CN217148573U - Air-cooled ozone generator - Google Patents

Abstract

The utility model discloses an air-cooled ozone generator, which comprises an outer shell, set up many ozone pipes in the shell, the connection electrode of every ozone pipe is parallelly connected, the equal sealing connection of last lower extreme in the shell has the honeycomb flange, the last lower extreme of ozone pipe is connected on the honeycomb flange, wherein be the air inlet chamber between the honeycomb flange of shell and upper end, be the ozone collection chamber between the honeycomb flange of shell and lower extreme, the upper end and the air inlet chamber intercommunication of ozone pipe, the lower extreme and the ozone collection chamber intercommunication of ozone pipe, the upper portion of shell is equipped with the oxygen intake pipe with the air inlet chamber intercommunication, the lower part of shell is equipped with the periphery that lies in between two honeycomb flanges with every ozone pipe of the ozone outlet duct of ozone collection chamber intercommunication and all is connected with the heat dissipation wing, the outer end of air intake is connected with the air pump. The air pump blows air into the shell, cold air is changed into hot air through the heat exchange of the radiating fins and is discharged from the air outlet, the uninterrupted radiating effect on each ozone tube is achieved, and the radiating effect is greatly improved.

Description

Air-cooled ozone generator

Technical Field

The utility model relates to an ozone generator technical field specifically is an air-cooled ozone generator.

Background

The honeycomb ozone tube is actually formed by combining more than two single ozone tubes, because a large amount of heat is generated in the process of generating ozone, the cooling of the ozone tubes is needed to ensure the continuous and efficient generation of ozone.

At present, water-cooled ozone generators are mostly adopted, some ozone generators need to be moved frequently when used, and the environment where some ozone generators are used is inconvenient to be cooled by water. In the use scene, the air cooling pipe has the advantage of being unique.

The chinese utility model patent of grant publication No. CN211712634U discloses a water-cooled ozone generator, which works through a water pump to make the cold water in the water tank enter the spirally wound radiating tube, and take away the heat generated by the ozone generator during operation through the cold water in the radiating tube, thereby realizing the effect of water-cooling temperature reduction for the ozone generator. But still need set up the radiator, through the radiator, cool down the hot cold water of ozone generator during operation, get into the water tank after cooling down, realize the cyclic utilization of water resource, through setting up the heat dissipation fan, blow to the radiator, though improved the efficiency that the radiator cooled down water, increased the radiator, on the one hand increased the cost, on the other hand the cooling water still can recycle after cooling down, prolonged the waiting time of heat dissipation work, reduced the cooling effect.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an air-cooled ozone generator to the weak point of prior art to solve present ozone generator heat dissipation with high costs and the poor problem of radiating effect.

In order to achieve the above object, the utility model provides a following technical scheme:

an air-cooled ozone generator comprises a shell and a plurality of ozone tubes arranged in the shell, wherein the electrodes of the ozone tubes are connected in parallel, the upper end and the lower end in the shell are hermetically connected with honeycomb flanges, the upper end and the lower end of each ozone tube are connected with the honeycomb flanges, wherein be the inlet chamber between shell and the honeycomb flange of upper end, be the ozone collection chamber between shell and the honeycomb flange of lower extreme, the upper end and the inlet chamber intercommunication of ozone pipe, the lower extreme and the ozone collection chamber intercommunication of ozone pipe, the upper portion of shell is equipped with the oxygen intake pipe with the inlet chamber intercommunication, the lower part of shell is equipped with the ozone outlet duct with the ozone collection chamber intercommunication, the lower part that lies in between two honeycomb flanges on the shell is equipped with the air intake, the upper portion that lies in between two honeycomb flanges on the shell is equipped with the air outlet, every ozone pipe lies in the periphery between two honeycomb flanges and all is connected with the heat dissipation wing, the outer end of air intake is connected with the wind pump.

Preferably, the bottom of shell is connected with the mounting panel, the air pump can be dismantled with the mounting panel and be connected.

Preferably, the periphery of mounting panel is equipped with round L type groove, and the air pump sets up in a fixed box, and the lower extreme of fixed box is connected with the bottom plate, and the periphery of bottom plate is equipped with and L type groove complex boss, and the bottom plate passes boss and L type groove through the bolt and is connected with the mounting panel.

By the technical scheme, when the ozone generator is used, the bottom plate can be connected with the mounting plate, and the air pump is connected with the air inlet so as to blow air to the radiating fins on the ozone tube; when not using, convenient dismantlement is convenient for accomodate and remove.

Preferably, be equipped with a plurality of damper in the fixed case, subtract and need the mechanism and include the connecting rod, connect in the first connecting block at connecting rod both ends and connect the second connecting block, connect the spring on first connecting block and connection second connecting block, the connecting rod is located the spring center, the inner wall connection of first connecting block and fixed case, the second connecting block is connected with the outer wall of air pump, the fixed case outside is equipped with a plurality of louvres.

In the working process of the air pump, the air pump is easy to shake, so that the air pipe and the air inlet generate cracks and even fall off, the heat dissipation of the ozone pipe is influenced, and the air pump can play a role in damping and prevent the air inlet and the air pump from falling off.

Preferably, the ozone pipe comprises a power connection electrode, an inner electrode and an outer electrode, the inner electrode and the outer electrode are separated by a medium, a gap is formed between the medium and the outer electrode, an oxygen inlet communicated with the gap is formed in the upper part of the outer electrode, an ozone outlet communicated with the gap is formed in the lower part of the outer electrode, the oxygen inlet is communicated with the air inlet chamber, the ozone outlet is communicated with the ozone collection chamber, and the heat dissipation fins are connected to the periphery of the outer electrode.

The utility model has the advantages that: oxygen enters the air inlet chamber from the oxygen inlet pipe, enters the ozone pipes from the oxygen inlet of each ozone pipe, is connected with high-frequency voltage to generate ozone, enters the ozone collection chamber from the ozone outlet and is finally discharged from the ozone outlet pipe. The air pump blows air into the shell, and cold air is changed into hot air through the heat exchange of the radiating fins and is exhausted from the air outlet, so that the uninterrupted radiating effect on each ozone tube is achieved, and the radiating effect is greatly improved; and a heat dissipation device aiming at cooling water is not required to be additionally arranged, so that the cost is reduced, the working procedures are reduced, and the working efficiency is improved.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of a honeycomb flange;

figure 3 is a schematic view of an ozone tube;

FIG. 4 is a schematic view of the interior of the holding tank;

FIG. 5 is a schematic view of a shock absorbing mechanism;

in the figure, 1-shell, 2-ozone tube, 201-connecting electrode, 202-inner electrode, 203-outer electrode, 204-medium, 3-honeycomb flange, 4-air inlet chamber, 5-ozone collection chamber, 6-oxygen inlet tube, 7-ozone outlet tube, 8-air inlet, 9-air outlet, 10-heat dissipation fin, 11-air pump, 12-mounting plate, 13-L-shaped groove, 14-fixing box, 15-bottom plate, 16-boss, 17-connecting rod, 18-first connecting block, 19-second connecting block, 20-spring and 21-heat dissipation hole.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-2, an air-cooled ozone generator comprises a housing 1, a plurality of ozone tubes 2 arranged in the housing 1, wherein the ozone tubes 2 are connected with electrodes in parallel, the upper end and the lower end in the housing 1 are connected with honeycomb flanges 3 in a sealing manner, the upper end and the lower end of each ozone tube 2 are connected with the honeycomb flanges 3, an air inlet chamber 4 is arranged between the housing 1 and the honeycomb flange 3 at the upper end, an ozone collection chamber 5 is arranged between the housing 1 and the honeycomb flange 3 at the lower end, the upper end of each ozone tube 2 is communicated with the air inlet chamber 4, the lower end of each ozone tube 2 is communicated with the ozone collection chamber 5, an oxygen inlet tube 6 communicated with the air inlet chamber is arranged at the upper part of the housing 1, an ozone outlet tube 7 communicated with the ozone collection chamber is arranged at the lower part of the housing 1, an air inlet 8 is arranged at the lower part between the two honeycomb flanges 3 on the housing 1, an air outlet 9 is arranged at the upper part of the housing 1 between the two honeycomb flanges, the periphery of each ozone pipe 2 between the two honeycomb flanges is connected with a radiating fin 10, and the outer end of the air inlet 8 is connected with an air pump 11.

Referring to fig. 3, the ozone tube 2 includes a power connection electrode 201, an inner electrode 202 and an outer electrode 203, the inner electrode 202 and the outer electrode 203 are separated by a medium 204, a gap is formed between the medium 204 and the outer electrode 203, an oxygen inlet communicated with the gap is arranged at the upper part of the outer electrode 203, an ozone outlet communicated with the gap is arranged at the lower part of the outer electrode 203, the oxygen inlet is communicated with an air inlet chamber, the ozone outlet is communicated with an ozone collection chamber, and a heat dissipation fin 10 is connected to the periphery of the outer electrode 203.

Referring to fig. 1, a mounting plate 12 is connected to the bottom of the housing 1, and the air pump 11 is detachably connected to the mounting plate 12. The periphery of mounting panel 12 is equipped with round L type groove 13, and air pump 11 sets up in a fixed box 14, and the lower extreme of fixed box 14 is connected with bottom plate 15, and the periphery of bottom plate 15 be equipped with L type groove 13 complex boss 16, bottom plate 15 passes boss 16 and L type groove 13 through the bolt and is connected with the mounting panel.

Referring to fig. 4-5, the fixed box 14 is provided with a plurality of damping mechanisms, each of the damping mechanisms includes a connecting rod 17, a first connecting block 18 connected to two ends of the connecting rod 17, a second connecting block 19 connected to the first connecting block 18, and a spring 20 connected to the first connecting block 18 and the second connecting block 19, the connecting rod 17 is located at the center of the spring 20, the first connecting block 18 is connected to the inner wall of the fixed box 14, the second connecting block 19 is connected to the outer wall of the air pump 11, and a plurality of heat dissipation holes 21 are formed in the outer side of the fixed box 14. In the working process of the air pump 11, the air pump is easy to shake, so that the air pipe and the air inlet 8 are cracked and even fall off to influence the heat dissipation of the ozone pipe, and the air pump can play a role in damping and prevent the air inlet 8 and the air pump 11 from falling off.

In conclusion, oxygen enters the air inlet chamber 4 through the oxygen inlet pipe 6, enters the ozone pipes 2 through the oxygen inlets of the ozone pipes 2, is connected with high-frequency voltage to generate ozone, enters the ozone collection chamber 5 through the ozone outlets, and is finally discharged through the ozone outlet pipe 7. The air pump 11 blows air into the shell 1, and cold air is changed into hot air through the heat exchange of the radiating fins 10 and is exhausted from the air outlet 9, so that uninterrupted radiating effect on each ozone tube 2 is achieved, and the radiating effect is greatly improved; and a heat dissipation device aiming at cooling water is not required to be additionally arranged, so that the cost is reduced, the working procedures are reduced, and the working efficiency is improved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. An air-cooled ozone generator comprises a shell (1) and a plurality of ozone tubes (2) arranged in the shell (1), wherein electrodes of each ozone tube (2) are connected in parallel, and the air-cooled ozone generator is characterized in that the upper end and the lower end in the shell (1) are hermetically connected with honeycomb flanges (3), the upper end and the lower end of each ozone tube (2) are connected with the honeycomb flanges (3), an air inlet chamber (4) is arranged between the shell (1) and the honeycomb flange (3) at the upper end, an ozone collection chamber (5) is arranged between the shell (1) and the honeycomb flange (3) at the lower end, the upper end of each ozone tube (2) is communicated with the air inlet chamber (4), the lower end of each ozone tube (2) is communicated with the ozone collection chamber (5), an oxygen inlet tube (6) communicated with the air inlet chamber is arranged at the upper part of the shell (1), and an ozone outlet tube (7) communicated with the ozone collection chamber is arranged at the lower part of the shell (1), the lower part of the shell (1) between the two honeycomb flanges (3) is provided with an air inlet (8), the upper part of the shell (1) between the two honeycomb flanges is provided with an air outlet (9), the periphery of each ozone pipe (2) between the two honeycomb flanges is connected with a heat dissipation fin (10), and the outer end of the air inlet (8) is connected with an air pump (11).

2. The air-cooled ozone generator according to claim 1, characterised in that a mounting plate (12) is attached to the bottom of the housing (1), the air pump (11) being detachably connected to the mounting plate (12).

3. The air-cooled ozone generator according to claim 2, characterized in that the periphery of the mounting plate (12) is provided with a circle of L-shaped grooves (13), the mounting plate (12) is connected with a bottom plate (15) through the L-shaped grooves (13), the bottom plate is connected with a fixed box (14), the air pump (11) is arranged in the fixed box (14), the periphery of the bottom plate (15) is provided with a boss (16) matched with the L-shaped grooves (13), and the bottom plate (15) passes through the boss (16) and the L-shaped grooves (13) through bolts to be connected with the mounting plate.

4. The air-cooled ozone generator according to claim 3, characterized in that several damping mechanisms are arranged in the fixed box (14), the damping mechanism comprises a connecting rod (17), a first connecting block (18) and a second connecting block (19) which are connected with both ends of the connecting rod (17), and a spring (20) which is connected with the first connecting block (18) and the second connecting block (19), the connecting rod (17) is located at the center of the spring (20), the first connecting block (18) is connected with the inner wall of the fixed box (14), the second connecting block (19) is connected with the outer wall of the air pump (11), and several heat dissipation holes (21) are arranged outside the fixed box (14).

5. The air-cooled ozone generator according to any one of claims 1 to 4, wherein the ozone tube (2) comprises an electric connection electrode (201), an inner electrode (202) and an outer electrode (203), the inner electrode (202) and the outer electrode (203) are separated by a medium (204), a gap is formed between the medium (204) and the outer electrode (203), an oxygen inlet communicated with the gap is arranged at the upper part of the outer electrode (203), an ozone outlet communicated with the gap is arranged at the lower part of the outer electrode, the oxygen inlet is communicated with the air inlet chamber, the ozone outlet is communicated with the ozone gas chamber, and a heat dissipation fin (10) is connected to the periphery of the outer electrode (203).

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