CN109967238A - A kind of microparticle purification device based on electric coagulating technique - Google Patents

Abstract

The invention discloses a kind of microparticle purification devices based on electric coagulating technique, including for make by microparticle band on the charges of different polarity pre- lotus device, and for generate alternating electric field and after the microparticle with the charges of different polarity is collided with each other coalescence coagulation and device, on the flow path of air draught, the pre- lotus device is located at the upstream of coagulation and device, the pre- lotus device includes the negative ion emission head for electrically connecting to high pressure, it is characterized by: the negative ion emission head extends from the upstream toward downstream on air draught flow path, the downstream of the negative ion emission head is provided with baffle, the baffle and negative ion emission head arranged for interval.The high-concentration anion that pre- lotus device can make negative ion emission head generate strikes on baffle and rebounds; when air draught flows through at this time; microparticle in air can sufficiently be combined with the anion of rebound back, to improve ionization effect, be adsorbed convenient for being collected device.

Description

A kind of microparticle purification device based on electric coagulating technique

Technical field

The present invention relates to air purification field, especially a kind of microparticle purification device based on electric coagulating technique.

Background technique

The method on the market for removing particulate matter in air mainly has the methods of filtering and ionization at present, wherein filter Method needs to consume filtrate, and windage is big.Ionization includes high-pressure electrostatic and anion fine-purification etc., and high-pressure electrostatic refers to by tungsten Silk applies negative high voltage, and generates electric discharge with the pole plate of ground connection, so that negative electrical charge on the particulate matter band in the air passed through, then right Particulate matter, which is collected, reaches air cleaning；Anion fine-purification refers to that a kind of anion generated using itself carries out air The environment optimization of purification, dedusting, taste removal, sterilizing, with being a difference in that using anion as work for traditional air cleaner With the factor, make an initiative sally the harmful substance captured in air.

Electric coagulating technique refers to the microparticle in air after the charges of different polarity, is introduced into the coalescence area added with high voltage electric field In, the microparticle with the charges of different polarity generates of reciprocating vibration so that then microparticle mutually collides under the action of alternating electric field power Coalescence forms bulky grain and is collected.

The existing air cleaning unit based on electric coagulating technique, such as application No. is 201120560320.4 Chinese patents A kind of disclosed three-region type coagulation and deduster, including the first electric field dedusting area, the second coalescence dust collection section and the set gradually Three electric field dedusting areas carry out sufficiently charged and efficiently trap, using second by the first electric field dedusting area to crude particle dust Coalescence while charged of coalescence dust collection section, gradually forms crude particle dust, carries out effective lotus finally by third electric field dedusting area Electricity and trapping, so that being finally greatly decreased from the Dust Capacity that deduster tail portion is discharged, purification system whole efficiency is shown It writes and is promoted；A kind of for another example cooking oil fume integrated treatment system disclosed in the Chinese patent application No. is 201310574092.X, It is made of bipolarity pre electrified device, AC field coalescence capturing device and plasma-catalytic purification device, the pre- lotus of bipolarity It is alternatingly arranged with positive polarity corona discharge electrode, earthing pole and negative polarity corona discharge electrode in electric installation, is put down in AC field coalescence capturing device Row be disposed with electrode plate, electrode plate is connect with AC power source, be disposed in plasma-catalytic purification device multistylus electrode, Metallic sieve, porous catalyst layer and metallic sieve electrode；For another example application No. is 201410795068.3 Chinese patents to disclose A kind of pre electrified coalescence sack cleaner, in inlet air stack be arranged bipolar charge device, including connect one group it is spaced Earth polar and positive and negative discharge electrode form the bipolar charge area of positive and negative alternating electric field, in inlet air stack trailing space and filter warehouse Setting mixes coalescence area in cushion space, and the bulky grain after coalescence quickly enters sock filtration storehouse with air-flow, carried out by filter bag Dirt is separated with gas.

Only one or several anion heads are put in a device in above-mentioned existing anion fine-purification device, cause to release The anion put is uneven in conjunction with the microparticle in air, not high so as to cause purification efficiency.

Summary of the invention

The technical problem to be solved by the present invention is in view of the above-mentioned problems of the prior art, providing a kind of raising collection The microparticle purification device based on electric coagulating technique of ability.

The technical scheme of the invention to solve the technical problem is: a kind of microparticle based on electric coagulating technique is net Makeup is set, including for make by microparticle band on the charges of different polarity pre- lotus device and for generating alternating electric field So that with the charges of different polarity microparticle collide with each other after coalescence coagulation and device, on the flow path of air draught, institute The upstream that pre- lotus device is located at coagulation and device is stated, the pre- lotus device includes the anion emission for electrically connecting to high pressure Head, it is characterised in that: the negative ion emission head extends from the upstream toward downstream on air draught flow path, the anion The downstream of emitting head is provided with baffle, the baffle and negative ion emission head arranged for interval.

Preferably, sufficiently to be combined with the microparticle in air after making anion hit reflection, the baffle is towards remote Direction protrusion from negative ion emission head.

Preferably, to make the shape of baffle and the shape adaptation of anion diffusion, and certain turbulent flow is generated, increased The combination of anion and microparticle, the baffle are arc-shaped.

To make being sufficiently mixed for microparticle and anion, the spacing between the negative ion emission head and corresponding baffle Range is 10mm~30mm.

To further include anion emission plate convenient for negative ion emission head is arranged, negative ion emission head setting bear from On sub- expelling plate, the baffle is correspondingly arranged with anion emission plate.

The charges of different polarity on microparticle band to facilitate access for pre- lotus device, the anion emission plate include the first anion Expelling plate and the second anion emission plate, the first anion emission plate and the second anion emission plate is alternate, cloth side by side It sets, the pre- lotus device further includes for electrically connecting to the first conductive sheet of negative high voltage and for electrically connecting to the second of positive high voltage Conductive sheet, first conductive sheet are electrically connected with the first anion emission plate, second conductive sheet and the second anion emission Plate electrical connection.

For convenient for anion emission plate is arranged, the pre- lotus device further includes the first outline border, first outline border is in both ends The middle empty frame shape of opening and there is opposite the first side wall and second sidewall, the anion emission plate has opposite the The first end of one end and second end, the anion emission plate passes through the first side wall and can be electrically connected with high pressure.

Preferably, the connection structure of anion emission plate and the first outline border is to open on the first side wall of first outline border Equipped with through-hole, card slot is offered on the inside of the second sidewall, the quantity of the through-hole, position are corresponding with card slot, it is described bear from The first end of sub- expelling plate passes through the through-hole on the first side wall and is exposed to the first outer outer frame, and the second of the anion emission plate End snaps onto card slot.

To make the microparticle for taking the charges of different polarity be merged into biggish particle, the coagulation and device include the first pole Plate, the second pole plate, for electrically connecting to the first contact of zero curve and for electrically connecting to the second wafer of firewire, first pole Plate and the second pole plate are adjacent, arrange side by side, and first contact is electrically connected with the first pole plate, the second wafer and the second pole Plate electrical connection.

For convenient for collect coagulation and after form biggish particle, and convenient for pre- lotus device and coagulation and device is arranged, also Including collection device, on the flow path of air draught, the collection device is located at the downstream of coagulation and device., described pre- It is provided with shell outside lotus device, collection device and coagulation and device, the side of the shell offers the first socket, the second socket With third socket, on the inner sidewall of the shell, the two sides adjacent with the side for opening up socket, it is respectively arranged with and the first socket Corresponding first slot and corresponding second slot of the second socket and third slot corresponding with third socket, the pre- lotus Device is inserted into the first slot and relatively fixed with shell from the first socket, the coagulation and device is inserted into from the second socket Relatively fixed with shell in second slot, the collection device is inserted into third slot and opposite with shell from third socket It is fixed.

Compared with the prior art, the advantages of the present invention are as follows: pre- lotus devices by locating to be arranged negative ion emission head is opposite Baffle, the high-concentration anion that negative ion emission head can be made to generate strike on baffle and rebound, and air draught flows through at this time When, the microparticle in air can sufficiently be combined with the anion of rebound back, so that ionization effect is improved, convenient for being collected Device is adsorbed；In coagulation and device, two pieces of adjacent pole plates apply the High Level AC Voltage of opposite polarity, so that every two pieces of pole High-voltage alternating electric field can be formed between plate, the particulate matter with the charges of different polarity generates back and forth under the action of alternating electric field power Vibration is so that particulate matter mutually collides then coalescence and forms bulky grain, by the HEPA collection of rear end to reach air cleaning；This Outside, pre- lotus device, coagulation and the positioning method of device and collection device and shell, dismount in which can be convenient；Integral manufacturing is simple, Cost is relatively low.

Detailed description of the invention

Fig. 1 is the schematic diagram of the microparticle purification device of the embodiment of the present invention；

Fig. 2 is the decomposition texture schematic diagram of the microparticle purification device of the embodiment of the present invention；

Fig. 3 is the decomposition texture schematic diagram of the pre- lotus device of the microparticle purification device of the embodiment of the present invention；

Fig. 4 is the cross-sectional view of the pre- lotus device of the embodiment of the present invention；

Fig. 5 is the coagulation of the air cleaning unit of the embodiment of the present invention and the decomposition texture schematic diagram of device.

Specific embodiment

The present invention will be described in further detail below with reference to the embodiments of the drawings.

Referring to Fig. 1 and Fig. 2, it is a kind of based on coagulation and microparticle purification device, including pre- lotus device 1, collection device 2, Shell 3 and coagulation and device 4, above-mentioned pre- lotus device 1, collection device 2 and coagulation and device 4 are arranged in shell 3.In sky On the flow path of gas air-flow, pre- lotus device 1 is located at most upstream, and collection device 2 is located at most downstream, and simultaneously device 4 is arranged coagulation Between pre- lotus device 1 and collection device 2.Wherein, the spacing between pre- lotus device 1 and coagulation and device 4 is 20cm~30cm, And coagulation simultaneously be then close to be arranged by device 4 and collection device 2.Air is after pre- lotus device 1, and the microparticle of the inside is (predominantly Pm2.5, or smaller particle) charges of different polarity are taken respectively, into after coagulation and device 4, with the micro- of the charges of different polarity Particle attract and is then combined with to form biggish microparticle, is collected by the collection device 2 in downstream.

Shell 3 is made of insulating material, and one side offers the first socket 31, the second socket 32 and third socket 33, outside Two sides on the inner sidewall of shell 3, adjacent with the side for opening up socket are respectively arranged with first slot corresponding with the first socket 31 34, second slot 35 corresponding with the second socket 32, and third slot 36 corresponding with third socket 33.Pre- lotus device 1 from First socket 31 is inserted into the first slot 34 and relatively fixed with shell 3, coagulation and device 3 is inserted into from the second socket 32 It is relatively fixed with shell 3 in second slot 35, collection device 2 from third socket 33 be inserted into third slot 36 and with it is outer Shell 3 is relatively fixed.Shown in attached drawing 1, the bottom of shell 3 is arranged in collection device 2, and pre- lotus device 1 is arranged in shell 3 Top, and the bottom and top of shell 3 be opening, so that air draught passes through.

Referring to Fig. 3 and Fig. 4, pre- lotus device 1 include the first outline border 11, negative ion emission head 12, anion emission plate 13, First conductive sheet 14, the second conductive sheet 15 and baffle 16.

First outline border 11 is in the middle empty frame shape of both ends open, and has opposite the first side wall 111 and second sidewall 112.Anion emission plate 13 is elongated, extends between the first side wall 111 and second sidewall 112.In the present embodiment, it bears Emission of ions plate 13 has multiple, and arranged for interval arranged side by side.Through-hole is offered on the first side wall 111 of first outline border 11 1111, the inside of second sidewall 112 offers card slot 1121, and the quantity of through-hole 1111, position are corresponding with card slot 1121.Bear from Sub- expelling plate 13 has opposite first end and second end in the longitudinal direction, and the first end of anion emission plate 13 passes through first Through-hole 1111 on side wall 111 and be exposed to outside the first outline border 11, the second end of anion emission plate 13 snaps onto card slot 1121 It is interior, so that anion emission plate 13 and the position of the first outline border 11 are relatively fixed.

It is provided with multiple negative ion emission heads 12 on each anion emission plate 13, each negative ion emission head 12 is towards One outline border, 11 inside (downstream) extends.Preferably, between length direction of each negative ion emission head 12 along anion emission plate 13 Every equably arranging, and anion emission plate 13 is also arranged in shell 1 evenly and at intervals.

All anion emission plates 13 include the first anion emission plate 131 for electrically connecting to negative high voltage and are used for It is electrically connected to 132 two types of the second anion emission plate of positive high voltage, the first anion emission plate 131 and the second anion hair Penetrate that plate 132 is alternate, arranges side by side, so that each first anion emission plate 131 (counts, odd number from front to back from Fig. 3 Column) it separately arranges, each second anion emission plate 132 (being counted from front to back from Fig. 3, even column).

The outside of the first side wall 111 of first outline border 11 is provided with the first conductive sheet 14, the second sidewall of the first outline border 11 112 outside is provided with the second conductive sheet 15.Wherein, the first conductive sheet 14 is electrically connected with each first anion emission plate 131 It connects, and is connect with negative high voltage packet, voltage is preferably -3000~-4000V；Second conductive sheet 15 is sent out with each second anion The electrical connection of plate 132 is penetrated, and is connect with positive high voltage packet, voltage is preferably 3000~4000V.

Alternatively, the position of the first anion emission plate 131 and the second anion emission plate 132 is interchangeable.

On the path of air draught flowing, in the first outline border 11, positioned at the downstream of negative ion emission head 12, it is provided with gear Plate 16, negative ion emission head 12 extend towards baffle 16, and have certain interval between the two.Baffle 16 is also first Extend between the first side wall 111 and second sidewall 112 of outline border 11, and the both ends of baffle 16 can be with the of the first outline border 11 One side wall 111, second sidewall 112 inside be connected and fixed.Baffle 16 is corresponding with anion emission plate 13, it may have and it is multiple, and And interval setting side by side.

Referring to fig. 4, arrow show the flow direction of air draught, when negative ion emission head 12 passes through the first conductive sheet 14, after the second conductive sheet 15 connects high pressure, the high-concentration anion of generation can be struck on the arc-shaped baffle 16 in downstream simultaneously It can rebound, when air draught flows through at this time, the microparticle in air can sufficiently be combined with the anion of rebound back, then It goes through from the gap between baffle 16, is adsorbed by the microparticle collection device in downstream.

To make being sufficiently mixed for microparticle and anion, the spacing between negative ion emission head 12 and corresponding baffle 16 exists Between 10mm~30mm.Further, since the anion that negative ion emission head 12 is launched is with annular shape to external diffusion, therefore every A baffle 16 is directed away from the direction protrusion of negative ion emission head 12, it is preferred that the protrusion being arc-shaped, arc-shaped baffle 16 Certain turbulent flow can be generated, to increase the mixing of microparticle and anion.

Referring to fig. 2 and Fig. 5, coagulation and device 4 include the second outline border 41, the first pole plate 42, the second pole plate 43, the first contact 44 and the second wafer 45, wherein the first pole plate 42, the second pole plate 43 are preferred made of aluminum.

First pole plate 42 and the second pole plate are 43 adjacent, arrange side by side, so that each first pole plate 42 is (from Fig. 2 and Fig. 5 In count from front to back, odd column) separately arrangement, the second pole plate 43 (being counted from front to back from Fig. 2 and Fig. 5, even column) it is alternate Every arrangement, each first pole plate 42 and the second pole plate 43 are respectively provided with first end and second end opposite on length direction.Second Outline border 41 has opposite third side wall 411 and the 4th side wall 412, is respectively set on the inside of third side wall 411 and the 4th side wall 412 There is card slot 46, the card slot 46 on every side is corresponding to the quantity of the first pole plate 42, the second pole plate 43, and 46 compartment of terrain of each card slot Arrangement.

The first end of each first pole plate 42 engage with a card slot 46 of the 4th side wall 412 and with the 4th side wall 412 Inside abut, the second end of each first pole plate 42 corresponding card slot 46 from third side wall 411 is pierced by the second outline border 41 Outside, the position of the first pole plate 42 and the second outline border 41 is relatively fixed as a result,.Each first pole plate 42 is pierced by 41 third of the second outline border Third connector 421 has been bent to form in the second end of side wall 411.The third side wall of the second outline border 41 is arranged in first contact 44 411 outsides, and be electrically connected with the third connector 421 on the first pole plate 42, and connect zero curve.

The first end of each second pole plate 43 engage with a card slot 46 of third side wall 411 and with third side wall 411 Inside abut, the second end of each second pole plate 43 corresponding card slot 46 from the 4th side wall 412 is pierced by the second outline border 41 Outside, the position of the second pole plate 43 and the second outline border 41 is relatively fixed as a result,.Each second pole plate 43 is pierced by the second outline border 41 the 4th The 4th connector 431 has been bent to form in the second end of side wall 412.The 4th side wall of the second outline border 41 is arranged in the second wafer 45 412 outsides, and be electrically connected with the 4th connector 431 on the second pole plate 43, and connect High Level AC Voltage firewire.

Alternatively, the position of the first pole plate 42 and the second pole plate 43 is interchangeable.

To coagulation and after device 4 is electrified, the first adjacent pole plate 42 and the second pole plate 43 apply the height of opposite polarity Pressure alternating current under the action of high-voltage alternating electric field, takes so that can form high-voltage alternating electric field between every two pieces of pole plates The microparticle of the charges of different polarity can attract each other collision then coalescence at biggish microparticle, by the collection device 2 in downstream collect from And reach air cleaning.

Claims (10)

1. a kind of microparticle purification device based on electric coagulating technique, including pre- lotus device (1) and coagulation and device (4), in sky On the flow path of gas air-flow, the pre- lotus device (1) is located at the upstream of coagulation and device (4), and the pre- lotus device (1) includes For electrically connecting to the negative ion emission head (12) of high pressure, it is characterised in that: the negative ion emission head (12) is from air draught Upstream toward downstream on flow path extends, and the downstream of the negative ion emission head (12) is provided with baffle (16), the baffle (16) and negative ion emission head (12) arranged for interval.

2. the microparticle purification device according to claim 1 based on electric coagulating technique, it is characterised in that: the baffle (16) it is directed away from the direction protrusion of negative ion emission head (12).

3. the microparticle purification device according to claim 2 based on electric coagulating technique, it is characterised in that: the baffle (16) it is arc-shaped.

4. the microparticle purification device according to claim 1 based on electric coagulating technique, it is characterised in that: the anion The range of spacing between emitting head (12) and corresponding baffle (16) is 10mm~30mm.

5. the microparticle purification device according to any one of claims 1 to 4 based on electric coagulating technique, feature exist In: it further include anion emission plate (13), the negative ion emission head (12) is arranged on anion emission plate (13), the gear Plate (16) is correspondingly arranged with anion emission plate (13).

6. the microparticle purification device according to claim 5 based on electric coagulating technique, it is characterised in that: the anion Expelling plate (13) includes the first anion emission plate (131) and the second anion emission plate (132), first anion emission Plate (131) and the second anion emission plate (132) are alternate, arrange side by side, and the pre- lotus device (1) further includes for being electrically connected The first conductive sheet (14) to negative high voltage and the second conductive sheet (15) for electrically connecting to positive high voltage, first conductive sheet (14) it is electrically connected with the first anion emission plate (131), second conductive sheet (15) and the second anion emission plate (132) electricity Connection.

7. the microparticle purification device according to claim 5 based on electric coagulating technique, it is characterised in that: the pre- lotus dress Setting (1) further includes the first outline border (11), and first outline border (11) is in the middle empty frame shape of both ends open and with opposite the One side wall (111) and second sidewall (112), the anion emission plate (13) has opposite first end and second end, described The first end of anion emission plate (13) passes through the first side wall (111) and can be electrically connected with high pressure.

8. the microparticle purification device according to claim 7 based on electric coagulating technique, it is characterised in that: outside described first It is offered through-hole (1111) on the first side wall (111) of frame (11), offers card slot on the inside of the second sidewall (112) (1121), the quantity of the through-hole (1111), position are corresponding with card slot (1121), the first end of the anion emission plate (13) Through-hole (1111) on the first side wall (111) and be exposed to the first outline border (11) outside, the anion emission plate (13) Second end snaps onto card slot (1121).

9. the microparticle purification device according to any one of claims 1 to 4 based on electric coagulating technique, feature exist In: the coagulation and device (4) include the first pole plate (42), the second pole plate (43), for electrically connecting to the first contact of zero curve (44) and for electrically connecting to firewire the second wafer (45), first pole plate (42) and the second pole plate (43) are adjacent, arranged side by side Ground arrangement, first contact (44) are electrically connected with the first pole plate (42), the second wafer (45) and the second pole plate (43) electricity Connection.

10. the microparticle purification device according to any one of claims 1 to 4 based on electric coagulating technique, feature exist In: it further include collection device (2), on the flow path of air draught, the collection device (2) is located at coagulation and device (4) Downstream, be provided with shell (3) outside the pre- lotus device (1), collection device (2) and coagulation and device (4), the shell (3) Side offer the first socket (31), the second socket (32) and third socket (33), on the inner sidewall of the shell (3), with The adjacent two sides in the side of socket are opened up, the first slot (34) corresponding with the first socket (31) is respectively arranged with, is inserted with second Mouth (32) corresponding second slot (35) and third slot (36) corresponding with third socket (33), the pre- lotus device (1) It is inserted into the first slot (34) and relatively fixed with shell (3) from the first socket (31), the coagulation and device (3) are from second Socket (32) is inserted into the second slot (35) and relatively fixed with shell (3), and the collection device (2) is from third socket (33) It is interior and relatively fixed with shell (3) to be inserted into third slot (36).