剪切速度比普通剪板机提升近2倍。该款快速剪板机适用于6到16mm厚的薄板剪切工序，最大剪切长度可以达到4000mm。与普通液压闸式剪板机相比，在剪切角度为3°，剪切全长4000mm板时速度可以达到每分钟10次，分段剪切时速度更可达到每分钟40次以上。

 

    高速剪板机是采纳机械传动的资料成形设施，经过传动组织失掉资料成形时所需的力，从而使坯料失掉确定的变形，制成所需作件，挤压和锻造等工艺。该组织为失调弹性力，同声在杠杆的另一端生动接了一个失调摆快，作业时，失调摆快的位置和滑块相同，起失调作用。在理论中运用的高 速剪板机的构造重要有肘杆式、多连杆式等。因为 该构造除非手柄6和连杆4外在构造上对称，因而该组织的程度弹性力能够失去较好的失调。 

        多连杆高速剪板机的构造，手柄12在缭绕时牵动导正块4做曲线静止，右撑杆3在右上连杆的作用下使右上连杆转动。滑块在右下连杆11、右失调杠杆10和右传 力杆的独特作用下做曲线静止。关于肘杆式髙速剪板机的构造，该剪板机经过垂直路轨1牵动连杆4端的导正销做曲线静止，L臂牵动肘杆做复合立体静止，滑块在肘杆的作用下做往返曲线静止。同样，该机 构因为手柄连杆没有对称的组织，其产生的弹性力无奈对消。 高速剪板机的作业组织内容多种多样，通常由曲轴、连杆、路轨和滑块等整机组成，性能是把曲轴零碎的回转静止转化为路轨零碎的往返曲线静止。

The cutting speed is nearly twice as fast as a regular shearing machine. This fast shearing machine is suitable for the cutting process of thin plates with a thickness of 6 to 16mm, and the maximum cutting length can reach 4000mm. Compared with ordinary hydraulic gate shearing machines, the speed can reach 10 times per minute when cutting a 4000mm long plate at a cutting angle of 3 °, and the speed can reach more than 40 times per minute when cutting in sections.
High speed shearing machine is a data forming facility that adopts mechanical transmission. Through the transmission structure, the required force for data forming is lost, thereby causing the blank to lose a certain deformation and produce the required parts through processes such as extrusion and forging. The organization has an unbalanced elastic force, and a misaligned pendulum is vividly connected to the other end of the lever. During operation, the position of the misaligned pendulum is the same as that of the slider, playing a role of imbalance. The important structures of high-speed shearing machines used in theory include elbow bar type, multi link type, etc. Because the structure is symmetrical unless the handle 6 and the connecting rod 4 are externally constructed, the degree of elastic force of the tissue can lose good misalignment. 
The structure of a multi link high-speed shearing machine is as follows: handle 12 pulls the guide block 4 to make a curved stop when winding, and the right support rod 3 rotates the upper right link under the action of the upper right link. The slider is curved and stationary under the unique action of the right lower link 11, the right offset lever 10, and the right transmission rod. Regarding the construction of the elbow bar high-speed shearing machine, the shearing machine is subjected to a curved stationary motion through the vertical rail 1 pulling the connecting rod 4 end guide pin, a composite three-dimensional stationary motion through the L-arm pulling the elbow bar, and a reciprocating curved stationary motion through the slider under the action of the elbow bar. Similarly, due to the lack of symmetrical organization of the handle connecting rod, the elastic force generated by the mechanism cannot be cancelled out. The operation organization of high-speed shearing machines is diverse, usually consisting of a complete machine such as a crankshaft, connecting rod, rail, and slider. Its performance is to transform the rotational stillness of the crankshaft fragments into the reciprocating curve stillness of the rail fragments.