![[Case Study] Stable and Energy-Saving Suction with PUSH Food](https://image.mono.ipros.com/public/product/image/80c/2000649174/IPROS98583744346354031402.png?w=280&h=280)
[Case Study] Stable and Energy-Saving Suction with PUSH Food
Air volume reduced by 42.2%! Improved dust collection efficiency and energy savings achieved with auxiliary airflow from the PUSH hood.
There was an issue where "the PULL hood could not be installed near the source due to installation conditions, resulting in a large airflow." Therefore, we considered the design of the PULL hood to match the shape of the PUSH fan. This achieved improved dust collection efficiency and energy savings through the auxiliary airflow generated by the PUSH hood. Since the controlled airflow can be reduced, it allows for a smaller hood airflow and dust collector. Additionally, if the position of the PULL hood cannot be changed, a PUSH-PULL type ventilation system is effective. 【Case Study】 <Problems> ■ The distance to the capture point changes with the size of the workpiece. ■ As the distance increases, the suction efficiency decreases, leading to a reduction in collection efficiency. <Benefits> ■ The controlled airflow can be reduced, allowing for a smaller hood airflow and dust collector (Supplementary face airflow: 0.2 m/s or more). *For more details, please refer to the PDF document or feel free to contact us.
- Company:アマノ
- Price:Other
