CN205587145U - High frequency wet -type blue light dust remover - Google Patents

Abstract

The utility model discloses a high frequency wet -type blue light dust remover, including dust removal case and fairing, the dust removal case is the cavity box, including gas outlet and collection dirt hopper, dust removal incasement side is equipped with alkali vapor spray tube and blue light dust removal unit, and blue light dust removal unit is located the gas outlet below, and the alkali vapor spray tube is located blue light dust removal unit below, and the air intake is connected to whirl rectifier one end, and the rectifier of the other end for stretching into dust removal incasement side, rectifier are located alkali vapor spray tube below and collection dirt above the hopper, blue light dust removal unit includes cellular electric field pipe and electrode, the weight body is connected through insulator connection resonance frame, lower extreme in the discharge electrode upper end, cellular electric field pipe is fixed in dust removal case box through the metal holder in, the discharge electrode negative pole of connecting. The utility model discloses simple structure easily realizes. Overcome the potential safety hazard that the insulator produced the spark, improved dust particle's the effect of cleaing away, effectively eliminated the poisonous and harmful compositions such as dioxin in the tail gas.

Description

High frequency wet type blue light dust collector

Technical field

This utility model relates to technical field of waste treatment, relates in particular to a kind of high frequency wet type blue light dust collector.

Background technology

Along with the progress of technology, electrostatic precipitator is gradually applied in the processing link to garbage disposal tail gas.Electrostatic precipitator is to utilize discharge electrode electric discharge to produce plasma so that the dust particale load electric charge in garbage disposal tail gas, the garbage disposal exhaust particulate of load electric charge sticks to drop on colelctor electrode and from colelctor electrode under electrostatic attraction effect.And effectively the dust particale being mingled in garbage disposal tail gas is separated.Meanwhile, the discharge effect of discharge electrode can effectively open the phenyl ring of the compositions such as two English in garbage disposal tail gas, stops toxic and harmful and flows in air.But, there are so some problems in traditional electrostatic precipitator: in order to avoid electric field short circuit, one end of discharge electrode is provided with insulator.And insulator easily adsorbs attached charged dust, causing the macromolecule organic principle such as tar in garbage disposal tail gas to be attached to the surface of insulator, these organic principles easily produce spark because of discharge electrode electric discharge, cause potential safety hazard.And rely on merely the work of electrostatic precipitator, the remove rubbish PM2.5 microparticle that process in tail gas can not be completely secured.It addition, traditional electrostatic precipitator uses rustless steel as collector material, belonging to directly electric discharge, power consumption is relatively big, and the most easily produces spark.How overcoming the problems referred to above is the problem that those skilled in the art need thinking.

Utility model content

For solving the problems referred to above, this utility model provides a kind of high frequency wet type blue light dust collector.

Concrete technical scheme of the present utility model is as follows:

A kind of high frequency wet type blue light dust collector, including dust cleaning case and fairing；Described dust cleaning case is hollow box body, and its top is provided with gas outlet, and bottom is provided with dust hopper；Alkali mist spray pipe and blue light dust removing units it is provided with inside described dust cleaning case, described blue light dust removing units is positioned at the underface of gas outlet, described alkali mist spray pipe is positioned at the underface of described blue light dust removing units, described fairing one end is to stretch out the eddy flow commutator air inlet outside dust cleaning case casing, the other end is to stretch into the commutator inside dust cleaning case, and described eddy flow commutator is positioned at underface and the surface of dust hopper of alkali mist spray pipe；Described blue light dust removing units includes multiple cellular field tube and lays respectively at the discharge electrode at each cellular field tube center；Described each discharge electrode upper end is commonly connected to resonance frame, lower end by insulator and connects weight body respectively；Described cellular field tube is fixed in dust cleaning case casing by metal cage, and described discharge electrode connects power cathode.

By using this technical scheme: pending garbage disposal tail gas is entered by air inlet, uniformly enters dust cleaning case box house after eddy flow rectifier rectification.Meanwhile, alkali mist spray pipe starts to spray alkali mist in dust cleaning case casing, and this alkali spray film and the acidic materials component generation acid-base neutralization in garbage disposal tail gas react, formed the water of saliferous, and continue to be moved into upward in cellular field tube under hot-air drives.Power supply is energized, discharge electrode is made to start electric discharge, the hydrone in garbage disposal tail gas is made to generate electron ion, make the upper electric charge of dust granules attachment in garbage disposal tail gas, these are enclosed the dust granules of electric charge and pile up at the cellular field of points tube-surface as colelctor electrode under the effect of electrostatic attraction, and freely falling body under gravity, drop in dust hopper.Other harmless gas componants then continue to rise through blue light dust removing units, finally derive dust cleaning case casing from gas outlet.During, resonance frame produces dither under high-frequency discharge pole drives, and prevents charged dust granules to be adsorbed onto insulator surface.Thus, prevent the organic molecules such as the tar in garbage disposal tail gas to be attached to the surface of insulator, improve the safety during whole electrostatic precipitation.

Preferably, above-mentioned high frequency wet type blue light dust collector also includes metal sponge plate, being evenly distributed with microgap mesh on described metal sponge plate, described metal sponge plate is fixed in the casing of dust cleaning case, is positioned at the underface of the blue light dust removing units of the surface sum of eddy flow commutator；Described alkali mist spray pipe just upper surface to described sponge plate.

By using this technical scheme: enter in blue light dust removing units after from eddy flow commutator, the garbage disposal tail gas of output is mixed by the further rectification of metal sponge plate, simultaneously, the fogged lye of alkali mist spray pipe injection mixes with garbage disposal tail gas in metal sponge plate, makes part PM2.5 dust granules and water molecules, volume in garbage disposal tail gas become much larger thus is filtered without entering in blue light dust removing units by sponge plate one step ahead.Decrease the pressure of blue light dust removing units separation dust granules, overcome and conventional art purely relies on electrostatic precipitator carry out gas dirt shunting, cause the problem that dedusting is the cleanest.

It is further preferred that above-mentioned high frequency wet type blue light dust collector: described cellular field tube uses boron glass quartz ampoule.By this scheme: relative to the prior art of use stainless steel tube, boron glass quartz ampoule belongs to dielectric barrier discharge, has preferable insulating properties, there is not colelctor electrode and produce pyrophoric problem.It may further be preferable that in above-mentioned high frequency wet type blue light dust collector: scribble photocatalysis layer on described cellular field tube inwall.Form photocatalyst under uv irradiation and flue gas is made further purified treatment.

It is even furthermore preferable that in above-mentioned high frequency wet type blue light dust collector: the axial distribution of described discharge electrode has uniform serrate projections.In this way: constituted point discharge effect with the serrate projections on discharge electrode surface and realize electric discharge formation plasma.

The most preferably, in above-mentioned high frequency wet type blue light dust collector: described dust hopper includes rotary valve and negative pressure deashing carrier；Described rotary valve one end towards the lower surface of described sponge plate, the other end is towards described negative pressure deashing carrier.

By using this technical scheme: control dust hopper by rotary valve and dust cleaning case casing outside is Turned on/off.When rotary valve is opened, negative pressure deashing carrier is for cleaning out dust cleaning case by the dust in dust hopper.

Compared with prior art, this utility model simple in construction, it is easy to accomplish.Overcome insulator in discharge electrode discharge process and produce pyrophoric potential safety hazard, improve the elimination effect of dust granules in garbage disposal tail gas, effectively eliminate the poisonous and harmful element in tail gas.

Accompanying drawing explanation

Fig. 1 is the structural representation of this utility model embodiment 1.

In above-mentioned accompanying drawing, each parts are as follows with the corresponding relation of reference:

1, dust cleaning case；2, fairing；3, gas outlet；4, dust hopper；5, alkali mist spray pipe；6, blue light dust removing units；7, metal sponge plate；21, air inlet；22, eddy flow commutator；41, rotary valve；42, negative pressure deashing carrier；61, cellular field tube；62, discharge electrode；63, insulator；64, resonance frame；65, weight body；66, metal cage.

Detailed description of the invention

In order to be illustrated more clearly that the technical solution of the utility model, below in conjunction with accompanying drawing, this utility model is further described.

This utility model embodiment 1 as shown in Figure 1:

A kind of high frequency wet type blue light dust collector, including dust cleaning case 1, fairing 2；Described dust cleaning case 1 is hollow box body, and its top is provided with gas outlet 3, and bottom is provided with dust hopper 4.Wherein, described dust hopper 4 includes rotary valve 41 and negative pressure deashing carrier 42；Described rotary valve 41 one end towards the lower surface of described metal sponge plate 7, the other end is towards described negative pressure deashing carrier 42.Alkali mist spray pipe 5, blue light dust removing units 6 and metal sponge plate 7 it is provided with inside described dust cleaning case 1.Described blue light dust removing units 6 is positioned at the underface of gas outlet 3, described alkali mist spray pipe 5 is positioned at the underface of described blue light dust removing units 6, described fairing 2 one end is to stretch out the eddy flow air inlet 21 outside dust cleaning case 1 casing, the other end is to stretch into the commutator 22 inside dust cleaning case 1, and described eddy flow commutator 22 is positioned at the surface of dust hopper 4；Being evenly distributed with microgap mesh on described metal sponge plate 7, described sponge plate 7 is positioned at surface and the underface of blue light dust removing units 6 of eddy flow commutator 22；The mouth of pipe of described alkali mist spray pipe 5 just upper surface to described sponge plate 7.Described blue light photocatalyst dust removing units 6 includes multiple cellular field tube 61 and lays respectively at the discharge electrode 62 at each cellular field tube 61 center；Described each discharge electrode 62 upper end is commonly connected to resonance frame 64, lower end by insulator 63 and connects weight body 65 respectively；Described cellular field tube 61 is fixed in dust cleaning case 1 casing by metal cage 66, and described discharge electrode 62 connects power cathode.Described cellular field tube 61 uses boron glass quartz ampoule.Photocatalysis layer is scribbled on described cellular field tube 61 inwall.The axial distribution of described discharge electrode 62 has uniform serrate projections.

In practice: first pending garbage disposal tail gas entered by air inlet 21, the box inside of dust cleaning case 1 is uniformly entered after eddy flow commutator 22 rectification, these garbage disposal tail gas move upward, in the microgap mesh arrive metal sponge plate 7, entering on sponge plate 7.Meanwhile, alkali mist spray pipe 5 starts to spray alkali spray film, and this fogged lye mixes with garbage disposal tail gas in metal sponge plate 7, with the water that the acidic materials component generation acid-base neutralization in garbage disposal tail gas reacts, formed saliferous.Simultaneously, in garbage disposal tail gas, part PM2.5 dust granules and water molecules, volume become much larger thus one step ahead by 7 lattice gear filtrations of sponge plate, and other compositions in garbage disposal tail gas continue to be moved into upward in cellular field tube 61 under hot-air drives.Power supply is energized, and discharge electrode 62 discharges so that the hydrone in garbage disposal tail gas generates electron ion, makes the upper electric charge of dust granules attachment in garbage disposal tail gas.Simultaneously so that the phenyl ring of the toxic and harmfuls such as two English contained in garbage disposal tail gas is opened and split into innocuous gas.And these enclose the dust granules of electric charge under the effect of electrostatic attraction at cellular field of points pipe 61 surface sediment as colelctor electrode, and freely falling body under gravity, first dropping on sponge plate 7, the alkali mist in alkali mist spray pipe 5 ejection drops in dust hopper 4 under washing away subsequently.After having piled up a number of dust particale in dust hopper 4, rotary valve 41 is opened, and the dust in dust hopper 4 is cleaned out dust cleaning case 1 by negative pressure deashing carrier 42.Other harmless gas componants then continue to rise through blue light photocatalyst dust removing units 6, finally derive dust cleaning case casing from gas outlet.During, resonance frame 64 dither under each discharge electrode 62 drives, prevent charged dust granules to be adsorbed onto insulator 63 surface.Thus, prevent the organic molecules such as the tar in garbage disposal tail gas to be attached to insulator 63 surface, improve the safety during whole electrostatic precipitation.

The above; it is only specific embodiment of the utility model; but protection domain of the present utility model is not limited thereto; any those skilled in the art is in technical scope disclosed in this utility model; the change that can readily occur in or replacement, all should contain within protection domain of the present utility model.Protection domain of the present utility model is as the criterion with the protection domain of claims.

Claims (6)

1. a high frequency wet type blue light dust collector, it is characterised in that: include dust cleaning case (1) and fairing (2)；Described dust cleaning case (1) is hollow box body, and its top is provided with gas outlet (3), and bottom is provided with dust hopper (4)；Described dust cleaning case (1) inner side is provided with alkali mist spray pipe (5) and blue light dust removing units (6), described blue light dust removing units (6) is positioned at lower section, gas outlet (3), described alkali mist spray pipe (5) is positioned at described blue light dust removing units (6) lower section, described fairing (2) one end is to stretch out eddy flow commutator air inlet (21) outside dust cleaning case (1) casing, the other end is the commutator (22) stretching into dust cleaning case (1) box inside, and described eddy flow commutator (22) is positioned at alkali mist spray pipe (5) lower section and dust hopper (4) top；Described blue light dust removing units (6) includes multiple cellular field tube (61) and lays respectively at the discharge electrode (62) at each cellular field tube (61) center；Described each discharge electrode (62) upper end is commonly connected to resonance frame (64) by insulator (63), lower end connects weight body (65) respectively；Described cellular field tube (61) is fixed in dust cleaning case (1) casing by metal cage (66), and described discharge electrode (62) connects power cathode.

2. a kind of high frequency wet type blue light dust collector, it is characterized in that: also include metal sponge plate (7), being evenly distributed with microgap mesh on described metal sponge plate (7), the underface of the blue light dust removing units (6) of the surface sum of eddy flow commutator (22) is fixed in the casing of dust cleaning case (1), is positioned to described metal sponge plate (7)；Described alkali mist spray pipe (5) just upper surface to described metal sponge plate (7).

3. a kind of high frequency wet type blue light dust collector, it is characterised in that: described cellular field tube (61) uses boron glass quartz ampoule.

4. a kind of high frequency wet type blue light dust collector, it is characterised in that: scribble photocatalysis layer on described cellular field tube (61) inwall.

5. a kind of high frequency wet type blue light dust collector, it is characterised in that: the axial distribution of described discharge electrode (62) has uniform serrate projections.

6. a kind of high frequency wet type blue light dust collector, it is characterised in that: described dust hopper (4) includes rotary valve (41) and negative pressure deashing carrier (42)；Described rotary valve (41) one end towards the lower surface of described metal sponge plate (7), the other end is towards described negative pressure deashing carrier (42).