CN203222482U - Ozone generator discharge device - Google Patents

Abstract

The utility model relates to the industrial field, and particularly relates to an ozone generator discharge device. The ozone generator discharge device comprises a ground electrode, a medium body and a high-voltage voltage, wherein the high-voltage electrode and the ground electrode are respectively arranged on the opposite two sides of the medium body; a cooling water channel communicated with the outside is formed in the ground electrode; multiple grooves and multiple raised bars are spaced on the surface of the ground electrode; strip holes matched with the raised bars are formed in the medium body; the raised bars are located in the strip holes; and an oxygen circulation gap is formed between the medium body and the grooves. The ozone generator discharge device provided by the utility model can effectively reduce the heat of the high-voltage electrode, reduce the ozone decomposition and improve the ozone production efficiency.

Description

The ozonizer electric discharge device

Technical field

The utility model relates to industrial circle, in particular to a kind of ozonizer electric discharge device.

Background technology

Existing ozonizer electric discharge device generally comprises ground electrode, dielectric and high voltage electrode.Dielectric and leaves the gap that oxygen passes through between ground electrode and dielectric between ground electrode and high voltage electrode.When applying the direct current of high pressure to high voltage electrode, owing to have voltage difference between high voltage electrode and the ground electrode, like this, can form electric field in the gap between ground electrode and dielectric, when oxygen during by the gap between ground electrode and the dielectric, under effect of electric field, the oxidized generation ozone of oxygen.

But, in this ozonizer electric discharge device, owing to will between ground electrode and dielectric, leave the gap that oxygen passes through, therefore between ground electrode and dielectric, be provided with the gap spacer.But the poor thermal conductivity of this gap spacer has caused the heat of high voltage electrode to be difficult for shedding, and then has caused the ozone of generation to decompose under higher temperature, has reduced the production efficiency of ozone.

The utility model content

The purpose of this utility model is to provide a kind of ozonizer electric discharge device, to solve the above problems.

A kind of ozonizer electric discharge device is provided in embodiment of the present utility model, has it is characterized in that, having comprised: ground electrode, dielectric and high voltage electrode;

Described high voltage electrode is separately positioned on both sides relative on the described dielectric with described ground electrode;

Described ground electrode is inner to be formed and the extraneous cooling-water duct that communicates;

The surface of described ground electrode forms a plurality of grooves and a plurality of raised line of space;

Form the bar hole that cooperatively interacts with described raised line on the described dielectric; Described raised line is arranged in described bar hole, and described dielectric and described groove formation oxygen circulation gap.

The above-mentioned ozonizer electric discharge device that provides of the utility model comprises ground electrode, dielectric and high voltage electrode.The surface of ground electrode forms a plurality of grooves and a plurality of raised line of space, form the bar hole that cooperatively interacts with described raised line at described dielectric, raised line is arranged in described bar hole, and make described dielectric and described groove form oxygen circulation gap, like this, be the equal of to use raised line that dielectric is supported, when being installed in dielectric remotely the high voltage electrode of the side of electrode apply high voltage direct current, because the pressure reduction between high voltage electrode and the ground electrode, at raised line, the oxygen circulation gap that part on groove walls on the ground electrode and the dielectric between the bar hole forms forms electric field, when oxygen flows through from this oxygen circulation gap, under effect of electric field, generate ozone, do not need to re-use the gap spacer between ground electrode and the dielectric, heat can scatter and disappear away, combines with the inner formed and extraneous cooling-water duct that communicates of ground electrode again, can effectively reduce the heat of high voltage electrode, reduce the decomposition of ozone, improve the production efficiency of ozone.

Description of drawings

Fig. 1 shows the structural representation of the ozonizer electric discharge device that the utility model embodiment one, embodiment two, embodiment three, embodiment six and embodiment seven provide;

Fig. 2 shows the schematic cross-section of the ozonizer electric discharge device that the utility model embodiment one provides;

Fig. 3 shows the structural representation of the ozonizer electric discharge device Center Vent tube that the utility model embodiment two provides;

Fig. 4 shows the structural representation of the ozonizer electric discharge device that the utility model embodiment three provides;

Fig. 5 shows the structural representation of cushion in the ozonizer electric discharge device that the utility model embodiment four provides;

Fig. 6 shows the schematic cross-section of the ozonizer electric discharge device that the utility model embodiment five provides;

Reference numeral: ground electrode 1; Dielectric 2; High voltage electrode 3; Cooling-water duct 4; Groove 5; Raised line 6; Bar hole 7; Oxygen circulation gap 8; Ventpipe 9; Opening 10; Gask-O-Seal 11; Cushion 12; Projection 13; Heat-conducting plate 14; Water outlet 15; Water-in 16; Fixed orifices 17.

Embodiment

For the purpose, technical scheme and the advantage that make the utility model embodiment clearer, below in conjunction with the accompanying drawing among the utility model embodiment, technical scheme among the utility model embodiment is clearly and completely described, obviously, described embodiment is the utility model part embodiment, rather than whole embodiment.Based on the embodiment in the utility model, those of ordinary skills are not making the every other embodiment that obtains under the creative work prerequisite, all belong to the scope of the utility model protection.

Embodiment one:

Fig. 1 and Fig. 2 are the structural representations of the ozonizer electric discharge device that provides of the utility model embodiment one.Referring to illustrated in figures 1 and 2, the ozonizer electric discharge device that present embodiment one provides comprises: ground electrode 1, dielectric 2 and high voltage electrode 3; Described high voltage electrode 3 is separately positioned on both sides relative on the described dielectric 2 with described ground electrode 1; Described ground electrode 1 inner formation and the extraneous cooling-water duct 4 that communicates; The surface of described ground electrode 1 forms a plurality of grooves 5 and a plurality of raised line 6 of space; Form the bar hole 7 that cooperatively interacts with described raised line 6 on the described dielectric 2; Described raised line 6 is arranged in described bar hole 7, and described dielectric 2 forms oxygen circulation gap 8 with described groove 5.

In present embodiment one, comprise ground electrode 1, dielectric 2 and high voltage electrode 3.The surface of ground electrode 1 forms a plurality of grooves 5 and a plurality of raised line 6 of space, form the bar hole 7 that cooperatively interacts with described raised line 6 at described dielectric 2, raised line 6 is arranged in described bar hole 7, and make described dielectric 2 and described groove 5 form oxygen circulation gap 8, like this, be the equal of to use raised line 6 that dielectric 2 is supported, when being installed in dielectric 2 remotely the high voltage electrode 3 of the side of electrode 1 apply high voltage direct current, because the pressure reduction between high voltage electrode 3 and the ground electrode 1, at raised line 6, the oxygen circulation gap 8 that part on the sidewall of the groove 5 on the ground electrode 1 and the dielectric 2 between the bar hole 7 forms forms electric field, when oxygen flows through from this oxygen circulation gap 8, under effect of electric field, generate ozone, do not need to re-use the gap spacer between ground electrode 1 and the dielectric 2, heat can scatter and disappear away, combine with the ground electrode 1 inner formed and extraneous cooling-water duct 4 that communicates again, can effectively reduce the heat of high voltage electrode, reduce the decomposition of ozone, improve the production efficiency of ozone.

Embodiment two:

Referring to Fig. 1 and shown in Figure 3, the ozonizer electric discharge device that the utility model embodiment two provides also comprises ventpipe 9 on the basis of above-described embodiment one; The one end sealing of described ventpipe 9; One end communicates with the external world; Also be provided with opening 10 on the sidewall of described ventpipe 9; Described opening 10 communicates with described oxygen circulation gap 8.

In present embodiment two, because ozonizer electric discharge device provided by the utility model is when producing ozone, oxygen need be fed between high voltage electrode 3 and the ground electrode 1 in the formed electric field, oxygen is ionized in electric field, thereby transforms into ozone.Therefore be provided with the ventpipe 9 that communicates with oxygen circulation gap 8 at the edge of ground electrode 1, can oxygen be input in the oxygen circulation gap 8 by ventpipe 9.The sidewall of ventpipe 9 is provided with opening 10, and this opening 10 communicates with oxygen circulation gap 8.Therefore oxygen immerses ventpipe 9 by an end that communicates with the external world on the ventpipe 9, set opening 10 flows in the oxygen circulation gap 8 on the sidewall by ventpipe 9 again, can guarantee to flow into oxygen circulation gaps 8 by the opening 10 of the sidewall of ventpipe 9 by the oxygen of the pipeline input ventpipe 9 of the oxygen therapy gas in the external world, for whole ozonizer electric discharge device provides enough oxygen.

In present embodiment two, general, because oxygen circulation gap 8 is to be surrounded jointly by the sidewall of groove, sidewall and the dielectric of raised line, and groove and raised line all are bar shapeds, therefore each oxygen circulation gap 8 all can respectively form an opening at the two ends of groove, therefore oxygen circulation gap 8 is installed a ventpipe 9 respectively at the openings at two ends place of groove, two ventpipes 9 namely are installed, make one of them described ventpipe 9 communicate with an end in described oxygen circulation gap 8, another described ventpipe 9 communicates with the other end in described oxygen circulation gap 8.One of them ventpipe 9 is used to oxygen circulation gap 8 input oxygen, and another ventpipe 8 is used for and will collects at the oxygen ozone that gap 8 generates that circulates.

In present embodiment two, because guarantee can be to extraneous loss when oxygen flows into oxygen circulation gap 8 by ventpipe 9, therefore also be provided with Gask-O-Seal 11 at the edge of opening, described ventpipe 9 is tightly connected with described ground electrode 1 by this Gask-O-Seal 11, like this, can guarantee that the oxygen that is flowed in the oxygen circulation gap 8 by ventpipe 9 can be from the outside loss in slit between ventpipe and the ground electrode 1.

Embodiment three:

Fig. 1 and Fig. 4 are the structural representations of the ozonizer electric discharge device that provides of the utility model embodiment three.On the basis of above-described embodiment one and embodiment two, referring to Fig. 3 and shown in Figure 4, ground electrode 1 has two at least; At least two ground electrodes 1 are folded mutually; Be provided with dielectric 2 on the side near the ground electrode 1 that is adjacent on each described ground electrode 1; Each described dielectric 2 is provided with high voltage electrode 3 away from the side of the ground electrode 1 that is attached thereto.

In embodiment three of the present utility model, general, per two ground electrodes 1, dielectric 2 and the high voltage electrode that is connected with two dielectrics 23 are formed a common discharge cell between the two.For two high voltage electrodes 3 are separated, between the high voltage electrode 3 on per two adjacent ground electrodes 1, also be provided with cushion 12.

For example in Fig. 3, comprise two ground electrodes 1, namely two ground electrodes 1 are formed a discharge cell, and namely in Fig. 3, a discharge cell is followed successively by from top to bottom: ground electrode 1, dielectric 2, high voltage electrode 3, cushion 12, high voltage electrode 3, dielectric 2 and ground electrode 1.

Because ground electrode 1 the rarest two, when the quantity that increases ground electrode 1, for example, when the quantity of ground electrode 1 was N, then the quantity of discharge cell was N-1.In fact, because user's user demand difference, the quantity of the discharge cell in the needed ozonizer electric discharge device is also different, and therefore, the user can select the quantity of discharge cell according to the actual needs of oneself.

For example, in Fig. 4, ground electrode 1 has three, forms two discharge cells.According to shown in Figure 4, be followed successively by to the bottom by the top among the figure: ground electrode 1, dielectric 2, high voltage electrode 3, cushion 12, high voltage electrode 3, dielectric 2, ground electrode 1, dielectric 2, high voltage electrode 3, cushion 12, high voltage electrode 3, dielectric 2 and ground electrode 1.

Embodiment four:

Fig. 5 is the structural representation of cushion 12 in the ozonizer electric discharge device that provides of the utility model embodiment four, and on the basis of above-described embodiment three, referring to shown in Figure 5, two sides of described cushion 12 are provided with a plurality of protruding 13.

In present embodiment four, owing to will make that the size in all oxygen circulation gaps 8 is the same, be dielectric 2 with the distance of groove 5 be identical, guarantee that namely the distance between high voltage electrode 3 and the ground electrode 1 is identical, therefore be provided with a plurality of protruding 13 at cushion 12, like this, can apply balanced pressure at high voltage electrode 3, guarantee that as far as possible high voltage electrode 3 is identical with distance between the ground electrode 1.

Embodiment five:

Fig. 6 is the structural representation of the ozonizer electric discharge device that provides of the utility model embodiment five, referring to shown in Figure 6, on the basis of above-described embodiment three and embodiment four, also is provided with heat-conducting plate 14 between described cushion 12 and the described high voltage electrode 3.

Because ozone also decomposes than being easier at normal temperatures, and because high voltage electrode 3 temperature in energising can raise, circulation water coolant in the formed cooling-water duct 4 in ground electrode 1 can be taken away certain heat, but therefore temperature still can decompose under higher temperature after still can not avoiding ozone to generate completely than the normal temperature height.Therefore in order better the heat in the high voltage electrode 3 to be distributed, reduce the probability that ozone decomposes, between high voltage electrode 3 and cushion 12, be provided with heat-conducting plate 14, the heat that can better high voltage electrode 3 be produced distributes, can reduce the probability that ozone decomposes, improve the production efficiency of ozone.

Embodiment six:

Referring to shown in Figure 1, in the ozonizer electric discharge device that the utility model embodiment six provides, on the basis of above-mentioned five embodiment, described cooling-water duct 4 is provided with a water outlet 15 that communicates with the external world and a water-in 16 that communicates with the external world.

Because cooling-water duct 4 is to form in the inside of ground electrode 1, general, for ground electrode 1 more simple when making, generally be to leave a plurality of through holes that communicate at ground electrode, because the two ends of each through hole all communicate with the external world, therefore only need to keep two outlets in a plurality of through holes, one as water outlet 15, one as water-in 16, makes water coolant to flow in the through hole that communicates.These through holes that communicate have namely been formed cooling-water duct 4.

Certainly, also have other mode in ground electrode 1, to form cooling-water duct 4, for example ground electrode 1 is set to a hollow housing, the coil pipe that cooling-water duct 4 can all communicate with the external world for the two ends that are arranged on enclosure interior.

Embodiment seven:

Referring to shown in Figure 1, in the ozonizer electric discharge device that the utility model embodiment seven provides, also be provided with on the described ground electrode 1 for the ground electrode 1 interconnective fixed orifices 17 with described ground electrode 1 and outside.

In present embodiment seven, because at least two ground electrodes 1 are folded mutually, general needs keep two ground electrodes 1 along cushion 12 symmetries at least, therefore, are provided with fixed orifices 17 at ground electrode 1.When at least two ground electrodes 1 are folded mutually, only need be used in the bolt that fixed orifices 17 matches, it is fixedly connected namely can nearly to lack two ground electrodes 1.

The above is preferred embodiment of the present utility model only, is not limited to the utility model, and for a person skilled in the art, the utility model can have various changes and variation.All within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., all should be included within the protection domain of the present utility model.

Claims (10)

1. an ozonizer electric discharge device is characterized in that, comprising: ground electrode, dielectric and high voltage electrode;

Described high voltage electrode is separately positioned on both sides relative on the described dielectric with described ground electrode;

The inside of described ground electrode forms and the extraneous cooling-water duct that communicates;

The surface of described ground electrode forms a plurality of grooves and a plurality of raised line of space;

Form the bar hole that cooperatively interacts with described raised line on the described dielectric; Described raised line is arranged in described bar hole, and described dielectric and described groove formation oxygen circulation gap.

2. ozonizer electric discharge device according to claim 1 is characterized in that, also comprises: ventpipe;

The one end sealing of described ventpipe; One end communicates with the external world;

Also be provided with opening on the sidewall of described ventpipe;

Described opening communicates with described oxygen circulation gap.

3. ozonizer electric discharge device according to claim 2, it is characterized in that, also comprise: described ventpipe has two, and one of them described ventpipe communicates with an end in described oxygen circulation gap, and another described ventpipe communicates with the other end in described oxygen circulation gap.

4. ozonizer electric discharge device according to claim 3 is characterized in that, the edge of described opening also is provided with Gask-O-Seal;

Described ventpipe is tightly connected by described Gask-O-Seal and described ground electrode.

5. according to any described ozonizer electric discharge device of claim 1-4, it is characterized in that described ground electrode has two at least;

At least two described ground electrodes are folded mutually;

Be provided with dielectric on the side near the ground electrode that is adjacent on each described ground electrode;

Each described dielectric is provided with described high voltage electrode away from the side of the ground electrode that is attached thereto.

6. ozonizer electric discharge device according to claim 5 is characterized in that, also comprises cushion;

Described cushion is arranged between the high voltage electrode on per two adjacent ground electrodes.

7. ozonizer electric discharge device according to claim 6 is characterized in that, two sides of described cushion are provided with a plurality of projectioies.

8. ozonizer electric discharge device according to claim 6 is characterized in that, also is provided with heat-conducting plate between described cushion and the described high voltage electrode.

9. according to any described ozonizer electric discharge device of claim 1-4, it is characterized in that described cooling-water duct is provided with a water outlet that communicates with the external world and a water-in that communicates with the external world.

10. ozonizer electric discharge device according to claim 9 is characterized in that, also is provided with on the described ground electrode for the interconnective fixed orifices of ground electrode with described ground electrode and outside.

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