CN207153962U - Nozzle and apply its non-maintaining electrostatic cleaning systems of self-cleaning - Google Patents

Nozzle and apply its non-maintaining electrostatic cleaning systems of self-cleaning Download PDF

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Publication number
CN207153962U
CN207153962U CN201720295819.4U CN201720295819U CN207153962U CN 207153962 U CN207153962 U CN 207153962U CN 201720295819 U CN201720295819 U CN 201720295819U CN 207153962 U CN207153962 U CN 207153962U
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China
Prior art keywords
cleaning
liquid outlet
washer jet
cleaned
plane
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CN201720295819.4U
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黄谦
秦毅
任志超
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Weifu Environmental Technology (Beijing) Co., Ltd.
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Beijing T-Cair Technology Co Ltd
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Abstract

This application discloses a kind of nozzle, the washer jet is applied to surface clean field, reentrainment of dust caused by avoiding mechanical and ultrasonic rapping, need not manually it clean and manual maintenance, cleaning can thoroughly clean face to be cleaned every time, recover clean state, improve cleaning performance and efficiency, reduce cleaning cost, avoid manually, the washer jet can continue to keep the cleaning on surface to be cleaned.The liquid outlet of the washer jet is shaped as slit.Disclosed herein as well is a kind of non-maintaining electrostatic cleaning systems of the self-cleaning using said nozzle.Disclosed herein as well is the flush bonding module that said nozzle, system are applied in air-conditioning, ventilating system.

Description

Nozzle and apply its non-maintaining electrostatic cleaning systems of self-cleaning
Technical field
The application is related to a kind of fluid injector, belongs to flow of fluid field.
Background technology
High-voltage electrostatic purification device is to carry out the device of particulate and drop in gas with electrostatic depuration principle.It is purification of air Ideal equipment.Its purification work relies primarily on discharge electrode and the two systems of receiving electrode to complete, when two interpolars input high pressure In electrode space during direct current, anions and canons are produced, and act on the gas and particle surface by electrostatic field, in electric field force In the presence of moved to its opposite polarity electrode, and be deposited on electrode, reach purpose of gathering dust.Wherein high-pressure electrostatic module is The bipolar flat board louvered of particular design, there is region of discharge and the subregion of accumulation area two, relatively conventional electro static filtering net or honeybee The purification efficiency highest of socket electronic air cleaner.Its cardinal principle is using Electrostatic Absorption particulate matter and to have adsorbed bacterium micro- The aerosol of biology, and puncture bacterium and the virus killed by electric field.
The common clean and maintenance mode of High-voltage electrostatic purification technology in traditional industries be mechanical vibrator, ultrasonic wave rapping or Manually equipment is taken off with water to rinse.Wherein rapping mode makes the dust quilt adhered to it by rapping two-pole device Shake off, fall into bottom ash bucket through ash exhauster discharge machine outside, traditional clean and maintenance mode can have a reentrainment of dust, and artificial clear Wash by later stage manual maintenance cost is high and the long operating efficiency of maintenance time is low etc. be present.
Utility model content
According to the one side of the application, there is provided a kind of washer jet, the washer jet are applied to surface clean field, Reentrainment of dust caused by avoiding mechanical and ultrasonic rapping, it is not necessary to which artificial cleaning and manual maintenance, cleaning every time can be thoroughly Face to be cleaned is cleaned, recovers clean state, cleaning performance and efficiency is improved, reduces cleaning cost, avoids manually, this is clear Washing nozzle can continue to keep the cleaning on surface to be cleaned.
The liquid outlet of the washer jet is shaped as slit.
Washer jet in the application, cleaned applied to surface clean, especially plane, what is be more particularly vertically arranged is more flat The cleaning of face array, below can abbreviation nozzle.
Preferably, the washer jet includes diversion division, and the diversion division is located at the outlet end of liquid outlet, the diversion division Hydrojet direction is controlled, the angle between the hydrojet direction and the face to be cleaned is 5 °~90 °.
It is further preferred that the angular range upper limit between the hydrojet direction and the face to be cleaned be selected from 90 °, 89 °, 85°、80°、75°、70°、60°、50°、45°、40°、30°;Angular range between the hydrojet direction and the face to be cleaned Lower limit is selected from 5 °, 10 °, 15 °, 20 °, 30 °, 40 °, 45 °, 50 °, 60 °, 70 °.
It is further preferred that the washer jet includes diversion division, the diversion division is located at the outlet end of liquid outlet, institute Diversion division control hydrojet direction is stated, the angle between the hydrojet direction and the face to be cleaned is 10 °~60 °.
Often multiple faces to be cleaned of the prior art are formed entirety in the form of a determining deviation arranges, to overall elution It can not accomplish thoroughly to clean face to be cleaned every time, then be bound to laying dust accumulation be present, treat accumulation to a certain extent, i.e., it is necessary Artificial thoroughly cleaning is disassembled, i.e., persistently laying dust can not avoid manual maintenance again.
The application goes out liquid spray angle using optimization so that the cleaning fluid that the washer jet ejects can be tangential It is ejected on surface to be cleaned, effectively prevents cleaning fluid splash, therefore can efficiently wash away face to be cleaned, recycles cleaning The impulsive force of liquid, efficiently the laying dust on face to be cleaned can be cleaned up completely, you can to realize that cleaning every time can be thorough Face to be cleaned is cleaned at bottom, recovers clean state.Because cleaning can recover clean state every time, the cumulative of no laying dust is asked Topic, therefore the non-maintaining of continuation can be realized., can in conjunction with intelligent control system and/or self-defined periodic purge Realize that intelligent self-cleaning is washed and non-maintaining.
Preferably, the washer jet includes diversion division, and the diversion division is located at the outlet end of liquid outlet, the diversion division It is more than 1mm with the distance in face to be cleaned.
It is further preferred that the washer jet includes diversion division, the diversion division is located at the outlet end of liquid outlet, described Diversion division and the distance in face to be cleaned are 1mm~5mm.In product practical application, between diversion division is adjacent with face to be cleaned Distance D value directly influences the angle design between diversion division hydrojet direction and face to be cleaned, used design standard Be to ensure that the cleaning fluid that ejects can peripheral jet on face to be cleaned, effectively prevent cleaning fluid splash, can be efficient Clean and avoid the interference and secondary pollution of splash cleaning fluid, save cleaning fluid again.
Preferably, the slit width of the liquid outlet is 0.1mm~2mm.
It is further preferred that the slit width range limit of the liquid outlet be selected from 2mm, 1.8mm, 1.5mm, 1.2mm, 1mm、0.9mm、0.8mm;The slit width range lower limit of the liquid outlet be selected from 0.1mm, 0.2mm, 0.3mm, 0.4mm, 0.5mm、0.8mm、0.9mm、1mm。
It is further preferred that the slit width of the liquid outlet is 0.3mm~1mm.
Preferably, the washer jet impulse jet cleaning fluid is to the face flush clean to be cleaned.Using impulse jet Mode, cleaning performance is better than continuous injection and more saves cleaning fluid.
It is further preferred that the impulse jet pressure >=0.01Mpa.
It is further preferred that the impulse jet pressure is 0.01Mpa~1Mpa.
It is further preferred that impulse jet frequency >=2 beat/min.
It is further preferred that impulse jet frequency is 2 beats/min~120 beats/min.
Preferably, the washer jet is the plane washer jet for cleaning plane.As a preferable scheme, institute The slit for stating liquid outlet is parallel with plane to be cleaned.In the application, the slit of the liquid outlet is parallel with plane to be cleaned, not Finger is definitely substantially parallel, and refers to that parallel in engineering design or assembly technology is preferred scheme.Allow certain irrelevance be present, Or can be not exclusively parallel in the assembling of product, as long as can to cover whole region to be cleaned equal for the cleaning fluid that nozzle sprays The technique effect of the application can be achieved.
Surface to be cleaned is the cleaning of plane, i.e. tabular, then corresponding technical scheme under normal circumstances The slit of the liquid outlet of nozzle is linear, and surface is cleaned with the tabular everywhere on the slit of the linear liquid outlet Distance is consistent, by the injection of line style liquid outlet, whole plane is completely uniformly washed away to realize that face is cleaned.
In one preferred embodiment of the application, a washer jet can have a liquid outlet, to one The surface erosion cleaning to be cleaned.In one preferred embodiment of the application, because surface to be cleaned is often to be multiple etc. Spacing arranges, therefore a washer jet can each side have a liquid outlet i.e. achievable simultaneously left to it The effect that the surface to be cleaned of right both sides is cleaned, can further integrating apparatus, reduce equipment and reduce cost.
Preferably, the liquid outlet includes the first liquid outlet and the second liquid outlet being oppositely arranged, first liquid outlet First diversion division and the second diversion division in control hydrojet direction are respectively arranged with the outlet end of the second liquid outlet, described first leads The angle of stream portion and the hydrojet direction of the second diversion division respectively between the plane to be cleaned is consistent.
The direct bottom of first diversion division and the second diversion division can be flat or according to processing mode and application The shape of occasion design matching.In one preferred embodiment of the application, due to often in electrostatic purifier, both positive and negative polarity Plate is (commonly referred to as:Collecting plate and ionization plate) it is arranged alternately, therefore also have an ionization plate, the application between two neighboring collecting plate Structure design between described two liquid outlets of washer jet can be while effectively flow shunt be carried out, also to two liquid outlets Influence of the position of ionization plate to the washer jet is avoided that, and liquid outlet is extended further between collecting plate and ionization plate Gap.
It is further preferred that the two neighboring interplanar to be cleaned has dividing plate, first liquid outlet and The lowest part of two liquid outlets is higher than the plane to be cleaned and the highest portion of dividing plate.
It is further preferred that the two neighboring interplanar to be cleaned has dividing plate, the plane washer jet bottom, There is fovea superior structure, the fovea superior structure is located above the dividing plate, and described first goes out between one liquid outlet and the second liquid outlet Two gaps that liquid mouth and the second liquid outlet are respectively protruding into two adjacent planes to be cleaned and the dividing plate between it is formed It is interior.
Preferably, both ends of the washer jet along slit direction have connecting portion, and the connecting portion is used to slide with slide rail Dynamic connection is fixedly connected with miscellaneous part.
It is further preferred that the connecting portion is bulge-structure, the bulge-structure can be embedded in slide rail and along slide rail Slide;
Or the connecting portion is hollow or concave structure, described hollow or concave structure can coordinate with guide rail, and edge is led Rail slides.
According to the another aspect of the application, there is provided a kind of movable sprinklers plane cleaning device, the movable sprinklers Plane cleaning device is applied to plane cleaning field, avoids reentrainment of dust caused by mechanical and ultrasonic rapping, it is not necessary to artificial Cleaning and manual maintenance, every time cleaning can thoroughly clean face to be cleaned, recover clean state, improve cleaning performance and effect Rate, reduce cleaning cost, avoid manually, the movable sprinklers plane cleaning device constantly can keep multiple simultaneously and treat The cleaning of clean surface, it is not necessary to which each plane is equipped with nozzle, is to tackle multiple plane cleanings using a small amount of equipment, low cost Effective scheme.
The movable sprinklers plane cleaning device include said one in terms of any washer jet at least One, the slit length of the liquid outlet of the washer jet is equal to or less than the peak width to be cleaned in plane to be cleaned.
According to the another aspect of the application, there is provided a kind of array nozzle plane cleaning device, the array nozzle Plane cleaning device is applied to plane cleaning field, avoids reentrainment of dust caused by mechanical and ultrasonic rapping, it is not necessary to artificial Cleaning and manual maintenance, every time cleaning can thoroughly clean face to be cleaned, recover clean state, improve cleaning performance and effect Rate, reduce cleaning cost, avoid manually, the array nozzle plane cleaning device constantly can keep multiple simultaneously and treat The cleaning of clean surface, while jet cleaning is carried out to each plane, all nozzles are fixed, and reliability is higher, fault rate is lower, It is high efficiency to multiple planes while the effective scheme of cleaning.
The array nozzle plane cleaning device includes any washer jet in terms of said one, the cleaning Nozzle at least two and its liquid outlet total quantity is consistent with the quantity of plane to be cleaned, the washer jet and with it is described go out liquid The mode array arrangement that the slit of mouth is parallel to each other.
According to the another aspect of the application, there is provided a kind of non-maintaining electrostatic cleaning systems of self-cleaning, the self-cleaning are exempted from Electrostatic cleaning systems are safeguarded, avoid the reentrainment of dust as caused by mechanical and ultrasonic rapping of the dust on electrostatic depuration, it is not necessary to Artificial cleaning and manual maintenance, every time cleaning can thoroughly clean collecting plate, recover clean state, improve cleaning performance and effect Rate, reduce cleaning cost, avoid manually, the non-maintaining electrostatic cleaning systems of the self-cleaning constantly can be kept wherein simultaneously Multiple collecting plates cleaning.
The non-maintaining electrostatic cleaning systems of the self-cleaning include any cleaning spray in terms of dust section and said one The liquid outlet quantity of at least one and described washer jet in mouth is less than the quantity of plane to be cleaned, or the self-cleaning is exempted from Safeguard electrostatic cleaning systems including in any movable sprinklers plane cleaning device in terms of dust section and said one At least one;
The dust section includes collecting plate and the ionization plate being alternately arranged.
Preferably, the lowest part of the washer jet higher than the dust section collecting plate highest portion and ionization plate most High portion;
Or the liquid outlet of the washer jet is stretched into the gap between two adjacent collecting plates.
Preferably, the non-maintaining electrostatic cleaning systems of the self-cleaning include slide rail, the length of the washer jet with it is described The width of slide rail is consistent, and the washer jet can move along the slide rail above the dust section, and moving direction perpendicular to The slit of the liquid outlet of the washer jet.
Preferably, the non-maintaining electrostatic cleaning systems of the self-cleaning include a washer jet, the washer jet The collecting plate is cleaned above the space being movable to along the slide rail between the adjacent collecting plate of any two.
Preferably, the non-maintaining electrostatic cleaning systems of the self-cleaning include the washer jet of two and above quantity, The washer jet is movable at least one section of region pair to be cleaned on any collecting plate or any collecting plate along the slide rail The collecting plate or the region to be cleaned are cleaned.
As the preferred scheme of the application, the plane to be cleaned of each collecting plate is fixed with a said one aspect Described in washer jet.The washer jet is single liquid outlet, and arranging two between the adjacent collecting plate of each two singly goes out liquid The washer jet of mouth, the liquid outlet of two washer jets are respectively facing described two adjacent collecting plates.
As the preferred scheme of the application, in being fixed between the adjacent collecting plate of each two in terms of a said one The described washer jet with the first liquid outlet and the second liquid outlet, first liquid outlet and the second liquid outlet are respectively facing Described two adjacent collecting plates.In preferred scheme described in this paragraph, due in electrostatic cleaning systems, two adjacent collecting plates Relative two face be required to clean, therefore in addition to two washer jets are set respectively between two adjacent collecting plates, also The washer jet of two-sided liquid outlet can be used to be arranged between two adjacent collecting plates, its first liquid outlet and second goes out liquid Mouth is respectively facing relative two face of described two adjacent collecting plates.Both it can integrate and simplify equipment, and improve confession again Liquid and cleaning efficiency.
Preferably, the tip height of the collecting plate is higher than the tip height of the ionization plate, and the washer jet goes out Liquid mouth gos deep into the gap that adjacent collecting plate is formed with ionization plate.
Preferably, the tip height of the collecting plate is higher than the tip height of the ionization plate, and the washer jet goes out Liquid mouth position is higher than the top of the plane to be cleaned.
Preferably, there is fovea superior structure between the first liquid outlet and the second liquid outlet of the washer jet bottom, it is described Fovea superior structure is located at the top of the ionization plate, and first liquid outlet and the second liquid outlet go deep into described adjacent two respectively Collecting plate and its between ionization plate formed two gaps in.Structure between herein described two liquid outlets of washer jet is set Meter can be while effectively flow shunt be carried out to two liquid outlets, moreover it is possible to avoids the position of ionization plate to the washer jet Influence, and the gap that liquid outlet is extended further between collecting plate and ionization plate;
Preferably, there is fovea superior structure between the first liquid outlet and the second liquid outlet of the washer jet bottom, it is described Fovea superior structure is located at the top of the ionization plate, the position of first liquid outlet and the second liquid outlet higher than the collecting plate and The top of ionization plate.
Preferably, each cleaning process, the cleaning fluid dosage of every square metre of plane to be cleaned are no more than 0.003m3
It is further preferred that each cleaning process, the cleaning fluid amount ranges upper limit choosing of every square metre of plane to be cleaned From 0.003m3、0.002m3、0.001m3、0.0005m3、0.0003m3、0.0002m3、0.0001m3;Each cleaning process, often puts down The cleaning fluid amount ranges lower limit of the plane to be cleaned of square rice is selected from 0.00001m3、0.00002m3、0.00003m3、 0.00005m3、0.00008m3、0.0001m3、0.0002m3、0.0003m3、0.0005m3、0.0008m3、0.001m3、 0.002m3
It is further preferred that each cleaning process, the cleaning fluid dosage of every square metre of plane to be cleaned is no more than 0.00001m3~0.001m3
Preferably, the non-maintaining electrostatic cleaning systems of the self-cleaning include cleaning fluid separating circulating device, in cleaning process, Cleaning fluid is washed away after collecting plate isolate solid phase into the cleaning fluid separating circulating device after, liquid phase makes circulation for follow-up cleaning Utilize.
Preferably, the separate mode includes at least one of precipitation, liquid separation, filtering.
Preferably, the cleaning fluid annual consumption of described every square metre plane to be cleaned is no more than 0.45m3
It is further preferred that the cleaning fluid annual consumption range limit of every square metre of plane to be cleaned is selected from 1m3、 0.8m3、0.5m3、0.3m3、0.2m3、0.1m3、0.08m3、0.05m3、0.03m3、0.02m3、0.01m3;Described every square metre is treated The cleaning fluid annual consumption range lower limit of cleaning plane is selected from
It is further preferred that the cleaning fluid annual consumption of every square metre of plane to be cleaned is 0.0001m3~0.3m3
Preferably, the non-maintaining electrostatic cleaning systems of the self-cleaning include electrostatic ionization section and primarily efficient filter filter screen;It is described Gas to be clean flows through the primarily efficient filter filter screen, electrostatic ionization section, the dust section successively.
According to the another aspect of the application, there is provided in plane washer jet any one of in terms of said one At least one of non-maintaining electrostatic cleaning systems of self-cleaning are in sky any one of in terms of at least one and/or said one Application in adjusting system, ventilating system and/or medical system.
Preferably, the application mode is the device containing the washer jet and/or system with the shape of embedded system Formula is embedded in the air-conditioning system, ventilating system and/or medical system.
According to the another aspect of the application, there is provided a kind of non-maintaining electrostatic depuration module of inserted self-cleaning, it is described The non-maintaining electrostatic depuration module insertion type of inserted self-cleaning is arranged on central air conditioner system, central ventilation system and/or doctor In treatment system, the moving nozzle plane is clear in terms of the non-maintaining electrostatic depuration module of inserted self-cleaning includes said one At least one of non-maintaining electrostatic cleaning systems of self-cleaning described in terms of at least one of cleaning device or said one.
Beneficial effect caused by the application energy includes:
1) washer jet provided herein, face to be cleaned can be thoroughly cleaned, recovers clean state, improve cleaning effect Fruit and efficiency, reduce cleaning cost, avoid manually, the washer jet can continue to keep the cleaning on surface to be cleaned.
2) washer jet provided herein, field is cleaned applied to plane, is movably designed by washer jet, Reentrainment of dust caused by not only avoid mechanical and ultrasonic rapping, it is not necessary to artificial cleaning and manual maintenance, it is important that every time Cleaning can thoroughly clean face to be cleaned, make its recover clean state, improve cleaning performance and efficiency, reduce cleaning into Originally, avoiding manually, the movable sprinklers plane cleaning device can constantly keep the cleaning on multiple surfaces to be cleaned simultaneously, Do not need each plane to be equipped with nozzle, be the effective scheme that multiple plane cleanings are tackled using a small amount of equipment, low cost.
3) washer jet provided herein, field is cleaned applied to plane, and cleaning spray is configured by each plane Mouth or liquid outlet, it not only avoid reentrainment of dust caused by mechanical and ultrasonic rapping, it is not necessary to artificial cleaning and manual maintenance, weight The each cleaning wanted can thoroughly clean face to be cleaned, recover clean state, improve cleaning performance and efficiency, reduce cleaning Cost, avoid manually, jet cleaning can be carried out to each plane simultaneously, all nozzles be fixed, and reliability is higher, fault rate It is lower, it is high efficiency to multiple planes while the effective scheme of cleaning.
4) the non-maintaining electrostatic cleaning systems of self-cleaning provided herein, there is above-mentioned washer jet, above-mentioned removable The beneficial effect of nozzle plane cleaning device and/or above-mentioned array nozzle plane cleaning device, cleaning can be thoroughly clear every time Clean face to be cleaned, recovers clean state, and the purification efficiency in the service life of at least 15 years remains at starting efficiency In the range of 90%~100%.
5) the non-maintaining electrostatic cleaning systems of self-cleaning provided herein, there is the advantage for saving energy consumption:Compared to not adopting The shortcomings that needing periodic maintenance and long maintenance period with the electrostatic depuration product of technical scheme, dust stratification degree is gradually tight Cause the drawbacks of windage gradually increases, energy loss is serious again, it is non-maintaining quiet using the self-cleaning of technical scheme Electrodecontamination system, because cleaning can thoroughly clean face to be cleaned every time, therefore its drag losses be continuously maintained in 30pa with Under ultralow windage it is horizontal, do not influence air intake, the air-out effect of blower fan.Therefore because of the wind of the small saving of windage during its use Mechanomotive force energy consumption, its energy consumption saving accumulated will be quite notable in the service life of at least 15 years.
6) the non-maintaining electrostatic cleaning systems of self-cleaning provided herein and application, there is high economic benefit:Using this The technical scheme of application, without manual maintenance.Equipment is disposably put into, and manual maintenance is carried out with little need for regular after installation, Such as it is applied in combination with central air conditioner system and/or ventilating system, can effectively optimizes air-conditioning in the colleague for ensuring purification efficiency The energy consumption problem of system;Complete machine uses all-metal material, and service life is up to 15 years, and the cost of labor during which saved will show very much Write.When reaching end of life, its material can also reclaim equipment, and realization recycles simultaneously, not only economized on resources but also avoided environment Pollution.
7) the non-maintaining electrostatic cleaning systems of self-cleaning provided herein and application, there is extremely low water resources consumption Amount:Using the technical scheme of the application, in cleaning process, after cleaning fluid washes away collecting plate, it is collected and then reprecipitation, it is used Cleaning fluid reusable edible, circulation after can not spraying repeatedly until just changed, its every square metre collecting plate year consumption cleaning Liquid dosage is about 0.3m3/ year, well below the several orders of magnitude of annual water consumption of the prior art.So low year water consumption, The demand to water resource can almost be ignored.
8) washer jet provided herein, movable sprinklers plane cleaning device, array nozzle plane cleaning dress Put, the non-maintaining electrostatic cleaning systems of self-cleaning, be widely used:It can support the use, produce with any brand air-conditioning VRV or multi-connected machine Product are widely used in the fields such as office building, hotel, school, market and medical system.Above-mentioned field can be incorporated into by embedded In existing equipment.
Brief description of the drawings
Fig. 1 is a kind of double liquid outlet nozzle low-angles of embodiment of the application.
Fig. 2 is a kind of double liquid outlet nozzle wide-angles of embodiment of the application.
Fig. 3 is a kind of unilateral liquid outlet washer jet side view of embodiment of the application.
Fig. 4 is unilateral the liquid outlet washer jet front view and side view cutaway drawing of a kind of embodiment of the application.
Fig. 5 is a kind of three-dimensional signal of the non-maintaining electrostatic cleaning systems of movable sprinklers self-cleaning of embodiment of the application Figure.
Fig. 6 is a kind of non-maintaining electrostatic cleaning systems schematic diagram of movable sprinklers self-cleaning of embodiment of the application.
Fig. 7 is that a kind of non-maintaining electrostatic cleaning systems section view of movable sprinklers self-cleaning of embodiment of the application is locally put Big schematic diagram.
Fig. 8 is a kind of movable sprinklers schematic perspective view of embodiment of the application.
Fig. 9 is the movable sprinklers front view and sectional view of a kind of embodiment of the application.
Figure 10 is a kind of non-maintaining electrostatic cleaning systems schematic diagram of array nozzle self-cleaning of embodiment of the application.
Figure 11 is a kind of non-maintaining electrostatic cleaning systems partial enlargement of array nozzle self-cleaning of embodiment of the application Schematic diagram.
Figure 12 is the array nozzle front view and side view of a kind of embodiment of the application.
Figure 13 is a kind of array nozzle plane cleaning device stereogram of embodiment of the application.
Figure 14 is a kind of array nozzle plane cleaning device top view of embodiment of the application.
Figure 15 is a kind of array nozzle plane cleaning device side view of embodiment of the application.
Figure 16 is nozzle label schematic diagram in a kind of array nozzle plane cleaning device of embodiment of the application.
Figure 17 be a kind of embodiment of the application array nozzle plane cleaning device in each nozzle relative discharge Distribution map.
Figure 18 is a kind of non-maintaining electrostatic cleaning systems front view of self-cleaning of embodiment of the application and side view.
Figure 19 is a kind of non-maintaining electrostatic cleaning systems sectional view of self-cleaning of embodiment of the application.
Figure 20 is a kind of non-maintaining electrostatic cleaning systems schematic diagram of inserted self-cleaning of embodiment of the application.
Part and reference numerals list:
Embodiment
The application is described in detail with reference to embodiment, but the application is not limited to these embodiments.
Unless otherwise instructed, the raw material in embodiments herein and process equipment are bought by commercial sources.
The washer jet of embodiment 1
In a kind of embodiment of the application, moving nozzle plane cleaning device is deeply collected using bilateral liquid outlet Washer jet in dirt sheet separation.
The structural representation of washer jet 8 in the moving nozzle plane cleaning device is shown in Fig. 1, and washer jet 8 includes Liquid mouth 8-1, liquid outlet 8-2 and diversion division 8-3, cleaning process are after cleaning fluid leaves nozzle 8, on jet to collecting plate 5, are utilized Angular relationship between nozzle 8 and collecting plate 5 so that the cleaning fluid that nozzle 8 ejects can tangentially wash away collecting plate 5, then Using the impulsive force of cleaning fluid, the dust stratification that can effectively clean on collecting plate 5;With reference to intelligent control system, and it is self-defined Periodic purge, the non-maintaining self-cleaning of artificial intelligence can be realized.Using the cleaning way of impulse jet, impulse jet pressure 1Mpa, 2 beats/min of impulse jet frequency.
The lowest part of nozzle 8 is less than collecting plate 5 and the highest point of ionization plate 6, i.e. the liquid outlet 8-1 and liquid outlet of nozzle 8 8-2 and diversion division 8-3 is stretched into inside the gap between collecting plate 5 and ionization plate 6.The liquid outlet 8-1 and liquid outlet 8-2 Opening section product and diversion division 8-3 angle be by design-calculated, in the present embodiment between collecting plate 5 and ionization plate 6 Distance d >=5mm.Liquid outlet 8-1 and liquid outlet 8-2 open slots width dimensions σ meets 0.1mm≤σ≤2mm, diversion division 8-3 is reverse V-shaped structure, and diversion division 8-3 and collecting plate 5 angle λ meet 5 °<λ<90°.Cause is in product practical application, dust The distance between adjacent two plate of plate 5 d value directly influences diversion division 8-3 and collecting plate 5 angle design, used to set Meter standard be the cleaning fluid that ejects of liquid outlet 8-1 and liquid outlet 8-2 can peripheral jet on collecting plate 5, it is effective anti- Only cleaning fluid splash.As several typical embodiments, collecting plate 5 and distance d, the diversion division to collecting plate 5 of ionization plate Distance D1, liquid outlet 8-2 open slots width dimensions σ, diversion division 8-3 and the angle λ of collecting plate 5 are shown in Table 1.
Table 1
Embodiment is numbered d D1 σ λ Injection direction
Embodiment 1-1 5mm 1mm 1mm Tangentially
Embodiment 1-2 8mm 2mm 0.1mm 60° Tangentially
Embodiment 1-3 12mm 3mm 0.8mm 10° Tangentially
Embodiment 1-4 20mm 4mm 1.5mm 75° Tangentially
Embodiment 1-5 30mm 5mm 2mm 80° Tangentially
The washer jet of embodiment 2
In a kind of embodiment of the application, the structure of nozzle 11 is shown in Fig. 2, and the lowest part of nozzle 11 is higher than dust The highest point of plate 5 and ionization plate 6.Nozzle 11 includes liquid outlet 1101, liquid outlet 1102 and diversion division 1103, is respectively positioned on collecting plate 5 and ionization plate 6 gap beyond.The opening section product of the liquid outlet 1101 and liquid outlet 1102 and the angle of diversion division 1103 It is the distance between collecting plate 5 and ionization plate 6 d >=5mm in the present embodiment by design-calculated, liquid outlet 1101 and goes out liquid Mouthfuls 1102 open slots width dimensions σ meets 0.1mm≤σ≤2mm, and diversion division 1103 be reverse V-shaped structure, diversion division 1103 and The angle λ of collecting plate 5 meets 5 °<λ<90°.Because in product practical application, the distance between adjacent two plate of collecting plate 5 d's takes Value directly influences the angle design of diversion division 1103 and collecting plate 5, and used design standard is 1101 and liquid outlet 1102 The cleaning fluid ejected can peripheral jet on collecting plate 5, effectively prevent cleaning fluid splash.As several typical real Apply mode, the distance of the distance d of collecting plate 5 and ionization plate, liquid outlet 1101 and liquid outlet 1102 outlet end to collecting plate 5 D2, liquid outlet 1101 and liquid outlet 1102 open slots width dimensions σ, the angle λ of diversion division 1103 and collecting plate 5 are shown in Table 2. Injection direction is that the cleaning fluid for tangentially referring to eject tangentially contacts collecting plate 5 in table 2.
Table 2
Embodiment is numbered d D2 σ λ Injection direction
Embodiment 2-1 5mm 1mm 1mm 50° Tangentially
Embodiment 2-2 8mm 2mm 0.1mm 30° Tangentially
Embodiment 2-3 12mm 5mm 0.8mm 45° Tangentially
Embodiment 2-4 20mm 10mm 1.5mm 60° Tangentially
Embodiment 2-5 30mm 100mm 2mm 90° Tangentially
The unilateral liquid outlet washer jet of embodiment 3
It is similar with the nozzle arrangements of embodiment 1, the difference is that the washer jet of the present embodiment is unilateral liquid outlet, refer to Fig. 3 unilateral liquid outlet nozzle side view.The front view of the present embodiment one side liquid outlet nozzle is see Fig. 4 (b), its A-A direction Side view cutaway drawing be Fig. 4 (a).
In a detailed embodiment, plane to be cleaned is identical with the collecting plate 5 of embodiment 1, the adjacent collection of each two The unilateral liquid outlet nozzle of two the present embodiment is arranged between dirt plate 5, the liquid outlet of two nozzles is respectively facing the dust of both sides Plate 5.
The non-maintaining electrostatic cleaning systems of movable sprinklers self-cleaning of embodiment 4
In a kind of embodiment of the application, the structural representation of the non-maintaining electrostatic cleaning systems of self-cleaning is shown in Fig. 5, The non-maintaining electrostatic cleaning systems of movable sprinklers self-cleaning of the present embodiment by bottom the collection for gas high pressure electrostatic depuration Dirt section 1 and the movable sprinklers plane cleaning device positioned at the top of dust section 1, movable sprinklers plane cleaning device include sliding Rail 10 and nozzle 11.Nozzle 11 arranges the upper end with dust section 1, and can be along slide rail 10 under the effect of external drive device Deformation trace is completed according to program setting.Fig. 6 (a) is the non-maintaining electrostatic cleaning systems of movable sprinklers self-cleaning shown in Fig. 5 Side view, Fig. 6 (b) be A-A directions sectional view.Dust section shown in Fig. 6 (b) 1 and thereon movable sprinklers plane cleaning Device sectional view partial enlarged drawing is shown in Fig. 7, minimum due to nozzle 11 using the nozzle 11 of embodiment 2 in the present embodiment Place moves higher than collecting plate 5 and the highest point of ionization plate 6, nozzle 11 along slide rail, be can be achieved in moving process to per a piece of dust The cleaning of plate 5 and ionization plate 6.The stereogram of nozzle 11 used in the present embodiment is shown in Fig. 8, and front view is shown in Fig. 9 (b), and sectional view is shown in Fig. 9 (a), the wherein both ends of nozzle 11 have the bulge-structure matched with slide rail 10.
Nozzle 11 could be arranged to two or more in a detailed embodiment, be moved respectively along guide rail, Ke Yi Two or more regions are cleaned simultaneously, improve efficiency.
The non-maintaining electrostatic cleaning systems of array nozzle self-cleaning of embodiment 5
Described in the present embodiment be nozzle in embodiment 1 in a manner of array fixed and arranged forming array formula nozzle from Non-maintaining electrostatic cleaning systems are cleaned, array nozzle plane cleaning device 3 is installed on the top of multiple plate arrays to be cleaned, The plane to be cleaned of each collecting plate 5 arranges a liquid outlet, and as shown in Figure 10, wherein Figure 10 (a) is Figure 10 (b) side views Section B-B sectional view, it is seen that per having a nozzle between two panels collecting plate 5, the nozzle both sides are respectively provided with liquid outlet, institute There is nozzle fixed setting.
C portion regional enlarged drawing is shown in Figure 11 in Figure 10 (a), it is seen that the collecting plate 5 and ionization plate 6 being arranged alternately, collecting plate 5 Height be higher than ionization plate 6, in the gap of two neighboring collecting plate 5, the nozzle that stretches into one embodiment 1, the nozzle is just View is shown in that Figure 12 (b) and side view are shown in Figure 12 (a).
Array nozzle plane cleaning device 3 in the present embodiment, when the laying dust of collecting plate 5 reaches the degree that needs clean, Array nozzle is controlled to the jet cleaning liquid of collecting plate 5, because the angle of nozzle and the design of slit width are pair in embodiment 1 Collecting plate 5 and the optimization of the spacing of ionization plate 6 and liquid outlet position, therefore only need a small amount of cleaning fluid, you can thoroughly clean dust The laying dust on the surface of plate 5 so that collecting plate 5 returns to initial no laying dust state with ionization plate 6.
The array nozzle plane cleaning device of embodiment 6
Nozzle fixed and arranged mode is same as Example 4, and simply the nozzle in the present embodiment is the nozzle of embodiment 2.Its Remaining part point is same as Example 4.
The array nozzle plane cleaning device of embodiment 7
Nozzle fixed and arranged mode is same as Example 4, and simply the nozzle in the present embodiment goes out liquid for the one side of embodiment 3 Mouthful nozzle, the adjacent collecting plate 5 of each two directly arrange two unilateral liquid outlet nozzles, liquid outlet be respectively facing two it is adjacent Collecting plate 5.Remainder is same as Example 4.
The array nozzle plane cleaning device of embodiment 8
Nozzle and fixed and arranged mode are same as Example 4.
On the basis of embodiment 4, the stereogram of array nozzle plane cleaning device 3 is as shown in figure 13, multiple nozzles Array supplies cleaning fluid by a common rail passage, and common rail passage has two inlets, Figure 13 array nozzle plane cleaning dress The top view for putting 3 is shown in Figure 14, and side view is shown in Figure 15, and the isocon that inlet 7 imports cleaning fluid in common rail passage is (in Figure 15 altogether Rail channel center), the cleaning fluid squit hole directive deflector 9 of isocon side, the deflector 9 of the present embodiment is close to arc Polygon or arc and V-type, cleaning fluid enter from water inlet 7, after deflector 9, can to enter each spray The flow of mouth 8 is all uniform.
1 point of elution of comparative example
Dust section is identical with embodiment 4 and 5, but nozzle is different, and comparative example 1 uses 2 round nozzles, in whole dust section Upper area sprinkling elution, it is very poor using the cleaning fluid as embodiment 4 and 5 and total flow, cleaning performance, it is virtually impossible to Wash the laying dust being attached on collecting plate 5., also can only portion using the flow of 100 times of embodiments 4 and 5, or even more flows Distinguish and wash, be unable to reach the effect of thoroughly cleaning collecting plate.Artificial thoroughly cleaning can only be removed after a while, otherwise because of product Dirt excessively can not normal work.
The deflector of comparative example 2
It is same as Example 8, deflector 9 is only removed, the array nozzle of this comparative example and embodiment 8 shown in Figure 16 is put down Face cleaning device 3 is totally 35 nozzles, respectively marked as 801~8035.The array nozzle of this comparative example and embodiment 8 is put down The nozzle quantity of face cleaning device 3 is identical with distribution, and simply this comparative example does not have deflector 9.
In this comparative example, due to without deflector 9, as Figure 17 each nozzle relative discharge distribution map in " be not added with water conservancy diversion Shown in the flow distribution of plate 9 " curve, the 1~35 of abscissa is the nozzle 801~8035 in Figure 16 in Figure 17, and ordinate is relative Flow, the flow distribution of each nozzle is widely different, and the nozzle flow close to inlet is significantly greater than other nozzles, and this will lead Cause:If be defined by the nozzle flow close to inlet, other nozzles are it is possible that clean halfway problem;If with All nozzles, which can clean, to be thoroughly defined, then the nozzle flow close to inlet is too big, cause splash interference cleaning and it is secondary The problems such as pollution, and cleaning fluid consumption is very big.
And after using the deflector 9 of the embodiment of the present application 8, as Figure 17 relative discharges figure " adding the flow distribution of deflector 9 " is bent Shown in line, it is seen that after the deflector 9 of the embodiment of the present application 8, the flow of each nozzle is uniform;Deflector 9 is not used The nozzle flow that the flow of comparative example 2 is apparently located close near the nozzle 809 and 8027 of inlet 7 is too big.
Therefore comparative example 2 is obviously better than using the conspicuousness of the uniform flow effect of embodiment 8 of deflector 9.
The non-maintaining electrostatic cleaning systems of array nozzle self-cleaning of embodiment 9
The outward appearance of the non-maintaining electrostatic cleaning systems of self-cleaning of the application is shown in Figure 18 (a) front view and Figure 18 (b) side View, sectional view are shown in Figure 19 (a) and (b), wherein, the array nozzle plane cleaning device of the present embodiment, which is integrated, is fixed on one Dust section top in high-pressure electrostatic purifier.From Figure 18 and 19, the application array nozzle plane cleaning dress is integrated The non-maintaining electrostatic cleaning systems of self-cleaning postponed, volume and change in shape are little, are only the height that top adds 10% or so Degree, inlet has been stretched out in side.
The non-maintaining electrostatic cleaning systems of self-cleaning have cleaning fluid accumulator tank, and cleaning fluid falls into the cleaning fluid accumulator tank of lower section After interior, precipitation, top clear liquid may be reused next time when cleaning.
Operation 1 year, cleaning fluid, which amounts to, consumes cleaning fluid 0.2m3
The ultralow windage that period windage loss is continuously maintained in below 30pa is horizontal, does not influence air intake, the air-out of blower fan Effect.Therefore because of the blower fan power consumption of the small saving of windage during its use, it is tired in the service life of at least 15 years Long-pending energy consumption saving will be quite notable.
The water consumption of comparative example 3 and windage
The nozzle of comparative example 3 uses operating mode identical with comparative example 1, same, and 1 year cleaning fluid consumption of operation is 120m3。 It can be seen that the cleaning fluid consumption of the embodiment of the present application 9 can be ignored compared with comparative example 3.
Comparative example 1 can not be removed thoroughly due to laying dust after cleaning, and windage is still higher, be exceeded during continuous service 100pa, to 300Pa after have to remove artificial cleaning.The energy-output ratio of 15 years exceeds well over embodiment 8.
The non-maintaining electrostatic cleaning systems of movable sprinklers self-cleaning of embodiment 10
Using the non-maintaining electrostatic cleaning systems of self-cleaning of the movable sprinklers plane cleaning device of the embodiment of the present application 4 For outward appearance with the Figure 18 and 19 for implementing 9, volume and change in shape are little, are only the height that top adds 10% or so, side is stretched Inlet is gone out.
The non-maintaining electrostatic cleaning systems of the inserted self-cleaning of embodiment 11
As shown in Figure 20, the movable sprinklers plane cleaning device of the application can embeddedly with any brand air-conditioning VRV or multi-connected machine support the use, and product is widely used in the fields such as office building, hotel, school, market and medical system.Cleaning Effect and water consumption are the same as embodiment 8 and 9.
It is described above, only it is several embodiments of the application, any type of limitation is not done to the application, although this Shen Please with preferred embodiment disclose as above, but and be not used to limit the application, any person skilled in the art, do not taking off In the range of technical scheme, make a little variation using the technology contents of the disclosure above or modification is equal to Case study on implementation is imitated, is belonged in the range of technical scheme.

Claims (10)

1. a kind of washer jet, it is characterised in that the liquid outlet of the washer jet is shaped as slit;
The slit width of the liquid outlet is 0.1mm~2mm.
2. washer jet according to claim 1, it is characterised in that the washer jet includes diversion division, the water conservancy diversion Portion is located at the outlet end bottom of liquid outlet, the diversion division control hydrojet direction, the angle between the diversion division and face to be cleaned Spend for 10 °~60 °.
3. washer jet according to claim 1, it is characterised in that the washer jet is the plane for cleaning plane Washer jet, the slit width of the liquid outlet is 0.3mm~1mm;The slit of the liquid outlet is parallel with plane to be cleaned.
4. washer jet according to claim 1, it is characterised in that in working condition, the outlet end of the liquid outlet with The distance in face to be cleaned is 1mm~100mm.
5. washer jet according to claim 1, it is characterised in that the washer jet impulse jet cleaning fluid is treated clearly Wash one's face flush clean;
Impulse jet pressure >=the 0.01Mpa, impulse jet frequency >=2 beat/min.
6. washer jet according to claim 1, it is characterised in that what the washer jet included being oppositely arranged first goes out Liquid mouth and the second liquid outlet, the outlet end of first liquid outlet and the second liquid outlet are respectively arranged with the of control hydrojet direction One diversion division and the second diversion division, first diversion division and the second diversion division angle one between plane to be cleaned respectively Cause;
Two neighboring interplanar to be cleaned has dividing plate, and the lowest part of first liquid outlet and the second liquid outlet is treated higher than described Clean plane and the highest portion of dividing plate;Or have between the plane washer jet bottom, the first liquid outlet and the second liquid outlet There is fovea superior structure, the fovea superior structure is located above the dividing plate, and first liquid outlet and the second liquid outlet are respectively protruding into institute In two gaps for stating two adjacent planes to be cleaned and the dividing plate formation between it.
7. washer jet according to claim 1, it is characterised in that the washer jet has along the both ends of slit direction Connecting portion, the connecting portion are used to be slidably connected with slide rail or be fixedly connected with miscellaneous part;
The connecting portion is bulge-structure, is slided in the bulge-structure insertion slide rail and along slide rail;Or the connecting portion is Hollow or concave structure, described hollow or concave structure coordinate with guide rail, slided along guide rail.
A kind of 8. non-maintaining electrostatic cleaning systems of self-cleaning, it is characterised in that the non-maintaining electrostatic cleaning systems bag of self-cleaning Include at least one in any one of dust section and claim 1 to 7 washer jet;
The dust section includes collecting plate and the ionization plate being alternately arranged;
The lowest part of the washer jet is higher than the highest portion of collecting plate and the highest portion of ionization plate of the dust section;Or institute The liquid outlet for stating washer jet is stretched into the gap between two adjacent collecting plates;
The non-maintaining electrostatic cleaning systems of self-cleaning include slide rail and at least one washer jet, the washer jet edge The slide rail is movable at least one section of region to be cleaned on any collecting plate or any collecting plate to the collecting plate or institute Region to be cleaned is stated to be cleaned;
The plane to be cleaned of each collecting plate is fixed with a washer jet;Or the dust that each two is adjacent The washer jet described in one is fixed between plate, the first liquid outlet and the second liquid outlet are respectively facing described two adjacent dusts Plate.
9. the non-maintaining electrostatic cleaning systems of self-cleaning according to claim 8, it is characterised in that the self-cleaning is non-maintaining Electrostatic cleaning systems include cleaning fluid separating circulating device, and in cleaning process, cleaning fluid enters the cleaning after washing away collecting plate After liquid separating circulating device isolates solid phase, liquid phase makes to recycle for follow-up cleaning;
The separate mode includes at least one of precipitation, liquid separation, filtering;
The cleaning fluid annual consumption of every square metre of plane to be cleaned is no more than 0.45m3
10. a kind of non-maintaining electrostatic depuration module of inserted self-cleaning, it is characterised in that the inserted self-cleaning is non-maintaining quiet Electrodecontamination module insertion type be arranged on central air conditioner system, central ventilation system and/or medical system in, it is described it is embedded from Cleaning non-maintaining electrostatic depuration module will including at least one of described washer jet of any one of claim 1 to 7 or right Ask 8 to or at least one of any one of 9 non-maintaining electrostatic cleaning systems of self-cleaning.
CN201720295819.4U 2017-03-24 2017-03-24 Nozzle and apply its non-maintaining electrostatic cleaning systems of self-cleaning Active CN207153962U (en)

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Application Number Priority Date Filing Date Title
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108620239A (en) * 2017-03-24 2018-10-09 北京淘氪科技有限公司 Nozzle and apply its non-maintaining electrostatic cleaning systems of self-cleaning

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108620239A (en) * 2017-03-24 2018-10-09 北京淘氪科技有限公司 Nozzle and apply its non-maintaining electrostatic cleaning systems of self-cleaning

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Effective date of registration: 20190718

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Patentee before: BEIJING T-CAIR TECHNOLOGY CO., LTD.