CN116655078A

CN116655078A - Flue gas desulfurization wastewater processor and use method thereof

Info

Publication number: CN116655078A
Application number: CN202310942901.1A
Authority: CN
Inventors: 胡庆华; 田言明; 何敏
Original assignee: Shandong Zhongzhi Environmental Engineering Equipment Co ltd
Current assignee: Shandong Xiaochen Chemical Technology Co ltd
Priority date: 2023-07-31
Filing date: 2023-07-31
Publication date: 2023-08-29
Anticipated expiration: 2043-07-31
Also published as: CN116655078B

Abstract

The invention relates to the technical field of flue gas desulfurization wastewater treatment. The invention discloses a flue gas desulfurization wastewater processor and a use method thereof, the flue gas desulfurization wastewater processor comprises a treatment tank, the side end of the treatment tank is fixedly connected with a water inlet pipe, the water inlet pipe is communicated with the inside of the treatment tank, a plurality of impurity discharging devices for treating impurities in water are arranged on the bottom wall in the treatment tank and are respectively positioned in a through groove formed in the inner bottom wall, the side end of each impurity discharging device is respectively provided with a guiding triggering device for controlling the starting of the impurity discharging device, the bottoms of the guiding triggering devices are communicated with the top of a reservoir through the bottom of the treatment tank, and the impurity discharging devices comprise a collecting assembly and an opening and closing assembly. The invention works through the impurity discharging device, and can separate and collect the impurities precipitated in the desulfurization wastewater when the desulfurization wastewater is treated, and discharge the impurities after the impurities are collected, so that the purification effect and the practicability are greatly improved.

Description

Flue gas desulfurization wastewater processor and use method thereof

Technical Field

The invention relates to the technical field of flue gas desulfurization wastewater treatment, in particular to a flue gas desulfurization wastewater treatment device and a use method thereof.

Background

Wet flue gas desulfurization is a common flue gas desulfurization method, and has the characteristics of high reaction speed, high efficiency and the like, but the flue gas desulfurization wastewater (simply referred to as "wastewater") generated by adopting the method contains a large amount of pollutants such as particulate matters, sulfite ions and the like, and the environment is polluted if the pollutants are not treated, so that the flue gas desulfurization wastewater processor is very necessary.

In the prior art, when desulfurization waste water is treated, usually, desulfurization waste water added with a flocculating agent needs to be introduced into a reaction tank, after desulfurization waste water fully reacts with the flocculating agent, precipitation occurs in the desulfurization waste water, and further purified desulfurization waste water is obtained, in the process, reaction impurities are free to precipitate in the reaction tank due to the desulfurization waste water, in the process of extracting the purified desulfurization waste water, part of impurities can float to the water surface again due to the action of water flow, thereby the purification effect is reduced, and meanwhile, when the impurities in the reaction tank are excessively accumulated, staff also need to empty a water source in the reaction tank, and then can clean the impurities in the reaction tank, so that the next work is convenient, so that waste water cannot be continuously and stably treated, the practicability is insufficient, and therefore, a device which can isolate and collect the impurities precipitated in the desulfurization waste water during the treatment and can be discharged after the collection of the desulfurization waste water, so as to avoid the low purification effect and the insufficient practicability is needed.

Disclosure of Invention

The invention aims to provide a flue gas desulfurization wastewater processor and a use method thereof, which are used for solving the problems in the background technology. In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a flue gas desulfurization wastewater treatment ware, includes the treatment tank, the side fixedly connected with inlet tube of treatment tank, inlet tube and the inside intercommunication setting of treatment tank, be equipped with a plurality of impurity discharging device that is used for handling aquatic impurity on the diapire in the treatment tank and be located the through-tank that interior bottom wall offered respectively, every impurity discharging device's side is equipped with the guide trigger device that control impurity discharging device starts respectively, a plurality of guide trigger device's bottom all passes the bottom of treatment tank and the top intercommunication setting of cistern, impurity discharging device includes collection subassembly and the subassembly that opens and shuts, collection subassembly sets up the through-tank of diapire in the treatment tank, the subassembly that opens and shuts sets up in collection subassembly.

Preferably, the collecting assembly comprises a collecting barrel, the side of collecting barrel and the through groove inner wall fixed connection of handling the bottom in the pond, the vertical both sides and the inner wall fixed connection of collecting barrel that are equipped with slip post and slip post in the collecting barrel, the slip post is the cavity setting, sliding connection has the slip circle on the slip post, evenly rotate all around of slip circle is connected with a plurality of flabellum, the one end that the flabellum is close to the slip post passes the lateral wall of slip post and with the upper and lower sliding fit of slip groove inner wall through the sliding groove, the flabellum is located the one end of slip post and is fixedly connected with unfilled corner gear, the vertical driving rack that is equipped with of side of unfilled corner gear, and driving rack's side and slip post inner wall fixed connection, driving rack's tooth's socket end and unfilled corner gear engagement, fixedly connected with a plurality of buoy on the bottom of flabellum, a plurality of flabellum make up into circular and the outer wall of a plurality of flabellum and laminating mutually with the inner wall of collecting barrel when a plurality of flabellum keeps the level.

Preferably, the opening and closing assembly comprises a rotating shaft, the bottom of the collecting barrel is in a through arrangement, the lower level of the sliding column is provided with the rotating shaft, the two ends of the rotating shaft are fixedly connected with the inner wall of the collecting barrel, three annular grooves are formed in the surface of the rotating shaft, annular sleeves are connected in a rotating mode, the side ends of the annular sleeves are fixedly connected through first bottom plates, the side ends of the rotating shaft are fixedly connected through second bottom plates, and when the first bottom plates and the second bottom plates are kept level with each other, the first bottom plates and the second bottom plates are mutually combined into a round shape, and the side ends of the first bottom plates and the second bottom plates are attached to the inner wall of the collecting barrel.

Preferably, the guiding triggering device comprises a water level control assembly and two sections of triggering assemblies, the water level control assembly is arranged in the treatment tank, the two sections of triggering assemblies are arranged on the water level control assembly and are located on one side of the impurity discharging device, the water level control assembly comprises a water outlet pipe, a floating block is slidably connected to the side end of the top of the water outlet pipe, the floating block is located above one end of the water outlet pipe, the center of the floating block is provided with a guiding block, the center of the floating block is rotatably connected with the inner wall of the water outlet pipe, the top of the floating block located one end of the water outlet pipe is attached to the bottom of one side of the guiding block, rotating blocks are respectively arranged on the upper side and the lower side of the guiding block, two adjacent ends of the rotating blocks are rotatably connected with the inner wall of the water outlet pipe respectively, one end, far away from the guiding block, of the water outlet pipe is rotatably connected with one end, close to the rotating blocks, of the upper side and the lower side of the guiding block respectively, of the water outlet pipe is provided with two water inlet gates, the two water inlet gates are arranged up and down, one side, close to the inner wall of the water inlet gate is rotatably connected with the inner wall of the water inlet pipe respectively through the L-shaped connecting rod side.

Preferably, the two sections of triggering components comprise a first abutting plate, the side end of the first abutting plate is in vertical sliding fit with the inner wall of the water inlet pipe, the first abutting plate is horizontally arranged, one end of the first abutting plate, which is close to the collecting barrel, is fixedly connected with an H-shaped sliding block, the H-shaped sliding block is in vertical sliding fit with the side wall of the water inlet pipe through a downward pressing groove, the bottom of the H-shaped sliding block, which is positioned in the downward pressing groove, is movably connected with the bottom of the downward pressing groove through a first spring, one side of the H-shaped sliding block, which is close to the collecting barrel, is fixedly connected with a triggering piece, the bottom, which is far away from one side of the water inlet pipe, is positioned above the sliding ring, a second abutting plate parallel to the triggering piece is arranged below the first abutting plate, the side end of the second abutting plate is in vertical sliding fit with the groove of the inner wall of the water inlet pipe, the bottom of the second abutting plate is movably connected with the bottom of the groove through a plurality of second springs, the second abutting plate is provided with a movable groove on one side close to the collecting barrel, a trapezoid block is horizontally arranged in the movable groove, one end of the trapezoid block, which is positioned in the water inlet pipe, is in a slope shape, the top of the trapezoid block is attached to the bottom of the second abutting plate, one end of the trapezoid block, which is far away from the movable groove, is fixedly connected with an arc frame, the outer side of the collecting barrel is covered by the arc frame, one end of the arc frame is slidably connected in a reset box, the side end of the reset box is fixedly connected with the side wall of the collecting barrel, the side end of one end of the arc frame is movably connected with the side wall in the reset box through a third spring, the other end of the arc plate is fixedly connected with an unlocking block, one end of the rotating shaft, which is close to the unlocking block, penetrates through the side wall of the collecting barrel and is rotationally connected with the unlocking block, one end of the rotating shaft, which is positioned outside the collecting barrel, is fixedly connected with a first crank, one side of the first crank, which is far away from the collecting barrel, is provided with a second crank, one end of the second crank penetrates through the center of one end of the first crank and is connected with the side end of the adjacent annular sleeve, the second crank is in mutual running fit with the first crank, and the other ends of the first crank and the second crank are respectively located on the upper side and the lower side of the unlocking block and are respectively in sliding fit with the matched moving grooves formed in the unlocking block.

Preferably, a silica gel soft cushion for preventing water in the water inlet pipe from overflowing from the moving groove is paved on the surface of the H-shaped sliding block.

Preferably, a sealing gasket is paved on the inner wall of the collecting barrel.

Preferably, the application method of the flue gas desulfurization wastewater processor comprises the following steps:

s1: when staff introduces desulfurization wastewater added with flocculating agent into a treatment tank through a water inlet pipe, the buoy arranged at the bottom of the fan blades drives a plurality of fan blades to move upwards in a collecting barrel along a sliding column under the action of a sliding ring under the action of water buoyancy, and the fan blades are driven to rotate under the action of a bevel gear and a driving rack in the process of moving towards the top of the barrel, and the rotating angle of the fan blades is controlled through the arranged bevel gear, so that all the fan blades incline after moving to the top of the collecting barrel, impurities in water are convenient to precipitate in the tank and fall into the collecting barrel and are positioned on a first bottom plate and a second bottom plate, so that the impurities and a purified water source are isolated, the possibility that part of impurities can float to the water surface again in the process of discharging clean water is avoided, secondary pollution to the purified desulfurization wastewater is avoided, and the purifying effect is improved;

S2: when a worker continuously injects wastewater into the treatment tank, a water line in the treatment tank gradually rises, a preset threshold value is adopted, so that enough reaction time is given to the wastewater and the flocculating agent, after the water line rises, under the action of buoyancy, the floating blocks are driven to gradually float at the side end of the water inlet pipe, after the floating blocks float upwards, the guide blocks are driven to rotate upwards in the water inlet pipe, the two driving rods are respectively driven to be mutually far away, the two rotating blocks are driven to deflect towards opposite directions, the two water inlet doors are driven to mutually keep away from and rotate under the action of the linkage rod and the L-shaped connecting rod, the water inlet tank is opened, impurities generated due to full reaction of the wastewater and the flocculating agent are precipitated, the wastewater with higher water level is purified water, and the purified water higher than the water inlet tank enters the water inlet pipe through the water inlet tank and is stored in the water storage tank, so that automatic quantitative emission and collection are realized after the wastewater is injected;

s3: when discharged water intensively falls to a first designated height in a water outlet pipe, thereby driving a first interference plate to press down, then driving an H-shaped sliding block to slide in a pressing groove, thereby compressing a first spring, and striking a sliding ring downwards through a trigger piece, thereby driving the sliding ring to move upwards and downwards in a sliding column, thereby driving a plurality of fan blades to rotate to be flush with each other through a driving rack, thereby enabling the top of a collecting barrel to be closed, through a first spring arranged, thereby being discharged without water in a water inlet pipe, the trigger piece can reset, thereby avoiding the situation that the collecting barrel cannot collect impurities, and falling to a second designated height in the water outlet pipe, thereby driving a second interference plate to slide downwards through a second spring, thereby driving one end of a slope shape through a trapezoid block to slide in a direction away from the water outlet pipe in the moving groove, thereby driving an arc frame to move towards the direction of the collecting barrel, thereby enabling a lock releasing block to drive a first crank and a second crank to rotate in opposite directions respectively through a matching moving groove, thereby driving the rotating shaft and the annular sleeve to rotate in opposite directions, thereby driving the bottom plate and the annular sleeve to rotate in opposite directions, thereby driving the first crank and the bottom plate to rotate in opposite directions, thereby driving the second crank to move away from the second crank, thereby continuously moving water in the water outlet pipe, and the water level, thereby continuously moving downwards at the bottom of the collecting barrel, thereby opening the bottom plate is kept away from the bottom plate through the second base plate, continuously moving downwards through the water level, thereby continuously, and continuously sealing the bottom plate is closed by the bottom plate, and continuously moving in the water flow has the bottom plate, and the bottom plate is continuously has reached by the bottom plate and has the water flow and has a high flow resistance effect and has a high quality, and then, the water source in the pond is prevented from being emptied, impurities in the pond can be cleaned, and further, the continuous and stable wastewater treatment is ensured, and the practicability of the device is further improved.

Compared with the prior art, the invention has the beneficial effects that:

when the device is used, a worker firstly introduces desulfurization wastewater added with a flocculating agent into a treatment tank through a water inlet pipe, then under the action of buoyancy of water, the top of a collecting component is controlled to be opened so as to start working, when the wastewater enters, a guide trigger device with a preset threshold value is used for controlling the guide trigger device to be opened after the water level rises, then a clean water source positioned on the water surface is quantitatively discharged into a reservoir, in the water level rising process, the given desulfurization wastewater reacts in the treatment tank for a period of time, so that the desulfurization wastewater can fully react with the flocculating agent, impurities in the water are precipitated in the tank and fall into the collecting component, and meanwhile, in the process of discharging the clean water on the water surface through the guide trigger device, when the discharged water falls to the first designated height, the top of the collecting assembly is driven to be closed, and when the discharged water falls to the second designated height, the bottom of the collecting assembly is opened through the opening and closing assembly, so that impurities in the collecting assembly are discharged under the action of water pressure, and after the water level in the treatment tank is lowered, the water level control assembly is closed, so that the water discharge is stopped, the continuous use of the device is facilitated, in the process, the possibility that part of impurities float to the water surface again in the process of discharging clean water is avoided, secondary pollution to the purified desulfurization wastewater is avoided, the purifying effect is improved, meanwhile, the water source in the tank is avoided from being emptied, the impurities in the tank can be cleaned, the continuous and stable wastewater treatment is further ensured, the practicability of the device is further improved, therefore, the effects that impurities precipitated in the desulfurization wastewater can be isolated and collected when the desulfurization wastewater is treated, and the impurities can be discharged after the impurities are collected so as to avoid low purification effect and insufficient practicability are achieved.

According to the invention, the buoys arranged at the bottoms of the blades are used for driving the plurality of blades to move upwards in the collecting barrel along the sliding column under the action of the sliding ring under the action of the buoyancy force of water, and the blades are driven to rotate under the action of the unfilled corner gears and the driving racks in the process of moving towards the top of the barrel, and the rotating angles of the blades are controlled through the arranged unfilled corner gears, so that all the blades incline after moving to the top of the collecting barrel, impurities in water are convenient to precipitate in a pool and fall into the collecting barrel and are positioned on the first bottom plate and the second bottom plate, so that the impurities and a purified water source are isolated, the possibility that part of impurities float to the water surface again in the process of discharging clean water is avoided, secondary pollution to the purified desulfurization wastewater is avoided, and the purifying effect is improved.

In the invention, when a worker continuously injects wastewater into a treatment tank, a water line in the treatment tank gradually rises, a preset threshold value is adopted to give enough reaction time to the wastewater and a flocculating agent, so that after the water line rises, a floating block is driven to gradually float at the side end of a water inlet pipe under the action of buoyancy, after the water line floats upwards, a water inlet tank is opened, impurities generated by the sufficient reaction of the wastewater and the flocculating agent are deposited, the wastewater with higher water level is purified water, the purified water with higher water level is led to enter the water inlet pipe through the water inlet tank and be stored in a reservoir, automatic quantitative discharge and collection are realized after the wastewater is injected, when the discharged water intensively falls to a first designated height in a water outlet pipe, a plurality of fan blades are driven to rotate to be flush with each other through a driving rack, thereby the top of the collecting barrel is closed, through the first spring arranged, when no water is discharged from the water inlet pipe, the trigger piece can reset, thereby avoiding the condition that the collecting barrel cannot collect impurities, when the trigger piece falls to a second designated height in the water outlet pipe, the second abutting plate is driven to move downwards through the second spring, thereby driving the first bottom plate and the second bottom plate to gather downwards, thereby opening the bottom of the collecting barrel, after the bottom of the collecting barrel is opened, the water flow is rapidly converged, thereby discharging the impurities positioned in the collecting barrel under the action of water pressure, and after the water level in the treatment tank falls, stopping water discharge, resetting the arc frame through the reset box and the third spring, further enabling the first bottom plate and the second bottom plate to rotate away from each other, thereby closing the bottom of the collecting barrel, and make continuously by the synchronous reset of the second conflict board of rivers punching press through the second spring, and then the persistence of this device of being convenient for uses, has avoided then the water source evacuation in the pond, and the impurity in the just can the pond is cleared up, and then guaranteed can last stable waste water treatment, further improved the practicality of this device.

According to the invention, the silica gel cushion is arranged, so that when the H-shaped sliding block moves downwards at one side of the water inlet pipe, a clean water source is prevented from overflowing from the water inlet pipe.

According to the invention, the sealing gasket is arranged, so that when the plurality of fan blades move downwards along the inner wall of the collecting barrel, the sealing performance between the outer sides of the plurality of fan blades and the inner wall of the collecting barrel is improved, and the precipitated impurities are prevented from floating to the outer side of the collecting barrel, so that the purifying effect is further improved.

Drawings

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

FIG. 2 is a cross-sectional view of a treatment tank of the present invention;

fig. 3 is a schematic perspective view of an impurity discharging device and a guiding trigger device according to the present invention;

FIG. 4 is a cross-sectional view of a collector drum in accordance with the present invention;

FIG. 5 is a schematic view of a partial perspective view of a collection assembly according to the present invention;

FIG. 6 is a schematic diagram showing a partial perspective view of a collection assembly according to the present invention;

FIG. 7 is an enlarged schematic view of area A of FIG. 6;

FIG. 8 is a schematic view of a partial perspective view of an opening and closing assembly and a two-stage trigger assembly of the present invention;

FIG. 9 is a schematic view of a partially exploded perspective view of the present invention;

FIG. 10 is a cross-sectional view of a first embodiment of the inlet tube of the present invention;

FIG. 11 is a second cross-sectional view of the inlet tube of the present invention;

FIG. 12 is a schematic perspective view of a water level control assembly according to the present invention;

fig. 13 is a schematic partial perspective view of a two-stage trigger assembly according to the present invention.

In the figure: 1. a treatment pool; 2. a water inlet pipe; 3. impurity discharging means; 31. a collection assembly; 311. a collecting barrel; 312. a sliding column; 313. a sliding ring; 314. a fan blade; 315. a sliding groove; 316. a unfilled corner gear; 317. a drive rack; 318. a buoy; 32. an opening and closing assembly; 321. a rotating shaft; 322. an annular groove; 323. an annular sleeve; 324. a first base plate; 325. a second base plate; 4. guiding the triggering device; 41. a water level control assembly; 411. a water outlet pipe; 412. a slider; 413. a guide block; 414. a rotating block; 415. a driving rod; 416. a water inlet tank; 417. a water inlet door; 418. an L-shaped connecting rod; 419. a linkage rod; 42. a two-stage trigger assembly; 421. a first interference plate; 422. h-shaped sliding blocks; 423. pressing down the groove; 424. a first spring; 425. a trigger; 426. a second interference plate; 427. a second spring; 428. a moving groove; 429. a trapezoid block; 430. an arc-shaped frame; 431. resetting the box; 432. a third spring; 433. unlocking the block; 434. a first crank; 435. a second crank; 436. matching with the moving groove; 5. a reservoir; 6. a silica gel cushion; 7. and a sealing gasket.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which are obtained by a worker of ordinary skill in the art without creative efforts, are within the protection scope of the present invention based on the embodiments of the present invention.

Referring to fig. 1 to 13, the present invention provides a technical solution: the utility model provides a flue gas desulfurization wastewater treatment ware, includes treatment tank 1, the side fixedly connected with inlet tube 2 of treatment tank 1, inlet tube 2 and the inside intercommunication setting of treatment tank 1, be equipped with the impurity discharging device 3 that a plurality of is arranged in handling impurity in the aquatic on the bottom wall in treatment tank 1 and be located the through-tank that interior bottom wall offered respectively, every impurity discharging device 3's side is equipped with the guide trigger device 4 that control impurity discharging device 3 starts respectively, a plurality of the bottom that guide trigger device 4 all passed the bottom of treatment tank 1 and the top intercommunication setting of cistern 5, impurity discharging device 3 includes collection subassembly 31 and opens and shuts subassembly 32, collection subassembly 31 sets up in the through-tank of the interior diapire of treatment tank 1, the subassembly 32 that opens and shuts sets up in collection subassembly 31.

In this embodiment, as shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6 and fig. 7, the collecting assembly 31 includes a collecting barrel 311, a side end of the collecting barrel 311 is fixedly connected with an inner wall of a through groove at the bottom in the treatment tank 1, a sliding column 312 is vertically disposed in the collecting barrel 311, two sides of the sliding column 312 are fixedly connected with the inner wall of the collecting barrel 311, the sliding column 312 is hollow, a sliding ring 313 is slidingly connected to the sliding column 312, a plurality of blades 314 are uniformly and rotatably connected around the sliding ring 313, one end of each blade 314 close to the sliding column 312 passes through a side wall of the sliding column 312 through the sliding groove 315 and is in sliding fit with the inner wall of the sliding groove 315, a corner-missing gear 316 is fixedly connected to one end of each blade 314 located in the sliding column 312, a driving rack 317 is vertically disposed at a side end of each corner-missing gear 316, a tooth groove end of each driving rack 317 is meshed with the corner-missing gear 316, a plurality of blades 314 are fixedly connected to a buoy at the bottom of the sliding column 312, and when a plurality of blades 314 are horizontally combined with the plurality of blades 314, and are in a circular shape, and are adhered to each other;

The opening and closing assembly 32 comprises a rotating shaft 321, the bottom of the collecting barrel 311 is in a through arrangement, the lower part of the sliding column 312 is horizontally provided with the rotating shaft 321, two ends of the rotating shaft 321 are fixedly connected with the inner wall of the collecting barrel 311, three annular grooves 322 are formed in the surface of the rotating shaft 321, annular sleeves 323 are rotationally connected with the annular grooves 322, the side ends of the three annular sleeves 323 are fixedly connected through a first bottom plate 324, the side ends of the rotating shaft 321 are fixedly connected through a second bottom plate 325, and when the first bottom plate 324 and the second bottom plate 325 keep horizontal, the first bottom plate 324 and the second bottom plate 325 are mutually combined into a round shape, and the side ends of the first bottom plate 324 and the second bottom plate 325 are attached to the inner wall of the collecting barrel 311;

when the staff will add desulfurization waste water of flocculating agent and introduce into in the treatment pond 1 through inlet tube 2, through setting up buoy 318 in flabellum 314 bottom, under the effect of buoyancy of water, thereby drive a plurality of flabellum 314 and upwards remove in collecting vessel 311 along slip post 312 under the effect of slip ring 313, at the in-process that flabellum 314 removed to the top of bucket, thereby drive flabellum 314 through the effect of unfilled corner gear 316 and drive rack 317 and rotate, through the unfilled corner gear 316 of setting, thereby control flabellum 314 rotatory angle, thereby all slope takes place after flabellum 314 removes the top to collecting vessel 311, thereby the impurity of being convenient for in the aquatic takes place to precipitate and fall to the inside of collecting vessel 311 and be located on first bottom plate 324 and the second bottom plate 325, thereby keep apart impurity and the water source after purifying, thereby avoided the impurity to float the possibility to the surface again at the in-process of discharging clean water, then avoided causing secondary pollution to the desulfurization waste water after purifying, thereby improved purifying effect.

In this embodiment, as shown in fig. 8, 9, 10, 11, 12 and 13, the guiding and triggering device 4 includes a water level control component 41 and two sections of triggering components 42, the water level control component 41 is disposed in the treatment tank 1, the two sections of triggering components 42 are disposed on the water level control component 41 and located at one side of the impurity discharging device 3, the water level control component 41 includes a water outlet pipe 411, a floating block 412 is slidably connected to a side end of a top of the water outlet pipe 411, a guide block 413 is disposed above one end of the floating block 412 in the water outlet pipe 411, a center of the guide block 413 is rotatably connected to an inner wall of the water outlet pipe 411, a top of one end of the floating block 412 located in the water outlet pipe 411 is attached to a bottom of one side of the guide block 413, two adjacent ends of the guide block 413 are respectively provided with a rotating block 414, two ends of the guide block 413 are respectively rotatably connected to inner walls of the water outlet pipe 411, one end of the guide block 415, which is respectively adjacent to one end of the two adjacent rotating blocks 414, two ends of the two end of the guide block 412 are respectively connected to the inner walls of the water outlet pipe 411, the two end of the guide block are respectively adjacent to the inner wall of the water outlet pipe 411 are respectively, the two end of the water inlet valve 416 are respectively, and the two end of the water outlet pipe are respectively adjacent to the two water outlet pipe 416 are connected to the inner wall of the water inlet valve 417 and the water inlet valve is formed by two water inlet valve 418 and the water inlet valve 2 and the water outlet valve 417 are respectively;

The two sections of triggering components 42 comprise a first abutting plate 421, the side end of the first abutting plate 421 is in sliding fit with the inner wall of the water inlet pipe 2 up and down, the first abutting plate 421 is horizontally arranged, one end of the first abutting plate 421 close to the collecting barrel 311 is fixedly connected with an H-shaped sliding block 422, the H-shaped sliding block 422 is in sliding fit with the side wall of the water inlet pipe 2 up and down through a pressing groove 423, the bottom of the H-shaped sliding block 422 in the pressing groove 423 is movably connected with the bottom of the pressing groove 423 through a first spring 424, one side of the H-shaped sliding block 422 close to the collecting barrel 311 is fixedly connected with a triggering piece 425, the bottom of the triggering piece 425 away from one side of the water inlet pipe 2 is positioned above the sliding ring 313, a second abutting plate 426 parallel to the first abutting plate 421 is arranged below the first abutting plate 421, the side end of the second abutting plate 426 is in sliding fit with a groove on the inner wall of the water inlet pipe 2 up and down, the bottom of the second abutting plate 426 is movably connected with the bottom of the slot through a plurality of second springs 427, a moving slot 428 is arranged on one side of the second abutting plate 426 close to the collecting barrel 311, a trapezoid block 429 is horizontally arranged in the moving slot 428, one end of the trapezoid block 429 in the water inlet pipe 2 is in a slope shape, the top of the trapezoid block is attached to the bottom of the second abutting plate 426, one end of the trapezoid block 429 away from the moving slot 428 is fixedly connected with an arc frame 430, the arc frame 430 is coated on the outer side of the collecting barrel 311, one end of the arc frame 430 is slidably connected in a reset box 431, the side end of the reset box 431 is fixedly connected with the side wall of the collecting barrel 311, the side end of one end of the arc frame 430 is movably connected with the side wall of the reset box 431 through a third spring 432, the other end of the arc plate is fixedly connected with an unlocking block 433, one end of the rotating shaft 321, which is close to the unlocking block 433, passes through the side wall of the collecting barrel 311 and is in rotating connection with the collecting barrel, a first crank 434 is fixedly connected to one end of the rotating shaft 321, which is positioned outside the collecting barrel 311, a second crank 435 is arranged on one side of the first crank 434, which is far away from the collecting barrel 311, one end of the second crank 435 passes through the center of one end of the first crank 434 and is connected with the side end of the adjacent annular sleeve 323, the second crank 435 is in mutually rotating fit with the first crank 434, and the other ends of the first crank 434 and the second crank 435 are respectively positioned on the upper side and the lower side of the unlocking block 433 and are respectively in sliding fit with a matched moving groove 436 which is formed in the first crank 434;

When the worker continuously injects the wastewater into the treatment tank 1, the water line in the treatment tank 1 gradually rises, a preset threshold value is passed, so that enough reaction time is given to the wastewater and the flocculating agent, after the water line rises, under the action of buoyancy force, the floating block 412 is driven to gradually float upwards at the side end of the water inlet pipe 2, after the water line floats upwards, the guide block 413 is driven to rotate upwards in the water inlet pipe 2, the two driving rods 415 are respectively driven to be mutually far away, the two rotating blocks 414 are respectively driven to deflect in opposite directions, the two water inlet doors 417 are driven to be mutually far away and rotate under the action of the linkage rod 419 and the L-shaped connecting rod 418, the water inlet groove 416 is opened, impurities generated due to the sufficient reaction of the wastewater and the flocculating agent are precipitated, the wastewater with higher water level is purified water, so that purified water higher than the water inlet tank 416 enters the water inlet pipe 2 through the water inlet tank 416 and is stored in the water reservoir 5, automatic quantitative discharge collection is realized after waste water is injected, when discharged water intensively falls to a first designated height in the water outlet pipe 411, the first abutting plate 421 is driven to be pressed down, the H-shaped sliding block 422 is driven to slide in the pressing groove 423, the first spring 424 is compressed, the sliding moving ring 313 is driven to move up and down in the sliding column 312 through the triggering piece 425 to drive the plurality of fan blades 314 to rotate to be flush with each other through the driving racks 317, the upper part of the collecting barrel 311 is closed, when no water in the water inlet pipe 2 is discharged through the arranged first spring 424, the triggering piece 425 can be reset, the condition that the collecting barrel 311 cannot collect impurities is avoided, and when the water in the water outlet pipe 411 falls to a second designated height, thereby drive second conflict board 426 and move downwards through second spring 427 to the one end through trapezoidal piece 429's slope form drives it and slides to the direction of keeping away from outlet pipe 411 in removing groove 428, thereby drive arc frame 430 and remove to the direction of collecting vessel 311, thereby make unlocking piece 433 drive first crank 434 and second crank 435 respectively through cooperation remove groove 436 and take place the rotation of opposite direction at the in-process that removes, thereby drive axis of rotation 321 and annular sleeve 323 take place the rotation of opposite direction each other, thereby drive first bottom plate 324 and second bottom plate 325 and all gather together downwards, thereby open the bottom of collecting vessel 311, open the back in collecting vessel 311 bottom, the rivers are gathered rapidly, thereby will be located the impurity of collecting vessel 311 and discharge under the effect of water pressure, and after the water level in treatment tank 1 descends, thereby stop the drainage, thereby through reset box 431 and third spring 432, thereby make arc frame 430 reset, and then make first bottom plate 324 and second bottom plate 325 keep away from each other and rotate, thereby close the bottom of collecting vessel 311, and make the second bottom plate 324 that is continuously by the punching press of rivers through second spring 427 and the second bottom plate, the device that is continuous, the water source that can be used continuously in the water tank 426 is guaranteed to the continuous to be more stable in the water source that can be guaranteed to the continuous water source that can be further has guaranteed to clean up.

In this embodiment, as shown in fig. 13, a silica gel cushion 6 for preventing water in the water inlet pipe 2 from overflowing from the moving groove 428 is laid on the surface of the H-shaped sliding block 422; through the silica gel cushion 6 that sets up to when H type sliding block 422 moves down in inlet tube 2 one side, prevent clean water source from spilling over in the inlet tube 2.

In this embodiment, as shown in fig. 4, a sealing pad 7 is laid on the inner wall of the collecting barrel 311; through the sealed pad 7 that sets up to when a plurality of flabellum 314 moves down along collecting vessel 311 inner wall, thereby improve the leakproofness between the outside of a plurality of flabellum 314 and the collecting vessel 311 inner wall, thereby prevent that the impurity of precipitation from floating to the collecting vessel 311 outside, further improve purifying effect.

The application method and the advantages of the invention are as follows: the application method of the flue gas desulfurization wastewater processor comprises the following working processes:

as shown in fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12 and 13:

s1: when workers introduce desulfurization wastewater added with flocculating agent into the treatment tank 1 through the water inlet pipe 2, the buoys 318 arranged at the bottoms of the fan blades 314 are used for driving the fan blades 314 to move upwards in the collecting tank 311 along the sliding columns 312 under the action of the sliding rings 313 under the action of water buoyancy, and the fan blades 314 are driven to rotate under the action of the unfilled corner gears 316 and the driving racks 317 in the process of moving the fan blades 314 to the top of the tank, and the rotating angles of the fan blades 314 are controlled through the arranged unfilled corner gears 316, so that all the fan blades 314 incline after moving to the top of the collecting tank 311, so that impurities in water are convenient to precipitate in the tank and fall into the collecting tank 311 and are positioned on the first bottom plate 324 and the second bottom plate 325, thereby isolating the impurities and the purified water source, avoiding the possibility that part of the impurities can float to the water surface again in the process of discharging clean water, and further avoiding secondary pollution to the purified desulfurization wastewater, and improving the purification effect;

S2: when a worker continuously injects wastewater into the treatment tank 1, a water level line in the treatment tank 1 gradually rises, a preset threshold value is passed, so that enough reaction time is given to the wastewater and a flocculating agent, after the water level line rises, under the action of buoyancy, the floating block 412 is driven to gradually float upwards at the side end of the water inlet pipe 2, after the floating block is floated upwards, the guide block 413 is driven to rotate upwards in the water inlet pipe 2, the two driving rods 415 are respectively driven to be mutually away, the two rotating blocks 414 are respectively driven to deflect in opposite directions, the two water inlet doors 417 are driven to be mutually away and rotate under the action of the linkage rod 419 and the L-shaped connecting rod 418, the water inlet groove 416 is opened, impurities generated due to the sufficient reaction of the wastewater and the flocculating agent are precipitated, and the wastewater with higher water level is purified water, so that the purified water higher than the water inlet groove 416 enters the water inlet pipe 2 through the water inlet groove 416 and is stored in the water storage tank 5, and automatic quantitative discharge and collection are realized after the wastewater is injected;

s3: when the discharged water intensively falls to a first designated height in the water outlet pipe 411, thereby driving the first abutting plate 421 to press down, then driving the H-shaped sliding block 422 to slide in the pressing groove 423, thereby compressing the first spring 424, and driving the sliding ring 313 to move up and down in the sliding column 312 through the trigger member 425, thereby driving the plurality of fan blades 314 to rotate to be flush with each other through the driving rack 317, thereby closing the upper part of the collecting barrel 311, through the arranged first spring 424, when no water is discharged in the water inlet pipe 2, the trigger member 425 can reset, thereby avoiding the situation that the collecting barrel 311 cannot collect impurities, and when the water outlet pipe 411 falls to a second designated height, driving the second abutting plate 426 to move down through the second spring 427, thereby driving the sliding ring 313 to slide in a direction away from the water outlet pipe 428 through one end of the slope of the trapezoid block 429, thereby driving the arc frame 430 to move in a direction of the collecting barrel 311, thereby enabling the releasing block 433 to move in a direction of the moving groove 435 to drive the first crank 434 and the second crank shaft 311 to rotate in a direction of the second crank shaft 311, thereby opening the bottom plate 325, and then opening the bottom plate 325 in a direction of the opposite to the water outlet pipe 325, thereby opening the bottom plate 325, and rapidly moving down in a direction of the second bottom plate 325, thereby opening the bottom plate 325, respectively, thereby close the bottom of collecting vessel 311 to make through second spring 427 and last by the synchronous reset of the second conflict board 426 of rivers punching press, and then be convenient for sustainable use, avoided then having avoided the water source evacuation in the pond, just can clear up the impurity in the pond, and then guaranteed the wastewater treatment that can last stable.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present invention, and are not intended to limit the invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A flue gas desulfurization wastewater treatment device, which is characterized in that: including handling pond (1), the side fixedly connected with inlet tube (2) of handling pond (1), inlet tube (2) and the inside intercommunication setting of handling pond (1), be equipped with impurity discharging device (3) that a plurality of is arranged in handling impurity in the aquatic on the diapire in handling pond (1) and be located the through-tank that interior bottom wall offered respectively, every impurity discharging device (3) side is equipped with guide trigger device (4) that control impurity discharging device (3) start respectively, a plurality of guide trigger device (4)'s bottom all passes handling pond (1) bottom and cistern (5) top intercommunication setting, impurity discharging device (3) are including collection subassembly (31) and opening and shutting subassembly (32), collection subassembly (31) set up in the through-tank of handling pond (1) diapire, opening and shutting subassembly (32) set up in collection subassembly (31).

2. A flue gas desulfurization wastewater processor as claimed in claim 1, wherein: the collecting assembly (31) comprises a collecting barrel (311), the side end of the collecting barrel (311) is fixedly connected with the inner wall of a through groove at the inner bottom of the treatment tank (1), a sliding column (312) is vertically arranged in the collecting barrel (311) and the two sides of the sliding column (312) are fixedly connected with the inner wall of the collecting barrel (311), the sliding column (312) is in hollow arrangement, a sliding ring (313) is connected to the sliding column (312) in a sliding manner, a plurality of fan blades (314) are uniformly and rotatably connected around the sliding ring (313), one end of each fan blade (314) close to the sliding column (312) penetrates through the side wall of the sliding column (312) through a sliding groove (315) and is in sliding fit with the inner wall of the sliding groove (315), a corner-missing gear (316) is fixedly connected to one end of each fan blade (314) in the sliding column (312), a driving rack (317) is vertically arranged at the side end of each corner-missing gear, the side end of each driving rack (317) is fixedly connected with the inner wall of the sliding column (312), the tooth-missing gear (317) is meshed with the plurality of fan blades (318) at the bottom of the tooth-missing gears (318), when the fan blades (314) are kept horizontal, the fan blades are combined into a round shape, and the outer walls of the fan blades (314) are attached to the inner wall of the collecting barrel (311).

3. A flue gas desulfurization wastewater processor as claimed in claim 2, wherein: the utility model provides an opening and closing subassembly (32) is including axis of rotation (321), the bottom of collecting vessel (311) is link up the setting, the below level of slip post (312) is equipped with axis of rotation (321) and the both ends and collecting vessel (311) inner wall fixed connection of axis of rotation (321), three ring channel (322) have been seted up on the surface of axis of rotation (321), ring channel (322) rotation is connected with annular sleeve (323), and is three annular sleeve (323)'s side passes through first bottom plate (324) fixed connection, the side of axis of rotation (321) passes through second bottom plate (325) fixed connection, works as when first bottom plate (324) and second bottom plate (325) keep the level each other, the side of first bottom plate (324) and second bottom plate (325) make up into circular and first bottom plate (324) and second bottom plate (325) side and the inner wall laminating of collecting vessel (311) mutually.

4. A flue gas desulfurization wastewater processor as claimed in claim 1, wherein: the guiding triggering device (4) comprises a water level control component (41) and two sections of triggering components (42), the water level control component (41) is arranged in a treatment tank (1), the two sections of triggering components (42) are arranged on the water level control component (41) and are positioned on one side of an impurity discharging device (3), the water level control component (41) comprises a water outlet pipe (411), the side end of the top of the water outlet pipe (411) is slidably connected with a floating block (412), the floating block (412) is arranged above one inner end of the water outlet pipe (411) and is provided with a guiding block (413) and the center of the guiding block (413) is rotationally connected with the inner wall of the water outlet pipe (411), the top of one end of the floating block (412) is positioned in the water outlet pipe (411) and is attached to the bottom of one side of the guiding block (413), the upper side and the lower side of the guiding block (413) are respectively provided with a rotating block (414), two adjacent ends of the two rotating blocks (414) are respectively rotationally connected with the inner wall of the water outlet pipe (411), two ends of the guiding block (413) are respectively rotationally connected with a driving rod (415) and the adjacent to the two sides of the upper end of the guiding block (415) which are far away from the water outlet pipe (416), two water inlet doors (417) are arranged in the water inlet groove (416), the two water inlet doors (417) are arranged up and down, one sides of the two water inlet doors (417) close to the inner wall of the water inlet pipe (2) are respectively connected with the inner wall of the water inlet pipe (2) in a rotating mode through L-shaped connecting rods (418), and the side ends of the L-shaped connecting rods (418) are connected with the side ends of the rotating blocks (414) in a rotating mode through linkage rods (419).

5. A flue gas desulfurization wastewater processor as claimed in claim 4, wherein: the two sections of triggering components (42) comprise a first abutting plate (421), the side ends of the first abutting plate (421) are in vertical sliding fit with the inner wall of the water inlet pipe (2), the first abutting plate (421) is horizontally arranged, one end of the first abutting plate (421) close to the collecting barrel (311) is fixedly connected with an H-shaped sliding block (422), the H-shaped sliding block (422) is in vertical sliding fit with the side wall of the water inlet pipe (2) through a lower pressing groove (423), the bottom of the H-shaped sliding block (422) is located in the lower pressing groove (423) through a first spring (424) and the bottom of the lower pressing groove (423), one side of the H-shaped sliding block (422) close to the collecting barrel (311) is fixedly connected with a triggering piece (425), the bottom of one side of the triggering piece (425) far away from the water inlet pipe (2) is located above the sliding ring (313), a second abutting plate (426) parallel to the first abutting plate (421) is arranged below the first abutting plate, the bottom of the second abutting plate (426) is located at the bottom of the second abutting plate (426) close to the inner wall of the collecting barrel (2) through a plurality of sliding grooves (426) which are arranged on the side of the second abutting plate (426) and the second sliding plate (426) close to the inner wall of the collecting barrel (2), the utility model discloses a water treatment device, including a water inlet pipe (2), a water inlet pipe (311), a water outlet pipe (311), a movable groove (428) and a movable groove (311), wherein the movable groove is internally and smoothly provided with a trapezoid block (429), one end of the trapezoid block (429) in the water inlet pipe (2) is slope-shaped and the top of the trapezoid block is attached to the bottom of a second abutting plate (426), one end of the trapezoid block (429) far away from the movable groove (428) is fixedly connected with an arc frame (430), the arc frame (430) is coated on the outer side of the collecting barrel (311) and one end of the arc frame (430) is slidingly connected in a reset box (431), the side end of the reset box (431) is fixedly connected with the side wall of the collecting barrel (311), the side end of the arc frame (430) is movably connected with the side wall of the reset box (431) through a third spring (432), the other end of the arc frame (430) is fixedly connected with an unlocking block (433), one end of a rotating shaft (321) close to the unlocking block (433) penetrates through the side wall of the collecting barrel (311) and is rotationally connected with the same, one end of the rotating shaft (321) outside the collecting barrel (311) is fixedly connected with a first crank 434), the first crank 434 is arranged on one end of the rotating shaft (321), one end of the outer side of the collecting barrel (311) and one end is far away from the first crank (435) and one end of the first crank (434) is in a position opposite to the first end (323 end of the second crank (323) and one end opposite to the second end (side (434), the other ends of the first crank (434) and the second crank (435) are respectively positioned at the upper side and the lower side of the unlocking block (433) and are respectively in sliding fit with a matching moving groove (436) arranged on the unlocking block.

6. A flue gas desulfurization wastewater processor as claimed in claim 5, wherein: the surface of the H-shaped sliding block (422) is paved with a silica gel soft cushion (6) for preventing water in the water inlet pipe (2) from overflowing from the moving groove (428).

7. A flue gas desulfurization wastewater processor as claimed in claim 2, wherein: and a sealing gasket (7) is paved on the inner wall of the collecting barrel (311).

8. The application method of the flue gas desulfurization wastewater processor comprises the following steps:

s1: when workers introduce desulfurization wastewater added with flocculating agents into a treatment tank (1) through a water inlet pipe (2), under the action of buoyancy of water, a plurality of blades (314) are driven to move upwards in a collecting barrel (311) along a sliding column (312) under the action of a sliding ring (313) through a buoy (318) arranged at the bottom of each blade (314), and in the process that each blade (314) moves towards the top of the barrel, the blades (314) are driven to rotate under the action of a bevel gear (316) and a driving rack (317), the rotating angle of each blade (314) is controlled through the bevel gear (316), so that all the blades (314) incline after moving to the top of the collecting barrel (311), and impurities in water are convenient to precipitate in the tank and fall into the collecting barrel (311) and are positioned on a first bottom plate (324) and a second bottom plate (325);

S2: when a worker continuously injects wastewater into the treatment tank (1), a water line in the treatment tank (1) gradually rises, a preset threshold value is passed, so that after the water line rises, under the action of buoyancy, a floating block (412) is driven to gradually float at the side end of a water inlet pipe (2), after the floating block is floated, a guide block (413) is driven to rotate upwards in the water inlet pipe (2), two driving rods (415) are respectively driven to move away from each other, two rotating blocks (414) are driven to deflect in opposite directions, two water inlet doors (417) are driven to move away from each other under the action of a linkage rod (419) and an L-shaped connecting rod (418), a water inlet groove (416) is opened, impurities generated due to the fact that wastewater fully reacts with a flocculating agent are precipitated, and purified water is obtained from the wastewater at a higher water level, so that purified water located above the water inlet groove (416) enters the water inlet pipe (2) through the water inlet groove (416) and is stored in a water storage tank (5);

s3: when discharged water intensively falls to a first designated height in the water outlet pipe (411), thereby driving the first abutting plate (421) to press down, then driving the H-shaped sliding block (422) to slide in the pressing down groove (423), thereby compressing the first spring (424), and downwards striking the sliding moving ring (313) through the trigger piece (425), thereby driving the sliding ring (313) to move up and down in the sliding column (312), thereby driving the plurality of fan blades (314) to rotate to be flush with each other through the driving rack (317), thereby enabling the upper part of the collecting barrel (311) to be closed, and through the arranged first spring (424), thereby resetting the trigger piece (425) when no water is discharged in the water inlet pipe (2), thereby avoiding the situation that the collecting barrel (311) cannot collect impurities, and when the water outlet pipe (411) falls to a second designated height, thereby driving the second abutting plate (426) to move downwards through the second spring (427), thereby driving one end of the slope-shaped sliding ring (313) through the trapezoid block (428) to rotate to be flush with each other, thereby enabling the sliding frame (433) to move away from the crank (433) in the opposite directions of the moving frame (433) to move in the opposite directions of the crank (433) and the crank (433) to move in the opposite directions of the opposite directions (433), thereby drive axis of rotation (321) and annulus (323) and take place the rotation of opposite direction each other to drive first bottom plate (324) and second bottom plate (325) and all gather together downwards, thereby open the bottom of collecting vessel (311), open the back in collecting vessel (311) bottom, rivers are gathered rapidly, thereby will be located impurity in collecting vessel (311) under the effect of water pressure and discharge, and after the water level in processing pond (1) descends, thereby stop the drainage, through reset box (431) and third spring (432), thereby make arc frame (430) reset, and then make first bottom plate (324) and second bottom plate (325) keep away from each other and rotate, thereby close the bottom of collecting vessel (311), and make the second conflict board (426) that is continuously by the rivers punching press synchronous reset through second spring (427).