CN117819684A - Sewage treatment equipment for water reducing agent production - Google Patents

Abstract

The invention discloses sewage treatment equipment for producing a water reducer, which belongs to the technical field of water reducer production and comprises a reaction precipitation tank, wherein a power impeller is arranged above the inner side of the reaction precipitation tank, a power shaft is fixedly connected with the center of the upper surface of the power impeller in a penetrating manner, and a reaction solvent adding structure is arranged at the top of the power shaft. According to the invention, the power impeller and the reaction solvent adding structure can drive the power impeller to rotate through the power of the water reducer sewage discharged into the reaction precipitation tank, medicines such as flocculating agent leaked into the reaction solvent adding structure are thrown out through the centrifugal liquid guide hole, and the power impeller can drive the power shaft to rotate to realize stirring, so that the stirring device does not need extra power, the equipment using cost is low, the medicines such as flocculating agent are more uniformly discharged, the sediments do not need to be stopped for drainage when being discharged, and the medicines such as flocculating agent can be directly discharged at the bottom of the reaction precipitation tank, thereby improving the efficiency of sewage treatment of the water reducer.

Description

Sewage treatment equipment for water reducing agent production

Technical Field

The invention belongs to the technical field of water reducer production, and particularly relates to sewage treatment equipment for water reducer production.

Background

The water reducing agent, also called cement water reducing agent and concrete water reducing agent, is a chemical substance added in concrete or cement paste, and is used for improving the fluidity and plasticity of the concrete, reducing the cement consumption and improving the strength and durability of the concrete.

The sewage produced by the water reducing agent contains a certain amount of suspended matters and particulate matters, and the substances possibly pollute the environment. In order to treat such wastewater, a flocculation precipitation process is generally required.

In the sewage flocculation precipitation process of water reducer production, the following steps are generally adopted to adjust the pH value: adjusting the pH value according to the characteristics of the sewage to provide a proper flocculation environment; adding a flocculating agent: selecting a proper flocculant according to the characteristics of sewage, uniformly adding the flocculant into the sewage, and fully mixing to enable the flocculant to act with suspended matters; coagulation reaction and flocculation formation: the flocculant reacts chemically or physically with the suspended matter to form larger flocs. The flocculated sewage enters a sedimentation tank or a sedimentation tank and stays for a period of time to promote the floccule to settle. With the action of gravity, floccules gradually settle to the bottom of the tank to form a sludge layer, and clear water is taken out from the upper part.

In the prior art, the sludge flocculated in the water reducing agent production sewage is mostly cleaned by adopting a physical treatment method, mainly the sludge in a sedimentation tank is cleaned by manual or mechanical means, common mechanical equipment comprises an excavator, a sewage suction truck and the like, the best time for cleaning the sludge is to close a water outlet after the sedimentation tank is drained, and then the sludge is cleaned.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide water reducing agent sewage treatment equipment capable of cleaning sediment without stopping.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a sewage treatment device for water-reducing agent production, includes the reaction precipitation jar, the inboard upper position of reaction precipitation jar is provided with power impeller, power impeller upper surface central point puts and runs through fixedly connected with power shaft, power shaft top position is provided with reaction solvent and adds the structure, reaction precipitation jar bottom position is provided with sediment clearance structure.

Through the technical scheme, the reaction precipitation tank can be used for sewage reaction treatment, flocculated sediment is collected, the power impeller is used as a power generation device for stirring and adding flocculant, the power impeller is rotated by utilizing the power generated during sewage addition, the power shaft has the functions of supporting and transmitting the power, the flocculant or other reaction solvents are added into the reaction precipitation tank by the reaction solvent adding structure, and the sediment cleaning structure discharges the collected sediment under the condition of no shutdown.

The reaction solvent adding structure comprises a liquid collecting groove arranged at the center of the upper surface of the power shaft, and a plurality of evenly distributed centrifugal liquid guide holes are formed in the inner wall of the liquid collecting groove and the position of the power impeller in a penetrating manner.

Through the technical scheme, the liquid collecting tank stores flocculating agent or other reaction solvents leaked from the position of the adding pipeline, and when the power impeller rotates, the flocculating agent or other reaction solvents are thrown out through the centrifugal liquid guide hole by centrifugal force, so that the adding of the reaction solvents is realized.

The sediment clearance structure is including a plurality of second through holes that set up in reaction precipitation jar bottom position, a plurality of the second through holes is circumference distribution, a plurality of the second through hole is run through sliding connection and is had the sediment pipe, sediment pipe lateral wall top position runs through and has been seted up a plurality of evenly distributed's row waste hole, reaction precipitation jar position under is provided with the jacking plate, first through hole has been run through to jacking plate surface central point put, a plurality of fixedly connected with connecting block between sediment pipe outer wall and the first through hole, jacking plate upper surface position fixedly connected with a plurality of evenly distributed's jacking spring, a plurality of jacking spring keep away from jacking plate one end and reaction precipitation jar bottom fixed connection.

Through the technical scheme, the second through hole is used for limiting the vertical sliding of the sediment pipe, the sediment pipe is used for guiding the discharged sediment, the sedimentation flocculation sediment in the reaction precipitation tank is discharged into the sediment pipe through the waste discharge hole to be discharged in a concentrated manner, the lifting plate can be used for controlling the lifting or descending of the sediment pipe in a linkage manner, the first through hole can be used for penetrating the sediment pipe through the lifting plate, and the lifting spring can not be lifted under the condition that the lifting plate is not subjected to external force, so that sediment is discharged more stably.

Further, the conical covers are fixedly connected to the top positions of the sediment pipes, the guiding sealing covers are fixedly connected to the bottom positions of the reaction precipitation tanks, and the outer walls of the jacking plates are in sliding connection with the inner walls of the guiding sealing covers.

Through above-mentioned technical scheme, the toper cover makes can not break up the sediment of deposit when sediment pipe rises, and the resistance of water is less when rising, and the direction sealed cowling makes things convenient for sediment collection tank to slide to the reaction precipitation jar position under accurately.

Further, the top position of the reaction precipitation tank is fixedly connected with a top sealing cover through bolts and nuts, the center position of the upper surface of the top sealing cover is fixedly connected with an adding pipeline in a penetrating mode, the top position of the power shaft is fixedly connected with a liquid collecting funnel which is arranged in a conical mode, the adding pipeline is located at the position right above the liquid collecting funnel, and the bottom of the power shaft is rotatably connected with the center position of the inner bottom wall of the reaction precipitation tank.

Through the technical scheme, the peculiar smell of sewage can not be easily emitted by the top sealing cover, and the top sealing cover is convenient to detach through the bolts and the nuts, so that equipment inside the reaction precipitation tank is overhauled and maintained, the adding pipeline is used for adding other reaction raw materials such as flocculating agents, and the liquid collecting funnel conducts the flocculating agents or other reaction raw materials leaked by the adding pipeline, so that the flocculating agents or other reaction raw materials accurately slide into the liquid collecting tank.

Further, the upper position of the outer wall of the reaction precipitation tank is fixedly connected with a purified water discharge pipeline in a penetrating manner, the upper position of the outer wall of the reaction precipitation tank is fixedly connected with a sewage supply pipeline in a penetrating manner, the positions of the outer walls of the sewage supply pipeline and the purified water discharge pipeline are both provided with control ball valves, the water outlet of the sewage supply pipeline is opposite to the position of the power impeller, and the water outlet of the sewage supply pipeline is arranged in a conical manner.

Through the technical scheme, the purified water discharge pipeline can discharge flocculated water, the water enters the next treatment process, the sewage supply pipeline can discharge the water reducer production sewage into the reaction precipitation tank, meanwhile, the water pressure and the flow rate of the discharged water can be increased due to the conical arrangement of the water outlet position of the sewage supply pipeline, the power impeller can obtain rotating power, and the control ball valve at the corresponding position can control whether the sewage adding pipeline supplies water or controls whether the purified water discharge pipeline discharges water.

Further, the center position of the inner bottom wall of the reaction precipitation tank is fixedly connected with an external protection pipe at the outer side of the power shaft, the top position of the external protection pipe is fixedly connected with a sediment diversion bucket which is arranged in a conical shape, the outer wall position of the reaction precipitation tank is fixedly connected with a fixed supporting frame, and the bottom position of the fixed supporting frame is fixedly connected with a jacking sealing mechanism.

Through above-mentioned technical scheme, outside protective tube avoids the power shaft to rotate the time to the sediment cause the influence, sediment water conservancy diversion fill has the effect of leading to sediment deposit simultaneously, avoids stirring leaf to cause the influence to the sediment of the deposit of below position when rotating simultaneously, leads to its deposit not thoroughly, and fixed support frame can support reaction precipitation jar.

Further, the lower surface of the power impeller is fixedly connected with a plurality of stirring blades which are uniformly distributed.

Through the technical scheme, when the power impeller obtains power rotation, the stirring blade is driven to rotate, sewage is stirred through the stirring blade, and the reaction speed is accelerated.

Further, the jacking sealing mechanism comprises a jacking box body connected with the fixed supporting frame, a jacking block penetrates through the central position of the upper surface of the jacking box body and is connected with the jacking block in a sliding mode, a jacking chute is formed in the outer wall of the jacking block, a sediment collection tank is placed in the central position of the upper surface of the jacking block, and the outer wall of the sediment collection tank is connected with the inner wall of the guide sealing cover in a sliding mode.

Through above-mentioned technical scheme, the jacking piece bears the weight of sediment collection tank, and the jacking chute cooperates with the jacking sloping block and can control the lift of jacking piece, and sediment collection tank is collected flocculation sediment.

Further, a driving motor is fixedly connected to one side of the bottom wall in the jacking box body, a guide screw is fixedly connected to the driving end of the driving motor, a jacking sloping block is slidably connected to the jacking chute at the jacking block, and the jacking sloping block is fixedly connected with a screw nut at the guide screw.

Through the technical scheme, the driving motor provides power for the rotation of the guide screw, and the guide screw provides power for the movement of the jacking sloping block in the horizontal direction.

Further, a limiting rod parallel to the guide screw rod is fixedly connected to the inner wall of the jacking box body, and the limiting rod is in penetrating sliding connection with the jacking sloping block.

Through above-mentioned technical scheme, the gag lever post provides spacing effect to the horizontal migration of jacking sloping block, bears the load that the jacking sloping block produced simultaneously, avoids the too big deformation that causes of load that leads to the screw.

The beneficial effects of the invention are as follows: (1) According to the invention, the power impeller and the reaction solvent adding structure can drive the power impeller to rotate through the power of the water reducer sewage discharged into the reaction precipitation tank, so that medicines such as flocculating agent leaked into the reaction solvent adding structure are uniformly thrown out through the centrifugal liquid guide hole, and the power impeller can rotate the stirring blade, so that sewage stirring is realized on the upper part of the reaction precipitation tank, so that no additional power is required for sewage treatment stirring, the equipment use cost is low, and medicines such as flocculating agent are more uniformly discharged; (2) According to the invention, the sediment collection tank is upwards jacked, the jacking plate is extruded, so that the jacking plate drives the sediment pipe to upwards move, sediment deposited at the position below the reaction precipitation tank is discharged into the sediment collection tank through the waste discharge hole at the position above the inner bottom wall of the reaction precipitation tank for centralized storage, when sediment discharge is finished or the sediment collection tank is fully collected, the sediment collection tank is lowered, the jacking plate loses jacking force, the jacking plate drives the sediment pipe to downwards move under the action of the jacking spring, the sediment discharge hole is positioned below the inner bottom wall of the reaction precipitation tank, and the whole process can be completed without stopping, so that the efficiency of water reducing agent production sewage treatment is effectively ensured.

Drawings

FIG. 1 is a schematic perspective view of a sewage treatment device for producing a water reducing agent;

FIG. 2 is a partial plan view of a sewage treatment apparatus for water reducing agent production of the present invention;

FIG. 3 is a cross-sectional view of a wastewater treatment facility for water reducer production of the present invention;

fig. 4 is an enlarged view at a in fig. 3;

FIG. 5 is a plan view at A in FIG. 3;

FIG. 6 is an enlarged view at B in FIG. 3;

FIG. 7 is a cross-sectional view of a lifting sealing mechanism of the sewage treatment device for producing the water reducing agent;

fig. 8 is a top view of a jacking plate of the sewage treatment device for producing the water reducer.

Reference numerals: 1. a top sealing cover; 2. adding a pipeline; 3. a sewage supply pipe; 4. a reaction precipitation tank; 5. fixing the supporting frame; 6. a jacking sealing mechanism; 60. jacking the box body; 61. a sediment collection tank; 62. a jacking block; 63. a jacking chute; 64. a driving motor; 65. jacking the sloping block; 66. a guide screw; 67. a limit rod; 7. a purified water discharge pipe; 8. controlling a ball valve; 9. a liquid collection funnel; 10. stirring the leaves; 11. a power impeller; 12. sediment diversion bucket; 13. an outer protective tube; 14. a guide seal cover; 15. centrifuging the liquid guide hole; 16. a liquid collecting tank; 17. a power shaft; 18. a conical cover; 19. a first through hole; 20. a jacking plate; 21. a connecting block; 22. a sediment pipe; 23. waste discharging holes; 24. a second through hole; 25. and (5) jacking the spring.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

As shown in fig. 1-6 and fig. 8, the sewage treatment device for water reducer production of this embodiment comprises a reaction precipitation tank 4, a power impeller 11 is arranged above the inner side of the reaction precipitation tank 4, a plurality of stirring blades 10 which are uniformly distributed are fixedly connected to the lower surface position of the power impeller 11, when the power impeller 11 obtains power rotation, the stirring blades 10 are driven to rotate, sewage is stirred by the stirring blades 10, the reaction speed is accelerated, the central position of the upper surface of the power impeller 11 penetrates through a power shaft 17 which is fixedly connected to the central position of the power shaft 17, a reaction solvent adding structure is arranged at the top of the power shaft 17, a sediment cleaning structure is arranged at the bottom of the reaction precipitation tank 4, the reaction precipitation tank 4 can be used for sewage reaction treatment and collecting flocculating sediment, the power impeller 11 is used as a power generating device for stirring and flocculating agent adding, the power shaft 17 has the functions of supporting and transmitting power, the reaction solvent adding structure adds flocculating agent or other reaction solvents into the reaction precipitation tank 4, and the sediment cleaning structure discharges the collected sediment under the condition of no stop.

The upper position of the outer wall of the reaction precipitation tank 4 is fixedly connected with a purified water discharge pipeline 7 in a penetrating manner, the upper position of the outer wall of the reaction precipitation tank 4 is fixedly connected with a sewage supply pipeline 3 in a penetrating manner, the positions of the outer walls of the sewage supply pipeline 3 and the purified water discharge pipeline 7 are both provided with control ball valves 8, the water outlet of the sewage supply pipeline 3 is opposite to the position of a power impeller 11, the water outlet position of the sewage supply pipeline 3 is in a conical shape, the purified water discharge pipeline 7 can discharge flocculated water and enters the next treatment process, the sewage supply pipeline 3 can discharge water reducer production sewage into the reaction precipitation tank 4, meanwhile, the water outlet position of the sewage supply pipeline 3 is in a conical shape, the water pressure and the flow velocity of water can be increased, the power impeller 11 obtains rotating power, and the control ball valves 8 at the corresponding positions control whether the sewage supply pipeline 3 supplies water or controls whether the purified water discharge pipeline 7 discharges water.

The reaction precipitation tank 4 top position is through bolt and nut fixedly connected with top sealed lid 1, top sealed lid 1 upper surface central point puts and runs through fixedly connected with and adds pipeline 2, power shaft 17 top position fixedly connected with is the liquid collection funnel 9 that the toper set up, add pipeline 2 is located the position directly over liquid collection funnel 9, power shaft 17 bottom and reaction precipitation tank 4 inner bottom wall central point put and rotate and be connected, top sealed lid 1 makes the peculiar smell of sewage can not distribute easily, and make top sealed lid 1 convenient dismantlement through bolt and nut, the convenience overhauls and maintains the equipment inside reaction precipitation tank 4, add pipeline 2 and be used for adding other reaction raw materials such as flocculating agent, liquid collection funnel 9 conducts the flocculating agent or other reaction raw materials that add pipeline 2 leaks, make it accurately slide into in the liquid collection groove 16.

The reaction solvent adding structure comprises a liquid collecting tank 16 arranged at the central position of the upper surface of a power shaft 17, a plurality of evenly distributed centrifugal liquid guide holes 15 are formed in the inner wall of the liquid collecting tank 16 and the position of the power impeller 11 in a penetrating way, flocculating agents or other reaction solvents leaked from the position of the adding pipeline 2 are stored in the liquid collecting tank 16, and when the power impeller 11 rotates, the flocculating agents or other reaction solvents are thrown out through the centrifugal liquid guide holes 15 through centrifugal force, so that the addition of the reaction solvents is realized.

The outer side position fixedly connected with outside protection tube 13 of bottom in reaction precipitation jar 4 is located power shaft 17 outside position fixedly connected with in outside protection tube 13 top position fixedly connected with is the sediment water conservancy diversion fill 12 that the toper set up, reaction precipitation jar 4 outer wall position fixedly connected with fixed bolster 5, outside protection tube 13 avoids power shaft 17 to rotate the time cause the effect to the sediment of deposit, sediment water conservancy diversion fill 12 has the effect of leading to sediment deposit simultaneously, avoid stirring leaf 10 to cause the effect to the sediment of the deposit of below position when rotating simultaneously, lead to its deposit to be incomplete, fixed bolster 5 can support reaction precipitation jar 4.

The sediment clearance structure includes a plurality of second through holes 24 that set up in reaction precipitation jar 4 bottom position, a plurality of second through holes 24 are circumference distribution, a plurality of second through holes 24 position run-through sliding connection has sediment pipe 22, sediment pipe 22 lateral wall top position runs-through has seted up a plurality of evenly distributed row waste hole 23, reaction precipitation jar 4 below position is provided with lifting plate 20, first through hole 19 has been run-through to lifting plate 20 surface central point put, fixedly connected with connecting block 21 between a plurality of sediment pipe 22 outer walls and the first through hole 19, lifting plate 20 upper surface position fixedly connected with a plurality of evenly distributed lifting spring 25, lifting plate 20 one end and reaction precipitation jar 4 bottom fixed connection are kept away from to a plurality of lifting spring 25, second through hole 24 slides from top to bottom to sediment pipe 22, sediment pipe 22 is led to the sediment of discharging, deposit flocculation sediment in the reaction precipitation jar 4 is discharged into sediment pipe 22 through row waste hole 23 and is concentrated in, lifting plate 20 can carry out the coordinated control to rising or descending of sediment pipe 22, lifting plate 20 can not receive the sediment through lifting plate 20, can make lifting plate 20 and can not receive the external force more stably to rise under the condition of lifting plate 20.

The conical cover 18 is fixedly connected to the top positions of the sediment pipes 22, the guiding sealing cover 14 is fixedly connected to the bottom positions of the reaction settling tanks 4, the outer wall of the jacking plate 20 is slidably connected with the inner wall of the guiding sealing cover 14, the conical cover 18 enables sedimentary sediment not to be scattered when the sediment pipes 22 ascend, the resistance of water is small when the sediment pipes 22 ascend, and the guiding sealing cover 14 facilitates the sediment collection tank 61 to accurately slide to the position right below the reaction settling tanks 4.

As shown in fig. 7, the fixed support frame 5 bottom position fixedly connected with jacking sealing mechanism 6, jacking sealing mechanism 6 includes the jacking box 60 of being connected with fixed support frame 5, jacking box 60 inner wall position fixedly connected with and the gag lever post 67 of guide screw 66 parallel, gag lever post 67 is running through sliding connection with jacking sloping block 65, gag lever post 67 provides spacing effect to the horizontal migration of jacking sloping block 65, bear the weight of the load that jacking sloping block 65 produced simultaneously, avoid the too big deformation that causes of load that guide screw 66 produced, jacking box 60 inner wall position fixedly connected with driving motor 64, driving motor 64 driving end position fixedly connected with guide screw 66, the lead screw nut fixedly connected with that is located jacking sloping block 62 position, jacking sloping block 65 and guide screw 66 position's lead screw nut fixedly connected with jacking sloping block 62, jacking box 60 upper surface central point puts and runs through sliding connection with jacking block 62, jacking chute 63 has been seted up to jacking block 62 outer wall position, the supporting surface central point puts and has placed sediment collection tank 61, sediment collection tank 61 and guide screw 14 is connected with guide screw 66 in order to carry out power collection chute that jacking box 62 is the power to rotate, the jacking box 61 carries out the power to seal the jacking box 66, the jacking box is 66 is carried out the power to the jacking box is controlled to jack-up and the jacking box 61.

The working principle of the embodiment is that a control ball valve 8 at the position of a sewage supply pipeline 3 is opened, so that sewage generated by the water reducer production is sent into a reaction precipitation tank 4, the flow speed and the water pressure of the sewage generated by the water reducer production can be increased when the sewage passes through a conical narrow part of the sewage supply pipeline 3, a power impeller 11 is impacted, and the power impeller 11 rotates to drive a power shaft 17 and a stirring blade 10 to rotate;

adding flocculating agent or other reaction solvent into the liquid collecting funnel 9 slowly through the adding pipeline 2, leaking the flocculating agent or other reaction solvent into the liquid collecting tank 16 along the liquid collecting funnel 9, uniformly throwing the flocculating agent or other reaction solvent out of the centrifugal liquid guide holes 15 through centrifugal force along with high-speed rotation of the power shaft 17 and the power impeller 11, uniformly sprinkling the flocculating agent or other reaction solvent into the water reducing agent production sewage, and stirring the water reducing agent production sewage through the stirring blades 10 to accelerate the reaction speed;

the water at the lower position of the sediment diversion bucket 12 is less influenced by the rotation of the power shaft 17 and the stirring blade 10 through the arranged external protection pipe 13 and the sediment diversion bucket 12, so that sediment generated by flocculation can be precipitated under the action of gravity, flocculate generated by stirring reaction at the upper position of the sediment diversion bucket 12 is deposited along the sediment diversion bucket 12 under the action of gravity, and the control ball valve 8 at the position of the purified water discharge pipeline 7 is opened to discharge flocculated sewage into the next treatment procedure;

when the flocculate in the reaction precipitation tank 4 is deposited to a threshold value, the sediment collection tank 61 is placed at the center of the surface of the jacking block 62, the driving motor 64 is started, the driving motor 64 drives the guide screw 66 to rotate, the jacking sloping block 65 slides under the action of the guide screw 66 and the limiting rod 67, so that the jacking block 62 moves upwards under the action of the jacking chute 63, and the sediment collection tank 61 is jacked up;

when the sediment collection tank 61 is lifted, the lifting plate 20 is extruded, the lifting plate 20 compresses the lifting spring 25, the sediment pipe 22 moves upwards, the waste discharge hole 23 is positioned above the inner bottom wall of the reaction precipitation tank 4, sediment deposited at the lower position of the reaction precipitation tank 4 is discharged into the sediment collection tank 61 through the waste discharge hole 23 for concentrated storage, when sediment discharge is finished or the sediment collection tank 61 is fully collected, the sediment collection tank 61 is lowered, the lifting plate 20 loses lifting force, the lifting plate 20 drives the sediment pipe 22 to move downwards under the action of the lifting spring 25 and gravity, and the waste discharge hole 23 is positioned below the inner bottom wall of the reaction precipitation tank 4, so that sediment discharge can be completed.

The foregoing description is only of the preferred embodiments of the present invention, and is not intended to limit the scope of the present invention.

Claims (9)

1. Sewage treatment equipment for water reducing agent production, including reaction precipitation tank (4), its characterized in that: a power impeller (11) is arranged above the inner side of the reaction precipitation tank (4), a power shaft (17) is fixedly connected with the center position of the upper surface of the power impeller (11) in a penetrating manner, a reaction solvent adding structure is arranged at the top position of the power shaft (17), and a sediment cleaning structure is arranged at the bottom position of the reaction precipitation tank (4);

the reaction solvent adding structure comprises a liquid collecting groove (16) arranged at the center of the upper surface of a power shaft (17), and a plurality of centrifugal liquid guide holes (15) which are uniformly distributed are formed in the inner wall of the liquid collecting groove (16) and the position of a power impeller (11) in a penetrating way;

the sediment clearance structure is including a plurality of second through holes (24) that set up in reaction precipitation jar (4) bottom position, a plurality of second through holes (24) are circumference distribution, a plurality of second through holes (24) position run through sliding connection has sediment pipe (22), sediment pipe (22) lateral wall top position has run through and has been seted up a plurality of evenly distributed arranges waste hole (23), reaction precipitation jar (4) position under is provided with jacking plate (20), first through hole (19) have been run through in jacking plate (20) surface central point put, a plurality of fixedly connected with connecting block (21) between sediment pipe (22) outer wall and the first through hole (19), jacking plate (20) upper surface position fixedly connected with a plurality of evenly distributed's jacking spring (25), a plurality of jacking spring (25) keep away from jacking plate (20) one end and reaction precipitation jar (4) bottom fixedly connected.

2. The sewage treatment device for water reducer production according to claim 1, wherein a plurality of sediment pipes (22) are fixedly connected with a conical cover (18) at the top, a guiding sealing cover (14) is fixedly connected with the bottom of the reaction precipitation tank (4), and the outer wall of the jacking plate (20) is slidably connected with the inner wall of the guiding sealing cover (14).

3. The sewage treatment device for water reducer production according to claim 1, wherein the top position of the reaction precipitation tank (4) is fixedly connected with a top sealing cover (1) through bolts and nuts, the central position of the upper surface of the top sealing cover (1) is fixedly connected with an adding pipeline (2) in a penetrating mode, the top position of the power shaft (17) is fixedly connected with a liquid collecting funnel (9) which is arranged in a conical mode, the adding pipeline (2) is located right above the liquid collecting funnel (9), and the bottom of the power shaft (17) is rotatably connected with the central position of the inner bottom wall of the reaction precipitation tank (4).

4. The sewage treatment device for producing the water reducer according to claim 1, wherein a purified water discharge pipeline (7) is fixedly connected to the upper part of the outer wall of the reaction precipitation tank (4), a sewage supply pipeline (3) is fixedly connected to the upper part of the outer wall of the reaction precipitation tank (4), control ball valves (8) are respectively arranged at the positions of the outer walls of the sewage supply pipeline (3) and the purified water discharge pipeline (7), a water outlet of the sewage supply pipeline (3) is opposite to the position of the power impeller (11), and the water outlet of the sewage supply pipeline (3) is arranged in a conical shape.

5. The sewage treatment device for water reducer production according to claim 1, wherein an outer protection pipe (13) is fixedly connected to the center position of the inner bottom of the reaction precipitation tank (4) at the outer side of the power shaft (17), a sediment diversion bucket (12) which is arranged in a conical shape is fixedly connected to the top position of the outer protection pipe (13), a fixed support frame (5) is fixedly connected to the outer wall position of the reaction precipitation tank (4), and a jacking sealing mechanism (6) is fixedly connected to the bottom position of the fixed support frame (5).

6. The sewage treatment device for producing the water reducer according to claim 1, wherein a plurality of stirring blades (10) which are uniformly distributed are fixedly connected to the lower surface of the power impeller (11).

7. The sewage treatment device for water reducer production according to claim 5, wherein the jacking sealing mechanism (6) comprises a jacking box body (60) connected with the fixed supporting frame (5), a jacking block (62) is penetratingly and slidably connected at the central position of the upper surface of the jacking box body (60), a jacking chute (63) is arranged at the outer wall position of the jacking block (62), a sediment collection tank (61) is arranged at the central position of the upper surface of the jacking block (62), and the outer wall of the sediment collection tank (61) is slidably connected with the inner wall of the guiding sealing cover (14).

8. The sewage treatment apparatus for water reducing agent production according to claim 7, wherein: the lifting box is characterized in that a driving motor (64) is fixedly connected to one side of the inner bottom wall of the lifting box body (60), a guide screw (66) is fixedly connected to the driving end of the driving motor (64), a lifting inclined block (65) is slidably connected to the lifting chute (63) at the lifting block (62), and a screw nut at the lifting inclined block (65) and the guide screw (66) are fixedly connected.

9. The sewage treatment device for water reducer production according to claim 8, wherein a limiting rod (67) parallel to the guide screw (66) is fixedly connected to the inner wall of the jacking box body (60), and the limiting rod (67) is in penetrating sliding connection with the jacking sloping block (65).