CN218665419U - Water-cooled ozone generator - Google Patents

Abstract

The utility model relates to the field of ozone generators, in particular to a water-cooled ozone generator, which comprises a shell, a sealing plate, a cathode cooling water tank, an anode cooling water tank and an ozone discharge pipe; the top of the shell is provided with an air inlet pipe, the inner wall of the shell is provided with a partition plate, and the partition plate is provided with two groups of air vents; the sealing plate seals the air vent, a spring is arranged on the sealing plate, and the spring is connected with the inner wall of the top of the shell; the cathode cooling water tank and the anode cooling water tank are both arranged on the inner wall of the shell and positioned below the partition plate, the left outer wall and the right outer wall of the cathode cooling water tank are both provided with cathode plates, and the anode cooling water tank is provided with an anode plate; the ozone discharge pipe is arranged on the shell; and a water circulation component for driving cooling water in the cathode cooling water tank and the anode cooling water tank to circularly flow is arranged on the shell. The utility model discloses in, the water cycle subassembly constantly takes away the heat that negative plate and anode plate produced, and the direct heat source of cooling water circulation realizes high-efficient heat dissipation.

Description

Water-cooled ozone generator

Technical Field

The utility model relates to an ozone generator field especially relates to a water-cooled ozone generator.

Background

When the ozone generator works, a large amount of heat energy is generated, cooling is needed, otherwise ozone is decomposed while being generated due to high temperature. The water-cooled ozone generator has good cooling effect, stable work and no ozone attenuation, and can continuously work for a long time.

Chinese patent with the publication number of CN207811266U discloses a water-cooled ozone generator, including inner shell, ozone generator, it has the combined material layer to fill between inner shell, the shell, be provided with the outer casing in the inner shell, be provided with ozone generator in the outer casing, ozone generator one end is connected with the intake pipe, the shell both ends all are provided with the connecting seat, and are provided with first filter layer in the connecting seat, first filter layer one side is provided with the second filter layer, first filter layer, the equal fixedly connected with connecting plate of second filter layer one end, the shell outside is provided with the collar, the ozone generator other end is connected with the outlet duct, the outer casing top is connected with the delivery port, and the outer casing bottom is connected with the inlet tube, and the water pipe that the delivery port is connected, inlet tube all are connected with the cold water installation, and all are provided with the electromagnetic flow control valve on the water pipe that the delivery port is connected, the inlet tube, this kind of ozone generator simple structure, the cooling effect is good, the production of ozone of being convenient for.

However, the above-mentioned known solutions have the following disadvantages: the water cooling structure is arranged on the periphery of the ozone generator, and is only equivalent to that a circle of heat dissipation coil is additionally arranged outside the ozone generator, cooling water cannot directly reach heat source generating positions (a high-voltage cathode and an anode), and the heat dissipation effect is poor.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a water-cooled ozone generator to the relatively poor problem of radiating effect is resulted from to the unable direct heat source production department of cooling water that exists among the background art.

The technical scheme of the utility model: a water-cooled ozone generator comprises a shell, a sealing plate, a cathode cooling water tank, an anode cooling water tank and an ozone discharge pipe;

the top of the shell is provided with an air inlet pipe, the inner wall of the shell is horizontally provided with a partition plate, and the partition plate is provided with two groups of air vents; the top of the sealing plate is attached to the bottom of the partition plate and seals the vent, the sealing plate is provided with springs, the springs are connected with the inner wall of the top of the shell and are in a stretching state, and the sealing plates are provided with two groups; the cathode cooling water tank and the anode cooling water tank are both arranged on the inner wall of the shell and are positioned below the partition plate, two groups of anode cooling water tanks are arranged, the two groups of anode cooling water tanks are positioned on two sides of the cathode cooling water tank, both the cathode cooling water tank and the anode cooling water tank contain cooling water, the left outer wall and the right outer wall of the cathode cooling water tank are both provided with cathode plates, the end face, facing the cathode plates, of the anode cooling water tank is provided with anode plates, and an ozone generating channel is formed between the cathode plates and the anode plates; the ozone discharge pipe is arranged on the shell and is positioned below the cathode cooling water tank; and a water circulation component for driving cooling water in the cathode cooling water tank and the anode cooling water tank to circularly flow is arranged on the shell.

Preferably, the air inlet pipe is connected to an air supply pump, an oxygen supply device or a compressed air supply device.

Preferably, a plurality of groups of radiating fins a are arranged on the inner walls of the cathode cooling water tank and the anode cooling water tank.

Preferably, the radiating fins a are arranged on the left inner wall and the right inner wall of the cathode cooling water tank and the anode cooling water tank, and the radiating fins a on the two sides are distributed in a side-by-side staggered manner.

Preferably, the water circulation component comprises a water inlet pipe a, a transition pipe a, a water inlet pipe b, a cooling water tank, a water return pipe a, a water return pipe b and a transition pipe b; the three groups of water inlet pipes a penetrate through the shell and are communicated with the cathode cooling water tank and the two groups of anode cooling water tanks respectively, and one ends of the three groups of water inlet pipes a, which are positioned outside the shell, are communicated with the transition pipe a simultaneously; the water inlet pipe b is arranged on the transition pipe a and is communicated with the cooling water tank, a circulating water pump for conveying water into the water inlet pipe b is arranged in the cooling water tank, and the cooling water tank is arranged on the outer wall of the shell; three groups of water return pipes b are arranged, the three groups of water return pipes b penetrate through the shell and are respectively communicated with the cathode cooling water tank and the two groups of anode cooling water tanks, and one ends of the three groups of water return pipes b, which are positioned outside the shell, are simultaneously communicated with the transition pipe b; the water return pipe a is arranged on the transition pipe b and communicated with the cooling water tank.

Preferably, the outer wall of the cooling water tank is provided with a plurality of groups of radiating fins b.

Preferably, the bottom of the cooling water tank is provided with a plurality of groups of supporting legs, and the bottom surfaces of the supporting legs and the bottom surface of the shell are coplanar.

Compared with the prior art, the utility model discloses following profitable technological effect has: the outside air or oxygen enters the shell, when the air pressure reaches a certain value, the sealing plate is driven to open the air vent, the gas enters the ozone generating channel, and the ozone is generated under the action of high-voltage corona discharge of the cathode plate and the anode plate. The heat of the negative plate and the positive plate is continuously transmitted to the negative cooling water tank and the positive cooling water tank, the cooling water in the negative cooling water tank and the positive cooling water tank is circulated by the water circulation assembly, the heat generated by the negative plate and the positive plate is continuously taken away, the cooling water circulates to a direct heat source, and efficient heat dissipation is realized.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a side view of FIG. 1;

fig. 3 is a side cross-sectional view of fig. 1.

Reference numerals: 1. a housing; 2. an air inlet pipe; 3. a partition plate; 4. a sealing plate; 5. a spring; 6. a cathode cooling water tank; 7. a cathode plate; 8. an anode cooling water tank; 9. an anode plate; 10. a heat dissipation fin a; 11. an ozone generating channel; 12. an ozone discharge pipe; 13. a water inlet pipe a; 14. a transition pipe a; 15. a water inlet pipe b; 16. a cooling water tank; 17. a water return pipe a; 18. a water return pipe b; 19. a transition pipe b; 20. supporting legs; 21. and (b) heat dissipation fins.

Detailed Description

Example one

As shown in fig. 1-3, the utility model provides a water-cooled ozone generator, which comprises a housing 1, a sealing plate 4, a cathode cooling water tank 6, an anode cooling water tank 8 and an ozone discharge pipe 12;

the top of the shell 1 is provided with an air inlet pipe 2, the air inlet pipe 2 is connected with an air supply pump, an oxygen supply device or a compressed air supply device, the inner wall of the shell 1 is horizontally provided with a partition plate 3, and the partition plate 3 is provided with two groups of air vents; the top of the sealing plate 4 is attached to the bottom of the partition plate 3 and closes the vent, the sealing plate 4 is provided with springs 5, the springs 5 are connected with the inner wall of the top of the shell 1, the springs 5 are in a stretching state, and the sealing plates 4 are provided with two groups; the cathode cooling water tank 6 and the anode cooling water tank 8 are both arranged on the inner wall of the shell 1 and below the partition plate 3, the anode cooling water tanks 8 are arranged in two groups, the two groups of anode cooling water tanks 8 are arranged on two sides of the cathode cooling water tank 6, both the cathode cooling water tank 6 and the anode cooling water tank 8 contain cooling water, the left outer wall and the right outer wall of the cathode cooling water tank 6 are both provided with cathode plates 7, the end face, facing the cathode plates 7, of the anode cooling water tank 8 is provided with anode plates 9, an ozone generation channel 11 is formed between the cathode plates 7 and the anode plates 9, the inner walls of the cathode cooling water tank 6 and the anode cooling water tank 8 are both provided with a plurality of groups of radiating fins a10, the radiating fins a10 are arranged on the left inner wall and the right inner wall of the cathode cooling water tank 6 and the anode cooling water tank 8, and the radiating fins a10 on the two sides are distributed in a side by side in a staggered manner; the ozone discharging pipe 12 is arranged on the shell 1 and is positioned below the cathode cooling water tank 6; the shell 1 is provided with a water circulation component which drives cooling water in the cathode cooling water tank 6 and the anode cooling water tank 8 to circularly flow.

In this embodiment, the external air or oxygen enters the housing 1, and when the air pressure reaches a certain value, the sealing plate 4 is driven to open the vent, and the gas enters the ozone generating channel 11, so that ozone is generated under the action of high-voltage corona discharge of the cathode plate 7 and the anode plate 9. On negative plate 7 and the continuous transmission of the 9 heats of positive plate to negative pole cooling water tank 6 and positive pole cooling water tank 8, the cooling water that the hydrologic cycle subassembly realized in negative pole cooling water tank 6 and the positive pole cooling water tank 8 circulates, constantly takes away the heat that negative plate 7 and positive plate 9 produced, and the direct heat source of cooling water circulation realizes high-efficient heat dissipation.

Example two

As shown in fig. 1, compared with the first embodiment, the water-cooled ozone generator of the present invention includes a water inlet pipe a13, a transition pipe a14, a water inlet pipe b15, a cooling water tank 16, a water return pipe a17, a water return pipe b18, and a transition pipe b19; three groups of water inlet pipes a13 are arranged, the three groups of water inlet pipes a13 respectively penetrate through the shell 1 to be communicated with the cathode cooling water tank 6 and the two groups of anode cooling water tanks 8, and one ends of the three groups of water inlet pipes a13, which are positioned outside the shell 1, are simultaneously communicated with the transition pipes a 14; the water inlet pipe b15 is arranged on the transition pipe a14, the water inlet pipe b15 is communicated with the cooling water tank 16, a circulating water pump for conveying water into the water inlet pipe b15 is arranged in the cooling water tank 16, and the cooling water tank 16 is arranged on the outer wall of the shell 1; three groups of water return pipes b18 are arranged, the three groups of water return pipes b18 penetrate through the shell 1 and are respectively communicated with the cathode cooling water tank 6 and the two groups of anode cooling water tanks 8, and one ends of the three groups of water return pipes b18, which are positioned outside the shell 1, are simultaneously communicated with the transition pipe b19; a return pipe a17 is provided on the transition pipe b19, and the return pipe a17 communicates with the cooling water tank 16. And a plurality of groups of radiating fins b21 are arranged on the outer wall of the cooling water tank 16. And a plurality of groups of supporting legs 20 are arranged at the bottom of the cooling water tank 16, and the bottom surfaces of the supporting legs 20 are coplanar with the bottom surface of the shell 1.

In this embodiment, the circulating water pump enters the cooling water in the cooling water tank 16 into the cathode cooling water tank 6 and the anode cooling water tank 8 through the water inlet pipe b15, the transition pipe a14 and the water inlet pipe a13, and then enters the cooling water tank 16 through the water return pipe b18, the transition pipe b19 and the water return pipe a17 to realize water circulation, so as to continuously take away heat generated by the cathode plate 7 and the anode plate 9, thereby realizing efficient heat dissipation.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited thereto, and various changes can be made without departing from the gist of the present invention within the scope of knowledge possessed by those skilled in the art.

Claims (7)

1. A water-cooled ozone generator is characterized by comprising a shell (1), a sealing plate (4), a cathode cooling water tank (6), an anode cooling water tank (8) and an ozone discharge pipe (12);

the top of the shell (1) is provided with an air inlet pipe (2), the inner wall of the shell (1) is horizontally provided with a partition plate (3), and the partition plate (3) is provided with two groups of air vents; the top of the sealing plate (4) is attached to the bottom of the partition plate (3) and closes the air vent, the sealing plate (4) is provided with springs (5), the springs (5) are connected with the inner wall of the top of the shell (1), the springs (5) are in a stretching state, and the sealing plates (4) are provided with two groups; the cathode cooling water tank (6) and the anode cooling water tank (8) are arranged on the inner wall of the shell (1) and are positioned below the partition plate (3), the anode cooling water tanks (8) are arranged in two groups, the two groups of anode cooling water tanks (8) are positioned at two sides of the cathode cooling water tank (6), cooling water is contained in each of the cathode cooling water tank (6) and the anode cooling water tank (8), cathode plates (7) are arranged on the left outer wall and the right outer wall of the cathode cooling water tank (6), anode plates (9) are arranged on the end faces, facing the cathode plates (7), of the anode cooling water tanks (8), and ozone generating channels (11) are formed between the cathode plates (7) and the anode plates (9); the ozone discharge pipe (12) is arranged on the shell (1) and is positioned below the cathode cooling water tank (6); and a water circulation component for driving cooling water in the cathode cooling water tank (6) and the anode cooling water tank (8) to circularly flow is arranged on the shell (1).

2. The water-cooled ozone generator according to claim 1, wherein the inlet pipe (2) is connected to an air supply pump, an oxygen supply device or a compressed air supply device.

3. The water-cooled ozone generator according to claim 1, wherein the inner walls of the cathode cooling water tank (6) and the anode cooling water tank (8) are provided with a plurality of groups of radiating fins a (10).

4. The water-cooled ozone generator according to claim 3, wherein the heat dissipation fins a (10) are provided on the left and right inner walls of the cathode cooling water tank (6) and the anode cooling water tank (8), and the heat dissipation fins a (10) on both sides are arranged in a staggered manner side by side.

5. The water-cooled ozone generator according to claim 1, wherein the water circulation assembly includes a water inlet pipe a (13), a transition pipe a (14), a water inlet pipe b (15), a cooling water tank (16), a water return pipe a (17), a water return pipe b (18), and a transition pipe b (19); three groups of water inlet pipes a (13) are arranged, the three groups of water inlet pipes a (13) respectively penetrate through the shell (1) to be communicated with the cathode cooling water tank (6) and the two groups of anode cooling water tanks (8), and one ends of the three groups of water inlet pipes a (13) which are positioned outside the shell (1) are simultaneously communicated with the transition pipe a (14); a water inlet pipe b (15) is arranged on the transition pipe a (14), the water inlet pipe b (15) is communicated with a cooling water tank (16), a circulating water pump for conveying water into the water inlet pipe b (15) is arranged in the cooling water tank (16), and the cooling water tank (16) is arranged on the outer wall of the shell (1); three groups of water return pipes b (18) are arranged, the three groups of water return pipes b (18) penetrate through the shell (1) and are respectively communicated with the cathode cooling water tank (6) and the two groups of anode cooling water tanks (8), and one ends of the three groups of water return pipes b (18) which are positioned outside the shell (1) are simultaneously communicated with the transition pipe b (19); the water return pipe a (17) is arranged on the transition pipe b (19), and the water return pipe a (17) is communicated with the cooling water tank (16).

6. The water-cooled ozone generator according to claim 5, wherein a plurality of sets of heat dissipating fins b (21) are provided on the outer wall of the cooling water tank (16).

7. The water-cooled ozone generator according to claim 5, wherein a plurality of groups of support legs (20) are arranged at the bottom of the cooling water tank (16), and the bottom surfaces of the support legs (20) are coplanar with the bottom surface of the housing (1).

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