CN116969563B - Sewage treatment device and method for in-situ generation of ozone - Google Patents

Abstract

The invention belongs to the technical field of sewage treatment, in particular to a sewage treatment device and a sewage treatment method for generating ozone in situ, when the existing device is used, most of ozone is directly sent into a reaction box body, but is easily and locally piled up together, so that the ozone cannot be quickly dispersed in the reaction box body, the ozone cannot be fully fused with sewage, the sewage treatment effect is reduced, and the sewage treatment efficiency is reduced; the device comprises a bottom plate, wherein side moving bases are symmetrically arranged on the bottom plate, and one side moving base is connected with a driving motor through a combined fixed assembly and connection assembly; the driving motor is connected with the compound angular rotation stopping mechanism; the angle rotation stopping mechanism comprises a driving clamping block arranged at the output end of the driving motor, and the driving clamping block is connected with a driving clamping groove arranged on the driving cam; through stopping angle soon mechanism again, make ozone can be in the same place with abundant the fusion of sewage to promoted sewage treatment's efficiency when having promoted sewage treatment effect.

Description

Sewage treatment device and method for in-situ generation of ozone

Technical Field

The invention belongs to the technical field of sewage treatment, and particularly relates to a sewage treatment device and method for generating ozone in situ.

Background

In recent years, with the development of industry, new problems have arisen in water treatment and treatment of water pollution. Because of the presence of some organic pollutants (such as pesticides, synthetic detergents, certain dyes, etc.) that are biologically difficult to degrade or toxic in industrial wastewater, and the environmental protection and related authorities have developed strict standards and laws for the protection of the environment and water resources and the reuse of the polluted water that can be treated. In many cases, industrial wastewater must undergo three levels of advanced treatment to meet the requirements of water pollution control and wastewater reuse. Ozone treatment wastewater is one of effective advanced wastewater treatment means, has the advantages of strong oxidizing capability, high reaction speed, convenient use (comprising ozone manufacture, output, dosing and the like), no secondary pollution and the like, and is valued by people.

In the sewage treatment process, the sewage needs to be sterilized, and at present, an ozone sterilization method is generally adopted in the sewage sterilization treatment. When the prior device is used, most of ozone is directly sent into the reaction box body, but is easily and locally accumulated together, so that the ozone cannot be rapidly diffused in the reaction box body, the ozone cannot be fully fused with sewage, the sewage treatment effect is reduced, and the sewage treatment efficiency is reduced.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the invention provides a sewage treatment device and a sewage treatment method for generating ozone in situ, which effectively solve the problems in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the sewage treatment device for generating ozone in situ comprises a bottom plate, wherein side moving bases are symmetrically arranged on the bottom plate, and one side moving base is connected with a driving motor through a combined fixed assembly and connection assembly; the driving motor is connected with the compound angular rotation stopping mechanism;

the angle rotation stopping mechanism comprises a driving clamping block arranged at the output end of the driving motor, and the driving clamping block is connected with a driving clamping groove arranged on the driving cam; the driving cam is matched and connected with the driving transverse block, driving square rods are symmetrically arranged on the driving transverse block, and the driving square rods penetrate through a driving base arranged on the side moving base and are fixedly connected with the driving square plate; the driving square rod is sleeved with a driving spring, one end of the driving spring is fixedly connected with the driving transverse block, and the other end of the driving spring is connected with the driving base.

Preferably, a driving rack is arranged on one driving square plate, the driving rack is in meshed connection with a driving gear, a driving rotating shaft is arranged on the driving gear, and the driving rotating shaft penetrates through a first bearing arranged on the side moving base to be connected with a plurality of limiting different blocks; and a linkage transverse block is arranged on the driving rotating shaft, and a reaction box body is arranged on the linkage transverse block.

Preferably, the limiting block is arranged in sliding connection with the limiting different rod, two ends of the limiting different rod are provided with limiting bases, and the two limiting bases are fixedly connected with the side moving base; the limiting elastic spring is sleeved on the limiting different rod, one end of the limiting elastic spring is fixedly connected with the limiting base, the other end of the limiting elastic spring is fixedly connected with the limiting different block, the two limiting different blocks are fixedly provided with half-linked gear rings, and the half-linked gear rings are connected with the tilting stable lifting unit.

Preferably, the combined fixed assembly and connection assembly comprises a combined square plate arranged on the driving motor, a driving rubber pad is arranged on the combined square plate, and the driving rubber pad is connected with a driven rubber pad arranged on the side moving base; the square groove is formed by connecting a square groove, a square groove is formed in the square groove, a contact stop plate is connected in a sliding mode in the square groove, the contact stop plate is connected with two contact round rods in a sliding mode, the contact round rods are fixedly connected with the square groove, and the inner bottom surface of the square groove is connected with the contact stop plate through a contact spring.

Preferably, the tilting-stopping and lifting-stabilizing unit comprises a tilting gear which is meshed and connected with the half-linked gear ring, a tilting rotating shaft is arranged on the tilting gear, and the tilting rotating shaft passes through the lifting-stopping gear and is in transmission connection with the side-moving base; the lifting stop gear is meshed with a lifting stop rack, a lifting stop sliding block is arranged on the lifting stop rack, and the lifting stop sliding block is in sliding connection with a rail stop base fixedly arranged on the side moving base; the lifting stop sliding blocks are symmetrically provided with lifting stop square plates, the two lifting stop square plates are connected with lifting stop rods together, and the lifting stop rods are arranged in sliding connection with the rail stop base; the lifting stop rod is sleeved with a lifting stop spring, one end of the lifting stop spring is fixedly connected with the lifting stop square plate, and the other end of the lifting stop spring is fixedly connected with the rail stop base.

Preferably, the locking square grooves are symmetrically arranged on the closing square blocks, the locking square grooves are connected with the locking long plates, the two locking long plates are jointly connected with the locking transverse block, the locking transverse block is symmetrically provided with limiting blocks, the limiting blocks are fixedly provided with limiting rods, and the limiting rods are in sliding connection with the limiting grooves arranged on the side moving base; the limiting rod is sleeved with a limiting spring, one end of the limiting spring is fixedly connected with the side moving base, and the other end of the limiting spring is fixedly connected with the limiting block; and the lifting ring is arranged on the locking transverse block.

Preferably, the side surfaces of the lifting stop square plate and the lifting stop rack are connected with a lifting stop rod, a lifting transverse plate is fixedly arranged on the lifting stop rod, and the lifting transverse plate and the movable plate are connected through a translation rotation limiting assembly; and the movable plate is fixedly provided with a buffer cushion which is connected with the reaction box body in a matched manner.

Preferably, the translational rotation limiting assembly comprises a movable rod symmetrically arranged on a movable plate, the movable rod is arranged in sliding connection with the positioning blocks, and the two positioning blocks are jointly connected with the movable transverse plate; a positioning sleeve is fixedly arranged on the positioning block, the positioning sleeve is connected with a positioning sleeve column arranged on the movable plate in a matched manner, a movable contact piece is arranged on one positioning sleeve column, the movable contact piece is connected with a static contact piece arranged in the positioning sleeve in a matched manner, and the contact of the movable contact piece and the static contact piece is connected with a control box symmetrically arranged on the bottom plate; the movable attaching rod is sleeved with a movable attaching spring, one end of the movable attaching spring is connected with the positioning block, the other end of the movable attaching spring is connected with the movable attaching plate, the movable attaching plate is provided with a first connecting seat, the first connecting seat is connected with a second square seat through a hinged square plate, two second square seats are provided with guide blocks, the guide blocks are connected with guide grooves arranged on the movable lifting transverse plate in a sliding manner, the guide groove is internally provided with a guide rod, the guide rod is sleeved with a guide spring, two ends of the guide spring are fixedly connected with a guide block, the guide block is provided with a first magnetic sheet, the first magnetic sheet is connected with a second magnetic sheet arranged in the guide groove in a matched mode, and the first magnetic sheet and the second magnetic sheet are contacted with each other and are connected with a stirring and moving combination mechanism.

Preferably, the stirring and combining mechanism comprises clamping different blocks arranged on two sides of the reaction box body, the two clamping different blocks are connected with a stirring motor together, a plurality of stirring pulleys are arranged at the output end of the stirring motor, the stirring pulleys are connected with a linkage pulley through a transmission belt, a clamping rotating shaft is arranged on the linkage pulley, and the clamping rotating shaft penetrates through a second bearing arranged on the reaction box body and is connected with a plurality of stirring rods.

The invention also provides a sewage treatment method for generating ozone in situ, which comprises the following steps:

step one, starting a driving motor to enable a driving clamping block on the output end of the driving motor to drive a driving cam to rotate, so that the driving cam is in reciprocating contact with the surface of a driving transverse block; when the driving cam contacts the surface of the driving transverse block, the driving transverse block is limited to move in the driving base through the driving square rod, and the two driving springs are in a buffer state;

step two, driving the driving rack to move through the moving driving square plate, and meshing the driving gear to rotate, so that the driving rotating shaft rotates, and limiting the rotation at the limiting different rod through the limiting different block, wherein the limiting spring is in a buffer state; so that the linkage transverse block on the driving rotating shaft rotates;

step three, the reaction box body is arranged at the linkage transverse block, and the reaction box body rotates by taking the driving rotating shaft as the circle center through the rotation of the linkage transverse block, so that sewage in the reaction box body flows to one side in an inclined way;

step four, when the driving cam is not contacted with the surface of the driving transverse block any more, the driving gear is reset and rotated by the reset of the driving spring and the limiting spring, so that the reaction box body is reset and rotated to an initial position, and sewage in the reaction box body flows to the other side in an inclined way;

and fifthly, the reaction box body is made to rotate reciprocally through the description of the steps, so that the sewage keeps fluidity in the reaction box body at any time, the ozone is prevented from being locally accumulated in the reaction box body, and the fusion speed of the ozone and the sewage is accelerated.

Compared with the prior art, the invention has the beneficial effects that:

(1) Starting a driving motor to drive a driving clamping block on the output end of the driving motor to drive a driving cam to rotate, so that the driving cam is in reciprocating contact with the surface of a driving transverse block; when the driving cam contacts the surface of the driving transverse block, the driving transverse block is limited to move in the driving base through the two driving square rods, so that the two driving springs are in a buffer state, then the moving driving square plate drives the driving rack to move, the driving rack is meshed with the driving rack to rotate, the driving rotating shaft is further rotated, the driving rotating shaft is limited to rotate at the limiting different rods through the two limiting different blocks, the two limiting springs are in a buffer state, the linkage transverse block on the driving rotating shaft is rotated, the reaction box body is arranged at the linkage transverse block, and the reaction box body rotates by taking the driving rotating shaft as the circle center through the rotation of the linkage transverse block, so that sewage in the reaction box body obliquely flows to one side; when the driving cam is not contacted with the surface of the driving transverse block any more, the driving gear is reset and rotated through the reset of the driving spring and the limiting spring, so that the linkage transverse block on the driving rotating shaft is reset and rotated to an initial position, the reaction box body is in an inclined state initially, sewage in the reaction box body flows to the other side in an inclined mode, the specific angle is determined according to the actual use condition, and the initial angle and the like of the reaction box body can be adjusted by adjusting the connection position of the driving rack and the driving gear; the reaction box body is made to rotate reciprocally through the description, so that the sewage keeps fluidity in the reaction box body at any time, and meanwhile, the situation that ozone enters the reaction box body and is locally accumulated together can be avoided, so that the diffusion speed of the ozone in the sewage is accelerated, the fusion speed of the ozone and the sewage is accelerated, the ozone and the sewage can be fully fused together, and the sewage treatment effect is improved, and meanwhile, the sewage treatment efficiency is improved;

(2) When the reaction box body contacts with the buffer cushion, the movable plate is enabled to move in the positioning block in a limiting way through the movable rod, the movable spring is enabled to be in a buffering state, the two second square seats are enabled to move relatively in the guide groove through the first connecting seat, the hinged square plate and the second square seats, the guide spring on the guide rod is enabled to be in a buffering state and matched with the tilting and lifting stabilizing unit, the stability of the device in use is further improved, meanwhile, the movable plate and the lifting transverse plate are enabled to be in a state of moving in opposite directions, the positioning sleeve column is enabled to enter the positioning sleeve, and the movable contact piece is enabled to be in contact with the static contact piece, the control box is symmetrically arranged, and the movable contact pieces on the sides are contacted with the static contact pieces to send signals to the control box, so that the control box sends signals to the alarm for reminding operators, giving the operators enough time to react, avoiding the risk of side turning of the reaction box, preventing the side turning, improving the safety of the device in use, and the alarm is arranged on two sides (not shown in the figure) of the bottom plate, is identical to the control box in arrangement position, and the two contact pieces on the sides are contacted with the same side to light the sides, so that the operators can quickly and clearly know the state of the risk position of the reaction box; meanwhile, the safety of the device in use is improved;

(3) An operator pulls the lifting ring outwards to enable the locking transverse block to move in the limiting groove in a limiting mode through a limiting rod arranged on the limiting block, the limiting spring is in a buffering state, then two locking long plates on the locking transverse block are not connected with the locking square groove any more, limiting setting of the locking square block is relieved, at the moment, under the condition that no external force is applied, the original contacting spring in a buffering state is reset to move, the elastic force drives the contacting plate to move on a contacting round rod arranged in the locking square groove, and therefore the locking square block contacted with the contacting plate is separated from the opening and closing square groove, and the driving motor is popped up, so that the driving motor is disassembled; similarly, when the driving motor is installed, the locking transverse block is pulled outwards firstly, so that the locking transverse block moves in a limiting groove in a limiting way through the limiting rod, and the limiting spring is in a buffering state, so that the two locking long plates are separated from the opening and closing square groove; at the moment, only two closed square blocks on the closed square plate are required to be aligned with the closed square groove, so that the closed square blocks are contacted with the touch-fixing baffle plate, the closed square blocks and the touch-fixing baffle plate are pressed by applying force to press the closed square plates, meanwhile, the closed square blocks and the touch-fixing baffle plate are enabled to move in the closed square groove in a limiting mode, so that the touch-fixing springs are in a buffer state, when the closed square plates move to a position, the two locking long plates are enabled to move in a resetting mode through the reset of the limiting springs and are connected with the locking square groove, the closed square blocks are limited at the current position, pressure is not required to be applied to the closed square plates, the touch-fixing springs cannot reset through the limiting of the closed square blocks, the elasticity brought by the limiting of the closed square blocks increases the friction force of the connection of the locking long plates and the locking square groove, and therefore stability of a driving motor in use is improved, and meanwhile, the motor with different power can be conveniently and rapidly completed no matter the motor is installed or disassembled, and meanwhile, the stability of the device in use can be replaced in good time according to the weight of sewage contained in a reaction box is reduced, and efficiency of sewage treatment is improved;

(4) When a control box on the translational rotation limiting assembly sends a signal to an alarm, a first magnetic sheet on a indicating guide block contacts a second magnetic sheet arranged in a guide groove, so that a stirring motor is electrified, the stirring motor starts to work, two stirring pulleys on the output end of the stirring motor drive two linkage pulleys to rotate through a transmission belt, two clamping rotating shafts rotate, at the moment, a reaction box body is positioned at the inclined maximum position, surging generated when internal sewage is inclined and ozone fed in the reaction box body play a natural stirring and mixing role, the situation that the ozone is fed into the reaction box body and is difficult to mix is avoided, and then the sewage and the ozone are accumulated at one position at the moment, through the description, a plurality of stirring rods rotate in the sewage at the moment, the sewage in the reaction box body at the angle is stirred, and a repeated angular rotation stopping mechanism is matched, so that the fusion speed of the sewage and the ozone is enhanced, and the sewage treatment effect is improved;

(5) The tilting gear rotates to enable the lifting stop gear on the tilting rotating shaft to engage with the lifting stop rack to move, so that the lifting stop gear is limited to move in the rail stop base through the lifting stop sliding block, the lifting stop spring is in a buffer state, the lifting transverse plate on the different-motion extending rod drives the moving plates to move, then the two moving plates move towards one direction, when the reaction box body rotates, one moving plate is driven to move towards the direction of the reaction box body through the description, and the other moving plate is far away from the reaction box body; the buffer pad that is equipped with on the subsides movable plate that makes to be close to the reaction box removes reaches the buffer pad, because the reaction box is when rotating, the inside sewage then gathers to subsides movable plate and moves towards the one side that the reaction box removed this moment, and sewage can cause sewage self to surge when the inside of reaction box removes, the impact force that brings can lead to reaction box to damage or rock, when the reaction box rotated certain angle, through the contact with the buffer pad, make the buffer pad be in the state of buffering, the buffer force that brings offsets with the impact force that aforementioned, avoid causing the damage to the reaction box, the life-span of device when using has been promoted simultaneously, the stability of device when to sewage treatment has been promoted.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

In the drawings:

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic diagram of the structure of the angular rotation stopping mechanism of the present invention;

FIG. 3 is a schematic view of a driving cam structure according to the present invention;

FIG. 4 is a schematic structural view of the mixing and braking mechanism of the present invention;

FIG. 5 is a schematic diagram of a tilting and lifting stabilizing unit according to the present invention;

FIG. 6 is a schematic view of a driving rack according to the present invention;

FIG. 7 is a schematic diagram of a translational rotation limiting assembly of the present invention;

FIG. 8 is a schematic view of the assembled and assembled connecting component of the present invention;

FIG. 9 is a schematic view of a second square seat according to the present invention;

in the figure: 1. a bottom plate; 2. a side-moving base; 3. a driving motor; 4. driving the clamping block; 5. a driving cam; 6. a driving clamping groove; 7. driving the transverse block; 8. driving a square rod; 9. a drive base; 10. driving the square plate; 11. a drive spring; 12. a drive rack; 13. a drive gear; 14. driving the rotating shaft; 15. a stop block; 16. a linkage transverse block; 17. a reaction box; 18. a stop differential lever; 19. a motion limiting base; 20. a stopper spring; 21. a half-linked ring gear; 22. combining square plates; 23. combining the square blocks; 24. combining square grooves; 25. touching the resistance plate; 26. touching the round rod; 27. a touch spring; 28. a tilt gear; 29. a tilting shaft; 30. a lifting stop gear; 31. a lifting and stopping rack; 32. a lifting stop slide block; 33. a rail base; 34. lifting and stopping square plates; 35. a lifting stop rod; 36. a lift stop spring; 37. locking the square groove; 38. locking the long plate; 39. locking the transverse block; 40. a limiting block; 41. a limit rod; 42. a limit groove; 43. a limit spring; 44. a lifting ring; 45. extending the different rod; 46. a lifting transverse plate; 47. a movable plate is stuck; 48. a cushion pad; 49. pasting a movable rod; 50. a positioning block; 51. positioning a sleeve; 52. positioning sleeve columns; 53. a movable contact; 54. a stationary contact; 55. a control box; 56. sticking a movable spring; 57. a first connecting seat; 58. hinging the square plate; 59. a second square seat; 60. a guide block; 61. a guide groove; 62. a guide rod; 63. a guide spring; 64. a first magnetic sheet; 65. a second magnetic sheet; 66. clamping the different blocks; 67. a stirring motor; 68. stirring a pulley; 69. a transmission belt; 70. a linkage pulley; 71. clamping the rotating shaft; 72. stirring rod.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention; all other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The embodiment is shown in fig. 1 to 9, the invention comprises a bottom plate 1, wherein side moving bases 2 are symmetrically arranged on the bottom plate 1, and one side moving base 2 is connected with a driving motor 3 through a combined fixed assembly; the driving motor 3 is connected with the compound angular rotation stopping mechanism; the angle rotation stopping mechanism comprises a driving clamping block 4 arranged at the output end of the driving motor 3, and the driving clamping block 4 is connected with a driving clamping groove 6 arranged on the driving cam 5; the driving cam 5 is matched and connected with a driving transverse block 7, driving square rods 8 are symmetrically arranged on the driving transverse block 7, and the driving square rods 8 penetrate through a driving base 9 arranged on the side moving base 2 and are fixedly connected with a driving square plate 10; a driving spring 11 is sleeved on the driving square rod 8, one end of the driving spring 11 is fixedly connected with the driving transverse block 7, and the other end of the driving spring is connected with the driving base 9; a driving rack 12 is arranged on one driving square plate 10, the driving rack 12 is in meshed connection with a driving gear 13, a driving rotating shaft 14 is arranged on the driving gear 13, and the driving rotating shaft 14 is connected with a plurality of limiting different blocks 15 through a first bearing arranged on the side moving base 2; a linkage transverse block 16 is arranged on the driving rotating shaft 14, and a reaction box 17 is arranged on the linkage transverse block 16; the limiting different block 15 is arranged in sliding connection with the limiting different rod 18, limiting bases 19 are arranged at two ends of the limiting different rod 18, and the two limiting bases 19 are fixedly connected with the side moving base 2; the limiting different rod 18 is sleeved with a limiting spring 20, one end of the limiting spring 20 is fixedly connected with the limiting base 19, the other end of the limiting spring is fixedly connected with the limiting different block 15, the two limiting different blocks 15 are fixedly provided with half-linked gear rings 21, and the half-linked gear rings 21 are connected with the tilting and stable lifting unit;

after the operator sends ozone into the reaction box 17, in order to avoid the ozone accumulating together in the reaction box 17, the driving clamping block 4 on the output end of the driving motor 3 is started to drive the driving cam 5 to rotate, so that the driving cam is in reciprocating contact with the surface of the driving transverse block 7; when the driving cam 5 contacts the surface of the driving transverse block 7, the driving transverse block 7 is limited to move in the driving base 9 through the two driving square rods 8, the two driving springs 11 are in a buffer state, then the moving driving square plate 10 drives the driving rack 12 to move, the driving rack is meshed with the driving gear 13 to rotate, the driving rotating shaft 14 is further rotated, the driving rotating shaft 14 is limited to rotate at the limiting different rod 18 through the two limiting different rods 15, the two limiting springs 20 are in a buffer state, the linkage transverse block 16 on the driving rotating shaft 14 is rotated, the reaction box 17 is arranged at the linkage transverse block 16, and the reaction box 17 rotates by taking the driving rotating shaft 14 as the circle center through the rotation of the linkage transverse block 16, so that sewage in the reaction box 17 flows to one side in an inclined manner; when the driving cam 5 is not contacted with the surface of the driving transverse block 7 any more, the driving gear 13 is reset to rotate through the reset of the driving spring 11 and the limiting spring 20, so that the linkage transverse block 16 on the driving rotating shaft 14 is reset to rotate to an initial position, the reaction box 17 is in an initial inclined state, sewage in the reaction box 17 flows to the other side in an inclined way, the specific angle is determined according to the actual use condition, and the initial angle and the like of the reaction box 17 can be adjusted by adjusting the connection position of the driving rack 12 and the driving gear 13; thereby make the reciprocal rotation of reaction box 17 through the above-mentioned description for sewage constantly keeps flowing in reaction box 17, can avoid ozone to get into the circumstances that reaction box 17 is interior to be piled up together locally simultaneously and take place, thereby accelerated the diffusion rate of ozone in sewage, accelerate the fusion speed of ozone and sewage, make ozone can be in the same place with abundant fusion of sewage, thereby promoted sewage treatment's efficiency when having promoted sewage treatment effect.

The combined fixed assembly and connection assembly of the embodiment comprises a combined fixed square plate 22 arranged on a driving motor 3, wherein a driving rubber pad is arranged on the combined fixed square plate 22, and the driving rubber pad is connected with a driven rubber pad arranged on a side moving base 2; the square closing plate 22 is symmetrically provided with square closing blocks 23, the square closing blocks 23 are connected with square closing grooves 24 arranged on the side movable base 2, a touch-type stop plate 25 is connected in a sliding manner in the square closing grooves 24, the touch-type stop plate 25 is connected with two touch-type round rods 26 in a sliding manner, the touch-type round rods 26 are fixedly connected with the square closing grooves 24, and the inner bottom surfaces of the square closing grooves 24 are connected with the touch-type stop plate 25 through touch-type springs 27; the locking square grooves 37 are symmetrically arranged on the closing square block 23, the locking square grooves 37 are connected with the locking long plates 38, the two locking long plates 38 are jointly connected with the locking transverse block 39, the locking transverse block 39 is symmetrically provided with the limiting block 40, the limiting block 40 is fixedly provided with the limiting rod 41, and the limiting rod 41 is in sliding connection with the limiting groove 42 arranged on the side moving base 2; a limit spring 43 is sleeved on the limit rod 41, one end of the limit spring 43 is fixedly connected with the side-moving base 2, and the other end of the limit spring is fixedly connected with the limit block 40; a lifting ring 44 is arranged on the locking transverse block 39;

when the driving motor 3 needs to be replaced or detached and maintained, an operator only needs to pull the lifting ring 44 outwards, so that the locking transverse block 39 moves in a limiting groove 42 in a limiting way through a limiting rod 41 arranged on the limiting block 40, the limiting spring 43 is in a buffering state, then the two locking long plates 38 on the locking transverse block 39 are not connected with the locking square groove 37 any more, the limiting setting of the fixed square block 23 is relieved, at the moment, under the condition that no external force is applied, the fixed spring 27 which is in the buffering state is reset to move, the elastic force brought by the elastic force pushes the fixed stop plate 25 to move on a fixed round rod 26 arranged in the fixed square groove 24, so that the fixed square block 23 contacted with the fixed stop plate 25 is separated from the fixed square groove 24, the driving motor 3 is ejected out of the position, and the disassembling operation of the driving motor 3 is completed; similarly, when the driving motor 3 is installed, the locking transverse block 39 is pulled outwards firstly, so that the locking transverse block moves in the limiting groove 42 in a limiting way through the limiting rod 41, and the limiting spring 43 is in a buffering state, so that the two locking long plates 38 are separated from the square groove 24; at this time, only two engaging square blocks 23 on the engaging square plate 22 are required to be aligned with the engaging square grooves 24, so that the engaging square blocks 23 are contacted with the touching and resisting plate 25, the engaging square plate 22 is pressed by applying force, meanwhile, the engaging square blocks 23 and the touching and resisting plate 25 are enabled to move in the engaging square grooves 24 in a limiting mode, the touching and resisting spring 27 is in a buffering state, when the engaging square plates move to a position, at this time, the two locking long plates 38 are enabled to move in a resetting mode through loosening the locking transverse blocks 39 and are connected with the locking square grooves 37 through resetting of the limiting springs 43, and therefore the engaging square blocks 23 are limited at the current position, at this time, pressure is not required to be applied to the engaging square plates 22, the friction force for connecting the locking long plates 38 with the locking square grooves 37 is increased through the limitation of the engaging square blocks 23, stability of the driving motor 3 in use is improved, meanwhile, the mounting or dismounting operation can be completed conveniently and rapidly, and meanwhile, the efficiency of the sewage treatment device is improved in use according to different weights of sewage contained in the reaction box 17.

The tilting-stopping and lifting-stabilizing unit of the embodiment comprises a tilting gear 28 which is in meshed connection with the half-coupling gear ring 21, wherein a tilting rotating shaft 29 is arranged on the tilting gear 28, and the tilting rotating shaft 29 penetrates through a lifting-stopping gear 30 to be in transmission connection with the side-moving base 2; the lifting stop gear 30 is in meshed connection with a lifting stop rack 31, a lifting stop slide block 32 is arranged on the lifting stop rack 31, and the lifting stop slide block 32 is in sliding connection with a rail stop base 33 fixedly arranged on the side moving base 2; the lifting stop slide blocks 32 are symmetrically provided with lifting stop square plates 34, the two lifting stop square plates 34 are connected with lifting stop rods 35 together, and the lifting stop rods 35 are connected with the rail stop base 33 in a sliding manner; the lifting stop rod 35 is sleeved with a lifting stop spring 36, one end of the lifting stop spring 36 is fixedly connected with the lifting stop square plate 34, and the other end of the lifting stop spring is fixedly connected with the rail stop base 33; the side surfaces of the lifting stop square plate 34 and the lifting stop rack 31 are connected with a lifting different rod 45, a lifting transverse plate 46 is fixedly arranged on the lifting different rod 45, and the lifting transverse plate 46 and the movable plate 47 are connected through a translation rotation limiting assembly; a cushion pad 48 is fixedly arranged on the movable plate 47, and the cushion pad 48 is matched and connected with the reaction box 17;

when the reaction box 17 rotates and the stop block 15 rotates, the half-linked gear ring 21 rotates to engage the tilting gear 28 to rotate, the lifting stop gear 30 on the tilting shaft 29 engages the lifting stop rack 31 to move, the lifting stop gear is limited to move in the rail stop base 33 through the lifting stop slide block 32, the lifting stop spring 36 is in a buffer state, the lifting transverse plate 46 on the sliding different rod 45 drives the movable plate 47 to move, and then the two movable plates 47 move in one direction, when the reaction box 17 rotates, one movable plate 47 is driven to move in the direction of the reaction box 17 by the description, and the other movable plate 47 is far away from the reaction box 17; the buffer pad 48 arranged on the movable attaching plate 47 which moves close to the reaction box body 17 contacts with the buffer pad 48, and when the reaction box body 17 rotates, sewage in the reaction box body is collected to one side of the movable attaching plate 47 which moves towards the reaction box body 17, sewage can surge when the sewage moves in the reaction box body 17, the reaction box body 17 can be damaged or swayed due to the impact force brought by the sewage, when the reaction box body 17 rotates to a certain angle, the buffer pad 48 is in a buffer state through contact with the buffer pad 48, the brought buffer force is counteracted with the impact force, damage to the reaction box body 17 is avoided, the service life of the device is prolonged, and the stability of the device in sewage treatment is improved.

The translational rotation limiting assembly of the embodiment comprises a movable rod 49 symmetrically arranged on a movable plate 47, wherein the movable rod 49 is arranged in a sliding connection with a positioning block 50, and the two positioning blocks 50 are jointly connected with a lifting transverse plate 46; a positioning sleeve 51 is fixedly arranged on the positioning block 50, the positioning sleeve 51 is connected with a positioning sleeve column 52 arranged on the movable plate 47 in a matched manner, a movable contact piece 53 is arranged on one positioning sleeve column 52, the movable contact piece 53 is connected with a static contact piece 54 arranged in the positioning sleeve 51 in a matched manner, and the contact of the movable contact piece 53 and the static contact piece is connected with a control box 55 symmetrically arranged on the bottom plate 1; the movable attaching rod 49 is sleeved with a movable attaching spring 56, one end of the movable attaching spring 56 is connected with the positioning block 50, the other end of the movable attaching spring 56 is connected with the movable attaching plate 47, the movable attaching plate 47 is provided with a first connecting seat 57, the first connecting seat 57 is connected with a second square seat 59 through a hinged square plate 58, two second square seats 59 are provided with guide blocks 60, the guide blocks 60 are slidably connected with guide grooves 61 arranged on the movable lifting transverse plate 46, guide rods 62 are arranged in the guide grooves 61, guide springs 63 are sleeved on the guide rods 62, two ends of the guide springs 63 are fixedly connected with the guide blocks 60, the guide blocks 60 are provided with first magnetic sheets 64, the first magnetic sheets 64 are matched with second magnetic sheets 65 arranged in the guide grooves 61, and the first magnetic sheets 64 are connected with the second magnetic sheets 65 in a contact and movable stirring mechanism;

when the reaction box 17 contacts the cushion pad 48, the movable attaching plate 47 is limited to move in the positioning block 50 through the movable attaching rod 49, so that the movable attaching spring 56 is in a buffer state, and the movable attaching plate 53 and the fixed attaching plate 54 are in contact with each other through the first connecting seat 57, the hinged square plate 58 and the second square seat 59, so that the two second square seats 59 relatively move in the guide groove 61 through the guide block 60, the guide spring 63 on the guide rod 62 is in a buffer state and is matched with the tilting and lifting unit, the stability of the device in use is further improved, the movable attaching plate 47 and the movable attaching plate 46 are in a state of moving oppositely, the positioning sleeve 52 enters the positioning sleeve 51, the movable attaching plate 53 and the fixed attaching plate 54 are in contact with each other, and the sent signal reaches the control box 55, and the control box 55 sends the signal to the alarm when the movable attaching plate 53 and the fixed attaching plate 54 are in contact with each other, so that the alarm box 55 is used for reminding operators of attention, the operators is sufficiently time, the reaction box 17 is prevented from being in a state of being in which the two sides of the side of the box is not provided, and the alarm box is not provided with the safety box 17, and the risk is not clearly seen when the alarm box is placed on the two sides of the side of the safety box is placed in the safety box 1; meanwhile, the safety of the device in use is improved.

The stirring and combining mechanism of the embodiment comprises clamping different blocks 66 arranged on two sides of a reaction box 17, wherein the two clamping different blocks 66 are jointly connected with a stirring motor 67, a plurality of stirring pulleys 68 are arranged at the output end of the stirring motor 67, the stirring pulleys 68 are connected with a linkage pulley 70 through a transmission belt 69, a clamping rotating shaft 71 is arranged on the linkage pulley 70, and the clamping rotating shaft 71 passes through a second bearing arranged on the reaction box 17 and is connected with a plurality of stirring rods 72;

when the control box 55 on the translational rotation limiting assembly sends a signal to the alarm, the first magnetic sheet 64 on the guide block 60 contacts the second magnetic sheet 65 arranged in the guide groove 61, so that the stirring motor 67 is electrified, the stirring motor 67 starts to work, the two stirring pulleys 68 on the output end of the stirring motor drive the two linkage pulleys 70 to rotate through the transmission belt 69, the two clamping rotating shafts 71 rotate, at the moment, the reaction box 17 is at the inclined maximum position, the surging generated when the sewage in the reaction box is inclined and the fed ozone play a role of natural stirring and mixing, the phenomenon that the ozone is fed into the reaction box 17 and is accumulated together is avoided, then the sewage and the ozone are accumulated at one position at the moment, through the description, the stirring rods 72 rotate in the sewage at the moment, the sewage in the reaction box 17 at the angle is stirred, and the speed of fusion of the sewage and the ozone is enhanced by matching with the stopping angle rotation mechanism, so that the sewage treatment effect is improved.

The invention also provides a sewage treatment method for generating ozone in situ, which comprises the following steps:

step one, starting a driving motor 3, so that a driving clamping block 4 on the output end of the driving motor drives a driving cam 5 to rotate, and the driving cam is in reciprocating contact with the surface of a driving transverse block 7; when the driving cam 5 contacts the surface of the driving transverse block 7, the driving transverse block 7 is limited to move in the driving base 9 through the driving square rod 8, and the two driving springs 11 are in a buffer state;

step two, driving the driving rack 12 to move through the moving driving square plate 10, and meshing the driving gear 13 to rotate, so that the driving rotating shaft 14 rotates, and limiting the rotation at the limiting different rod 18 through the limiting different block 15, wherein the limiting spring 20 is in a buffer state; so that the linkage transverse block 16 on the driving rotating shaft 14 rotates;

step three, the reaction box 17 is arranged at the linkage transverse block 16, and the reaction box 17 rotates by taking the driving rotating shaft 14 as the center of a circle through the rotation of the linkage transverse block 16, so that sewage in the reaction box 17 flows to one side in an inclined way;

step four, when the driving cam 5 is not contacted with the surface of the driving transverse block 7 any more, the driving spring 11 and the reset of the limiting spring 20 enable the driving gear 13 to reset and rotate, so that the reaction box 17 resets and rotates to an initial position, and sewage in the reaction box 17 flows to the other side in an inclined way;

step five, through the description of the steps, the reaction box body 17 rotates reciprocally, so that the sewage keeps fluidity at all times in the reaction box body 17, ozone is prevented from being locally accumulated in the reaction box body 17, and the fusion speed of the ozone and the sewage is accelerated.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a sewage treatment plant of normal position generation ozone which characterized in that: the motor comprises a bottom plate (1), wherein side moving bases (2) are symmetrically arranged on the bottom plate (1), and one side moving base (2) is connected with a driving motor (3) through a combined fixed assembly and connection assembly; the driving motor (3) is connected with the compound angular rotation stopping mechanism;

the angle rotation stopping mechanism comprises a driving clamping block (4) arranged at the output end of the driving motor (3), and the driving clamping block (4) is connected with a driving clamping groove (6) arranged on the driving cam (5); the driving cam (5) is matched and connected with the driving transverse block (7), driving square rods (8) are symmetrically arranged on the driving transverse block (7), and the driving square rods (8) penetrate through a driving base (9) arranged on the side moving base (2) to be fixedly connected with a driving square plate (10); a driving spring (11) is sleeved on the driving square rod (8), one end of the driving spring (11) is fixedly connected with the driving transverse block (7), and the other end of the driving spring is connected with the driving base (9);

a driving rack (12) is arranged on one driving square plate (10), the driving rack (12) is in meshed connection with a driving gear (13), a driving rotating shaft (14) is arranged on the driving gear (13), and the driving rotating shaft (14) penetrates through a first bearing arranged on the side moving base (2) and is connected with a plurality of limiting different blocks (15); the device comprises a driving rotating shaft (14), a linkage transverse block (16), a reaction box body (17), a limiting different block (15) and a limiting different rod (18), wherein the linkage transverse block (16) is arranged on the driving rotating shaft (14), the limiting different block (15) is connected with the limiting different rod (18) in a sliding manner, limiting bases (19) are arranged at two ends of the limiting different rod (18), and the two limiting bases (19) are fixedly connected with a side moving base (2); a limiting spring (20) is sleeved on the limiting different rod (18), one end of the limiting spring (20) is fixedly connected with the limiting base (19), the other end of the limiting spring is fixedly connected with the limiting different block (15), a half-linked gear ring (21) is fixedly installed on the two limiting different blocks (15), and the half-linked gear ring (21) is connected with the tilting stable lifting unit;

the combined fixed assembly and connection assembly comprises a combined square plate (22) arranged on the driving motor (3), a driving rubber pad is arranged on the combined square plate (22), and the driving rubber pad is connected with a driven rubber pad arranged on the side moving base (2); the device is characterized in that a closing square block (23) is symmetrically arranged on the closing square plate (22), the closing square block (23) is connected with a closing square groove (24) arranged on the side base (2), a touch stop plate (25) is connected in a sliding manner in the closing square groove (24), the touch stop plate (25) is connected with two touch round rods (26) in a sliding manner, the touch round rods (26) are fixedly connected with the closing square groove (24), and the inner bottom surface of the closing square groove (24) is connected with the touch stop plate (25) through a touch spring (27);

the tilting-stopping and lifting-stabilizing unit comprises a tilting gear (28) which is meshed with the half-linked gear ring (21), a tilting rotating shaft (29) is arranged on the tilting gear (28), and the tilting rotating shaft (29) penetrates through the lifting-stopping gear (30) to be in transmission connection with the side-moving base (2); the lifting stop gear (30) is connected with a lifting stop rack (31) in a meshed mode, a lifting stop sliding block (32) is arranged on the lifting stop rack (31), and the lifting stop sliding block (32) is arranged in sliding connection with a rail stop base (33) fixedly arranged on the side moving base (2); the lifting stop sliding blocks (32) are symmetrically provided with lifting stop square plates (34), the two lifting stop square plates (34) are connected with lifting stop rods (35) together, and the lifting stop rods (35) are connected with the rail stop base (33) in a sliding mode; the lifting stop rod (35) is sleeved with a lifting stop spring (36), one end of the lifting stop spring (36) is fixedly connected with the lifting stop square plate (34), and the other end of the lifting stop spring is fixedly connected with the rail stop base (33).

2. A wastewater treatment plant for in situ generation of ozone as claimed in claim 1, wherein: the locking square grooves (37) are symmetrically arranged on the combining square block (23), the locking square grooves (37) are connected with the locking long plates (38), the two locking long plates (38) are jointly connected with the locking transverse block (39), the locking transverse block (39) is symmetrically provided with the limiting blocks (40), the limiting blocks (40) are fixedly provided with the limiting rods (41), and the limiting rods (41) are slidably connected with the limiting grooves (42) arranged on the side moving base (2); a limiting spring (43) is sleeved on the limiting rod (41), one end of the limiting spring (43) is fixedly connected with the side moving base (2), and the other end of the limiting spring is fixedly connected with the limiting block (40); and a lifting ring (44) is arranged on the locking transverse block (39).

3. A wastewater treatment plant for in situ generation of ozone as claimed in claim 1, wherein: the lifting stop square plate (34) and the side surface of the lifting stop rack (31) are connected with a sliding different rod (45), a lifting transverse plate (46) is fixedly arranged on the sliding different rod (45), and the lifting transverse plate (46) and the pasting plate (47) are connected through a translation rotation limiting assembly; and a buffer cushion (48) is fixedly arranged on the movable plate (47), and the buffer cushion (48) is connected with the reaction box body (17) in a matched manner.

4. A wastewater treatment plant for in situ generation of ozone as claimed in claim 3, wherein: the translation rotation limiting assembly comprises a movable rod (49) symmetrically arranged on a movable plate (47), the movable rod (49) is connected with positioning blocks (50) in a sliding manner, and the two positioning blocks (50) are connected with a lifting transverse plate (46) together; a positioning sleeve (51) is fixedly arranged on the positioning block (50), the positioning sleeve (51) is connected with a positioning sleeve column (52) arranged on the movable plate (47) in a matched manner, a movable contact piece (53) is arranged on one positioning sleeve column (52), the movable contact piece (53) is connected with a static contact piece (54) arranged in the positioning sleeve (51) in a matched manner, and the contact of the movable contact piece and the static contact piece is connected with a control box (55) symmetrically arranged on the bottom plate (1); the movable pasting rod (49) is sleeved with a movable pasting spring (56), one end of the movable pasting spring (56) is connected with the positioning block (50), the other end of the movable pasting spring is connected with the movable pasting plate (47), the movable pasting plate (47) is provided with a first connecting seat (57), the first connecting seat (57) is connected with a second square seat (59) through a hinged square plate (58), two second square seats (59) are provided with guide blocks (60), guide block (60) and the guide slot (61) sliding connection that are equipped with on the rising diaphragm (46) set up, are equipped with guide bar (62) in guide slot (61), and the cover is equipped with guide spring (63) on guide bar (62), and guide spring (63) both ends and guide block (60) fixed connection set up, are equipped with first magnetic sheet (64) on guide block (60), and first magnetic sheet (64) are connected with second magnetic sheet (65) cooperation that are equipped with in guide slot (61) and are connected the setting, and both contacts and stirring system mechanism connection set up.

5. The in situ ozone generating sewage treatment device of claim 4, wherein: the stirring and combining mechanism comprises clamping different blocks (66) arranged on two sides of a reaction box body (17), the two clamping different blocks (66) are connected with a stirring motor (67) together, a plurality of stirring pulleys (68) are arranged at the output end of the stirring motor (67), the stirring pulleys (68) are connected with a linkage pulley (70) through a transmission belt (69), a clamping rotating shaft (71) is arranged on the linkage pulley (70), and the clamping rotating shaft (71) penetrates through a second bearing arranged on the reaction box body (17) to be connected with a plurality of stirring rods (72).

6. A method for treating wastewater by in-situ generation of ozone using the in-situ generation of ozone wastewater treatment apparatus according to any one of claims 1 to 5, comprising the steps of:

step one, starting a driving motor (3) to enable a driving clamping block (4) on the output end of the driving motor to drive a driving cam (5) to rotate so as to enable the driving cam to be in reciprocating contact with the surface of a driving transverse block (7); when the driving cam (5) contacts the surface of the driving transverse block (7), the driving transverse block (7) is limited to move in the driving base (9) through the driving square rod (8), and the two driving springs (11) are in a buffer state;

step two, driving the driving rack (12) to move through the moving driving square plate (10), and meshing the driving gear (13) to rotate, so that the driving rotating shaft (14) rotates, and limiting the rotation at the limiting different rod (18) through the limiting different block (15), wherein the limiting spring (20) is in a buffer state; so that the linkage transverse block (16) on the driving rotating shaft (14) rotates;

step three, a reaction box body (17) is arranged at the linkage transverse block (16), and the reaction box body (17) rotates by taking a driving rotating shaft (14) as a circle center through the rotation of the linkage transverse block (16), so that sewage in the reaction box body (17) flows to one side in an inclined way;

step four, when the driving cam (5) is not contacted with the surface of the driving transverse block (7), the driving gear (13) is reset to rotate by the reset of the driving spring (11) and the limiting spring (20), so that the reaction box body (17) is reset to rotate to an initial position, and sewage in the reaction box body (17) flows to the other side in an inclined way;

and fifthly, the reaction box body (17) is made to rotate reciprocally through the description of the steps, so that the sewage keeps fluidity in the reaction box body (17) at any time, ozone is prevented from being locally accumulated in the reaction box body (17), and the fusion speed of the ozone and the sewage is accelerated.