CN209210392U - A kind of water-cooling ozone generator - Google Patents
A kind of water-cooling ozone generator Download PDFInfo
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- CN209210392U CN209210392U CN201821768632.2U CN201821768632U CN209210392U CN 209210392 U CN209210392 U CN 209210392U CN 201821768632 U CN201821768632 U CN 201821768632U CN 209210392 U CN209210392 U CN 209210392U
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Abstract
The utility model provides a kind of water-cooling ozone generator, first electrode and second electrode, the shape of first electrode is tubular, second electrode is located on the inside of first electrode, several cooling fins are equipped on the outside of first electrode, connecting leg is equipped between adjacent two cooling fin, cooling fin positioned at one end is connected with water supply tank, the cooling fin of the other end is connected with water return tank, connector is equipped between cooling fin and connecting leg, connector includes the first tube body and the second tube body, first tube body is connect with connecting leg, second tube body is connect with cooling fin, first tube body is detachably connected with the second tube body, sealing ring is equipped between first tube body and the second tube body, conically shaped is connected on the inside of sealing ring, the diameter of conically shaped one end is less than the diameter of the other end, the big one end of conically shaped diameter is equipped with strainer, ball is equipped in conically shaped.The utility model has the advantages that: the quantity of the cooling fin be it is multiple, quantity and arrangement can be adjusted according to the specification of electrode, structure is simple, at low cost, good cooling results.
Description
Technical field
The utility model relates to ozone process units technical fields.
Specifically, being to be related to a kind of water-cooling ozone generator.
Background technique
Ozone generator is for producing ozone gas (O3) device.Ozone is easily decomposes to be stored, and scene system is needed
Enchashment field uses (storage of short time can be carried out in the case where special), so all places that can use ozone are both needed to using smelly
Oxygen Generator, ozone generator is in drinking water, sewage, industrial oxidation, food processing and fresh-keeping, medicine synthesis, space sterilizing etc.
Field is widely applied, and the ozone gas that ozone generator generates can be utilized directly, can also be mixed by mixing arrangement and liquid
It closes and participates in reaction.
Existing ozone generator generallys use high voltage discharge type, and this working method can generate amount of heat, generates smelly
The electrode body circulating cooling effect of oxygen is poor, poor for applicability, seriously affects ozone production efficiency.
Utility model content
The purpose of the utility model is to overcome the shortcomings of above-mentioned traditional technology, provide a kind of water-cooling ozone generation
Device can adjust the quantity and arrangement of cooling fin according to the specification of electrode, and structure is simple, at low cost, good cooling results.
The purpose of this utility model is reached by following technical measures:
A kind of water-cooling ozone generator, including first electrode and second electrode, the shape of the first electrode are tubular, institute
It states second electrode to be located on the inside of first electrode, several cooling fins is equipped on the outside of the first electrode, are set between adjacent two cooling fin
There is connecting leg, the cooling fin positioned at one end is connected with water supply tank, is connected with water return tank, the cooling fin positioned at the cooling fin of the other end
Connector is equipped between connecting leg, the connector includes the first tube body and the second tube body, and first tube body is connect with connecting leg, described
Second tube body is connect with cooling fin, and first tube body is detachably connected with the second tube body, first tube body and the second tube body
Between be equipped with sealing ring, conically shaped is connected on the inside of the sealing ring, the diameter of described conically shaped one end is less than the straight of the other end
Diameter, the big one end of the conically shaped diameter are equipped with strainer, are equipped with ball in the conically shaped.
As an improvement: first tube body side is equipped with limited block, is socketed with nut on first tube body, described
Nut is equipped with block, and the block is located at side of the limited block far from the second tube body, and the second tube body outside is equipped with and spiral shell
Female corresponding external screw thread.
As an improvement: described first electrode one end is equipped with first end cover, and the first electrode other end is equipped with second
End cap, described second electrode one end pass through first end cover, and the second electrode other end passes through second end cover.
As an improvement: the shape of the first end cover and second end cover is hemispherical.
As an improvement: the first end cover is connected with air tank, and the second end cover, which is connected with, deposits gas tank.
As an improvement: the second electrode is hollow structure, and described second electrode one end is connected with water supply tank, described
The second electrode other end is connected with water return tank.
As an improvement: the cooling fin is equipped with cooling fin far from the side of first electrode.
As an improvement: the shape of the cooling fin is strip, and several cooling fins are along the circumferentially uniform cloth of first electrode
It sets.
As an improvement: it further include power supply, the power supply is electrically connected with first electrode and second electrode.
By adopting the above-described technical solution, compared with prior art, the utility model has the advantages that: the air tank to
Gap between first electrode, second electrode conveys air, and the gas containing ozone of generation, which enters, deposits gas tank.The water supply tank
Interior water is by being that first electrode and second electrode cool down inside cooling fin and second electrode.The quantity of the cooling fin is more
It is a, quantity and arrangement can be adjusted according to the specification of first electrode, structure is simple, at low cost, good cooling results.
The utility model is described in further detail with reference to the accompanying drawings and detailed description.
Detailed description of the invention
Attached drawing 1 is a kind of structural schematic diagram of water-cooling ozone generator of the utility model.
Attached drawing 2 is the structural schematic diagram of cooling fin in a kind of water-cooling ozone generator of the utility model.
Attached drawing 3 is the structural schematic diagram of the middle section Fig. 2 A-A.
Attached drawing 4 is a kind of structural schematic diagram of water-cooling ozone generator center tap of the utility model.
In figure: 1- power supply;2- air tank;3- air inlet pipe;4- cooling fin;The first outlet pipe of 5-;6- second end cover;7- return water
Tank;The second outlet pipe of 8-;9- escape pipe;10- deposits gas tank;11- second electrode;12- first electrode;The first water inlet pipe of 13-;14-
First end cover;15- water supply tank;The second water inlet pipe of 16-;17- connecting leg;18- cooling fin;19- connector;20- opening;21- first is managed
Body;22- block;23- sealing ring;24- ball;The second tube body of 25-;26- strainer;27- nut;28- limited block;29- conically shaped.
Specific embodiment
Embodiment: as shown in Fig. 1, a kind of water-cooling ozone generator, including first electrode 12, second electrode 11 and power supply
1, the power supply 1 is electrically connected with first electrode 12 and second electrode 11.
The shape of the first electrode 12 is cylindrical shape, and the shape of the second electrode 11 is cylindrical shape, second electricity
Pole 11 is located at 12 inside of first electrode, and the first electrode 12 is vertically arranged, and the second electrode 11 is vertically arranged.
12 upper end of first electrode is equipped with first end cover 14, and 12 lower end of first electrode is equipped with second end cover 6, described
The shape of first end cover 14 and second end cover 6 is hemispherical.Pass through flange between the first end cover 14 and first electrode 12
Connection, passes through flanged joint between the second end cover 6 and first electrode 12.
11 upper end of second electrode passes through first end cover 14, seals and sets between the first end cover 14 and second electrode 11
It sets;11 lower end of second electrode passes through second end cover 6, sealed set between the second end cover 6 and second electrode 11.
The first end cover 14 is connected with air tank 2, and air inlet pipe 3 is equipped between the first end cover 14 and air tank 2;Institute
It states second end cover 6 and is connected with and deposit gas tank 10, the second end cover 6 and deposit and be equipped with escape pipe 9 between gas tank 10.
The second electrode 11 is hollow structure, and 11 upper end of second electrode is connected with water supply tank 15, second electricity
The second water inlet pipe 16 is equipped between pole 11 and water supply tank 15;11 other end of second electrode is connected with water return tank 7, and described second
The second outlet pipe 8 is equipped between electrode 11 and water return tank 7.
As shown in attached drawing 2,3, several cooling fins 4 are equipped on the outside of the first electrode 12, the shape of the cooling fin 4 is length
Bar shaped, the cooling fin 4 are equipped with cooling fin 18 far from the side of first electrode 12.
There are two opening 20, two openings 20 to be located at side of the cooling fin 4 far from first electrode 12 for every tool of cooling fin 4,
One opening 20 is located at 4 one end of cooling fin, another opening 20 is located at 4 other end of cooling fin, and several cooling fins 4 are along first electrode
12 are arranged circumferentially.
Several cooling fins 4 join end to end, and connecting leg 17 is equipped between adjacent two cooling fin 4, and the connecting leg 17 is hose.It is located at
The cooling fin 4 of one end is connected with water supply tank 15, and the first water inlet pipe 13 is equipped between the cooling fin 4 and water supply tank 15 of one end;
Cooling fin 4 positioned at the other end is connected with water return tank 7, and the first water outlet is equipped between the cooling fin 4 and water return tank 7 of the other end
Pipe 5.
As shown in Fig. 4, connector 19 is equipped between the cooling fin 4 and connecting leg 17, the connector 19 includes the first tube body
21 and second tube body 25, first tube body 21 connect with connecting leg 17, second tube body 25 is connect with cooling fin 4.
First tube body 21 is detachably connected with the second tube body 25, specifically, 21 side of the first tube body is equipped with limit
Position block 28 is socketed with nut 27 on first tube body 21, and the nut 27 is equipped with block 22, and the block 22 is located at limit
Side of the block 28 far from the second tube body 25 is equipped with external screw thread corresponding with nut 27 on the outside of second tube body 25.
It is equipped with sealing ring 23 between first tube body 21 and the second tube body 25, is connected with taper on the inside of the sealing ring 23
Cylinder 29, the diameter of described 29 one end of conically shaped are less than the diameter of the other end, and the big one end of 29 diameter of conically shaped is equipped with strainer
26, the conically shaped 29 is interior to be equipped with ball 24.
The direction of the conically shaped 29 is adjusted according to water (flow) direction, prevents cooling aqueous reflux.
The working principle of the utility model is that the air tank 2 is defeated to the gap between first electrode 12, second electrode 11
Air is sent, the gas containing ozone of generation, which enters, deposits gas tank 10.
Water in the water supply tank 15 is by being first electrode 12 and second electrode 11 inside cooling fin 4 and second electrode 11
Cooling.The quantity of the cooling fin 4 be it is multiple, quantity and arrangement, structure can be adjusted according to the specification of first electrode 12
Simply, at low cost, good cooling results.
One embodiment of the utility model is described in detail above, but the content is only the utility model
Preferred embodiment should not be considered as limiting the scope of the present invention.It is all to be made according to application scope of the utility model
All the changes and improvements etc., should all belong within the patent covering scope of the utility model.
Claims (9)
1. a kind of water-cooling ozone generator, including first electrode (12) and second electrode (11), it is characterised in that: first electricity
The shape of pole (12) is tubular, and the second electrode (11) is located on the inside of first electrode (12), on the outside of the first electrode (12)
Equipped with several cooling fins (4), connecting leg (17) are equipped between adjacent two cooling fin (4), the cooling fin (4) positioned at one end is connected with confession
Water pot (15), the cooling fin (4) positioned at the other end are connected with water return tank (7), are equipped between the cooling fin (4) and connecting leg (17)
Connector (19), the connector (19) include the first tube body (21) and the second tube body (25), first tube body (21) and connecting leg
(17) it connects, second tube body (25) connect with cooling fin (4), and first tube body (21) and the second tube body (25) are detachable
Connection is equipped with sealing ring (23) between first tube body (21) and the second tube body (25), connection on the inside of the sealing ring (23)
Have conically shaped (29), the diameter of described conically shaped (29) one end is less than the diameter of the other end, and conically shaped (29) diameter is big
One end is equipped with strainer (26), is equipped with ball (24) in the conically shaped (29).
2. water-cooling ozone generator according to claim 1, it is characterised in that: the first tube body (21) side is equipped with limit
Position block (28) is socketed with nut (27) on first tube body (21), and the nut (27) is equipped with block (22), the block
(22) it is located at the side of limited block (28) far from the second tube body (25), it is right with nut (27) to be equipped on the outside of second tube body (25)
The external screw thread answered.
3. water-cooling ozone generator according to claim 1, it is characterised in that: described first electrode (12) one end is equipped with the
One end cap (14), first electrode (12) other end are equipped with second end cover (6), and described second electrode (11) one end passes through first
End cap (14), second electrode (11) other end pass through second end cover (6).
4. water-cooling ozone generator according to claim 3, it is characterised in that: the first end cover (14) and second end cover
(6) shape is hemispherical.
5. water-cooling ozone generator according to claim 3, it is characterised in that: the first end cover (14) is connected with air
Tank (2), the second end cover (6), which is connected with, deposits gas tank (10).
6. according to claim 1 to 5 one of them described water-cooling ozone generator, it is characterised in that: the second electrode
It (11) is hollow structure, described second electrode (11) one end is connected with water supply tank (15), and second electrode (11) other end connects
It is connected to water return tank (7).
7. according to claim 1 to 5 one of them described water-cooling ozone generator, it is characterised in that: the cooling fin (4) is remote
Side from first electrode (12) is equipped with cooling fin (18).
8. according to claim 1 to 5 one of them described water-cooling ozone generator, it is characterised in that: the cooling fin (4)
Shape is strip, and several cooling fins (4) are arranged circumferentially along first electrode (12).
9. according to claim 1 to 5 one of them described water-cooling ozone generator, it is characterised in that: it further include power supply (1),
The power supply (1) is electrically connected with first electrode (12) and second electrode (11).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821768632.2U CN209210392U (en) | 2018-10-30 | 2018-10-30 | A kind of water-cooling ozone generator |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821768632.2U CN209210392U (en) | 2018-10-30 | 2018-10-30 | A kind of water-cooling ozone generator |
Publications (1)
Publication Number | Publication Date |
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CN209210392U true CN209210392U (en) | 2019-08-06 |
Family
ID=67457455
Family Applications (1)
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CN201821768632.2U Active CN209210392U (en) | 2018-10-30 | 2018-10-30 | A kind of water-cooling ozone generator |
Country Status (1)
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CN (1) | CN209210392U (en) |
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2018
- 2018-10-30 CN CN201821768632.2U patent/CN209210392U/en active Active
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