CN107456815A - Air-borne dust particle and floater filtering device capable of washing - Google Patents

Air-borne dust particle and floater filtering device capable of washing Download PDF

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Publication number
CN107456815A
CN107456815A CN201710916671.6A CN201710916671A CN107456815A CN 107456815 A CN107456815 A CN 107456815A CN 201710916671 A CN201710916671 A CN 201710916671A CN 107456815 A CN107456815 A CN 107456815A
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CN
China
Prior art keywords
panel
micro
porous resin
resin pipe
air
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CN201710916671.6A
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Chinese (zh)
Inventor
李新贵
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Individual
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Individual
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Priority to CN201710916671.6A priority Critical patent/CN107456815A/en
Publication of CN107456815A publication Critical patent/CN107456815A/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D46/00Filters or filtering processes specially modified for separating dispersed particles from gases or vapours
    • B01D46/24Particle separators, e.g. dust precipitators, using rigid hollow filter bodies
    • B01D46/2403Particle separators, e.g. dust precipitators, using rigid hollow filter bodies characterised by the physical shape or structure of the filtering element
    • B01D46/2411Filter cartridges
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D46/00Filters or filtering processes specially modified for separating dispersed particles from gases or vapours
    • B01D46/56Filters or filtering processes specially modified for separating dispersed particles from gases or vapours with multiple filtering elements, characterised by their mutual disposition
    • B01D46/58Filters or filtering processes specially modified for separating dispersed particles from gases or vapours with multiple filtering elements, characterised by their mutual disposition connected in parallel
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01DSEPARATION
    • B01D46/00Filters or filtering processes specially modified for separating dispersed particles from gases or vapours
    • B01D46/66Regeneration of the filtering material or filter elements inside the filter

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  • Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Physics & Mathematics (AREA)
  • Geometry (AREA)
  • Filtering Materials (AREA)
  • Filtering Of Dispersed Particles In Gases (AREA)

Abstract

Air-borne dust particle and floater filtering device capable of washing, it is characterized in that including the first top panel, first peripheral panel, first lower panel, the first fresh air inlet is provided with first lower panel, in the first top panel, first peripheral panel, longitudinally disposed first micro-porous resin pipe between first lower panel, the first filtering micropore is formed with the tube wall of first micro-porous resin pipe, there is the first ventilating duct in first micro-porous resin pipe, the lower end of first ventilating duct communicates with the first fresh air inlet, the upper end of first ventilating duct and the first top panel are in sealing contact, there is the first gap between each first micro-porous resin pipe, the first exhaust vent is formed with the first top panel, first exhaust vent communicates with the first gap.Because the first micro-porous resin pipe is made up of resin material, as long as being cleaned with water or high pressure gas to it, impurity will together be rushed out with flushing water or be blown out impurity by high pressure gas, be recycled and reuse, both economically and environmentally beneficial so as to the expense of saving.

Description

Air-borne dust particle and floater filtering device capable of washing
Technical field
The present invention relates to filter, more particularly to air-borne dust particle and floater filtering device capable of washing.
Background technology
With the continuous development of society, and the air pollution of the earth is increasingly deepened, and seriously endangers the health of people, people To air quality requirements also more and more higher.Therefore people are often with quality that purifies the air of a room such as purification of air gas device, new blower fans, The quality of room air is improved, has air dust granules and floater filtering device in air purifier, new blower fan.It is existing Effective filter is generally made up of materials such as chemical fibre, glass fibres, and this filter needs to regularly replace, if for a long time It is changed without, its clean-up effect will decline, or even cause secondary pollution;If periodic replacement, improving expense, increase economical negative Load;Once got wet, filter effect declines the fiber of other this filter, or even loses filter effect.
The content of the invention
The shortcomings that the invention aims to overcome prior art to exist, there is provided a kind of good filtration effect, cleaned with water Or high pressure air-blowing, it can be recycled, save expense, both economically and environmentally beneficial air-borne dust particle and floater filtering capable of washing Device.
First technical scheme of present invention air-borne dust particle capable of washing and floater filtering device is:It is characterized in that Including the first top panel, the first peripheral panel, the first lower panel, the first fresh air inlet is provided with the first lower panel, on first Longitudinally disposed first micro-porous resin pipe between plate, the first peripheral panel, the first lower panel, make on the tube wall of the first micro-porous resin pipe There is the first filtering micropore, there is the first ventilating duct in the first micro-porous resin pipe, the lower end of the first ventilating duct communicates with the first fresh air inlet, The upper end of first ventilating duct and the first top panel are in sealing contact, have the first gap between each first micro-porous resin pipe, first The first exhaust vent is formed with top panel, the first exhaust vent communicates with the first gap.
The invention discloses a kind of air-borne dust particle and floater filtering device capable of washing, when air cleaning facility is opened During beginning work, during air is from the first fresh air inlet of the first lower panel into mouth under the first ventilating duct of the first micro-porous resin pipe, by In the suitable for reading in sealing contact with the first top panel of the first micro-porous resin pipe, air can only be from tube wall after entering the first micro-porous resin pipe Upper the first tiny filtering micropore(First filtering micropore is microcosmic cotton-shaped hole, and micropore internal diameter can purify according to air quality will Ask, when producing micro-porous resin pipe, adjusted in production technology)Output, and enter in the first gap of the first micro-porous resin pipe, Because the aperture of the first filtering micropore is tiny, do not meet purification of air requirement air-borne dust and floating object to be blocked on this micro- Outside hole, meet the air that purification requires and be then delivered in the first gap of each first micro-porous resin pipe, on first First exhaust vent of panel is delivered to the filter screen of other removing air pernicious gases(Such as except formaldehyde, except CO2).Usage time is long , impurity is bonded in the first filtering micropore, easily causes the first filtering micropore to block, and reduces air-out rate, due to the One micro-porous resin pipe is made up of resin material, as long as so being cleaned with water or high pressure gas to it, impurity will be with flushing Water is rushed out or is blown out impurity by high pressure gas together, make its it is recyclable reuse, so as to the expense of saving, not only economy but also Environmental protection.
Present invention air-borne dust particle and floater filtering device capable of washing, first is formed with the first described top panel Upper locating ring, sets sealing gasket on first on first in locating ring, sealing gasket and the first micro-porous resin pipe is suitable for reading close on first Sealing-in is touched, and first time locating ring is formed with the first lower panel, sets the first lower seal in first time locating ring, close under first Seal and the lower mouth of the first micro-porous resin pipe are in sealing contact.Sealing gasket and the first micro-porous resin pipe on locating ring and first on first Suitable for reading contact, first time locating ring and the first lower seal is fully sealed and the lower mouth end face seal of the first micro-porous resin pipe connects Touch, prevent air to be directly entered from the first micro-porous resin pipe and gap of the first top panel or the first lower panel etc., and influence Filter effect.
Second technical scheme of present invention air-borne dust particle capable of washing and floater filtering device is:It is characterized in that Including the second top panel, the second peripheral panel, the second lower panel, the second exhaust vent is provided with the second top panel, on second Longitudinally disposed second micro-porous resin pipe between plate, the second peripheral panel, the second lower panel, make on the tube wall of the second micro-porous resin pipe There is the second filtering micropore, there is the second ventilating duct in the second micro-porous resin pipe, the upper end of the second ventilating duct communicates with the second exhaust vent, The lower end of second ventilating duct and the second lower panel are in sealing contact, have the second gap between each second micro-porous resin pipe, second The second fresh air inlet is formed with lower panel, the second fresh air inlet communicates with the second gap.
The invention discloses second air-borne dust particle and floater filtering device capable of washing, work as air cleaning facility During start-up operation, air is from the second gap that the second fresh air inlet of the second lower panel enters between each second micro-porous resin pipe In, suitable for reading in sealing contact with the second top panel due to the second micro-porous resin pipe, air enters between the second micro-porous resin pipe Behind second gap, the second filtering micropore that can only be tiny from tube wall(Second filtering micropore is microcosmic cotton-shaped hole, micropore internal diameter It can be purified and required according to air quality, when producing micro-porous resin pipe, adjusted in production technology)Output, and it is micro- to enter second In second ventilating duct of hole pitch tube, because the aperture of the second filtering micropore is tiny, the air powder of purification of air requirement is not met Dirt and floating object are blocked on outside the micropore, are met the air that purification requires and are then delivered in the second ventilating duct, finally by Second exhaust vent of the second top panel is delivered to the filter screen of other removing air pernicious gases(Such as except formaldehyde, except CO2).Use Over time, impurity is bonded in the second filtering micropore, easily causes the second filtering micropore to block, and reduces air-out rate, Because the second micro-porous resin pipe is made up of resin material, as long as so cleaned with water or high pressure gas to it, impurity will be with Flushing water to be rushed out or blow out impurity together by high pressure gas, make its it is recyclable reuse, so as to the expense of saving, both It is economical and environmentally friendly.
Present invention air-borne dust particle and floater filtering device capable of washing, second is formed with the second described top panel Upper locating ring, sets sealing ring on second on second in locating ring, sealing ring and the second micro-porous resin pipe is suitable for reading close on second Sealing-in is touched, and second time locating ring is formed with the second lower panel, sets the second lower seal pad in second time locating ring, close under second The lower mouth of packing and the second micro-porous resin pipe is in sealing contact.Sealing ring and the second micro-porous resin pipe on locating ring and second on second End part seal suitable for reading contact, and second time locating ring and the second lower seal pad and the lower mouth of the second micro-porous resin pipe are fully sealed Contact, air is prevented to be directly entered from the second micro-porous resin pipe and gap of the second top panel or the second lower panel etc., and shadow Ring filter effect.
3rd technical scheme of present invention air-borne dust particle capable of washing and floater filtering device is:It is characterized in that The 3rd is provided with including the 3rd top panel, the 3rd peripheral panel, the 3rd inner ring panel and the 3rd lower panel, in the 3rd peripheral panel to enter Air holes, the 3rd exhaust vent is provided with the 3rd inner ring panel, in the 3rd top panel, the 3rd peripheral panel, the 3rd inner ring panel and 3rd micro-porous resin pipe is laterally set between three lower panels, the 3rd filtering micropore is formed with the tube wall of the 3rd micro-porous resin pipe, the Have third venting road in three micro-porous resin pipes, the one end in third venting road communicates with the 3rd fresh air inlet, third venting road it is another End contacts with the 3rd inner ring panel sealing, there is third space, third space and the 3rd air-out between each 3rd micro-porous resin pipe Hole communicates.
The invention discloses the third air-borne dust particle and floater filtering device capable of washing, work as air cleaning facility During start-up operation, air enters in the third venting road of the 3rd micro-porous resin pipe from the 3rd fresh air inlet of the 3rd peripheral panel, by Contacted in the other end of the 3rd micro-porous resin pipe with the 3rd inner ring panel sealing, air can only be from after entering the 3rd micro-porous resin pipe The 3rd tiny filtering micropore on tube wall(3rd filtering micropore is microcosmic cotton-shaped hole, and micropore internal diameter can be net according to air quality Change and require, when producing micro-porous resin pipe, adjusted in production technology)Output, and enter between the 3rd of the 3rd micro-porous resin pipe In gap, because the aperture of the 3rd filtering micropore is tiny, the air-borne dust and floating object that do not meet purification of air requirement are blocked Outside the micropore, meet the air that purification requires and be then delivered in third space, go out finally by the 3rd of the 3rd inner ring panel the Air holes is delivered to the center of the filter, is then delivered to the filter screen of other removing air pernicious gases downward or upward (Such as except formaldehyde, except CO2).Usage time is long, and impurity is bonded in the 3rd filtering micropore, easily causes the 3rd filtering micro- Hole plug and reduce air-out rate, because the 3rd micro-porous resin pipe is made up of resin material, as long as so with water or high pressure gas to it Cleaned, impurity will be together rushed out with current are rinsed or blown out impurity by high pressure gas, make its recyclable weight It is multiple to use, it is both economically and environmentally beneficial so as to the expense of saving.
The present invention air-borne dust particle and floater filtering device capable of washing, the 3rd described peripheral panel inwall are formed with Locating ring in 3rd, sets the 3rd inner seal ring in the 3rd in locating ring, and the one of the 3rd inner seal ring and the 3rd micro-porous resin pipe Hold in sealing contact, be formed with the 3rd outer positioning ring in the 3rd inner ring panel outer wall, the 3rd external seal pad is set in the 3rd outer positioning ring, The other end of 3rd external seal pad and the 3rd micro-porous resin pipe is in sealing contact.Locating ring and the 3rd inner seal ring and the 3rd in 3rd The oral area end face of micro-porous resin pipe one end is in sealing contact, and the 3rd outer positioning ring and the 3rd external seal pad and the 3rd micro-porous resin pipe are complete Hermetically sealed contact, avoids air from directly entering from the gap of the peripheral panels of the 3rd micro-porous resin Guan Yu tri- or the 3rd inner ring panel Enter, and influence filter effect.
4th technical scheme of present invention air-borne dust particle capable of washing and floater filtering device is:It is characterized in that The 4th is provided with including the 4th top panel, fourth peripheral panel, the 4th inner ring panel and the 4th lower panel, in fourth peripheral panel to go out Air holes, the 4th fresh air inlet is provided with the 4th inner ring panel, in the 4th top panel, fourth peripheral panel, the 4th inner ring panel and 4th micro-porous resin pipe is laterally set between four lower panels, the 4th filtering micropore is formed with the tube wall of the 4th micro-porous resin pipe, the Have the 4th ventilating duct in four micro-porous resin pipes, one end of the 4th ventilating duct communicates with the 4th fresh air inlet, the 4th ventilating duct it is another End contacts with fourth peripheral panel sealing, there is the 4th gap, the 4th gap and the 4th air-out between each 4th micro-porous resin pipe Hole communicates.
The invention discloses the 4th kind of air-borne dust particle and floater filtering device capable of washing, work as air cleaning facility During start-up operation, air enters in the 4th ventilating duct of the 4th micro-porous resin pipe from the 4th fresh air inlet of the 4th inner ring panel, by Contacted in the other end of the 4th micro-porous resin pipe with fourth peripheral panel sealing, air can only be from tube wall after entering the 4th ventilating duct Upper the 4th tiny filtering micropore(4th filtering micropore is microcosmic cotton-shaped hole, and micropore internal diameter can purify according to air quality will Ask, when producing micro-porous resin pipe, adjusted in production technology)Output, and enter in the 4th gap of the 4th micro-porous resin pipe, Because the aperture of the 4th filtering micropore is tiny, do not meet purification of air requirement air-borne dust and floating object to be blocked on this micro- Outside hole, meet the air that purification requires and be then delivered in the 4th gap between each 4th micro-porous resin pipe, finally by the 4th exhaust vent of four peripheral panels is delivered to the outside of the filter, is then delivered to other removing air downward or upward The filter screen of pernicious gas(Such as except formaldehyde, except CO2).Usage time is long, and impurity is bonded in the 4th filtering micropore, easily The 4th filtering micropore is caused to block, because the 4th micro-porous resin pipe is made up of resin material, as long as so with water or high pressure gas pair It is cleaned, and impurity will together be rushed out with flushing water or be blown out impurity by high pressure gas, makes its recyclable weight It is multiple to use, it is both economically and environmentally beneficial so as to the expense of saving.
The present invention air-borne dust particle and floater filtering device capable of washing, described fourth peripheral panel inner wall are formed with Locating ring in 4th, sets the 4th interior sealing pad in the 4th in locating ring, and the one of the 4th interior sealing pad and the 4th micro-porous resin pipe Hold in sealing contact, be formed with the 4th outer positioning ring in the 4th inner ring panel outer wall, the 4th exterior seal ring is set in the 4th outer positioning ring, The other end of 4th exterior seal ring and the 4th micro-porous resin pipe is in sealing contact.Locating ring and the 4th inner seal ring and the 4th in 4th Contact, the 4th outer positioning ring and the 4th external seal pad and the 4th micro-porous resin pipe is fully sealed in the oral area of micro-porous resin pipe one end Oral area end face is in sealing contact, avoids air straight from the gap of the 4th micro-porous resin pipe and fourth peripheral panel or the 4th inner ring panel Tap into and influenceing filter effect.
Brief description of the drawings
Fig. 1 is the three-dimensional signal in front of the first scheme of air-borne dust particle capable of washing and floater filtering device Figure;
Fig. 2 is the back three-dimensional diagram of the first scheme of air-borne dust particle capable of washing and floater filtering device;
Fig. 3 is the structural representation of the first scheme of air-borne dust particle capable of washing and floater filtering device;
Fig. 4 is the three-dimensional signal of decomposing state of the first scheme of air-borne dust particle capable of washing and floater filtering device Figure;
Fig. 5 is the structural representation of the second scheme of air-borne dust particle capable of washing and floater filtering device;
Fig. 6 is the three-dimensional signal of decomposing state of the second scheme of air-borne dust particle capable of washing and floater filtering device Figure;
Fig. 7 is the schematic perspective view of the third scheme of air-borne dust particle capable of washing and floater filtering device;
Fig. 8 is the structural representation of the third scheme of air-borne dust particle capable of washing and floater filtering device;
Fig. 9 is the three-dimensional signal of decomposing state of the third scheme of air-borne dust particle capable of washing and floater filtering device Figure;
Figure 10 is the schematic perspective view of the 4th kind of scheme of air-borne dust particle capable of washing and floater filtering device;
Figure 11 is the structural representation of the 4th kind of scheme of air-borne dust particle capable of washing and floater filtering device;
Figure 12 is the three-dimensional signal of decomposing state of the 4th kind of scheme of air-borne dust particle capable of washing and floater filtering device Figure.
Embodiment
The present invention relates to a kind of air-borne dust particle and floater filtering device capable of washing,
Embodiment 1, as shown in Fig. 1-Fig. 4, it is characterised in that:Below the first top panel 1, the first peripheral panel 11, first Plate 12, the first fresh air inlet 13 is provided with the first lower panel, indulged between the first top panel, the first peripheral panel, the first lower panel To the first micro-porous resin pipe 14 is set, the first filtering micropore, the first micro-porous resin pipe are formed with the tube wall of the first micro-porous resin pipe In have the first ventilating duct 16, the lower end of the first ventilating duct communicates with the first fresh air inlet 13, on the upper end of the first ventilating duct and first Panel 12 is in sealing contact, has the first gap 17 between each first micro-porous resin pipe 14, first is formed with the first top panel and is gone out Air holes 18, the first exhaust vent communicate with the first gap.When air cleaning facility is started working, air is from the first lower panel 12 First fresh air inlet 13 enters in 16 times mouths of the first ventilating duct of the first micro-porous resin pipe 14, suitable for reading due to the first micro-porous resin pipe It is in sealing contact with the first top panel 1, air enter after the first micro-porous resin pipe 14 can only from tube wall tiny first filtering it is micro- Hole(First filtering micropore is microcosmic cotton-shaped hole, and micropore internal diameter can be purified according to air quality and required, in production micro-porous resin pipe When, adjust in production technology)Output, and enter in the first gap 17 of the first micro-porous resin pipe 14, because the first filtering is micro- The aperture in hole is tiny, and the air-borne dust and floating object for not meeting purification of air requirement are blocked on outside the micropore, meet purification It is required that air be then delivered in the first gap 17 of each first micro-porous resin pipe 14, finally by the of the first top panel 1 One exhaust vent 18 is delivered to the filter screen of other removing air pernicious gases(Such as except formaldehyde, except CO2).Usage time is long, miscellaneous Matter is bonded in the first filtering micropore, easily causes the first filtering micropore to block, and reduces air-out rate, due to the first micropore Pitch tube 14 is made up of resin material, as long as so being cleaned with water or high pressure gas to it, impurity will be with flushing water one Rise and be rushed out or blown out impurity by high pressure gas, make its it is recyclable reuse, so as to the expense of saving, not only economic but also ring Protect.It is formed with locating ring 19 on first under the first described top panel 1, sealing gasket 20 on first is set on first in locating ring, the Sealing gasket and the first micro-porous resin pipe 14 is suitable for reading in sealing contact on one, and first time locating ring is formed with the first lower panel 12 21, the first lower seal 22 is set in first time locating ring, and the first lower seal and the lower mouth of the first micro-porous resin pipe 14 seal Contact.Sealing gasket 20 contacts with suitable for reading be fully sealed of the first micro-porous resin pipe 14 on locating ring 19 and first on first, and first The lower lower seal 22 of locating ring 21 and first contacts with the lower mouth end face seal of the first micro-porous resin pipe 14, prevents air from first Micro-porous resin pipe 14 and gap of the first top panel 1 or the first lower panel 12 etc. are directly entered, and influence filter effect.
Embodiment 2, as shown in Fig. 5-Fig. 6, it is characterised in that:Including the second top panel 3, the second peripheral panel 31, second Lower panel 32, be provided with the second exhaust vent 33 in the second top panel, the second top panel, the second peripheral panel, the second lower panel it Between longitudinally disposed second micro-porous resin pipe 34, be formed with the second filtering micropore, the second micropore tree on the tube wall of the second micro-porous resin pipe There is the second ventilating duct 36 in fat pipe, the upper end of the second ventilating duct communicates with the second exhaust vent 33, the lower end of the second ventilating duct and the Two lower panels 32 are in sealing contact, have the second gap 37 between each second micro-porous resin pipe 34, and is formed with the second lower panel Two fresh air inlets 38, the second fresh air inlet communicate with the second gap.When air cleaning facility is started working, air is from the second lower panel 32 the second fresh air inlet 38 enters in the second gap 37 between each second micro-porous resin pipe 34, due to the second micro-porous resin pipe It is suitable for reading in sealing contact with the second top panel 3, air enter the second micro-porous resin pipe 34 between the second gap 37 after, Zhi Nengcong The second tiny filtering micropore on tube wall(Second filtering micropore is microcosmic cotton-shaped hole, and micropore internal diameter can be net according to air quality Change and require, when producing micro-porous resin pipe, adjusted in production technology)Output, and enter the second of the second micro-porous resin pipe 34 In ventilating duct 36, because the aperture of the second filtering micropore is tiny, the air-borne dust and floating object of purification of air requirement are not met It is blocked on outside the micropore, meets the air that purification requires and be then delivered in the second ventilating duct 36, finally by the second top panel 3 The second exhaust vent 33 be delivered to it is other removing air pernicious gases filter screens(Such as except formaldehyde, except CO2).Usage time is long , impurity is bonded in the second filtering micropore, easily causes the second filtering micropore to block, and reduces air-out rate, due to the Two micro-porous resin pipes are made up of resin material, as long as so being cleaned with water or high pressure gas to it, impurity will be with flushing Water is rushed out or is blown out impurity by high pressure gas together, make its it is recyclable reuse, so as to the expense of saving, not only economy but also Environmental protection.It is formed with locating ring 39 on second under the second described top panel 3, sealing ring 40 on second is set on second in locating ring, Sealing ring and the second micro-porous resin pipe 34 is suitable for reading in sealing contact on second, and second time locating ring is formed with the second lower panel 32 41, the second lower seal pad 42 is set in second time locating ring, and the second lower seal pad and the lower mouth of the second micro-porous resin pipe 34 seal Contact.Sealing ring 40 contacts with the end part seal suitable for reading of the second micro-porous resin pipe 34 on locating ring 39 and second on second, and the Two times lower seal pads 42 of locating ring 41 and second are fully sealed with the lower mouth of the second micro-porous resin pipe 34 to be contacted, and prevents air from Two micro-porous resin pipes 34 and gap of the second top panel 3 or the second lower panel 32 etc. are directly entered, and influence filter effect.
Embodiment 3, as shown in Fig. 7-Fig. 9, it is characterised in that:Including the 3rd top panel 5, the 3rd peripheral panel the 51, the 3rd The lower panel 53 of inner ring panel 52 and the 3rd, the 3rd fresh air inlet 54 is provided with the 3rd peripheral panel 51, is opened in the 3rd inner ring panel 52 There is the 3rd exhaust vent 55, laterally set between the 3rd top panel, the 3rd peripheral panel, the 3rd inner ring panel and the 3rd lower panel 3rd micro-porous resin pipe 56, the 3rd filtering micropore is formed with the tube wall of the 3rd micro-porous resin pipe, there is in the 3rd micro-porous resin pipe Three-way air conduit 57, the one end in third venting road communicate with the 3rd fresh air inlet 54, the other end in third venting road and the 3rd inner ring face Plate is in sealing contact, there is third space 58 between each 3rd micro-porous resin pipe 56, and third space communicates with the 3rd exhaust vent 55.When When air cleaning facility is started working, air enters the 3rd micro-porous resin pipe 56 from the 3rd fresh air inlet 54 of the 3rd peripheral panel 51 Third venting road 57 in, because the other end of the 3rd micro-porous resin pipe and the 3rd inner ring panel 52 are in sealing contact, air enter The 3rd filtering micropore that can only be tiny from tube wall after 3rd micro-porous resin pipe 56(3rd filtering micropore is microcosmic cotton-shaped hole, Micropore internal diameter can be purified according to air quality and required, when producing micro-porous resin pipe, be adjusted in production technology)Output, goes forward side by side In the third space 58 for entering the 3rd micro-porous resin pipe 56, because the aperture of the 3rd filtering micropore is tiny, not meeting purification of air will The air-borne dust and floating object asked are blocked on outside the micropore, are met the air that purification requires and are then delivered to third space 58 In, the center of the filter is delivered to finally by the 3rd exhaust vent 55 of the 3rd inner ring panel 52, then downwards or It is delivered up to the filter screen of other removing air pernicious gases(Such as except formaldehyde, except CO2).Usage time is long, and impurity is all viscous It is attached in the 3rd filtering micropore, easily causes the 3rd filtering micropore to block and reduce air-out rate, because the 3rd micro-porous resin pipe is Resin material is made, as long as so being cleaned with water or high pressure gas to it, impurity will be rushed out together with current are rinsed Or blown out impurity by high pressure gas, make its recyclable reuse, it is both economically and environmentally beneficial so as to the expense of saving.Described The inwall of 3rd peripheral panel 51 is formed with locating ring 59 in the 3rd, sets the 3rd inner seal ring 60 in the 3rd in locating ring, in the 3rd One end of sealing ring and the 3rd micro-porous resin pipe 56 is in sealing contact, and the 3rd outer positioning ring is formed with the outer wall of the 3rd inner ring panel 52 61, the 3rd external seal pad 62 is set in the 3rd outer positioning ring, and the other end of the 3rd external seal pad and the 3rd micro-porous resin pipe 56 is close Sealing-in is touched.The inner seal ring 60 of locating ring 59 and the 3rd and the oral area end face seal of the one end of the 3rd micro-porous resin pipe 56 connect in 3rd Touch, the 3rd outer positioning ring 61 and the 3rd external seal pad 62 are fully sealed with the 3rd micro-porous resin pipe 56 and contacted, and avoid air from the The gap of the peripheral panels 51 of three micro-porous resin Guan Yu tri- or the 3rd inner ring panel 52 is directly entered, and influences filter effect.
Embodiment 4, as shown in Figure 10-Figure 12, it is characterised in that:Including the 4th top panel 7, fourth peripheral panel 71, Four inner ring panels 72 and the 4th lower panel 73, are provided with the 4th exhaust vent 74 in fourth peripheral panel 71, in the 4th inner ring panel 72 The 4th fresh air inlet 75 is provided with, is laterally set between the 4th top panel, fourth peripheral panel, the 4th inner ring panel and the 4th lower panel The 4th micro-porous resin pipe 76 is put, the 4th filtering micropore, the 4th micro-porous resin Guan Zhongyou are formed with the tube wall of the 4th micro-porous resin pipe 4th ventilating duct 77, one end of the 4th ventilating duct communicate with the 4th fresh air inlet 75, the other end and fourth peripheral of the 4th ventilating duct Panel sealing contacts, and has the 4th gap 78 between each 4th micro-porous resin pipe 76, the 4th gap communicates with the 4th exhaust vent 74. When air cleaning facility is started working, air enters the 4th micro-porous resin pipe from the 4th fresh air inlet 75 of the 4th inner ring panel 72 In 76 the 4th ventilating duct 77, because the other end and fourth peripheral panel 71 of the 4th micro-porous resin pipe 76 are in sealing contact, air The 4th filtering micropore that can only be tiny from tube wall after into the 4th ventilating duct 77(4th filtering micropore is microcosmic cotton-shaped hole, Micropore internal diameter can be purified according to air quality and required, when producing micro-porous resin pipe, be adjusted in production technology)Output, goes forward side by side In the 4th gap 78 for entering the 4th micro-porous resin pipe 76, because the aperture of the 4th filtering micropore is tiny, not meeting purification of air will The air-borne dust and floating object asked are blocked on outside the micropore, are met the air that purification requires and are then delivered to each 4th micropore In the 4th gap 78 between pitch tube 76, filtering dress is delivered to finally by the 4th exhaust vent 74 of fourth peripheral panel 71 The outside put, the filter screen of other removing air pernicious gases is then delivered to downward or upward(Such as except formaldehyde, except CO2).Make With over time, impurity is bonded in the 4th filtering micropore, easily causes the 4th filtering micropore to block, due to the 4th micropore tree Fat pipe is made up of resin material, if so cleaned with water or high pressure gas to it, impurity will with flushing water together by Go out or blown out impurity by high pressure gas, make its recyclable reuse, it is both economically and environmentally beneficial so as to the expense of saving.Institute The inwall of fourth peripheral panel 71 stated is formed with locating ring 79 in the 4th, sets the 4th interior sealing pad 80 in the 4th in locating ring, the One end of four interior sealing pads and the 4th micro-porous resin pipe 76 is in sealing contact, is formed with outside the 4th and positions in the outer wall of the 4th inner ring panel 72 Ring 81, the other end of the 4th exterior seal ring 82, the 4th exterior seal ring and the 4th micro-porous resin pipe 76 is set in the 4th outer positioning ring It is in sealing contact.The interior sealing pad 80 of locating ring 79 and the 4th and the oral area of the one end of the 4th micro-porous resin pipe 76 are fully sealed and connect in 4th Touch, the oral area end face of the 4th outer positioning ring 81 and the 4th exterior seal ring 82 and the 4th micro-porous resin pipe 76 is in sealing contact, avoids sky Gas is directly entered from the gap of the 4th micro-porous resin pipe and the inner ring panel 72 of fourth peripheral panel 71 or the 4th, and influences filtering effect Fruit.

Claims (8)

1. air-borne dust particle and floater filtering device capable of washing, it is characterised in that:Including the first top panel(1), first Peripheral panel(11), the first lower panel(12), the first fresh air inlet is provided with the first lower panel(13), in the first top panel, first Longitudinally disposed first micro-porous resin pipe between peripheral panel, the first lower panel(14), it is formed with the tube wall of the first micro-porous resin pipe First filtering micropore, there is the first ventilating duct in the first micro-porous resin pipe(16), the lower end of the first ventilating duct and the first fresh air inlet (13)Communicate, the upper end of the first ventilating duct and the first top panel(12)It is in sealing contact, in each first micro-porous resin pipe(14)Between There is the first gap(17), the first exhaust vent is formed with the first top panel(18), the first exhaust vent communicates with the first gap.
2. air-borne dust particle and floater filtering device capable of washing as claimed in claim 1, it is characterised in that:Described First top panel(1)Under be formed with locating ring on first(19), sealing gasket on first is set in locating ring on first(20), on first Sealing gasket and the first micro-porous resin pipe(14)It is suitable for reading in sealing contact, in the first lower panel(12)On be formed with first time locating ring (21), the first lower seal is set in first time locating ring(22), the first lower seal and the first micro-porous resin pipe(14)Under Mouth is in sealing contact.
3. air-borne dust particle and floater filtering device capable of washing, it is characterised in that:Including the second top panel(3), second Peripheral panel(31), the second lower panel(32), the second exhaust vent is provided with the second top panel(33), in the second top panel, second Longitudinally disposed second micro-porous resin pipe between peripheral panel, the second lower panel(34), it is formed with the tube wall of the second micro-porous resin pipe Second filtering micropore, there is the second ventilating duct in the second micro-porous resin pipe(36), the upper end of the second ventilating duct and the second exhaust vent (33)Communicate, the lower end of the second ventilating duct and the second lower panel(32)It is in sealing contact, in each second micro-porous resin pipe(34)Between There is the second gap(37), the second fresh air inlet is formed with the second lower panel(38), the second fresh air inlet communicates with the second gap.
4. air-borne dust particle and floater filtering device capable of washing as claimed in claim 3, it is characterised in that:Described Second top panel(3)Under be formed with locating ring on second(39), sealing ring on second is set in locating ring on second(40), on second Sealing ring and the second micro-porous resin pipe(34)It is suitable for reading in sealing contact, in the second lower panel(32)On be formed with second time locating ring (41), the second lower seal pad is set in second time locating ring(42), the second lower seal pad and the second micro-porous resin pipe(34)Under Mouth is in sealing contact.
5. air-borne dust particle and floater filtering device capable of washing, it is characterised in that:Including the 3rd top panel(5), the 3rd Peripheral panel(51), the 3rd inner ring panel(52)With the 3rd lower panel(53), the 3rd peripheral panel(51)In be provided with the 3rd air intake Hole(54), the 3rd inner ring panel(52)In be provided with the 3rd exhaust vent(55), in the 3rd top panel, the 3rd peripheral panel, the 3rd The 3rd micro-porous resin pipe is laterally set between circle panel and the 3rd lower panel(56), is formed with the tube wall of the 3rd micro-porous resin pipe Three filtering micropores, there is third venting road in the 3rd micro-porous resin pipe(57), the one end in third venting road and the 3rd fresh air inlet(54) Communicate, the other end in third venting road contacts with the 3rd inner ring panel sealing, in each 3rd micro-porous resin pipe(56)Between have Three gaps(58), third space and the 3rd exhaust vent(55)Communicate.
6. air-borne dust particle and floater filtering device capable of washing as claimed in claim 5, it is characterised in that:Described 3rd peripheral panel(51)Inwall is formed with locating ring in the 3rd(59), the 3rd inner seal ring is set in locating ring in the 3rd(60), 3rd inner seal ring and the 3rd micro-porous resin pipe(56)One end it is in sealing contact, in the 3rd inner ring panel(52)Outer wall is formed with the 3rd Outer positioning ring(61), the 3rd external seal pad is set in the 3rd outer positioning ring(62), the 3rd external seal pad and the 3rd micro-porous resin pipe (56)The other end it is in sealing contact.
7. air-borne dust particle and floater filtering device capable of washing, it is characterised in that:Including the 4th top panel(7), the 4th Peripheral panel(71), the 4th inner ring panel(72)With the 4th lower panel(73), fourth peripheral panel(71)In be provided with the 4th air-out Hole(74), the 4th inner ring panel(72)In be provided with the 4th fresh air inlet(75), in the 4th top panel, fourth peripheral panel, the 4th The 4th micro-porous resin pipe is laterally set between circle panel and the 4th lower panel(76), is formed with the tube wall of the 4th micro-porous resin pipe Four filtering micropores, there is the 4th ventilating duct in the 4th micro-porous resin pipe(77), one end and the 4th fresh air inlet of the 4th ventilating duct(75) Communicate, the other end of the 4th ventilating duct contacts with fourth peripheral panel sealing, in each 4th micro-porous resin pipe(76)Between have Four gaps(78), the 4th gap and the 4th exhaust vent(74)Communicate.
8. air-borne dust particle and floater filtering device capable of washing as claimed in claim 7, it is characterised in that:Described Fourth peripheral panel(71)Inwall is formed with locating ring in the 4th(79), the 4th interior sealing pad is set in locating ring in the 4th(80), 4th interior sealing pad and the 4th micro-porous resin pipe(76)One end it is in sealing contact, in the 4th inner ring panel(72)Outer wall is formed with the 4th Outer positioning ring(81), the 4th exterior seal ring is set in the 4th outer positioning ring(82), the 4th exterior seal ring and the 4th micro-porous resin pipe (76)The other end it is in sealing contact.
CN201710916671.6A 2017-09-30 2017-09-30 Air-borne dust particle and floater filtering device capable of washing Pending CN107456815A (en)

Priority Applications (1)

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CN201710916671.6A CN107456815A (en) 2017-09-30 2017-09-30 Air-borne dust particle and floater filtering device capable of washing

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Application Number Priority Date Filing Date Title
CN201710916671.6A CN107456815A (en) 2017-09-30 2017-09-30 Air-borne dust particle and floater filtering device capable of washing

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Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1879938A (en) * 2006-05-17 2006-12-20 孙琦 Combined filter tube element pulse dust-collector
CN203425629U (en) * 2013-09-08 2014-02-12 绍兴拓普斯环保设备有限公司 Novel gas dust separating device
CN204395653U (en) * 2015-01-12 2015-06-17 富毅特(上海)环保科技有限公司 A kind of central vacuum cleaning system
CN105435579A (en) * 2015-12-11 2016-03-30 凯天环保科技股份有限公司 Treating apparatus and treating method for organic exhaust gas produced in spraying
CN106310820A (en) * 2016-07-28 2017-01-11 深圳泾渭净化设备有限公司 Pipeline type air purifier
CN207356772U (en) * 2017-09-30 2018-05-15 李新贵 Air-borne dust particle and floater filtering device capable of washing

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1879938A (en) * 2006-05-17 2006-12-20 孙琦 Combined filter tube element pulse dust-collector
CN203425629U (en) * 2013-09-08 2014-02-12 绍兴拓普斯环保设备有限公司 Novel gas dust separating device
CN204395653U (en) * 2015-01-12 2015-06-17 富毅特(上海)环保科技有限公司 A kind of central vacuum cleaning system
CN105435579A (en) * 2015-12-11 2016-03-30 凯天环保科技股份有限公司 Treating apparatus and treating method for organic exhaust gas produced in spraying
CN106310820A (en) * 2016-07-28 2017-01-11 深圳泾渭净化设备有限公司 Pipeline type air purifier
CN207356772U (en) * 2017-09-30 2018-05-15 李新贵 Air-borne dust particle and floater filtering device capable of washing

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