通过解析典型控矿构造透镜体,将构造透镜体的边界划分为过渡型、突变型及复合型,其中发育的成矿构造类型划分为脉型、网脉型及角砾岩型;提出了构造透镜体型成矿系统概念,认为构造透镜体弱变形域(Q)与包绕其中的线性强变形带(P)组成功能紧凑的成矿系统,其中的构造-流体组成的双重动力系统、液压致裂形成的成矿构造系统、多源物质组成的矿源系统及网络化联通的输矿系统相互耦合,最大限度地发挥系统功能;变形分解作用、液压致裂作用及构造泵吸作用在系统功能实行过程中发挥至关重要的作用;阐明了构造透镜体研究的成矿构造学意义。 By analyzing the typical ore-control structure lens body, the boundaries of the lens body are divided into transition type, abrupt type and compound type, in which the types of metallogenic structures are divided into vein type, reticular vein type and breccia type. The concept of the lens body type metallogenic system suggests that the structurally fluid system consisting of a dual power system consisting of a fluid-induced The formation of ore-forming tectonic system, the mineral source system composed of multi-source materials and the networked China Unicom’s mining system are mutually coupled to maximize the system function; the deformation and decomposition, hydraulic fracturing and structural pumping are implemented in the system function Plays a crucial role in the process; elucidates the significance of the metallogenic tectonicology of tectonic lens research.