CN214422475U - Lateral flow type mixed reaction module - Google Patents

Abstract

The utility model discloses a side flow type mixing reaction module, which comprises a mixing reaction tank, wherein the interior of the mixing reaction tank comprises a mixing cavity, a first flocculation cavity and a second flocculation cavity which are communicated in sequence, two-section flocculation is adopted, and the flocculating agent is added in the mixing reaction stage, so that the high-activity sludge concentration of an aeration tank is stably maintained, according to the arrangement of the existing sewage treatment production line in different factories, under the arrangement of an installation gap, a slide rail, an adjusting plate, a limit gap, an ear plate, a positioning through hole and a positioning bolt, the mixing reaction tank is not required to be specially customized according to the space difference of different factories, the height of the mixing reaction tank is adjustable, the mixing reaction tank can be adapted to the pipeline position in the rear section of the aerobic tank of the existing production line, the existing structures are utilized as far as possible, the secondary utilization rate of the existing structures is improved, the construction period of upgrading and reconstruction of a sewage plant station is greatly shortened, the flocculating agent adding device can realize quick matching with the mixing reaction tank, further shortening the construction period.

Description

Lateral flow type mixed reaction module

Technical Field

The utility model relates to a sewage treatment device technical field especially relates to a lateral flow type mixed reaction module.

Background

The high-concentration activated sludge process has great microbial number, special flora and high degradation efficiency in the biochemical reactor under the conditions of high activated sludge concentration and low dissolved oxygen, and can degrade pollutants efficiently.

However, in the process of treating sewage by the existing high-concentration activated sludge method, the concentration of activated sludge is increased along with the sewage treatment, the sludge settling property is reduced, the sludge-water separation in a sedimentation tank is influenced, and the sewage treatment effect is greatly reduced;

and the sewage treatment industry has already met the fourth bid improvement, in order to meet the higher and higher sewage treatment requirement, newly build a sewage treatment plant station, and upgrade and reform existing sewage treatment plant stations, the treatment requirement of high emission standard is imperative, but the problem that the existing equipment can upgrade the space and is small, the adaptability to cope with the bid improvement is poor and the existing structure secondary utilization rate is low exists.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a mixed reaction module of lateral flow formula to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a lateral flow type mixing reaction module comprises a mixing reaction tank, wherein the inside of the mixing reaction tank comprises a mixing cavity, a first flocculation cavity and a second flocculation cavity which are sequentially communicated, a first stirring device is arranged in the mixing cavity, a second stirring device is arranged in the first flocculation cavity, a third stirring device is arranged in the second flocculation cavity, the first stirring device, the second stirring device and the third stirring device are sequentially connected in a transmission manner, a driving unit for driving the first stirring device to operate is further arranged on the mixing reaction tank, the linear speed of the first stirring device, the second stirring device and the third stirring device during operation is sequentially reduced, a reaction tank water inlet pipe and a reaction tank water outlet pipe are further arranged on the mixing reaction tank, the two ends of the reaction tank water inlet pipe are respectively communicated with an aerobic tank rear section and the mixing cavity in a sewage treatment production line, the two ends of the reaction tank water outlet pipe are respectively communicated with the second flocculation cavity and the aerobic tank rear section in the sewage treatment production line, and a plurality of flocculation reaction agent feeding devices are also arranged on the outer side of the mixing reaction tank.

The mixed reaction tank top is provided with the pavement, and the pavement both sides are provided with the railing, still are provided with the steel ladder that matches with the pavement outside the mixed reaction tank.

And the side walls of the mixing chamber, the first flocculation chamber and the second flocculation chamber are all provided with observation windows.

The flocculation reaction agent feeding device comprises a medicine dissolving tank and a plurality of dosing metering pumps which are in one-to-one correspondence with the medicine dissolving tank, a medicine inlet pipe and a medicine dissolving tank water inlet pipe are communicated with the top of the medicine dissolving tank, the bottom of the medicine dissolving tank is communicated with the inlet of the dosing metering pump through a medicine outlet pipe, the outlet of the dosing metering pump is connected with a medicine feeding pipe, and the tail end of the medicine feeding pipe extends into the mixing reaction tank.

The inside of the medicine dissolving tank is rotatably connected with a fourth stirring shaft, the fourth stirring shaft is provided with a plurality of fourth paddle boards, and the medicine dissolving tank is also provided with a second motor for driving the fourth stirring shaft to rotate.

The lateral wall of mixing reaction tank leads to and has the installation breach and be provided with the slide rail, and sliding connection has the regulating plate in the slide rail, and the regulating plate top is provided with throws the spacing breach that throws feeder apparatus and match with flocculation reaction agent.

The mixed reaction tank comprises a tank body and a middle partition plate, two middle partition plates are inserted in the tank body and divide the tank body into a mixing cavity, a first flocculation cavity and a second flocculation cavity, and the top surface of the inserted middle partition plates is lower than a reaction tank water outlet pipe.

The top of the mixing reaction tank is provided with a transmission bracket, the driving unit comprises a first motor, the first stirring device comprises a first stirring shaft and a plurality of first paddle boards arranged on the first stirring shaft, the first stirring shaft is rotationally connected on the transmission bracket and is provided with a first belt pulley, the second stirring device comprises a second stirring shaft and a plurality of second paddle boards arranged on the second stirring shaft, the second stirring shaft is rotationally connected on the transmission bracket and is provided with two second belt pulleys, the third stirring device comprises a third stirring shaft and a plurality of third paddle boards arranged on the third stirring shaft, the third stirring shaft is rotationally connected on the transmission bracket and is provided with a third belt pulley, the first belt pulley is in transmission connection with one of the second belt pulleys through a first belt, the other second belt pulley is in transmission connection with the third belt pulley through a second belt, the diameters of the first belt pulley, the second belt pulley and the third belt pulley are sequentially increased, and a first motor for driving the first stirring shaft to rotate is arranged on the transmission support.

The mixed reaction tank outside is provided with the reaction tank support, and the reaction tank support is door style of calligraphy, and one of them opposite flank of reaction tank support all is provided with a plurality of support components of vertically arranging, and support component includes two otic placodes, and it has square positioning hole to lead to on the otic placode, and the support component interpolation is equipped with the pilot pin that matches with positioning hole, and the mixed reaction tank setting just provides the support by the pilot pin at reaction tank support inboard.

The utility model has the advantages that:

1. the inside mixing chamber that communicates in proper order of mixed reaction tank, first flocculation chamber and second flocculation chamber, adopt two segmentation flocculation, based on the current technology of sewage treatment plant station, through addding the coagulation reaction pond, introduce the mixed liquid from good oxygen pond back end, after the coagulation reaction pond is handled, the good oxygen pond back end of reinforceing again, through throwing of mixed reaction stage flocculation medicament, can improve activated sludge's settlement performance in the aeration tank, thereby stably maintain the high activated sludge concentration of aeration tank, and then make sewage treatment station existing equipment and newly-increased mixed reaction module constitute new sewage treatment process flow jointly, the high concentration activated sludge process of lateral flow formula promptly.

2. The pool body structure adopts a prefabricated steel/stainless steel/reinforced concrete structure, production and processing are carried out outside a factory, combination and assembly are carried out inside the factory, when the pool body structure is assembled, special customization is not needed to be carried out on a mixed reaction tank according to the arrangement of the existing sewage treatment production lines of different factory areas under the arrangement of installation notches, slide rails, adjusting plates, limiting notches, lug plates, positioning through holes and positioning bolts, the height of the mixed reaction tank is adjustable, the pool body structure can be adapted to the pipeline position of the rear section of an aerobic tank of the existing production line, the existing structure is utilized as far as possible, the secondary utilization rate of the existing structure is improved, the construction period of upgrading and reconstruction of the sewage factory stations is greatly shortened, and meanwhile 'production stop-free and water interruption' construction of upgrading and reconstruction can be easily realized; meanwhile, the flocculation reactant feeding device can realize quick matching with the mixed reaction tank, and the construction period is further shortened.

3. The transmission connection of the stirring shafts in the belt transmission time is adopted, the requirements on manufacturing and mounting precision are not high, and the device has the advantages of low manufacturing cost, simple structure, simplicity in manufacturing, low cost and the like, and is suitable for the transformation of the existing sewage treatment production line.

4. The linear speeds of the edges of the paddle boards of the first stirring device, the second stirring device and the third stirring device are sequentially reduced, and the stirring devices in the mixing cavity are set to have relatively high rotating speeds, so that the added flocculating agent and the mixed liquid can be quickly and uniformly mixed to perform flocculation reaction; the rotating speed of the stirring devices in the first flocculation cavity and the second flocculation cavity is reduced in sequence so as to prevent the formed flocculation state from being damaged in the reaction process.

5. The walkways are arranged above the mixed reaction tank, handrails are arranged on two sides of the walkways, a steel ladder matched with the walkways is further arranged on the outer side of the mixed reaction tank, and the walkways can be erected at the top of a support of the door-shaped reaction tank, so that operators can conveniently overhaul and maintain the equipment.

6. All be provided with the observation window on hybrid chamber, first flocculation chamber and the second flocculation chamber lateral wall, the operating personnel of can being convenient for monitors the inside situation of hybrid reaction pond.

Drawings

Fig. 1 is a schematic top view of the present invention;

FIG. 2 is a schematic sectional view of the present invention;

FIG. 3 is a schematic sectional view of the mixing reaction tank of the present invention;

FIG. 4 is a front view of the mixing reaction tank of the present invention;

FIG. 5 is a schematic view of a partial structure of a reaction tank support according to the present invention;

FIG. 6 is a flow chart of a side-flow type high-concentration activated sludge sewage treatment process.

In the figure, 1, a mixed reaction tank; 11. a mixing chamber; 12. a first flocculation chamber; 13. a second flocculation chamber; 14. installing a notch; 15. a slide rail; 16. an adjusting plate; 161. a limiting notch; 17. a middle partition plate; 18. a first stirring shaft; 19. a first paddle board; 20. a transmission bracket; 21. a first pulley; 22. a first motor; 23. a first belt; 24. a second stirring shaft; 25. a second paddle board; 26. a third stirring shaft; 27. a third paddle board; 28. a second pulley; 29. a third belt pulley; 30. a second belt;

2. a water outlet pipe of the reaction tank; 3. a water inlet pipe of the reaction tank;

4. a medicine dissolving tank; 41. a medicine inlet pipe; 42. a water inlet pipe of the medicine dissolving tank; 43. a second motor; 44. a fourth stirring shaft; 45. a fourth paddle board; 46. a medicine outlet pipe; 47. a medicine feeding pipe;

5. dosing a metering pump;

6. a reaction tank support; 61. an ear plate; 611. positioning the through hole;

7. an observation window; 8. positioning bolts; 9. a walkway; 10. a steel ladder.

Detailed Description

The technical solution of the present invention is described in further detail below with reference to the accompanying drawings, but the scope of the present invention is not limited to the following description.

Referring to fig. 1 to 6, an embodiment of the present invention provides a lateral flow type mixing reaction module, including a mixing reaction tank 1, a reaction tank support 6 is disposed outside the mixing reaction tank 1, the reaction tank support 6 is in a shape of a door, referring to fig. 5, a plurality of support assemblies longitudinally arranged are disposed on one of opposite sides of the reaction tank support 6, each support assembly includes two ear plates 61, each ear plate 61 is provided with a square positioning through hole 611, a positioning bolt 8 matched with the positioning through hole 611 is inserted in each support assembly, the mixing reaction tank 1 is disposed inside the reaction tank support 6 and supported by the positioning bolt 8, referring to fig. 3, the mixing reaction tank 1 includes a tank body and a middle partition plate 17, two middle partition plates 17 are inserted in the tank body, the two middle partition plates 17 separate the tank body into a tank mixing cavity 11, a first flocculation cavity 12 and a second flocculation cavity 13, a top surface of the middle partition plate 17 after insertion is lower than a reaction tank outlet pipe 2, the cell body structure adopts prefabricated steel/stainless steel/reinforced concrete structure, the factory carries out production and processing outward, the factory is interior to make up and assemble, when assembling, according to the current sewage treatment of different factories area produce the line arrange, make the locating bolt 8 insert in the supporting component of corresponding height, place the cell body after in the front two locating bolts 8 can, and then need not to carry out special customization to mixing reaction tank 1 according to different factory area spatial difference, and simultaneously, mixing reaction tank 1's height-adjustable, and then reaction tank outlet pipe 2 and reaction tank inlet tube 3's height-adjustable, with the current good oxygen pipeline position of producing the line pond back end of adaptation, utilize current structures as far as possible, improve current structures reutilization ratio, greatly shorten the construction cycle of upgrading transformation in sewage plant station, can easily realize upgrading transformation 'does not stop production, not break water' construction simultaneously.

The mixed reaction tank 1 comprises a mixing chamber 11, a first flocculation chamber 12 and a second flocculation chamber 13 which are sequentially communicated, two-stage flocculation is adopted, a reaction tank water inlet pipe 3 and a reaction tank water outlet pipe 2 are further arranged on the mixed reaction tank 1, referring to figure 6, two ends of the reaction tank water inlet pipe 3 are respectively communicated with an aerobic tank back section and the mixing chamber 11 in a sewage treatment production line, two ends of the reaction tank water outlet pipe 2 are respectively communicated with the second flocculation chamber 13 and the aerobic tank back section in the sewage treatment production line, based on the existing process of a sewage treatment plant station, a mixed liquid is introduced from the aerobic tank back section by additionally arranging the coagulation reaction tank 1, the mixed liquid is conveyed back to the aerobic tank back section after being treated by the coagulation reaction tank 1, the sedimentation performance of active sludge in an aeration tank can be improved by adding flocculating agents in a mixed reaction stage, so that the concentration of the high-activity sludge in the aeration tank is stably maintained, and further, the original equipment of the sewage treatment station and a newly added mixed reaction module jointly form a new sewage treatment process flow, namely a lateral flow high-concentration activated sludge process.

Be provided with first agitating unit in the hybrid chamber 11, be provided with second agitating unit in the first flocculation chamber 12, be provided with third agitating unit in the second flocculation chamber 13, first agitating unit, second agitating unit and third agitating unit transmission in proper order connect, still be provided with the drive unit of the operation of the first agitating unit of drive on the mixed reaction pond 1, 1 top of mixed reaction pond is provided with transmission support 20, transmission support 20 also can off-site customization, adopt the riveting or welded mode to install at the cell body top after transporting to the factory with the cell body together.

The driving unit adopts a first motor 22, the first motor 22 is fixedly arranged on a transmission bracket 20, the first stirring device comprises a first stirring shaft 18 and a plurality of first paddles 19 arranged on the first stirring shaft 18, the first stirring shaft 18 is rotationally connected on the transmission bracket 20 and is provided with a first belt pulley 21, the second stirring device comprises a second stirring shaft 24 and a plurality of second paddles 25 arranged on the second stirring shaft 24, the second stirring shaft 24 is rotationally connected on the transmission bracket 20 and is provided with two second belt pulleys 28, the third stirring device comprises a third stirring shaft 26 and a plurality of third paddles 27 arranged on the third stirring shaft 26, the third stirring shaft 26 is rotationally connected on the transmission bracket 20 and is provided with a third belt pulley 29, the first belt pulley 21 is in transmission connection with one second belt pulley 28 through a first belt 23, the other second belt pulley 28 is in transmission connection with the third belt pulley 29 through a second belt 30, the transmission connection of the stirring shafts in the belt transmission time is adopted, the requirements on manufacturing and mounting precision are not high, and the device has the advantages of low manufacturing cost, simple structure, simplicity in manufacturing, low cost and the like, and is suitable for the transformation of the existing sewage treatment production line.

The diameters of the first belt pulley 21, the second belt pulley 28 and the third belt pulley 29 are sequentially increased, and then when the first motor 22 drives each stirring shaft to rotate, the linear speeds of the paddle edges of the first stirring device, the second stirring device and the third stirring device are sequentially reduced:

a) the linear speed of the edge of the paddle plate in the mixing cavity 11 is controlled to be 5m/s, and the speed gradient is controlled to be 600s^-1~1000s^-1Simultaneously, the mixed solution is mixed by controlling the flow rate of the mixed solution, the height of the middle partition plate 17 and the volume of the mixing cavity 11The residence time of the mixed solution in the mixing tank is controlled to be 10 s-5 min;

b) the linear speed of the edge of the paddle plate in the first flocculation cavity 12 is controlled to be 0.5m/s, and the speed gradient is controlled to be 30s^-1~60s^-1Meanwhile, the residence time of the mixed solution in the mixing tank is controlled to be 5-10 min by controlling the flow rate of the mixed solution, the height of the middle partition plate 17 and the volume of the mixing cavity 11;

c) the linear velocity of the edge of the paddle plate in the second flocculation cavity 13 is controlled to be 0.2m/s, and the velocity gradient is controlled to be 30s^-1~60s^-1Meanwhile, the residence time of the mixed solution in the mixing tank is controlled to be 5-10 min by controlling the flow rate of the mixed solution, the height of the middle partition plate 17 and the volume of the mixing cavity 11.

A stirring device in the mixing cavity 11 is set to have a relatively high rotating speed, so that the added flocculating agent and the mixed liquid can be quickly and uniformly mixed to perform flocculation reaction; the reason why the rotation speed of the stirring devices in the first flocculation chamber 12 and the second flocculation chamber 13 is sequentially reduced is to prevent the flocculation state formed from being destroyed in the reaction process.

Referring to fig. 1, two flocculation reagent feeding devices are further arranged outside the mixing reaction tank 1.

Referring to fig. 2, a fourth stirring shaft 44 is rotatably connected inside the drug dissolving tank 4, a plurality of fourth paddles 45 are arranged on the fourth stirring shaft 44, a second motor 43 for driving the fourth stirring shaft 44 to rotate is further arranged on the drug dissolving tank 4, and the flocculation reagent can be premixed by the fourth stirring shaft 44.

The flocculation reactant feeding device comprises a medicine dissolving tank 4 and a plurality of dosing metering pumps 5 which are in one-to-one correspondence with the medicine dissolving tank 4, a medicine inlet pipe 41 and a medicine dissolving tank water inlet pipe 42 are communicated with the top of the medicine dissolving tank 4, the bottom of the medicine dissolving tank 4 is communicated with an inlet of the dosing metering pumps 5 through a medicine outlet pipe 46, an outlet of the dosing metering pumps 5 is connected with a medicine feeding pipe 47, the tail ends of the medicine feeding pipes 47 extend into a mixing reaction tank 1, and the flocculation reactant can be quantitatively fed into the mixing reaction tank 1 through the setting of the dosing metering pumps 5.

Referring to fig. 4, the side wall of the mixed reaction tank 1 is provided with an installation notch 14 and is provided with a slide rail 15, the slide rail 15 is connected with an adjusting plate 16 in a sliding manner, the top of the adjusting plate 16 is provided with a limit notch 161 matched with the flocculation reaction agent adding device, when the mixed reaction tank 1 is additionally installed, the medicine adding pipe 47 extends into the mixed reaction tank 1 from the installation notch 14, at the moment, the adjusting plate 16 slides upwards, the adjusting plate 16 is welded on the side wall of the tank body 1 to support the tail end of the medicine adding pipe 47 after the limit notch 161 is attached to the tail end of the medicine adding pipe 47, the flocculation reaction agent adding device can be rapidly matched with the mixed reaction tank 1, and the construction period of sewage plant upgrading reformation can be further shortened.

Mix 1 top in reaction tank and be provided with pavement 9, pavement 9 both sides are provided with the railing, mix 1 outside in reaction tank and still be provided with the steel ladder 10 that matches with pavement 9, and pavement 9 can erect at 6 tops of door style of calligraphy reaction tank support, and the operating personnel of being convenient for overhauls and maintains equipment.

All be provided with observation window 7 on mixing chamber 11, first flocculation chamber 12 and the 13 lateral walls of second flocculation chamber, can be convenient for operating personnel to monitor the inside situation of mixed reaction tank 1.

The foregoing is illustrative of the preferred embodiments of the present invention, and it is to be understood that the invention is not limited to the precise forms disclosed herein, and that various other combinations, modifications, and environments may be resorted to, falling within the scope of the invention as defined by the appended claims. But that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention, which is to be limited only by the claims appended hereto.

Claims (9)

1. A lateral flow mixing reaction module, comprising a mixing reaction cell (1), characterized in that: the device comprises a mixing reaction tank (1), a first flocculation cavity (11), a first flocculation cavity (12) and a second flocculation cavity (13) which are sequentially communicated, wherein a first stirring device is arranged in the mixing cavity (11), a second stirring device is arranged in the first flocculation cavity (12), a third stirring device is arranged in the second flocculation cavity (13), the first stirring device, the second stirring device and the third stirring device are sequentially connected in a transmission manner, a driving unit for driving the first stirring device to operate is further arranged on the mixing reaction tank (1), the linear speeds of the first stirring device, the second stirring device and the third stirring device during operation are sequentially reduced, a reaction tank water inlet pipe (3) and a reaction tank water outlet pipe (2) are further arranged on the mixing reaction tank (1), and two ends of the reaction tank water inlet pipe (3) are respectively communicated with an aerobic tank rear section and the mixing cavity (11) in a sewage treatment production line, the two ends of a water outlet pipe (2) of the reaction tank are respectively communicated with a second flocculation cavity (13) and the rear section of an aerobic tank in a sewage treatment production line, and a plurality of flocculation reaction agent adding devices are further arranged on the outer side of the mixed reaction tank (1).

2. A side-flow mixing reaction module according to claim 1, wherein: a walkway (9) is arranged above the mixed reaction tank (1), handrails are arranged on two sides of the walkway (9), and a steel ladder (10) matched with the walkway (9) is further arranged on the outer side of the mixed reaction tank (1).

3. A side-flow mixing reaction module according to claim 1, wherein: and observation windows (7) are arranged on the side walls of the mixing chamber (11), the first flocculation chamber (12) and the second flocculation chamber (13).

4. A side-flow mixing reaction module according to claim 1, wherein: flocculation reaction agent throws feeder apparatus including dissolving medicine jar (4) and with a plurality of dosing measuring pumps (5) of dissolving medicine jar (4) one-to-one, dissolve medicine jar (4) top lead to have into pencil (41) and dissolve medicine jar inlet tube (42), dissolve medicine jar (4) bottom through going out pencil (46) and the import intercommunication that adds medicine measuring pump (5), the exit linkage who adds medicine measuring pump (5) has dosing pipe (47), it stretches into in mixing reaction tank (1) to add pencil (47) end.

5. A side-flow mixing reaction module according to claim 4, wherein: the inside of the medicine dissolving tank (4) is rotatably connected with a fourth stirring shaft (44), a plurality of fourth paddle boards (45) are arranged on the fourth stirring shaft (44), and a second motor (43) for driving the fourth stirring shaft (44) to rotate is further arranged on the medicine dissolving tank (4).

6. A side-flow mixing reaction module according to claim 1, wherein: the side wall of the mixed reaction tank (1) is communicated with an installation notch (14) and is provided with a slide rail (15), the slide rail (15) is internally and slidably connected with an adjusting plate (16), and the top of the adjusting plate (16) is provided with a limit notch (161) matched with the flocculation reaction agent feeding device.

7. A side-flow mixing reaction module according to claim 1, wherein: the mixed reaction tank (1) comprises a tank body and a middle partition plate (17), wherein the two middle partition plates (17) are inserted in the tank body, the tank body is divided into a mixing cavity (11), a first flocculation cavity (12) and a second flocculation cavity (13) by the two middle partition plates (17), and the top surface of the middle partition plate (17) is lower than a reaction tank water outlet pipe (2) after the mixed reaction tank is inserted.

8. A side-flow mixing reaction module according to claim 1, wherein: the top of the mixing reaction tank (1) is provided with a transmission bracket (20), the driving unit comprises a first motor (22), the first stirring device comprises a first stirring shaft (18) and a plurality of first paddles (19) arranged on the first stirring shaft (18), the first stirring shaft (18) is rotationally connected to the transmission bracket (20) and is provided with a first belt pulley (21), the second stirring device comprises a second stirring shaft (24) and a plurality of second paddles (25) arranged on the second stirring shaft (24), the second stirring shaft (24) is rotationally connected to the transmission bracket (20) and is provided with two second belt pulleys (28), the third stirring device comprises a third stirring shaft (26) and a plurality of third paddles (27) arranged on the third stirring shaft (26), the third stirring shaft (26) is rotationally connected to the transmission bracket (20) and is provided with a third belt pulley (29), the first belt pulley (21) is in transmission connection with one of the second belt pulleys (28) through a first belt (23), the other second belt pulley (28) is in transmission connection with a third belt pulley (29) through a second belt (30), the diameters of the first belt pulley (21), the second belt pulley (28) and the third belt pulley (29) are sequentially increased, and a first motor (22) for driving the first stirring shaft (18) to rotate is arranged on the transmission support (20).

9. A side-flow mixing reaction module according to claim 1, wherein: mix reaction tank (1) outside and be provided with reaction tank support (6), reaction tank support (6) are door style of calligraphy, one of them opposite flank of reaction tank support (6) all is provided with a plurality of supporting components who vertically arranges, supporting components includes two otic placodes (61), it has square locating hole (611) to lead to on otic placode (61), the supporting components interpolation is equipped with and is matched with locating hole (611) stop cock (8), mix reaction tank (1) setting and just provide the support by stop cock (8) in reaction tank support (6) inboard.

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