CN111410363A - Sewage treatment device based on high flow velocity - Google Patents

Abstract

The invention provides a high-flow-rate-based sewage treatment device which comprises a first liquid pool for storing untreated sewage, a transmission channel for conveying water in the first liquid pool to the next stage, a second liquid pool for subsequently treating sewage, an adaptive intercepting mechanism for pretreating the high-flow-rate sewage and an adaptive mixing mechanism for adding reactants into the sewage, and relates to the field of sewage treatment. This sewage treatment device based on high velocity of flow is through setting up special sewage filterable structure, concentrate on the aquatic of vortex with the impurity in the sewage, avoid blockking up and foreign matter migration, also strengthen sewage and activated sludge's combination efficiency simultaneously, thereby effectual solved general sewage treatment device be difficult to the fast flow in with sewage foreign matter impurity concentrated interception, when rivers are big, the foreign matter especially light foreign matter swims away easily in rivers production backward flow, and the contact surface is less relatively when sewage flows through activated sludge, influence the problem of sewage treatment speed.

Description

Sewage treatment device based on high flow velocity

Technical Field

The invention relates to the technical field of sewage treatment, in particular to sewage treatment equipment based on high flow velocity.

Background

In some production plants using a large amount of water, a large amount of sewage is generated in the production process, the sewage needs to be recycled or discharged after being treated by a sewage treatment tank, in some enterprises using a large amount of water, in order to intercept impurities in the sewage and fully promote the combination of activated sludge and sewage in the sewage treatment process, slow flowing sewage is often needed to avoid that some foreign matters and impurities in the sewage are washed away by water flow due to excessive water flow and can also avoid that the sewage cannot be fully contacted with the activated sludge due to excessive flowing speed, however, the slow flowing sewage can also influence the sewage treatment speed, so that the sewage treatment speed is possibly lower than the sewage generation speed, and further the phenomenon of water accumulation can be caused, some plants expand the sewage treatment tank, not only occupy a large amount of land area but also generate larger energy consumption, general sewage treatment equipment cannot intensively intercept foreign matters and impurities in the sewage aiming at the fast flowing sewage, when the water flow is large, foreign matters, particularly light foreign matters, are easy to walk away in the backflow generated by the water flow, and when sewage flows through activated sludge, the contact time is short, the contact surface is relatively small, and the sewage treatment speed is influenced, so that a sewage treatment device based on high flow speed is needed.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides sewage treatment equipment based on high flow velocity, which solves the problems that the common sewage treatment equipment is difficult to intensively intercept foreign matters and impurities in sewage aiming at fast flowing sewage, when the water flow is large, the foreign matters, particularly light foreign matters are easy to wander in the backflow generated by the water flow, and when the sewage flows through activated sludge, the contact time is short, the contact surface is relatively small, and the sewage treatment speed is influenced.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: a sewage treatment device based on high flow rate comprises a first liquid pool for storing untreated sewage, a transmission channel for conveying the water in the first liquid pool to the next stage, a second liquid pool for subsequently treating sewage, an adaptive interception mechanism for pretreating the high flow rate sewage and an adaptive mixing mechanism for adding reactants into the sewage, wherein the transmission channel is positioned between the first liquid pool and the second liquid pool, the adaptive interception mechanism and the adaptive mixing mechanism are both arranged in the transmission channel, a liquid outlet is formed in the surface of the first liquid pool, a first lifting gate is arranged inside the liquid outlet, a liquid inlet is formed in the surface of the second liquid pool, a second lifting gate is arranged inside the liquid inlet, an overflow baffle is fixedly connected to the surface of the transmission channel, and the surface of the overflow baffle is fixedly connected to the surface of the second liquid pool, the baffle is arranged to prevent the sewage from flowing upwards to the two sides of the conveying channel due to the over-high water flow speed.

Preferably, the self-adaptive intercepting mechanism comprises a frame body, a self-adaptive rubber bag, two elastic stretching films, an arc vortex generating bag, a plurality of upper outlets, a plurality of lower outlets, a self-adaptive dredging mechanism and an intercepting trembler, wherein the inner wall of the frame body is fixedly connected with the self-adaptive rubber bag, the left side and the right side of the self-adaptive rubber bag are both fixedly connected with one elastic stretching film, the material of the elastic stretching film comprises rubber, the extensibility of the elastic stretching film is larger than that of the self-adaptive rubber bag, one side of each elastic stretching film, which is far away from the self-adaptive rubber bag, is fixedly connected with one arc vortex generating bag, the surface of the arc vortex generating bag is fixedly connected with the inner wall of the frame body, the upper outlets and the lower outlets are arranged on the self-adaptive rubber bag, the upper outlets and the lower outlets are symmetrically distributed, and a pressure relief drain pipe is sleeved on the surface of the arc vortex generating bag, set up the framework and be the power that drags self-adaptation rubber bag for cooperation rivers production, it stretches the membrane in order to expand elasticity under the rivers effect to set up two elasticity, thereby make things convenient for arc vortex to generate the bag and avoid the impact of direct contact rivers, the arc vortex generates the bag and produces the rivers production vortex that the guide effect makes the backward flow to rivers, the rubbish that the vortex can concentrate to erode comes, it also utilizes self-adaptation rubber bag interception foreign matter simultaneously to set up row's mouth and row's mouth down for the drainage, go up row's mouth and lower discharge symmetry, make self-adaptation rubber bag can produce the power of mutual extrusion from top to bottom under the rivers impact, make the foldable deformation of self-adaptation rubber bag emergence longitudinal symmetry.

Preferably, the self-adaptive dredging mechanism comprises two limiting springs, a movable rolling rod, two limiting rolling balls in one-to-one correspondence with the limiting springs and two spiral push rods, the limiting springs are fixedly connected to the surface of the self-adaptive rubber bag, the two limiting rolling balls are respectively and fixedly connected to the two ends of the movable rolling rod, the two limiting rolling balls are respectively embedded in different limiting springs, the diameter of each limiting rolling ball is larger than the inner diameter of each limiting spring, the surface of each limiting rolling ball is in sliding connection with the inner wall of each limiting spring, the surface of each movable rolling rod is in sliding connection with the inner wall of each limiting spring, the two spiral push rods are both fixedly connected to the surface of the movable rolling rod, the spiral directions of the two spiral push rods are opposite, the self-adaptive dredging mechanism is located between an upper discharge port and a lower discharge port, and the limiting springs are arranged to limit the movable range of the movable rolling rod, and the limiting spring can deform under the action of water flow, so that the movable rolling rod can be always close to the self-adaptive rubber bag under the action of water flow, and the spiral push rod can guide impurities intercepted by the self-adaptive rubber bag to return to the two sides conveniently.

Preferably, the quantity that the spring was trembled in the interception is a plurality of, a plurality of spring fixed connection is trembled in the interception on the inner wall of self-adaptation rubber bag, screw rod's fixed surface connects a plurality of and pulls the steel ball, the surface that pulls the steel ball and the inner wall swing joint that the spring was trembled in the interception, it is the elasticity in order to utilize the spring to set up the interception and trembles the spring, when self-adaptation rubber bag extrudees from top to bottom, the interception trembles the horizontal interception strength increase of spring resilience, and can take place to incline under the rivers impact and deform and lean on to pivoted screw rod, on screw rod pull the steel ball and can pull the interception after contacting the interception trembles the spring and drag the interception and tremble the spring, the interception trembles the spring and is pulled the filth that conveniently will intercept along with screw rod along with one section pull away, on the other.

Preferably, the equal fixedly connected with vortex baffle in both sides of framework, two the vortex baffle keeps away from the one end of framework and transmission path's inner wall fixed connection, the surface of vortex baffle is the slope form, two the vortex baffle corresponds the arc vortex of two differences respectively and generates the bag, the surface that the bag was generated to the arc vortex and the surface swing joint of vortex baffle set up the vortex baffle and are for supporting vortex and generate the bag, make things convenient for vortex to generate the bag and rely on the baffle to produce powerful convolution power, and the while vortex baffle has also compensatied the vacancy of self-adaptation interception mechanism.

Preferably, the adaptive mixing mechanism comprises a hinged shaft, an upper guide plate, a lower guide plate and an arc elastic plate, the upper guide plate and the lower guide plate are both hinged on the hinged shaft, the upper guide plate is in an upward inclined shape, the lower guide plate is in a downward inclined shape, two sides of the arc elastic plate are respectively fixedly connected with the surface of the upper guide plate and the surface of the lower guide plate, the arc elastic plate is made of rubber, steel bars made of spring steel are embedded in the arc elastic plate, a plurality of push springs are fixedly connected with the lower surface of the upper guide plate, the other ends of the push springs are fixedly connected with the surface of the lower guide plate, two ends of the hinged shaft are fixedly connected on the inner wall of the transmission channel, the horizontal height of the hinged shaft is the same as the middle position height of the adaptive rubber bag, a mud cavity is arranged among the upper guide plate, the lower guide plate and the arc elastic plate, and a pocket net is fixedly connected with the inner wall of, the inside of pocket net is provided with activated sludge, the surface of going up baffle and lower baffle all is provided with a plurality of mud hole, sets up arc elastic plate and is in order to form the mud chamber on the one hand, and on the other hand also is in order to strengthen the elasticity of going up baffle and lower baffle, sets up baffle and lower baffle and is in order to reposition of redundant personnel sewage with the help of the rivers strength that self-adaptation interception mechanism produced, makes sewage fully contact with activated sludge, and activated sludge passive contact sewage, improves activated sludge's utilization efficiency.

Preferably, fixed connection rubber seals the door between upper guide plate and the lower guide plate, the fixed surface of rubber seal the door connects the padlock, the fixed surface that the surface of rubber seal the door passes through padlock and arc elastic plate is connected, sets up rubber seal the door, is for conveniently adding activated sludge, also avoids activated sludge to flow through other passageways simultaneously.

(III) advantageous effects

(1) According to the invention, by arranging the self-adaptive intercepting mechanism, in the sewage treatment process, a water flow vortex can be formed in the self-adaptive intercepting mechanism aiming at the fast flowing sewage, the water flow vortex can automatically counteract the residual force of backflow to trap impurities intercepted in the sewage in a certain area for centralized treatment, and compared with the existing intercepting equipment, the self-adaptive intercepting equipment can push and guide the impurities in the sewage to be close to the water flow vortex by utilizing the automatic adaptive change of the fast flowing water flow, so that the blockage is avoided.

(2) According to the invention, by arranging the self-adaptive mixing mechanism, after the internal structure of the self-adaptive intercepting mechanism deforms, the flow direction of water flow is greatly influenced, the water flow force in the flow direction of the water flow is large in the inclined upward direction and the inclined downward direction, two water flow forces exert pressure on the self-adaptive mixing mechanism when passing through the self-adaptive mixing mechanism, activated sludge in the self-adaptive mixing mechanism overflows and obliquely permeates into water in a rapidly flowing water flow layer impacted by each hole, and water in two directions can drop and impact after passing through the self-adaptive mixing mechanism, so that the mixing of the activated sludge and sewage is fully promoted, and the working efficiency is obviously improved.

(3) According to the invention, the arc elastic plate is arranged, when the upper guide plate and the lower guide plate of the sewage well cover are intercepted obliquely by the mud outlet holes, the upper guide plate and the lower guide plate can shake, and the arc elastic plate can shake more intensely, so that the activated sludge is fully promoted to permeate into the sewage.

(4) According to the invention, through arranging the special sewage filtering structure, impurities in sewage are concentrated in vortex water, so that blockage and foreign matter migration are avoided, and meanwhile, the combination efficiency of sewage and activated sludge is enhanced, so that the problems that the common sewage treatment equipment is difficult to concentrate and intercept foreign matter impurities in the sewage aiming at fast flowing sewage, when the water flow is large, the foreign matter, especially light foreign matter is easy to migrate in the backflow of the water flow, and when the sewage flows through the activated sludge, the contact time is short, the contact surface is relatively small, and the sewage treatment speed is influenced are effectively solved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a front view of the adaptive intercept mechanism of the present invention;

FIG. 3 is an enlarged view of the structure of FIG. 2;

FIG. 4 is a front view of the adaptive mixing mechanism of the present invention;

FIG. 5 is a front view of the rubber door sealing structure of the present invention.

The device comprises a first liquid pool 1, a transmission channel 2, a second liquid pool 3, a self-adaptive intercepting mechanism 4, a frame 41, a self-adaptive rubber bag 42, an elastic stretching film 43, an arc vortex generating bag 44, an upper discharge port 45, a lower discharge port 46, a self-adaptive dredging mechanism 47, a limiting spring 471, a movable rolling rod 472, a spiral push rod 473, a limiting rolling ball 474, a vibration spring 48, a pressure relief blow-off pipe 49, a steel ball 410 dragging, a vortex baffle 411, a self-adaptive mixing mechanism 5, a hinged shaft 51, an upper guide plate 52, a lower guide plate 53, an arc elastic plate 54, a spring 55 pushing cavity 56, activated sludge 57, a sludge outlet 58, a rubber sealing door 59, a latch 510, a bag 511 net, a liquid outlet 6, a first lifting gate 7, a second lifting gate 8, a second lifting gate 9 and an overflow baffle 10.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1-5, an embodiment of the present invention provides a high-flow-rate-based sewage treatment apparatus, which includes a first liquid tank 1 for storing untreated sewage, a transmission channel 2 for conveying water from the first liquid tank 1 to a next stage, a second liquid tank 3 for subsequently treating sewage, an adaptive interception mechanism 4 for pretreating high-flow-rate sewage, and an adaptive mixing mechanism 5 for adding a reactant to sewage, wherein the transmission channel 2 is located between the first liquid tank 1 and the second liquid tank 3, the adaptive interception mechanism 4 and the adaptive mixing mechanism 5 are both disposed in the transmission channel 2, a liquid outlet 6 is disposed on a surface of the first liquid tank 1, a first lift gate 7 is disposed inside the liquid outlet 6, a liquid inlet 8 is disposed on a surface of the second liquid tank 3, a second lift gate 9 is disposed inside the liquid inlet 8, and an overflow baffle 10 is fixedly connected to a surface of the transmission channel 2, the surface of the overflow baffle 10 is fixedly connected with the surface of the second liquid pool 3.

The self-adaptive intercepting mechanism 4 comprises a frame body 41, a self-adaptive rubber bag 42, two elastic stretching films 43, an arc vortex generating bag 44, a plurality of upper discharge ports 45, a plurality of lower discharge ports 46, a self-adaptive dredging mechanism 47 and an intercepting trembler 48, wherein the inner wall of the frame body 41 is fixedly connected with the self-adaptive rubber bag 42, the left side and the right side of the self-adaptive rubber bag 42 are respectively and fixedly connected with one elastic stretching film 43, the material of the elastic stretching films 43 comprises rubber, the extensibility of the elastic stretching films 43 is larger than that of the self-adaptive rubber bag 42, one side of each elastic stretching film 43, which is far away from the self-adaptive rubber bag 42, is respectively and fixedly connected with one arc vortex generating bag 44, the surface of the arc vortex generating bag 44 is fixedly connected with the inner wall of the frame body 41, the plurality of upper discharge ports 45 and the plurality of lower discharge ports 46 are respectively arranged on the self-adaptive rubber bag 42, the upper discharge ports 45, the surface of the arc vortex generating bag 44 is sleeved with a pressure relief drain pipe 49, the self-adaptive dredging mechanism 47 comprises two limiting springs 471, a movable rolling rod 472, two limiting rolling balls 474 and two spiral push rods 473, the limiting rolling balls 474 correspond to the limiting springs 471 one by one, the limiting springs 471 are fixedly connected on the surface of the self-adaptive rubber bag 42, the two limiting rolling balls 474 are respectively and fixedly connected at two ends of the movable rolling rod 472, the two limiting rolling balls 474 are respectively embedded in different limiting springs 471, the diameter of the limiting rolling balls 474 is larger than the inner diameter of the limiting springs 471, the surface of the limiting rolling balls 474 is in sliding connection with the inner wall of the limiting springs 471, the surface of the movable rolling rod 472 is in sliding connection with the inner wall of the limiting springs 471, the two spiral push rods 473 are both fixedly connected on the surface of the movable rolling rod 472, the spiral directions of the two spiral push rods are opposite, the self-adaptive dredging mechanism 47 is, the number of the intercepting shaking springs 48 is several, several intercepting shaking springs 48 are fixedly connected to the inner wall of the adaptive rubber bag 42, several dragging steel balls 410 are fixedly connected to the surface of the spiral push rod 473, and the surface of the dragging steel balls 410 is movably connected to the inner wall of the intercepting shaking springs 48.

Vortex baffles 411 are fixedly connected to both sides of the frame body 41, one ends of the two vortex baffles 411, which are far away from the frame body 41, are fixedly connected with the inner wall of the transmission channel 2, the surfaces of the vortex baffles 411 are inclined, the two vortex baffles 411 respectively correspond to two different arc-shaped vortex generating bags 44, the surfaces of the arc-shaped vortex generating bags 44 are movably connected with the surfaces of the vortex baffles 411, the adaptive mixing mechanism 5 comprises a hinge shaft 51, an upper guide plate 52, a lower guide plate 53 and an arc-shaped elastic plate 54, the upper guide plate 52 and the lower guide plate 53 are both hinged on the hinge shaft 51, the upper guide plate 52 is inclined upwards, the lower guide plate 53 is inclined downwards, both sides of the arc-shaped elastic plate 54 are respectively fixedly connected with the surfaces of the upper guide plate 52 and the lower guide plate 53, the arc-shaped elastic plate 54 is made of rubber, steel bars made of spring steel are embedded in the arc-shaped elastic plate 54, a plurality of push springs 55 are fixedly connected, the other end of the push spring 55 is fixedly connected with the surface of the lower guide plate 53, two ends of the hinge shaft 51 are fixedly connected to the inner wall of the transmission channel 2, the horizontal height of the hinge shaft 51 is the same as the height of the middle position of the adaptive rubber bag 42, the upper guide plate 52, the lower guide plate 53 and the mud cavity 56 are arranged between the arc elastic plates 54, the inner wall of the mud cavity 56 is fixedly connected with a pocket net 511, activated sludge 57 is arranged inside the pocket net 511, the surfaces of the upper guide plate 52 and the lower guide plate 53 are both provided with a plurality of mud outlet holes 58, the upper guide plate 52 and the lower guide plate 53 are fixedly connected with a rubber sealing door 59, the surface of the rubber sealing door 59 is fixedly connected with a buckle 510, and the surface of the rubber sealing door 59 is fixedly connected with the surface of the arc elastic.

When the device is used, the first lifting gate 7 and the second lifting gate 9 are opened, sewage rapidly rushes to the transmission channel 2 from the first liquid pool 1, the sewage flows to the self-adaptive intercepting mechanism 4, impacts the self-adaptive rubber bag 42, the elastic stretching film 43 and the arc-shaped vortex generating bag 44, the middle part of the self-adaptive rubber bag 42 is stressed and deformed, the upper discharge port 45 and the lower discharge port 46 are inclined and changed, the sewage is discharged through the upper discharge port 45 and the lower discharge port 46, the elastic stretching film 43 is impacted and stretched by the sewage, the elastic stretching film 43 is expanded to enable the arc-shaped vortex generating bag 44 to be close to the vortex baffle 411 to avoid being directly impacted by the water flow, vortexes generated by water flow backflow at the two arc-shaped vortex generating bags 44 are formed under the combined action of the water flow of the backflow vortex oil and the water flow impacted by the straight surface, and impurities intercepted by the deformed self-adaptive rubber bag 42 are concentrated at the middle sunken part of the self-adaptive, at this time, the limiting spring 471 is also bent and deformed, the movable rolling rod 472 rotates along with the recess of the adaptive rubber bag 42, the spiral push rod 473 drives the movable rolling rod 472 to rotate, meanwhile, the movable rolling rod 472 guides intercepted impurities to a vortex formed at the arc-shaped vortex generating bag 44, the impurities are concentrated on vortex force, the deformation of the adaptive rubber bag 42 enables the intercepting trembler 48 to elastically recover, the intercepting trembler 48 becomes thick and increases the force for intercepting the impurities, the burden of the adaptive rubber bag 42 is reduced, meanwhile, the intercepting trembler 48 bends under the impact of water flow and leans against the spiral push rod 473, the dragging steel ball 410 contacting the intercepting trembler 48 pulls and drags the intercepting trembler 48, the intercepting trembler 48 is pulled and torn, the intercepted impurities on the intercepting trembler 48 flow away and are guided to enter the vortexes at two sides, and the dragging steel ball 410 is separated from the intercepting trembler 48, and then the intercepting trembler, thus, under the condition that the water flow impacts and the steel balls 410 are dragged in an inclined mode, the intercepting shaking springs 48 stir in water to increase the contact surface with water, so as to intercept dirt with the area as large as possible, the burden of the adaptive rubber bag 42 is reduced, the water flow force in the inclined upward direction and the inclined downward direction is enhanced when the water flow flows out through the upper discharge port 45 and the lower discharge port 46, the upper guide plate 52 and the lower guide plate 53 are squeezed when the water flow passes through the adaptive mixing mechanism 5, sludge in the sludge cavity 56 overflows through the sludge outlet 58, activated sludge is taken away by the water flow impacting the sludge outlet 58, the shaking amplitude of the upper guide plate 52 and the lower guide plate 53 is enhanced by the arc-shaped elastic plate 54, so that the activated sludge is mixed with the sewage, after the sewage and the activated sludge mixture passes through the upper guide plate 52 and the lower guide plate 53, the two sewage impacts together to fully promote the mixing of the sewage and the activated sludge, and the, thereby completing the use process of the whole sewage treatment equipment based on high flow rate.

Claims (7)

1. The utility model provides a sewage treatment device based on high velocity of flow which characterized in that: comprises a first liquid pool (1) for storing untreated sewage, a transmission channel (2) for conveying the water in the first liquid pool (1) to the next stage, a second liquid pool (3) for post-treating the sewage, a self-adaptive interception mechanism (4) for pre-treating the high-flow-rate sewage and a self-adaptive mixing mechanism (5) for adding reactants into the sewage, wherein the transmission channel (2) is positioned between the first liquid pool (1) and the second liquid pool (3), the self-adaptive interception mechanism (4) and the self-adaptive mixing mechanism (5) are both arranged in the transmission channel (2), a liquid outlet (6) is formed in the surface of the first liquid pool (1), a first lifting gate (7) is arranged in the liquid outlet (6), a liquid inlet (8) is formed in the surface of the second liquid pool (3), a second lifting gate (9) is arranged in the liquid inlet (8), the surface of the transmission channel (2) is fixedly connected with an overflow baffle (10), and the surface of the overflow baffle (10) is fixedly connected with the surface of the second liquid pool (3).

2. The high flow rate based sewage treatment apparatus according to claim 1, wherein: the self-adaptive intercepting mechanism (4) comprises a frame body (41), a self-adaptive rubber bag (42), two elastic stretching films (43), an arc vortex generating bag (44), a plurality of upper discharge openings (45), a plurality of lower discharge openings (46), a self-adaptive dredging mechanism (47) and an intercepting tremble spring (48), wherein the inner wall of the frame body (41) is fixedly connected with the self-adaptive rubber bag (42), the left side and the right side of the self-adaptive rubber bag (42) are respectively and fixedly connected with one elastic stretching film (43), the material of the elastic stretching films (43) comprises rubber, the extensibility of the elastic stretching films (43) is larger than the extensibility of the self-adaptive rubber bag (42), one side of each elastic stretching film (43) far away from the self-adaptive rubber bag (42) is respectively and fixedly connected with one arc vortex generating bag (44), the surface of the arc vortex generating bag (44) is fixedly connected with the inner wall of the frame body (41), a plurality of go up calandria (45) and a plurality of lower calandria (46) all set up on self-adaptation rubber bag (42), go up calandria (45) and lower calandria (46) symmetric distribution, pressure release blow off pipe (49) has been cup jointed on the surface of arc vortex generation bag (44).

3. The high flow rate based sewage treatment apparatus according to claim 2, wherein: the self-adaptive dredging mechanism (47) comprises two limiting springs (471), a movable rolling rod (472), two limiting rolling balls (474) which are in one-to-one correspondence with the limiting springs (471) and two spiral push rods (473), the limiting springs (471) are fixedly connected to the surface of the self-adaptive rubber bag (42), the two limiting rolling balls (474) are respectively and fixedly connected to two ends of the movable rolling rod (472), the two limiting rolling balls (474) are respectively embedded in different limiting springs (471), the diameter of each limiting rolling ball (474) is larger than the inner diameter of each limiting spring (473), the surface of each limiting rolling ball (474) is in sliding connection with the inner wall of each limiting spring (471), the surface of the movable rolling rod (472) is in sliding connection with the inner wall of each limiting spring (471), and the two spiral push rods (472) are both fixedly connected to the surface of the movable rolling rod (472), the spiral directions of the two spiral push rods (473) are opposite, and the self-adaptive dredging mechanism (47) is positioned between the upper discharge port (45) and the lower discharge port (46).

4. The high flow rate based sewage treatment apparatus according to claim 3, wherein: the number of intercepting trembler spring (48) is a plurality of, a plurality of intercepting trembler spring (48) fixed connection is on the inner wall of self-adaptation rubber bag (42), the surperficial fixed connection a plurality of screw rod (473) drags steel ball (410), the surface that drags steel ball (410) and the inner wall swing joint of intercepting trembler spring (48).

5. The high flow rate based sewage treatment apparatus according to claim 4, wherein: the equal fixedly connected with vortex baffle (411) in both sides of framework (41), two the one end that framework (41) were kept away from in vortex baffle (411) and the inner wall fixed connection of transmission channel (2), the surface of vortex baffle (411) is the slope form, two vortex baffle (411) correspond two different arc whirlpools respectively and generate bag (44), the surface swing joint of the surface of arc whirlpools generation bag (44) and vortex baffle (411).

6. The high flow rate based sewage treatment apparatus according to claim 5, wherein: the self-adaptive mixing mechanism (5) comprises a hinge shaft (51), an upper guide plate (52), a lower guide plate (53) and an arc-shaped elastic plate (54), the upper guide plate (52) and the lower guide plate (53) are both hinged on the hinge shaft (51), the upper guide plate (52) is in an upwards inclined shape, the lower guide plate (53) is in a downwards inclined shape, two sides of the arc-shaped elastic plate (54) are respectively fixedly connected with the surface of the upper guide plate (52) and the surface of the lower guide plate (53), the arc-shaped elastic plate (54) is made of rubber, steel bars made of spring steel are embedded in the arc-shaped elastic plate (54), a plurality of push springs (55) are fixedly connected to the lower surface of the upper guide plate (52), the other ends of the push springs (55) are fixedly connected with the surface of the lower guide plate (53), two ends of the hinge shaft (51) are fixedly connected to the inner wall of the transmission channel (2), the horizontal height of the hinged shaft (51) is the same as the height of the middle position of the self-adaptive rubber bag (42), a mud cavity (56) is arranged among the upper guide plate (52), the lower guide plate (53) and the arc elastic plate (54), the inner wall of the mud cavity (56) is fixedly connected with a pocket net (511), activated sludge (57) is arranged inside the pocket net (511), and a plurality of mud outlet holes (58) are formed in the surfaces of the upper guide plate (52) and the lower guide plate (53).

7. The high flow rate based sewage treatment apparatus according to claim 6, wherein: the rubber sealing door is characterized in that a rubber sealing door (59) is fixedly connected between the upper guide plate (52) and the lower guide plate (53), a buckle lock (510) is fixedly connected to the surface of the rubber sealing door (59), and the surface of the rubber sealing door (59) is fixedly connected with the surface of the arc-shaped elastic plate (54) through the buckle lock (510).

Images