CN201825727U - Spiral cylindrical discharge unit for ozone generator - Google Patents

Abstract

The utility model relates to a spiral cylindrical discharge unit for an ozone generator, which is characterized in that the spiral cylindrical discharge unit is formed by laminating a group of at least one flexible ground electrode, at least one flexible insulating layer and at least one flexible high-voltage electrode and curling the whole part into the shape of a spiral cylinder, the high-voltage electrode and the ground electrode are separated by the insulating layer, gaps are respectively arranged between the ground electrode and the insulating layer, and between the insulating layer and the high-voltage electrode; and the spiral cylindrical discharge unit can be applied in various ozone generators, significantly improve the ozone generation rate of single discharge unit and reduce the cost.

Description

The spiral circle tubular discharge cell that is used for ozonizer

Technical field:

The utility model belongs to the ozonizer field, relates to the discharge cell of ozonizer.

Background technology:

The discharge cell of existing large-scale ozone generator generally comprises high voltage electric level, insulation tube and the ground electrode of concentric installation, and order from inside to outside is high voltage electrode, insulation tube and ground electrode.The general ceramic film coated type Glass tubing that adopts is done insulation tube, and stainless steel tube is done electrode materials, and the air or oxygen of drying, purification after the energising, produces ozone by the discharging gap between electrode and the insulation layer in the gap.But it is high voltage electrode, insulation tube and the ground electrode that an independent cover is installed with one heart that its weak point is each discharge cell, it is low that described single discharge cell produces ozone amount, the discharge specific surface area of the whole ozonizer of forming is little, causing producing the ozone rate reduces, cause large-tonnage ozonizer to comprise a large amount of above-mentioned discharge cells, in addition because the materials such as stainless steel, glass or pottery that adopt, so and therefore equipment volume is big, increase floor space, the cost of investment of entire equipment is also high, and complex structure.And high voltage electrode, insulation tube and ground electrode are concentric, so it is also high to the requirement of installing, disrepair phenomenon takes place in insulation tube easily, cause installation and maintenance cost height, therefore need a kind of can overcome above-mentioned insufficient, specific surface area is big, single discharge cell ozone output height, simple in structure, floor space is little, maintenance operation cost discharge cell low, that make and install easily.

The utility model content:

The purpose of this utility model be to provide a kind of specific surface area big, investment and low, the easy manufacturing of maintenance operation cost, the discharge cell that is used for ozonizer that is easy to install, change.

The spiral circle tubular discharge cell that is used for ozonizer of the present utility model is to realize like this, described discharge cell can curl by one group and quantity is no less than one the stacked and whole spiral some circles cylindraceous that are rolled into of ground electrode, insulation layer and high voltage electrode respectively, wherein be separated by by insulation layer between high voltage electrode and the ground electrode, between ground electrode and the insulation layer, respectively have the gap between insulation layer and the high voltage electrode.

In order to improve the efficient of ozonizer, the feature of technical solutions of the utility model can also be specially following technical characterictic:

1. described discharge cell integral body is rolled into spiral some circles cylindraceous along an one edge.

2. be rolled into spiral some circles cylindraceous around folding line after the whole doubling of described discharge cell.

3. described discharge cell also comprises an axle, and described stacked ground electrode, insulation layer and high voltage electrode are that the center curls into the spiral circle tubular around axle integral body with the axle.

4. the gap between described ground electrode and the insulation layer is between 0.05～0.5mm.

5. the gap between described high voltage electrode and the insulation layer is between 0.05～0.5mm.

6. be separated by by a layer insulating between described high voltage electrode and the ground electrode.

7. described ground electrode, insulation layer and high voltage electrode are adjacent in twos.

8. described high voltage electrode is only adjacent with insulation layer.

9. described ground electrode is only adjacent with insulation layer.

10. the material of high voltage electrode and ground electrode can be the oxide compound of stainless steel, titanium, chromium, aluminium or aforementioned substances.

11. described ground electrode, high voltage electrode and insulation layer all are film like and can curl.

The spiral circle tubular discharge cell that the ozonizer of technical solutions of the utility model is used has following advantage:

1. it is big to increase specific surface area to be curled into many layers, and the specific surface area of single discharge cell is big, can significantly improve the ozone output of the ozonizer of single discharge cell and this discharge cell of application, reduces cost;

2. single discharge cell produces ozone amount and improves greatly, and therefore the ozonizer volume with equal yield line significantly reduces, and conserve space reduces and takes up an area of.

3. insulation layer is the material of can curling, and is non-friable, safe in utilization, and cost is low;

4. ground electrode, high voltage electrode and insulation layer all are film like, and cost is low, reduce facility investment and maintenance cost.

5. described discharge is first is made easily and is installed by one group of stacked and curling forming of ground electrode, high voltage electrode and insulation layer, is easy to safeguard, helps reducing cost.

Description of drawings:

Fig. 1 is the synoptic diagram of the embodiment one of spiral circle tubular discharge cell of the present utility model

Fig. 2 is the expansion front view of the embodiment one of spiral circle tubular discharge cell of the present utility model

Fig. 3 is the expansion side-view of the embodiment one of spiral circle tubular discharge cell of the present utility model

Fig. 4 is the synoptic diagram of the embodiment two of spiral circle tubular discharge cell of the present utility model

Among the 1-4,1 is discharge cell among the figure, and 2 is ground electrode, and 3 is insulation layer, and 4 is high voltage electrode, and 5 for being arranged on the gap between insulation tube and the ground electrode, and 6 for being arranged on the gap between high voltage electrode and the insulation tube, and 7 is axle.

Embodiment:

Below in conjunction with accompanying drawing two embodiment of the present utility model are specifically described.

Embodiment one:

As Figure 1-3, it is stacked and whole along an one edge coiling some circles cylindraceous that the described spiral circle tubular discharge cell 1 that is used for ozonizer is no less than one the ground electrode that curls 2, insulation layer 3 and high voltage electrode 4 respectively by a cluster film shape and quantity, wherein be separated by by insulation layer 3 between high voltage electrode 4 and the ground electrode 2, between ground electrode 2 and the insulation layer 3, have gap 5 and 6 respectively between insulation layer 3 and the high voltage electrode 4.Spiral circle tubular discharge cell 1 in the present embodiment is laminated by one deck ground electrode 2, three-layer insulated layer 3 and one deck high voltage electrode 4, and described ground electrode 2, insulation layer 3 and high voltage electrode 4 are adjacent in twos.Wherein the edge of insulation layer 3 stretches out beyond ground electrode 2 and the high voltage electrode 4.Its intermediate gap 5 and 6 size are respectively between 0.05～0.4mm.

Embodiment two

As shown in Figure 4, different with embodiment one is, in embodiment two, spiral circle tubular discharge cell also comprise an axle 7, described stacked ground electrode 2, insulation layer 3 and high voltage electrode 4 are that the center curls into the spiral circle tubular around axle 7 integral body with axle 7.Described axle 7 is hollow tubulars, in the practical application, can be in its pipe water flowing or other heat-eliminating mediums to realize good heat radiation.Axle is electrically connected with high voltage electrode.

For the ease of identification, the spiral number of turns of the spiral circle tubular discharge cell that provides in this specification sheets embodiment synoptic diagram is less, can increase as required in the practical application.Figure mesohigh electrode and ground electrode are one, and insulation layer is three, and described ground electrode 2, insulation layer 3 and high voltage electrode 4 are adjacent in twos.Its quantity can be not limited thereto in the practical application, is separated by by insulation layer between the high voltage electrode and ground electrode as long as guarantee to be curled into behind the spiral circle tubular, between ground electrode and the insulation layer, exist the gap to get final product respectively between insulation layer and the high voltage electrode.As high voltage electrode and ground electrode is one, and insulation layer is two.Perhaps the quantity of high voltage electrode, ground electrode, insulation layer is respectively more.

One group of ground electrode that can curl 2 after stacked, insulation layer 3 and high voltage electrode 4 whole doublings earlier once or behind the several times can be rolled into spiral some circles cylindraceous around folding line in actual applications.

Be separated by by a layer insulating between high voltage electrode and the ground electrode described in above-mentioned two embodiment, can be separated by by two-layer or multilayer dielectric layer between high voltage electrode and the ground electrode in actual applications, when the time comes can be between two adjacent insulation layers water flowing or other heat-eliminating mediums to strengthen heat radiation.

For better heat radiating effect, ground electrode and high voltage electrode can adopt the oxide compound of stainless steel, titanium, chromium, aluminium or the aforementioned substances of perfect heat-dissipating.

Adopt the spiral circle tubular discharge cell of technical solutions of the utility model can be applied in the various ozonizers, can significantly improve the product ozone rate of the ozonizer of single discharge cell and this discharge cell of application, reduce equipment volume and reduce cost.

Claims (14)

1. the spiral circle tubular discharge cell that is used for ozonizer, it is characterized in that: can curl by one group and quantity be no less than one the stacked and whole spiral circle tubular that curls into of ground electrode (2), insulation layer (3) and high voltage electrode (4) respectively, wherein be separated by by insulation layer (3) between high voltage electrode (4) and the ground electrode (2), between ground electrode (2) and the insulation layer (3), have gap (5), (6) respectively between insulation layer (3) and the high voltage electrode (4).

2. the spiral circle tubular discharge cell that is used for ozonizer as claimed in claim 1 is characterized in that: described discharge cell (1) is whole to be rolled into the spiral circle tubular along an one edge.

3. the spiral circle tubular discharge cell that is used for ozonizer as claimed in claim 1, it is characterized in that: also comprise an axle (7), described stacked ground electrode (2), insulation layer (3) and high voltage electrode (4) are that the center curls into the spiral circle tubular around axle axle (7) integral body with axle (7).

4. the spiral circle tubular discharge cell that is used for ozonizer as claimed in claim 1 is characterized in that: be rolled into the spiral circle tubular around folding line after the whole doubling of described discharge cell.

5. the spiral circle tubular discharge cell that is used for ozonizer as claimed in claim 1, it is characterized in that: the gap between described ground electrode and the insulation layer (5) are between 0.05～0.5mm.

6. the spiral circle tubular discharge cell that is used for ozonizer as claimed in claim 1, it is characterized in that: the gap between described high voltage electrode and the insulation layer (6) are between 0.05～0.5mm.

7. the spiral circle tubular discharge cell that is used for ozonizer as claimed in claim 1, it is characterized in that: described ground electrode, high voltage electrode and insulation layer all are film like.

8. the spiral circle tubular discharge cell that is used for ozonizer as claimed in claim 1 is characterized in that: described ground electrode (2), insulation layer (3) and high voltage electrode (4) are adjacent in twos.

9. the spiral circle tubular discharge cell that is used for ozonizer as claimed in claim 1 is characterized in that: be separated by by a layer insulating (3) between described high voltage electrode (4) and the ground electrode (2).

10. the spiral circle tubular discharge cell that is used for ozonizer as claimed in claim 1 is characterized in that: be separated by by two-layer or multilayer dielectric layer between described high voltage electrode and the ground electrode.

11. the spiral circle tubular discharge cell that is used for ozonizer as claimed in claim 1 is characterized in that: described high voltage electrode is only adjacent with insulation layer.

12. the spiral circle tubular discharge cell that is used for ozonizer as claimed in claim 1 is characterized in that: described ground electrode is only adjacent with insulation layer.

13. the spiral circle tubular discharge cell that is used for ozonizer as claimed in claim 3 is characterized in that: described axle (7) is hollow, the centre can water flowing or other heat-eliminating mediums to strengthen heat radiation.

14. the spiral circle tubular discharge cell that is used for ozonizer as claimed in claim 10 is characterized in that: in the described insulation layer, water flowing or other heat-eliminating mediums are to strengthen heat radiation between two adjacent insulation layers.

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