Why does the transmission structure of the medium-speed paper bowl machine become a guarantee of high efficiency and stability?

At present, disposable paper bowls are widely used in catering, food processing, home life, public places and other fields. As a key equipment for paper bowl production, the performance of the medium-speed paper bowl machine directly affects the production quality and efficiency of paper bowls. Among the many key components of the medium-speed paper bowl machine, the transmission structure is the core and plays a decisive role in the overall operation performance of the equipment. ​
The transmission structure of the medium-speed paper bowl machine adopts high-precision helical gear transmission. This ingenious design brings many significant advantages. In traditional gear transmission, although the spur gear has a simple structure, it is very easy to produce large impact and vibration during operation due to the direct meshing mode between teeth, which in turn causes noise. The high-precision helical gear transmission cleverly solves this problem. During the meshing process of the helical gear, the contact of the tooth surface is gradually transitioned, not instantaneously and completely contacted like the spur gear. This progressive contact method greatly reduces the impact between teeth and effectively reduces the vibration and noise generated when the machine is running. Correspondingly, the reduction of vibration reduces the wear of various components of the equipment during operation, thereby extending the maintenance cycle of the equipment and reducing maintenance costs. ​
The transmission components are installed in the rack under the table. This layout design also contains the ingenuity of engineers. From the perspective of space utilization, hiding the transmission components in the rack under the table makes the overall structure of the equipment more compact. In the case of tight space resources in the production workshop, this compact structural design allows the medium-speed paper bowl machine to operate efficiently in a limited space, saving valuable site resources for the company. ​
From the perspective of equipment stability, the rack under the table provides solid support for the transmission components. The rack is made of high-strength steel and has extremely high rigidity after precise processing and assembly. The transmission components are installed in it, which can effectively resist the interference of external factors on the transmission system. In the actual production process, even if there is a certain degree of unevenness on the workshop floor, or there are slight vibrations caused by the operation of other equipment around, the medium-speed paper bowl machine can still maintain a stable operating state because the transmission components are firmly installed in the rack under the table, ensuring the continuity and stability of paper bowl production.​
The forming mold turntable adopts a cylindrical open indexing cam. This innovative design plays a key role in improving transmission efficiency and enhancing equipment stability. The cylindrical open indexing cam has a unique profile curve that can accurately control the movement of the forming mold turntable. In the process of paper bowl production, the forming mold turntable needs to be frequently rotated intermittently to complete the operation of different processes. The cylindrical open indexing cam can achieve precise indexing movement by cooperating with the roller on the turntable, and accurately control the rotation angle of the turntable within the required range. ​
This precise motion control enables the medium-speed paper bowl machine to perform every action accurately when producing paper bowls. For example, in the process of sealing the cup body and the cup bottom, the forming mold turntable can accurately position the cup body and the cup bottom in the appropriate position to ensure the quality of the sealing. Compared with the traditional transmission method, the medium-speed paper bowl machine using a cylindrical open indexing cam has greatly improved transmission efficiency. Under the same production conditions, this structure can effectively increase the output of paper bowls per hour, greatly improving the production efficiency of the enterprise.​
In terms of equipment stability, the structural design of the cylindrical open indexing cam makes the forming mold turntable more stable during the rotation process. Because the contour curve of the cam has been carefully designed, the force between the roller and the cam is always kept within a reasonable range during the rotation of the turntable, avoiding the shaking of the turntable caused by uneven force. This not only ensures the stability of the mold during the production of paper bowls, improves the molding quality of paper bowls, but also further extends the service life of the equipment. ​
The high-precision helical gear transmission in the transmission structure of the medium-speed paper bowl machine, the layout of the transmission components in the frame under the table, and the forming mold turntable design of the cylindrical open indexing cam work together to provide a solid guarantee for the efficient and stable operation of the equipment. In actual production, this excellent transmission structure design brings many advantages such as reduced noise, reduced maintenance costs, efficient space utilization, improved production efficiency and stable product quality. ​