CN118976285B - Integrated wastewater treatment tank and method - Google Patents

Abstract

The invention provides an integrated classification sewage treatment tank, belongs to the technical field of sewage tank equipment, and aims at the problems of complicated working procedures and low efficiency of the existing sewage treatment equipment, and the sewage treatment tank is used for simplifying treatment steps by carrying out classified centralized treatment on sewage; the device comprises a tank body, a closing assembly, an absorbing device, a separating device, a clamping mechanism and a cleaning device, wherein the closing assembly is started to seal, the absorbing device automatically rotates and swings to absorb sewage, the separating device extrudes the sewage to retain and treat the sewage, and the cleaning device scrapes and cleans a working cavity.

Description

Integrated classified sewage treatment tank and method

Technical Field

The invention relates to the technical field of sewage tank equipment accessory devices, in particular to an integrated classified sewage treatment tank and a method.

Background

With the acceleration of the global urbanization process, urban population is rapidly expanding, resulting in a significant increase in domestic sewage discharge. The sewage which is not effectively treated is directly discharged to the surrounding environment, so that serious pollution is caused to the water body, and the problem of water resource shortage is further aggravated. The domestic sewage is rich in various pollutants such as organic matters, nutritive salts, pathogens and the like, and if the domestic sewage is not properly treated, the quality of water resources is further deteriorated, the environmental degradation is aggravated, and the threat to human health and ecological balance is formed.

In view of the urgency and importance of sewage treatment, higher requirements are put on sewage treatment, and the emphasis is placed on the fact that domestic sewage must reach the emission standard or realize recycling. Under the background, the sewage treatment technology is greatly developed, and various advanced technologies such as biological treatment, membrane treatment, advanced oxidation and the like are covered, and the application of the technologies effectively improves the sewage treatment efficiency and the effluent quality.

At present, one of the common sewage treatment devices on the market is a sewage suction truck. The soil pick-up car is widely used in the field of environmental protection as an important tool for urban domestic sewage treatment. The working principle of the sewage treatment device mainly depends on the negative pressure effect generated by a vacuum pump, sewage is sucked into the tank body from a discharge port, and then the sewage is transported to a designated place for centralized treatment. However, in practical application, the sewage suction truck has the problems of complicated treatment procedures, low efficiency and the like. Specifically, the sewage suction truck is required to complete the steps of sewage suction, sewage discharge, sewage transportation to a treatment plant and the like, the whole treatment process is long in time consumption, the dependence on operators is high, and the overall practicability and efficiency of the equipment are affected.

In summary, the existing sewage treatment technology has yet to be improved in terms of treatment efficiency and operation convenience. Therefore, it is important to develop an integrated classification sewage treatment apparatus capable of simplifying the treatment steps and improving the treatment efficiency. The invention is generated under the background, and aims to solve the defects in the prior art through innovative technical means and realize the automation, the high efficiency and the intensification of sewage treatment.

Disclosure of Invention

The invention aims to solve the technical problems of complicated structure and complicated steps of a sewage treatment device in the prior art, thereby causing low treatment efficiency.

In order to solve the technical problems, the integrated classified sewage treatment tank comprises a tank body and treatment equipment, wherein the treatment equipment further comprises a closing component, an absorbing device, a separating device, a clamping mechanism and a cleaning device, one end of the tank body is hollow, a fixed cover plate is arranged at one end of the tank body, a working cavity is arranged in the fixed cover plate, the cleaning device is fixedly arranged at the end of the fixed cover plate of the tank body, scraping plates of the cleaning device are arranged in the working cavity, mounting seats are arranged at two sides of the tank body, a screw rod of the closing component is arranged on the mounting seats in a penetrating manner, the screw rod rotates to drive a tank cover arranged at the other end of the tank body to open and close, a feeding hole is arranged at the top of the working cavity, the input end of the absorbing device is communicated with the feeding hole, a plurality of groups of filter fabrics of the separating device are driven to move back and forth in the separating tank, the clamping mechanism is arranged at the top end of the tank body, the tank body is fastened by pins at the top end of the tank cover, a sealing groove is arranged at the side of the tank body, and a sealing ring is arranged in the groove.

In the preferred scheme, the closure subassembly includes a set of first lead screw of rotating the connection with two sets of mount pads at jar body both sides both ends, and driving motor is installed to first lead screw one end, and the other end rotates the installation with the mount pad, and its middle part closes the rotation with the baffle and is connected, and baffle one end is in the same place with the case lid is fixed, and jar body bottom is fixed with a set of support.

In the preferred scheme, the closure assembly further comprises a vacuum pump fixed on the fixed cover plate of the tank body, an outlet end of the vacuum pump is communicated with a three-way valve, and two other loops of the three-way valve are communicated with the top of the tank body, and the other loop is communicated with the lower part of the tank body through a hole in the fixed cover plate.

In the preferred scheme, absorbing device includes the inlet pipe with the feed inlet intercommunication, the inlet pipe is fixed on the swivel mount, the swivel mount is rotated and is installed on the jar body, with the feed inlet intercommunication, install driven gear on the swivel mount, driven gear and drive gear meshing, drive gear passes through servo motor drive, drive gear passes through the mounting panel to be fixed at jar body top, the swivel mount top is rotated and is installed the free bearing, be fixed with the drinking-water pipe on the free bearing, drinking-water pipe and inlet pipe intercommunication, the pneumatic cylinder is installed to free bearing bottom, the pneumatic cylinder other end is fixed on the swivel mount.

In the preferred scheme, separator is including rotating the second lead screw of installing on the case lid, and step motor is installed to second lead screw one end, and the other end wears to install fixedly on the separator box, and separator box one end is fixed on the case lid through the connecting plate, and separator box bottom is closely equipped with the filtration pore, and a set of guide rail is installed to upper portion both sides in the separator box, and a set of guide rail installs a plurality of slider roof beams, and the second lead screw wears to install in proper order in a plurality of slider roof beams middle parts to with the spiro union thereof, and a plurality of steel filter screens are installed to slider roof beam bottom, and each steel filter screen bottom rotates continuously, forms continuous filter belt.

In the preferred scheme, the separating device further comprises a drain outlet arranged at the bottom of the box cover, and when the separating device is closed with the working cavity of the tank body through the closing component, the drain outlet is communicated with the bottom of the working cavity.

In the preferred scheme, the separation device also comprises inclined baffles arranged at two sides of the separation box, and the inclined baffles are combined with the separation box to form a funnel shape for receiving sewage.

In the preferred scheme, clamping mechanism is including fixing the electric turntable at jar body top, and electric turntable includes rotating electrical machines and revolving stage, and the front end of revolving stage is fixed with the buckle, and the case lid top is provided with the round pin, and when the closure assembly drove jar body and closure assembly and jar body to fold, electric turntable rotation drive the rotatory rear portion chucking to case lid top round pin of buckle, realizes the locking seal of integration categorised sewage treatment jar.

In the preferred scheme, cleaning device is including fixing a set of flexible pole on the fixed lid of jar body dress, and the front end of a set of flexible pole all is connected with the scraper blade, and the scraper blade is installed inside jar body, pastes with jar internal surface and levels.

An integrated classified sewage treatment method, which is an integrated classified sewage treatment tank adopting any one of the above, comprises the following steps:

step1, after the integrated classified sewage treatment tank is installed in place, a buckle of a clamping mechanism is initially positioned on the top surface of the tank body, a driving motor is started, the driving motor drives a first screw rod to rotate, a baffle plate screwed with the first screw rod is driven to move towards the direction of the tank body, a tank cover fixed with the baffle plate moves in the same direction, and a separating device fixed with the tank cover and a pin move in the same direction until the tank cover is attached to the side surface of the tank body and pressed;

step2, starting a rotating motor of the electric turntable to drive the turntable to rotate, and driving a buckle fixed with the turntable to rotate to the rear part of a box cover ejector pin by the turntable to clamp the buckle, so that the integrated classified sewage treatment tank is synchronously locked and sealed;

step3, starting a servo motor of the absorption device, driving a driving gear to rotate, driving a driven gear meshed with the driving gear to rotate by the driving gear, driving a swivel base to rotate, driving a water pumping pipe to swing by the swivel base to transversely face a sewage source, starting a hydraulic cylinder, driving a hinged support to rotate by the hydraulic cylinder, and aligning a pipe orifice of the water pumping pipe with the sewage source by the hinged support;

Step4, sewage enters the separating device through the feed inlet, the stepping motor is started, the stepping motor rotates to drive the second screw rod to rotate, the second screw rod drives the sliding block beam to move, the sliding block beam drives the steel filter screen belt to move, sludge in the sewage is filtered, water enters the tank body through the steel filter screen and the filter holes at the bottom of the separating tank and is discharged through the sewage discharge outlet, and meanwhile the sliding block beam is closed layer by layer to compress the sludge left in the filter cloth into a cake shape;

step5, starting a rotating motor of the electric turntable, reversing the rotating motor to drive the turntable to reversely rotate, and enabling the turntable to drive a buckle fixed with the turntable to rotate to the top of the tank body, separating from the pin and loosening the closing assembly;

step6, starting a driving motor, reversing the driving motor to drive the first screw rod to reversely rotate, driving the baffle plate screwed with the first screw rod to move in a direction away from the tank body, keeping away from the tank cover fixed with the baffle plate, and synchronously keeping away from the separating device and the pin fixed with the tank cover in the same direction until the separating device is moved out of the working cavity of the tank body;

Step7, starting a stepping motor, reversely rotating the stepping motor to drive a second screw rod to reversely rotate, driving a sliding block Liang Fanxiang to move by the second screw rod, reversely moving a steel filter screen belt by a sliding block beam, unfolding each layer of steel filter screen, and taking out cake-shaped sludge;

Step8, repeating Step 2-Step 3, opening a three-way valve, starting a vacuum pump, feeding water to the top and the bottom of the tank body, cleaning the working cavity of the tank body, starting a telescopic electric pole, pushing a scraping plate to scrape the bottom of the working cavity of the tank body by the telescopic electric pole, discharging the cleaned water through a sewage outlet, and repeating Step 4-Step 7 when sewage treatment is carried out next time.

The integrated classification sewage treatment tank and the method provided by the invention have the following beneficial effects:

1. The invention solves the problems of complicated structure, complicated steps and low treatment efficiency of the sewage treatment device in the prior art, realizes the automation and the high efficiency of sewage treatment, greatly simplifies the operation flow, improves the water quality purifying effect and reduces the operation cost;

2. Compared with the traditional sewage suction truck, the sewage treatment tank integrating the functions of sewage suction, classification, treatment and cleaning is provided by the invention, and compared with the traditional sewage suction truck, the sewage treatment tank integrating the plurality of treatment steps into one tank body is completed, so that the integration level and the treatment efficiency of the equipment are remarkably improved;

3. The invention adopts the automatic equipment such as the vacuum pump, the servo motor, the stepping motor and the like, realizes the whole-course automation from sewage suction, sludge extrusion, sewage discharge and tank cleaning, reduces manual intervention and improves the automation level of the equipment;

4. The device is internally provided with the separating device, so that the sludge in the sewage can be automatically separated from the clear water, the sludge is formed into a cake shape and is convenient to collect, and the clear water is discharged through the sewage outlet, so that the classification treatment mode improves the precision and the efficiency of sewage treatment;

5. The treatment equipment comprises a plurality of parts such as a closing component, an absorbing device, a separating device, a clamping mechanism, a cleaning device and the like, wherein each part has a specific function and cooperatively completes a sewage treatment task;

6. The absorption device can realize transverse and longitudinal adjustment through the matching of the servo motor and the hydraulic cylinder, meets the sewage absorption requirements of different positions and angles, and improves the flexibility and adaptability of the equipment;

7. According to the invention, a plurality of steps of sewage treatment are integrated in one tank body through an innovative ingenious structural design, such as sealing and opening and closing of the tank body through a closing assembly, separation of sewage and sludge through a separation device and the like, and the novel ideas are provided for innovation of sewage treatment equipment;

8. The invention widely adopts automation technology and equipment, such as a vacuum pump, a servo motor, a stepping motor and the like, realizes the whole-course automation of sewage treatment, improves the working efficiency of the equipment, and reduces the complexity and risk of manual operation;

9. The multiple functional modules such as the closing component, the absorbing device, the separating device, the clamping mechanism and the cleaning device are mutually cooperated to finish the classification processing task of sewage together, and the modularized design thought embodies high creativity and practicability;

10. The absorption device and the separation device are both provided with flexible adjustment mechanisms, for example, the absorption device can realize transverse and longitudinal adjustment through a servo motor and a hydraulic cylinder, and the separation device can extrude sludge through a stepping motor and a thread extrusion mode, so that the design greatly improves the flexibility and the adaptability of the equipment;

11. the device improves the sewage treatment efficiency and ensures the cleanliness of the interior of the tank body through the classification treatment and the automatic cleaning mechanism, and avoids the residues and pollution of sewage and sludge.

12. The invention has the advantages of simple structure, low manufacturing cost, easy operation, reduced frequency of manual operation, saved labor cost, and higher practical value and popularization prospect.

Drawings

The invention is further described below with reference to the accompanying drawings and examples of implementation:

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

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

FIG. 3 is a schematic view of the upper part of the tank body according to the present invention;

FIG. 4 is a cross-sectional view of the overall structure of the present invention;

FIG. 5 is a schematic view of the structure of the separation device of the present invention;

FIG. 6 is a schematic view of a cleaning apparatus according to the present invention;

In the figure, a tank body 1, a working cavity 201, a mounting seat 202, a feed inlet 203, a vacuum pump 301, a three-way valve 302, a driving motor 303, a first screw rod 304, a baffle 305, a tank cover 306, a bracket 307, a feed pipe 401, a mounting plate 402, a servo motor 403, a driving gear 404, a driven gear 405, a swivel mount 406, a water pumping pipe 407, a hydraulic cylinder 408, a hinge seat 409, a stepping motor 501, a second screw rod 502, a connecting plate 503, a separation box 504, a guide rail 505, a slide block beam 506, a steel filter screen 507, a drain 508, an inclined baffle 509, an electric turntable 601, a buckle 602, a pin 603, a scraper 701 and a telescopic electric pole 702.

Detailed Description

The technical scheme in the invention is further described below with reference to the accompanying drawings and examples:

As shown in fig. 1-6, the integrated classified sewage treatment tank comprises a tank body 1 and treatment equipment, the treatment equipment further comprises a closing component, an absorbing device, a separating device, a clamping mechanism and a cleaning device, the tank body 1 is hollow, one end of the tank body is provided with a fixed cover plate, a working cavity 201 is arranged in the tank body, the cleaning device is fixedly arranged at the end of the fixed cover plate of the tank body 1, a scraping plate 701 of the cleaning device is arranged in the working cavity 201, mounting seats 202 are arranged on two sides of the tank body 1, a screw rod of the closing component is arranged on the mounting seats 202 in a penetrating manner, the screw rod rotates to drive a tank cover 306 arranged at the other end of the tank body 1 to open and close, a feed inlet 203 is arranged at the top of the working cavity 201, the input end of the absorbing device is communicated with the feed inlet 203, a machine hole is formed in the tank cover 306 of the closing component, a plurality of groups of filter cloth 507 of the separating device are driven to move back and forth in the separating box 504, the clamping mechanism is arranged at the top end of the tank body 1, the sealing ring is arranged at the top of the tank body 1, the sealing ring is tightly fastened with the closing component by a pin 603 at the top of the tank cover 306, and the side of the tank body 1 is provided with a sealing groove.

In this embodiment, the closing assembly includes a set of first screws 304 rotatably connected to two sets of mounting seats 202 at two ends of two sides of the tank 1, one end of each first screw 304 is provided with a driving motor 303, the other end of each first screw 304 is rotatably mounted on each mounting seat 202, the other end of each first screw is rotatably connected to a baffle 305, one end of each baffle 305 is fixed to a tank cover 306, and a set of brackets 307 are fixed to the bottom of the tank 1.

Further, the closing assembly further comprises a vacuum pump 301 fixed on the fixed cover plate of the tank body 1, an outlet end of the vacuum pump 301 is communicated with a three-way valve 302, and two other loops of the three-way valve 302 are communicated with the top of the tank body 1, and the other loop is communicated with the lower part of the tank body 1 through a hole in the fixed cover plate.

Further, the absorbing device comprises a feeding pipe 401 communicated with the feeding hole 203, the feeding pipe 401 is fixed on a swivel mount 406, the swivel mount 406 is rotatably installed on the tank body 1 and is communicated with the feeding hole 401, a driven gear 405 is installed on the swivel mount 406, the driven gear 405 is meshed with a driving gear 404, the driving gear 404 is driven by a servo motor 403, the driving gear 404 is fixed at the top of the tank body 1 through a mounting plate 402, a hinged support 409 is rotatably installed at the top of the swivel mount 406, a water pumping pipe 407 is fixed on the hinged support 409, the water pumping pipe 407 is communicated with the feeding pipe 401, a hydraulic cylinder 408 is installed at the bottom of the hinged support 409, and the other end of the hydraulic cylinder 408 is fixed on the swivel mount 406.

Further, the separating device comprises a second screw rod 502 rotatably installed on the box cover 306, a stepping motor 501 is installed at one end of the second screw rod 502, the other end of the second screw rod is fixedly installed on the separating box 504 in a penetrating mode, one end of the separating box 504 is fixed on the box cover 306 through a connecting plate 503, filtering holes are densely formed in the bottom of the separating box 504, a group of guide rails 505 are installed on two sides of the upper portion in the separating box 504, a plurality of sliding block beams 506 are installed on the group of guide rails 505, the second screw rod 502 is sequentially installed in the middle of the plurality of sliding block beams 506 in a penetrating mode and is in threaded connection with the sliding block beams 506, a plurality of steel filter screens 507 are installed at the bottom ends of the sliding block beams 506, and the bottom ends of the steel filter screens 507 are rotatably connected to form a continuous filtering belt.

Further, the separating device further comprises a drain outlet 508 arranged at the bottom of the tank cover 306, and when the separating device is closed with the working cavity 201 of the tank body 1 through the closing component, the drain outlet 508 is communicated with the bottom of the working cavity 201.

Further, the separating apparatus further comprises inclined baffles 509 installed at both sides of the separating tank 504, and combined with the separating tank 504 to form a funnel shape for receiving sewage.

Further, the clamping mechanism comprises an electric rotary table 601 fixed at the top of the tank body 1, the electric rotary table 601 comprises a rotary motor and a rotary table, a buckle 602 is fixed at the front end of the rotary table, a pin 603 is arranged at the top of the tank cover 306, and when the closing component drives the tank body 1 to be folded with the closing component, the electric rotary table 601 rotates to drive the buckle 602 to rotate to the rear part of the pin 603 at the top of the tank cover 306 so as to clamp the integrated classified sewage treatment tank, so that the locking seal of the integrated classified sewage treatment tank is realized.

Further, the cleaning device comprises a group of telescopic electric poles 702 fixed on the penetrating and fixing cover of the tank body 1, the front ends of the group of telescopic electric poles 702 are connected with the scraping plate 701, and the scraping plate 701 is arranged inside the tank body 1 and is flatly attached to the inner surface of the tank body 1.

When the integrated classification sewage treatment tank is specifically used, the method for sewage treatment by adopting the integrated classification sewage treatment tank comprises the following steps:

Step1, after the integrated classified sewage treatment tank is installed in place, a buckle 602 of a clamping mechanism is initially positioned on the top surface of the tank body 1, a driving motor 303 is started, the driving motor 303 drives a first screw rod 304 to rotate, a baffle plate 305 screwed with the first screw rod 304 is driven to move towards the direction of the tank body 1, a tank cover 306 fixed with the baffle plate 305 moves in the same direction, and a separating device fixed with the tank cover 306 and a pin 603 move in the same direction in synchronization until the tank cover 306 is attached to the side surface of the tank body 1 and pressed;

Step2, starting a rotating motor of the electric turntable 601 to drive the turntable to rotate, and driving a buckle 602 fixed with the turntable to rotate to the rear part of a top pin 603 of the tank cover 306 by the turntable to clamp the buckle, so that the integrated classified sewage treatment tank is synchronously locked and sealed;

Step3, starting a servo motor 403 of the absorption device, driving a driving gear 404 to rotate, driving the driving gear 404 to drive a driven gear 405 meshed with the driving gear 404 to rotate, driving a swivel base 406 to rotate, driving a water pumping pipe 407 to swing by the swivel base 406 to transversely face a sewage source, starting a hydraulic cylinder 408, driving a hinged support 409 to rotate by the hydraulic cylinder 408, and driving a pipe orifice of the water pumping pipe 407 to align with the sewage source by the hinged support 409;

Step4, sewage enters the separating device through the feed port 203, the stepping motor 501 is started, the stepping motor 501 rotates to drive the second screw rod 502 to rotate, the second screw rod 502 drives the sliding block beam 506 to move, the sliding block beam 506 drives the steel filter screen 507 to move, sludge in the sewage is filtered, water enters the tank body 1 through the steel filter screen 507 and the filtering holes at the bottom of the separating box 504 and is discharged through the drain outlet 508, and meanwhile, the sliding block beam 506 is closed layer by layer to compress the sludge left in the filter cloth into a cake shape;

Step5, starting a rotating motor of the electric turntable 601, reversing the rotating motor to drive the turntable to reversely rotate, and driving a buckle 602 fixed with the turntable to rotate to the top of the tank body 1 by the turntable, separating from a pin 603 and loosening the closing assembly;

Step6, starting a driving motor 303, reversing the driving motor 303, driving a first screw rod 304 to reversely rotate, driving a baffle plate 305 screwed with the first screw rod to move away from the tank body 1, keeping away from a tank cover 306 fixed with the baffle plate 305, and synchronously keeping away from a separating device fixed with the tank cover 306 and a pin 603 in the same direction until the separating device is moved out of a working cavity 201 of the tank body 1;

Step7, starting a stepping motor 501, reversely rotating the stepping motor 501 to drive a second screw rod 502 to reversely rotate, reversely moving a sliding block beam 506 by the second screw rod 502, reversely moving a steel filter screen 507 by the sliding block beam 506, unfolding each layer of steel filter screen 507, and taking out cake-shaped sludge;

Step8, repeating Step 2-Step 3, opening the three-way valve 302, starting the vacuum pump 301, feeding water to the top and the bottom of the tank body 1, cleaning the working cavity of the tank body 1, starting the telescopic electric pole 702, pushing the scraper 701 by the telescopic electric pole 702 to scrape the bottom of the working cavity 201 of the tank body 1, discharging the cleaned water through the sewage outlet 508, and repeating Step 4-Step 7 when sewage treatment is carried out next time.

In a preferred scheme, the closing component comprises a group of first screw rods 304 rotationally connected with two groups of mounting seats 202 at two ends of the tank body 1, a driving motor 303 is mounted at one end of each first screw rod 304, the other end of each first screw rod is rotationally mounted with each mounting seat 202, the middle part of each first screw rod is rotationally connected with a baffle 305, one end of each baffle 305 is fixed with a tank cover 306, a group of brackets 307 are fixed at the bottom of the tank body 1, flexible opening and closing of the tank body 1 and the tank cover 306 are achieved through the arrangement, the rotation of the first screw rods 304 is controlled through the positive and negative rotation of the driving motor 303, the baffles 305 and the tank cover 306 are driven to move along the axial direction of the tank body 1, sealing and opening operations are completed, and the closing component is compact in structure and convenient to operate.

In the preferred scheme, the closing component further comprises a vacuum pump 301 fixed on the fixed cover plate of the tank body 1, the outlet end of the vacuum pump 301 is communicated with a three-way valve 302, one of the other two loops of the three-way valve 302 is communicated with the top of the tank body 1, the other loop is communicated with the lower portion of the tank body 1 through a hole on the fixed cover plate, and the arrangement ensures that the inside of the tank body 1 can be flexibly vacuumized, ensures stable environment in the tank, is convenient for cleaning or maintaining the inside of the tank body, and improves the flexibility and practicability of the whole equipment.

In the preferred scheme, the absorbing device comprises a feeding pipe 401 communicated with a feeding hole 203, the feeding pipe 401 is fixed on a rotary seat 406, the rotary seat 406 is rotatably arranged on a tank body 1 and communicated with the feeding hole 401, a driven gear 405 is arranged on the rotary seat 406, the driven gear 405 is meshed with a driving gear 404, the driving gear 404 is driven by a servo motor 403, the driving gear 404 is fixed at the top of the tank body 1 through a mounting plate 402, a hinged support 409 is rotatably arranged at the top of the rotary seat 406, a water suction pipe 407 is fixed on the hinged support 409, the water suction pipe 407 is communicated with the feeding pipe 401, a hydraulic cylinder 408 is arranged at the bottom of the hinged support 409, the other end of the hydraulic cylinder 408 is fixed on the rotary seat 406, the flexible rotation and lifting of the water suction pipe 407 can be realized, the driving gear 404 is controlled by the servo motor 403 to drive the driven gear 405 to rotate, the feeding direction is adjusted, and the lifting of the water suction pipe 407 is controlled by the hydraulic cylinder 408 so as to adapt to sewage sources with different heights, and the absorbing efficiency and the flexibility are improved.

In a preferred scheme, the separating device comprises a second screw rod 502 rotatably installed on the box cover 306, a stepping motor 501 is installed at one end of the second screw rod 502, the other end of the second screw rod 502 is fixedly installed on the separating box 504 in a penetrating mode, one end of the separating box 504 is fixed on the box cover 306 through a connecting plate 503, filtering holes are densely formed in the bottom of the separating box 504, a group of guide rails 505 are installed on two sides of the upper portion in the separating box 504, a plurality of sliding block beams 506 are installed on one group of guide rails 505, the second screw rod 502 sequentially penetrates through the middle of the plurality of sliding block beams 506 and is in threaded connection with the sliding block beams 506, a plurality of steel filter screens 507 are installed at the bottom ends of the sliding block beams 506, the bottom ends of the steel filter screens 507 are rotatably connected to form a continuous filtering belt, and the arrangement is such that under the driving of the stepping motor 501, the second screw rod 502 is driven to slide the sliding block beams 506 and the steel filter screens 507 along the guide rails 505 to realize continuous movement of the filtering belt, impurities are effectively filtered and discharged, and meanwhile the clean and efficient separation effect in the separating box 504 is maintained.

In the preferred scheme, the separating device further comprises a drain outlet 508 arranged at the bottom of the box cover 306, when the separating device is closed with the working cavity 201 of the tank body 1 through the closing component, the drain outlet 508 is communicated with the bottom of the working cavity 201, impurities and sewage deposited in the working cavity 201 can be effectively discharged through the arrangement, the continuous and efficient separation process is ensured, meanwhile, the design of the drain outlet 508 is convenient for regular cleaning and maintenance, and the overall service life and reliability of the separating device are improved.

In the preferred scheme, the separation device further comprises inclined baffles 509 arranged on two sides of the separation box 504 and combined with the separation box 504 to form a funnel shape for receiving sewage, and the arrangement can further ensure that sewage smoothly flows into the separation box under the action of gravity, reduce the phenomena of sputtering and side leakage, improve the efficiency and the cleanliness of sewage treatment, and meanwhile, the design of the inclined baffles 509 is also beneficial to slowing down the water flow speed and promoting the sedimentation of impurities.

In the preferred scheme, the clamping mechanism comprises an electric turntable 601 fixed at the top of the tank body 1, the electric turntable 601 comprises a rotating motor and a turntable, a buckle 602 is fixed at the front end of the turntable, a pin 603 is arranged at the top of the tank cover 306, when the closing component drives the tank body 1 and the closing component to be folded with the tank body 1, the electric turntable 601 rotates to drive the buckle 602 to rotate to the rear part of the pin 603 at the top of the tank cover 306 so as to clamp the integrated classified sewage treatment tank, the arrangement improves the tightness of the tank body 1, simplifies the operation flow and ensures the safety and efficiency in the treatment process, and meanwhile, the design of the electric turntable 601 enables the maintenance and replacement of the buckle 602 to be more convenient, and the whole service life and flexibility of equipment are improved.

In the preferred scheme, the cleaning device comprises a group of telescopic electric poles 702 fixed on a penetrating and fixing cover of the tank body 1, the front ends of the group of telescopic electric poles 702 are connected with a scraping plate 701, the scraping plate 701 is installed inside the tank body 1 and is flatly attached to the inner surface of the tank body 1, the scraping plate 701 can flexibly move along with the telescopic electric poles 702, residues on the inner wall of the tank body 1 are effectively scraped, cleaning efficiency and effect are improved, meanwhile, the scraping plate 701 is designed to be attached to the inner wall of the tank body 1, and dead angle free cleaning is guaranteed.

In summary, according to the integrated classified sewage treatment tank and the arrangement method, the sewage is classified, so that a plurality of procedures of traditional sewage treatment are simplified, the separation of sludge and sewage is directly completed in the tank body 1, the working efficiency of equipment is remarkably improved, the automation level is high, the manual operation is reduced, the treatment speed is accelerated, and the sewage treatment is more efficient and faster; the device adopts an advanced separating device, drives the second screw rod 502 to rotate through a stepping motor, drives the sliding block beam 506 and the steel filter screen 507 to extrude, effectively removes moisture in sludge, extrudes the sludge into a cake shape, is convenient for subsequent collection and treatment, improves the quality of sewage treatment, is provided with a cleaning device capable of automatically scraping and cleaning the working cavity 201, avoids residues of sewage and sludge in a tank body, further improves the cleanliness and treatment effect of equipment, is capable of automatically rotating and swinging according to the requirement, adapts to sewage absorption requirements of different positions, improves the flexibility and adaptability of the equipment, realizes automatic opening and closing of a closing component through the driving motor 303 and the first screw rod 304, realizes sealing reinforcement through the electric turntable 601 and the buckle 602, enhances the automation level of the equipment, improves the stability and the tightness of the equipment, improves the stability of the equipment, ensures that shaking or the design of the closing component and the clamping mechanism does not occur in the treatment process, ensures the tightness of the equipment in the working process, prevents the sewage leakage, reduces the complexity and the operation cost of the whole design and the whole operation process of the equipment, reduces the occupied area and the quantity of the equipment, the method reduces the operation complexity and the maintenance cost, has high-efficiency sewage and sludge treatment capacity, reduces the resources and time required by subsequent treatment, reduces the overall treatment cost, finishes the classification treatment of the sludge and the sewage in the tank body, greatly improves the working efficiency of equipment and enhances the automation level, and integrates various automation components such as a servo motor 403, a stepping motor 501, a hydraulic cylinder 408 and the like can automatically complete the suction and classification of sewage, The processes of extrusion, cleaning and the like reduce manual intervention and improve the convenience and accuracy of operation; the separating device adopts a steel filter screen 507 and a sliding block beam 506 structure, sludge in sewage is formed into a cake shape through extrusion, subsequent collection and treatment are facilitated, the dewatering rate and treatment quality of the sludge are improved, the cleaning device can automatically scrape the inside of the tank body, residues of the sewage and the sludge in the tank body are effectively avoided, the cleanliness of the equipment is kept, the closing assembly adopts a screw rod and baffle 305 structure, the opening and closing of the tank body 1 and the tank cover 306 are realized through driving of a driving motor 303, the tightness and the stability of the equipment are improved, the clamping mechanism strengthens and seals the tank cover 306 through an electric turntable 601 and a buckle 602, the tightness of the equipment is further ensured, the sewage leakage is prevented, the absorbing device can rotate and swing to adapt to the absorption requirements of different positions, the flexibility and the adaptability of the equipment are improved, the connection and the cooperation between the assemblies are reasonable in design, the installation and the maintenance are easy, the running cost of the equipment is reduced, the sewage and the sludge are efficiently treated, the emission of pollutants is reduced, the water resource and ecological environment are protected, the automatic operation of the equipment is reduced, the manual intervention and the emission are reduced, the sealing is guaranteed, the tightness of the sealing device is further ensured, the sewage is prevented from leaking, the sewage is fully developed, the problem of the water resource is continuously treated, and the problem of the water resource is continuously is improved, and the water resource is continuously treated in a water treatment scheme is improved The method has the advantages of improving the processing quality, enhancing the automation and the flexibility, improving the stability and the sealing performance of equipment, reducing the operation complexity and the cost, being environment-friendly and the like, and has higher practical value and popularization prospect.

Claims (8)

1. An integrated wastewater treatment tank, comprising a tank body (1) and treatment equipment, characterized in that: the treatment equipment further comprises a closure assembly, an absorption device, a separation device, a clamping mechanism, and a cleaning device; the tank body (1) is hollow, with a fixed cover plate at one end, and a working chamber (201) is provided inside; the cleaning device is installed and fixed at the fixed cover plate end of the tank body (1), and its scraper (701) is installed inside the working chamber (201); mounting seats (202) are provided on both sides of the tank body (1); the screw of the closure assembly is mounted on the mounting seat (202); the screw rotates, driving the cover (701) installed at the other end of the tank body (1) to rotate. 306) Opening and closing, the top of the working chamber (201) is provided with a feed inlet (203), the input end of the absorption device is connected to the feed inlet (203), an organic hole is opened in the box cover (306) of the closing component, the screw of the separation device is inserted into the machine hole, driving the multiple sets of filter cloths (507) of the separation device to move back and forth in the separation box (504), the clamping mechanism is set at the top of the tank (1), and the tank (1) and the closing component are closed and fastened through the pin (603) at the top of the box cover (306), and a sealing groove is provided on the side of the tank (1), and a sealing ring is installed in the groove; the closing component includes The first lead screw (304) is rotatably connected to two sets of mounting seats (202) at both ends of the tank body (1). One end of the first lead screw (304) is equipped with a drive motor (303), and the other end is rotatably installed with the mounting seat (202). The middle part is rotatably connected with a baffle (305). One end of the baffle (305) is fixed to the box cover (306). A set of brackets (307) is fixed at the bottom of the tank body (1). The separation device includes a second lead screw (502) rotatably installed on the box cover (306). One end of the second lead screw (502) is equipped with a stepper motor (501). One end is fixed to the separation box (504), and the other end of the separation box (504) is fixed to the box cover (306) through the connecting plate (503). The bottom of the separation box (504) is densely provided with filter holes. A set of guide rails (505) are installed on both sides of the upper part of the separation box (504). Several sliding beams (506) are installed on the set of guide rails (505). The second screw (502) is sequentially inserted into the middle of several sliding beams (506) and screwed to them. Several steel filter screens (507) are installed at the bottom of the sliding beams (506). The bottom ends of each steel filter screen (507) are rotated and connected to form a continuous filter belt. 2. The integrated wastewater treatment tank according to claim 1, characterized in that: the closing assembly further includes a vacuum pump (301) fixed on the fixed cover plate of the tank body (1), the outlet end of the vacuum pump (301) is connected to a three-way valve (302), and the other two circuits of the three-way valve (302) are connected to the top of the tank body (1) and the other circuit is connected to the lower part of the tank body (1) through a hole on the fixed cover plate. 3. The integrated wastewater treatment tank according to claim 2, characterized in that: the absorption device includes a feed pipe (401) communicating with the feed inlet (203), the feed pipe (401) is fixed on a rotating seat (406), the rotating seat (406) is rotatably mounted on the tank body (1) and communicating with the feed inlet, a driven gear (405) is mounted on the rotating seat (406), the driven gear (405) meshes with the driving gear (404), and the driving gear (405) meshes with the driving gear (404). 04) Driven by a servo motor (403), the drive gear (404) is fixed to the top of the tank (1) by the mounting plate (402). A hinge (409) is rotatably mounted on the top of the turntable (406). A water pumping pipe (407) is fixed on the hinge (409). The water pumping pipe (407) is connected to the feed pipe (401). A hydraulic cylinder (408) is installed at the bottom of the hinge (409). The other end of the hydraulic cylinder (408) is fixed on the turntable (406). 4. The integrated wastewater treatment tank according to claim 3, characterized in that: the separation device further includes a drain port (508) provided at the bottom of the tank cover (306), and when the separation device is closed with the working chamber (201) of the tank body (1) through the closing component, the drain port (508) is connected to the bottom of the working chamber (201). 5. The integrated wastewater treatment tank according to claim 4, characterized in that: the separation device further includes inclined baffles (509) installed on both sides of the separation box (504), which, together with the separation box (504), form a funnel shape for receiving wastewater. 6. The integrated classified sewage treatment tank according to claim 5, characterized in that: the clamping mechanism includes an electric turntable (601) fixed on the top of the tank body (1), the electric turntable (601) includes a rotary motor and a turntable, a buckle (602) is fixed at the front end of the turntable, and a pin (603) is provided on the top of the cover (306). When the closing component drives the tank body (1) and the closing component closes with the tank body (1), the electric turntable (601) rotates and drives the buckle (602) to rotate to the rear of the pin (603) on the top of the cover (306) and clamp it, thereby realizing the locking and sealing of the integrated classified sewage treatment tank. 7. The integrated wastewater treatment tank according to claim 6, characterized in that: the cleaning device includes a set of telescopic electric rods (702) fixed on the tank body (1) with a fixed cover, the front end of the set of telescopic electric rods (702) is connected to a scraper (701), and the scraper (701) is installed inside the tank body (1) and is flush with the inner surface of the tank body (1). 8. An integrated wastewater treatment method, characterized in that it employs the integrated wastewater treatment tank as described in claim 7, the method comprising the following steps: Step 1: After the integrated wastewater treatment tank is installed in place, the buckle (602) of the clamping mechanism is initially positioned on the top surface of the tank (1). Start the drive motor (303), and the drive motor (303) drives the first lead screw (304) to rotate, which drives the baffle (305) that is screwed to it to move towards the tank (1). The cover (306) that is fixed to the baffle (305) moves in the same direction. The separation device and pin (603) that are fixed to the cover (306) move in the same direction and synchronously until the cover (306) is pressed tightly against the side of the tank (1). Step 2: Start the rotary motor of the electric turntable (601) to drive the turntable to rotate. The turntable drives the buckle (602) fixed to it to rotate to the rear of the top pin (603) of the cover (306) to lock it in place, and simultaneously lock and seal the integrated classified sewage treatment tank. Step 3: Start the servo motor (403) of the absorption device, drive the drive gear (404) to rotate, drive the driven gear (405) meshing with it to rotate, drive the rotating seat (406) to rotate, the rotating seat (406) rotates to drive the pumping pipe (407) to swing horizontally, facing the sewage source laterally, start the hydraulic cylinder (408), the hydraulic cylinder (408) drives the hinge seat (409) to rotate, the hinge seat (409) drives the pumping pipe (407) to align with the sewage source; Step 4: Wastewater enters the separation device through the feed inlet (203), and the stepper motor (501) is started. The stepper motor (501) rotates, which drives the second lead screw (502) to rotate. The second lead screw (502) drives the slider beam (506) to move. The slider beam (506) drives the steel filter screen (507) to move, filtering the sludge in the wastewater. The water enters the tank (1) through the filter holes at the bottom of the steel filter screen (507) and the separation box (504) and is discharged through the drain port (508). At the same time, the slider beam (506) moves closer layer by layer, compressing the sludge left in the filter cloth into a cake shape. Step 5: Start the rotary motor of the electric turntable (601). The rotary motor reverses and drives the turntable to rotate in the opposite direction. The turntable drives the buckle (602) fixed to it to rotate to the top of the tank (1), separates from the pin (603), and releases the closing assembly. Step 6: Start the drive motor (303). The drive motor (303) reverses and drives the first lead screw (304) to rotate in the opposite direction, which drives the baffle (305) that is screwed with it to move away from the tank (1). The box cover (306) that is fixed to the baffle (305) moves away together. The separation device and pin (603) that are fixed to the box cover (306) move away synchronously in the same direction until the separation device is removed from the working chamber (201) of the tank (1). Step 7: Start the stepper motor (501). The stepper motor (501) rotates in the opposite direction, which drives the second lead screw (502) to rotate in the opposite direction. The second lead screw (502) drives the slider beam (506) to move in the opposite direction. The slider beam (506) drives the steel filter screen (507) to move in the opposite direction. Each layer of steel filter screen (507) unfolds and the cake-shaped sludge inside is removed. Step 8: Repeat Step 2 to Step 3, open the three-way valve (302), start the vacuum pump (301), and fill the top and bottom of the tank (1) with water to clean the working chamber of the tank (1). Start the telescopic pole (702), and the telescopic pole (702) pushes the scraper (701) to scrape the bottom of the working chamber (201) of the tank (1). The cleaned water is discharged through the drain (508). When treating sewage again, repeat Step 4 to Step 7.