CN105026842A - Ionizer and dust collector - Google Patents

Abstract

The present invention relates to an ionizer and a dust collector which are safe and have high efficiency. The ionizer includes a circuit for generating a high voltage, a circuit case which encloses the circuit, an electrode arranged on an outside of the circuit case for discharging owing to the high voltage generated at the circuit to ionize molecules in air, a cable which connects the electrode to the circuit electrically, a cable cover projected from the circuit case to support the cable, and an electrode cover connected to the cable cover arranged at a portion around the electrode.

Description

Ion generator and dust arrester

Technical field

The present invention relates to a kind of ion generator (ionizer, electro-dissociator) and a kind of dust arrester.More specifically, the present invention relates to safe and efficient ion generator and dust arrester.

Background technology

Generally, air-conditioning is the machine by using kind of refrigeration cycle to come for room cooling or heating, and this kind of refrigeration cycle comprises compressor, outdoor heat converter, expansion valve and indoor heat converter.That is this air-conditioning can have for the room cooler for room cooling, and for the household heater to rooms.Or this air-conditioning can be air conditioner, for being room cooling or heating.

The indoor unit of air-conditioning can be provided with dust arrester, for collecting and removing foreign matter (suspension etc. in such as dust, air).Dust arrester can be implemented as various modes, and a kind of electronic dust catcher of current use, it is by making foreign-matter electrical to collect foreign matter.

Summary of the invention

Technical problem

Therefore, the present invention is devoted to solve the problem, and an object of the present invention is to provide efficient ion generator and dust arrester.

Another object of the present invention is to provide safe ion generator and dust arrester.

Other advantage of the application, object and feature will partly be stated in explanation subsequently, partly hereafter and easily see by checking for persons skilled in the art, or can know to practice of the present invention.

Solution

In order to realize object of the present invention, the ion generator according to the present invention's one exemplary embodiment comprises: circuit, for generating high voltage; Circuit box, it encapsulates this circuit; Electrode, is arranged on outside this circuit box, in order to by the high voltage generated in the circuit discharge (discharging), with by the molecular ionization in air; Cable, this electrode is electrically connected to this circuit by it; Cable hood, stretches out to support this cable from this circuit box; And electrode hood, be connected to this cable hood and be set to part around this electrode.

In order to realize object of the present invention, the ion generator according to the present invention's one exemplary embodiment comprises: circuit, for generating high voltage; Circuit box, it encapsulates this circuit; Electrode, is arranged on outside this circuit box, in order to discharge by the high voltage generated in the circuit, with by the molecular ionization in air; Cable, this electrode is electrically connected to this circuit by it; Cable hood, stretches out to support this cable from this circuit box; And electrode hood, be connected to this cable hood, cover this electrode in order to the direction flowing to this electrode along air.

In order to realize object of the present invention, the dust arrester according to the present invention's one exemplary embodiment comprises: disposal box, is wherein formed with the runner for air flowing; Circuit, for generating high voltage; Circuit box, is arranged in this disposal box to encapsulate this circuit; Electrode, is arranged on outside this circuit box, in order to discharge with by the molecular ionization in air by the high voltage generated in the circuit; Dust-collecting filter, is arranged in this disposal box, the ion produced from this electrode in order to Collection utilization and power up the foreign matter of (charged); Cable, this electrode is electrically connected to this circuit by it; Cable hood, stretches out to support this cable from this circuit box; And electrode hood, be connected to this cable hood, in order to cover the side of this electrode flowing to the direction of this electrode along air, and expose the part electrode along the direction being provided with this dust-collecting filter.

By the structure that text description herein and claims and accompanying drawing are specifically noted, can realize and obtain object of the present invention and other advantage.

Accompanying drawing explanation

Fig. 1 is the front view of the air-conditioning illustrated in accordance with a preferred embodiment of the present invention;

Fig. 2 is the sectional view of the air-conditioning illustrated in Fig. 1;

Fig. 3 is the front view of the dust arrester illustrated in accordance with a preferred embodiment of the present invention;

Fig. 4 is the part sectioned view that dust arrester shown in Fig. 3 is shown;

Fig. 5 is the front view of the ion generator illustrated in accordance with a preferred embodiment of the present invention;

Fig. 6 is the rearview of the ion generator illustrated in Fig. 5;

Fig. 7 is the stereogram of the ion generator illustrated in Fig. 5; And

Fig. 8 is the detailed view in local of the ion generator illustrated in Fig. 5.

Detailed description of the invention

Specifically describe on the basis of embodiment subsequently consulting by reference to the accompanying drawings, will easily see advantage of the present invention, feature and be used for realizing both methods.But, the disclosed embodiments after the present invention is not limited to, but can be implemented by different mode, in order to disclose the present invention fully and intactly inform those skilled in the art's scope of the present invention and provide multiple embodiment, and the present invention will only be limited by the scope of claim.In the case of any possible, same reference numerals will be used for representing same or analogous parts in all of the figs.

Hereinafter, ion generator and dust arrester is according to the preferred embodiment of the invention specifically described with reference to the accompanying drawings.

Fig. 1 is the front view of the air-conditioning illustrated in accordance with a preferred embodiment of the present invention, and Fig. 2 is the sectional view of the air-conditioning illustrated in Fig. 1.

Air-conditioning 100 in accordance with a preferred embodiment of the present invention comprises: casing 110; Dust arrester 120, is arranged on inside casing 110, for removing foreign matter in the air from flowing; Fan unit 130, flows for making air; And heat exchanger 140, for making the air that flows because of fan unit 130 and cold-producing medium carry out heat exchange, thus control temperature.In this embodiment, air-conditioning is vertical.

Casing 110 comprises: casing ontology 111; Cabinet cover 114, is arranged on and is connected to the front portion of casing ontology 111; Front lower portion plate 113, is connected to casing ontology 111, and it is formed with air inlet 116, and this air inlet is used for extraneous air to be drawn into inside casing 110; And front upper part plate 112, be connected to casing ontology 111, and it have exhaust outlet 115, this exhaust outlet 115 is for being discharged to air outside it inside casing 110.

Molecule in air ionizes by dust arrester 120, to utilize ion to make foreign-matter electrical, and collects foreign matter charged therefrom.Dust arrester 120 will be specifically described afterwards with reference to Fig. 3 and 4.

Fan unit 130 is arranged in casing 110.Fan element 130 makes air flow, thus makes air suck casing from the outside of casing 110 and be discharged to the outside of casing 110 through dust arrester 120 and heat exchanger 140.Fan element 130 comprises motor 132, and in order to produce revolving force, and fan 131 is rotated by motor 132.

Heat exchanger 140 makes air and cold-producing medium carry out heat exchange, to cool or to add hot-air.If cold-producing medium heat exchanger 140 place evaporation, then air be cooled, and if cold-producing medium in the condensation of heat exchanger place, then air is heated.Heat exchanger 140 can comprise pipeline (not shown), and cold-producing medium flows through this pipeline; And fin (not shown), be connected to pipeline.Heat exchanger 140 is made of metal.

Air flows in the following manner.If motor 132 rotates thus rotary fan 131, then extraneous air is introduced into the inner side of casing 110 through air inlet 116.Be incorporated into air inside casing 110 through dust arrester 120, therefrom to remove foreign matter.Along with fan 131 rotates, the air being removed foreign matter moves to heat exchanger 140.Carry out heat exchange at heat exchanger 140 place's air and cold-producing medium, air is cooled or heating thus.Like this, the air carrying out heat exchange is discharged to outside casing 110 through outlet 115.

Fig. 3 is the front view of the dust arrester illustrated in accordance with a preferred embodiment of the present invention, and Fig. 4 is the part sectioned view that dust arrester shown in Fig. 3 is shown.

Dust arrester 120 in accordance with a preferred embodiment of the present invention comprises: disposal box 121, is wherein formed with runner; Ion generator 122, for producing ion by the molecular ionization in air; The ion trap 123 of ground connection, for collecting the ion produced by ion generator 122; And charged dust-collecting filter 124, the ion produced by ion generator 122 in order to Collection utilization and the foreign matter be powered.

Be formed with runner in disposal box 121, make air can be introduced into gas port 116 and flow to fan unit 130.Disposal box 121 is hollow, thus air inlet 116 is communicated with fan unit 130.In this embodiment, disposal box 121 is hexagon, and has the relative both sides of opening.

In this embodiment, disposal box 121 has multiple subregion, and ion generator 122 is arranged in a part for these subregions.Preferably, ion generator 122 is arranged on debris collection area 127 center on the downside of disposal box 121.

For removing the sterilizing filter 128 of microorganism and/or the multiple part places not arranging ion generator 122 can being arranged on for the odor removal filter 129 of deodorizing.In this embodiment, sterilizing filter 128 and odor removal filter 129 are arranged on the upside of disposal box 121.

That is, disposal box 121 has the subregion of the plane perpendicular to air-flow direction, for performing function different from each other, the debris collection area 127 of one of them subregion has ion generator 122, dust-collecting filter 124 and ion trap 123 disposed thereon, another subregion has sterilizing filter 128 disposed thereon, and another subregion has odor removal filter 129 disposed thereon again.

In this embodiment, although ion generator 122, sterilizing filter 128 and odor removal filter 129 be arranged on identical, perpendicular in the plane of air-flow direction, but according to multiple embodiment, ion generator 122, sterilizing filter 128 and odor removal filter 129 can be arranged in succession relative to air-flow direction.That is, relative to air-flow direction, sterilizing filter 128 and odor removal filter 129 can be set in succession, and ion generator 122 can be arranged on thereafter.

Debris collection area 127 place in disposal box 121, has the ion generator 122, ion trap 123 and the dust-collecting filter 124 that in succession arrange at air-flow direction.

Ion generator 122 generates high voltage and results through electrode discharge, thus ionizes the molecule in air.The ion produced from ion generator 122 makes foreign-matter electrical.Ion generator 122 is arranged on the center of debris collection area 127.Now specifically describe ion generator 122 with reference to Fig. 5 to Fig. 8.

The ion that ion trap 123 collection of ions generator 122 produces.Ion trap 123 is metallic objects of ground connection, in order to collection of ions.Ion trap 123 is made up of the metal of web form.Ion reduces at ion trap 123 place.Ion trap 123 collects the ion failing to make foreign-matter electrical, to prevent ion burning victimization body.

Ion trap 123 is arranged in disposal box 121.Ion trap 123 is arranged on dust-collecting filter 124 relative in the rear portion of air-flow direction.According to multiple embodiment, ion trap 123 can be arranged in dust-collecting filter 124 rear portion or be arranged between multiple dust-collecting filter 124.Preferably, ion trap 123 and ion generator 122 separate, in order to the electric discharge preventing ion trap 123 from affecting ion generator 122.

Dust-collecting filter 124 collects charged foreign matter.Dust-collecting filter 124 is arranged in disposal box 121.Dust-collecting filter is arranged on ion trap 123 rear portion (along air-flow direction viewing).According to multiple embodiment, dust-collecting filter 124 can be arranged between ion generator 122 and ion trap 123.Dust-collecting filter 124 is made up of synthetic resin, is formed with small flow channels among this synthetic resin, passes through in order to make air.

Dust-collecting filter 124 is added positive electricity and/or negative electricity.Dust-collecting filter 124 collected electronegative foreign matter by the part adding positive electricity, and dust-collecting filter 124 added the foreign matter of the part collecting belt positive electricity of negative electricity.

Dust-collecting filter 124 can and the ion trap close with it separate.Preferably, the gap between ion generator 122 and ion trap 123 is greater than the gap between dust-collecting filter 124 and ion trap 123.

According to multiple embodiment, ion trap 123 can be saved, and the heat exchanger 140 substitution ion trap 123 that can be made up of metal.That is heat exchanger 140 can ground connection, make the heat exchanger 140 of ground connection can therefore collection of ions.

Fig. 5 is the front view of the ion generator illustrated in accordance with a preferred embodiment of the present invention, Fig. 6 is the rearview of the ion generator illustrated in Fig. 5, Fig. 7 is the stereogram of the ion generator illustrated in Fig. 5, and Fig. 8 is the detailed view in local of the ion generator illustrated in Fig. 5.

Ion generator 122 in accordance with a preferred embodiment of the present invention comprises: circuit, for generating high voltage 122c; Circuit box 122d, for encapsulating this circuit 122c; Electrode 122a, is arranged on the outside of circuit box 122d, in order to discharge with the molecule in ionized air by the high voltage generated at circuit 122c place; Cable 122b, in order to be electrically connected to circuit 122c by electrode 122a; Cable hood 122e, stretches out to support cable 122b from circuit box 122d; And electrode hood 122g, be connected to cable hood 122e and be set to the part around electrode 122a.

Circuit 122c is the circuit discharged with power pole 122a for generating high voltage.This circuit can generate interchange (AC) electric current, positive or negative direct current (DC) electric current or high voltage pulse direct current (DC) electric current, and by electric current supply to electrode 122a.In this embodiment, electric current 122c is the constant voltage circuit generating negative direct current (DC) electric current.Preferably, circuit 122c 15 ~ 25% load (Duty), 100Hz? output-7kVp under the frequency of 10%? 8% voltage.Circuit 122c comprises printed circuit board (PCB) (PCB) and various electronic equipment.

Circuit box 122d encapsulated circuit 122c, prevents electric current from leaking from circuit 122c with this protection circuit 122c.Preferably, circuit box 122d is the rectangular parallelepiped protrusion part of plastic material.Circuit box 122d can have the inner side of silicon rubber molding in order to protection circuit 122c.Circuit box 122d is arranged in disposal box 121.

Cable 122b stretches out from circuit box 122d and is connected to electrode 122a.One end of the cable of strip is connected to circuit box 122d, and the other end is provided with electrode 122a.Cable 122b comprises: wire, for the high voltage transfer that will generate at circuit 122c place to electrode 122a; And plastic sheath, in order to cover the outside of wire.Circuit 122a is electrically connected to electrode 122a by cable 122b.

According to electrode 122a quantity, cable 122b can be many.In this embodiment, around the circuit box 122d be spaced, four cable 122b are provided with.These cables 122b is supported by cable hood 122e respectively.

Electrode 122a discharges, with the molecule in ionized air.By the high voltage that circuit 122c place generates being applied to electrode 122a via cable 122b, electrode discharge and molecule in ionized air, thus produce ion.By high voltage is applied to electrode 122a, produce anion (such as OH-, O-etc.) or cation (such as H+ etc.).

Electrode 122a is made up of carbon fibre.The electrode 122a of fine carbon fibre produces ion by corona discharge.Preferably, electrode 122a is the fine carbon fibre of the hundreds of μm of rank diameter be bound by cable 122b, to form the shape being similar to brush.In an embodiment, electrode 122a is brush, and this brush has about 1000 carbon fibres of 7 μm of diameters of getting together.

In the electrode 122a (it is a branch of carbon fibre) of brush, only has a carbon fibre electric discharge.According to multiple embodiment, electrode 122a can be formed as being that needle-like or tool are figuratum netted.Electrode 122a can be multiple, and this embodiment is depicted as four electrode 122a.

Preferably, multiple electrode 122a is properly spaced setting each other, minimizes to make interference each other.Preferably, multiple electrode 122a to be equidistantly spaced perpendicular on the imaginary plane of air-flow direction, thus relative to up/down direction or left/right direction symmetrical.By cable 122b, electrode and circuit box 122d are spaced apart.

The ion produced by electrode 122a makes foreign-matter electrical.Anion provides electronics to foreign matter and makes foreign matter electronegative, and cation is taken away electronics from foreign matter and makes foreign matter positively charged.

The cable hood 122e be made of plastics stretches out from circuit box 122d.Cable hood 122e can be formed as a unit with circuit box 122d, or is individually formed and is connected to circuit box 122d.The side of cable hood 122e is connected to circuit box 122a and opposite side is connected to electrode hood 122g.Cable hood 122e can be multiple, and itself and cable 122b match, and the suggestion of this embodiment is four cable hood 122e.

Cable hood 122e is cylindrical with the perimembranous around strip cable.Cable hood 122e has the sidepiece of opening (opening), therefore cable hood 122e semicircular in shape, thus substantially around a part for the perimembranous of cable 122b.Preferably, cable hood 122e has the sidepiece of opening along the direction that air flows to cable hood 122e.Preferably, the above-mentioned opening of cable hood 122e sidepiece along with ion trap 123 and/or dust-collecting filter 124 arranges just in the opposite direction on formed.A part of cable 122b is not covered by cable hood 122e on the direction flowing to cable along air, but exposes outside.

Cable hood 122e has towards the outstanding support jut 122f of opening.Support that jut 122f supports cable 122b.Supporting that cable 122b is fixed as by jut 122f makes a part of cable 122b be arranged in cable hood 122e.

In the part relative with supporting jut 122f, there is the hole 122h be formed as with supporting that jut 122f matches.Hole 122h is formed to support jut 122f in order to be formed when cable hood 122e casting.

The electrode hood 122g be made up of plastics is connected to cable hood 122e.Electrode hood 122g can be multiple, and itself and multiple electrode 122a match, and the suggestion of this embodiment is four electrode hood 122g.Preferably, multiple electrode hood 122g is suitably arranged each other separatedly.Electrode hood 122g is set to be separated by cable hood 122e and circuit box 122d.

Electrode hood 122g flows to the direction coated electrode 122a of electrode along air.In the part in the outflow direction along air of electrode hood 122g, there is opening, to form electrode opening 122i.The side coated electrode 122a in the opposite direction that electrode hood 122g edge and ion trap 123 and/or dust-collecting filter 124 are arranged, and electrode hood 122g exposes electrode 122a in the part in the direction that it is arranged along ion trap 123 and/or dust-collecting filter 124.Electrode opening 122i is formed on the direction arranged along ion trap 123 and/or dust-collecting filter 124.

Electrode opening 122i is formed on the side contrary with the sidepiece opened of cable hood 122e.The part along the direction that air flows out of electrode 122a is not covered by electrode hood 122g but exposes outside.

The longitudinal direction end of electrode hood 122g stretches out in outside the longitudinal direction end of electrode 122a.In this case, this longitudinal direction end is cable 122b or cable hood 122e end in their length direction.Preferably, the clearance G between the longitudinal direction end of electrode hood 122g and the longitudinal direction end of electrode 122a is in the scope of 1mm.Preferably, the longitudinal direction end by making the longitudinal direction end of electrode 122a not stretch out in the external guard electrode 122a of the longitudinal direction end of electrode hood 122g.

Electrode hood 122g prevents the conductive material contacts inserted through air inlet 116 by user to electrode 122a, and prevents the foreign matter in moving air to clash into electrode 122a.Electrode 122a is formed with opening in its part along air outflow direction, and this electrode 122a can improve ion-generating efficiencies.

Like this, although demonstrated above and described the preferred embodiment of the present invention, but it will be apparent to one skilled in the art that the present invention should not be limited to above-described embodiment and accompanying drawing, but can various change or modification be carried out when not deviating from scope of the present invention and technological layer.

As mentioned before, ion generator of the present invention and dust arrester have the one or more advantages in following advantages.

The first, by electrode hood to the effective covering of electrode being applied with high-tension electricity, can prevent user from getting shocked, and abnormal contact can be prevented to electrode.

The second, by the effective covering of electrode hood to the electrode for the molecule in ionized air, ion generation rate can be improved.

3rd, modular ion generator can easily be applied to various dust arrester and air-conditioning.

4th, occupy minimum space by what make the electrode of generation ion, the reduction of air velocity can be made to minimize.

Advantage described before advantage of the present invention should not be limited to, those skilled in the art can understand other effect do not addressed above from the detailed description of claims.

Claims (14)

1. an ion generator, comprising:

Circuit, for generating high voltage;

Circuit box, it encapsulates described circuit;

Electrode, is arranged on the outside of described circuit box, in order to discharge by the described high voltage generated in described circuit, with by the molecular ionization in air;

Cable, described electrode is electrically connected to described circuit by it;

Cable hood, stretches out to support described cable from described circuit box; And

Electrode hood, is connected to described cable hood and is set to part around described electrode.

2. ion generator according to claim 1, wherein said cable hood is that semicircle is cylindrical, and has the sidepiece of opening.

3. ion generator according to claim 2, wherein said cable hood covers a part for the perimembranous of described cable.

4. ion generator according to claim 2, wherein said cable hood has support jut, and this support jut is outstanding to support described cable towards the sidepiece of described opening.

5. ion generator according to claim 4, wherein said cable hood has the hole be formed at wherein, with described cable hood be formed support that the part of jut is contrary side on cable hood part in, described hole and described support jut match.

6. ion generator according to claim 2, wherein said electrode hood has electrode opening, and described electrode opening is the opening of the part of the described electrode hood be arranged on the side contrary with the sidepiece of the opening of described cable hood.

7. ion generator according to claim 2, the direction that wherein said cable hood flows to described cable hood along air is opening.

8. ion generator according to claim 1, wherein said electrode hood has longitudinal end, and this longitudinal direction end stretches out in outside the longitudinal direction end of described electrode.

9. ion generator according to claim 1, wherein said electrode hood has electrode opening, and described electrode opening is the opening portion of flowing out direction along air of described electrode hood.

10. an ion generator comprises:

Circuit, for generating high voltage;

Circuit box, it encapsulates described circuit;

Electrode, is arranged on the outside of described circuit box, in order to the molecular ionization discharging to make in air by the described high voltage generated in described circuit;

Cable, described electrode is electrically connected to described circuit by it;

Cable hood, it stretches out to support described cable from described circuit box; And

Electrode hood, is connected to described cable hood thus flows to described electrode direction along air and cover described electrode.

11. 1 kinds of dust arresters comprise:

Disposal box, is wherein formed with the runner for air flowing;

Circuit, for generating high voltage;

Circuit box, is arranged in described disposal box to encapsulate described circuit;

Electrode, is arranged on the outside of described circuit box, in order to utilize the described high voltage that generates in described circuit by the molecular ionization in air;

Dust-collecting filter, is arranged in described disposal box, produces ion and charged foreign matter in order to Collection utilization from described electrode;

Cable, described electrode is electrically connected to described circuit by it;

Cable hood, stretches out to support described cable from described circuit box; And

Electrode hood, is connected to described cable hood, and the direction in order to flow to described electrode along air covers the side of described electrode, and that part along the direction being provided with described dust-collecting filter of described electrode is exposed.

12. dust arresters according to claim 11, wherein said cable hood is along having opening in the opposite direction with the side being provided with described dust-collecting filter.

13. dust arresters according to claim 11, the longitudinal direction end of wherein said cable hood stretches out in outside the longitudinal direction end of described electrode.

14. dust arresters according to claim 11, also comprise the ion trap be arranged in described disposal box, in order to collect the ion produced by described electrode.