CN220665100U - Zero release processing apparatus of waste water - Google Patents

Abstract

The utility model relates to the technical field of zero wastewater discharge, in particular to a zero wastewater discharge treatment device which comprises a precipitation bin, a reaction bin, a stirring assembly, a precipitation assembly, a cleaning assembly, a moving assembly and an aeration assembly, wherein the precipitation assembly comprises a filter screen, a filter screen frame, a water suction pump, pulleys, sliding rails and a portable frame, the number of the sliding rails is four, the four sliding rails are respectively and fixedly connected with the precipitation bin and are respectively positioned at the inner side of the reaction bin, the number of the filter screen frames is two, the inner sides of the two filter screen frames are respectively and detachably connected with one filter screen, the upper parts of the two filter screen frames are respectively and fixedly connected with two portable frames, the four sides of the two filter screen frames are respectively and rotatably connected with the pulleys, the pulleys are parallel to the sliding rails, the water suction pump is fixedly connected with the precipitation bin and are positioned at the left side of the precipitation bin.

Description

Zero release processing apparatus of waste water

Technical Field

The utility model relates to the technical field of zero wastewater discharge, in particular to a zero wastewater discharge treatment device.

Background

The zero emission of wastewater means that after the industrial water is reused, the salt content and pollutants are fully recovered and reused by high concentration, most of the existing zero emission treatment of industrial wastewater is performed by manually stirring after lime is put into the treatment tank, and a large amount of residues on the wall of the treatment tank need to be manually treated, so that the use of equipment is affected.

The prior art number CN214004092U shows a desulfurization wastewater zero release device, by the reaction bin, outer wall one side of reaction bin is connected with the feed inlet, and outer wall one side of reaction bin is located the below of feed inlet and is connected with the water inlet, the outer wall of reaction bin is connected with the delivery port with the relative one side of water inlet, the motor is installed on the top of reaction bin, and the output outer wall connection of motor has the connecting axle, the output bottom of motor is connected with a gear, and one side of a gear is connected with No. two gears, one side that a gear is relative with No. two gears is connected with No. three gears. Through setting up motor, no. one gear, no. two gears, no. one stir the board, no. two grooves etc. realize the stirring function of reaction storehouse to avoid causing the problem of adhesion or caking at the reaction storehouse inner wall after making lime throw into, improve reaction uniformity and the reaction efficiency of reaction storehouse from this, solved and had a large amount of residues to need the manual work to go to handle on the pool wall, influence the problem of the use of equipment.

However, after lime cleaning, some of the cleaned caking residue is discharged with water, causing additional pollution.

Disclosure of Invention

The utility model aims to provide a zero-emission wastewater treatment device, which solves the problem that some caking residues after being cleaned by lime are discharged together with water and cause other pollution.

In order to achieve the above purpose, the utility model provides a zero wastewater discharge treatment device, which comprises two bin bodies, and further comprises a stirring assembly, a precipitation assembly, a cleaning assembly, a precipitation bin, a reaction bin, a moving assembly and an aeration assembly, wherein the left side of the reaction bin is provided with a first water inlet and a first material feeding port, the right side of the reaction bin is provided with a second water inlet, the right side of the precipitation bin is provided with a second water outlet, the stirring assembly is connected with the reaction bin, the cleaning assembly is positioned on the inner side of the reaction bin, the moving assembly is two groups, the moving assembly is respectively connected with the reaction bin and the precipitation bin, the aeration assembly is connected with the precipitation bin, the precipitation assembly comprises four sliding rails, a filter net frame, pulleys, a portable frame and a water pump, the four sliding rails are respectively and fixedly connected with the precipitation bin and are respectively positioned on the inner side of the reaction bin, the filter net frame is respectively provided with the two filter net frames, the two filter net frames are respectively connected with the two water inlet frames and the two portable frame are respectively and fixedly connected with the two water pump, and the two portable frame frames are respectively connected with the two water pump frames respectively.

The stirring assembly comprises a motor, hanging wheels, a gear II, a gear III and stirring plates, wherein the motor I is fixedly connected with the reaction bin and is located above the reaction bin, the number of the hanging wheels is three, the hanging wheels are respectively connected with the reaction bin in a rotating mode and are respectively located on the inner sides of the reaction bin, one hanging wheel is connected with the output end of the motor I, the gear II and the gear III are respectively connected with one hanging wheel in a rotating mode and are respectively located below the hanging wheels, the number of the stirring plates is two, and the stirring plates are respectively connected with the gear I and the gear III in a rotating mode and are respectively located below the gear I and the gear III.

The cleaning assembly comprises two sliding grooves, two sliding blocks, a fixed rod, a scraping plate and a waterproof synchronous motor, wherein the sliding grooves are respectively fixedly connected with the reaction bin and are respectively located on the inner side of the reaction bin, the sliding blocks are respectively rotatably connected with the two sliding grooves and are respectively located on the two sliding grooves, the fixed rod is connected with the two sliding blocks and is located between the two sliding blocks, the scraping plate is fixedly connected with the fixed rod and is located below the fixed rod, the waterproof synchronous motor is respectively located on the two sliding blocks, and the waterproof synchronous motor is respectively connected with the two sliding blocks and is respectively located on the outer sides of the two sliding blocks.

The aeration assembly comprises a blower and an aeration pipeline, wherein the blower is fixedly connected with the sedimentation bin and is positioned on the right side of the sedimentation bin, and the aeration pipeline is detachably connected with the output end of the blower and is positioned on the inner side of the sedimentation bin.

The movable assembly comprises universal wheels and electric push rods, the bottoms of the reaction bin and the sedimentation bin are respectively connected with four universal wheels in a rotating mode, and the outer sides of the reaction bin and the sedimentation bin are respectively and fixedly connected with four electric push rods.

The utility model relates to a wastewater zero discharge treatment device, wherein a first water outlet and a feed inlet are positioned at the left side of a reaction bin, a first water outlet is positioned at the right side of the reaction bin, a second water inlet is positioned at the left side of a sedimentation bin, a second water outlet is positioned at the right side of the sedimentation bin, four tank walls on the inner side of the sedimentation bin are respectively provided with rails, the number of filter screen racks is two, the two filter screen racks are respectively arranged on the inner side of the sedimentation bin, the inner sides of the two filter screen racks are respectively provided with a filter screen, the filter screen racks play a role of fixing the filter screen, the filter screen plays a role of filtering out some tiny substances and caking residues, the four rollers are respectively arranged on the periphery of the two filter screen racks, and the pulleys are parallel to a slide rail, the pulleys play a role of assisting in taking out the filter screen frame, two portable frames are respectively arranged above the two filter screen frames, the portable frames play a role of conveniently taking out the filter screen frame, the water suction pump is arranged on the left side of the sedimentation bin and is connected with the water inlet II and the water outlet I, after the wastewater is treated by the reaction bin, the water is pumped into the sedimentation bin from the reaction bin by the water suction pump to carry out the next treatment, the stirring assembly is arranged on the inner side of the reaction bin, the stirring assembly has the stirring function, the cleaning assembly is arranged on the inner side of the reaction bin, the cleaning assembly plays a role of cleaning the pool wall of the reaction bin, the aeration assembly is arranged on the inner side of the sedimentation bin, the aeration assembly plays a role of preventing some impurities and caking pollutants from sinking into the pool bottom, the improper effect of wastewater treatment is caused, the number of the moving assemblies is two, the two moving assemblies are respectively arranged at the outer sides of the reaction bin and the sedimentation bin, the moving assemblies can drive the reaction bin and the sedimentation bin to move, the scheme is used for filtering caking pollutants and tiny impurities through the filter screen, and the problems that after lime is used for cleaning, caking residues after cleaning are discharged along with water and other pollution are caused are solved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

FIG. 1 is a cross-sectional view of a reaction chamber according to a first embodiment of the present utility model.

Fig. 2 is a schematic structural view of a wastewater zero-discharge treatment apparatus according to a first embodiment of the present utility model.

Fig. 3 is a plan view of the wastewater zero release treatment apparatus according to the first embodiment of the present utility model.

Fig. 4 is a schematic structural view of a filter screen frame according to a first embodiment of the present utility model.

Fig. 5 is an enlarged view at a of fig. 1.

Fig. 6 is a front view of a wastewater zero release treatment apparatus according to a second embodiment of the present utility model.

Fig. 7 is a schematic view of the structure of an aeration assembly according to a second embodiment of the present utility model.

In the figure: 101-reaction bin, 102-sedimentation bin, 103-motor, 104-feed inlet, 105-water inlet, 106-hanging wheel, 107-gear, 108-stirring plate, 109-chute, 110-water outlet, 111 water pump, 112-water inlet, 113-water outlet, 114-slide rail, 115-filter net rack, 116-filter net, 117-pulley, 118-hand rack, 119-waterproof synchronous motor, 120-dead lever, 121-scraper, 122-slider, 123-gear, 124-gear, 201-universal wheel, 202-electric putter, 203-blower, 204-aeration pipeline.

Detailed Description

The following detailed description of embodiments of the utility model, examples of which are illustrated in the accompanying drawings and, by way of example, are intended to be illustrative, and not to be construed as limiting, of the utility model.

The first embodiment of the application is as follows:

referring to fig. 1 to 5, fig. 1 is a sectional view of a reaction chamber according to a first embodiment of the present utility model, fig. 2 is a schematic structural view of a wastewater zero-discharge treatment apparatus according to a first embodiment of the present utility model, fig. 3 is a plan view of the wastewater zero-discharge treatment apparatus according to the first embodiment of the present utility model, fig. 4 is a schematic structural view of a filter screen frame 115 according to the first embodiment of the present utility model, and fig. 5 is an enlarged view at a of fig. 1.

The utility model provides a wastewater zero discharge treatment device, which comprises: including sediment storehouse 102, reaction storehouse 101, stirring subassembly, sediment subassembly, cleaning element, remove subassembly and aeration subassembly, sediment subassembly includes slide rail 114, filter screen frame 115, filter screen 116, pulley 117, handheld frame 118 and suction pump 111, stirring subassembly includes motor 103, hanging wheel 106, gear 107, no. two gears 123, no. three gears 124 and stirring board 108, cleaning element includes spout 109, slider 122, dead lever 120, scraper blade 121 and waterproof synchronous motor 119, has solved the back with lime cleaning in the background art through the aforesaid scheme, and some caking residues after cleaning can be discharged along with water, can cause the problem of additional pollution, and it is understood that the aforesaid scheme can be used in the scene of waste water zero release processing, can also be used to other liquid purification problem's solution.

For the present embodiment _， The utility model provides a sedimentation tank, including reaction bin 101, filter screen rack, pulley 117, portable rack 118 and suction pump 111, the sedimentation tank 102 left side has No. one water inlet 105 and material throwing mouth 104, the right side has No. two water inlets 112, the right side has No. two water outlets, stirring subassembly with reaction bin 101 is connected, clean subassembly is located the inboard of reaction bin 101, the quantity of moving subassembly is two sets of, two sets of moving subassembly respectively with reaction bin 101 with sedimentation bin 102 is connected, aeration subassembly with sedimentation bin 102 is connected, sedimentation subassembly includes slide rail 114, filter screen rack 115, filter screen rack 116, pulley 117, portable rack 118 and suction pump 111, the quantity of slide rail 114 is four, four slide rail 114 respectively with sedimentation bin 102 fixed connection to be located the inboard of reaction bin 101, two filter screen racks 115 respectively with sedimentation bin 102 dismantles the connection, and be located the inboard of sedimentation bin 102, two filter screen racks 115 respectively dismantle respectively and are connected with one filter screen rack 115 respectively the filter screen rack is connected with two water inlets 116 and two portable rack 117 respectively, the side is connected with portable rack 117, and is connected with two pulley rack 111 respectively, and is connected with portable rack 117. The left side of the reaction bin 101 is provided with a feeding hole 104 and a first water inlet 105, the right side of the reaction bin 101 is provided with a first water outlet 110, when the reaction bin 101 is used for treating wastewater, wastewater enters from the first water inlet 105, lime is added from the feeding hole 104 after the wastewater enters the bin body through the feeding hole 104, the wastewater is discharged from the first water outlet 110 after being treated, the left side of the sedimentation bin 102 is provided with a second water inlet 112, the right side of the sedimentation bin 102 is provided with a second water outlet 113, and the reaction bin 101 is provided with a second water outlet 113After finishing the wastewater treatment, the wastewater is discharged from the first water outlet 110, enters the sedimentation bin 102 from the second water inlet 112, is discharged from the second water outlet 113 after finishing the wastewater treatment in the sedimentation bin 102, the stirring components are arranged at the inner side of the reaction bin 101, the cleaning components are arranged at the inner side of the sedimentation bin 102, the number of the moving components is two, the two moving components are respectively arranged below the reaction bin 101 and the sedimentation bin 102, the aeration components are arranged at the sedimentation bin 102, the number of the sliding rails 114 is four, the four sliding rails 114 are respectively arranged at the inner side of the sedimentation bin 102, the number of the filter screens 116 is two, the number of the filter screens 115 is two, the two filter screens 116 are respectively arranged at the inner sides of the two filter screens 115, the two filter screen racks 115 are respectively arranged at the inner side of the sedimentation bin 102, the filter screen racks 115 play a role of fixing the filter screen 116, the number of the pulleys 117 is eight, each filter screen rack 115 is respectively provided with four pulleys 117, the pulleys 117 play a role of assisting in the installation and the removal of the filter screen racks 115, the number of the handheld racks 118 is four, the four handheld racks 118 are respectively arranged above the filter screen racks 115, the handheld racks 118 play a role of facilitating the removal and the installation of the filter screen racks 115, the water pump 111 is arranged at the left side of the sedimentation bin 102 and is connected with the first water outlet 110 and the second water inlet 112 through hoses, the water pump 111 is started after the reaction bin 101 finishes processing waste water and pumps the waste water from the first water outlet 110, the second water inlet 112 then enters the settling bin 102 for further processing.

The first motor 103 is fixedly connected with the reaction bin 101 and is located above the reaction bin 101, the number of hanging wheels 106 is three, three hanging wheels 106 are respectively connected with the reaction bin 101 in a rotating mode and are respectively located at the inner side of the reaction bin 101, one hanging wheel 106 is respectively connected with the output end of the first motor 103 in a rotating mode, the first gear 107, the second gear 123 and the third gear 124 are respectively connected with one hanging wheel 106 in a rotating mode and are respectively located below the hanging wheels 106, the number of stirring plates 108 is two, and the two stirring plates 108 are respectively connected with the first gear 107 and the third gear 124 in a rotating mode and are respectively located below the first gear 107 and the third gear 124. The number of the hanging wheels 106 is three, the hanging wheels 106 are respectively arranged on the inner side of the reaction bin 101, one hanging wheel 106 is connected with the number one motor 103, one end of the other two hanging wheels 106 is fixed on the inner side of the reaction bin 101, the other end of the other two hanging wheels 106 is of a rotatable structure, the number one gear 107, the number two gear 123 and the number three gear 124 are respectively arranged below the number three hanging wheels 106, the number one motor 103 is started and drives the hanging wheels 106 connected with the output end of the number one motor 103 to rotate, when the hanging wheels 106 rotate, the number two gears 123 below start to rotate and drive other gears to start to rotate, the number of the stirring plates 108 is two, the two stirring plates 108 are respectively arranged below the number one gear 107 and the number two gears 123, and the stirring plates 108 are driven to rotate, and the lime is thrown into the lime feeding port 104 from the stirring inlet.

Secondly, the number of the sliding grooves 109 is two, the two sliding grooves 109 are respectively fixedly connected with the reaction bin 101 and are respectively located at the inner side of the reaction bin 101, the number of the sliding blocks 122 is two, the two sliding blocks 122 are respectively rotationally connected with the two sliding grooves 109 and are respectively located at the upper sides of the two sliding grooves 109, the fixed rod 120 is connected with the two sliding blocks 122 and is located between the two sliding blocks 122, the scraping plate 121 is fixedly connected with the fixed rod 120 and is located at the lower side of the fixed rod 120, the number of the waterproof synchronous motors 119 is two, and the two waterproof synchronous motors 119 are respectively connected with the two sliding blocks 122 and are respectively located at the outer sides of the two sliding blocks 122. The number of the sliding grooves 109 is two, the two sliding grooves 109 are respectively arranged on the inner sides of the reaction bins 101, the sliding grooves 109 are in the shape of rails, the number of the sliding blocks 122 is two, rollers are arranged on the inner sides of the sliding blocks 122, the two sliding blocks 122 are respectively arranged above the sliding grooves 109, the sliding blocks 122 slide on the sliding grooves 109 through the rollers 122 on the inner sides, the fixing rods 120 are arranged between the two sliding blocks 122, the scraping plates 121 are arranged below the fixing rods 120, the number of the waterproof synchronous motors 119 is two, the two waterproof synchronous motors 119 are respectively arranged on the outer sides of the two sliding blocks 122, the two waterproof synchronous motors 119 simultaneously drive the rollers on the inner sides of the two sliding blocks 122 to rotate, so that the sliding blocks 122 are moved, and when the sliding blocks 122 move, the scraping plates 121 start to clean the pool walls of the reaction bins 101.

When the wastewater enters the reaction bin 101 from the first water inlet 105 and enters the reaction bin 101 during zero discharge treatment of the wastewater, lime is thrown into the reaction bin 104 from the feeding port 104, the first motor 103 starts to start, the hanging wheel 106 is connected with the first motor 103 to rotate, the hanging wheel 106 starts to rotate during rotation, the second gear 123 is driven to rotate, the first gear 107 and the second gear 123 which are connected with the second gear 123 also start to rotate, the first gear 107 and the second gear 123 start to rotate, the stirring plate 108 below rotates along with the wastewater, the cleaning assembly also cooperatively works, the two sliding grooves 109 are in the shape of a track, the sliding blocks 122 are fixed on the sliding grooves 109 and can move, the two sliding blocks 122 are connected with each other to enable the sliding blocks 122 to synchronously move, the sliding blocks 122 are simultaneously moved by the fixed rod, the sliding blocks 120, the water-proof rod is provided with the water inlet 107 and the second gear 123 to start to move, the wastewater is completely filtered from the sedimentation bin 101 to the sedimentation bin 101, the sedimentation bin is completely removed from the sedimentation bin 101 by the second water inlet 101, the sedimentation bin 101 is completely cleaned by the water outlet 101, the sedimentation bin is completely cleaned by the water inlet 101, the sedimentation bin is completely cleaned by the water outlet 101, the sedimentation bin is completely cleaned by the water pump 101, and the sedimentation bin is completely cleaned by the water is completely discharged from the sedimentation bin 101, the pulley 117 is arranged around the filter screen frame 115, the portable frame 118 is arranged above the filter screen frame 115, the filter screen frame 115 is conveniently taken out and installed, the filter screen 116 is cleaned after the filter screen frame 115 is taken out, the waste water can be cleaned better, and the problem that some caking residues after cleaning with lime are discharged together with water to cause other pollution is solved.

The second embodiment of the present application is:

on the basis of the first embodiment, please refer to fig. 6 to 7, wherein fig. 6 is a front view of the wastewater zero-discharge treatment apparatus according to the second embodiment of the present utility model, and fig. 7 is a schematic structural view of the aeration assembly according to the second embodiment of the present utility model.

The aeration assembly of the present embodiment includes an aeration pipe 204 and a blower 203, and the moving assembly includes a universal wheel 201 and an electric push rod 202.

For this embodiment, the blower 203 is fixedly connected to the precipitation bin 102 and located on the right side of the precipitation bin 102, and the aeration pipe 204 is detachably connected to the output end of the blower 203 and located on the inner side of the precipitation bin 102. The bottom of reaction bin 101 with deposit bin 102 rotates respectively and is connected with four the universal wheel, the reaction bin 101 with deposit bin 102's outside is fixedly connected with four respectively electric putter 202. The air blower 203 is arranged on the right side of the sedimentation bin 102, the aeration pipeline 204 is arranged at the bottom of the sedimentation bin 102, a plurality of small holes are formed above the aeration pipeline 204, the air blower 203 inflates the aeration pipeline 204, the aeration pipeline 204 releases air from the small holes after the air blower 203 inflates, so that some tiny pollutants are prevented from sinking into the bottom of the sedimentation bin 102, two groups of moving components are respectively arranged at the outer sides of the reaction bin 101 and the sedimentation bin 102, the number of universal wheels 201 is eight, the universal wheels 201 are respectively arranged at the bottoms of the reaction bin 101 and the sedimentation bin 102, the universal wheels 201 can conveniently move the reaction bin 101 and the sedimentation bin 102, the number of the electric push rods 202 is eight, the reaction bin 101 and the sedimentation bin 102 are respectively provided with four electric push rods 202, the electric push rods 202 are provided with a controller, the controller can enable the electric push rods 202 to shrink synchronously, and when the reaction bin 101 and the sedimentation bin 102 are controlled to move to the appointed position through the universal wheels, the electric push rods 202 are controlled to move synchronously, and the sedimentation bin 102 is controlled to move, and the stability is improved.

By using the wastewater zero-emission treatment device of the embodiment, the air blower 203 starts to inflate the aeration pipeline 204, and a plurality of small holes above the aeration pipeline 204 are used for exhausting gas, so that some tiny impurities cannot sink into the bottom of the sedimentation bin 102, the universal wheel 201 assists the reaction bin 101 and the sedimentation bin 102 to move, when the universal wheel 201 moves to a designated position, the output end of the electric push rod 202 synchronously contacts the ground under the control of the controller, so that the stability of the reaction bin 101 and the sedimentation bin 102 is enhanced, and when the electric push rod 202 is controlled by the controller to retract and put down the reaction bin 101 and the sedimentation bin 102, the movement of the reaction bin 101 and the sedimentation bin 102 is facilitated.

The foregoing disclosure is only illustrative of one or more preferred embodiments of the present application and is not intended to limit the scope of the claims hereof, as it is to be understood by those skilled in the art that all or part of the process of implementing the described embodiment may be practiced otherwise than as specifically described and illustrated by the appended claims.

Claims (5)

1. A wastewater zero discharge treatment device comprises a sedimentation bin and a reaction bin, and is characterized in that,

also comprises a stirring component, a sedimentation component, a cleaning component, a moving component and an aeration component,

the utility model provides a sedimentation device, including reaction bin, filter screen frame, pulley, portable frame and suction pump, the quantity of slide rail is four, four slide rails respectively with deposit bin fixed connection, and be located respectively the inboard of reaction bin, the quantity of filter screen frame is two, and be located respectively the inboard of deposit bin, two filter screen frames is dismantled respectively and is connected with one the filter screen frame, two the top of filter screen frame is two respectively fixedly connected with portable frame, two the filter screen frame rotate respectively all around and be connected with pulley, just deposit the water pump with the hose is connected with the suction pump, the quantity of slide rail is four, four slide rails respectively with deposit bin fixed connection, and be located respectively the inboard of reaction bin, the quantity of filter screen frame is two, and be located respectively the inboard of deposit bin.

2. A wastewater zero release treatment device according to claim 1, wherein,

the stirring assembly comprises a motor, hanging wheels, a gear II, a gear III and stirring plates, wherein the motor I is fixedly connected with the reaction bin and is located above the reaction bin, the number of the hanging wheels is three, the hanging wheels are respectively connected with the reaction bin in a rotating mode and are respectively located on the inner sides of the reaction bin, one hanging wheel is connected with the output end of the motor I, the gear II and the gear III are respectively connected with one hanging wheel in a rotating mode and are respectively located below the hanging wheels, the number of the stirring plates is two, and the stirring plates are respectively connected with the gear I and the gear III in a rotating mode and are respectively located below the gear I and the gear III.

3. A wastewater zero release treatment device according to claim 1, wherein,

the cleaning assembly comprises two sliding grooves, two sliding blocks, a fixed rod, a scraping plate and a waterproof synchronous motor, wherein the sliding grooves are respectively fixedly connected with the reaction bin and are respectively positioned on the inner side of the reaction bin, the sliding blocks are respectively rotatably connected with the two sliding grooves and are respectively positioned on the two sliding grooves, the fixed rod is connected with the two sliding blocks and is positioned between the two sliding blocks, the scraping plate is fixedly connected with the fixed rod and is positioned under the fixed rod, the waterproof synchronous motor is respectively positioned on the two sliding blocks, and the waterproof synchronous motor is respectively connected with the two sliding blocks and is respectively positioned on the outer sides of the two sliding blocks.

4. A wastewater zero release treatment device according to claim 1, wherein,

the aeration assembly comprises a blower and an aeration pipeline, wherein the blower is fixedly connected with the sedimentation bin and is positioned on the right side of the sedimentation bin, and the aeration pipeline is detachably connected with the output end of the blower and is positioned on the inner side of the sedimentation bin.

5. A wastewater zero release treatment device according to claim 1, wherein,

the movable assembly comprises universal wheels and electric push rods, the bottoms of the reaction bin and the sedimentation bin are respectively connected with four universal wheels in a rotating mode, and the outer sides of the reaction bin and the sedimentation bin are respectively and fixedly connected with four electric push rods.