CN108821423A - A kind of sewage disposal device using ozone purification - Google Patents

Abstract

The present invention relates to a kind of sewage disposal devices using ozone purification,Including clarifier-tank,Water inlet pipe,Drainpipe,Ozone generator,Air guide mechanism,Vertical tube,Transverse tube,Rabbling mechanism and several spray heads,Rabbling mechanism includes rotation pipe,First gear and two mixing components,Mixing component includes first motor,Second gear,Roll-over unit and agitating plate,Air guide mechanism includes air guide room,Shaft is equipped in air guide room,Adjust component,Turntable,Power Component,Two transmission components,Two flabellums and two bearings,While this uses the sewage disposal device of ozone purification to make sewage that convection current occur by rabbling mechanism,It is evenly distributed in sewage convenient for pollutant,It contacts and reacts with ozone,Improve purification efficiency,Moreover,Air guide mechanism flexibly controls the air capacity for being passed through ozone generator according to the time of purification,While guaranteeing sufficiently cleaned up,Reduce ozone occurrence quantity,To reduce cost of sewage disposal,Improve the practicability of equipment.

Description

A kind of sewage disposal device using ozone purification

Technical field

The present invention relates to field of water treatment equipment, in particular to a kind of sewage disposal device using ozone purification.

Background technique

Ozone is a kind of strong oxidizer, and organic matter macromolecular can be decomposed into small molecule by it, indissoluble object is decomposed into solvable Hard-degraded substance is converted into degradable substance by object, harmful substance is decomposed into harmless object, therefore ozone is in environmental protection and change Work etc. is widely used, and is usually used in carrying out purified treatment to sewage.

When carrying out sewage treatment using ozone, since ozone activity is strong, ozone generator scene system is usually utilized Ozone is passed through in sewage after standby ozone and carries out purified treatment, but since sewage is in static transition, poor fluidity, and it is smelly The position that is passed through of oxygen immobilizes, and causes the sphere of action of ozone limited, moreover, with the operation of purified treatment, sewage In pollutant be gradually reduced, the ozone amount for needing to be passed through at this time need to only be reduced with the reduction of pollutant, but due to being passed through Ozone amount immobilize, cause to generate extra ozone when sewage treatment, the processing cost of equipment caused to increase, so reduce The practicability of existing ozone sewage processing equipment.

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 provides a kind of using ozone purification Sewage disposal device.

The technical solution adopted by the present invention to solve the technical problems is：It is a kind of to be set using the sewage treatment of ozone purification It is standby, including clarifier-tank, water inlet pipe, drainpipe, ozone generator, air guide mechanism, appendix, vertical tube, transverse tube, rabbling mechanism, control Device processed and several spray heads, the water inlet pipe and drainpipe are located at the two sides of clarifier-tank, are equipped with valve, institute in the drainpipe It states controller to be fixed on ozone generator, the air guide mechanism is connect with ozone generator, the ozone generator and gas transmission Pipe connection, the top and bottom end of the vertical tube are connected to appendix and transverse tube respectively, and the spray head is evenly distributed on the upper of transverse tube Side, the transverse tube are located at the bottom in clarifier-tank, and the rabbling mechanism is arranged on vertical tube, and the valve and ozone generator are equal It is electrically connected with PLC；

The rabbling mechanism includes that rotation pipe, first gear and two mixing components, the rotation pipe and first gear are equal It being set on vertical tube, the first gear is fixed on the top of rotation pipe, and two mixing components are located at the two sides of rotation pipe, The mixing component includes first motor, second gear, roll-over unit and agitating plate, and the first motor is fixed on appendix Lower section, the first motor are electrically connected with PLC, and the first motor and second gear are sequentially connected, the first gear and the The engagement of two gears, the roll-over unit and agitating plate are sequentially connected；

The air guide mechanism includes air inlet pipe, escape pipe and air guide room, and the air inlet pipe and an air outlet pipe is located at air guide The two sides of room, the air guide room are connected to by air inlet pipe with outside, and the air guide room is connected to by escape pipe with ozone generator, It is equipped with shaft in the air guide room, adjusts component, turntable, Power Component, two transmission components, two flabellums and two bearings, The bearing is fixed in air guide room, and the both ends of the shaft are separately positioned in two bearings, and two flabellums, which are located at, to be turned The two sides of axis, the turntable are set in shaft, and the turntable is located between two transmission components, the adjusting component and turntable Transmission connection；

The transmission component includes drive block, connecting shaft and first bevel gear, and the Power Component and first bevel gear pass Dynamic connection, the first bevel gear are fixedly connected by connecting shaft with drive block, and the shape of the drive block is cone, described Drive block is resisted against on turntable.

Preferably, the overturning in order to realize agitating plate, the roll-over unit include the second motor, driving wheel, driving wheel, Support unit, transmission shaft and belt, second motor are fixed in rotation pipe, and second motor is electrically connected with PLC, described Second motor and driving wheel are sequentially connected, and the driving wheel is connect by belt with driving wheel, and the driving wheel tube is located at transmission On axis, the transmission shaft is connect by support unit with rotation pipe, and the agitating plate is fixed on transmission shaft.

Preferably, the support unit includes support ring, two brackets and two for the rotation of Auxiliary support transmission shaft Clamping plate, the support ring are set on transmission shaft, and two brackets are located above and below support ring, and the support ring is logical It crosses bracket to be fixedly connected with rotation pipe, two clamping plates are located at the two sides of support ring, and the Boards wall is on transmission shaft.

Preferably, in order to reinforce the convection current of sewage, the agitating plate is equipped with several through-holes.

Preferably, in order to fix the height and position of first gear and rotation pipe, the lower section of the rotation pipe and the first tooth Limit plate is equipped with above wheel, the limit plate is fixed on vertical tube.

Preferably, the Power Component includes third motor and two second cones in order to drive first bevel gear to rotate Gear, the third motor are fixed in air guide room, and the third motor is electrically connected with PLC, and two second bevel gears distinguish position Above and below third motor, the second bevel gear and transmission component are corresponded, the third motor and the second cone Gear drive connection, the second bevel gear are engaged with first bevel gear.

Preferably, sliding in shaft for the ease of turntable, the inside of the turntable is equipped with several recesses, the recess It is circumferentially evenly distributed on the inside of turntable, the periphery of the shaft is equipped with several protrusive boards, and the protrusive board, which is circumferentially evenly distributed on, to be turned The periphery of axis, the quantity of the recess and the quantity of protrusive board are equal, and the protrusive board and recess correspond, and the protrusive board setting exists In recess.

Preferably, the adjusting component includes the 4th motor, buffer stopper, the 4th for the revolving speed of flexible modulation shaft Drive shaft, sliding block and adjusting block, the 4th motor and buffer stopper are each attached in air guide room, the 4th motor and PLC electricity One end of connection, the 4th motor and the 4th drive shaft is sequentially connected, and the other end setting of the 4th drive shaft is buffering In block, the sliding block is set in the 4th drive shaft, the sliding block be equipped with the junction of the 4th drive shaft and the 4th driving The matched screw thread of axis, the adjusting block are fixed on sliding block, and the shape of the adjusting block is U-shaped, the U-shaped opening of the adjusting block It is directed toward turntable.

Preferably, the steady movement in order to realize sliding block, the adjusting component further includes limitting casing, the limitting casing Shape is U-shaped, and the both ends of the limitting casing are fixedly connected with the 4th motor and buffer stopper respectively, and the sliding block is set in limitting casing On.

Preferably, in order to detect the position of sliding block, the sliding block is equipped with range sensor, the range sensor with PLC electrical connection.

The invention has the advantages that this sends out sewage by rabbling mechanism using the sewage disposal device of ozone purification While raw convection current, it is evenly distributed in sewage convenient for pollutant, contacts and react with ozone, improve purification efficiency, with Existing rabbling mechanism is compared, which makes sewage roll up and down by agitating plate, so that stirring is more evenly, not only such as This, air guide mechanism flexibly controls the air capacity for being passed through ozone generator according to the time of purification, while guaranteeing sufficiently cleaned up, It reduces ozone occurrence quantity and improves the practicability of equipment to reduce cost of sewage disposal, compared with existing air guide mechanism, The air guide mechanism is acted on turntable simultaneously by two drive blocks, so that the rotation of shaft is more stable.

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 sewage disposal device of the invention using ozone purification；

Fig. 2 is the structural schematic diagram of the rabbling mechanism of the sewage disposal device of the invention using ozone purification；

Fig. 3 is the structural schematic diagram of the air guide mechanism of the sewage disposal device of the invention using ozone purification；

Fig. 4 is the structural schematic diagram of the adjusting component of the sewage disposal device of the invention using ozone purification；

Fig. 5 is the shaft of the sewage disposal device of the invention using ozone purification and the attachment structure schematic diagram of turntable；

In figure：1. clarifier-tank, 2. water inlet pipes, 3. drainpipes, 4. ozone generators, 5. appendixs, 6. vertical tubes, 7. transverse tubes, 8. controller, 9. spray heads, 10. rotation pipes, 11. first gears, 12. first motors, 13. second gears, 14. agitating plates, 15. into Tracheae, 16. escape pipes, 17. air guide rooms, 18. shafts, 19. turntables, 20. flabellums, 21. bearings, 22. drive blocks, 23. connecting shafts, 24. first bevel gear, 25. second motors, 26. driving wheels, 27. driving wheels, 28. transmission shafts, 29. belts, 30. support rings, 31. Bracket, 32. clamping plates, 33. limit plates, 34. third motors, 35. second bevel gears, 36. protrusive boards, 37. the 4th motors, 38. bufferings Block, 39. the 4th drive shafts, 40. sliding blocks, 41. adjusting blocks, 42. limitting casings, 43. range sensors.

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 sewage disposal device using ozone purification, including clarifier-tank 1, water inlet pipe 2, drainpipe 3, Ozone generator 4, air guide mechanism, appendix 5, vertical tube 6, transverse tube 7, rabbling mechanism, controller 8 and several spray heads 9, the water inlet Pipe 2 and drainpipe 3 are located at the two sides of clarifier-tank 1, are equipped with valve in the drainpipe 3, the controller 8 is fixed on ozone On generator 4, the air guide mechanism is connect with ozone generator 4, and the ozone generator 4 is connect with appendix 5, the vertical tube 6 top and bottom end are connected to appendix 5 and transverse tube 7 respectively, and the spray head 9 is evenly distributed on the top of transverse tube 7, the transverse tube 7 are located at the bottom in clarifier-tank 1, and the rabbling mechanism is arranged on vertical tube 6, and the valve and ozone generator 4 are electric with PLC Connection；

The sewage disposal device is passed through in clarifier-tank 1 from water inlet pipe 2 when in use, by sewage, is then grasped by controller 8 Make equipment operation, is passed through suitable air from air guide mechanism to ozone generator 4, PLC control ozone generator 4 is prepared in situ smelly After oxygen, ozone is delivered to vertical tube 6 by appendix 5, ozone from the transverse tube 7 that vertical tube 6 is delivered to bottom in clarifier-tank 1 again, And sprayed from spray head 9, so that ozone bubbles are floated up in the bottom of clarifier-tank 1, with waste water, aoxidize the pollution in sewage Object, harmful substance etc. reach the purification purpose to sewage, while PLC control rabbling mechanism operation, so that sewage generates convection current, It sufficiently contacts, is aoxidized with the pollutant in sewage convenient for ozone bubbles, to improve the purification efficiency of equipment.

As shown in Fig. 2, the rabbling mechanism includes rotation pipe 10, first gear 11 and two mixing components, the rotation Pipe 10 and first gear 11 are set on vertical tube 6, and the first gear 11 is fixed on the top of rotation pipe 10, two stirring groups Part is located at the two sides of rotation pipe 10, and the mixing component includes first motor 12, second gear 13, roll-over unit and stirring Plate 14, the first motor 12 are fixed on the lower section of appendix 5, and the first motor 12 is electrically connected with PLC, the first motor 12 are sequentially connected with second gear 13, and the first gear 11 is engaged with second gear 13, the roll-over unit and agitating plate 14 Transmission connection；

When rabbling mechanism is run, is started by PLC control first motor 12, drive second gear 13 to rotate, second gear 13 It acts in the first gear 11 being engaged with, so that first gear 11 and rotation pipe 10 carry out level side with the axis of vertical tube 6 To rotation, and then drive agitating plate 14 rotate in the horizontal direction so that sewage generate convection current, while PLC control vertical tube 6 on Roll-over unit operation so that agitating plate 14 is spun upside down in the vertical direction, agitating plate 14 is acted on sewage, so that sewage Rolling up and down, and then make the stirring of sewage more evenly, be evenly distributed in clarifier-tank 1 convenient for the pollutant in sewage everywhere in, It contacts, is realized to the sufficiently cleaned up of sewage with ozone.

As shown in figure 3, the air guide mechanism includes air inlet pipe 15, escape pipe 16 and air guide room 17,15 He of air inlet pipe Escape pipe 16 is located at the two sides of air guide room 17, and the air guide room 17 is connected to by air inlet pipe 15 with outside, the air guide room 17 are connected to by escape pipe 16 with ozone generator 4, and shaft 18 is equipped in the air guide room 17, adjusts component, turntable 19, power Component, two transmission components, two flabellums 20 and two bearings 21, the bearing 21 are fixed in air guide room 17, the shaft 18 both ends are separately positioned in two bearings 21, and two flabellums 20 are located at the two sides of shaft 18, and the turntable 19 is arranged In shaft 18, the turntable 19 is located between two transmission components, and the adjusting component and turntable 19 are sequentially connected；

The transmission component includes drive block 22, connecting shaft 23 and first bevel gear 24, and the Power Component and first are bored Gear 24 is sequentially connected, and the first bevel gear 24 is fixedly connected by connecting shaft 23 with drive block 22, the drive block 22 Shape is cone, and the drive block 22 is resisted against on turntable 19.

When air guide mechanism is run, PLC controls Power Component operation, acts on the first bevel gear 24 of the transmission component of two sides On, first bevel gear 24 rotates, and drives drive block 22 to rotate by connecting shaft 23, and drive block 22 acts on turntable 19, While so that turntable 19 rotates, shaft 18 rotates between the bearing 21 of two fixed positions, and then drives fan Leaf 20 rotates, so that flabellum 20 generates air-flow, outside air is delivered in air guide room 17 by air-flow from air inlet pipe 15, then by air It is delivered to ozone generator 4 from escape pipe 16, the raw material that ozone generator 4 prepares ozone is provided.

As shown in Fig. 2, the roll-over unit includes the second motor 25, driving wheel 26, driving wheel 27, support unit, transmission Axis 28 and belt 29, second motor 25 are fixed in rotation pipe 10, and second motor 25 is electrically connected with PLC, and described Two motors 25 are sequentially connected with driving wheel 26, and the driving wheel 26 is connect by belt 29 with driving wheel 27, the driving wheel 27 It is set on transmission shaft 28, the transmission shaft 28 is connect by support unit with rotation pipe 10, and the agitating plate 14 is fixed on biography On moving axis 28.

PLC controls the starting of the second motor 25, and driving wheel 26 is driven to rotate, and driving wheel 26 acts on driven wheel by belt 29 On, so that driven wheel drives driven shaft rotation, since agitating plate 14 is fixed on driven shaft, so that agitating plate 14 is with driven shaft Axis rotates, and realizes the rolling up and down of sewage.

Preferably, the support unit includes 30, two brackets 31 of support ring for the rotation of Auxiliary support transmission shaft 28 With two clamping plates 32, the support ring 30 is set on transmission shaft 28, two brackets 31 be located at support ring 30 top and Lower section, the support ring 30 are fixedly connected by bracket 31 with rotation pipe 10, and two clamping plates 32 are located at the two of support ring 30 Side, the clamping plate 32 are fixed on transmission shaft 28.

Secure position of the support ring 30 relative to rotation pipe 10 using two fixed brackets 31, convenient for transmission shaft 28 with The axis of support ring 30 is rotated, while preventing transmission shaft 28 from sliding along the axis of support ring 30 using two clamping plates 32 It is dynamic, so that Auxiliary support transmission shaft 28 carries out stable rotation.

Preferably, in order to reinforce the convection current of sewage, the agitating plate 14 is equipped with several through-holes.It is strengthened by through-hole The convection current of the sewage of 14 two sides of agitating plate, is evenly distributed in sewage convenient for the pollutant in sewage, contacts with ozone, make sewage It purifies more abundant.

Preferably, in order to fix the height and position of first gear 11 and rotation pipe 10, the lower section of the rotation pipe 10 and The top of first gear 11 is equipped with limit plate 33, and the limit plate 33 is fixed on vertical tube 6.Utilize the limit of two fixed positions Position plate 33 prevents first gear 11 and rotation pipe 10 to slide up and down along the axis of vertical tube 6, fixes the first tooth to realize The height and position of wheel 11 and rotation pipe 10.

Preferably, in order to drive first bevel gear 24 to rotate, the Power Component includes third motor 34 and two the Two bevel gears 35, the third motor 34 are fixed in air guide room 17, and the third motor 34 is electrically connected with PLC, and two second Bevel gear 35 is located above and below third motor 34, and the second bevel gear 35 is corresponded with transmission component, institute It states third motor 34 and second bevel gear 35 is sequentially connected, the second bevel gear 35 is engaged with first bevel gear 24.PLC control Third motor 34 starts, and drives the second bevel gear 35 of two sides to rotate, two second bevel gears 35 are respectively acting on two transmissions In first bevel gear 24 in component, so that first bevel gear 24 rotates.

As shown in figure 5, the inside of the turntable 19 is equipped with several recesses, the recess is circumferentially evenly distributed on turntable 19 Inside, the periphery of the shaft 18 are equipped with several protrusive boards 36, and the circumferential periphery for being evenly distributed on shaft 18 of the protrusive board 36 is described The quantity of recess is equal with the quantity of protrusive board 36, and the protrusive board 36 is corresponded with recess, and the protrusive board 36 is arranged in recess.

Turntable 19 is acted on protrusive board 36 when being rotated by the inner wall of recess, thus drive protrusive board 36 along turn The axis of disk 19 rotates, and then realizes the rotation of shaft 18, and protrusive board 36 can slide in recess, and then facilitate in turntable During 19 rotations, turntable 19 is slided along the axis of shaft 18.

As shown in figure 4, the adjusting component includes the 4th motor 37, buffer stopper 38, the 4th drive shaft 39, sliding block 40 and adjusts Locking nub 41, the 4th motor 37 and buffer stopper 38 are each attached in air guide room 17, and the 4th motor 37 is electrically connected with PLC, The other end setting of the transmission connection of one end of 4th motor 37 and the 4th drive shaft 39, the 4th drive shaft 39 is buffering In block 38, the sliding block 40 is set in the 4th drive shaft 39, and the sliding block 40 is equipped with the junction of the 4th drive shaft 39 With the matched screw thread of the 4th drive shaft 39, the adjusting block 41 is fixed on sliding block 40, and the shape of the adjusting block 41 is U-shaped, The U-shaped opening of the adjusting block 41 is directed toward turntable 19.

PLC controls the starting of the 4th motor 37, drives the rotation of the 4th drive shaft 39, and the 4th drive shaft 39 is existed by threaded function On sliding block 40, so that sliding block 40 drives adjusting block 41 to be rotated with the axis of the 4th drive shaft 39, the U-shaped opening of adjusting block 41 It is directed toward turntable 19, so that adjusting block 41 in moving process, drives turntable 19 mobile.

Preferably, the steady movement in order to realize sliding block 40, the adjusting component further includes limitting casing 42, the limit The shape of frame 42 is U-shaped, and the both ends of the limitting casing 42 are fixedly connected with the 4th motor 37 and buffer stopper 38 respectively, the sliding block 40 are set on limitting casing 42.The position of limitting casing 42 is secured using the 4th motor 37 and buffer stopper 38 so that sliding block 40 with The axis of limitting casing 42 is smoothly moved.

Preferably, the sliding block 40 is equipped with range sensor 43, and the distance passes in order to detect the position of sliding block 40 Sensor 43 is electrically connected with PLC.Sliding block 40 is detected at a distance from the 4th motor 37 by range sensor 43, and range data is anti- Feed PLC, so that PLC determines the position of sliding block 40, and turn of shaft 18 and turntable 19 is determined according to the current location of sliding block 40 Speed.

When the sewage disposal device is run, second gear 13 is driven to rotate by first motor 12, so that first gear 11 It is rotated with rotation pipe 10, agitating plate 14 is driven to rotate in the horizontal direction, while PLC control roll-over unit operation, so that stirring Plate 14 is rotated upwardly and downwardly with the axis of transmission shaft 28, is made sewage stirring more evenly, is sufficiently connect with the pollutant in sewage convenient for ozone Touching oxidation, improves purification efficiency, moreover, with the progress of reaction, in air guide mechanism, drives the first cone tooth by Power Component Wheel 24 and drive block 22 rotate, and drive adjusting block 41 mobile by adjusting component, so that turntable 19 is between two drive blocks 22 It is mobile, reduce the revolving speed of shaft 18 and flabellum 20, equipment is made to adjust the air for being passed through ozone generator 4 according to flexible reaction time Amount, reduces the cost of sewage treatment, improves the practicability of equipment.

Compared with prior art, this uses the sewage disposal device of ozone purification to make sewage generation pair by rabbling mechanism It while stream, is evenly distributed in sewage convenient for pollutant, contacts and react with ozone, improve purification efficiency, and it is existing Rabbling mechanism compare, the rabbling mechanism by agitating plate 14 make sewage up and down roll so that stirring more evenly, not only such as This, air guide mechanism flexibly controls the air capacity for being passed through ozone generator 4 according to the time of purification, guarantee it is sufficiently cleaned up same When, ozone occurrence quantity is reduced to reduce cost of sewage disposal and improves the practicability of equipment, with existing air guide mechanism phase Than the air guide mechanism is acted on turntable 19 simultaneously by two drive blocks 22, so that the rotation of shaft 18 is more stable.

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 sewage disposal device using ozone purification, which is characterized in that including clarifier-tank (1), water inlet pipe (2), draining Manage (3), ozone generator (4), air guide mechanism, appendix (5), vertical tube (6), transverse tube (7), rabbling mechanism, controller (8) and if Dry spray head (9), the water inlet pipe (2) and drainpipe (3) are located at the two sides of clarifier-tank (1), are equipped in the drainpipe (3) Valve, the controller (8) are fixed on ozone generator (4), and the air guide mechanism is connect with ozone generator (4), described Ozone generator (4) is connect with appendix (5), the top and bottom end of the vertical tube (6) respectively with appendix (5) and transverse tube (7) Connection, the spray head (9) are evenly distributed on the top of transverse tube (7), and the transverse tube (7) is located at the bottom in clarifier-tank (1), described Rabbling mechanism is arranged on vertical tube (6), and the valve and ozone generator (4) are electrically connected with PLC；

The rabbling mechanism includes rotation pipe (10), first gear (11) and two mixing components, the rotation pipe (10) and One gear (11) is set on vertical tube (6), and the first gear (11) is fixed on the top of rotation pipe (10), two stirring groups Part is located at the two sides of rotation pipe (10), and the mixing component includes first motor (12), second gear (13), roll-over unit With agitating plate (14), the first motor (12) is fixed on the lower section of appendix (5), and the first motor (12) is electrically connected with PLC It connecing, the first motor (12) and second gear (13) are sequentially connected, and the first gear (11) is engaged with second gear (13), The roll-over unit and agitating plate (14) are sequentially connected；

The air guide mechanism includes air inlet pipe (15), escape pipe (16) and air guide room (17), the air inlet pipe (15) and escape pipe (16) two sides of air guide room (17) are located at, the air guide room (17) is connected to by air inlet pipe (15) with outside, the air guide Room (17) is connected to by escape pipe (16) with ozone generator (4), and shaft (18), adjusting group are equipped in the air guide room (17) Part, turntable (19), Power Component, two transmission components, two flabellums (20) and two bearings (21), the bearing (21) are fixed In air guide room (17), the both ends of the shaft (18) are separately positioned in two bearings (21), two flabellums (20) difference positions In the two sides of shaft (18), the turntable (19) is set on shaft (18), the turntable (19) be located at two transmission components it Between, the adjusting component and turntable (19) are sequentially connected；

The transmission component includes drive block (22), connecting shaft (23) and first bevel gear (24), the Power Component and first Bevel gear (24) transmission connection, the first bevel gear (24) is fixedly connected by connecting shaft (23) with drive block (22), described The shape of drive block (22) is cone, and the drive block (22) is resisted against on turntable (19).

2. using the sewage disposal device of ozone purification as described in claim 1, which is characterized in that the roll-over unit includes Second motor (25), driving wheel (26), driving wheel (27), support unit, transmission shaft (28) and belt (29), second motor (25) it is fixed on rotation pipe (10), second motor (25) is electrically connected with PLC, second motor (25) and driving wheel (26) it is sequentially connected, the driving wheel (26) is connect by belt (29) with driving wheel (27), and the driving wheel (27) is set in On transmission shaft (28), the transmission shaft (28) is connect by support unit with rotation pipe (10), and the agitating plate (14) is fixed on On transmission shaft (28).

3. using the sewage disposal device of ozone purification as claimed in claim 2, which is characterized in that the support unit includes Support ring (30), two brackets (31) and two clamping plates (32), the support ring (30) are set on transmission shaft (28), two branch Frame (31) is located above and below support ring (30), and the support ring (30) is solid by bracket (31) and rotation pipe (10) Fixed connection, two clamping plates (32) are located at the two sides of support ring (30), and the clamping plate (32) is fixed on transmission shaft (28).

4. using the sewage disposal device of ozone purification as described in claim 1, which is characterized in that on the agitating plate (14) Equipped with several through-holes.

5. using the sewage disposal device of ozone purification as described in claim 1, which is characterized in that the rotation pipe (10) It is equipped with limit plate (33) above lower section and first gear (11), the limit plate (33) is fixed on vertical tube (6).

6. using the sewage disposal device of ozone purification as described in claim 1, which is characterized in that the Power Component includes Third motor (34) and two second bevel gears (35), the third motor (34) are fixed in air guide room (17), the third Motor (34) is electrically connected with PLC, and two second bevel gears (35) are located above and below third motor (34), and described Two bevel gears (35) and transmission component correspond, and the third motor (34) and second bevel gear (35) are sequentially connected, described Second bevel gear (35) is engaged with first bevel gear (24).

7. as described in claim 1 use ozone purification sewage disposal device, which is characterized in that the turntable (19) it is interior Side is equipped with several recesses, and the recess is circumferentially evenly distributed on the inside of turntable (19), the shaft (18) if periphery be equipped with Dry protrusive board (36), the protrusive board (36) are circumferentially evenly distributed on the periphery of shaft (18), quantity and protrusive board (36) of the recess Quantity it is equal, the protrusive board (36) and recess correspond, and the protrusive board (36) is arranged in recess.

8. using the sewage disposal device of ozone purification as described in claim 1, which is characterized in that the adjusting component includes 4th motor (37), buffer stopper (38), the 4th drive shaft (39), sliding block (40) and adjusting block (41), the 4th motor (37) It is each attached in air guide room (17) with buffer stopper (38), the 4th motor (37) is electrically connected with PLC, the 4th motor (37) It being sequentially connected with one end of the 4th drive shaft (39), the other end setting of the 4th drive shaft (39) is interior in buffer stopper (38), The sliding block (40) is set in the 4th drive shaft (39), and the sliding block (40) is equipped with the junction of the 4th drive shaft (39) With the 4th drive shaft (39) matched screw thread, the adjusting block (41) is fixed on sliding block (40), the shape of the adjusting block (41) Shape is U-shaped, and the U-shaped opening of the adjusting block (41) is directed toward turntable (19).

9. using the sewage disposal device of ozone purification as claimed in claim 8, which is characterized in that the adjusting component also wraps Include limitting casing (42), the shape of the limitting casing (42) is U-shaped, the both ends of the limitting casing (42) respectively with the 4th motor (37) It is fixedly connected with buffer stopper (38), the sliding block (40) is set on limitting casing (42).

10. using the sewage disposal device of ozone purification as claimed in claim 8, which is characterized in that on the sliding block (40) Equipped with range sensor (43), the range sensor (43) is electrically connected with PLC.