CN113060786A

CN113060786A - Industrial wastewater hardness-removing fluidized bed reaction device and use method thereof

Info

Publication number: CN113060786A
Application number: CN202110419096.5A
Authority: CN
Inventors: 庄叶君; 李志华; 王成; 庄苏敏; 肖达; 薛伟石; 蒋丽霞
Original assignee: Yixing Su Jia Environmental Protection Equipment Co ltd
Current assignee: Yixing Su Jia Environmental Protection Equipment Co ltd
Priority date: 2021-04-19
Filing date: 2021-04-19
Publication date: 2021-07-02

Abstract

The invention discloses an industrial wastewater hardness-removing fluidized bed reaction device and a use method thereof, the industrial wastewater hardness-removing fluidized bed reaction device comprises a treatment tank, the top of the treatment tank is movably connected with a filter screen dismounting mechanism, the industrial wastewater hardness-removing fluidized bed reaction device and the use method thereof are used for the industrial wastewater hardness-removing fluidized bed reaction device, a rotating wheel is arranged in a screening mechanism and is driven by a motor to rotate, the rotating wheel drives a connecting button to slide in a reserved groove arranged in a push rod when rotating, the push rod is driven to swing at two sides, the push rod drives a screen to synchronously swing through a connecting plate, the screen slides in a slide rail through a connecting slide block, crystals generated by wastewater treatment are subjected to vibration screening through the swinging of the screen, the problem that the crystals generated after the wastewater treatment cannot be effectively screened and discharged is solved, and the purpose of effectively screening the sizes of the crystals is achieved through screening the crystals, is beneficial to the recovery of the crystal in the later period.

Description

Industrial wastewater hardness-removing fluidized bed reaction device and use method thereof

Technical Field

The invention relates to the technical field of industrial wastewater hardness removal, in particular to a fluidized bed reaction device for industrial wastewater hardness removal and a using method thereof.

Background

The new China is established, with the continuous development of national economy, the industrial door types are increased, the scale of a factory is enlarged, the discharge amount of waste water and the types of pollutants are increased day by day, the waste water is discharged into nearby water bodies without being treated to pollute the water quality, the quantity and the quality of the industrial waste water are determined according to products and production processes, the change is large, typical data are not suitable to be adopted, the field investigation is carried out, a large amount of cooling water is used in the industry, most of different materials are contacted, the water quality of the used water is generally changed slightly, only the water temperature is increased, and on the contrary, the liquid and the washing waste water used in the production process are generally small in water quantity, but the water quality is extremely complex and the concentration is.

Through retrieval, the invention discloses an industrial wastewater treatment device with good water treatment effect, which comprises a filter tank, a primary aeration tank, a primary purification filter tank, a secondary aeration tank, a secondary purification filter tank, an ozone generator and a pure water tank which are sequentially communicated, wherein the filter tank comprises a coarse filter screen and a fine filter screen, the primary aeration tank comprises a tank body, a motor arranged on the tank body and a rotating shaft connected with the motor, a plurality of aerators are arranged on the rotating shaft, one end of the rotating shaft, far away from the motor, is provided with a spiral blade, the primary purification filter tank is provided with a polytetrafluoroethylene filter element and an active carbon filter element, the secondary aeration tank comprises an aeration pipe arranged at the bottom and a first ceramic particle layer, a second ceramic particle layer, a quartz sand layer and a gravel layer which are arranged in the secondary purification filter tank from top to bottom, and the secondary purification filter tank comprises a reverse osmosis membrane and a ceramic filter element.

In the patent, the industrial wastewater treatment device with good water treatment effect has the problems that the air cannot be blown to the wastewater to adjust the angle and the air can be fully blown, so that the air blowing effect of the industrial wastewater is poor, the heating effect is poor, the wastewater treatment efficiency is low, and the requirements of people cannot be met, and therefore, the industrial wastewater hardness-removing fluidized bed reaction device and the use method are provided.

Disclosure of Invention

The invention aims to solve the problem that the wastewater cannot be fully blown while the angle of the wastewater is adjusted in the prior art, and provides a fluidized bed reaction device for removing hardness from industrial wastewater and a using method thereof.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides an industrial waste water removes hard fluidized bed reaction unit, includes the processing jar, the top swing joint of processing jar has filter screen disassembly body, and the outer wall swing joint of processing jar has the grip block, the bottom fixedly connected with supporting leg of grip block, the bottom swing joint of processing jar has screening mechanism, and the inside below of processing jar is provided with angle adjusting mechanism.

Preferably, the filter screen disassembling mechanism comprises a filter cartridge, a filter element, an inner ring manual rod, an inner ring connecting column, an inner ring supporting rod, an inner ring sliding rod, an inner ring connecting frame, an inner ring movable sheet, an inner ring clamping plate, an inner cylinder, a U-shaped groove, an outer ring manual rod, an outer ring connecting column, an outer ring sliding rod, an outer ring connecting frame, a safety movable sheet and an outer ring clamping plate, wherein the filter cartridge is arranged in the filter screen disassembling mechanism, the filter element is arranged in the filter cartridge, the inner ring manual rod is movably connected in the filter cartridge, the inner ring connecting column is fixedly connected to one side of the inner ring manual rod, the inner ring supporting rod is fixedly connected to both sides of the inner ring connecting column, the inner ring sliding rod is fixedly connected to one side of the inner ring supporting rod, the inner ring supporting rod is far away from the inner ring supporting rod, the inner ring connecting frame is fixedly connected to the top, the bottom sliding connection of inner circle slide bar has the inner tube, and the inside U-shaped groove has been seted up to the inner tube, the outside swing joint of inner circle system pole has outer lane system pole of handing, and one side fixedly connected with outer lane spliced pole of outer lane system pole, one side fixedly connected with outer lane slide bar that outer lane system pole was handed is kept away from to the outer lane spliced pole, and the top fixedly connected with outer lane carriage of outer lane slide bar, the inside swing joint of outer lane carriage has the outer lane movable piece, and one side swing joint that the outer lane carriage was kept away from to the outer lane movable piece has the outer lane cardboard.

Preferably, the inner ring slide bar and the inner cylinder form a sliding structure through the inner ring hand-made rod, the outer size of the inner ring slide bar is matched with the inner size of the U-shaped groove, the U-shaped groove is equidistantly formed in the inner cylinder, the inner ring clamping plates are provided with four groups, and the inner ring clamping plates are circumferentially distributed outside the inner cylinder at equal angles.

Preferably, the outer lane slide bar passes through to constitute sliding structure between U-shaped groove and the inner tube, and the outer lane slide bar is provided with four groups to the outer lane slide bar is the equidistance and distributes the outer wall at the outer lane spliced pole, the outer lane movable piece passes through to constitute the block structure between outer lane slide bar and the outer lane connection frame, and the outer lane movable piece is provided with two sets ofly.

Preferably, the screening mechanism comprises a motor, a bearing frame, a rotating wheel, a connecting button, a push rod, a preformed groove, a connecting plate, a screen, a connecting slide block, a slide rail, a connecting slide plate, a screen plate, a shell, a moving block, a bidirectional threaded rod and a limiting rod, the motor is arranged in the screening mechanism, the bearing frame is fixedly connected to one side of the motor, the rotating wheel is movably connected to the upper part of the bearing frame, the connecting button is movably connected to one side of the rotating wheel far away from the motor, the push rod is movably connected to one side of the connecting button far away from the rotating wheel, the preformed groove is arranged in the push rod, one side of the push rod is fixedly connected with the connecting plate, the screen is fixedly connected to one side of the connecting plate far away from the push rod, the connecting slide block is fixedly connected to the bottom of the screen, and the top of connecting the slide is fixedly connected with the sieve, the bottom of slide rail is fixedly connected with the shell, and the inside swing joint of shell has the movable block, the inside swing joint of movable block has the two-way threaded rod, and the inside both sides swing joint of movable block has the gag lever post.

Preferably, the screen cloth passes through to constitute sliding structure between push rod and the slide rail, and links and constitute sliding structure between button passes through motor and the push rod, the screen plate passes through to be connected and constitutes sliding structure between slide and the slide rail, and the screen cloth passes through to constitute between two-way threaded rod and the screen plate and slides the activity structure.

Preferably, the angle adjusting mechanism comprises a driving wheel, a belt, a first driven wheel, a second driven wheel, an extension spring, a spherical groove, a chute, a first driving rod, an inclined column, a side rod, a ball, a second driving rod, a movable column, an arc-shaped groove, a deflector rod, a movable ring, a shaft rod, a second blowing fan and a first blowing fan, the driving wheel is arranged in the angle adjusting mechanism, the belt is movably connected to the outer wall of the driving wheel, the first driven wheel is movably connected to one side of the belt far away from the driving wheel, the second driven wheel is arranged below the first driven wheel, the extension spring is arranged on one side of the first driven wheel, the rotating cabin is movably connected to the bottom of the first driven wheel, the spherical groove is formed in the rotating cabin, the chute is formed in the spherical groove, the first driving rod is movably connected to one side of the second driven wheel, and the inclined column is movably connected to one side of the first driving, one side swing joint that first transfer line was kept away from to the slope post has the second transfer line, the outer wall fixedly connected with activity post of side lever, and the outer wall sliding connection of activity post has the arc wall, one side swing joint that the side lever was kept away from to the activity post has the driving lever, and the top swing joint of driving lever has the activity ring, the top fixedly connected with axostylus axostyle of activity ring, and the top swing joint of axostylus axostyle has the second to blow the fan, the second is blown the top swing joint of fan and is first to blow the fan.

Preferably, first fan and the second fan of blowing pass through the action wheel and constitute revolution mechanic between the jar with handling, and first fan and the second fan of blowing do opposite direction's rotation between through the activity post, the ball passes through to constitute sliding construction between slope post and the spout, and the activity post passes through to constitute sliding construction between side lever and the arc wall.

Preferably, the deflector rods are arranged in two groups, the two groups of deflector rods are distributed in an X-shaped crossed manner, the deflector rods are connected with the movable columns in a welding mode, the side rods are symmetrical with respect to the central axis of the inclined column, the inclined column is arranged in two groups, and the inclined column is symmetrical with respect to the central axis of the shaft rod.

The scheme also provides a use method of the industrial wastewater hardness-removing fluidized bed reaction device, which comprises the following steps:

s1, when the device is used, firstly, an operator adjusts the blowing angle and the blowing effect of the blowing fan in the process of blowing the industrial wastewater, a power device drives a driving wheel to rotate, the outer wall of the driving wheel is movably connected with a belt, the driving wheel is a pulley, two ends of the belt wound on the outer wall of the driving wheel are respectively connected with a first driven wheel and a second driven wheel, the first driven wheel and the second driven wheel are arranged on the outer wall of a rotating cabin, and the other ends of the belts wound on the outer walls of the first driven wheel and the second driven wheel are connected with an extension spring, so that the driving wheel rotates to drive the first driven wheel and the second driven wheel to synchronously rotate, the driving wheel rotates to drive the rotating cabin to integrally rotate, and the blowing angle of the first driven wheel and the second driven wheel is adjusted;

s2, when the first driven wheel and the second driven wheel rotate, the first transmission rod is driven to rotate, the first transmission rod rotates to drive the inclined column to rotate synchronously, the second transmission rod is movably connected to the other side of the inclined column, so that the inclined column rotates in the spherical groove, the inclined column drives the balls to slide in the sliding groove through the side rods on the two sides while rotating, so that the movable column is driven to slide in the arc groove, the movable column is respectively connected with the two groups of deflector rods, so that the movable column slides in the arc groove to push and pull the deflector rods back, and the first driven wheel and the second driven wheel are respectively connected to the tops of the two groups of deflector rods, so that the first driven wheel and the second driven wheel can rotate in opposite directions, thereby fully blowing industrial wastewater and better heating industrial wastewater are achieved, the method is beneficial to the vaporization treatment operation of the industrial wastewater and improves the crystallization efficiency of the wastewater;

s3, then, screening the crystal generated after the wastewater treatment, firstly, starting the motor, driving the rotating wheel to rotate by the motor, driving the connecting button to slide in the push rod when the rotating wheel rotates, thereby driving the push rod to move, because the push rod is connected with the screen cloth through the connecting plate, pulling the screen cloth to move synchronously when the push rod moves in two sides, the screen cloth slides in the slide rail through the connecting slide block at the bottom, because the connecting slide block at the bottom of the screen cloth slides in the slide rail, driving a group of moving blocks fixedly connected with the connecting slide block to slide on the outer wall of the bidirectional threaded rod, the moving blocks drive the bidirectional threaded rod to rotate in the sliding process, the bidirectional threaded rod drives the moving block at the other side to move on the outer wall of the bidirectional threaded rod in the rotating process, and the moving blocks are limited by the limiting rod when moving, the movable blocks move in the directions of two sides, and the top of the other group of movable blocks is fixedly connected with the connecting sliding plate which is connected with the sieve plate, so that the sieve plate is driven to slide in the direction opposite to the direction of the sieve plate, crystals placed on the top of the sieve plate are screened, the size of the crystals is favorably screened equally, and the crystals are conveniently recycled at the later stage;

s4, after industrial wastewater is treated, the treated gas is discharged from a gas outlet, the gas needs to be filtered before being discharged, so that pollution to the air caused by direct discharge of the gas generated after industrial wastewater treatment is avoided, therefore, before the gas is discharged, a gas filter cartridge is installed at a gas discharge port, the gas filter cartridge needs to be replaced after being used for a period of time, an inner ring hand lever and an outer ring hand lever penetrate through the inside of the gas filter cartridge, firstly, the inner ring hand lever is pulled, an inner ring sliding rod connected around an inner ring connecting post is driven to slide in a U-shaped groove formed in the inner cylinder after being pulled, the inner ring sliding rod drives an inner ring movable plate to move when sliding, the inner ring movable plate is clamped in the inner ring connecting frame after the inner ring connecting frame is pulled, and two groups of inner ring movable plates perform the same operation, the position of the inner ring clamping plates is driven to move, so that the distance of the diameters between the inner ring clamping plates is shortened;

s5, finally, pulling an outer ring hand-made rod, wherein the outer ring hand-made rod drives an outer ring connecting column to slide in the U-shaped groove formed in the inner cylinder in the pulling process, an outer ring sliding rod drives an outer ring movable sheet to move when sliding, the outer ring movable sheet is clamped in the outer ring connecting frame after the outer ring connecting frame is pulled, two groups of outer ring movable sheets perform the same operation, the position of the outer ring clamping plate is driven to move, the distance of the diameter between the outer ring clamping plates is shortened, and the operation of installing and detaching the filter cylinder by supporting the outer ring clamping plate and the inner ring clamping plate is cancelled.

Compared with the prior art, the invention provides the industrial wastewater hardness removal fluidized bed reaction device and the use method thereof, and the industrial wastewater hardness removal fluidized bed reaction device has the following beneficial effects:

1. this be used for industrial waste water to remove hard fluidized bed reaction unit, through setting up the screen cloth, in screening mechanism, the runner rotates through the motor drive, the runner drives the reservation groove that the button was seted up in the inside of push rod and slides when rotating, it carries out the swing of both sides to drive the push rod, the push rod drives the screen cloth through the connecting plate and rocks in step, it slides in the inside of slide rail to drive the screen cloth through the link block, rock through the screen cloth and shake the screening to the crystallization that waste water treatment produced, the problem that the crystallization that waste water produced after the treatment can't effectively screen the discharge is solved, through screening the crystallization, the mesh of effectively screening the size of crystallization has been reached, be favorable to later stage to retrieving the crystallization;

2. according to the fluidized bed reaction device for industrial wastewater hardness removal, the bidirectional threaded rod is arranged, and the connecting sliding block and the group of moving blocks are fixedly connected in the screening mechanism, so that the group of moving blocks drive the bidirectional threaded rod to rotate in the process of moving along with the screen, the other group of moving blocks movably connected to the other side of the bidirectional threaded rod slide on the outer wall of the bidirectional threaded rod to drive the other group of moving blocks to move actively, the top of the other group of moving blocks is fixedly connected with the connecting sliding plate, and the top of the connecting sliding plate is fixedly connected with the screen plate, so that the screen plate is driven to move in the direction opposite to that of the screen plate, and the screening efficiency of crystals;

3. the fluidized bed reaction device for removing the hardness of the industrial wastewater is characterized in that a movable column is arranged, in an angle adjusting mechanism, a driving wheel works to drive two groups of driven wheels to rotate, the driven wheels drive a first transmission rod to rotate after rotating, one side of the first transmission rod is connected with an inclined column, so that the first transmission rod and a second transmission rod drive the inclined column to rotate inside a spherical groove, balls are driven to slide inside a sliding groove through a side rod while rotating, and the purpose of driving the movable column to slide inside the arc-shaped groove is achieved, the four groups of movable columns are respectively connected with four ends of the deflector rod, the opposite cross-shaped movable column is connected with a group of deflector rods, so that the two groups of deflector rods are fixed, the movable columns move to push the deflector rods, the top of the deflector rods are respectively connected with a first blowing fan and a second blowing fan, and the first blowing fan and the second blowing fan are driven to rotate in, fully blowing the wastewater, simultaneously rotating the driving wheel to drive the rotating cabin to integrally rotate, and adjusting the blowing angles of the first blowing fan and the second blowing fan;

4. the reaction device for the industrial wastewater except for the hard fluidized bed is provided with the outer ring clamping plate and the inner ring clamping plate, in the filter screen disassembling mechanism, the inner ring manual lever is pulled to drive the inner ring slide bars connected around the inner ring manual lever to slide in the U-shaped groove formed in the inner cylinder, the inner ring slide bars drive the inner ring movable plates to move when sliding, the inner ring movable plates are clamped in the inner ring connecting frame after the inner ring connecting frame is pulled, two groups of inner ring movable plates perform the same operation to drive the position of the inner ring clamping plate to move, the diameter distance between the inner ring clamping plates is shortened, then the outer ring manual lever is pulled to drive the outer ring connecting column to slide in the U-shaped groove formed in the inner cylinder, the outer ring slide bars drive the outer ring movable plates to move when sliding, and the outer ring movable plates are clamped in the outer ring connecting frame after the outer ring connecting frame is pulled, the two groups of outer ring movable pieces are operated in the same way, the position of the outer ring clamping plates is driven to move, the distance of the diameter between the outer ring clamping plates is shortened, and the operation of installing and disassembling the filter cylinder by supporting the outer ring clamping plates and the inner ring clamping plates is cancelled.

Drawings

FIG. 1 is a schematic view of the overall external structure of an industrial wastewater hardness-removing fluidized bed reactor according to the present invention.

FIG. 2 is a schematic view of a first perspective structure of a screening mechanism of a fluidized bed reactor for removing hard wastewater in industrial production.

FIG. 3 is a schematic diagram of a second perspective structure of a screening mechanism of a fluidized bed reactor for removing hard wastewater in industrial production.

FIG. 4 is a schematic sectional view of the inside of the housing of the industrial wastewater hardness-removing fluidized bed reactor according to the present invention.

FIG. 5 is a schematic view of a push rod connection structure of a screening structure of a fluidized bed reactor for removing hard wastewater according to the present invention.

FIG. 6 is a schematic view of a part of the sectional structure of a treatment tank of an industrial wastewater hardness-removing fluidized bed reaction device according to the present invention.

FIG. 7 is a schematic view of the overall structure of an angle adjustment mechanism of an industrial wastewater hardness removal fluidized bed reactor according to the present invention.

FIG. 8 is a schematic view of the internal cross-sectional structure of a rotating cabin of the industrial wastewater hardness-removing fluidized bed reactor according to the present invention.

FIG. 9 is a schematic cross-sectional view of a filter cartridge of an industrial wastewater hardness-removing fluidized bed reactor according to the present invention.

FIG. 10 is a schematic structural view of a filter screen detaching mechanism of an industrial wastewater hardness-removing fluidized bed reactor according to the present invention.

FIG. 11 is a schematic view of the overall structure of an inner cylinder of the industrial wastewater hardness-removing fluidized bed reactor according to the present invention.

FIG. 12 is a schematic view of the overall structure of an outer ring clamping plate of the industrial wastewater hardness-removing fluidized bed reaction device provided by the invention.

FIG. 13 is a schematic view of the overall structure of an inner ring clamping plate of the industrial wastewater hardness-removing fluidized bed reaction device.

In the figure: 1. a treatment tank; 2. a filter screen disassembling mechanism; 201. a filter cartridge; 202. a filter element; 203. inner ring hand-made rods; 204. an inner ring connecting column; 205. an inner ring strut; 206. an inner ring sliding rod; 207. an inner ring connecting frame; 208. an inner ring movable plate; 209. an inner ring clamping plate; 210. an inner barrel; 211. a U-shaped groove; 212. an outer ring hand-made rod; 213. an outer ring connecting column; 214. an outer ring sliding rod; 215. an outer ring connecting frame; 216. an outer ring movable sheet; 217. an outer ring clamping plate; 3. a clamping plate; 4. supporting legs; 5. a screening mechanism; 501. a motor; 502. a bearing frame; 503. a rotating wheel; 504. connecting a button; 505. a push rod; 506. reserving a groove; 507. a connecting plate; 508. screening a screen; 509. connecting the sliding block; 510. a slide rail; 511. connecting a sliding plate; 512. a sieve plate; 513. a housing; 514. a moving block; 515. a bidirectional threaded rod; 516. a limiting rod; 6. an angle adjusting mechanism; 601. a driving wheel; 602. a belt; 603. a first driven wheel; 604. a second driven wheel; 605. an extension spring; 606. rotating the cabin; 607. a spherical groove; 608. a chute; 609. a first drive lever; 610. an inclined column; 612. a side lever; 613. a ball bearing; 614. a second transmission rod; 615. a movable post; 616. an arc-shaped slot; 617. a deflector rod; 618. a movable ring; 619. a shaft lever; 620. a second blower fan; 621. a first blowing fan.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1-13, an industrial wastewater hardness-removing fluidized bed reaction device comprises a treatment tank 1, wherein the top of the treatment tank 1 is movably connected with a filter screen dismounting mechanism 2, the outer wall of the treatment tank 1 is movably connected with a clamping plate 3, the bottom of the clamping plate 3 is fixedly connected with supporting legs 4, the bottom of the treatment tank 1 is movably connected with a screening mechanism 5, and an angle adjusting mechanism 6 is arranged below the inside of the treatment tank 1.

Further, the filter screen disassembling mechanism 2 comprises a filter cartridge 201, a filter element 202, an inner ring hand-made rod 203, an inner ring connecting post 204, an inner ring strut 205, an inner ring slide bar 206, an inner ring connecting frame 207, an inner ring movable piece 208, an inner ring clamping plate 209, an inner cylinder 210, a U-shaped groove 211, an outer ring hand-made rod 212, an outer ring connecting post 213, an outer ring slide bar 214, an outer ring connecting frame 215, an outer ring movable piece 216 and an outer ring clamping plate 217, wherein the filter cartridge 201 is arranged in the filter screen disassembling mechanism 2, the filter element 202 is arranged in the filter cartridge 201, the inner ring hand-made rod 203 is movably connected in the filter cartridge 201, the inner ring connecting post 204 is fixedly connected to one side of the inner ring hand-made rod 203, the inner ring strut 205 is fixedly connected to both sides of the inner ring strut 204, the inner ring strut 206 is fixedly connected to one side of the inner ring strut 205 away from the inner ring strut 205, an inner ring clamping plate 209 is movably connected to one side, away from an inner ring connecting frame 207, of the inner ring movable plate 208, an inner ring 210 is connected to the bottom of the inner ring sliding rod 206 in a sliding manner, a U-shaped groove 211 is formed in the inner part of the inner ring 210, an outer ring handmade rod 212 is movably connected to the outer part of the inner ring handmade rod 203, an outer ring connecting column 213 is fixedly connected to one side of the outer ring handmade rod 212, an outer ring sliding rod 214 is fixedly connected to one side, away from the outer ring handmade rod 212, of the outer ring connecting column 213, an outer ring connecting frame 215 is fixedly connected to the top of the outer ring sliding rod 214, an outer ring movable plate 216 is movably connected to the inner part of the outer ring connecting frame 215, an outer ring clamping plate 217 is movably connected to one side, away from the outer ring connecting frame 215, the blowing angle of the blowing device can be adjusted by arranging the filter screen disassembling mechanism 2, the process of heating and vaporizing the industrial wastewater is improved, and the working efficiency of treating the industrial wastewater is improved;

further, the inner ring slide rod 206 forms a sliding structure through the inner ring hand lever 203 and the inner cylinder 210, the external dimension of the inner ring slide rod 206 is matched with the internal dimension of the U-shaped groove 211, the U-shaped grooves 211 are equidistantly arranged in the inner cylinder 210, four groups of inner ring clamping plates 209 are arranged, the inner ring clamping plates 209 are circumferentially distributed outside the inner cylinder 210 at equal angles, the inner ring slide rod 206 is utilized to slide in the inner cylinder 210, the inner ring slide rod 206 works the inner ring movable plates 208 when sliding, the inner ring movable plates 208 are clamped in the inner ring connecting frame 207 after being pulled, the inner ring clamping plates 209 are driven to move, and the diameter distance between the inner ring clamping plates 209 is reduced;

further, the outer ring sliding rods 214 form a sliding structure through the U-shaped groove 211 and the inner cylinder 210, the outer ring sliding rods 214 are provided with four groups, the outer ring sliding rods 214 are equidistantly distributed on the outer wall of the outer ring connecting post 213, the outer ring movable pieces 216 form a clamping structure through the outer ring sliding rods 214 and the outer ring connecting frame 215, the filter cartridge 201 can be conveniently disassembled when disassembled, the outer ring sliding rods 214 pull the outer ring connecting frame 215 to slide in the U-shaped groove 211 through pulling of the outer ring manual lever 212, the outer ring clamping plate 217 changes the diameter size between the outer ring clamping plates 217 through the outer ring movable pieces 216 while sliding, the diameter between the outer ring clamping plates 217 is reduced, and the outer ring clamping plates 217 and the inner ring clamping plates 209 are clamped in the air outlet without supporting, facilitating removal of the filter cartridge 201;

further, the screening mechanism 5 comprises a motor 501, a bearing frame 502, a rotating wheel 503, a connecting button 504, a push rod 505, a reserved groove 506, a connecting plate 507, a screen 508, a connecting slider 509, a slide rail 510, a connecting slide plate 511, a screen plate 512, a housing 513, a moving block 514, a bidirectional threaded rod 515 and a limiting rod 516, the motor 501 is arranged in the screening mechanism 5, the bearing frame 502 is fixedly connected to one side of the motor 501, the rotating wheel 503 is movably connected to the upper side of the bearing frame 502, the connecting button 504 is movably connected to one side of the rotating wheel 503 away from the motor 501, the push rod 505 is movably connected to one side of the connecting button 504 away from the rotating wheel 503, the reserved groove 506 is arranged in the push rod 505, one side of the push rod 505 is fixedly connected to the connecting plate 507, the screen 508 is fixedly connected to one side of the connecting plate 507 away from the push rod 505, the connecting slider 509, one side of the sliding rail 510, which is far away from the connecting sliding block 509, is connected with a connecting sliding plate 511 in a sliding manner, the top of the connecting sliding plate 511 is fixedly connected with a sieve plate 512, the bottom of the sliding rail 510 is fixedly connected with a shell 513, the inside of the shell 513 is movably connected with a moving block 514, the inside of the moving block 514 is movably connected with a bidirectional threaded rod 515, two sides of the inside of the moving block 514 are movably connected with a limiting rod 516, crystals generated after industrial wastewater is treated can be screened and recycled by using the screening mechanism 5, and the screening mechanism 5 screens crystals to ensure that the sizes of finished crystal particles are equal;

furthermore, a sliding structure is formed between the screen 508 and the sliding rail 510 through the push rod 505, a sliding structure is formed between the connecting button 504 and the push rod 505 through the motor 501, a sliding structure is formed between the screen plate 512 and the sliding rail 510 through the connecting sliding plate 511, a sliding movable structure is formed between the screen 508 and the screen plate 512 through the bidirectional threaded rod 515, the screen 508 is pushed by the push rod 505, crystals are screened in a vibrating manner, the crystals are effectively screened according to the size and the like, the push rod 505 is clamped in the reserved groove 506 through the connecting button 504 to slide, the push rod 505 is driven to regularly shake, and the screen 508 is subjected to impact vibrating screening;

further, the angle adjusting mechanism 6 includes a driving wheel 601, a belt 602, a first driven wheel 603, a second driven wheel 604, an extension spring 605, a spherical groove 607, a sliding groove 608, a first transmission rod 609, an inclined column 610, a side rod 612, a ball 613, a second transmission rod 614, a movable column 615, an arc-shaped groove 616, a shift lever 617, a movable ring 618, a shaft 619, a second blowing fan 620 and a first blowing fan 621, the driving wheel 601 is disposed inside the angle adjusting mechanism 6, the belt 602 is movably connected to an outer wall of the driving wheel 601, the first driven wheel 603 is movably connected to a side of the belt 602 away from the driving wheel 601, the second driven wheel 604 is disposed below the first driven wheel 603, the extension spring 605 is disposed on a side of the first driven wheel 603, the rotating cabin 606 is movably connected to a bottom of the first driven wheel 603, the spherical groove 607 is disposed inside the rotating cabin 606, and the sliding groove 608 is disposed inside the spherical groove, one side of the second driven wheel 604 is movably connected with a first transmission rod 609, one side of the first transmission rod 609 far away from the second driven wheel 604 is movably connected with an inclined column 610, one side of the inclined column 610 far away from the first transmission rod 609 is movably connected with a second transmission rod 614, the outer wall of the side rod 612 is fixedly connected with a movable column 615, the outer wall of the movable column 615 is slidably connected with an arc-shaped groove 616, one side of the movable column 615 far away from the side rod 612 is movably connected with a shifting rod 617, the top of the shifting rod 617 is movably connected with a movable ring 618, the top of the movable ring 618 is fixedly connected with a shaft rod 619, the top of the shaft rod 619 is movably connected with a second blowing fan 620, the upper part of the second blowing fan 620 is movably connected with a first blowing fan 621, the blowing angles of the two blowing fans are adjusted by using the angle adjusting mechanism 6, and the shifting rod 617, the two groups of blowing fans can rotate in opposite directions, so that the industrial wastewater can be blown more fully, the heating operation of the industrial wastewater is facilitated, and the crystallization efficiency of the industrial wastewater is improved;

further, the first blowing fan 621 and the second blowing fan 620 form a rotating structure through the driving wheel 601 and the processing tank 1, the first blowing fan 621 and the second blowing fan 620 rotate in opposite directions through the movable column 615, the ball 613 forms a sliding structure through the inclined column 610 and the sliding groove 608, the movable column 615 forms a sliding structure through the side rod 612 and the arc-shaped groove 616, the movable column 615 slides inside the arc-shaped groove 616, the driving rod 617 is pushed through the movable column 615, and the two groups of driving rods 617 are respectively connected with the first blowing fan 621 and the second blowing fan 620, so that the two groups of driving rods 617 rotate in different directions under the pushing in different directions to drive the first blowing fan 621 and the second blowing fan 620 to rotate in different directions;

furthermore, two groups of driving levers 617 are arranged, the two groups of driving levers 617 are distributed in an X-shaped cross manner, the driving levers 617 are connected with the movable columns 615 in a welding manner, the side rods 612 are symmetrical with respect to the central axis of the inclined columns 610, the inclined columns 610 are arranged in two groups, the inclined columns 610 are symmetrical with respect to the central axis of the shaft lever 619, the movable columns 615 can be better pushed inside the arc-shaped groove 616 by utilizing the symmetrical position relationship, the positions of the driving levers 617 can be better adjusted, and the two groups of blowing fans can rotate in opposite directions at the same time;

the embodiment also provides a use scheme of the industrial wastewater hardness-removing fluidized bed reaction device, and the device comprises the following steps:

s1, firstly, an operator adjusts the blowing angle and the blowing effect of the blowing fan in the blowing operation process of industrial wastewater, a power device drives a driving wheel 601 to rotate, the outer wall of the driving wheel 601 is movably connected with a belt 602, the driving wheel 601 is a pulley, two ends of the belt 602 wound on the outer wall of the driving wheel 601 are respectively connected with a first driven wheel 603 and a second driven wheel 604, the first driven wheel 603 and the second driven wheel 604 are arranged on the outer wall of a rotating cabin 606, and the other end of the belt 602 wound on the outer walls of the first driven wheel 603 and the second driven wheel 604 is connected with an extension spring 605, so that the driving wheel 601 rotates to drive the first driven wheel 603 and the second driven wheel 604 to synchronously rotate 606, the driving wheel 601 rotates to drive the rotating cabin to integrally rotate, and the blowing angle of the first driven wheel 603 and the second driven wheel 604 is;

s2, when the first driven wheel 603 and the second driven wheel 604 rotate, the first transmission rod 609 is driven to rotate, the first transmission rod 609 rotates to drive the inclined post 610 to rotate synchronously, the other side of the inclined post 610 is movably connected with the second transmission rod 614, so the inclined post 610 rotates inside the spherical groove 607, the inclined post 610 rotates and drives the ball 613 to slide inside the sliding groove 608 through the side rods 612 on both sides, so the movable post 615 is driven to slide inside the arc-shaped groove 616, the movable post 615 is respectively connected between the two sets of driving levers 617, so the movable post 615 slides inside the arc-shaped groove 616 to push and pull back the driving levers 617, because the top of the two sets of driving levers 617 is respectively connected with the first driven wheel 603 and the second driven wheel 604, so that the first driven wheel 603 and the second driven wheel 604 can rotate in opposite directions, the method achieves the full blowing operation of the industrial wastewater, so that the industrial wastewater can be better heated, the vaporization treatment operation of the industrial wastewater is facilitated, and the crystallization efficiency of the wastewater is improved;

s3, then, screening the crystal generated after the wastewater treatment, firstly, starting the motor 501, driving the rotating wheel 503 to rotate by the motor 501, driving the connecting button 504 to slide in the push rod 505 when the rotating wheel 503 rotates, thereby driving the push rod 505 to move, because the push rod 505 is connected with the screen 508 through the connecting plate 507, the screen 508 is pulled to move synchronously when the push rod 505 moves in two sides, the screen 508 slides in the slide rail 510 through the connecting slide block 509 at the bottom, because the connecting slide block 509 at the bottom of the screen 508 slides in the slide rail 510, a group of moving blocks 514 fixedly connected with the connecting slide block 509 are driven to slide on the outer wall of the bidirectional threaded rod 515, the moving blocks 514 drive the bidirectional threaded rod 515 to rotate in the sliding process, the bidirectional threaded rod 515 drives the moving blocks 514 at the other side to move on the outer wall thereof in the rotating process, the movement is limited by the limiting rod 516 while the movement is carried out, so that the moving blocks 514 move in the directions of two sides, the top of the other group of moving blocks 514 is fixedly connected with the connecting sliding plate 511, and the connecting sliding plate 511 is connected with the sieve plate 512, so that the sieve plate 512 is driven to slide in the direction opposite to the direction of the sieve screen 508, crystals placed on the top of the sieve screen 508 are screened, the sizes of the crystals are favorably screened equally, and the crystals are conveniently recycled at the later stage;

s4, after industrial wastewater is treated, the treated gas is discharged from a gas outlet, the gas needs to be filtered before being discharged, so that pollution to the air caused by direct discharge of the gas generated after the industrial wastewater is treated is avoided, therefore, before the gas is discharged, a gas filter cartridge 201 is installed at the gas discharge port, the filter cartridge 201 needs to be replaced after being used for a period of time, an inner ring hand lever 203 preformed groove 506 and an outer ring hand lever 212 penetrate through the interior of the filter cartridge 201, the inner ring hand lever 203 is pulled first, the inner ring hand lever 203 drives an inner ring slide rod 206 connected around an inner ring connecting column 204 to slide in a U-shaped groove 211 formed in an inner cylinder 210 after being pulled, the inner ring slide rod 206 drives a movable inner ring sheet 208 to move when sliding, the inner ring movable sheet 208 is clamped in an inner ring connecting frame 207 after the inner ring connecting frame 207 is pulled, the two groups of inner ring movable plates 208 perform the same operation to drive the positions of the inner ring clamping plates 209 to move, so that the distance between the diameters of the inner ring clamping plates 209 is shortened;

s5, finally, pulling the outer ring hand lever 212, the outer ring hand lever 212 drives the outer ring connecting post 213 to slide inside the U-shaped groove 211 formed inside the inner cylinder 210 in the pulling process, the outer ring sliding rod 214 drives the outer ring movable piece 216 to move when sliding, the outer ring movable piece 216 is clamped inside the outer ring connecting frame 215 after the outer ring connecting frame 215 is pulled, the two sets of outer ring movable pieces 216 perform the same operation to drive the position of the outer ring clamping plate 217 to move, the distance of the diameter between the outer ring clamping plates 217 is shortened, and the operation of mounting and dismounting the filter cylinder 201 by supporting the outer ring clamping plate 217 and the inner ring clamping plate 209 is cancelled.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical scope of the present invention and the equivalent alternatives or modifications according to the technical solution and the inventive concept of the present invention within the technical scope of the present invention.

Claims

1. The utility model provides an industrial waste water removes hard fluidized bed reaction unit, includes treatment tank (1), its characterized in that: the top swing joint of handling jar (1) has filter screen disassembly body (2), and handles the outer wall swing joint of jar (1) and have grip block (3), the bottom fixedly connected with supporting leg (4) of grip block (3), the bottom swing joint of handling jar (1) has screening mechanism (5), and is provided with angle adjusting mechanism (6) below the inside of handling jar (1).

2. The industrial wastewater hardness-removing fluidized bed reaction device as claimed in claim 1, wherein: the filter screen disassembling mechanism (2) comprises a filter cartridge (201), a filter element (202), an inner ring manual rod (203), an inner ring connecting post (204), an inner ring supporting rod (205), an inner ring sliding rod (206), an inner ring connecting frame (207), an inner ring movable sheet (208), an inner ring clamping plate (209), an inner cylinder (210), a U-shaped groove (211), an outer ring manual rod (212), an outer ring connecting post (213), an outer ring sliding rod (214), an outer ring connecting frame (215), an outer ring movable sheet (216) and an outer ring clamping plate (217), the filter cartridge (201) is arranged inside the filter screen disassembling mechanism (2), the filter element (202) is arranged inside the filter cartridge (201), the inner ring manual rod (203) is movably connected inside the filter cartridge (201), the inner ring connecting post (204) is fixedly connected to one side of the inner ring manual rod (203), the inner ring supporting rods (205) are fixedly connected to two sides, and one side of the inner ring strut (205) far away from the inner ring strut (205) is fixedly connected with an inner ring slide bar (206), the top of the inner ring slide bar (206) is fixedly connected with an inner ring connecting frame (207), the inner part of the inner ring connecting frame (207) is movably connected with an inner ring movable sheet (208), one side of the inner ring movable sheet (208) far away from the inner ring connecting frame (207) is movably connected with an inner ring clamping plate (209), the bottom of the inner ring slide bar (206) is slidably connected with an inner cylinder (210), a U-shaped groove (211) is formed in the inner cylinder (210), the outer part of the inner ring hand lever (203) is movably connected with an outer ring hand lever (212), one side of the outer ring hand lever (212) is fixedly connected with an outer ring connecting column (213), one side of the outer ring connecting column (213) far away from the outer ring hand lever (212) is fixedly connected with an outer ring slide bar, the inner part of the outer ring connecting frame (215) is movably connected with an outer ring movable sheet (216), and one side, far away from the outer ring connecting frame (215), of the outer ring movable sheet (216) is movably connected with an outer ring clamping plate (217).

3. The industrial wastewater hardness-removing fluidized bed reaction device as claimed in claim 2, wherein: the inner ring sliding rod (206) forms a sliding structure through the inner ring hand-made rod (203) and the inner cylinder (210), the external size of the inner ring sliding rod (206) is matched with the internal size of the U-shaped groove (211), the U-shaped groove (211) is arranged in the inner cylinder (210) at equal intervals, four groups of inner ring clamping plates (209) are arranged, and the inner ring clamping plates (209) are distributed on the outer portion of the inner cylinder (210) at equal angles in a circumferential mode.

4. The industrial wastewater hardness-removing fluidized bed reaction device as claimed in claim 2, wherein: outer lane slide bar (214) constitute sliding construction between through U-shaped groove (211) and inner tube (210), and outer lane slide bar (214) are provided with four groups to outer lane slide bar (214) are the equidistance and distribute the outer wall in outer lane spliced pole (213), outer lane movable piece (216) constitute the block structure through between outer lane slide bar (214) and outer lane connection frame (215), and outer lane movable piece (216) are provided with two sets ofly.

5. The industrial wastewater hardness-removing fluidized bed reaction device as claimed in claim 1, wherein: the screening mechanism (5) comprises a motor (501), a bearing frame (502), a rotating wheel (503), a connecting button (504), a push rod (505), a reserved groove (506), a connecting plate (507), a screen (508), a connecting slide block (509), a slide rail (510), a connecting slide plate (511), a screen plate (512), a shell (513), a moving block (514), a bidirectional threaded rod (515) and a limiting rod (516), wherein the motor (501) is arranged in the screening mechanism (5), the bearing frame (502) is fixedly connected to one side of the motor (501), the rotating wheel (503) is movably connected to the upper portion of the bearing frame (502), the connecting button (504) is movably connected to one side of the rotating wheel (503), the push rod (505) is movably connected to one side of the connecting button (504), which is far away from the rotating wheel (503), and the reserved groove (506) is formed in the push rod (505), one side fixed connection and connecting plate (507) of push rod (505), and one side fixedly connected with screen cloth (508) of push rod (505) are kept away from in connecting plate (507), the bottom fixedly connected with link block (509) of screen cloth (508), and the bottom sliding connection of link block (509) has slide rail (510), one side sliding connection that link block (509) were kept away from in slide rail (510) has connection slide plate (511), and connects top fixedly connected with sieve (512) of slide plate (511), the bottom fixedly connected with shell (513) of slide rail (510), and the inside swing joint of shell (513) has movable block (514), the inside swing joint of movable block (514) has two-way threaded rod (515), and the inside both sides swing joint of movable block (514) has gag lever post (516).

6. The industrial wastewater hardness-removing fluidized bed reaction device as claimed in claim 5, wherein: the screen (508) passes through and constitutes sliding structure between push rod (505) and slide rail (510), and links and constitute sliding structure between button (504) and push rod (505) through motor (501), slide structure is constituted between slide (511) and slide rail (510) through connecting in the sieve (512), and screen (508) passes through and constitutes smooth movable structure between two-way threaded rod (515) and sieve (512).

7. The industrial wastewater hardness-removing fluidized bed reaction device as claimed in claim 1, wherein: the angle adjusting mechanism (6) comprises a driving wheel (601), a belt (602), a first driven wheel (603), a second driven wheel (604), a tension spring (605), a spherical groove (607), a sliding groove (608), a first transmission rod (609), an inclined column (610), a side rod (612), balls (613), a second transmission rod (614), a movable column (615), an arc-shaped groove (616), a driving lever (617), a movable ring (618), a shaft lever (619), a second blowing fan (620) and a first blowing fan (621), the driving wheel (601) is arranged in the angle adjusting mechanism (6), the belt (602) is movably connected to the outer wall of the driving wheel (601), the first driven wheel (603) is movably connected to one side of the belt (602) far away from the driving wheel (601), the second driven wheel (604) is arranged below the first driven wheel (603), the tension spring (605) is arranged on one side of the first driven wheel (603), and the bottom of the first driven wheel (603) is movably connected with a rotating cabin (606), a spherical groove (607) is formed in the rotating cabin (606), a sliding groove (608) is formed in the spherical groove (607), one side of the second driven wheel (604) is movably connected with a first transmission rod (609), one side of the first transmission rod (609) far away from the second driven wheel (604) is movably connected with an inclined column (610), one side of the inclined column (610) far away from the first transmission rod (609) is movably connected with a second transmission rod (614), the outer wall of the side rod (612) is fixedly connected with a movable column (615), the outer wall of the movable column (615) is slidably connected with an arc-shaped groove (616), one side of the movable column (610) far away from the side rod (612) is movably connected with a shifting rod (615), the top of the shifting rod (617) is movably connected with a movable ring (618), and the top of the movable ring (618) is fixedly, and the top of axostylus axostyle (619) swing joint has second fan of blowing (620), the top swing joint of second fan of blowing (620) has first fan of blowing (621).

8. The industrial wastewater hardness-removing fluidized bed reaction device as claimed in claim 7, wherein: the first blowing fan (621) and the second blowing fan (620) form a rotating structure through the driving wheel (601) and the treatment tank (1), the first blowing fan (621) and the second blowing fan (620) rotate in opposite directions through the movable columns (615), the balls (613) form a sliding structure through the inclined columns (610) and the sliding grooves (608), and the movable columns (615) form a sliding structure through the side rods (612) and the arc-shaped grooves (616).

9. The industrial wastewater hardness-removing fluidized bed reaction device as claimed in claim 7, wherein: the two groups of the shifting rods (617) are arranged, the two groups of the shifting rods (617) are distributed in an X-shaped crossed mode, the shifting rods (617) are connected with the movable columns (615) in a welded mode, the side rods (612) are symmetrical with respect to the central axes of the inclined columns (610), the inclined columns (610) are arranged in two groups, and the inclined columns (610) are symmetrical with respect to the central axes of the shaft rod (619).

10. Use of the apparatus for industrial wastewater hardness removal fluidized bed reaction according to claims 1-9, characterized in that it comprises the following steps:

s1, firstly, an operator adjusts the blowing angle and the blowing effect of the blowing fan in the blowing operation process of industrial wastewater, the power device drives the driving wheel (601) to rotate, the outer wall of the driving wheel (601) is movably connected with a belt (602), the driving wheel (601) is a pulley, two ends of the belt (602) wound on the outer wall of the driving wheel are respectively connected with a first driven wheel (603) and a second driven wheel (604), the first driven wheel (603) and the second driven wheel (604) are arranged on the outer wall of the rotating cabin (606), and the other ends of the belts (602) wound on the outer walls of the first driven wheel (603) and the second driven wheel (604) are connected with the extension spring (605), so that the driving wheel (601) rotates to drive the first driven wheel (603) and the second driven wheel (604) to synchronously rotate, the driving wheel (601) rotates to drive the rotating cabin (606) to integrally rotate, driving the blowing angle of the first driven wheel (603) and the second driven wheel (604) to be adjusted;

s2, when the first driven wheel (603) and the second driven wheel (604) rotate, the first transmission rod (609) is driven to rotate, the first transmission rod (609) rotates to drive the inclined column (610) to rotate synchronously, the other side of the inclined column (610) is movably connected with the second transmission rod (614), so the inclined column (610) rotates in the spherical groove (607), the inclined column (610) rotates and simultaneously drives the ball (613) to slide in the sliding groove (608) through the side rods (612) at two sides, so the movable column (615) is driven to slide in the arc groove (616), the movable columns (615) are respectively connected between the two groups of deflector rods (617), so the movable columns (615) slide in the arc groove (616), the deflector rods (617) are pushed and pulled back, and the top of the two groups of deflector rods (617) is respectively connected with the first driven wheel (603) and the second driven wheel (604), therefore, the first driven wheel (603) and the second driven wheel (604) can rotate in opposite directions, so that the industrial wastewater can be fully blown, the industrial wastewater can be better heated, the vaporization treatment operation of the industrial wastewater is facilitated, and the crystallization efficiency of the wastewater is improved;

s3, then, screening the crystal generated after wastewater treatment, firstly, starting a motor (501), driving a rotating wheel (503) to rotate by the motor (501), driving a connecting button (504) to slide in a push rod (505) when the rotating wheel (503) rotates, thereby driving the push rod (505) to move, because the push rod (505) is connected with a screen (508) through a connecting plate (507), the screen (508) is pulled to move synchronously when the push rod (505) moves in two side directions, the screen (508) slides in a sliding rail (510) through a connecting slide block (509) at the bottom, because the connecting slide block (509) at the bottom of the screen (508) slides in the sliding rail (510), a group of moving blocks (514) fixedly connected with the connecting slide block (509) are driven to slide on the outer wall of a bidirectional threaded rod (515), and the moving blocks (514) drive the bidirectional threaded rod (515) to rotate in the sliding process, the bidirectional threaded rod (515) drives the moving blocks (514) on the other side to move on the outer wall of the bidirectional threaded rod in the rotating process, and is limited by the limiting rods (516) while moving, so that the moving blocks (514) move in the directions of two sides, and because the top of the other group of moving blocks (514) is fixedly connected with the connecting sliding plate (511), the connecting sliding plate (511) is connected with the sieve plate (512), the sieve plate (512) is driven to slide in the direction opposite to that of the sieve screen (508), crystals placed at the top of the sieve screen (508) are screened, the size of the crystals is favorably screened uniformly, and the crystals are convenient to recycle at the later stage;

s4, after industrial wastewater is treated, the treated gas is discharged from a gas outlet, the gas needs to be filtered before being discharged, so that the pollution of the gas generated after the industrial wastewater is treated to the air is avoided, therefore, before the gas is discharged, a gas filter cartridge (201) is installed at the gas discharge port, the filter cartridge (201) needs to be replaced after being used for a period of time, an inner ring hand lever (203) and an outer ring hand lever (212) penetrate through the interior of the filter cartridge (201), the inner ring hand lever (203) is pulled first, the inner ring hand lever (203) drives an inner ring sliding rod (206) connected with the periphery of an inner ring connecting post (204) to slide in a U-shaped groove (211) formed in an inner cylinder (210) after being pulled, and the inner ring sliding rod (206) drives an inner ring movable sheet (208) to move when sliding, the inner ring movable plates (208) are clamped inside the inner ring connecting frame (207) after the inner ring connecting frame (207) is pulled, the two groups of inner ring movable plates (208) perform the same operation to drive the position of the inner ring clamping plates (209) to move, and the distance between the diameters of the inner ring clamping plates (209) is shortened;

s5, finally, pulling an outer ring hand-made rod (212), wherein the outer ring hand-made rod (212) drives an outer ring connecting column (213) to slide inside a U-shaped groove (211) formed in an inner cylinder (210) in the pulling process, and an outer ring sliding rod (214) drives an outer ring movable sheet (216) to move when sliding, the outer ring movable sheet (216) is clamped inside an outer ring connecting frame (215) after the outer ring connecting frame (215) is pulled, two groups of outer ring movable sheets (216) perform the same operation, the position of an outer ring clamping plate (217) is driven to move, the distance of the diameter between the outer ring clamping plates (217) is shortened, and the operation of installing and detaching the filter cartridge (201) by supporting the outer ring clamping plate (217) and the inner ring clamping plate (209) is cancelled.