Pneumatic slicer adopts non electric drive to avoid the risk of leakage that may occur in traditional electric equipment, especially suitable for humid or flammable environments (such as chemical laboratories); No contamination from hydraulic or lubricating oil, meets hygiene standards in industries such as food and medicine, and does not produce sparks during operation. It can handle flammable materials; The cutting speed can reach several times per second, higher than manual operation, for example, the cutting efficiency of rubber test pieces is improved; When combined with standard cutting dies, the flatness error of the incision can be controlled within 0.1mm, which is suitable for precision machining scenarios (such as material mechanics testing sample preparation).

Classification of Application Scenarios for Pneumatic Slicers:

1. Laboratory field: Used for cutting samples of polymer materials, composite materials, biological tissues, etc., such as standard dumbbell shaped test pieces required for rubber elasticity testing.

2. Food processing industry: Cutting frozen meat, cheese and other ingredients, pneumatic drive can avoid motor overheating, while meeting IP65 and above protection levels, suitable for high humidity environments.

3. Industrial manufacturing: Batch cutting of leather, paper, and soft plastics, with some equipment supporting automatic feeding and stacking functions to enhance the automation level of the production line.

Measurement steps of pneumatic slicer:

-Equipment inspection: Ensure that the limit switch, pressure, safety indicator lights, pneumatic safety control lever, and blade baffle of the slicer are functioning properly, turn on the power, and check if the safety interlock device is working properly.

-Material preparation: Prepare the sample to be cut according to the testing requirements, place the slicer on a flat surface, and adjust the four feet to make it stable.

-Pressure regulation: Open the gas source, adjust the valve switch of the oil-water separator, and adjust the pressure gauge pressure to a suitable value, generally such as 0.4MPa. The specific value can refer to the equipment manual and actual testing requirements.

-Place the sample on the cutting adhesive and then attach the corresponding die. The selection of the cutting die should be determined based on the shape and size of the required sample, ensuring a tight and accurate fit between the cutting die and the sample.

-Press the button switches on both sides simultaneously with both hands, and the pressure plate will press down on the die for a few seconds, allowing the die to fully cut off the sample.

-After completing the cutting, pull out the button at the same time to raise the pressure plate, and then remove the cut test piece.

-Turn off the gas source, clean the working area of the slicer and the residual sample debris on the cutting die, and store the test pieces properly or conduct subsequent testing.