Electronic Dam Air Purifier
An air purifier and electronic dam technology, applied in the field of air purification, can solve the problems of large air pressure difference, discharge, inability to filter out small particles of dirt, etc., and achieve the effect of reducing power supply and strong safety.
Active Publication Date: 2019-02-12
纽稳顿(苏州)环境科技有限公司
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Problems solved by technology
In order to achieve an ideal dust removal rate, the operating voltage of the electrostatic precipitator needs to be maintained at 40-75kV or even above 100kV, and the current is relatively large. When the specific resistance of the dust in the electrostatic precipitator is large, the voltage gradient formed between the dust layers will produce local Breakdown and discharge phenomena, resulting in a decrease in dust removal efficiency and a large amount of ozone
At the same time, since the electrostatic precipitator cannot lock the dirt by itself, the previously adsorbed dirt will be blown out again when the power is turned off or restarted, re-polluting the air
[0003] When the high-efficiency filter is in use, the filter screen will be blocked by dirt in a short period of time and will fail. It has no bactericidal effect and cannot filter out dirt with too small particles, and the air pressure difference through the filter screen is very large. Excessive consumption
Method used
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Embodiment Construction
[0032] The present invention will be described in further detail below in conjunction with the accompanying drawings.
[0033] Such as figure 1 As shown, the electronic dam air cleaner of the present invention is composed of an electrode bin 10, a dust-locking electrode 20 located in the electrode bin and a needle electrode 30 in the tube;
[0034] The electrode bin 10 is a closed cavity as a whole, and is provided with an air inlet and an exhaust port. The air in the electrode bin 10 is discharged from the exhaust port after being purified by the dust-locking electrode 20 and the needle-in-tube electrode 30; The inside of the shell is an insulating layer, and the outside is a metal shielding layer to prevent static radiation; the electrode compartment 10 has two functions of preventing electric leakage and air leakage;
[0035] The number ratio of the needle electrode 30 and the dust-locking electrode 20 in the tube is N:N+1, wherein N≥1;
[0036] In the electrode bin 10, t...
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The invention discloses an electron dam air purifier comprising an electrode chamber, and dust lock electrodes and tube pin electrodes arranged in the electrode chamber; the pin electrodes and the dust lock electrodes are arranged according to the ratio: N: N+1, wherein the N is >=1; the dust lock electrodes and the tube pin electrodes are arranged at intervals along a gas inlet direction, and respectively connected with a high voltage power source; the adjacent dust lock electrode and tube pin electrode form an electrode pair; the air is purified in the electrode chamber so as to obtain purified air. Airflow penetrates the electrode pair in a positive-negative electrode direction instead of a conventional direction vertical to the positive-negative electric field direction, so current consumption is small, strong electric field is not needed, and ozone can hardly be generated, so power supply rate can be greatly reduced; the air passes the dust lock electrode and tube pin electrode in a laminar flow mode, so wind resistance is small; the electron dam air purifier can effectively kill bacteria and virus in the air, is good in air cleaning effect, strong in safety, low in product energy consumption, high in efficiency, and energy saving.
Description
technical field [0001] The invention belongs to the technical field of air purification, and in particular relates to an air purification device. Background technique [0002] Existing air purification devices mainly include electrostatic precipitators and high-efficiency filters. The working principle of the electrostatic precipitator is to use a high-voltage electric field to ionize the airflow to be treated. The airflow flows through the electric field perpendicular to the direction of the electric field, and the dust charges in the airflow are separated from the airflow under the action of the electric field. In order to achieve an ideal dust removal rate, the operating voltage of the electrostatic precipitator needs to be maintained at 40-75kV or even above 100kV, and the current is relatively large. When the specific resistance of the dust in the electrostatic precipitator is large, the voltage gradient formed between the dust layers will produce local Breakdown and d...
Claims
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IPC IPC(8): F24F3/16B03C3/06B03C3/40A61L9/16
Inventor 刘万宝蔡培明
Owner 纽稳顿(苏州)环境科技有限公司