CN216106224U - A rabbling mechanism for among leading oxygen deficiency structure - Google Patents
A rabbling mechanism for among leading oxygen deficiency structure Download PDFInfo
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- CN216106224U CN216106224U CN202122809134.6U CN202122809134U CN216106224U CN 216106224 U CN216106224 U CN 216106224U CN 202122809134 U CN202122809134 U CN 202122809134U CN 216106224 U CN216106224 U CN 216106224U
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Abstract
The utility model discloses a stirring mechanism used in a preposed anoxic structure, which is a support column vertically arranged in a preposed anoxic pond, wherein the top end and the bottom end of the support column are respectively and fixedly connected with a top plate and a bottom plate which are horizontally arranged, and a first movable frame, a second movable frame and a stirring assembly are sleeved outside the support column. The inside of stirring subassembly is equipped with two tractive lines, can go up and down to the second movable frame through two tractive lines, and the stirring subassembly is located leading oxygen deficiency pond inside stirs the mud in leading oxygen deficiency pond, owing to the stirring subassembly is located the surface of water below, consequently the in-process of stirring subassembly stirring can not let leading oxygen deficiency pond oxygenate.
Description
Technical Field
The utility model belongs to the technical field of biochemical systems, and particularly relates to a stirring mechanism for a preposed anoxic structure.
Background
The anaerobic tank is arranged in the sewage biochemical system, the anaerobic tank is a reaction tank which does not contain dissolved oxygen but contains nitrate, the anaerobic tank has hydrolysis reaction, and in the denitrification process, the anaerobic tank mainly plays a role in removing nitrate nitrogen through denitrification and also has a role in improving biodegradability through hydrolysis reaction.
The existing sewage treatment process mainly comprises the steps of lifting a coarse grid-a lifting pump into a fine grid-a grit chamber-a biochemical tank-a secondary sedimentation tank-a disinfection tank-and discharging, and mainly has the following technical problems: 1. the sludge precipitated in the secondary sedimentation tank and the residual sludge in the biochemical tank directly enter the sludge storage tank and are discharged after being treated by the desliming machine, so that the sludge in the secondary sedimentation tank and the sludge in the biochemical tank cannot form backflow; 2. the existing sewage enters a biochemical tank and then stays in an anoxic section for a short time, so that the sewage has high nitrogen content and poor later denitrification effect, and the use effect of a biochemical system is influenced.
SUMMERY OF THE UTILITY MODEL
Aiming at the defects in the prior art, the utility model aims to provide a stirring mechanism for a preposed anoxic structure.
In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides an rabbling mechanism for among leading oxygen deficiency structure, includes the vertical support column that sets up in leading oxygen deficiency pond inside, the top and the bottom of support column are fixed connection respectively has roof and the bottom plate that the level set up, the support column overcoat is equipped with first movable frame and second movable frame.
The front end and the rear end of the vertical wall on the left side of the first movable frame are fixedly connected with first mounting plates, and the front end and the rear end of the vertical wall on the right side of the first movable frame are fixedly connected with second mounting plates; a first rotating rod is rotatably arranged between the two first mounting plates, a first roller is fixedly sleeved on the first rotating rod, a third motor is arranged on the first mounting plate at the front side, and the output end of the third motor is fixedly connected with the first rotating rod; two rotatable second bull stick of installing between the second mounting panel, fixed cover is equipped with the second gyro wheel on the second bull stick, and the cover is equipped with the belt on first gyro wheel and the second gyro wheel.
The top four corners of the second movable frame are fixedly connected with fixed blocks respectively, and the fixed blocks are respectively positioned between the two fixed blocks below the first rotating rod and the second rotating rod and are rotatably connected with rotating rollers.
The two traction ropes are respectively fixed on the first rotating rod and the second rotating rod, and the other ends of the two traction ropes respectively bypass the corresponding rotating rollers and are connected with the outer wall of the second movable frame; and a stirring assembly is arranged at the bottom end of the second movable frame.
The stirring assembly is positioned inside the preposed anoxic tank and used for stirring sludge in the preposed anoxic tank, and the stirring assembly is positioned below the water surface, so that the preposed anoxic tank cannot be oxygenated in the stirring process of the stirring assembly. In addition, because the sludge in the preposed anoxic tank comes from the secondary sedimentation tank and the biochemical tank respectively, the sludge from the two sources can be mixed more uniformly by stirring the stirring component, and the nitrogen digestion of the sewage in the anoxic tank is facilitated.
The inside of stirring subassembly is equipped with two tractive lines, can go up and down to the second movable frame through two tractive lines, two commentaries on classics rollers can protect the lift of second movable frame, thereby can protect the stirring subassembly, it is rotatory that the third motor drives first gyro wheel, because the effect of belt, make the second gyro wheel follow first gyro wheel and remove, thereby can be with first bull stick and second bull stick synchronous revolution, because the effect of two commentaries on classics rollers, make the second movable frame move down more steadily, thereby it inclines to prevent to take place when stirring the subassembly from descending, influence stirring subassembly normal use, and then can stir leading oxygen deficiency pond inside through the stirring subassembly.
Preferably, the stirring assembly comprises a circular plate and a connecting rope fixedly connected to the bottom end of the second movable frame; the base plate is characterized in that the circular plate is slidably arranged outside the support column, the bottom end of the connecting rope is fixedly connected with the circular plate, a movable cylinder is arranged below the circular plate, and the outer circumferential surface of the movable cylinder is fixedly connected with a stirring plate which is of an emission structure.
The improved structure of the movable cylinder is characterized in that an installation frame is fixedly connected to one side of the top end of the circular plate, a first motor is fixedly installed inside the installation frame, the driving end of the first motor penetrates through the circular plate and is fixedly connected with an outer gear, an inner circumferential surface of the movable cylinder is fixedly connected with an inner gear, and the inner gear is meshed with the outer gear.
The first motor drives the external gear to rotate, the external gear drives the internal gear to rotate, the movable cylinder follows the internal gear to rotate, and the stirring plate follows the movable cylinder to move, so that the sewage and the sludge in the body can be stirred.
Preferably, the inner circumferential surface of the movable cylinder is fixedly connected with a second motor below the inner gear, the driving end of the second motor penetrates through the cylinder body of the movable cylinder and is fixedly connected with a stirring rod, and the rod body of the stirring rod is fixedly connected with a stirring blade in an emitting structure.
The second motor drives the puddler rotatory, and the stirring leaf is followed the puddler and is rotated to can improve stirring effect, and then be convenient for stir leading oxygen deficiency pond is inside, reduce the nitrogen content in the sewage, improve later stage denitrogenation effect.
Preferably, the slide has been seted up on the top of a movable section of thick bamboo, the inside shape of slide is T type structure, the bottom fixedly connected with of plectane and the ring of the inside shape looks adaptation of slide, ring sliding connection is in the slide.
The slide way and the circular ring can limit the rotating direction of the movable cylinder and prevent the circular plate from being separated from the movable cylinder.
Preferably, the top fixed connection of support column has the roof that the level set up, the electric telescopic handle of the equal vertical setting in bottom four corners fixedly connected with of roof, four electric telescopic handle's output is fixed connection in the top four corners of first movable frame respectively.
Electric telescopic handle can remove first movable frame, is convenient for remove first movable frame downwards, and then can extend the depth of decline of second movable frame.
Preferably, the bottom fixedly connected with fixed plate of the front side of first activity frame, the fixed plate is L type structure, one side bottom fixedly connected with base that first activity frame was kept away from to the fixed plate, the mounting hole that runs through from top to bottom is seted up on the top of base.
The fixed plate can be with the support column fixed with the one side of body, prevent when the stirring to the body is inside, the support column takes place to incline, influences the result of use.
Preferably, the support column left and right sides erects the wall and has all seted up the spout, the equal fixedly connected with slider of two inboard perpendicular walls about first movable frame and the second movable frame, every the shape of slider respectively with the inside shape looks adaptation of spout, every the slider is sliding connection respectively in corresponding the spout.
The spout and slider can restrict the descending direction of first movable frame and second movable frame, and the position takes place to remove when preventing first movable frame and second frame from removing, influences the result of use.
Compared with the prior art, the utility model has the beneficial effects that:
set up the stirring subassembly in leading oxygen deficiency pond, the stirring subassembly stirs the mud in leading oxygen deficiency pond, because the stirring subassembly is located the surface of water below, consequently the in-process of stirring subassembly can not let leading oxygen deficiency pond oxygenate. In addition, because the sludge in the preposed anoxic tank comes from the secondary sedimentation tank and the biochemical tank respectively, the sludge from the two sources can be mixed more uniformly by stirring the stirring component, and the nitrogen digestion of the sewage in the anoxic tank is facilitated.
Drawings
FIG. 1 is a schematic view of the stirring structure.
Fig. 2 is a schematic view of the structure of the movable cylinder.
FIG. 3 is a schematic view of the structure of the stirring plate.
Fig. 4 is a schematic view of a support column structure.
Fig. 5 is a schematic view of the top plate structure.
FIG. 6 is a schematic flow diagram of the pre-anoxic configuration of the biochemical system.
In the figure: 1. a body; 2. a support pillar; 3. a top plate; 4. a base plate; 5. a fixing plate; 6. an electric telescopic rod; 7. a chute; 8. a first movable frame; 9. a second movable frame; 10. a slider; 12. a movable barrel; 13. a circular plate; 14. installing a frame; 15. a first motor; 16. a first mounting plate; 17. a second mounting plate; 18. a circular ring; 19. a slideway; 20. a stirring plate; 21. a second motor; 22. a stirring rod; 23. stirring blades; 24. an outer gear; 25. an internal gear; 26. rotating the roller; 27. a third motor; 28. a belt; 29. a first rotating lever; 30. a second rotating rod; 31. a pulling rope; 41. coarse grating; 42. fine grids; 43. a transfer adjusting tank; 44. a grit chamber; 45. a biochemical pool; 45a, a first sludge pump; 46. a secondary sedimentation tank; 46a, a second sludge pump; 47. and (4) a disinfection tank.
Detailed Description
The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.
In the present invention, 'front', 'rear', 'left', 'right', 'up', 'down' all refer to the orientation in fig. 1, wherein 'front' refers to being out with respect to the paper in fig. 1 and 'rear' refers to being in fig. 1. In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.
Example 1, referring to fig. 6, a pre-anoxic structure of a biochemical system includes a transit regulation tank 43 and a pre-anoxic tank 1; the transfer regulating tank 43 and the preposed anoxic tank 1 are arranged between the grit chamber 44 and the biochemical tank 45, the topography of the grit chamber 44, the transfer regulating tank 43, the preposed anoxic tank 1 and the biochemical tank 45 is reduced in sequence, and the grit chamber 44, the transfer regulating tank 43, the preposed anoxic tank 1 and the biochemical tank 45 are communicated in sequence; a first sludge pump 45a is arranged in the biochemical tank 45, a second sludge pump 46a is arranged in the second sedimentation tank 46, and a sludge outlet of the first sludge pump 45a and a sludge outlet of the second sludge pump 46a are respectively communicated with the preposed anoxic tank 1; and a stirring structure for stirring is arranged in the preposed anoxic tank 1.
Working principle of the pre-anoxic structure of the biochemical system in example 1:
the terrains of the grit chamber 44, the transfer regulating tank 43, the preposed anoxic chamber 1 and the biochemical chamber 45 are sequentially reduced, so that the sewage can automatically flow by utilizing the gravity action. Can go into leading oxygen deficiency pond 1 with the partial excess sludge pump of biochemical pond 45 through a sludge pump 45a in, can go into leading oxygen deficiency pond 1 with the partial mud pump that deposits in the secondary sedimentation pond 46 through No. two sludge pumps 46a, consequently there has been the mud of two parts in leading oxygen deficiency pond 1, the rethread stirring structure homogenizes mud, sewage gets into behind leading oxygen deficiency pond 1, can carry out the oxygen deficiency reaction earlier and digest certain nitrogen in leading oxygen deficiency pond 1, later reentrant biochemical pond 45.
Can go into leading oxygen deficiency pond 1 with the partial excess sludge pump of biochemical pond 45 through a sludge pump 45a in, can go into leading oxygen deficiency pond 1 with the partial mud pump that deposits in the secondary sedimentation pond 46 through No. two sludge pumps 46a, consequently there has been the mud of two parts in leading oxygen deficiency pond 1, the rethread stirring structure homogenizes mud, sewage gets into behind leading oxygen deficiency pond 1, can carry out the oxygen deficiency reaction earlier and digest certain nitrogen in leading oxygen deficiency pond 1, later reentrant biochemical pond 45. Part of the residual sludge in the biochemical tank 45 is pumped into the preposed anoxic tank 1 through a first sludge pump 45a to form internal sludge backflow, and part of the sludge precipitated in the secondary sedimentation tank 46 can be pumped into the preposed anoxic tank 1 through a second sludge pump 46a to form external sludge backflow; due to the arrangement of the preposed anoxic tank, the anoxic reaction time of the sewage before the sewage enters the biochemical tank 45 for biochemical reaction is prolonged, and the nitrogen content of the sewage is effectively reduced.
The front end and the rear end of the vertical wall on the left side of the first movable frame 8 are fixedly connected with a first mounting plate 16, and the front end and the rear end of the vertical wall on the right side of the first movable frame 8 are fixedly connected with a second mounting plate 17; a first rotating rod 29 is rotatably mounted between the two first mounting plates 16, a first roller is fixedly sleeved on the first rotating rod 29, a third motor 27 is mounted on the first mounting plate 16 at the front side, and the output end of the third motor 27 is fixedly connected with the first rotating rod 29; a second rotating rod 30 is rotatably arranged between the two second mounting plates 17, a second roller is fixedly sleeved on the second rotating rod 30, and a belt 28 is sleeved on the first roller and the second roller;
the four corners of the top end of the second movable frame 9 are fixedly connected with fixed blocks, and the two fixed blocks respectively positioned below the first rotating rod 29 and the second rotating rod 30 are rotatably connected with a rotating roller 26.
The device also comprises two pulling ropes 31, wherein one ends of the two pulling ropes 31 are respectively fixed on the first rotating rod 29 and the second rotating rod 30, and the other ends of the two pulling ropes 31 respectively bypass the corresponding rotating rollers 26 to be connected with the outer wall of the second movable frame 9; and a stirring assembly is arranged at the bottom end of the second movable frame 9.
A connecting plate 27a of an L-shaped structure is fixedly connected to one vertical wall of the first mounting plate 16 on the front side, and the third motor 27 is fixedly mounted on the connecting plate 27 a. The connection plate 27a is provided to facilitate installation of the third motor 27, and a waterproof and moisture-proof protective casing is provided outside the third motor 27 to prolong the service life of the motor.
The stirring assembly is positioned inside the preposed anoxic tank and used for stirring sludge in the preposed anoxic tank, and the stirring assembly is positioned below the water surface, so that the preposed anoxic tank cannot be oxygenated in the stirring process of the stirring assembly. In addition, because the sludge in the preposed anoxic tank comes from the secondary sedimentation tank and the biochemical tank respectively, the sludge from the two sources can be mixed more uniformly by stirring the stirring component, and the nitrogen digestion of the sewage in the anoxic tank is facilitated.
The inside of stirring subassembly is equipped with two tractive lines, can go up and down to the second movable frame through two tractive lines, two commentaries on classics rollers can protect the lift of second movable frame, thereby can protect the stirring subassembly, it is rotatory that the third motor drives first gyro wheel, because the effect of belt, make the second gyro wheel follow first gyro wheel and remove, thereby can be with first bull stick and second bull stick synchronous revolution, because the effect of two commentaries on classics rollers, make the second movable frame move down more steadily, thereby it inclines to prevent to take place when stirring the subassembly from descending, influence stirring subassembly normal use, and then can stir leading oxygen deficiency pond inside through the stirring subassembly.
Specifically, the stirring assembly comprises a circular plate 13 and a connecting rope fixedly connected to the bottom end of the second movable frame 9. The cover that the plectane 13 slidable was established outside support column 2, the quantity of connecting the rope is four, the bottom and the plectane 13 fixed connection of connecting the rope, the below of plectane 13 is equipped with a movable section of thick bamboo 12, the outer periphery fixedly connected with of a movable section of thick bamboo 12 is the stirring board 20 of launch column structure.
The improved structure of the piston rod type hydraulic cylinder is characterized in that a mounting frame 14 is fixedly connected to one side of the top end of the circular plate 13, a first motor 15 is fixedly mounted inside the mounting frame 14, the driving end of the first motor 15 penetrates through the circular plate 13 and is fixedly connected with an outer gear 24, an inner gear 25 is fixedly connected to the inner circumferential surface of the movable cylinder 12, and the inner gear 25 is meshed with the outer gear 24.
In this embodiment, it is rotatory to drive outer gear 24 through first motor 15, and outer gear 24 drives internal gear 25 and rotates, and movable cylinder 12 follows internal gear 25 and rotates, and stirring board 20 follows movable cylinder 12 and removes to can stir leading inside sewage in oxygen deficiency pond 1.
The inner circumferential surface of the movable cylinder 12 is fixedly connected with a second motor 21 below the inner gear 25, the driving end of the second motor 21 penetrates through the cylinder body of the movable cylinder 12 and is fixedly connected with a stirring rod 22, and a rod body of the stirring rod 22 is fixedly connected with a stirring blade 23 which is of a transmitting structure.
The second motor 21 drives the puddler 22 rotatory, and the stirring leaf 23 is rotatory along with puddler 22 to can improve stirring effect, and then be convenient for stir 1 inside leading oxygen deficiency pond, reduce the nitrogen content in the sewage, improve later stage denitrogenation effect.
Specifically, slide 19 has been seted up on the top of activity section of thick bamboo 12, the inside shape of slide 19 is T type structure, the bottom fixedly connected with of plectane 13 and the inside shape looks adaptation of slide 19 ring 18, ring 18 sliding connection is in slide 19. The slide way and the circular ring can limit the rotating direction of the movable cylinder and prevent the circular plate from being separated from the movable cylinder.
In this embodiment, the rotation direction of the movable cylinder 12 can be restricted by the slide 19 and the ring 18, and the circular plate 13 is prevented from being separated from the movable cylinder 12.
Specifically, the top fixed connection of support column 2 has roof 3 that the level set up, the electric telescopic handle 6 of the vertical setting of the equal fixedly connected with in bottom four corners of roof 3, four electric telescopic handle 6's output difference fixed connection is in the top four corners of first movable frame 8.
In this embodiment, can remove first movable frame 8 through electric telescopic handle 6, be convenient for remove first movable frame 8 downwards, and then can extend the depth of fall of second movable frame 9.
Specifically, the bottom fixedly connected with fixed plate 5 of the front side of first movable frame 8, fixed plate 5 is L type structure, one side bottom fixedly connected with base of first movable frame 8 is kept away from to fixed plate 5, the mounting hole that runs through from top to bottom is seted up on the top of base.
In this embodiment, can be with the fixed one side with body 1 of support column 2 through fixed plate 5, prevent when the stirring to body 1 inside, support column 2 takes place to incline, influences the result of use.
Specifically, spout 7 has all been seted up to the 2 left and right sides vertical wall of support column, the equal fixedly connected with slider 10 of the two inboard vertical walls about first movable frame 8 and the second movable frame 9, every the shape of slider 10 respectively with the inside shape looks adaptation of spout 7, every slider 10 is sliding connection respectively in corresponding spout 7.
In this embodiment, the descending directions of the first movable frame 8 and the second movable frame 9 can be limited by the sliding groove 7 and the sliding block 10, and the positions of the first movable frame 8 and the second movable frame are prevented from moving when moving, so that the use effect is not affected.
Working principle of stirring structure in example 2:
the third motor 27 is started, the third motor 27 rotates positively to drive the first roller to rotate clockwise, and due to the action of the belt 28, the second roller rotates along with the first roller, so that the first rotating rod 29 and the second rotating rod 30 can rotate synchronously, the pulling rope 31 wound on the first rotating rod 29 and the second rotating rod 30 is slowly released, the part of the pulling rope 31 which is not wound on the first rotating rod 29 and the second rotating rod 30 is longer and longer, and the second movable frame 9 fixed at the bottom of the pulling rope 31 moves downwards. The second movable frame 9 moves more smoothly due to the action of the two rollers 26.
After the stirring subassembly entered below the surface of water, start first motor 15, first motor 15 drives the external gear 24 rotatory, internal gear 25 follows external gear 24 and removes, it is rotatory to make movable section of thick bamboo 12 follow external gear 24, stirring board 20 follows movable section of thick bamboo 12 and removes, start second motor 21, second motor 21 drives puddler 22 rotatory, stirring vane 23 is rotatory with stirring bar 22, stir 1 inside sewage and the mud in leading oxygen deficiency pond through stirring board 20 and stirring vane 23, make the mud that comes from two heavy ponds and the mud that comes from biochemical pond mix more evenly, also make mud misce bene simultaneously, thereby can improve the digestion of mud to nitrogen in the sewage, effectively reduce the nitrogen content in the sewage, the later stage denitrogenation effect has been improved.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.
Claims (6)
1. A rabbling mechanism for in leading oxygen deficiency structure which characterized in that: the anaerobic tank comprises a supporting column (2) vertically arranged in a preposed anaerobic tank (1), wherein a first movable frame (8) and a second movable frame (9) are sleeved outside the supporting column (2);
the front end and the rear end of the vertical wall on the left side of the first movable frame (8) are fixedly connected with first mounting plates (16), and the front end and the rear end of the vertical wall on the right side of the first movable frame (8) are fixedly connected with second mounting plates (17); a first rotating rod (29) is rotatably arranged between the two first mounting plates (16), a first roller is fixedly sleeved on the first rotating rod (29), a third motor (27) is arranged on the first mounting plate (16) at the front side, and the output end of the third motor (27) is fixedly connected with the first rotating rod (29); a second rotating rod (30) is rotatably arranged between the two second mounting plates (17), a second roller is fixedly sleeved on the second rotating rod (30), and a belt (28) is sleeved on the first roller and the second roller;
four corners of the top end of the second movable frame (9) are fixedly connected with fixed blocks, and rotating rollers (26) are rotatably connected between the two fixed blocks respectively positioned below the first rotating rod (29) and the second rotating rod (30);
the device also comprises two pulling ropes (31), wherein one ends of the two pulling ropes (31) are respectively fixed on the first rotating rod (29) and the second rotating rod (30), and the other ends of the two pulling ropes (31) respectively bypass the corresponding rotating rollers (26) to be connected with the outer wall of the second movable frame (9);
and a stirring assembly is arranged at the bottom end of the second movable frame (9).
2. The agitation mechanism of claim 1, for use in a pre-anoxic structure, wherein: the stirring assembly comprises a circular plate (13) and a connecting rope fixedly connected to the bottom end of the second movable frame (9);
the circular plate (13) is slidably sleeved outside the support column (2), the bottom end of the connecting rope is fixedly connected with the circular plate (13), a movable cylinder (12) is arranged below the circular plate (13), and the outer circumferential surface of the movable cylinder (12) is fixedly connected with a stirring plate (20) in a transmitting structure;
the utility model discloses a movable cylinder, including mounting frame (14), the inside fixed mounting of mounting frame (14) has first motor (15), the drive end of first motor (15) passes plectane (13) and fixedly connected with external gear (24), the inner peripheral face fixedly connected with internal gear (25) of movable cylinder (12), internal gear (25) mesh with external gear (24) mutually.
3. The agitation mechanism used in a pre-anoxic structure according to claim 2, wherein: the inner circumferential surface of the movable cylinder (12) is fixedly connected with a second motor (21) below the inner gear (25), the driving end of the second motor (21) penetrates through the cylinder body of the movable cylinder (12) and is fixedly connected with a stirring rod (22), and a rod body of the stirring rod (22) is fixedly connected with a stirring blade (23) which is of an emitting structure.
4. The agitation mechanism used in the pre-anoxic structure according to claim 2 or 3, characterized in that: slide (19) have been seted up on the top of a movable section of thick bamboo (12), the inside shape of slide (19) is T type structure, the bottom fixedly connected with of plectane (13) and the ring (18) of the inside shape looks adaptation of slide (19), ring (18) sliding connection is in slide (19).
5. The agitation mechanism of claim 4, used in a pre-anoxic structure, wherein: the top fixed connection of support column (2) has roof (3) that the level set up, electric telescopic handle (6) of the equal vertical setting of bottom four corners fixedly connected with of roof (3), four electric telescopic handle (6)'s output difference fixed connection in the top four corners of first movable frame (8).
6. The agitation mechanism of claim 5, used in a pre-anoxic structure, wherein: the bottom fixedly connected with fixed plate (5) of the front side of first activity frame (8), fixed plate (5) are L type structure, one side bottom fixedly connected with base of first activity frame (8) is kept away from in fixed plate (5), the mounting hole that runs through from top to bottom is seted up on the top of base.
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CN202122809134.6U CN216106224U (en) | 2021-11-17 | 2021-11-17 | A rabbling mechanism for among leading oxygen deficiency structure |
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CN202122809134.6U CN216106224U (en) | 2021-11-17 | 2021-11-17 | A rabbling mechanism for among leading oxygen deficiency structure |
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