Patent ID: 11951488
Assignee: BEIJING COMFORT TECHNOLOGIES CO., LTD.
Field: Chemical engineering (Chemistry)
Classification: CPC B  F | IPC B  F

Claim 3:
4. An axial cyclone air filtration method integrated with the bipolar-charged agglomeration, comprising the following operation steps:
step 1: under an action of a driving force of an external fan, allowing a dusty air flow to first pass through a pre-charge region, then allowing particles in the dusty air flow to be positively charged and negatively charged respectively after colliding with positive ions in an electric field of a positive corona area and negative ions in an electric field of a negative corona area, wherein the positive corona area and the negative corona area are adjacent to each other, wherein a first V-shaped guide plate is disposed on an air outlet side of the positive corona area and a second V-shaped guide plate is disposed on an air outlet side of the negative corona area, and wherein the first and second V-shaped guide plates are configured to control flows of positively charged particles from the positive corona area and of negatively charged particles from the negative corona area such that the positively charged particles flow into an axial cyclone coagulation dust separation apparatus in a proportion that is uniform with respect to a proportion of the negatively charged particles flowing into the axial cyclone coagulation dust separation apparatus together with the positively charged particles;
step 2: allowing said positively charged particles and said negatively charged particles to flow into the axial cyclone coagulation dust separation apparatus, and to be mixed, compressed, collided and rotated at an air inlet, a guide vane, and an annular cavity formed by an outer cylinder and a flow deflector of the axial cyclone coagulation dust separation apparatus, wherein the positively charged particles and the negatively charged particles are agglomerated into large particles by a centrifugal force and a coulomb force;
step 3: allowing a large number of ultra-fine particles to be adsorbed on the large particles in a coagulation process, allowing agglomerated particles to form an annular dust layer moving forward spirally along an inner wall of the outer cylinder under a double action of the centrifugal force and an inertia force; allowing particles in the annular dust layer to be tightly bonded together due to the coulomb force and an electric polarization effect, and allowing the annular dust layer to move forward under an action of the inertia force and to fall into a dust collection channel after hitting a tail of an outer-wall cavity of an air outlet, and discharging clean air from an inner cavity of the air outlet, wherein an air-filtration function is realized; wherein when the dusty air flow contains flammable and explosive gases or particles with large viscosity, including painting mist, in order to prevent combustion and explosion accidents caused by discharge of an corona electrode and spark of the corona electrode, or to protect the corona electrode itself, a positive and negative ion generator of the pre-charge region is installed outside a main duct of the dusty air flow, and the positive and negative ion generator is further installed on an air inlet side of the axial cyclone coagulation dust separation apparatus; under an action of a fan, compressed air, or other external force, the positive ions and the negative ions produced by the positive and negative ion generator are injected into the main duct of the dusty air flow together with indoor air or outdoor fresh air, and collide with the particles in the dusty air flow, wherein the positively charged particles and the negatively charged particles are formed before entering the axial cyclone coagulation dust separation apparatus, and particles charged with charges of different polarities are agglomerated inside the axial cyclone coagulation dust separation apparatus to further improve air filtering efficiency.