CN108892223A - A kind of sufficient waste water by ozone oxidization processing system of reaction - Google Patents

Abstract

The present invention relates to a kind of sufficient waste water by ozone oxidization processing systems of reaction,Including oxidation pond,Ozone generator,Controller,Gas supply mechanism,Interceptor structure,Ozonizer,Top plate,Drainpipe,Two pillars and several spray heads,Gas supply mechanism includes air inlet pipe,Dust removal assembly,Connecting tube,Dry component,Feed component and air supply pipe,Dust removal assembly includes water tank,Several dust removing units are equipped in water tank,Interceptor structure includes reciprocating member,Reciprocating plate and two intercepting components,Cutting component includes fixing axle,Lantern ring,Strut and two catching sheets,The sufficient waste water by ozone oxidization processing system of the reaction provides the air of dried and clean to ozone generator by gas supply mechanism,Convenient for improving yield of ozone,Guarantee the trouble-free operation of ozone generator,Moreover,Ozone bubbles are stopped by interceptor structure to float up in waste water,Extend ozone and waste water time,Improve ozone utilization rate,Saving system processing cost,To improve the practicability of system.

Description

A kind of sufficient waste water by ozone oxidization processing system of reaction

Technical field

The present invention relates to field of water treatment equipment, in particular to a kind of sufficient waste water by ozone oxidization processing system of reaction.

Background technique

Waste water by ozone oxidizing treatment is the method for being purified and being disinfected to waste water as oxidant using ozone, Since ozone has very strong oxidability, it is widely used in terms of the works such as environmental protection and change.

But existing cleaning equipment is when handling waste water using ozone, due to ozone bubbles in waste water upwards It floats, the residence time is of short duration, causes ozone to be unable to fully be contacted with the pollutant in waste water, ozone oxidation is incomplete, portion Divide ozone to be easy to volatilize from ullage, causes equipment needs to be continuously pumped into a large amount of ozone into waste water, just can guarantee Clean-up effect increases so as to cause the processing cost of system, moreover, smelly since ozone has extremely strong chemical activity Oxygen is usually all to carry out making in site using air by ozone generator for raw material, but the air quality around waste water is poor, empty Not only amount of dust is more in gas, but also air humidity is also larger, affects the yield of ozone and the normal use of ozone generator, leads Existing waste water by ozone oxidization processing system practicability is caused to reduce.

Summary of the invention

The technical problem to be solved by the present invention is to：For overcome the deficiencies in the prior art, it is adequately useless to provide a kind of reaction Water-ozone oxidization processing system.

The technical solution adopted by the present invention to solve the technical problems is：A kind of sufficient waste water by ozone oxidation processes of reaction System, including oxidation pond, ozone generator, controller, gas supply mechanism, interceptor structure, ozonizer, top plate, drainpipe, two branch Column and several spray heads, the both ends of the top plate pass through the top that two pillars are fixed on oxidation pond respectively, and the interceptor structure is set It sets in the lower section of top plate, the drainpipe is located at the lower section of oxidation pond, is equipped with valve, the ozone generator in the drainpipe Positioned at the side of oxidation pond, one end of the ozonizer is connect with ozone generator, and the other end of the ozonizer is located at oxidation Bottom in pond, the spray head are evenly distributed on the top of one end of the separate ozone generator of ozonizer, and the controller is solid It is scheduled on ozone generator, the ozone generator and valve are electrically connected with PLC, and the gas supply mechanism and ozone generator connect It connects；

The gas supply mechanism includes air inlet pipe, dust removal assembly, connecting tube, dry component, feed component and air supply pipe, described Air inlet pipe is connect with dust removal assembly, and the dust removal assembly is connect by connecting tube with dry component, and the dry component passes through confession Tracheae is connect with ozone generator, and the charging component is connect with dry component, and the dust removal assembly includes water tank, the air inlet The bottom in water tank is arranged in the bottom end of pipe, and the connecting tube is connected to the top of water tank, and several dedustings are equipped in the water tank Unit, the dust removing units are evenly distributed in water tank from top to down, and the dust removing units include two baffles, two baffles point It Jiao Cuo not be fixed on the inner wall of two sides of water tank；

The interceptor structure includes reciprocating member, reciprocating plate and two intercepting components, and the reciprocating member and reciprocating plate pass Dynamic connection, two intercepting components are located at the two sides of the lower section of reciprocating plate, and the intercepting component includes fixing axle, lantern ring, branch Bar and two catching sheets, the fixing axle are fixed in oxidation pond, and the lantern ring is set in fixing axle, two catching sheet difference The two sides of lantern ring are fixed on, the reciprocating plate is hinged by strut and one of catching sheet.

Preferably, the dry component includes drying box and two sealing plates, the confession in order to which air is dried Tracheae and connecting tube are connected to drying box, and the inner wall of the two sides of the drying box is equipped with opening, the opening and sealing plate It corresponds, the sealing plate is located in opening, and gas-conducting cells, connecting rod and two web plates are equipped in the drying box, described Gas-conducting cells are located at the bottom in drying box, and the connecting rod is fixed between two sealing plates, and two web plates are located at company Above and below extension bar.

Preferably, in order to control air flowing, the gas-conducting cells include first motor, the first drive shaft and two fans Leaf, the first motor are fixed in drying box, and the first motor is electrically connected with PLC, the first motor and the first driving Axis transmission connection, two flabellums are located at the two sides of the first drive shaft.

Preferably, in order to detect air humidity, the top in the drying box is equipped with hygrometer, the hygrometer with PLC electrical connection.

Preferably, for the ease of adding desiccant into drying box, the charging component include conveying pipeline, communicating pipe, Hopper and cover board, the conveying pipeline are fixed on the side of drying box, the hopper by being fixed on the top of conveying pipeline communicating pipe, The cover board is located at the top of hopper, is equipped with conveying unit in the conveying pipeline.

Preferably, in order to realize conveying function, the conveying unit includes the second motor, the second drive shaft, conveying plate And push-pull rod, second motor are fixed on the inner wall of the side of the separate drying box of conveying pipeline, second motor and PLC Electrical connection, second motor and the second drive shaft are sequentially connected, and the conveying plate is set in the second drive shaft, the conveying Plate with the junction of the second drive shaft be equipped with the matched screw thread of the second drive shaft, the conveying plate by push-pull rod with it is close The sealing plate of the side of conveying pipeline is fixedly connected.

Preferably, the reciprocating member includes third motor, the first company in order to drive reciprocating plate to move back and forth up and down Bar, second connecting rod and third connecting rod, the third motor are fixed on the lower section of top plate, and the third motor is electrically connected with PLC, institute It states third motor and first connecting rod is sequentially connected, the first connecting rod is hinged by the top of second connecting rod and third connecting rod, institute The bottom end for stating third connecting rod is fixed on the top of reciprocating plate.

Preferably, the steady movement in order to realize third connecting rod, the reciprocating member further includes fixed ring, the fixation Ring is fixed in oxidation pond, and the Fixing shrink ring is located on third connecting rod.

Preferably, in order to further extend residence time of the ozone in waste water, the separate lantern ring of the catching sheet One end is equipped with protrusive board, and the protrusive board is fixed on the lower section of catching sheet.

Preferably, the energy conservation and environmental protection in order to realize equipment, the top plate is solar panels.

The invention has the advantages that the sufficient waste water by ozone oxidization processing system of the reaction passes through gas supply mechanism to ozone The air that generator provides dried and clean guarantees the trouble-free operation of ozone generator convenient for improving yield of ozone, and existing Gas supply mechanism is compared, the gas supply mechanism good dedusting effect, and is had and continued drying out ability, moreover, is hindered by interceptor structure It blocks ozone bubbles to float up in waste water, extends ozone and waste water time, improve ozone utilization rate, save system processing Cost, to improve the practicability of system, compared with existing interceptor structure, the interceptor structure structure is simple and operation can It leans on.

Detailed description of the invention

Present invention will be further explained below with reference to the attached drawings and examples.

Fig. 1 is the structural schematic diagram of the sufficient waste water by ozone oxidization processing system of reaction of the invention；

Fig. 2 is the structural schematic diagram of the gas supply mechanism of the sufficient waste water by ozone oxidization processing system of reaction of the invention；

Fig. 3 is the structural schematic diagram of the dry component of the sufficient waste water by ozone oxidization processing system of reaction of the invention；

Fig. 4 is the structural schematic diagram of the interceptor structure of the sufficient waste water by ozone oxidization processing system of reaction of the invention；

In figure：1. oxidation pond, 2. ozone generators, 3. controllers, 4. ozonizers, 5. top plates, 6. pillars, 7. spray heads, 8. Air inlet pipe, 9. connecting tubes, 10. air supply pipes, 11. water tanks, 12. baffles, 13. reciprocating plates, 14. fixing axles, 15. lantern rings, 16. Bar, 17. catching sheets, 18. drying boxes, 19. sealing plates, 20. connecting rods, 21. web plates, 22. first motors, 23. first drive shafts, 24. flabellum, 25. hygrometers, 26. conveying pipelines, 27. communicating pipes, 28. hoppers, 29. cover boards, 30. second motors, 31. second drivings Axis, 32. conveying plates, 33. push-pull rods, 34. third motors, 35. first connecting rods, 36. second connecting rods, 37. third connecting rods, 38. is solid Determine ring, 39. protrusive boards.

Specific embodiment

In conjunction with the accompanying drawings, the present invention is further explained in detail.These attached drawings are simplified schematic diagram, only with Illustration illustrates basic structure of the invention, therefore it only shows the composition relevant to the invention.

As shown in Figure 1, a kind of sufficient waste water by ozone oxidization processing system of reaction, including oxidation pond 1, ozone generator 2, Controller 3, gas supply mechanism, interceptor structure, ozonizer 4, top plate 5, drainpipe, two pillars 6 and several spray heads 7, the top plate 5 Both ends pass through the top that two pillars 6 are fixed on oxidation pond 1 respectively, the lower section of top plate 5 is arranged in the interceptor structure, described Drainpipe is located at the lower section of oxidation pond 1, is equipped with valve in the drainpipe, the ozone generator 2 is located at the one of oxidation pond 1 One end of side, the ozonizer 4 is connect with ozone generator 2, and the other end of the ozonizer 4 is located at the bottom in oxidation pond 1, The spray head 7 is evenly distributed on the top of one end of the separate ozone generator 2 of ozonizer 4, and the controller 3 is fixed on ozone On generator 2, the ozone generator 2 and valve are electrically connected with PLC, and the gas supply mechanism is connect with ozone generator 2；

When the waste water by ozone oxidization processing system is run, it is passed through waste water to be processed into oxidation pond 1, then passes through control 3 operating system of device provides the air of clean dried from gas supply mechanism to ozone generator 2, using ozone generator 2 with this Ozone is prepared for raw material, ozone bubbles is sprayed by 4 delivery of ozone of ozonizer, and from spray head 7, stops ozone using interceptor structure Bubble floats up, so that the time of contact of ozone and sewage increases, to make the pollutant in the fully oxidized sewage of ozone, protects Card sufficiently reaction, to improve the practicability of system.

As shown in Fig. 2, the gas supply mechanism includes air inlet pipe 8, dust removal assembly, connecting tube 9, dry component, charging component With air supply pipe 10, the air inlet pipe 8 is connect with dust removal assembly, and the dust removal assembly is connect by connecting tube 9 with dry component, institute It states dry component to connect by air supply pipe 10 with ozone generator 2, the charging component is connect with dry component, the dedusting group Part includes water tank 11, and the bottom in water tank 11, the top of the connecting tube 9 and water tank 11 is arranged in the bottom end of the air inlet pipe 8 Connection, the water tank 11 is interior to be equipped with several dust removing units, and the dust removing units are evenly distributed on from top to down in water tank 11, described Dust removing units include two baffles 12, two baffles 12 respectively staggeredly be fixed on water tank 11 two sides inner wall on；

When gas supply mechanism is run, outside air is entered in water tank 11 by air inlet pipe 8, is connect with the aqueous solution in water tank 11 Touching, by the dust in adsorption from aqueous solution air, achievees the purpose that air cleaning, makes bubble using the baffle 12 being staggered It floats upwards in water tank 11 along broken line, increases the time that bubble is contacted with aqueous solution, guarantee dust removing effects, it is clean after dedusting Air enters dry component by connecting tube 9, and after being dehumidified using dry component to air, clean dry air is passed through Air supply pipe 10 is delivered in ozone generator 2, guarantees the ozone output of ozone generator 2.

As shown in figure 4, the interceptor structure includes reciprocating member, reciprocating plate 13 and two intercepting components, described reciprocal group Part and reciprocating plate 13 are sequentially connected, and two intercepting components are located at the two sides of the lower section of reciprocating plate 13, the intercepting component packet Fixing axle 14, lantern ring 15, strut 16 and two catching sheets 17 are included, the fixing axle 14 is fixed in oxidation pond 1, the lantern ring 15 Be set in fixing axle 14, two catching sheets 17 are separately fixed at the two sides of lantern ring 15, the reciprocating plate 13 by strut 16 with One of catching sheet 17 is hinged.

Ozone floats in waste water upwards after the ejection of spray head 7, and interceptor structure is run at this time, is driven by reciprocating member Reciprocating plate 13 moves back and forth in the vertical direction, and reciprocating plate 13 acts on the intercepting component of two sides wherein by strut 16 On one catching sheet 17, so that lantern ring 15 swings back and forth along the axis of fixing axle 14, and then make the catching sheet of 15 two sides of lantern ring 17 swing back and forth, and after ozone bubbles rise on catching sheet 17, float up along catching sheet 17, since catching sheet 17 is with fixation The axis of axis 14 swings back and forth, so that the inclined direction of catching sheet 17 constantly changes, it is smelly when inclined direction changes The position of oxygen bubbles declines, so that ozone is floated up along inclined catching sheet 17 to the direction of the other side, to increase The time of contact of ozone and waste water guarantees that ozone can occur sufficiently to react with the pollutant in waste water, improves the benefit of ozone While with rate, convenient for the ozone amount of generation needed for reduction ozone generator 2, to save the processing cost of system.

As shown in figure 3, the dry component includes drying box 18 and two sealing plates 19, the air supply pipe 10 and connecting tube 9 are connected to drying box 18, and the inner wall of the two sides of the drying box 18 is equipped with opening, and the opening and sealing plate 19 1 are a pair of It answers, the sealing plate 19 is located in opening, is equipped with gas-conducting cells, connecting rod 20 and two web plates 21, institute in the drying box 18 The bottom that gas-conducting cells are located in drying box 18 is stated, the connecting rod 20 is fixed between two sealing plates 19, two web plates 21 It is located above and below connecting rod 20.

When dry component is run, by the flowing of gas-conducting cells control air, so that air enters drying box 18 from connecting tube 9 It is interior, and flow up, the desiccant between air and two web plates 21 is contacted, so that air is dried in desiccant Afterwards, dry pure air is entered in ozone generator 2 by air supply pipe 10, convenient for preparing ozone, when desiccant reaches saturation When, it drives sealing plate 19 mobile by charging mechanism, so that sealing plate 19 leaves opening, while the desiccant on web plate 21 being released Outside drying box 18, convenient for supplementing new desiccant.

Preferably, the gas-conducting cells include first motor 22, the first drive shaft 23 and two in order to control air flowing A flabellum 24, the first motor 22 are fixed in drying box 18, and the first motor 22 is electrically connected with PLC, first electricity Machine 22 and the first drive shaft 23 are sequentially connected, and two flabellums 24 are located at the two sides of the first drive shaft 23.

Started by PLC control first motor 22, drives the flabellum 24 of two sides to rotate by the first drive shaft 23, generate gas Stream, air-flow is by the air flows upwards in drying box 18, and after being dried between two web plates 21, air is passed through gas supply Pipe 10 is delivered to ozone generator 2, while introducing the clean wet air after dedusting by connecting tube 9.

Preferably, the top in the drying box 18 is equipped with hygrometer 25, the hygrometer in order to detect air humidity 25 are electrically connected with PLC.Enter the humidity of the air in air supply pipe 10 using the detection of hygrometer 25, and humidity data is fed back to PLC shows that the desiccant between two web plates 21 at this time reaches saturation state, PLC when PLC detects that humidity data is larger Control charging component fills new desiccant into drying box 18.

As shown in Fig. 2, the charging component includes conveying pipeline 26, communicating pipe 27, hopper 28 and cover board 29, the conveying pipeline 26 are fixed on the side of drying box 18, and the hopper 28 passes through the top for being fixed on conveying pipeline 26 communicating pipe 27, the cover board 29 Positioned at the top of hopper 28, conveying unit is equipped in the conveying pipeline 26.

It feeds in component, by opening cover board 29, desiccant can be supplemented into hopper 28, close cover board 29, in hopper 28 Fixed desiccant is entered in conveying pipeline 26 by communicating pipe 27, by conveying unit, can remove the desiccant in drying box 18, and New desiccant is provided into drying box 18.

Preferably, in order to realize conveying function, the conveying unit includes the second motor 30, the second drive shaft 31, defeated Flitch 32 and push-pull rod 33, second motor 30 are fixed on the inner wall of the side of the separate drying box 18 of conveying pipeline 26, institute It states the second motor 30 to be electrically connected with PLC, second motor 30 and the second drive shaft 31 are sequentially connected, and the conveying plate 32 is arranged In the second drive shaft 31, being equipped with the junction of the second drive shaft 31 for the conveying plate 32 is matched with the second drive shaft 31 Screw thread, the conveying plate 32 are fixedly connected by push-pull rod 33 with the sealing plate 19 of the side close to conveying pipeline 26.

PLC controls the operation of the second motor 30, drives the rotation of the second drive shaft 31, and the second drive shaft 31 is existed by threaded function It in conveying plate 32, moves conveying plate 32 along the axis direction of the second drive shaft 31, when conveying plate 32 is mobile, passes through push-pull rod 33 drive 19 synchronizing moving of sealing plate, and when conveying plate 32 is mobile to drying box 18, sealing plate 19 pushes the drying on web plate 21 Agent, so that the desiccant of the saturation of two web plates 21 is discharged, while conveying plate 32 will be new between conveying plate 32 and sealing plate 19 Desiccant be delivered between two web plates 21.

As shown in figure 4, the reciprocating member includes third motor 34, first connecting rod 35, second connecting rod 36 and third connecting rod 37, the third motor 34 is fixed on the lower section of top plate 5, and the third motor 34 is electrically connected with PLC, the third motor 34 with First connecting rod 35 is sequentially connected, and the first connecting rod 35 is hinged by second connecting rod 36 and the top of third connecting rod 37, and described the The bottom end of three-link 37 is fixed on the top of reciprocating plate 13.

PLC controls third motor 34 and starts, and first connecting rod 35 is driven to rotate, and first connecting rod 35 is acted on by second connecting rod 36 On third connecting rod 37, so that third connecting rod 37 moves back and forth in the vertical direction, and then it is past to drive reciprocating plate 13 to carry out Multiple movement.

Preferably, the steady movement in order to realize third connecting rod 37, the reciprocating member further includes fixed ring 38, described Fixed ring 38 is fixed in oxidation pond 1, and the fixed ring 38 is set on third connecting rod 37.Utilize the fixed ring 38 that position is fixed Secure the moving direction of third connecting rod 37 so that third connecting rod 37 drive reciprocating plate 13 carried out along the axis of fixed ring 38 it is past Multiple movement.

Preferably, in order to further extend residence time of the ozone in waste water, the separate lantern ring of the catching sheet 17 15 one end is equipped with protrusive board 39, and the protrusive board 39 is fixed on the lower section of catching sheet 17.When ozone bubbles are upward along catching sheet 17 When sliding into the marginal position of catching sheet 17, ozone bubbles are stopped by protrusive board 39 again, prevents ozone bubbles to be detached from and intercept Plate 17 guarantees that ozone is sufficiently reacted to further extend residence time of the ozone in waste water.

Preferably, the energy conservation and environmental protection in order to realize equipment, the top plate 5 is solar panels.It can be sunny using top plate 5 Daytime carry out photovoltaic power generation, provide system operation electric energy, to realize the energy conservation and environmental protection of system.

When the waste water by ozone oxidization processing system is run, the dust in air is removed by dust removal assembly, and utilize drying Component carries out removal moisture drying to air, guarantees that the air of dried and clean enters in ozone generator 2, convenient for improving ozone generator 2 ozone output, and guarantee the smooth use of ozone generator 2, while driving reciprocating plate 13 in vertical side by reciprocating member To while reciprocating motion, drives catching sheet 17 to swing back and forth with the axis of fixing axle 14 by strut 16, stop ozone gas Bubble floats up in waste water, extends the time of contact of ozone bubbles and waste water, to guarantee that ozone is sufficiently reacted, improves smelly Coefficient of oxygen utilization saves ozone output, saves system processing cost.

Compared with prior art, the sufficient waste water by ozone oxidization processing system of the reaction is occurred by gas supply mechanism to ozone Device 2 provides the air of dried and clean, convenient for improving yield of ozone, guarantees the trouble-free operation of ozone generator 2, with existing confession Mechanism of qi structure is compared, the gas supply mechanism good dedusting effect, and is had and continued drying out ability, moreover, is stopped by interceptor structure Ozone bubbles float up in waste water, extend ozone and waste water time, improve ozone utilization rate, and saving system is processed into This, to improve the practicability of system, compared with existing interceptor structure, the interceptor structure structure is simple and reliable for operation.

Taking the above-mentioned ideal embodiment according to the present invention as inspiration, through the above description, relevant staff is complete Various changes and amendments can be carried out without departing from the scope of the technological thought of the present invention' entirely.The technology of this invention Property range is not limited to the contents of the specification, it is necessary to which the technical scope thereof is determined according to the scope of the claim.

Claims (10)

1. a kind of sufficient waste water by ozone oxidization processing system of reaction, which is characterized in that including oxidation pond (1), ozone generator (2), controller (3), gas supply mechanism, interceptor structure, ozonizer (4), top plate (5), drainpipe, two pillars (6) and several sprays Head (7), the both ends of the top plate (5) pass through the top that two pillars (6) are fixed on oxidation pond (1), the interceptor structure respectively Lower section in top plate (5) is set, and the drainpipe is located at the lower section of oxidation pond (1), and valve is equipped in the drainpipe, described smelly Oxygen Generator (2) is located at the side of oxidation pond (1), and one end of the ozonizer (4) is connect with ozone generator (2), described smelly The other end of oxygen pipe (4) is located at the bottom in oxidation pond (1), and the spray head (7) is evenly distributed on the separate ozone of ozonizer (4) The top of one end of generator (2), the controller (3) are fixed on ozone generator (2), the ozone generator (2) and Valve is electrically connected with PLC, and the gas supply mechanism is connect with ozone generator (2)；

The gas supply mechanism includes air inlet pipe (8), dust removal assembly, connecting tube (9), dry component, charging component and air supply pipe (10), the air inlet pipe (8) connect with dust removal assembly, and the dust removal assembly is connect by connecting tube (9) with dry component, described Dry component is connect by air supply pipe (10) with ozone generator (2), and the charging component is connect with dry component, the dedusting Component includes water tank (11), the bottom that the bottom end of the air inlet pipe (8) is arranged in water tank (11), the connecting tube (9) and water The top of case (11) is connected to, and several dust removing units are equipped in the water tank (11), and the dust removing units are uniformly distributed from top to down In water tank (11), the dust removing units include two baffles (12), and two baffles (12) are staggeredly fixed on water tank (11) respectively Two sides inner wall on；

The interceptor structure includes reciprocating member, reciprocating plate (13) and two intercepting components, the reciprocating member and reciprocating plate (13) it is sequentially connected, two intercepting components are located at the two sides of the lower section of reciprocating plate (13), and the intercepting component includes fixing Axis (14), lantern ring (15), strut (16) and two catching sheets (17), the fixing axle (14) is fixed in oxidation pond (1), described Lantern ring (15) is set on fixing axle (14), and two catching sheets (17) are separately fixed at the two sides of lantern ring (15), the reciprocating plate (13) hinged by strut (16) and one of catching sheet (17).

2. reacting sufficient waste water by ozone oxidization processing system as described in claim 1, which is characterized in that the dry component Including drying box (18) and two sealing plates (19), the air supply pipe (10) and connecting tube (9) are connected to drying box (18), institute The inner wall for stating the two sides of drying box (18) is equipped with opening, and the opening is corresponded with sealing plate (19), the sealing plate (19) it is located in opening, gas-conducting cells, connecting rod (20) and two web plates (21), the air guide is equipped in the drying box (18) Unit is located at the bottom in drying box (18), and the connecting rod (20) is fixed between two sealing plates (19), two web plates (21) it is located above and below connecting rod (20).

3. reacting sufficient waste water by ozone oxidization processing system as claimed in claim 2, which is characterized in that the gas-conducting cells Including first motor (22), the first drive shaft (23) and two flabellums (24), the first motor (22) is fixed on drying box (18) in, the first motor (22) is electrically connected with PLC, and the first motor (22) and the first drive shaft (23) are sequentially connected, Two flabellums (24) are located at the two sides of the first drive shaft (23).

4. reacting sufficient waste water by ozone oxidization processing system as claimed in claim 2, which is characterized in that the drying box (18) top in is equipped with hygrometer (25), and the hygrometer (25) is electrically connected with PLC.

5. reacting sufficient waste water by ozone oxidization processing system as claimed in claim 2, which is characterized in that the charging component Including conveying pipeline (26), communicating pipe (27), hopper (28) and cover board (29), the conveying pipeline (26) is fixed on drying box (18) Side, the hopper (28) are fixed on the top of conveying pipeline (26) by communicating pipe (27), and the cover board (29) is located at hopper (28) top, the conveying pipeline (26) is interior to be equipped with conveying unit.

6. reacting sufficient waste water by ozone oxidization processing system as claimed in claim 5, which is characterized in that the conveying unit Including the second motor (30), the second drive shaft (31), conveying plate (32) and push-pull rod (33), second motor (30) is fixed on On the inner wall of the side of the separate drying box (18) of conveying pipeline (26), second motor (30) is electrically connected with PLC, and described second Motor (30) and the second drive shaft (31) are sequentially connected, and the conveying plate (32) is set on the second drive shaft (31), described defeated Flitch (32) be equipped with the junction of the second drive shaft (31) and the second drive shaft (31) matched screw thread, the conveying plate (32) it is fixedly connected by push-pull rod (33) with the sealing plate (19) of the side close to conveying pipeline (26).

7. reacting sufficient waste water by ozone oxidization processing system as described in claim 1, which is characterized in that the reciprocating member Including third motor (34), first connecting rod (35), second connecting rod (36) and third connecting rod (37), the third motor (34) is fixed In the lower section of top plate (5), the third motor (34) is electrically connected with PLC, and the third motor (34) and first connecting rod (35) pass Dynamic connection, the first connecting rod (35) is hinged by second connecting rod (36) and the top of third connecting rod (37), the third connecting rod (37) bottom end is fixed on the top of reciprocating plate (13).

8. reacting sufficient waste water by ozone oxidization processing system as claimed in claim 7, which is characterized in that the reciprocating member It further include fixed ring (38), the fixed ring (38) is fixed in oxidation pond (1), and the fixed ring (38) is set in third connecting rod (37) on.

9. reacting sufficient waste water by ozone oxidization processing system as described in claim 1, which is characterized in that the catching sheet (17) one end of separate lantern ring (15) is equipped with protrusive board (39), and the protrusive board (39) is fixed on the lower section of catching sheet (17).

10. reacting sufficient waste water by ozone oxidization processing system as described in claim 1, which is characterized in that the top plate (5) For solar panels.