CN204198415U - A kind of air-cooled board-like ozone generating unit - Google Patents

Abstract

The utility model relates to ozone generation technology field, particularly relate to a kind of air-cooled board-like ozone generating unit, described air-cooled board-like ozone generating unit comprises the second discharge assembly, the first discharge assembly and the 3rd discharge assembly be close to successively, and described first discharge assembly comprises the second ceramic plate, high-pressure stage and the first ceramic plate that superpose successively; The two ends of described 3rd discharge assembly are respectively equipped with air intake and air outlet, and the outer side of described first ceramic plate and the second ceramic plate is evenly distributed with many heat transfer bars, and described heat transfer bar and described air intake and air outlet are vertically arranged.The utility model structure is simple, reasonable in design, easily heat in discharge channel is passed, greatly increases the radiating efficiency of ozone generating unit, increase the output of ozone, make ozone output keep linear growth, thus reduce manufacturing cost.

Description

A kind of air-cooled board-like ozone generating unit

Technical field

The utility model relates to ozone generation technology field, particularly relates to a kind of air-cooled board-like ozone generating unit.

Background technology

Air-cooled board-like ozone generating unit, project installation is very convenient, occupies a tiny space in market always.As everyone knows, the heat produced when ozonizer runs accounts for complete machine power about about 90%, and in discharge channel, heat is very high, if can not effective cooling, ozoniferous while, the thermolysis of ozone becomes very serious, thus reduces the output of ozone.

The air-cooled board-like ozone generating unit of existing high pressure built-in double-sided discharging mode, is made up of the first wind-cooling heat dissipating system 21, first ground electrode 22, second ceramic plate 11 superposed successively, high-pressure stage 12, first ceramic plate 13, second ground electrode 22, second wind-cooling heat dissipating system 31.This structure Problems existing: 1, high-pressure stage could not directly and wind-cooling heat dissipating system contacts, and radiating efficiency can not more promote, can not be very high at effective electric discharge unit surface internal power, and the thermolysis of ozone becomes serious, reduces ozone output.2, ozone reaction chamber interior does not have flow channel, causes air-flow uneven.These products all directly affecting ozone become rate.

Utility model content

The purpose of this utility model is to overcome described in above technology not enough, provides a kind of improving heat radiation efficiency, increases the air-cooled board-like ozone generating unit of ozone output.

The utility model is achieved through the following technical solutions:

A kind of air-cooled board-like ozone generating unit, comprise the second discharge assembly, the first discharge assembly and the 3rd discharge assembly be close to successively, described first discharge assembly comprises the second ceramic plate, high-pressure stage and the first ceramic plate that superpose successively, described second discharge assembly comprises the first wind-cooling heat dissipating system and the first ground electrode that superpose successively, and described 3rd discharge assembly comprises the second ground electrode and the second wind-cooling heat dissipating system that superpose successively; The two ends of described 3rd discharge assembly are respectively equipped with air intake and air outlet, and the outer side of described first ceramic plate and the second ceramic plate is evenly distributed with many heat transfer bars, and described heat transfer bar and described air intake and air outlet are vertically arranged.Described heat transfer bar is close to first, second ceramic plate, to form air flue, accurately ensures discharging gap and air guide evenly, can effectively the heat on ceramic plate be distributed.

Further, the outer of described first discharge assembly is arranged with glue frame, described glue frame and the first discharge assembly are provided with space near the both sides of described air intake and air outlet, described glue frame is close to the other both sides of the first discharge assembly and is connected, and the width in described space is consistent with the external diameter of air intake, air outlet.It is peripheral that described glue frame is sealed in the first discharge assembly, be close to the second discharge assembly and the 3rd discharge assembly up and down, only leave out the space, both sides of air intake, make air intake, air flue that air outlet can only be formed by the heat transfer bar of the first discharge assembly enters gas and give vent to anger, avoid gas to run helter-skelter, gas flow evenly; Heat transfer article about be close to the second discharge assembly and the 3rd discharge assembly, to dispel the heat better.

Further, for reaching better sealing effectiveness, the thickness of described glue frame is greater than the height of the first discharge assembly, and the thickness of described glue frame and the height difference range of the first discharge assembly are for being preferably 0.5 ~ 1.5mm.

Further, described high-pressure stage is made up of the first high-pressure stage be affixed up and down and the second high-pressure stage.

Further, conveniently connect high-voltage power supply, described first high-pressure stage and the second high-pressure stage are respectively equipped with the first external piece and second external piece of external high pressure on corresponding position, side.

Further, the corresponding position of the functional contact face of described first wind-cooling heat dissipating system and the first external piece, the second external piece is provided with the first groove, places first collets suitable with it in described first groove; The corresponding position of the functional contact face of described second wind-cooling heat dissipating system and the first external piece, the second external piece is provided with the second groove, places second collets suitable with it in described second groove.First collets and the second collets play High-Voltage Insulation to the first external piece of external high pressure and the second external piece, prevent the effect of high-voltage breakdown.

Further, for reaching anticorrosion effect, described second discharge assembly also comprises the first corrosion resistant metal plate, and the first ground electrode is close to by described first corrosion resistant metal plate, and suitable with the first collets; Described 3rd discharge assembly also comprises the second corrosion resistant metal plate, and the second ground electrode is close to by described second corrosion resistant metal plate, and suitable with the second collets.

Further, in order to make the second discharge assembly and the 3rd discharge assembly and the first discharge assembly fit better, described first corrosion resistant metal plate is concordant with the first collets surface, and described second corrosion resistant metal plate is concordant with the second collets surface.

Further, described first discharge assembly also comprises rubber cushion, and described rubber cushion is arranged between the first high-pressure stage and the second high-pressure stage, is used for regulating the degree of tightness between ceramic plate, heat transfer bar, ground electrode, prevents ceramic plate, heat transfer bar, ground electrode to be pressed down or breakage.

Further, the thickness of described heat transfer bar is 0.1 ~ 0.25mm, with this controlled discharge gap, better plays the effect of even air guide and heat transfer.

The utility model structure is simple, reasonable in design, easily heat in discharge channel is passed, greatly increases the radiating efficiency of ozone generating unit, increase the output of ozone, make ozone output keep linear growth, thus reduce manufacturing cost.

Accompanying drawing explanation

Fig. 1 is the structural representation of prior art;

Fig. 2 is the structure iron of air-cooled board-like ozone generating unit described in the utility model;

Fig. 3 is the explosive view of the first discharge assembly of air-cooled board-like ozone generating unit described in the utility model;

Fig. 4 is the local structure schematic diagram of air-cooled board-like ozone generating unit described in the utility model;

Fig. 5 is the structural representation of the second discharge assembly of air-cooled board-like ozone generating unit described in the utility model;

Fig. 6 is the structural representation of the 3rd discharge assembly of air-cooled board-like ozone generating unit described in the utility model;

In figure: 1-first discharge assembly, 11-second ceramic plate, 12-high-pressure stage, 121-first high-pressure stage, 122-second high-pressure stage, 123-first external piece, 124-second external piece, 13-first ceramic plate, 14-conducts heat bar, 15-rubber cushion, 2-second discharge assembly, 21-first wind-cooling heat dissipating system, 22-first ground electrode, 23-first collets, 24-first groove, 25-first corrosion resistant metal plate, 3-the 3rd discharge assembly, 31-second wind-cooling heat dissipating system, 32-second ground electrode, 33-second collets, 34-second groove, 35-second corrosion resistant metal, 4-air intake, 5-air outlet, 6-glue frame, 7-space.

Embodiment

Below by way of the drawings and specific embodiments, the utility model is further detailed.

Air-cooled board-like ozone generating unit described in the utility model, comprise the second discharge assembly 2, first discharge assembly 1 and the 3rd discharge assembly 3 be close to successively, namely the second discharge assembly 2 is close to above the first discharge assembly 1,3rd discharge assembly 3 is close to below the first discharge assembly 1, as shown in Figure 2.

As shown in Figure 3-4, the first discharge assembly 1 is formed by stacking successively primarily of the second ceramic plate 11, high-pressure stage, the first ceramic plate 13.Wherein the outer side of the first ceramic plate 11 and the second ceramic plate 13 is evenly distributed with many heat transfer bars 14, heat transfer bar 14 is arranged with described air intake 4 and air outlet vertical 5, namely conduct heat bar 14 vertically facing to the second discharge assembly 2 air intake 4 and air outlet 5, the bar 14 that conducts heat in other words is parallel or substantially parallel with the line between air intake 4 and air outlet 5.The thickness of heat transfer articles 14 determines the discharging gap of the first discharge assembly 1 and the second discharge assembly 2, the 3rd discharge assembly 3.The thickness range of heat transfer bar 14 is 0.1 ~ 0.25mm, and in the present embodiment, the thickness of heat transfer bar 14 is set as 0.2mm.For reaching better heat transfer and anticorrosion effect, the material of heat transfer bar 14 adopts pottery or mica.

High-pressure stage is made up of the first high-pressure stage 121 and the second high-pressure stage 122, the first high-pressure stage 121 and the second high-pressure stage 122 in the same size, be affixed up and down.First high-pressure stage 121 and the second high-pressure stage 122 are respectively equipped with the first external piece 123 and the second external piece 124 of external high pressure on corresponding position, side.Rubber cushion 15 is provided with between first high-pressure stage 121 and the second high-pressure stage 122, size and the ceramic plate of rubber cushion 15 are suitable, to make being closely adjacent between ceramic plate, heat transfer bar 14, ground electrode, prevent again ceramic plate, heat transfer bar 14, ground electrode to be pressed down or breakage simultaneously.For reaching best setting effect, reduce surging force and corrosion-resistant, rubber cushion 15 selects viton material.

First discharge assembly 1 is all close to the second discharge assembly 2, the 3rd discharge assembly 3, and the periphery glue frame 6 of the first discharge assembly 1 and the second discharge assembly 2, the 3rd discharge assembly 3 seal.For reaching better sealing effectiveness, the thickness of glue frame 6 is slightly larger than the thickness of the first discharge assembly 1, and in the present embodiment, its thickness difference ranges preferably from 0.5 ~ 1.5mm.Glue frame 6 and the first discharge assembly 1 leave space 7 near the both sides of air intake 4 and air outlet 5, and the width in space 7 is consistent with the external diameter of air intake 4, air outlet 5, and other both sides and the glue frame 6 of the first discharge assembly 1 are close to.Due to the sealing of glue frame 6, the air flue flowing that gas can only be formed by the heat transfer bar 14 of space 7 and the first discharge assembly 1.For reaching better sealing and anticorrosion ability, viton material selected by glue frame 6.

As shown in Figure 5, the second discharge assembly 2 is formed by stacking successively primarily of the first wind-cooling heat dissipating system 21, first ground electrode 22, first corrosion resistant metal plate 25.The position that the functional contact face of the first wind-cooling heat dissipating system 21 is corresponding to the first external piece 123, second external piece 124 is provided with the shape size and the first groove 24 adaptation of placing the first collets 23, first collets 23 in the first groove 24, first groove 24.First corrosion resistant metal plate 25 is adjacent to the first ground electrode 22, suitable and surperficial concordant with the first collets 23, the smooth functional contact face that common formation is new.

As shown in Figure 6, the 3rd discharge assembly 3 is formed by stacking successively primarily of the second wind-cooling heat dissipating system 31, second ground electrode 32, second corrosion resistant metal plate 35.The position that the functional contact face of the second wind-cooling heat dissipating system 31 is corresponding to the first external piece 123, second external piece 124 is provided with the shape size and the second groove 34 adaptation of placing the second collets 33, second collets 33 in the second groove 34, second groove 34.Second corrosion resistant metal plate 35 is adjacent to the second ground electrode 32, suitable and surperficial concordant with the second collets 33, the smooth functional contact face that common formation is new.

Preferably, for reaching better insulation effect, the first collets 23 and the second collets 33 select fluoroplastics material or ceramic material.

Preferably, for reaching better anticorrosion effect, the material selection titanium of the first corrosion resistant metal plate 25 and the second corrosion resistant metal plate 35.

Above content is in conjunction with concrete preferred implementation further detailed description of the utility model; can not assert that concrete enforcement of the present utility model is confined to these explanations; for the utility model person of an ordinary skill in the technical field; without departing from the concept of the premise utility; some simple deduction or replace can also be made, all should be considered as belonging to protection domain of the present utility model.

Claims (10)

1. an air-cooled board-like ozone generating unit, comprise the second discharge assembly, the first discharge assembly and the 3rd discharge assembly be close to successively, it is characterized in that: described first discharge assembly comprises the second ceramic plate, high-pressure stage and the first ceramic plate that superpose successively, described second discharge assembly comprises the first wind-cooling heat dissipating system and the first ground electrode that superpose successively, and described 3rd discharge assembly comprises the second ground electrode and the second wind-cooling heat dissipating system that superpose successively; The two ends of described 3rd discharge assembly are respectively equipped with air intake and air outlet, and the outer side of described first ceramic plate and the second ceramic plate is evenly distributed with many heat transfer bars, and described heat transfer bar and described air intake and air outlet are vertically arranged.

2. air-cooled board-like ozone generating unit according to claim 1, it is characterized in that: the outer of described first discharge assembly is arranged with glue frame, described glue frame and the first discharge assembly are provided with space near the both sides of described air intake and air outlet, and described glue frame is close to the other both sides of the first discharge assembly and is connected.

3. air-cooled board-like ozone generating unit according to claim 2, is characterized in that: the thickness of described glue frame is greater than the height of the first discharge assembly; The width in described space is consistent with the external diameter of air intake, air outlet.

4. air-cooled board-like ozone generating unit according to claim 1, is characterized in that: described high-pressure stage is made up of the first high-pressure stage be affixed up and down and the second high-pressure stage.

5. according to air-cooled board-like ozone generating unit according to claim 4, it is characterized in that: described first high-pressure stage and the second high-pressure stage are respectively equipped with the first external piece and second external piece of external high pressure on corresponding position, side.

6. air-cooled board-like ozone generating unit according to claim 5, it is characterized in that: the corresponding position of the functional contact face of described first wind-cooling heat dissipating system and the first external piece, the second external piece is provided with the first groove, places first collets suitable with it in described first groove; The corresponding position of the functional contact face of described second wind-cooling heat dissipating system and the first external piece, the second external piece is provided with the second groove, places second collets suitable with it in described second groove.

7. air-cooled board-like ozone generating unit according to claim 6, is characterized in that: described second discharge assembly also comprises the first corrosion resistant metal plate, the first ground electrode is close to by described first corrosion resistant metal plate, and suitable with the first collets; Described 3rd discharge assembly also comprises the second corrosion resistant metal plate, and the second ground electrode is close to by described second corrosion resistant metal plate, and suitable with the second collets.

8. air-cooled board-like ozone generating unit according to claim 7, is characterized in that: described first corrosion resistant metal plate is concordant with the first collets surface, and described second corrosion resistant metal plate is concordant with the second collets surface.

9. the air-cooled board-like ozone generating unit according to claim 4 or 5, is characterized in that: described first discharge assembly also comprises rubber cushion, and described rubber cushion is arranged between the first high-pressure stage and the second high-pressure stage.

10. air-cooled board-like ozone generating unit according to claim 1, is characterized in that: the thickness of described heat transfer bar is 0.1 ~ 0.25mm.