CN116835743A - Sewage treatment device for cement plant and treatment method thereof - Google Patents

Abstract

The application discloses a sewage treatment device for a cement plant and a treatment method thereof, and relates to the field of water treatment. The sewage treatment device for the cement plant comprises a treatment main body and a liquid inlet, wherein a supporting frame is arranged on the lower surface of the treatment main body, and the liquid inlet is arranged on the outer surface of the treatment main body. This sewage treatment plant for cement factory gets into in the main part of handling through flowmeter control chemical reagent, after adding, carries out above-mentioned reverse motion for the base resumes initial position is deposited to the reagent, adds the chemical reagent in the jar this moment, can get into in the reagent deposits the base, the time of being convenient for next time adds, makes the sewage volume that gets into from the flowmeter and adds reagent volume number of times directly proportional, can handle sewage effectively, does not need artificial interpolation, carries out effectual gathering to the bottom mud in the main part of handling simultaneously and discharges.

Description

Sewage treatment device for cement plant and treatment method thereof

Technical Field

The application relates to the technical field of water treatment devices, in particular to a sewage treatment device for a cement plant and a treatment method thereof.

Background

The sewage treatment device for cement factories is used for treating sewage, and according to main waste materials in the sewage, corresponding chemical reagents are added into the sewage to treat the waste materials in the sewage, so that the sewage is treated, and the sewage can reach the standard capable of being discharged; the specified chemical reagent is put into the sewage, and meanwhile, the quantitative chemical reagent is added according to the content of waste in the sewage, and the treatment of the waste in the sewage is completed by fully mixing the chemical reagent with the sewage.

When sewage is treated, sewage is usually added to a treatment main body continuously, and then an operator predicts the addition amount of chemical reagents approximately according to the storage amount of the sewage, so that the chemical reagents need to be added manually and regularly in the sewage treatment process, when the time interval of adding the reagents is long, the treatment efficiency cannot be ensured, and the addition is frequently carried out, so that the manpower waste is caused;

residual sludge at the bottom of the tank body of the sewage treatment device cannot be cleaned effectively after sewage treatment, sewage is required to be considered for pollution discharge, and residual workload after water treatment is large;

so we propose a sewage treatment device for cement factories and a treatment method thereof.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the application provides a sewage treatment device for a cement plant, which solves the problem that chemical reagents are required to be added manually and regularly, and can not effectively discharge sludge at the bottom of a tank body.

(II) technical scheme

In order to achieve the above purpose, the application is realized by the following technical scheme: the sewage treatment device for the cement plant and the treatment method thereof comprise a treatment main body, wherein a supporting frame is arranged on the lower surface of the treatment main body;

a liquid inlet is formed in the outer surface of the treatment main body;

the two sides of the connecting seat are provided with limiting seats, and the limiting seats are arranged on the upper surface of the processing main body;

a transmission assembly is arranged between the connecting seat and the processing main body, and comprises a main rotating rod, a branch rotating rod and two fixing seats, wherein the main rotating rod is rotationally connected to the lower surface of the connecting seat;

the lifting assembly is arranged between the connecting seat and the two limiting seats and comprises a transmission rod, two main bevel gears and two auxiliary bevel gears, and the transmission rod is rotationally connected to the inner wall of the connecting seat.

Preferably, the filter screen has been seted up to the inside of handling the main part, the upper surface of filter screen is provided with the connection frame, the connection frame is connected with two fixing bases, the lower surface of handling the main part is provided with the slag tap, the filter screen is connected with the slag tap, the liquid outlet has been seted up to the surface of handling the main part, the one end of inlet is connected with the flowmeter, be provided with on handling the main part and add the jar, the lower surface of adding the jar is connected with the supporting seat, add the jar and pass through the supporting seat and connect the upper surface at handling the main part.

Preferably, the inside of adding the jar is provided with rabbling mechanism, sliding connection has the reagent to deposit the base on the inner wall of supporting seat, the surface that the base was deposited to the reagent is connected with the promotion seat, the end connection who promotes the seat has the cylinder, the reagent is deposited the base and is connected with the regulation pole with the inside of promoting the seat is gone up to rotate, the surface threaded connection who adjusts the pole has the regulation seat, regulation seat sliding connection is on the inner wall of base is deposited to the reagent, a plurality of liquid level detection sensor have been seted up to the upper surface of handling the main part, and is a plurality of liquid level detection sensor is in the inside of handling the main part, and a plurality of liquid level detection sensor is in the both sides of propping up the dwang, the surface of propping up the dwang is provided with a plurality of stirring fans.

Preferably, the surface of propping up the dwang has seted up many mounting grooves, the stirring fan is connected with propping up the dwang through the mounting groove, prop up the surface of dwang and main dwang all to be provided with two second connecting axles, two correspond second connecting axle external surface is connected with the second drive belt, prop up the dwang and rotate and connect between two fixing bases, two the fixing base is connected with the lower surface of connecting seat, the surface rotation of main dwang is connected with first connecting axle.

Preferably, the surface of first connecting axle is provided with first drive belt, the internally connected of first drive belt has agitated vessel, agitated vessel is in the upper surface of connecting seat, the upper surface of connecting seat is provided with the controller, the both sides of connecting seat all are provided with two sliding seats, sliding seat and spacing seat sliding connection, the spout has been seted up on the inner wall of spacing seat, the sliding seat passes through spout and spacing seat sliding connection, the upper surface of spacing seat is provided with the nut seat.

Preferably, the inner wall of the nut seat is connected with a screw rod in a threaded manner, the outer surfaces of the screw rod and the transmission rod are rotationally connected with a limiting seat, the outer surface of the screw rod is sleeved with a corresponding slave bevel gear, the slave bevel gear is in meshed transmission with a corresponding master bevel gear, the master bevel gear is arranged on the outer surface of the transmission rod, and a third connecting shaft is arranged on the outer surface of the transmission rod.

Preferably, a third driving belt is arranged on the outer surface of the third connecting shaft, the third driving belt is connected with a driving motor, and the driving motor is arranged on the upper surface of the connecting seat.

S1: sewage enters the treatment main body through the flowmeter and the liquid inlet, and is started through the flowmeter control cylinder at this moment, so that the cylinder pushes the pushing seat to move, and the pushing seat drives the adjusting rod to slide along the inner wall of the supporting seat at this moment, so that chemical reagents in the reagent storage base move, and the chemical reagents in the reagent storage base enter the treatment main body through the adding port formed in the treatment main body, so that the sewage quantity entering from the flowmeter is in direct proportion to the adding reagent quantity times, the sewage can be effectively treated, and manual adding is not needed.

S2: when the liquid level of the sewage in the treatment main body changes, detecting the liquid level of the liquid in the treatment main body under the action of a liquid level detection sensor, so that the sewage and the chemical reagent in the treatment main body are stirred in time, the liquid level detection sensor feeds back a controller, a transmission motor is controlled by the controller to start, a transmission rod is driven to rotate, a main bevel gear and a secondary bevel gear rotate, a screw rod rotates, and at the moment, the screw rod moves along the outer surface of a nut seat;

s3: the connecting seat is driven to move, so that the fixed seat connected with the lower surface of the connecting seat moves, and the branch rotating rod and the stirring fans move to be positioned in the center of sewage;

s4: simultaneously, the controller controls the stirring equipment to start, the stirring equipment enables the main rotating rod and the branch rotating rod to rotate, and the stirring equipment is stopped after the timing stirring is carried out;

s5: after the sewage is treated by using the chemical reagent, the reverse motion is performed, so that the fixed seat and the connecting seat reversely move to restore the initial position, the connecting frame connected with the lower surface of the fixed seat moves upwards, the filter screen is pulled, the treated flocculate in the sewage is collected in time, the flocculate is gathered under the action of gravity, and the flocculate is discharged through the deslagging port, so that the deslagging port is prevented from being blocked.

The application discloses a sewage treatment device for cement factories and a treatment method thereof, which have the following beneficial effects:

1. this sewage treatment plant for cement factory opens through flowmeter control cylinder for the cylinder promotes the seat and removes, makes the reagent deposit the base and removes, and when the base removal was in supporting seat department is deposited to the reagent, the reagent is deposited in the reagent this moment and is got into in the main part of handling, when adding the back of accomplishing, carry out above-mentioned opposite movement, make the reagent deposit the base and resume the home position, add the chemical reagent in the jar this moment, can get into the reagent and deposit in the base, the time of being convenient for next time adds, make the sewage volume that gets into from the flowmeter be in direct proportion with the interpolation reagent volume number of times, avoid thinking that the interpolation volume is not enough or excessive can handle sewage effectively, do not need the people to add.

2. This sewage treatment plant for cement factory detects the liquid level of handling the inside liquid of main part under the effect of liquid level detection sensor, feeds back to the controller to control agitated vessel starts, makes drive assembly drive main dwang and branch dwang rotate, stirs the liquid, makes in time stirs the inside sewage and the chemical reagent of handling the main part.

3. This sewage treatment plant for cement factory under the effect of liquid level detection sensor, when utilizing chemical reagent to handle the back to sewage for fixing base and connecting seat reverse movement resume initial position, make fixing base lower surface connection, the connecting frame upwards moves, pulls the filter screen, is in time collected by the processing flocculation thing in the sewage, gathers under the effect of gravity, discharges through the sediment mouth, avoids blocking up the sediment mouth, reduces the manpower clearance after the blowdown.

Drawings

In order to more clearly illustrate the embodiments of the application or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

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

FIG. 2 is a schematic diagram of the structure of the addition tank of the present application;

FIG. 3 is a schematic view of the adjusting seat of the present application;

FIG. 4 is a cross-sectional view of a treatment body of the present application;

FIG. 5 is a schematic view of a connecting seat according to the present application;

FIG. 6 is an enlarged view of FIG. 5A in accordance with the present application;

FIG. 7 is a schematic diagram of a drive motor according to the present application;

FIG. 8 is a cross-sectional view of a connector housing of the present application;

FIG. 9 is a cross-sectional view of a stop seat of the present application;

FIG. 10 is a control flow chart of the present application.

In the figure: 1. a processing main body; 101. a support frame; 102. a filter screen; 2. a liquid inlet; 201. a liquid outlet; 202. a flow meter; 203. a slag discharge port; 3. an addition tank; 301. a support base; 302. a reagent storage base; 303. an adjusting seat; 304. an adjusting rod; 305. a pushing seat; 306. a cylinder; 4. a liquid level detection sensor; 5. a connecting seat; 501. a limit seat; 502. a controller; 503. a stirring device; 6. a main rotating lever; 601. a first connecting shaft; 602. a first belt; 7. a support rotating rod; 701. a fixing seat; 702. a second connecting shaft; 703. a second belt; 704. a stirring fan; 8. a drive motor; 801. a transmission rod; 802. a third belt; 803. a third connecting shaft; 804. a main bevel gear; 805. a slave bevel gear; 9. a screw rod; 901. a nut seat; 902. a chute; 903. a sliding seat; 904. a seat is defined.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions in the embodiments of the present application are clearly and completely described, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

According to the embodiment of the application, by providing the sewage treatment device for the cement plant, the problems that chemical reagents are required to be added manually, when the time interval for adding the reagents is long, the treatment efficiency cannot be ensured, and the manpower waste is caused by frequent addition are solved, the liquid level of the liquid in the treatment main body 1 is monitored through the liquid level detection sensor 4, the controller 502 is fed back, the chemical reagents are automatically added and stirred, the air cylinder 306 is controlled to be opened through the flowmeter 202, so that the chemical reagents entering the treatment main body 1 from the adding tank 3 are proportional to the sewage entering from the flowmeter 202, the chemical reagents can be effectively mixed with the sewage, frequent addition by the human is not required, and the treatment efficiency is ensured to be optimal.

In order to better understand the above technical solutions, the following detailed description will refer to the accompanying drawings and specific embodiments.

The embodiment of the application discloses a sewage treatment device for a cement plant and a treatment method thereof, and the sewage treatment device comprises a treatment main body 1, a liquid inlet 2 and a connecting seat 5, wherein the lower surface of the treatment main body 1 is provided with a support frame 101, the outer surface of the treatment main body 1 is provided with the liquid inlet 2, both sides of the connecting seat 5 are provided with limiting seats 501, and the limiting seats 501 are arranged on the upper surface of the treatment main body 1;

a transmission assembly is arranged between the connecting seat 5 and the processing main body 1, and comprises a main rotating rod 6, a branch rotating rod 7 and two fixing seats 701, wherein the main rotating rod 6 is rotatably connected to the lower surface of the connecting seat 5;

a lifting assembly is arranged between the connecting seat 5 and the two limiting seats 501, and comprises a transmission rod 801, two main bevel gears 804 and two auxiliary bevel gears 805, wherein the transmission rod 801 is rotatably connected to the inner wall of the connecting seat 5;

the filter screen 102 is arranged in the treatment main body 1, the connecting frame 1021 is arranged on the upper surface of the filter screen 102, the connecting frame 1021 is connected with the two fixing seats 701, the slag discharging port 203 is arranged on the lower surface of the treatment main body 1, the filter screen 102 is connected with the slag discharging port, the liquid outlet 201 is arranged on the outer surface of the treatment main body 1, one end of the liquid inlet 2 is connected with the flowmeter 202, the adding tank 3 is arranged on the upper surface of the treatment main body 1, the supporting seat 301 is connected on the lower surface of the adding tank 3, and the adding tank 3 is connected on the upper surface of the treatment main body 1 through the supporting seat 301;

the inside of the adding tank 3 is provided with a stirring mechanism, the inner wall of the supporting seat 301 is connected with a reagent storage base 302 in a sliding manner, the outer surface of the reagent storage base 302 is connected with a pushing seat 305, the end part of the pushing seat 305 is connected with an air cylinder 306, the inside of the reagent storage base 302 and the pushing seat 305 is rotationally connected with an adjusting rod 304, the outer surface of the adjusting rod 304 is connected with an adjusting seat 303 in a threaded manner, and the adjusting seat 303 is connected on the inner wall of the reagent storage base 302 in a sliding manner;

the upper surface of the processing main body 1 is provided with a plurality of liquid level detection sensors 4, the liquid level detection sensors 4 are positioned in the processing main body 1, the liquid level detection sensors 4 are positioned on two sides of a branch rotating rod 7, and under the action of the liquid level detection sensors 4, the liquid level of liquid in the processing main body 1 is monitored and the controller 502 is fed back;

thereby controlling the stirring equipment 503 to start, so that the transmission component drives the main rotating rod 6 and the branch rotating rod 7 to rotate, and the liquid is stirred, so that the sewage in the treatment main body 1 is fully mixed with the chemical reagent;

when sewage is treated, firstly, the pretreated sewage enters the treatment main body 1 through the flowmeter 202 and the liquid inlet 2, at the moment, the air cylinder 306 is controlled to be opened through the flowmeter 202, so that the air cylinder 306 pushes the pushing seat 305 to move, at the moment, the pushing seat 305 drives the adjusting rod 304 to slide along the inner wall of the supporting seat 301, and chemical reagents in the reagent storage base 302 move;

when the reagent storage base 302 moves to enable the reagent storage base 302 to coincide with the adding port formed in the processing main body 1, at this time, chemical reagent in the reagent storage base 302 enters the processing main body 1 through the adding port, and meanwhile, the reagent storage base 302 and the adjusting seat 303 block the feeding port of the adding tank 3, so that the reagent cannot enter the reagent storage base 302;

after the addition is completed, the air cylinder 306 drives the reagent storage base 302 and the pushing seat 305 to move reversely, so that the reagent storage base 302 is restored to the initial position, and the chemical reagent in the adding tank 3 can enter the reagent storage base 302, so that the next time addition is convenient, the sewage amount entering from the flowmeter 202 is in direct proportion to the number of times of adding the reagent amount, the sewage can be effectively treated, and the artificial addition is not needed;

at this time, the sewage is treated in the treatment main body 1 by the chemical reagent, and the liquid level of the liquid in the treatment main body 1 is detected under the action of the liquid level detection sensor 4, so that the sewage and the chemical reagent in the treatment main body 1 are stirred in time;

when the liquid level changes, the liquid level detection sensor 4 feeds back the controller 502 at this time, so that the stirring device 503 is started, and under the action of the transmission component, the branch rotating rod 7 drives the plurality of stirring fans 704 on the outer surface to rotate, so as to stir the liquid, and the sewage in the treatment main body 1 is fully mixed with the chemical reagent.

Meanwhile, after the liquid level of sewage in the treatment main body 1 changes, the position of the branch rotating rod 7 needs to be adjusted, so that the branch rotating rod 7 and the stirring fan 704 are positioned at the central position, the stirring effect is good, at the moment, the transmission motor 8 is started through the controller 502, and the connecting seat 5 moves along the two limiting seats 501 under the action of the lifting assembly;

under the movement of the connecting seat 5, the fixed seat 701 fixedly connected with the lower surface of the connecting seat 5 moves, and under the action of the fixed seat 701, the branch rotating rod 7 moves until the branch rotating rod 7 and the plurality of stirring fans 704 are positioned in the sewage center, so that the stirring effect is better;

when the sewage is treated by the chemical reagent, the reverse movement is performed, so that the fixed seat 701 and the connecting seat 5 reversely move to restore to the initial position, the lower surface of the fixed seat 701 is connected, the connecting frame 1021 moves upwards, the filter screen 102 is pulled, the treated flocculate in the sewage is collected in time, the flocculate is collected under the action of gravity, and the flocculate is discharged through the slag discharge port 203, so that the blockage of the slag discharge port 203 is avoided.

According to fig. 5 and 6, a transmission assembly is arranged between the connection seat 5 and the processing main body 1, the transmission assembly comprises a main rotating rod 6, a branch rotating rod 7 and two fixing seats 701, and the main rotating rod 6 is rotatably connected to the lower surface of the connection seat 5;

the outer surface of the branch rotating rod 7 is provided with a plurality of stirring fans 704, the outer surface of the branch rotating rod 7 is provided with a plurality of mounting grooves, the stirring fans 704 are connected with the branch rotating rod 7 through the mounting grooves, the positions of the stirring fans 704 on the outer surface of the branch rotating rod 7 can be adjusted through the mounting grooves, so that the stirring range is changed, and the outer surfaces of the branch rotating rod 7 and the main rotating rod 6 are respectively provided with two second connecting shafts 702;

the outer surfaces of the two corresponding second connecting shafts 702 are connected with a second transmission belt 703, the branch rotating rod 7 is rotatably connected between the two fixed seats 701, the two fixed seats 701 are connected with the lower surface of the connecting seat 5, and the outer surface of the main rotating rod 6 is rotatably connected with the first connecting shaft 601;

the outer surface of the first connecting shaft 601 is provided with a first driving belt 602, stirring equipment 503 is connected inside the first driving belt 602, the stirring equipment 503 is positioned on the upper surface of the connecting seat 5, the upper surface of the connecting seat 5 is provided with a controller 502, the main rotating rod 6 is driven to rotate under the action of the first driving belt 602, and the branch rotating rods 7 are driven to rotate through the main rotating rod 6 and the two second driving belts 703, so that stirring fans 704 on the outer surface of the branch rotating rods 7 rotate, and liquid is stirred;

when the stirring device 503 is started, the main rotating rod 6 rotates on the lower surface of the connecting seat 5, so that the two second connecting shafts 702 on the outer surface of the main rotating rod 6 rotate, and the second transmission belt 703 is driven under the rotation of the second connecting shafts 702, so that the second connecting shafts 702 on the main rotating rod 6 and the branch rotating rod 7 rotate, and the main rotating rod 6 and the branch rotating rod 7 rotate;

under the rotation of the branch rotating rod 7, the branch rotating rod 7 drives the stirring fans 704 on the outer surface to rotate, and the liquid is stirred, so that the sewage in the treatment main body 1 is fully mixed with the chemical reagent.

According to fig. 7-9; a lifting assembly is arranged between the connecting seat 5 and the two limiting seats 501, and comprises a transmission rod 801, two main bevel gears 804 and two auxiliary bevel gears 805, wherein the transmission rod 801 is rotatably connected to the inner wall of the connecting seat 5;

two sliding seats 903 are arranged on two sides of the connecting seat 5, the sliding seats 903 are in sliding connection with the limiting seats 501, sliding grooves 902 are formed in the inner walls of the limiting seats 501, the sliding seats 903 are in sliding connection with the limiting seats 501 through the sliding grooves 902, nut seats 901 are arranged on the upper surfaces of the limiting seats 501, and the connecting seat 5 moves between the two limiting seats 501 stably through the sliding seats 903;

the inner wall of the nut seat 901 is in threaded connection with a screw rod 9, the outer surfaces of the screw rod 9 and the transmission rod 801 are rotationally connected with a limiting seat 904, and under the action of the limiting seat 904, the positions of the transmission rod 801 and the screw rod 9 are relatively fixed, so that the positions of the main bevel gear 804 and the auxiliary bevel gear 805 are relatively fixed;

the outer surface of the screw rod 9 is sleeved with a corresponding slave bevel gear 805, the slave bevel gear 805 is meshed with a corresponding main bevel gear 804 for transmission, the main bevel gear 804 is arranged on the outer surface of the transmission rod 801, and a third connecting shaft 803 is arranged on the outer surface of the transmission rod 801;

the outer surface of the third connecting shaft 803 is provided with a third transmission belt 802, the third transmission belt 802 is connected with a transmission motor 8, the transmission motor 8 is arranged on the upper surface of the connecting seat 5, and the transmission rod 801 rotates in the connecting seat 5 under the action of the transmission motor 8;

further, the main bevel gear 804 and the auxiliary bevel gear 805 are driven to rotate, and under the rotation of the auxiliary bevel gear 805 and the main bevel gear 804, the connecting seat 5 moves along the limiting seat 501, so that the branch rotating rod 7 and the stirring fan 704 below the connecting seat 5 move to proper positions, and the stirring effect is increased conveniently;

under the action of the transmission motor 8, the third transmission belt 802 is driven to drive the transmission rod 801 to rotate on the inner wall of the connecting seat 5, and under the rotation of the transmission rod 801, the two main bevel gears 804 rotate, at the moment, the main bevel gears 804 drive the auxiliary bevel gears 805 to rotate, so that the screw rod 9 rotates;

at this time, the screw rod 9 moves along the outer surface of the nut seat 901, so that the secondary bevel gear 805 and the main bevel gear 804 move along with the screw rod, and the connecting seat 5 is driven to move, and at this time, the connecting seat 5 drives the sliding seat 903 to slide on the inner wall of the limiting seat 501;

under the movement of the connecting seat 5, the fixed seat 701 fixedly connected with the lower surface of the connecting seat 5 moves, and under the action of the fixed seat 701, the branch rotating rod 7 and the plurality of stirring fans 704 move until the branch rotating rod 7 and the plurality of stirring fans 704 are positioned in the center of sewage, so that the stirring effect is better;

when the sewage is treated by the chemical reagent, the reverse movement is performed, so that the fixed seat 701 and the connecting seat 5 reversely move to restore to the initial position, the lower surface of the fixed seat 701 is connected, the connecting frame 1021 moves upwards, the filter screen 102 is pulled, the treated flocculate in the sewage is collected in time, the flocculate is collected under the action of gravity, and the flocculate is discharged through the slag discharge port 203, so that the blockage of the slag discharge port 203 is avoided.

When sewage needs to be treated, firstly, the pretreated sewage enters the treatment main body 1 through the flowmeter 202 and the liquid inlet 2, at the moment, the air cylinder 306 is controlled to be opened through the flowmeter 202, so that the air cylinder 306 pushes the pushing seat 305 to move, at the moment, the pushing seat 305 drives the adjusting rod 304 to slide along the inner wall of the supporting seat 301, and chemical reagents in the reagent storage base 302 move;

when the reagent storage base 302 moves to be positioned at the supporting seat 301, at this time, chemical reagents in the reagent storage base 302 enter the processing main body 1 through an adding port formed in the processing main body 1, and meanwhile, the reagent storage base 302 and the adjusting seat 303 block a feeding port of the adding tank 3, so that the reagents cannot enter the reagent storage base 302;

after the addition is completed, the air cylinder 306 drives the reagent storage base 302 and the pushing seat 305 to move reversely, so that the reagent storage base 302 is restored to the initial position, and the chemical reagent in the adding tank 3 can enter the reagent storage base 302, so that the next time addition is convenient, the sewage amount entering from the flowmeter 202 is in direct proportion to the number of times of adding the reagent amount, the sewage can be effectively treated, and the artificial addition is not needed;

when the treated sewage is different, different chemical reagents are required to be added, the content of the treated waste in the sewage is different, the quantitative chemical reagent amount is required to be changed, at the moment, the adjusting rod 304 is rotated to enable the adjusting seat 303 to slide along the inner wall of the reagent storage base 302, so that the space between the reagent storage base 302 and the adjusting seat 303 is reduced, and further the chemical reagent amount capable of being stored in the reagent storage base 302 is changed to correspond to the sewage to be treated;

under the action of a stirring mechanism arranged in the adding tank 3, stirring and mixing are carried out on the chemical reagent in the adding tank 3, so that the occurrence of caking of the stirring mechanism caused by placing is avoided;

when the liquid level of the sewage in the treatment main body 1 changes, the position of the branch rotating rod 7 needs to be adjusted, so that the branch rotating rod 7 and the stirring fan 704 are positioned at the central position, the stirring effect is good, at the moment, the transmission motor 8 is started through the controller 502, and the third transmission belt 802 is driven under the action of the transmission motor 8;

under the transmission of the third transmission belt 802, the third connecting shaft 803 drives the transmission rod 801 to rotate on the inner wall of the connecting seat 5, and under the rotation of the transmission rod 801, the two main bevel gears 804 rotate, at this time, the main bevel gears 804 drive the auxiliary bevel gears 805 to rotate, and the auxiliary bevel gears 805 are fixedly sleeved on the outer surface of the screw rod 9, so that the screw rod 9 rotates;

at this time, the screw rod 9 moves along the outer surface of the nut seat 901, so that the limiting seat 904 moves, and the secondary bevel gear 805 and the main bevel gear 804 move along with the movement, so that the connecting seat 5 is driven to move, and at this time, the connecting seat 5 drives the sliding seat 903 to slide on the inner wall of the limiting seat 501;

under the removal of connecting seat 5 for connecting seat 5 lower surface fixed connection's fixing base 701 removes, under the effect of fixing base 701, makes a dwang 7 and a plurality of stirring fan 704 remove, until make a dwang 7 and a plurality of stirring fan 704 be in sewage central point put, makes the effect of stirring better.

When the sewage is treated by the chemical reagent, the reverse movement is performed, so that the fixed seat 701 and the connecting seat 5 reversely move to restore to the initial position, the lower surface of the fixed seat 701 is connected, the connecting frame 1021 moves upwards, the filter screen 102 is pulled, the treated flocculate in the sewage is collected in time, the flocculate is collected under the action of gravity, and the flocculate is discharged through the slag discharge port 203, so that the blockage of the slag discharge port 203 is avoided.

Meanwhile, when sewage enters the treatment main body 1, the sewage is treated by chemical reagents, the liquid level of the liquid in the treatment main body 1 is detected under the action of the liquid level detection sensor 4, when the liquid level is changed, the liquid level detection sensor 4 feeds back the controller 502 at the moment, so that the stirring equipment 503 is started, the stirring equipment 503 drives the first driving belt 602 to drive, the first connecting shaft 601 drives the main rotating rod 6 to rotate, and the main rotating rod 6 rotates on the lower surface of the connecting seat 5;

under the rotation of the main rotating rod 6, two second connecting shafts 702 on the outer surface of the main rotating rod 6 rotate, and under the rotation of the second connecting shafts 702, a second transmission belt 703 is driven, so that the second connecting shafts 702 on the main rotating rod 6 and the branch rotating rod 7 rotate, and the main rotating rod 6 and the branch rotating rod 7 rotate;

under the rotation of the branch rotating rod 7, the branch rotating rod 7 drives the stirring fans 704 on the outer surface to rotate, and at the moment, the liquid is stirred, so that the chemical reagent and the sewage inside the treatment main body 1 are stirred and mixed, and the timing stirring is performed.

The foregoing has shown and described the basic principles and main features of the present application and the advantages of the present application. It will be understood by those skilled in the art that the present application is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present application, and various changes and modifications may be made without departing from the spirit and scope of the application, which is defined in the appended claims. The scope of the application is defined by the appended claims and equivalents thereof.

Claims (10)

1. The sewage treatment device for the cement plant comprises a treatment main body (1), a liquid inlet (2) and a connecting seat (5), wherein a supporting frame (101) is arranged on the lower surface of the treatment main body (1), and limit seats (501) are arranged on two sides of the connecting seat (5), and the sewage treatment device is characterized in that a filter screen (102) is arranged in the treatment main body (1), a connecting frame (1021) is arranged on the upper surface of the filter screen (102), the connecting frame (1021) is connected with two fixing seats (701), and sludge aggregation at the inner bottom of the treatment main body (1) is realized by arranging the filter screen (102);

the lower surface of the treatment main body (1) is provided with a slag discharge port (203), the filter screen (102) is connected with the slag discharge port (203), and one end of the liquid inlet (2) is connected with a flowmeter (202);

a transmission assembly is arranged between the connecting seat (5) and the processing main body (1);

the transmission assembly comprises a main rotating rod (6), a branch rotating rod (7) and two fixing seats (701), wherein the main rotating rod (6) is rotatably connected to the lower surface of the connecting seat (5);

a lifting assembly is arranged between the connecting seat (5) and the two limiting seats (501), and the connecting seat (5) is driven to move up and down by the lifting assembly;

the lifting assembly comprises a transmission rod (801), two main bevel gears (804) and two auxiliary bevel gears (805), and the transmission rod (801) is rotatably connected to the inner wall of the connecting seat (5).

2. The cement plant sewage treatment apparatus according to claim 1, wherein: an adding tank (3) is arranged above the processing main body (1), the lower surface of the adding tank (3) is connected with a supporting seat (301), and the adding tank (3) is connected to the upper surface of the processing main body (1) through the supporting seat (301).

3. The cement plant sewage treatment apparatus according to claim 1, wherein: the upper surface of handling main part (1) has seted up a plurality of liquid level detection sensor (4), and a plurality of liquid level detection sensor (4) are in the inside of handling main part (1), and a plurality of liquid level detection sensor (4) are in the both sides of propping up dwang (7), and the surface of propping up dwang (7) is provided with a plurality of stirring fans (704).

4. The cement plant sewage treatment apparatus according to claim 1, wherein: the outer surface of the treatment main body (1) is provided with a liquid outlet (201).

5. The cement plant sewage treatment apparatus according to claim 2, wherein: the inside of adding jar (3) is provided with rabbling mechanism, sliding connection has reagent to deposit base (302) on the inner wall of supporting seat (301), the surface that base (302) was deposited to the reagent is connected with promotes seat (305), the end connection who promotes seat (305) has cylinder (306), it is connected with regulation pole (304) to rotate on the inside of base (302) and promotion seat (305) is deposited to the reagent, the surface threaded connection of regulation pole (304) has regulation seat (303), regulation seat (303) sliding connection is on the inner wall of base (302) is deposited to the reagent.

6. A cement plant sewage treatment apparatus according to claim 3, wherein: many mounting grooves have been seted up to the surface of propping up dwang (7), stirring fan (704) are connected with propping up dwang (7) through the mounting groove, prop up the surface of dwang (7) and main dwang (6) all is provided with two second connecting axle (702), two correspond second connecting axle (702) external surface is connected with second drive belt (703), prop up dwang (7) rotate and connect between two fixing base (701), two fixing base (701) are connected with the lower surface of connecting seat (5), the surface rotation of main dwang (6) is connected with first connecting axle (601).

7. The cement plant sewage treatment apparatus according to claim 6, wherein: the external surface of first connecting axle (601) is provided with first drive belt (602), the internal connection of first drive belt (602) has agitated vessel (503), agitated vessel (503) are in the upper surface of connecting seat (5), the upper surface of connecting seat (5) is provided with controller (502), the both sides of connecting seat (5) all are provided with two sliding seat (903), sliding seat (903) and spacing seat (501) sliding connection, spout (902) have been seted up on the inner wall of spacing seat (501), sliding seat (903) pass through spout (902) and spacing seat (501) sliding connection, the upper surface of spacing seat (501) is provided with nut seat (901).

8. The cement plant sewage treatment apparatus according to claim 7, wherein: screw rod (9) is connected with threads on the inner wall of nut seat (901), the surface rotation of screw rod (9) and transfer line (801) is connected with and is limited seat (904), the surface of screw rod (9) cup joints with corresponding slave bevel gear (805), from bevel gear (805) and the transmission of the meshing of corresponding master bevel gear (804), master bevel gear (804) set up the surface at transfer line (801), the surface of transfer line (801) is provided with third connecting axle (803).

9. The cement plant sewage treatment apparatus according to claim 8, wherein: the outer surface of the third connecting shaft (803) is provided with a third driving belt (802), the third driving belt (802) is connected with a driving motor (8), and the driving motor (8) is arranged on the upper surface of the connecting seat (5).

10. A treatment method of a cement plant sewage treatment apparatus, based on the cement plant sewage treatment apparatus according to any one of claims 1 to 9, characterized in that: the method comprises the following steps:

s1: the liquid inlet (2) is connected with sewage drainage equipment of a cement plant, sewage enters the treatment main body (1) through the flowmeter (202) and the liquid inlet (2), at the moment, the air cylinder (306) is controlled to be opened through the flowmeter (202), the air cylinder (306) pushes the pushing seat (305) to move, at the moment, the pushing seat (305) drives the adjusting rod (304) to slide along the inner wall of the supporting seat (301), so that chemical reagents in the reagent storage base (302) move, and the chemical reagents in the reagent storage base (302) enter the treatment main body (1) through the adding port formed in the treatment main body (1);

s2: when the liquid level of sewage in the treatment main body (1) changes, under the action of a liquid level detection sensor (4), detecting the liquid level of the liquid in the treatment main body (1) so as to stir the sewage and chemical reagents in the treatment main body (1) in time, wherein the liquid level detection sensor (4) feeds back a controller (502), a transmission motor (8) is controlled by the controller (502) to start so as to drive a transmission rod (801) to rotate, so that a main bevel gear (804) and a slave bevel gear (805) rotate, a screw rod (9) rotates, and the screw rod (9) moves along the outer surface of a nut seat (901);

s3: the connecting seat (5) is driven to move, so that the fixed seat (701) connected with the lower surface of the connecting seat (5) moves, and the branch rotating rod (7) and the stirring fans (704) move to be positioned in the center of sewage;

s4: meanwhile, the controller (502) controls the stirring equipment (503) to start, the stirring equipment (503) enables the main rotating rod (6) and the branch rotating rod (7) to rotate, and after the timing stirring is carried out, the stirring equipment (503) is stopped;

s5: after the sewage is treated by using the chemical reagent, the fixed seat (701) and the connecting seat (5) reversely move to restore to the initial position, so that the connecting frame (1021) connected with the lower surface of the fixed seat (701) moves upwards, the filter screen (102) is pulled, the treated flocculate in the sewage is collected in time, and is gathered under the action of gravity and discharged through the slag discharge port (203).