FI61815C - ELECTRIC FILTER - Google Patents

Description

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JSj »LJ 11 UTLÄGC NIN GSSKRI FT Olölb c ciy ^ nnctfcy 11 10 1932 ** $ · '* & Patent neödelat ^ ^ (51) Kv.ik.1 / int.ci.1 B 03 C 3/53 // B 03 C 3/60 § ^ JQ | d | | p | Q (21) P «t * nttlh» k »mu * - P» t «ntin» öknlng 8022 ^ + 5 (22) Hakamltpllvi - Amttknlngtdag 15.07.80 ^ ^ (23) Alku pilvi — GlMghtttdag 15.07.80 (41) Become public - Bllvlt offantllg l6.01.82

Patent and Registration Office .... .....

'(44) Date of dispatch and date of issue .—

Patent- oeh registerstyrelsen Ansakin utlagd oeh utl.skriften publicerad 30.06.82 (32) (33) (31) Privilege requested— Begird priorltet (7-1) Arvi Artama, Laukontori h C 30, 33200 Tampere 20, Finland-Finland (FI ) (72) Arvi Artama, Tampere, Uuno Nurmi, Helsinki, Finland-Finland (FI) (TM Tampere Patent Office (5 ^) Electrostatic precipitator - Elektriskt filter

The invention relates to the so-called an electrostatic precipitator for separating small solid particles from air or other gas by means of an electrostatic method known per se and of a type as defined in the preamble of claim 1.

In known electrostatic precipitators, particles adhered to the collection plates are either dropped on the bottom of the filter at certain intervals by shaking the collection plates or rinsed down with water. Based on the filter, they are then removed. However, there are some drawbacks to these functions. Some particles may stick to the dry electrode so tightly that intermittent shaking or rinsing will not be able to clean the electrodes. In this case, the operation of the filter must be interrupted and special cleanings must be carried out. Other particles, e.g., quartz dust and carbon dust, may bounce off the dry collection electrode when they change their original electrical charge to the collection charge of the collection electrode. Continuous rinsing of the collection electrode has not been possible due to the fact that with reasonable use of water, the entire electrode has not been covered with water. In this case, 2 61815 particles have been deposited on the dry parts of the electrode.

The object of the present invention is to provide an electrostatic precipitator in which the above-mentioned drawbacks have been eliminated. In this case, the collection plates in the filter are constantly rinsed completely with relatively low water consumption, which is why all types of '! solid particles over the entire electrode area adhere to the flowing water film and exit with it from the electric field. The invention is characterized in that the collecting plates in the electrostatic field receiving the impurity particles are made of glass or a similar material which is wetted by water. In this case, the rinsing water is effectively spread on the surface of the plate and completely cover it even in a thin layer. The electrode is thus a water film, because glass does not conduct electricity. Because the rinsing is arranged continuously, the dust particles cannot come into contact with the surface of the plate, but stick to the water film and are immediately rinsed out of the electric field. Thus, the plates remain completely clean and no separate cleaning measures are required. At the same time, the risk of fire is eliminated, which may occur in conditions where the dust generated is flammable, such as in the wood processing industry, mills, etc.

The invention is described in more detail in the following description, in which a suitable embodiment of the invention and details and advantages of the invention are shown with reference to the drawing.

In the accompanying drawing, Fig. 1 schematically shows an electrostatic precipitator according to the invention seen from the side, partly in section, Fig. 2 schematically shows an electrostatic precipitator in a horizontal section A - A in Fig. 1. Figure 4 shows a fragmentary view of the electrodes of the electrostatic precipitator of the electrostatic precipitator.

The electrostatic precipitator shown in Figures 1-4 comprises a body housing 1, which may be made of, for example, a suitable plastic grade or sheet metal. It should be noted that there are certain insulation problems with metal scrap. The plastic body is lighter in that respect, but is likely to be advantageous only in the case of small filters.

At one end of the housing there is an air inlet 2 to be cleaned and at the opposite end there is an outlet 3 for purified air. · In connection with the air outlet there is an electric fan 4 which sucks air through the filter through the inlet 2. The fan can also be located in connection with the air inlet, in which case it blows air through the filter. The housing also has an openable cover 5> through which the electrical equipment and other parts inside the housing can be serviced. At the bottom of the housing there is still a basin 6 into which the filter rinsing water drains.

The electrostatic precipitator according to the invention is the first ionization device near the air inlet of the housing, which ionizes the air to be filtered in a manner known per se. The device has a group of positive ionization electrodes of a structure known per se, which is attached to a rectangular support frame 7 at the ends 8 of the supports 8 at the upper and lower positions of the frame. The electrodes 9 are a thin metal wire, e.g. a copper wire. The second electrode group of the ionization device is formed by an array of negative counter electrodes 10 attached to the second frame 11 in a vertical row between its upper and lower beams at regular intervals. These electrodes 10 are substantially thicker in cross-section, made, for example, of stainless steel wire wound in the form of a coil spring (Figure 4). (Figures 2 and 4) · In the structure of the electrodes according to the invention, it is further special that said thicker electrodes 10 are leached by a continuous flow of water, so that any charged dust particles which may collide with them do not stick to them but are leached out. This keeps the electrodes clean and the ion ringing device works properly. For rinsing, the upper beam of the electrode support frame 11 has a water chute or pipe 12, in the bottom holes of which (not shown) the electrodes are mounted so that water can flow down through the holes to the electrodes.

Instead of coil spring-shaped electrodes, it is also possible to use a metal braid, chain or wire of corresponding thickness.

From the above-mentioned ionization device, the air flow enters the electrostatic field of the filter, which is formed by a number of parallel plate-like electrodes 13, 14 arranged in a vertical position in the direction of air flow. Of these, every other plate 13 is connected to the positive terminal and The solid particles positively charged by the ion sonication device are transferred to the negative collection electrodes 14 ·

According to the invention, said negative collecting plates 14 are made of glass or the like. In addition, according to the invention, they are provided with a continuous water rinse.

The collecting plates 14 receive water from tubes near the upper edge of the plates, in the direction of the edges. The water thus spreads as a thin, flat film on the surface of the glass plate 5 61815, leaving no dry, non-rinsing spots which would impair the filter's cleaning ability.

The positive electrodes 13, on the other hand, can be made of stainless steel, for example, and do not need to be flushed, because dust particles only accumulate on the collecting plates J4- In practice metallic or contain an electrically conductive member through which electricity enters the rinsing water. The positive terminal of the voltage source is connected to the positive ionization electrodes of the ionizing device 1. as well as to the positive plate electrodes of the plates forming the electrostatic field 13 ·

If the water used is not sufficiently electrically conductive, as is sometimes possible, the electrical conductivity of the water can be improved by adding some suitable salt.

The rinsing water can be discharged directly into the sewer with the accumulated impurities. It can also be arranged in a closed circuit, whereby dust is separated from the water using a suitable filter.

The components of the device, such as the electrode arrays of the ionizer, as well as the electrodes of the electrostatic field, etc., can be arranged to be easily removed and replaced for easy maintenance.

Embodiments of the invention may vary within the scope of the claims.

Claims (4)

61815 6 Patents for suction: An electrostatic precipitator having a chamber or housing (1) through which the air or other gas to be cleaned is passed by a blower, an ionisation device1 for the gas to be cleaned, comprising one or more ionization electrodes (9) with counter electrodes (10) and positive and negative electrodes ( 13, 14) in which the impurity particles in the air or other gas charged by the ionizing device, which are charged to the collecting electrodes (14) at least partially on the glass or the like, tend to travel, characterized in that the collecting electrode (14) acts as a glass plate or a water film continuously flowing along a plate made of a glass-like material, in which case even dry and solid particles in the gas to be cleaned, such as quartz and coal dust, travel with the water film. Electrostatic precipitator according to Claim 1, characterized in that water-conducting means (15) are arranged parallel to the upper edges of the fixed plates of the electrodes (14) for directing the water flow to the plates, e.g. An electrostatic precipitator according to claims 1-2, characterized in that said water pipes (15) and the counter electrodes (10) of the ionization device are both connected to the same terminal of the voltage source. Electrostatic precipitator according to Claims 1 to 3, characterized in that water is continuously drained along the ionizing counterpart (1) in order to keep the electrodes clean.