detailed description

Equipment structure:

The vacuum cleaning equipment series includes the following components:
1. The main parts include: filter room, ash collection room, high-pressure fan, exhaust outlet, PLC control system
2. Other auxiliary systems: imported pulse valve, gas storage bag, unloading system, dust collection box, filter material, differential pressure gauge, etc;

Equipment features:

Easy to use: No need to transport bulky vacuum cleaners. No need to unplug or insert wires anymore, clean the floor and corners of dirt and dust to maintain a clean environment.
Widely applicable: It can be used in both home and industrial settings, and can remove ground dust, particles, etc; It can also improve product quality by removing excess materials, debris, waste, etc. from production and operation workstations to enhance work efficiency.
Operation safety: Remove dust in the workplace with the possibility of dust explosion to reduce the risk of explosion.
Environmental protection and energy conservation: Extract dusty air, pass through multi-stage dust removal, and discharge it centrally. To avoid the problem of filtered air still being discharged into the cleaning and vacuuming workshop by both household and industrial vacuum cleaners, and to recycle the scattered powder particles on the ground to improve economic efficiency.

High flexibility: The equipment can be designed as explosion-proof or non explosion-proof according to actual situations or customer requirements.

set upPreparation principle:

After the dusty gas enters the ash hopper of the vacuum dust collector, due to the sudden expansion of the airflow cross-section and the effect of the airflow distribution plate, some coarse particles in the airflow settle in the ash hopper under the action of gravity and inertia force; After the dust particles with fine particle size and low density enter the dust filter chamber, they deposit on the surface of the filter material through a combination of Brownian diffusion and screening effects. The purified gas enters the clean air chamber and is discharged through the exhaust pipe and fan.

The resistance of a bag filter increases with the thickness of the dust layer on the surface of the filter material. Clean the dust when the resistance reaches a certain specified value. At this time, the PLC program controls the opening and closing of the pulse valve, and then the electromagnetic pulse valve opens. Compressed air rapidly expands in the upper box and flows into the filter bag, causing the filter bag to expand and deform, generating vibration. Under the action of reverse airflow flushing, the dust attached to the outer surface of the filter bag is peeled off and falls into the ash hopper. After the spraying is completed, the electromagnetic pulse valve is closed and the filtering state is restored. The fallen dust falls into the ash hopper and is discharged through the ash removal device.