同步辐射是生物大分子研究中所使用的重要方法 ,本文讨论的准直镜和聚焦镜系统是生物大分子光束线中的重要装置 ,其作用是改变X射线的方向并使其聚焦。生物大分子试验对准直、聚焦系统提出了特殊的要求。为此 ,本文使用了有限元的方法 ,对镜体表面各处在不同工况下的曲率半径进行了模拟。在此基础上设计了一种带有平衡系统的压弯系统。对于有限空间下能自锁的姿态调整系统、支撑系统、水冷系统、镜箱系统也作了讨论。 Synchrotron radiation is an important method used in the research of biological macromolecules. The collimator lens and focusing lens system discussed in this paper are the important devices in the biological macromolecular beamline. The purpose of the synchrotron radiation is to change the direction of the X-ray and focus it. Biological macromolecules test alignment, focusing system made a special request. To this end, this paper uses the finite element method to simulate the curvature radius of the mirror surface under different conditions. On this basis, a bending system with a balance system is designed. For the limited space can be self-locking attitude adjustment system, support system, water cooling system, the mirror box system is also discussed.