CN209092988U - Multistorey strainer mesh gas cleaning plant - Google Patents

Abstract

This technology belongs to field of gas purification, in particulars relate to a kind of multistorey strainer mesh gas cleaning plant, the purification suitable for all flue dust, dust, pernicious gas, soot gas, dirty gas.The strainer composition bubble incised layer for adhering to aperture in parallel on keel surrounds a three-dimensional closed space with bubble incised layer, and referred to as bubble cuts chamber, and cutting in chamber in bubble has suction nozzle；Bubble cutting chamber and suction nozzle collectively constitute purifying filter element, and purifying filter element is placed in clean room, there is water in clean room, and purifying filter element impregnates in water；It can only be discharged from the aperture of strainer from the air that suction nozzle is come in；The air atmosphere bubble for entering bubble cutting chamber from suction nozzle, is cut into minute bubbles fine crushing by the aperture of strainer by force and enters in water, clean gas is then overflowed from water.The utility model simple structure, small power consumption, purification efficiency is high, can be used for factory, restaurant, family and any enclosed environment such as car and boat indoor air purification.

Description

Multistorey strainer mesh gas cleaning plant

Technical field:

This technology belongs to field of gas purification, in particulars relate to a kind of multistorey strainer mesh gas cleaning plant, is suitable for all The purification of flue dust, dust, pernicious gas, soot gas, dirty gas.

Background technique:

Currently, there are two main classes: the first kind: active purification class (no filter screen type) for dirty gas and fume purifying mode. Main operational principle: charging pollutants in air by corona discharge, traps charged particle using dust collect plant, reaches purification The purpose of air.Silver ion technology, anion technology, low-temperature plasma skill can be divided into according to the active sterilizing mechanisms of these products Art, photocatalyst technology and net cluster ion ion technology.This purification style is at high cost, is also unsuitable for the gas of excessive dirt.The Two classes: spray equipment washes dirty gas, but this mode can not sufficiently be divided due to dirty gas, so only The effect is relatively poor for change；Both the above purification style all haves the shortcomings that at high cost, structure is complicated, degree of purification is not high.

Summary of the invention

The present invention is designed aiming at existing gas purification technique drawback, due to using strainer as bubble cutter Tool, air drag substantially reduces, thus efficiency is greatly enhanced.With keel and strainer composition closed space and it is immersed in water In, air is blown into from suction nozzle, so that air atmosphere bubble is cut into micro-bubble repeatedly by force by strainer aperture, reaches gas Body purifies purpose.

It realizes the technical solution used in the present invention is: adhering to the strainer composition bubble cutting of aperture in parallel on keel Layer surrounds a three-dimensional closed space with bubble incised layer, and referred to as bubble cuts chamber, all solids greater than sieve meshes aperture Grain all can't pass, and cutting in chamber in bubble has suction nozzle；Bubble cutting chamber and suction nozzle collectively constitute purifying filter element, purifying filter element It is placed in clean room, there is water in clean room, purifying filter element impregnates in water；The air come in from suction nozzle can only be from strainer It is discharged in aperture；The air atmosphere bubble for entering bubble cutting chamber from suction nozzle, is cut into fine crushing small by force by the aperture of strainer Bubble enters in water, and clean gas is then overflowed from water.

Detailed description of the invention:

This technology is further illustrated with reference to the accompanying drawing.

Fig. 1 is gas purification structure section schematic illustration.

Fig. 2 is the schematic diagram of involute-type bubble cutting chamber.

Fig. 3 is the schematic illustration that isolating bar is arranged in involute-type bubble cutting chamber between layers.

Fig. 4 is isolating bar schematic diagram.

Fig. 5 is the floor map for the flabellum that bubble cuts intracavitary setting rotation.

Fig. 6 is the keel stereoscopic schematic diagram of bubble cutting chamber.

Fig. 7 is the stereoscopic schematic diagram of bubble cutting chamber.

Fig. 8 is macropore rack composition bubble incised layer schematic diagram.

Fig. 9 is the bubble cutting chamber schematic illustration of multi-layer bubbles cutting chamber composition.

Figure 10 is the schematic illustration that bubble cutting chamber is collectively constituted by ventilative face and airtight face.In figure, 1. keel, 2. Strainer, 3. bubble incised layers, 4. bubbles cut chamber, and 5. suction nozzles, 6. purifying filter elements, 7. clean rooms, 8. air pockets, 9. is stingy Bubble, the skeleton of 10. arbitrary shapes, 11. macropore racks, 12. airtight planar materials, 13. ventilative faces, 14. airtight faces, 15. There are the flabellum of rotation, 16. closed spaces, 17. gas outlets, 18. blowers, 19. involute-type bubbles cutting chamber, 20. isolating bars.

Specific embodiment:

This technology is further illustrated with reference to the accompanying drawing.

The strainer 2 for adhering to aperture in parallel on keel 1 forms bubble incised layer 3, surrounds a solid with bubble incised layer 3 Closed space, referred to as bubble cut chamber 4, and all solid particles greater than 2 mesh aperture of strainer all can't pass, and cut chamber 4 in bubble In have suction nozzle 5；Bubble cutting chamber 4 and suction nozzle 5 collectively constitute purifying filter element 6, and purifying filter element 6 is placed in clean room 7, There is water in clean room 7, purifying filter element 6 impregnates in water；The air come in from suction nozzle 5 can only be discharged from the aperture of strainer 2； From suction nozzle 5 enter bubble cutting chamber 4 air atmosphere bubble 8, by the aperture of strainer 2 be cut by force minute bubbles 9 fine crushing into Enter in water, clean gas is then overflowed from water.

Bubble cuts the combination that chamber 4 is two layers or more, and the bubble cutting chamber 4 of outer layer and the bubble of internal layer cut 4 base of chamber This parallel, spaced-apart certain distance, every layer of bubble cutting chamber 4 are all combined into closed space, and small bubble cutting chamber 4 is enclosed in greatly Bubble cutting chamber 4 in.

Bubble is cut chamber 4 and is wound into multi layer approximation concentric circles in the form of involute around axial by bubble incised layer 3, is steeped Incised layer 3 it is spaced apart between layers, with axially vertical cross section be the involute based on the center of circle, referred to as gradually The type that bursts at the seams bubble cuts chamber 19；It is provided with isolating bar 20 between layers what bubble incised layer 3 was wound, isolating bar 20 is impermeable Gas, isolating bar 20 is longitudinal axial parallel with involute-type bubble cutting chamber 19, is close to bubble cutting inside and outside isolating bar respectively Inside and outside 3 winding of layer, the gas in involute-type bubble cutting chamber 19 is stopped to do round circumferential movement, forced gas is from bubble Incised layer 3 passes through.

The keel 1 of bubble incised layer 3 are the skeleton 10 of arbitrary shape, and the strainer 2 of the keel 1 and attachment thereon constitutes vertical Body closed space.

The keel 2 of bubble incised layer 3 are the three-dimensional closed space being made of the macropore rack 11 of some strength, and strainer 2 wraps 11 outside of macropore rack is overlayed on, three-dimensional closed space is formed.

Bubble incised layer 3 is to be together to form a bubble by strainer 2 and airtight planar materials 12 to cut chamber 4, the gas The airtight face 14 that bubble cutting chamber 4 is made of the ventilative face 13 of strainer and gas impermeable material.

The flabellum 15 of rotation is provided in bubble cutting chamber 4, the water agitation in clean room 7 is done circle by the flabellum 15 of rotation Circumferential flow.

Clean room 7 is closed space 16, there is gas outlet 17 above clean room, and gas outlet 17 is given a dinner for a visitor from afar machine 18, and blower 18 will be net Change indoor suction to be sucked out at subnormal ambient, and the clean gas in clean room 7.

In Fig. 1, the strainer 2 for adhering to aperture in parallel on keel 1 forms bubble incised layer 3, surrounds one with bubble incised layer 3 A solid closed space, referred to as bubble cut chamber 4, and all solid particles greater than 2 mesh aperture of strainer all can't pass, cut in bubble Cutting has suction nozzle 5 in chamber 4；Bubble cutting chamber 4 and suction nozzle 5 collectively constitute purifying filter element 6, and purifying filter element 6 is placed on clean room In 7, there is water in clean room 7, purifying filter element 6 impregnates in water；The air come in from suction nozzle 5 can only be from the aperture of strainer 2 Discharge；The air atmosphere bubble 8 for entering bubble cutting chamber 4 from suction nozzle 5, is cut into fine crushing stingy by force by the aperture of strainer 2 Bubble 9 enters in water, and clean gas is then overflowed from water.The airtight face 14 that bottom is made of airtight planar materials 12；It is excellent The scheme of choosing is, upper and lower surface is all suitable for selecting with airtight face 14, and surrounding face is then suitable for ventilative face 13.In clean room There is a gas outlet 17 in side, and gas outlet 17 is given a dinner for a visitor from afar machine 18, and blower 18 will suction be at subnormal ambient in clean room, and in clean room 7 Clean gas be sucked out.

In Fig. 2, it is same around multi layer approximation is axially wound into the form of involute by bubble incised layer 3 that bubble cuts chamber 4 Heart circle, steeps the spaced apart between layers of incised layer 3, is gradually opening based on the center of circle with axially vertical cross section Line, referred to as involute-type bubble cut chamber 19.

In Fig. 3, involute-type bubble cutting chamber 19 in, bubble incised layer 3 wind be provided between layers every From item 20, isolating bar 20 is airtight, and isolating bar 20 is longitudinal axial parallel with involute-type bubble cutting chamber 19, two inside and outside isolating bar Side be close to respectively bubble incised layer 3 winding inside and outside, stop involute-type bubble cutting chamber 19 in gas do circumference to Movement, forced gas pass through from bubble incised layer 3.

Fig. 4 is the schematic diagram of isolating bar 20.The best plan of establishment of isolating bar 20 is to cut chamber 19 in involute-type bubble Each layer is arranged one, and each layer is made all to form closed space.

In Fig. 5, Fig. 5 is the floor map for the flabellum that bubble cuts intracavitary setting rotation.Rotary fan is most preferably arranged Close to the lower end of bubble cutting chamber 4, be conducive to the water in clean room 7 being stirred to rotation status.

In Fig. 6, Fig. 6 is the keel stereoscopic schematic diagram of bubble cutting chamber.

In Fig. 7, strainer 2 is coated on keel 1, i.e., referred to as bubble cuts chamber 4.

In Fig. 8, strainer 2 is attached on macropore rack 11, becomes bubble incised layer 3.

In Fig. 9, bubble cuts the combination that chamber 4 is two layers or more, and the bubble cutting chamber 4 and the bubble of internal layer of outer layer are cut It is substantially parallel and spaced apart to cut chamber 4, every layer of bubble cutting chamber 4 is all combined into closed space, and small bubble cuts 4 quilt of chamber It covers in big bubble cutting chamber 4.

In Figure 10, bubble incised layer 3 is to be together to form a bubble by strainer 2 and airtight planar materials 12 to cut chamber 4, the airtight face 14 that bubble cutting chamber 4 is made of the ventilative face 13 of strainer and gas impermeable material.

It should be noted that the strainer 2 is the abbreviation of the poroid material of plane net, including all breathable plane mesh Shape material.

Claims (8)

1. a kind of multistorey strainer mesh gas cleaning plant, which is characterized in that adhere to strainer (2) group of aperture in parallel on keel (1) At bubble incised layer (3), a three-dimensional closed space is surrounded with bubble incised layer (3), referred to as bubble cutting chamber (4) is all to be greater than The solid particle of strainer (2) mesh aperture all can't pass, and in bubble cutting, chamber (4) are inner suction nozzle (5)；Bubble cuts chamber (4) It being collectively constituted purifying filter element (6) with suction nozzle (5), purifying filter element (6) is placed in clean room (7), there is water in clean room (7), Purifying filter element (6) impregnates in water；The air come in from suction nozzle (5) can only be discharged from the aperture of strainer (2)；From suction nozzle (5) air atmosphere for entering bubble cutting chamber (4) steeps (8), is cut into minute bubbles fine crushing (9) by force by the aperture of strainer (2) Into in water, clean gas is then overflowed from water.

2. multistorey strainer mesh gas cleaning plant according to claim 1, which is characterized in that bubble cutting chamber (4) is two Layer or more combination, bubble cutting chamber (4) of bubble cutting chamber (4) and internal layer of outer layer is substantially parallel and one spacing of interval From every layer of bubble cutting chamber (4) is all combined into closed space, and small bubble cutting chamber (4) is enclosed in big bubble cutting chamber (4) In.

3. multistorey strainer mesh gas cleaning plant according to claim 1 or claim 2, which is characterized in that bubble cutting chamber (4) by Bubble incised layer (3) is wound into multi layer approximation concentric circles around axial in the form of involute, steep incised layer (3) layer and layer it Between it is spaced apart, with axially vertical cross section be the involute based on the center of circle, referred to as involute-type bubble cut chamber (19)；In being provided between layers isolating bar (20) for bubble incised layer (3) winding, isolating bar (20) is airtight, isolating bar (20) longitudinal axial parallel with involute-type bubble cutting chamber (19), it is close to bubble incised layer (3) inside and outside isolating bar respectively Inside and outside winding, the gas in involute-type bubble cutting chamber (19) is stopped to do round circumferential movement, forced gas is from bubble Incised layer (3) passes through.

4. multistorey strainer mesh gas cleaning plant according to claim 1, which is characterized in that the dragon of the bubble incised layer (3) Bone (1) is the skeleton (10) of arbitrary shape, and the strainer (2) of the keel (1) and attachment thereon constitutes three-dimensional closed space.

5. multistorey strainer mesh gas cleaning plant according to claim 1, which is characterized in that the dragon of the bubble incised layer (3) Bone (1) is the three-dimensional closed space being made of the macropore rack (11) of some strength, and strainer (2) is coated on macropore rack (11) outside Side forms three-dimensional closed space.

6. multistorey strainer mesh gas cleaning plant according to claim 1, which is characterized in that the bubble incised layer (3) is served as reasons Strainer (2) and airtight planar materials (12) are together to form bubble cutting chamber (4), and bubble cutting chamber (4) has strainer Ventilative face (13) and gas impermeable material composition airtight face (14).

7. multistorey strainer mesh gas cleaning plant according to claim 1, which is characterized in that set in bubble cutting chamber (4) It is equipped with the flabellum (15) of rotation, the water agitation in clean room (7) is done round circumferential flow by the flabellum (15) of rotation.

8. multistorey strainer mesh gas cleaning plant according to claim 1, which is characterized in that the clean room (7) is that closure is empty Between (16), have gas outlet (17) above clean room, gas outlet (17) give a dinner for a visitor from afar machine (18), blower (18) will in clean room suction at negative Pressure ring border, and the clean gas in clean room (7) is sucked out.