CN1848568A

CN1848568A - Apparatus and method for ion generation

Info

Publication number: CN1848568A
Application number: CN 200510064620
Authority: CN
Inventors: 骆俊光
Original assignee: Individual
Current assignee: Individual
Priority date: 2005-04-15
Filing date: 2005-04-15
Publication date: 2006-10-18

Abstract

An ion generator and a conductive mesh surface are respectively provided, then a plurality of discharge end parts are arranged on the mesh surface, and the negative ion generator is electrically connected with the mesh surface, and after the negative ion generator supplies power to the mesh surface, electric energy is released through the discharge end parts to generate a large amount of negative ions.

Description

The apparatus and method that ion produces

Technical field

The present invention relates to anion, particularly relates to the apparatus and method that a kind of ion produces.

Background technology

City extensive use air-conditioning (cold air) system, though making the people stay indoor is constant temperature, constant humidity, but always feel that giddy is easily tired, this is that air quality worsens that to cause lassitude, main cause be in order to increase air-conditioning temperature-reducing efficient, indoor bright wind is under-supply, though so can lower the temperature and reduce floating dust content, Carbon Dioxide in Air increases, the oxygen minimizing, the anion number is near zero, and bacterial number but increases gradually.Therefore, the supply of multiple anion (anion) generation device or clarifier (air cleaner) is arranged on the market at present, indicate to be used for improving room air; On practice, " anion " can directly act on human body, lung oxygen uptake function being increased and discharge carbon dioxide also increases, anion enters blood by alveolar and can enhance metabolism, reduce the lactic acid in the muscle, strengthen the vigor of whole body body, calm autonomic nerve, so " anion " by U.S. analogy is-the air vitamin.

Yet, " anion generating device " is developed on the electrostatic therapeutic basis, attention along with social environmental pollution harm, this class purifies air and anion generating device just arises at the historic moment, its operation principle is that 5～7KV (kilovolt) negative dc high voltage is discharged on metal needle or carbon fibre, make near the air ionization of needle point become anion, make micronic dust in the air, pollen, smog etc. be with electric charge and easy precipitation, purifying the air of a room with dust-removing method makes the people feel with fresh air.

Consult Fig. 1, a kind of existing anion generating device 1 comprises an anion generator 11, and a metal needle 12 that is electrically connected on an output 110 of this anion generator 11.Give this anion generator 11 by power supply, and after making power supply be converted to high direct current (DC) voltage via circuits for triggering 111, a transformer 112 and a boost rectifying circuit 113, the metal needle 12 that sees through on the output 110 causes point discharge again, to produce anion.

But in fact, existing anion generating device utilizes this metal needle 12 to do single most advanced and sophisticated point to discharge, and the anion quantity that is produced is very limited.

Consult Fig. 2, further, another kind of existing anion generating device, be to utilize a heat-shrinkable T bush 131 to tighten most carbon fiber stamens 132 to form a carbon fiber bundle 13 as the discharge media, borrowing the quantity that increases point discharge point is many anions to produce more above-mentioned, still, still have not enough shortcoming on the practice, so, how to produce a large amount of anions, become the target that relevant dealer is made great efforts.

Summary of the invention

The device that the object of the present invention is to provide a kind of ion that can produce a large amount of anions to produce.

Another object of the present invention is to provide a kind of ion generation method, be meant especially and a kind ofly on netted of conductivity, perforate or opening be set, allow perforate or opening periphery be formed with most discharge end parts,, just produce a large amount of anions when netted electrical connection anion generator.

So the device that ion of the present invention produces comprises one netted and an anion generator.

This netted is conductive material, and has most discharge end parts.

This anion generator is powered to after this netted, discharges electric energy via discharge end parts, to produce a large amount of anions.

In addition, the method for ion generation of the present invention is to comprise following steps:

(A) provide an anion generator.

(B) provide netted an of conductivity.

(C) be provided with most discharge end parts at this netted face.

(D) netted of this anion generator and this are electrically connected.

(E) this anion generator is powered to after this netted, discharges electric energy via discharge end parts, to produce a large amount of anions.

Effect of the present invention is netted the most discharge end parts of last formation by conductivity, is electrically connected with anion generator when netted, just produces a large amount of anions.

Description of drawings

The present invention is described in detail below in conjunction with drawings and Examples:

Fig. 1 is a block flow diagram, and a kind of existing anion generating device is described;

Fig. 2 is a stereogram, and a kind of existing anion generating device is described;

Fig. 3 is a flow chart of steps, and first preferred embodiment of the apparatus and method that ion of the present invention produces is described;

Fig. 4 is a plane graph of this first preferred embodiment, and netted an of carbon fiber and an anion generator that a cross arrangement or braiding are formed are described;

Fig. 5 is an assembled sectional view of this first preferred embodiment, and netted of this carbon fiber and an insulating barrier are described;

Fig. 6 is a flow chart of steps, and second preferred embodiment of the apparatus and method that ion of the present invention produces is described;

Fig. 7 is a plane graph of this second preferred embodiment, and electric wire bundle and this insulating barrier that a sector shape distributes are described;

Fig. 8 is a plane graph, the 3rd preferred embodiment of the apparatus and method that ion of the present invention produces is described, the electric wire bundle of a radial distribution and this insulating barrier;

Fig. 9 is a constitutional diagram, and this netted, a fireprotection layer and this anion generator are described; And

Figure 10 is a similar constitutional diagram in Fig. 9, and contiguous this netted an of separator is described.

Embodiment

Consult Fig. 4 and Fig. 5, first preferred embodiment of the device that ion of the present invention produces comprises netted 3 on an anion generator 2, a carbon fiber, and an insulating barrier 4.

Consult Fig. 3, Fig. 4 and Fig. 5,, at first carry out flow process 101, this anion generator 2 is provided earlier as for the method that this ion produces, and this insulating barrier 4 of (or copper wire material make the conduction fine metal mesh) size of preparing to be enough to coat this carbon fiber netted 3; Then carry out flow process 102 and flow process 103, one carbon fiber stamen 30 is formed netted 3 on this netted carbon fiber through cross arrangement in length and breadth or braiding, and on netted 3 on this carbon fiber, run through the opening 31 that is provided with most kenels space, and netted 3 body periphery of opening 31 peripheries and this carbon fiber is formed with most discharge end parts 32, in the present embodiment, opening 31 also can utilize and cut the mode of drawing and form circular hole, linear, " X " shape ... etc. shape, certainly also can be set as geometry, rectangle for example, triangle, pyramid, trapezoidal, star, rhombus ... etc. shape, simultaneously, the shape size of opening 31 also can be unequal, can enhance the quantity of discharge end parts 32 whereby; Carry out flow process 104 then, utilize an electric wire 21 that netted 3 on carbon fiber is electrically connected with this anion generator 2; Carry out flow process 105 at last, this insulating barrier 4 is coated on this carbon fiber netted 3 outer circumferential side of (or copper wire material make conduction fine metal mesh), and this insulating barrier 4 is to adopt the relevant waterproof ventilative material of GORE-TEX, or other ventilative netted insulating barrier 4, borrow this insulating barrier 4 to have unidirectional waterproof and breathable characteristic, so that splendid insulating effect to be provided, the while is with the function of waterproof and breathable.

Therefore, after these anion generator 2 power supplies are to netted 3 on this carbon fiber, via discharge end parts 32 discharges, just produce a large amount of anions, in addition, a large amount of anions outwards are distributed in the air through the insulating barrier 4 of this one-way ventilating material again, make micronic dust in the air, pollen, smog etc. be with electric charge and rapid precipitation, and reach the application target that purifies the air of a room.

Consult Fig. 7, second preferred embodiment of the device that ion of the present invention produces comprises an anion generator 2, multi-conducting wire rod 5, and an insulating barrier 4.

Consult Fig. 6 and Fig. 7, the method that produces as for the ion of second embodiment, at first carry out flow process 201, this anion generator 2 is provided earlier, and prepare to be enough to coated with conductive wire rod 5 (in the present embodiment, electric wire 5 is carbon fibre materials of adopting conductivity, copper wire material used) this insulating barrier 4 of size is electric wire 5 to be assembled the back constitute electric wire bundles 50 (carbon fiber bundle just) in this example; Then carry out flow process 202, this electric wire bundle 50 is sector shape to be paved and launches to place on this insulating barrier 4, allow each electric wire 5 adjoin each other (in the present embodiment, for asking graphic clear, the special quantity that reduces electric wire 5, the spacing of each electric wire 5 is increased, when implementing, each electric wire 5 is to be closely adjacent state), and make each electric wire 5 have the conducting end 51 that adjoins each other, and discharge ends 52 that oppositely are provided with this conducting end 51, discharge end 52 is on the insulating barrier 4 that intensive shape space is laid in this plane; Adopt the UV fixed adhesive agent of curing type, utilize some glue mode (this sizing material 6 is the sizing material of conduction), make each discharge end 52 be fixed on the inner face of this insulating barrier 4 by sizing material 6, carry out flow process 203 and flow process 204 at last, utilize an electric wire 21 this anion generator 2 to be electrically connected on the conducting end 51 of this electric wire 5, and this insulating barrier 4 is coated on the outer peripheral face of this electric wire 5, and this insulating barrier 4 is to adopt the relevant waterproof ventilative material of GORE-TEX, or other ventilative netted insulating barrier 4, borrow this insulating barrier 4 to have unidirectional waterproof and breathable characteristic, splendid insulating effect is provided, with the function of waterproof and breathable, promptly finishes simultaneously.

Consult Fig. 8, the apparatus and method that the ion of the 3rd preferred embodiment of the present invention produces, it is the electric wire bundle 50 that sector shape launches setting that is with second embodiment, conversion is helped all radial expansion and is laid mode, mode and manufacture method as for sizing material 6 on the structure that coats with the connected mode of this anion generator 2, by this insulating barrier 4, the point, and the effect that expection is reached is all identical with second embodiment, no longer adds narration.

In addition, in the second and the 3rd specific embodiment, each electric wire 5 is the twisted wire kenels that are twisted into " one " by the single wire rod of majority, to produce a large amount of anions.

Consult Fig. 9, further, the apparatus and method that this ion produces, also comprise a fireprotection layer 7 that is centered around this netted 3 outer circumferential side, this fireprotection layer 7 has and is combined a fire proofing wood body 71 that defines a room 70 and the separation net 72 that a metal material is made mutually, netted 3 that is built in this room 70 is to be formed with a space 701 away from this separation net 72, and contiguous this fire proofing wood body 71.Whereby,, not only discharge a large amount of anions, and cooperate fireprotection layer 7 to make isolated protection, can apply to the smoke exhaust field, in the hope of reaching the purpose of safe handling via these most discharge end parts 32 of netted 3 when this anion generator 2 is electrically connected on this netted 3.Consult Figure 10, in addition, the separation net 72 of this fireprotection layer 7 also can adopt plastic material to make, and makes this separation net 72 be close to this netted 3, is equally applicable on the smoke exhaust field.

Via above-mentioned explanation, compared to the existing anion that can only produce limited quantity that utilizes single point and pencil carbon fiber, the apparatus and method that ion of the present invention produces have following effect really:

One, in first embodiment, utilize carbon fiber stamen 30 to be woven into carbon fiber netted 3 in (or the netted face of copper wire), and geometry is set on netted 3 on carbon fiber or cutting the mode of drawing with lines forms most openings 31, allow netted 3 on this carbon fiber behind opening 31, be formed with most discharge end parts 32, so, really can produce a large amount of anions, and, after coordinated insulation layer 4 is coated, the electric energy of not only avoiding directly touching a large amount of anion and being produced, and the tool insulation effect, and can obtain multi-efficiencies such as unidirectional waterproof and breathable.

Two, in the second and the 3rd embodiment, the electric wire bundle 50 that multi-conducting wire rod 5 is formed launches to lay and is sector shape or radial respectively, also can produce a large amount of anions, whereby, compared to existing single point and pencil carbon fiber, the present invention can produce a large amount of anions really.

Conclude above-mentioned, the present invention can produce a large amount of anions really, and utilize insulating barrier 4 be coated on carbon fiber netted 3 (or the netted face of copper wire), electric wire 5 outer peripheral faces, splendid isolated, ventilative, waterproof effect can also be provided, therefore, when using on mattress, cushion, medical bed, shoe-pad, or desk lamp, lighting device, household appliances, ceiling fan, electric fan, fragrant machine, air cleaner or smoke exhaust ... on article, can both obtain the good result of use that purifies air.

Claims

1. A method for ion generation, characterized in that:

The method comprises the following steps:

(A) provide a negative ion generator;

(B) providing a conductive mesh surface;

(C) a plurality of discharge ends are provided on the mesh surface;

(D) electrically connecting the negative ion generator to the mesh surface; and

(E) After the negative ion generator supplies power to the mesh surface, electric energy is released through the discharge end to generate a large amount of negative ions.

2. The method for generating ions as claimed in claim 1, characterized in that: the mesh surface is provided with a plurality of geometrically shaped openings, the discharge end is formed on the periphery of the opening, and the mesh surface is made of carbon fiber or copper wire. production.

3. The method for generating ions as claimed in claim 1, characterized in that: the mesh surface is provided with a plurality of openings that are cut and formed into lines, and the discharge end is formed on the periphery of the opening, and the mesh surface is made of carbon fiber, Made of copper wire material.

4. The method for generating ions according to claim 1, characterized in that: the mesh surface is formed by cross-arranging or weaving a plurality of carbon fibers and copper wires to form a braided surface.

5. A device for ion generation, comprising a mesh surface, and a negative ion generator, characterized in that:

the mesh surface is of conductive material and has a plurality of discharge ends; and

The negative ion generator, after supplying power to the mesh surface, releases electric energy through the discharge end to generate a large amount of negative ions.

6. The device for generating ions as claimed in claim 5, characterized in that: the mesh surface is provided with a plurality of geometric openings, the discharge end is formed on the periphery of the opening, and the mesh surface is made of carbon fiber or copper wire. production.

7. The device for ion generation as claimed in claim 5, characterized in that: the mesh surface is provided with a plurality of openings that are cut and formed into lines, and the discharge end is formed on the periphery of the opening, and the mesh surface is made of carbon fiber, Made of copper wire material.

8 . The device for generating ions as claimed in claim 5 , further comprising an insulating layer, which has unidirectional waterproof and breathable properties, and covers the outer peripheral side of the mesh surface.

9. The device for generating ions according to claim 5, characterized in that: the mesh surface is formed by cross-arranging or weaving a plurality of carbon fibers and copper wires to form a weaving surface.

10. The device for generating ions as claimed in claim 5, further comprising a fireproof layer surrounding the outer periphery of the mesh surface, the fireproof layer having a fireproof material body facing each other and defining a chamber and an isolation net.

11 . The device for generating ions as claimed in claim 10 , wherein the mesh surface built into the chamber is away from the isolation mesh to form a space, and is adjacent to the fireproof material body. 12 .

12. A method of ion generation, characterized in that

The method includes the following steps:

(A) provide a negative ion generator;

(B) laying a plurality of conductive wires on a plane, allowing a conductive end of each conductive wire to be connected to each other, so that a discharge end of the conductive end is densely scattered on the plane;

(C) electrically connecting the negative ion generator to the conductive end of the conductive wire; and

(D) After the negative ion generator supplies power to the conductive wire, it discharges through the discharge terminal to generate a large amount of negative ions.

13. The method for generating ions as claimed in claim 12, wherein the conductive wire is fixed on the plane in a fan shape.

14. The method for generating ions according to claim 12, wherein the conductive wires are radially fixed on the plane.

15. The method for generating ions as claimed in claim 12, wherein each conductive wire is in the form of a stranded wire twisted into one strand by a plurality of single wires.

16. A device for generating ions, comprising a plurality of conductive wires, and a negative ion generator, characterized in that:

The conductive wire is spread out on a plane, one conductive end of the conductive wire is connected to each other, and a discharge end opposite to the conductive end is densely arranged on the plane; and

The negative ion generator, after supplying power to the conductive end of the conductive wire, discharges through the discharge end to generate a large amount of negative ions.

17. The ion generating device as claimed in claim 16, wherein the conductive wire is fixed on the plane in a fan shape.

18. The ion generating device according to claim 16, wherein the conductive wires are radially fixed on the plane.

19. The device for generating ions as claimed in claim 16, further comprising an insulating layer, the insulating layer has a unidirectional waterproof and breathable property, and is coated on the outer peripheral side of the conductive wire.

20. The device for generating ions as claimed in claim 16, wherein each conductive wire is in the form of a stranded wire twisted by a plurality of single wires.