求出额定寿命。（由于真空侧轴承不承受的负载比较高，仅计算真空侧轴承的寿命。此外，本计算由于真空压差产生的轴向负载Fa=3.14kgf很小，所以只计算了长向负载。当轴向负载很大时，必须考虑它的影响。）
From the distributed radial load Fr above, the rated fatigue Life Lh is obtained as follows:
(In this case, the Fr of the load side bearing is greater than at the second bearing. Calculate the Radial load at the load side only. For a vacuum application, the Axial load exerted by the atmospheric pressure difference, Fa=3.14kgf, is small enough to disregard. Therefore, only the Radial load is calculated. If the value of Fa is large, please include it in the calculation.)