CN201071394Y - Electrolysis ozone generator - Google Patents
Electrolysis ozone generator Download PDFInfo
- Publication number
- CN201071394Y CN201071394Y CNU2007201121051U CN200720112105U CN201071394Y CN 201071394 Y CN201071394 Y CN 201071394Y CN U2007201121051 U CNU2007201121051 U CN U2007201121051U CN 200720112105 U CN200720112105 U CN 200720112105U CN 201071394 Y CN201071394 Y CN 201071394Y
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- anode
- cathode
- plate
- clamping plate
- conservancy diversion
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Abstract
The utility model relates to an electrolytic ozone generator, which comprises a membrane electrode, a cathode conducting current collecting plate, an anode conducting current collecting plate, a cathode flow guiding contact plate, an anode flow guiding contact plate, a cathode water box plate, an anode box plate, a cathode clamp plate and an anode clamp, which are arranged at both sides of the membrane electrode; wherein, the cathode and the anode flow guiding plates are mesh plates which are formed by punching; the punched position is provided with a plurality of through holes which have a plurality of bumps thereon. The bumped sides of the cathode and the anode flow guiding are pressed tightly with the cathode and the anode conducting current collecting plates respectively, and the other sides directly contacts and are pressed tightly with the cathode and the anode clamp plates respectively. 0.5-2mm titanium plates are punched to form the cathode and the anode flow guiding contact plates and the cathode and anode clamp plates. Basing on the structure, the utility model has the advantages of low cost, simple structure and good heat radiation effect.
Description
Technical field
The utility model relates to a kind of ozone device for making, especially relates to a kind of electrolytic process ozonizer.
Background technology
Ozone is light blue gas, is a kind of extremely strong oxygenant, suppress breeding and the growth of bacterium by oxygenizement, and cause the death of bacterium, and be a kind of strong sterilant.Ozone can be water-soluble, and the ozone water of certain ozone concn has extremely strong germicidal action equally.Ozone and ozone water can be sterilized and sterilize food and tap water, when tap water is carried out disinfection, except killing the bacterium in the water, are further purified outside the impurity in the water, can also increase the oxygen level in the water.Simultaneously ozone and ozone water also have have no side effect, advantages such as nontoxicity, non-secondary pollution.Therefore, it is widely used in fields such as tap water, food-processing, health care, chemical industry, environment protection.
The method for preparing ozone has corona method and electrolytic process, because electrolytic process is better than corona method can prepare high-concentrated ozone again, therefore, after the end of the seventies, substantially all adopts electrolytic process.At present, the electrolysis ozone generating unit of the usefulness of using is because always there is variety of issue in structural reason.As the patent No. is 97122126.X a kind of " electrolytic ozone generator ", include electrolysis type ozone generator, anode water tank and negative electrode water tank, wherein electrolysis type ozone generator comprise cationic exchange diaphragm independently, respectively near anode catalyst diaphragm and cathod catalyst diaphragm, anode porous flow collection sheet and the negative electrode porous flow collection sheet of cationic exchange diaphragm both sides, in both sides is respectively flow deflector, cathode and anode chamber framework, anticorrosion and water conservancy diversion clamping plate, bolt is used in the outside, and nut is fastening.Wherein flow deflector is to be formed cost cost height by the metal titanium printed line cutting processing about 10mm.And its radiator structure complexity, the heat conduction approach by flow deflector to anticorrosion again to the water conservancy diversion clamping plate, complex structure not only, and radiating effect is bad.
The utility model content
The utility model mainly is to solve above-mentioned technical problem, thereby provides a kind of cost low, the electrolytic process ozonizer of simple in structure and good heat dissipation effect.
Above-mentioned technical problem of the present utility model is mainly solved by following technical proposals: include membrane electrode, be arranged on the moon of membrane electrode both sides, the anode conducting collector plate, cloudy, anode water conservancy diversion contact board, cloudy, anode water boxboard and the moon, the anode clamping plate, described the moon, anode water conservancy diversion contact board is the hole reticular lamina, this plate is by being stamped to form, form some through holes in punching press place, on through hole, form some projectioies, described the moon, anode water conservancy diversion contact board has the one side of projection to compress the moon respectively, anode conducting collector plate, another side respectively with the moon, anode clamping plate directly contact compress.
The utility model is middle to be membrane electrode, and both sides are cathode and anode conduction collector plate successively, cathode and anode water conservancy diversion contact board, cathode and anode water chamber plate and cathode and anode clamping plate.Cathode and anode water conservancy diversion contact board at present general the practical ozone generating-device is formed by the line cutting processing often, owing to be the technology that adopts the line cutting, often the thickness of sheet material is bigger, make cost very high, and the complete processing of line cutting own also is quite expensive, therefore, cause the cost of whole device to increase greatly.Cathode and anode water conservancy diversion contact board adopts and is stamped to form in the utility model, and not only the simple cost of technology is low, and can adopt thin sheet material, has saved spending, has reduced cost.Cathode and anode water conservancy diversion contact board by punching press and, form through hole in punching press place, originally the sheet material in the through hole then outwards forms protruding.Simultaneously in the utility model, cathode and anode water conservancy diversion contact board has the one side of projection to compress cathode and anode conduction collector plate respectively, another side directly contacts with the cathode and anode clamping plate respectively and compresses, owing to be direct contact, the centre there is no anticorrosion and waits other structures, make overall structure simple, good heat dissipation effect.
As preferably, on described cathode and anode clamping plate, be provided with groove, this groove one side can cooperate and compresses cathode and anode water conservancy diversion contact board.
Establish upper groove on the cathode and anode clamping plate, groove one side inwardly should match with cathode and anode water conservancy diversion contact board, each other directly contact.The structure that employing concaves, can so that the utility model on the whole more between the space.
As preferably, described cathode and anode water conservancy diversion contact board is that the metallic titanium plate of 0.5-2mm is stamped to form by thickness, and described cathode and anode clamping plate also are stamped to form by metallic titanium plate.
Cathode and anode water conservancy diversion contact board adopts the thick metallic titanium plate of 0.5-2mm, not only saves cost, and owing to adopt the technology of punching press to form projection at another side, be complete on the function, do not need to add miscellaneous part, and the cathode and anode clamping plate also adopt metallic titanium plate, can effectively prevent corrosion.
As preferably,, and be equipped with sealing-ring between the cathode and anode water chamber plate in described cathode and anode water chamber plate and cathode and anode clamping plate combination section.
When practicality is of the present utility model, generally produce ozone as raw material with pure water, therefore, good stopping property must be arranged, just can.At negative electrode water chamber plate and negative electrode clamping plate, anode water boxboard and anode clamping plate, and be provided with sealing-ring between negative electrode water chamber plate and the anode water boxboard, wherein, two sealing-rings can be set between negative electrode water chamber plate and anode water boxboard owing to need.
As preferably, described fastening piece is bolt and nut, and described bolt passes the cathode and anode clamping plate and the cathode and anode water chamber plate is fastening with nut.
The effect of described fastening piece is with combining that whole utility model seals, and adopts the form of bolt and nut, and is not only simple but also practical.To the employing of fastening piece, as long as can reach the effect that needs, be about to each parts of the present utility model only combining, also can adopt other various ways.
As preferably, be provided with insulating mat and spring pad at described bolt and cathode and anode clamping plate combination section.
Be provided with insulating mat and spring pad at bolt and cathode and anode clamping plate combination section, help better fastening the utility model.
Because in the utility model, cathode and anode water conservancy diversion contact board is the hole reticular lamina that has metallic titanium plate to be stamped to form, and form some projectioies at this plate, cathode and anode water conservancy diversion contact board has the one side of projection to compress cathode and anode conduction collector plate respectively simultaneously, another side directly contacts with the cathode and anode clamping plate respectively and compresses, make that to the utlity model has cost low, the advantage of simple in structure and good heat dissipation effect.
Description of drawings
Accompanying drawing 1 is that the utility model partly cuts open synoptic diagram;
Accompanying drawing 2 is A-A sectional views of Fig. 1;
Accompanying drawing 3 is sectional views of the utility model water conservancy diversion contact board;
Accompanying drawing 4 is front elevations of the utility model clamping plate;
Embodiment
Below by embodiment, and in conjunction with the accompanying drawings, the technical solution of the utility model is described in further detail.
Embodiment 1: as Fig. 1, shown in Figure 2, the utility model is middle to be a membrane electrode 7, be provided with cathode and anode conduction collector plate 2,21 successively in the both sides of membrane electrode 7, cathode and anode water conservancy diversion contact board 1,11 and cathode and anode clamping plate 3,31, between described cathode and anode clamping plate 3,31, also be provided with cathode and anode water chamber plate 4,41, described cathode and anode water chamber plate 4,41 and cathode and anode clamping plate 3,31 formed spaces are with membrane electrode 7, and cathode and anode conduction collector plate 2,21 and cathode and anode water conservancy diversion contact board 1,11 are included.
On described cathode and anode clamping plate 3,31, be provided with power supply access port 8, on described cathode and anode water chamber plate 4,41, be provided with water tank interface 9.Be equipped with the hole in described cathode and anode water chamber plate 4,41 and cathode and anode clamping plate 3,31, bolt 6 arranged by these holes, with nut 61 that the utility model is fastening.On described bolt 6 and cathode and anode clamping plate 3,31, be provided with insulating mat 62 and spring pad 63.Described at negative electrode water chamber plate 4 and negative electrode clamping plate 3, anode water boxboard 41 and anode clamping plate 31, and be provided with sealing-ring 5 between negative electrode water chamber plate 4 and the anode water boxboard 41, wherein, two sealing-rings 5 are set between negative electrode water chamber plate 4 and anode water boxboard 41 owing to need.
Described cathode and anode water conservancy diversion contact board 1,11 is formed by the thick metallic titanium plate punching press of 1.5mm, cathode and anode water conservancy diversion contact board 1,11 is square generally, form through hole 12 in punching press place, the sheet material at the place of being stamped outwards forms projection 13, makes described cathode and anode water conservancy diversion contact board 1,11 be hole reticular lamina (referring to Fig. 3).Described cathode and anode water conservancy diversion contact board 1,11 has the one side of projection to compress cathode and anode conduction collector plate 2,21 respectively, and another side then directly contacts with cathode and anode clamping plate 3,31 respectively and compresses.Described cathode and anode clamping plate 3,31 integral body are square, are provided with power supply access port 8 in edge, at groove 32 (referring to Fig. 4) that matches with cathode and anode water conservancy diversion contact board 1,11 of intermediate formation.The medial surface of this groove 32 directly contacts with cathode and anode water conservancy diversion contact board 1,11 and compresses, and makes cathode and anode water conservancy diversion contact board 1,11 be fixed between cathode and anode clamping plate 3,31 and the cathode and anode conduction collector plate 2,21.
In the time of work, by 8 energisings of power supply access port, electric current is added on the cathode and anode conduction collector plate 2,21 by cathode and anode clamping plate 3,31 and cathode and anode water conservancy diversion contact board 1,11, ozone produces by anode conducting collector plate 21 1 sides on membrane electrode 7 surfaces, and hydrogen produces by negative electrode conduction collector plate 2 one sides on membrane electrode 7 surfaces.
Claims (6)
1. electrolytic process ozonizer, include membrane electrode, be arranged on the moon of membrane electrode both sides, the anode conducting collector plate, cloudy, anode water conservancy diversion contact board, cloudy, anode water boxboard and the moon, the anode clamping plate, it is characterized in that described the moon, anode water conservancy diversion contact board (1,11) be the hole reticular lamina, this plate is by being stamped to form, form some through holes (12) in punching press place, go up formation some projectioies (13) at through hole (12), described the moon, anode water conservancy diversion contact board (1,11) there is the one side of projection to compress the moon respectively, anode conducting collector plate (2,21), another side respectively with the moon, anode clamping plate (3,31) directly contact compresses.
2. electrolytic process ozonizer according to claim 1 is characterized in that being provided with groove (32) on described cathode and anode clamping plate (3,31), and this groove (32) one side can cooperate and compresses cathode and anode water conservancy diversion contact board (1,11).
3. electrolytic process ozonizer according to claim 1 and 2, it is characterized in that described cathode and anode water conservancy diversion contact board (1,11) is that the metallic titanium plate of 0.5-2mm is stamped to form by thickness, described cathode and anode clamping plate (3,31) also are stamped to form by metallic titanium plate.
4. electrolytic process ozonizer according to claim 1 is characterized in that in described cathode and anode water chamber plate (4,41) and cathode and anode clamping plate (3,31) combination section, and is equipped with sealing-ring (5) between the cathode and anode water chamber plate (4,41).
5. electrolytic process ozonizer according to claim 1 is characterized in that described fastening piece is bolt (6) and nut (61), and described bolt (6) passes cathode and anode clamping plate (3,31) and cathode and anode water chamber plate (4,41) is fastening with nut (61).
6. electrolytic process ozonizer according to claim 5 is characterized in that being provided with insulating mat (62) and spring pad (63) in described bolt (6) and cathode and anode clamping plate (3,31) combination section.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CNU2007201121051U CN201071394Y (en) | 2007-07-19 | 2007-07-19 | Electrolysis ozone generator |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CNU2007201121051U CN201071394Y (en) | 2007-07-19 | 2007-07-19 | Electrolysis ozone generator |
Publications (1)
Publication Number | Publication Date |
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CN201071394Y true CN201071394Y (en) | 2008-06-11 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CNU2007201121051U Expired - Fee Related CN201071394Y (en) | 2007-07-19 | 2007-07-19 | Electrolysis ozone generator |
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CN (1) | CN201071394Y (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102230184A (en) * | 2010-10-23 | 2011-11-02 | 徐伟钧 | Method for keeping activity of electrolytic ozone generator |
CN103981533A (en) * | 2014-05-30 | 2014-08-13 | 李欣 | Cathode fastening spring bearer plate structure of electrolysis ozonator |
-
2007
- 2007-07-19 CN CNU2007201121051U patent/CN201071394Y/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102230184A (en) * | 2010-10-23 | 2011-11-02 | 徐伟钧 | Method for keeping activity of electrolytic ozone generator |
CN102230184B (en) * | 2010-10-23 | 2013-01-02 | 徐伟钧 | Method for keeping activity of electrolytic ozone generator |
CN103981533A (en) * | 2014-05-30 | 2014-08-13 | 李欣 | Cathode fastening spring bearer plate structure of electrolysis ozonator |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20080611 Termination date: 20130719 |