Disclosed herein is a charging apparatus and precipitator. The charging apparatus includes a plurality of counter electrodes formed in a plate shape and arranged in a direction intersecting with a ventilation direction to allow respective surfaces thereof to follow the ventilation direction, and a plurality of high voltage electrodes formed in a wire shape and installed between the plurality of counter electrodes. The plurality of counter electrodes includes a first counter electrode having a first electrode area, and a second counter electrode having a second electrode area less than the first electrode area. The first counter electrode and the second counter electrode are alternately arranged.

In a charging time period T1, a dry electrostatic precipitator outputs DCON that is a current for charging a collection target object from a high voltage power supply. Subsequently, in a second period of time T2-2 after a first period of time T2-1 passes from a time that a charging pause time period T2 starts, the dry electrostatic precipitator outputs DCBC that is a current that is less than DCON and is greater than a current in the first period of time T2-1, from the high voltage power supply.

An electronic apparatus capable of air pollution reduction includes an operating tool and an airflow device. The airflow device is located adjacent to the operating tool, and has a shell with one or more opening holes distributed thereon for air to flow in or out.

The present invention relates to an electrostatic precipitator (ESP) system (1) for removal of particles from a flue gas flowing in a flow passage (4) being delimited by a primary collection in the form of a collection plate (5). The system comprises a discharge electrode (11) arranged in the flow passage and connected to a high voltage generator (12) providing for an electric field around the discharge electrode. The system further has a secondary collection electrode in the form of a grid (101) arranged within the collection plate and made of an electrically conductive material. The presence of such a grid improves the efficiency of the precipitator. In some embodiments, the ESP system comprises an actuator (112) for moving the grid upwards and letting it drop onto an internal bottom structure (109). The movement between the collection plate and the grid as well as the impact force imparted to the dropping grid both result in a removal of collected particles.

An electrostatic air filter connected to a high voltage source, comprising an air flow channel (1) having an inlet and an outlet, in which at the side of the air inlet there is an ion generator (2) comprising at least one corona electrode (3) and at least one cumulative electrode (4), both the corona electrodes (3) and the cumulative electrodes (4) being electrically connected to each other, while the cumulative electrodes (4) are insulated from the corona electrodes (3), so that corona discharges may occur between the corona electrodes (3) and the cumulative electrodes (4) due to a potential difference (U1), causing the ionisation of contaminant particles present in the air flowing through the channel (1), characterised in that behind the ion generator (2) in the air flow channel (1) there is a separator of contaminant particles (6) comprising an input electrode (7) and an output electrode (8) spaced apart from it, both these electrodes enabling the flow of air through them in a direction away from the input electrode (7) to the output electrode (8) and further to the channel outlet (1), while during the work of the filter between the corona electrodes (3) and the input electrode (7) there is a potential difference (U2) and between the input electrode (7) and the output electrode (8) there is a potential difference (U3), so that the electric field strength in the space (9) between the input electrode (7) and the output electrode (8) is directed opposite to the electric field strength in the space (15) between the ion generator (2) and the input electrode (7).

An air cleaning device for removing aerosol particles from an air stream comprising: a particle charger comprising a housing and an electrode arrangement therein for generating air ions in the air stream, the particle charger having a particle charging zone within which, in use, aerosol particles in the air stream are electrically charged via collision with the air ions; a filter for precipitating electrically charged aerosol particles from the air stream moving through the device; and an air mover, comprising a casing, for moving the air stream through the device; wherein the particle charger and the air mover are provided upstream of the filter; and wherein the housing of the particle charger is hermetically sealed to the casing of the air mover in the direction of air flow through the device, such that the particle charger and the air mover are intimately coupled together, whereby all air entering the device has to pass through both the particle charger and the air mover.

In an air conditioner, an upper heat exchanger and a lower heat exchanger exchange heat between air and a refrigerant. An air cleaner includes a charging unit for charging particles in the air and a dust collecting unit for collecting the particles charged by the charging unit by an electrostatic force. An indoor unit body houses the upper heat exchanger and the lower heat exchanger and houses the air cleaner of which the center position in the height direction is positioned lower than a connection part between the upper heat exchanger and the lower heat exchanger.

The present invention discloses a cylindrical IFD filter, comprising a dust collecting module and a field power module interval arranged inside the channel of the dust collecting module, a plurality of field power module units are symmetrically and vertically spaced arranged on the side wall of the field power module; a plurality of layers of the dust collecting module channels which are stacked vertically are pass-through arranged on the dust collecting module, and each barrier wall between the vertical adjacent dust collecting module channels is alternately disposed as a pair of positive plate and negative plate, each barrier wall between the vertical adjacent dust collecting module channels comprises polar plate electrode and a polar plate coating coated on the upper and bottom walls of the polar plate electrode; and each barrier wall between the lateral adjacent dust collecting module channels adopts same coating material as the polar plate coating. The present invention has the advantages of having larger particulate contaminant charge and higher filtering efficiency.

An electrostatic precipitator assembly (100), the assembly including an electrostatic charging mechanism (106) for inducing a first charge to particulate material being carried in a gas flowing past the electrostatic charging mechanism (106). A chamber being provided downstream of the electrostatic charging material, which includes an electrode or electrodes (103) which are grounded or can have an opposite charge to the first charge applied thereto, such that the charged particulate material is attracted to and collects on the electrode or electrodes ((103). A further separator is provided downstream of the electrode or electrodes (103), the further separator including an electronically chargeable permeable member (114) through which the gas flows in use, with the permeable member (114) in use having the same charge as the particulate material so as to repel the particulate material and substantially prevent the particulate material from passing therethrough.

The present invention discloses an electrostatic air cleaner, comprising an upper filter screen, an electrode a, a tungsten wire, a spring, a main body, an ionization generator, a lower filter screen, an electrode b and an electrode c. The main body is a hollow structure, and the upper end of the main body is buckled with the upper filer screen and the lower end of the main body is buckled with a lower filter screen. A tungsten wire fixed at the upper end of the main body is provided at the inner side of the upper filter screen and the both ends of the tungsten wire are respectively connected with a spring, and the tungsten wire is tensioned by the spring to prevent sagging or deformation, wherein one spring is hitched on the electrode a, the electrode a is fixed on the upper end of the main body, and the main body is provided with an ionization generator. The ionization generator is disposed on the lower side of the tungsten wire and connected to the tungsten wire; the lower end of the main body is further provided with an electrode b and an electrode c arranged side by side. The electrode b and electrode c are connected to the ionization generator and disposed at the upper side of the lower filter screen. Its structure is simple and scientific, convenient to use, without consumables and replacing parts, with low cost and energy saving, good cleaning effect. Therefore, the invention can meet the market demands and it is worthy of promotion in the markets.