CN206089035U - Ozone generator's discharge cell - Google Patents

Abstract

The utility model provides an ozone generator's discharge cell, include: high voltage electrode, high voltage electrode's upper and lower both sides are provided with first dielectric body and second dielectric body respectively, first dielectric body with the second dielectric body respectively with high voltage electrode closely laminates, the outside of first dielectric body is provided with a ground electrode, just a ground electrode with be formed with a discharge gap between the first dielectric body, the outside of second dielectric body is provided with the 2nd ground electrode, just the 2nd ground electrode with be formed with the 2nd discharge gap between the second dielectric body. The utility model provides a discharge cell adds high pressure between high voltage electrode and ground electrode, and the space between the discharge gap between dielectric body and the ground electrode, two dielectric bodies all can form the strong electric field, carries out dielectric barrier discharge by the dielectric body with the discharge gap that ground electrode formed under the effect of strong electric field, and the oxygen in the clearance is through high -tension electricity separation and reunion one -tenth ozone, increase ozone formation rate.

Description

A kind of discharge cell of ozonator

Technical field

This utility model is related to industrial technical field, more particularly to a kind of discharge cell of ozonator.

Background technology

Ozone can be widely applied to the fields such as drinking water, sewage disposal and chemical industry oxidation as a kind of strong oxidizer Sterilization, sterilization.With the raising of industrial expansion and country to the environmental requirement of every profession and trade, the demand of ozone is increasingly Greatly.However, the ozone technology of the country is started late and lags behind other countries, many large-scale ozonators substantially according to Bad import.At present, the large-scale ozone generator on market is mainly based on tubular ozone gas, but with the high speed of electronics industry Development, the material and process technology needed for board-like generator is met, and board-like generator can be reached than tube type generator Less discharging gap, less power consumption and can realize that modular advantage will make large-scale panel type ozone producer in market Field occupies a tiny space.The structure of large-scale panel type ozone producer mainly includes air supply system, ozone generation system, cooling system System and four parts of power-supply system, wherein the efficiency for improving ozone generation system and cooling system will increase substantially ozone Output efficiency.Large-scale panel type ozone producer overall operation efficiency produces the close phase of efficiency of ozoniferous discharge cell with each Close, and the emission behaviour strong influence discharge cell ozone output of the middle heat of the size of discharging gap and discharge cell is imitated Rate, therefore it is the emphasis of our researchs to reduce discharging gap with the heat discharge for increasing discharge cell.

Utility model content

This utility model provides a kind of discharge cell of ozonator, its purpose is to solve traditional ozone The low problem of raw device ozone output efficiency.

In order to achieve the above object, embodiment of the present utility model provides a kind of discharge cell of ozonator, bag Include：

High-field electrode, the both sides up and down of the high-field electrode are respectively arranged with the first dielectric substance and the second dielectric substance, described First dielectric substance and second dielectric substance are brought into close contact respectively with the high-field electrode；

The first ground electrode, and first ground electrode and first dielectric substance are provided with the outside of first dielectric substance Between be formed with the first discharging gap；

The second ground electrode, and second ground electrode and second dielectric substance are provided with the outside of second dielectric substance Between be formed with the second discharging gap；

The first end of first discharging gap and second discharging gap is connected respectively with oxygen input tube road, institute The second end for stating the first discharging gap and second discharging gap is connected respectively with ozone output channel.

Wherein, be provided with multiple first heat conduction bars in first discharging gap, the first end of the first heat conduction bar with First dielectric substance is connected, and the second end of the first heat conduction bar is connected with first ground electrode.

Wherein, be provided with multiple second heat conduction bars in second discharging gap, the first end of the second heat conduction bar with Second dielectric substance is connected, and the second end of the second heat conduction bar is connected with second ground electrode.

Wherein, the plurality of first heat conduction bar is uniformly arranged on the first discharging gap, and the plurality of second heat conduction bar is uniform It is arranged at the second discharging gap.

Wherein, the material of the first heat conduction bar and the second heat conduction bar is aluminium alloy.

Wherein, the two ends of the two ends of first discharging gap and second discharging gap are respectively arranged with a gas point Fabric swatch.

Wherein, first ground electrode forms first electric discharge by the gas distribution grid and first dielectric substance Gap.

Wherein, second ground electrode forms second electric discharge by the gas distribution grid and second dielectric substance Gap.

Wherein, the inside of first ground electrode and second ground electrode is provided with a cooling-water duct.

Wherein, the cooling-water duct is wedge structure.

Such scheme of the present utility model has following beneficial effect：

The discharge cell of the ozonator described in above-described embodiment of the present utility model is between high-field electrode and ground electrode Add high pressure, the space between discharge air-gap, two dielectric substances between dielectric substance and ground electrode can all form highfield, strong The discharging gap formed by dielectric substance and ground electrode in the presence of electric field carries out dielectric barrier discharge, the oxygen Jing high pressure in gap Synthesis ozone is ionized, and has a small amount of oxygen to discharge between two media and generate ozone, increase ozone production rate.

Description of the drawings

Fig. 1 is the structural representation of the discharge cell of ozonator of the present utility model.

【Description of reference numerals】

1- high-field electrodes；The dielectric substances of 2- first；The dielectric substances of 3- second；The ground electrodes of 4- first；The ground electrodes of 5- second；6- first Discharging gap；The discharging gaps of 7- second；8- the first heat conduction bars；9- the second heat conduction bars；10- gas distribution grids；11- cooling waters lead to Road.

Specific embodiment

To make the technical problems to be solved in the utility model, technical scheme and advantage clearer, below in conjunction with accompanying drawing And specific embodiment is described in detail.

This utility model is for the low problem of existing traditional ozonator ozone output efficiency, there is provided a kind of smelly The discharge cell of Oxygen Generator.

As shown in figure 1, embodiment of the present utility model provides a kind of discharge cell of ozonator, including：High pressure Electrode 1, the both sides up and down of the high-field electrode 1 are respectively arranged with the first dielectric substance 2 and the second dielectric substance 3, first dielectric Body 2 and second dielectric substance 3 are brought into close contact respectively with the high-field electrode 1；The outside of first dielectric substance 2 is provided with The first discharging gap 6 is formed between one ground electrode 4, and first ground electrode 4 and first dielectric substance 2；Described second The outside of dielectric substance 3 is provided between the second ground electrode 5, and second ground electrode 5 and second dielectric substance 3 and is formed with Two discharging gaps 7；The first end of first discharging gap 6 and second discharging gap 7 respectively with oxygen input tube road phase Second end of connection, first discharging gap 6 and second discharging gap 7 is connected respectively with ozone output channel.

The discharge cell of the ozonator described in above-described embodiment of the present utility model includes ground electrode, high-field electrode 1 And the dielectric substance between interior ground electrode, high-field electrode 1 is stainless steel silk web plate, and the first dielectric substance of high alumina ceramic is close to up and down 2 and second dielectric substance 3, add high pressure between high-field electrode and ground electrode, discharge air-gap between dielectric substance and ground electrode, two Space between dielectric substance can all form highfield；In the presence of highfield, between the electric discharge formed by dielectric substance and ground electrode Gap carries out dielectric barrier discharge, the oxygen Jing high pressure ionizations synthesis ozone in gap；Meanwhile, also there is a small amount of oxygen in rustless steel Creeping discharge is carried out on silk screen plate and forms ozone, increase ozone production rate.

Wherein, multiple first heat conduction bars 8, the first end of the first heat conduction bar 8 are provided with first discharging gap 6 It is connected with first dielectric substance 2, the second end of the first heat conduction bar 8 is connected with first ground electrode 4.

Wherein, multiple second heat conduction bars 9, the first end of the second heat conduction bar 9 are provided with second discharging gap 7 It is connected with second dielectric substance 3, the second end of the second heat conduction bar 9 is connected with second ground electrode 5.

Wherein, the plurality of first heat conduction bar 8 is uniformly arranged on the first discharging gap 6, and the plurality of second heat conduction bar 9 is equal It is even to be arranged at the second discharging gap 7.

Wherein, the material of the first heat conduction bar 8 and the second heat conduction bar 9 is aluminium alloy.

Discharge cell described in above-described embodiment of the present utility model in order to prevent high-field electrode 1 from dropping and between guiding discharge The uneven distribution of gap, is provided with aluminium alloy heat conduction bar, so as to ensure that the discharging gap of 0.2mm, is conducive to reducing electric discharge electricity Pressure and power consumption, from equipment it is compact from the aspect of be conducive to save the device space；Additionally, aluminium alloy heat conduction bar has very high heat Conductance, can in thermo-conducting manner pass to ground electrode by the heat of high-field electrode 1, and be arranged heat by way of water-cooled Go out.

Wherein, the two ends of the two ends of first discharging gap 6 and second discharging gap 7 are respectively arranged with a gas Distribution grid 10.

Wherein, first ground electrode 4 forms described first by the gas distribution grid 10 with first dielectric substance 2 Discharging gap 6.

Wherein, second ground electrode 5 forms described second by the gas distribution grid 10 with second dielectric substance 3 Discharging gap 7.

The two ends of the first discharging gap 6 described in above-described embodiment of the present utility model and second discharging gap 7 Two ends are respectively arranged with a gas distribution grid 10, play a part of to support first ground electrode 4 and second ground electrode 5, So as to ensure that the discharging gap of 0.2mm, be conducive to reducing discharge voltage and power consumption.

Wherein, the inside of first ground electrode 4 and second ground electrode 5 is provided with a cooling-water duct 11.

Wherein, the cooling-water duct 11 is wedge structure.

Ozonator described in above-described embodiment of the present utility model has multiple discharge cells, the plurality of electric discharge list Unit is serially connected, the cooling water containing wedge shape that described the first ground electrode 4 and second ground electrode 5 is suppressed using aluminium alloy The electrode of passage 11, there is good thermal conductivity and larger heat transfer area, is conducive to the timely discharge of ground electrode heat, aluminium alloy Electrode has good antiseptic property through surface oxidation treatment；In addition, remove that gripper shoe is placed between ground electrode and dielectric Outward, it is also provided with aluminium alloy heat conduction bar, it is ensured that uniform discharging gap；Meanwhile, the aluminium alloy heat conduction bar with high heat conductance Be conducive to deriving the heat of high-field electrode, suppress the pyrolytic of ozone, high-tension electricity of the part oxygen-containing gas in rustless steel web plate Electric discharge in the structure of pole forms ozone, increased the yield of ozone.

The above is preferred implementation of the present utility model, it is noted that for the ordinary skill of the art For personnel, on the premise of without departing from principle described in the utility model, some improvements and modifications can also be made, these improvement Protection domain of the present utility model is also should be regarded as with retouching.

Claims (10)

1. a kind of discharge cell of ozonator, it is characterised in that include：

High-field electrode, the both sides up and down of the high-field electrode are respectively arranged with the first dielectric substance and the second dielectric substance, and described first Dielectric substance and second dielectric substance are brought into close contact respectively with the high-field electrode；

It is provided with the outside of first dielectric substance between the first ground electrode, and first ground electrode and first dielectric substance It is formed with the first discharging gap；

It is provided with the outside of second dielectric substance between the second ground electrode, and second ground electrode and second dielectric substance It is formed with the second discharging gap；

The first end of first discharging gap and second discharging gap is connected respectively with oxygen input tube road, and described Second end of one discharging gap and second discharging gap is connected respectively with ozone output channel.

2. the discharge cell of ozonator according to claim 1, it is characterised in that set in first discharging gap Multiple first heat conduction bars are equipped with, the first end of the first heat conduction bar is connected with first dielectric substance, first heat conduction Second end of bar is connected with first ground electrode.

3. the discharge cell of ozonator according to claim 2, it is characterised in that set in second discharging gap Multiple second heat conduction bars are equipped with, the first end of the second heat conduction bar is connected with second dielectric substance, second heat conduction Second end of bar is connected with second ground electrode.

4. the discharge cell of ozonator according to claim 3, it is characterised in that the plurality of first heat conduction bar is equal Even to be arranged at the first discharging gap, the plurality of second heat conduction bar is uniformly arranged on the second discharging gap.

5. the discharge cell of ozonator according to claim 4, it is characterised in that the first heat conduction bar and the second heat conduction The material of bar is aluminium alloy.

6. the discharge cell of ozonator according to claim 1, it is characterised in that the two of first discharging gap The two ends of end and second discharging gap are respectively arranged with a gas distribution grid.

7. the discharge cell of ozonator according to claim 6, it is characterised in that first ground electrode passes through institute State gas distribution grid and form first discharging gap with first dielectric substance.

8. the discharge cell of ozonator according to claim 6, it is characterised in that second ground electrode passes through institute State gas distribution grid and form second discharging gap with second dielectric substance.

9. the discharge cell of ozonator according to claim 1, it is characterised in that first ground electrode and described The inside of the second ground electrode is provided with a cooling-water duct.

10. the discharge cell of ozonator according to claim 9, it is characterised in that the cooling-water duct is wedge Shape structure.