Extraction

Air Volume Calculation

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Parameters

A typical value for under pressure will be between 2.200 Pa and 2.500 Pa. The internal air resistance of the machine determines the required negative pressure at the suction hood.
The resistance depends on various factors, such as the geometric design of the extraction hood, the extraction speed (including its acceleration and dynamic pressure), the resistance caused by the rotation of the tool, the resistance due to cross-sectional narrowing of the material being extracted, and the geometric conditions of the air supply to the extraction hoods.

The generated negative pressure of the extraction system is crucial for overcoming all resistances (machine resistance, pipeline resistance, filter resistance).
The air volume is responsible for the removal of chips. In order for enough air to reach the machine or for sufficient airspeed to be present in the pipeline, enough pressure must be generated to overcome all the mentioned resistances. Therefore, the correct ratio between air volume and system pressure is of great importance.

Calculation values

Machine parameters

Additionally, you can add optional working units to the calculation. Enter, one after another, the diameter and the number of extraction hoses per unit.

The orientation data of the units is used in order to determine the amount of shavings. The letter 'h' stands for a horizontal unit, resp. for machining the height, 'v' stands for a vertical working unit, resp. for machining the width, 'f' stands for chamfer units, and under 'x' no calculation of shavings will be made for that spindle.

* Included in the extraction volume calculation