Non-circular belt transmission design of mechanical press

The quality of parts manufactured by metal forming operations depends on the kinematics of the mechanical press in a large degree. Non-circular belt transmission with a rotational angle-dependent speed ratio in the press drive mechanism offers a new way to obtain optimum stroke-time behaviors for specific metal forming operations in terms of manufacturing. In this work, the mathematical model for mechanical press driven by non-circular belt transmission is established with the concept of polar coordinate equation for tangent curves introduced, and a general design method of non-circular belt pulley pitch curves and slack for transmission system is proposed. Compared with traditional crank-slider press, numerical simulation results demonstrate that mechanical press with non-circular belt transmission has a lower speed under deep drawing operation and a quick-return characteristic under non-loading stage, which is suitable for blanking and deep drawing products that are made of poor plasticity and embrittlement material. Furthermore, the slack of non-circular belt transmission for mechanical press is calculated under operation, which can provide a theoretical basis for the design of take-up mechanism.

Graphical abstractNon-circular belt transmission in Figure 1 attracts more and more attention with its variable transmission ratio, low precision of manufacturing and installation, low cost, etc. Compared with that of traditional crank-slider press, the results shows that the slider of non-circular belt driving press has a lower speed when stamping and a quick-return characteristic shown in Figure 2.Figure optionsDownload full-size imageDownload as PowerPoint slideHighlights► A general design method of non-circular belt pulley pitch curves and slack for transmission system is proposed. ► The pitch curve of non-circular driven pulley is devised under the condition of perfect round driving wheel. ► The slider of non-circular belt driving press has a lower speed when stamping and a quick-return characteristic.