CN113860403A - Movable slag dedusting water treatment system - Google Patents

Abstract

The invention relates to the technical field of water treatment, and particularly provides a movable steel slag dedusting water treatment system, which comprises: a water collecting tank, a water treatment tank and a communication device; one side of the water collecting tank is provided with a water collecting inlet; the other side of the water collecting tank is provided with a water treatment tank with the bottoms being parallel and level to each other; the contact surface of the water collecting tank and the water treatment tank is provided with through holes which are communicated with each other and have the same size; a communicating device is embedded into the port, and water in the water collecting tank is guided into the water treatment tank; the communication device comprises a communication pipe; the port is embedded with a communicating pipe; the outer wall of the communicating pipe is hermetically connected with the inner wall of the through opening by using sealant; the communicating device also comprises a reverse flow preventing device for preventing water flow from flowing back into the water collecting pool from the water treatment tank; according to the invention, water is poured into the water collecting tank through the water collecting water inlet, and the communicating pipe and the anti-backflow device are further arranged in the communicating device, so that water flow can be prevented from flowing back into the water collecting tank, the backflow water is prevented from being repeatedly treated, and the operating efficiency of water treatment can be improved.

Description

Movable slag dedusting water treatment system

Technical Field

The invention relates to the technical field of water treatment, in particular to a movable steel slag dedusting water treatment system.

Background

The water pollution mainly comprises three types of industrial pollution, agricultural pollution and domestic pollution, and the industrial pollution is a main pollution source of the water pollution. At present, the treatment can be divided into primary treatment, secondary treatment and tertiary treatment according to the treatment degree. The first stage treatment mainly removes suspended solid pollutants in the sewage, and most of the physical treatment methods can only meet the requirements of the first stage treatment. The BOD of the sewage after primary treatment can be generally removed by about 30 percent, and the sewage can not reach the discharge standard. The primary treatment belongs to the pretreatment of the secondary treatment. Secondary treatment, mainly removing colloid and dissolved organic pollutants (BOD, COD) in the sewage to make the organic pollutants reach the discharge standard. The third-level treatment is the last level of the three levels of urban sewage treatment and is a measure for advanced sewage treatment (also called advanced treatment). After secondary treatment, the sewage still contains phosphorus, nitrogen, and organic matters, minerals, pathogens and the like which are difficult to biodegrade, and further purification treatment is needed so as to eliminate pollution. The sewage treatment principle in the three-stage treatment is a physical and chemical treatment method, and the commonly used process units comprise: coagulating sedimentation, filtering, advanced oxidation, active carbon and biomembrane technology and the like. The application to main treatment facility equipment is: the device comprises a common rapid filter tank, a model filter tank, an active sand filter, a denitrification filter tank, a rotary disc filtration and cloth filter tank, a D-shaped filter tank, a fiber ball filtration tank, a fiber bundle filtration tank, a walnut shell filtration tank, a valveless filter tank and a membrane treatment system. In the prior art, sewage filtration mainly has the following defects: such as low purification efficiency, large energy consumption for purifying sewage, short service life of equipment, low automation degree, high sewage treatment cost, large occupied area, complex structure, troublesome maintenance and cleaning of the equipment after long-time use, and high manufacturing and maintenance cost.

As disclosed in patent document No. 201620336246.0, there is disclosed a water treatment apparatus and system, the water treatment apparatus including: the filter comprises a water inlet module, a filter element module and a water outlet module; the water inlet module and the water outlet module are respectively arranged at two ends of the filter element module, the water inlet module is used for being connected with a water filtering oral cavity of a water collecting pool, and water in the water collecting pool can flow to the water inlet module from the water filtering oral cavity under the action of pressure; the water inlet module is a steel slag permeable material, the steel slag permeable material is formed by mixing and curing steel slag serving as an aggregate and an adhesive, and the adhesive is one or more of an epoxy resin adhesive, an acrylic resin adhesive and a polyurethane adhesive; and a filter element material for filtering is arranged in the filter element module. The problems of complex structure, low efficiency and short service life of the existing water treatment device are solved. But when the water yield in the filter element module is greater than the water inlet module, the water flow can flow back, and the water treatment efficiency is reduced.

Disclosure of Invention

The invention aims to provide a movable steel slag dedusting water treatment system for preventing water flow from flowing back.

The above object of the present invention can be achieved by the following technical solutions:

movable steel slag dedusting water treatment system includes: a water collecting tank, a water treatment tank and a communication device; one side of the water collecting tank is provided with a water collecting inlet; a water treatment tank with the bottom parts being flush with each other is arranged on the other side of the water collecting tank; the contact surface of the water collecting tank and the water treatment tank is provided with through holes which are communicated with each other and have the same size; a communicating device is embedded into the port, and water in the water collecting tank is guided into the water treatment tank; the communication device comprises a communication pipe; a communicating pipe is embedded in the port; the outer wall of the communicating pipe is hermetically connected with the inner wall of the through opening by using sealant; the communicating device also comprises a reverse flow preventing device for preventing water flow from flowing back into the water collecting pool from the water treatment tank.

Irritate water in to catchment pond through the water inlet that catchments, water in the catchment pond passes through communicating pipe, under the effect of preventing against the current device, avoids rivers to flow back in the catchment pond, prevents to need repeatedly to handle the backward flow water, reduces water treatment efficiency.

Preferably, the backflow prevention device comprises a rotating shaft and a baffle; a plurality of rows of rotating shafts arranged in parallel are distributed on the inner wall of the communicating pipe up and down; the rotating shaft is sleeved with a baffle; when the surface of the baffle plate is vertical, the vertical height is larger than the distance between the adjacent upper and lower rotating shafts; when water flows to the water treatment tank, the baffle plate inclines towards the water treatment tank; when the water collecting tank and the water treatment tank are empty of water, the bottom end of the baffle is overlapped on one side of the rotating shaft, which faces the water treatment tank.

Irritate water in to the pond through the water inlet that catchments, water in the pond of catchmenting passes through communicating pipe, and bump the baffle open, make the baffle revolute the rotation of axes, then the rivers enter into the water treatment incasement, when water in the water treatment incasement is more than the pond of catchmenting, the rivers backward flow, strike the baffle, the baffle rotates clockwise, and on the axle of below pivot was lapped to the baffle bottom, the mutual overlap joint of a plurality of baffles, close the passageway of communicating pipe, avoid rivers to flow back in the pond of catchmenting, prevent to need repeatedly to handle the backward flow water, reduce water treatment efficiency.

Preferably, a wedge block clamped on the inner wall of the water collecting tank is arranged at the port of the communicating pipe embedded into the water collecting tank; the wedge block is adhered outside the port of the communicating pipe; the port of the water treatment tank contacted with the communicating pipe is provided with a chamfer which facilitates the water flow to enter the water treatment tank along the obtuse slope surface.

The water flow can enter the water treatment tank conveniently.

Preferably, the water collecting tank adopts a pressure difference structure, and water in the water collecting tank is pressed into the water treatment tank; the height of a water collecting inlet of the water collecting tank is higher than the maximum height of the water treatment tank.

So that water can flow into the water treatment tank from the water collecting tank.

Preferably, the water treatment tank is filled with a filter element; a water outlet is formed in one side of the water treatment tank, which is far away from the water collecting tank; and the water outlet is filled with steel slag permeable material.

The water flow passes through the filter element and the steel slag permeable material in sequence, so that the water treatment effect is improved.

Preferably, the device further comprises a connecting device; the connecting device comprises a first locking clamp, a first supporting leg, a second locking clamp and a second supporting leg; the joint of the water treatment tank and the top of the water collecting tank forms a 90-degree included angle; at the 90-degree included angle, the water treatment tank and the water collecting tank are connected by a first locking clamp.

The junction of water treatment case and catch basin has 90 degrees contained angles, links together water treatment case and catch basin with first lock card, improves the stability that both connect.

Preferably, the first lock catch comprises a corner section, a first plate surface, a first lock bolt, a second plate surface and a second lock bolt; the first board surface is attached to the top wall of the water treatment tank, and a first lock bolt penetrates through the first board surface and is locked to the water treatment tank through threads; similarly, the second plate surface is attached to the side wall of the collecting tank, and a second lock bolt penetrates through the second plate surface and is locked to the collecting tank through threads; the first plate surface and the second plate surface are perpendicular to each other and are integrally formed through the corner section.

The first lock bolt and the second lock bolt respectively penetrate through the first plate surface and the second plate surface and then are screwed into the side walls of the water treatment tank and the water collecting tank through threads respectively to connect the water treatment tank and the water collecting tank, and the connection stability of the water treatment tank and the water collecting tank is kept.

Preferably, the bottom of the water treatment tank connected with the water collecting tank is fixedly connected through a straight second locking clamp, and the second locking clamp is respectively penetrated through bolts and embedded into the bottom of the water treatment tank and the water collecting tank.

The bottom of water treatment case and catch basin is locked together through the second lock card, further improves connection stability.

Preferably, a second supporting leg is fixed at the bottom of the second locking clip; first supporting legs are fixed at the bottoms of the corners of the water collecting tank and the water treatment tank. The stability of placing of water treatment tank and catch basin is improved.

Preferably, a flow guide base plate is adhered to the inner bottom of the water collecting tank; the flow guide base plate comprises a base plate body, a flow guide block and a flow guide angle; the base plate body covers the inner bottom of the water collecting tank; the top surface of the base plate body is slightly higher than the inner bottom wall of the communicating pipe; one end of the base plate body, which is far away from the water treatment tank, is provided with an integrally formed flow guide block; the slope surface of the flow guide block and the adjacent side wall of the water collecting tank form an obtuse angle; the other end of the base plate body is provided with a flow guide angle; the height of one end of the diversion angle facing the water treatment tank is lower than that of one section facing the water collecting tank.

When there is water in the pond, rivers enter into the intercommunication intraductal under the water conservancy diversion of water conservancy diversion piece and water conservancy diversion angle, derive the water yield in the pond, prevent to have ponding in the pond.

The invention has the characteristics and advantages that:

A. the water in the water collecting tank is prevented from flowing back into the water collecting tank through the communicating pipe under the action of the countercurrent-preventing device by the water in the water collecting tank which is filled with water through the water collecting water inlet, so that the backflow water is prevented from being repeatedly treated, and the water treatment efficiency is reduced;

B. the rotating shaft and the baffle are arranged to prevent water flow from flowing back into the water collecting tank, so that backflow water is prevented from being repeatedly treated, and the water treatment efficiency is reduced; by arranging the wedge block, water flow can conveniently enter the water treatment box; through setting up the pressure difference, facilitate the water to flow into the water treatment tank from the catchment basin; the filter element and the steel slag permeable material are arranged, so that the water treatment effect is improved; a 90-degree included angle is formed at the joint of the water treatment tank and the water collecting tank, and the water treatment tank and the water collecting tank are connected together by a first lock clamp, so that the connection stability of the water treatment tank and the water collecting tank is improved; the first lock bolt and the second lock bolt respectively penetrate through the first plate surface and the second plate surface and then are screwed into the side walls of the water treatment tank and the water collecting tank through threads to connect the water treatment tank and the water collecting tank, so that the connection stability of the water treatment tank and the water collecting tank is kept; the bottoms of the water treatment tank and the water collecting tank are locked together through the second locking clamp, so that the connection stability is further improved; the first supporting leg and the second supporting leg are arranged, so that the placing stability of the water treatment tank and the water collecting tank is improved; when there is water in the pond, rivers enter into the intercommunication intraductal under the water conservancy diversion of water conservancy diversion piece and water conservancy diversion angle, derive the water yield in the pond, prevent to have ponding in the pond.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a front sectional view of a movable steel slag dedusting water treatment system according to a first embodiment of the present invention;

FIG. 2 is an enlarged view of area A of FIG. 1 in accordance with the present invention;

FIG. 3 is a front sectional view of a movable steel slag dedusting water treatment system according to a second embodiment of the present invention;

fig. 4 is a front view structural diagram of a first locking card in the second embodiment of the present invention;

FIG. 5 is an enlarged view of area B of FIG. 3 in accordance with the present invention;

FIG. 6 is a front sectional view of a movable steel slag dedusting water treatment system according to a third embodiment of the present invention;

fig. 7 is a front view structural diagram of a flow guide backing plate in the third embodiment of the invention.

FIG. 8 is a schematic view of a movable steel slag dedusting water treatment system according to a third embodiment of the present invention.

The reference numbers illustrate:

1. a water collecting tank; 11. a water collection inlet; 2. a water treatment tank; 21. chamfering; 3. a communication device; 31. a communicating pipe; 32. an anti-reflux device; 321. a rotating shaft; 322. a baffle plate; 33. a wedge block; 34. sealing glue; 4. a water outlet; 5. a connecting device; 51. a first locking clip; 511. a corner section; 512. a first board surface; 513. a first lock bolt; 514. a second board surface; 515. a second lock bolt; 52. a first supporting leg; 53. a second locking clip; 54. a second support leg; 6. a flow guide backing plate; 61. a base plate body; 62. a flow guide block; 63. a diversion angle; 7. a drainage groove; 8. a sloping plate sedimentation tank; 9. a dust remover.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "center," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the present invention and to simplify the description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be considered limiting of the present invention. Furthermore, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The first embodiment is as follows:

as shown in figure 1, the invention provides a movable steel slag dedusting water treatment system, which comprises a water collecting tank 1, a water treatment tank 2, a communication device 3 and a water outlet 4.

And a water collecting inlet 11 is formed in one side of the water collecting tank 1. And a water treatment tank 2 with the bottom parallel and level is arranged on the other side of the water collecting tank 1. The contact surface of the water collecting tank 1 and the water treatment tank 2 is provided with through ports which are communicated with each other and have the same size. And the opening is embedded with a communicating device 3, so that water in the water collecting tank 1 is guided into the water treatment tank 2. The water collecting tank 1 adopts a pressure difference structure, and water in the water collecting tank 1 is pressed into the water treatment tank 2. In this embodiment, the height of the water inlet 11 of the water collecting tank 1 is higher than the maximum height of the water treatment tank 2. Of course, the structure of the sump 1 is not limited to the pressure difference structure of the present embodiment.

Preferably, as shown in fig. 2, in one preferred technical solution of this embodiment, the communication device 3 includes a communication pipe 31. The port is embedded in the communication pipe 31. The outer wall of the communication pipe 31 is hermetically connected with the inner wall of the port through sealant 34.

Preferably, in one preferred technical solution of this embodiment, a wedge 33 clamped on the inner wall of the collecting tank 1 is disposed at a port where the communicating pipe 31 is inserted into the collecting tank 1. And the wedge 33 is stuck outside the port of the communication pipe 31. The port of the water treatment tank 2 contacting the communicating pipe 31 is provided with a chamfer 21 which facilitates the water flow to enter the water treatment tank 2 along the obtuse slope surface.

Preferably, in one preferred technical solution of this embodiment, the communication device 3 further includes a backflow prevention device 32. The backflow prevention device 32 includes a rotation shaft 321 and a baffle 322. A plurality of rows of rotating shafts 321 arranged in parallel are distributed on the inner wall of the communicating pipe 31 along the upper and lower directions. The rotating shaft 321 is sleeved with a baffle 322. When the surface of the baffle 322 is vertical, the vertical height is larger than the distance between the adjacent upper and lower rotating shafts 321. And when the water flow flows to the water treatment tank 2, the baffle 322 is inclined towards the water treatment tank 2; when no water exists in the water collecting tank 1 and the water treatment tank 2, the bottom end of the baffle 322 is lapped at one side of the rotating shaft 321 facing the water treatment tank 2.

Preferably, in one preferable technical solution of the present embodiment, the water treatment tank 2 is filled with a filter element. And a water outlet 4 is formed in one side of the water treatment tank 2, which is far away from the water collecting tank 1. And the water outlet 4 is filled with steel slag permeable material.

The working principle is as follows: the communicating pipe 31 penetrates out of the port at the bottom of the water collecting tank 1, then the port of the water treatment tank 2 is in butt joint with the communicating pipe 31, the communicating pipe 31 penetrates through the port of the water treatment tank 2, when the wedge block 33 and the inner wall of the water collecting tank 1 are mutually extruded, the communicating pipe 31 and the port are sealed by the sealant 34, the connection of the water collecting tank 1 and the water treatment tank 2 is completed, the sealant 34 is removed during disassembly, then the communicating pipe 31 is taken out, and the water treatment tank 2 and the water collecting tank 1 can be separated and conveniently moved; then water is filled into the water collecting tank 1 through the water collecting water inlet 11, water in the water collecting tank 1 passes through the communicating pipe 31, and knock off the baffle 322, make the baffle 322 rotate around the rotating shaft 321, then the rivers enter into the water treatment tank 2, when water is more than water in the water collecting tank 1 in the water treatment tank 2, the rivers flow back, hit the baffle 322, the baffle 322 rotates clockwise, and the baffle 322 bottom overlap joint is on the axle body of below rotating shaft 321, the mutual overlap joint of a plurality of baffles 322, close the passageway of communicating pipe 31, avoid rivers to flow back to in the water collecting tank 1.

Example two:

as shown in fig. 3, compared with the first embodiment, the present embodiment further includes a connecting device 5. The connecting device 5 includes a first locking clip 51, a first supporting leg 52, a second locking clip 53 and a second supporting leg 54. The water treatment tank 2 and the top junction of the water collecting tank 1 form a 90-degree included angle. At the 90 degree corner, the water treatment tank 2 and the water collecting tank 1 are connected by a first locking clip 51.

Preferably, as shown in fig. 4, in one preferred technical solution of the present embodiment, the first latch 51 includes a corner section 511, a first board 512, a first latch 513, a second board 514, and a second latch 515. The first plate 512 is attached to the top wall of the water treatment tank 2, and a first locking bolt 513 is inserted through the first plate 512 and screwed to the water treatment tank 2. Similarly, the second plate 514 is attached to the side wall of the sump 1, and a second latch 515 is inserted through the second plate 514 and screwed to the sump 1. The first plate surface 512 and the second plate surface 514 are perpendicular to each other and are integrally formed through the corner section 511.

Preferably, in one preferred technical solution of the present embodiment, the bottom of the water treatment tank 2 connected to the water collecting tank 1 is fixedly connected by a straight second locking clip 53, and the bolts respectively pass through the second locking clip 53 and are embedded into the bottom of the water treatment tank 2 and the water collecting tank 1.

Preferably, in one preferable technical solution of this embodiment, a second supporting leg 54 is fixed to the bottom of the second locking clip 53 through a bolt. The bottoms of the corners of the water collecting tank 1 and the water treatment tank 2 are fixed with first supporting feet 52 through bolts. The stability of the water treatment tank 2 and the water collecting tank 1 is improved.

The stability of the connection between the water treatment tank 2 and the water collecting tank 1 is further improved by passing the first bolt 513 and the second bolt 515 through the first plate 512 and the second plate 514, respectively, and screwing the bolts into the side walls of the water treatment tank 2 and the water collecting tank 1, respectively, to maintain the stability of the connection between the water treatment tank 2 and the water collecting tank 1, and then locking the bottoms of the water treatment tank 2 and the water collecting tank 1 together by the second locking clip 53.

Example three:

as shown in fig. 6, in this embodiment, on the basis of the above embodiment, a diversion liner plate 6 is further adhered to the inner bottom of the water collection tank 1. As shown in fig. 7, the diversion pad plate 6 includes a pad plate body 61, a diversion block 62 and a diversion angle 63. The base plate body 61 covers the inner bottom of the water collecting tank 1. And the height of the top surface of the pad body 61 is slightly higher than the height of the inner bottom wall of the communication pipe 31. One end of the backing plate body 61, which is far away from the water treatment tank 2, is provided with an integrally formed flow guide block 62. The slope of the guide block 62 forms an obtuse angle with the adjacent side wall of the water collecting tank 1. The other end of the backing plate body 61 is provided with a diversion angle 63. The diversion angle 63 is lower in height towards one end of the water treatment tank 2 than in height towards one section of the water collection tank 1.

When water is stored in the water collecting tank 1, water flows under the guide of the guide block 62 and the guide angle 63 and enters the communicating pipe 31 to guide out the water quantity in the water collecting tank 1, so that accumulated water is prevented from being stored in the water collecting tank 1.

Example four:

as shown in fig. 8, in this embodiment, based on the above embodiment, the water outlet 4 is communicated with the drainage groove 7, the inclined plate sedimentation tank 8 is arranged below the drainage groove 7, the inclined plate sedimentation tank 8 is seated on the trolley, and the lower part of the trolley is provided with a track, wheels, a speed reducer, and the like. A ditch is arranged below the inclined plate sedimentation tank 8, and sewage is discharged into the sewage tank through the ditch. And the inclined plate sedimentation tank 8 can be moved, when equipment needs to be maintained, the inclined plate sedimentation tank 8 can be opened for treatment, and the maintenance is convenient. The portable phase is compared in fixed, the dismouting of being convenient for, and later stage reuse need not the overlapping investment.

Preferably, the dust remover 9 is arranged above the inclined plate sedimentation tank 8, the inclined plate sedimentation tank 8 is placed below the dust remover 9, and water convenient for the dust remover 9 also flows in through the drainage groove 7.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. A movable steel slag dedusting water treatment system is characterized by comprising: a water collecting tank, a water treatment tank and a communication device; one side of the water collecting tank is provided with a water collecting inlet; a water treatment tank with the bottom parts being flush with each other is arranged on the other side of the water collecting tank; the contact surface of the water collecting tank and the water treatment tank is provided with through holes which are communicated with each other and have the same size; a communicating device is embedded into the port, and water in the water collecting tank is guided into the water treatment tank; the communication device comprises a communication pipe; a communicating pipe is embedded in the port; the outer wall of the communicating pipe is hermetically connected with the inner wall of the through opening; the communicating device also comprises a reverse flow preventing device for preventing water flow from flowing back into the water collecting pool from the water treatment tank.

2. The movable steel slag dedusting water treatment system according to claim 1, wherein the backflow prevention device comprises a rotating shaft and a baffle; a plurality of rows of rotating shafts arranged in parallel are distributed on the inner wall of the communicating pipe up and down; the rotating shaft is sleeved with a baffle; when the surface of the baffle plate is vertical, the vertical height is larger than the distance between the adjacent upper and lower rotating shafts; when water flows to the water treatment tank, the baffle plate inclines towards the water treatment tank; when the water collecting tank and the water treatment tank are empty of water, the bottom end of the baffle is overlapped on one side of the rotating shaft, which faces the water treatment tank.

3. The movable steel slag dedusting water treatment system according to claim 1, wherein a wedge block clamped on the inner wall of the collecting tank is arranged at the port of the communicating pipe embedded in the collecting tank; the wedge block is adhered outside the port of the communicating pipe; the port of the water treatment tank contacted with the communicating pipe is provided with a chamfer which facilitates the water flow to enter the water treatment tank along the obtuse slope surface.

4. The movable steel slag dedusting water treatment system according to claim 1, wherein the water collecting tank adopts a pressure difference structure, and water in the water collecting tank is pressed into the water treatment tank; the height of a water collecting inlet of the water collecting tank is higher than the maximum height of the water treatment tank.

5. The movable steel slag dedusting water treatment system according to claim 1, wherein the water treatment tank is filled with a filter element; a water outlet is formed in one side of the water treatment tank, which is far away from the water collecting tank; and the water outlet is filled with steel slag permeable material.

6. The movable steel slag dedusting water treatment system according to claim 1, further comprising a connecting device; the connecting device comprises a first locking clamp, a first supporting leg, a second locking clamp and a second supporting leg; the joint of the water treatment tank and the top of the water collecting tank forms a 90-degree included angle; at the 90-degree included angle, the water treatment tank and the water collecting tank are connected by a first locking clamp.

7. The movable steel slag dedusting water treatment system as claimed in claims 1 to 6, wherein the first lock catch comprises a corner section, a first plate surface, a first lock bolt, a second plate surface and a second lock bolt; the first board surface is attached to the top wall of the water treatment tank, and a first lock bolt penetrates through the first board surface and is locked to the water treatment tank through threads; similarly, the second plate surface is attached to the side wall of the collecting tank, and a second lock bolt penetrates through the second plate surface and is locked to the collecting tank through threads; the first plate surface and the second plate surface are perpendicular to each other and are integrally formed through the corner section.

8. The movable steel slag dedusting water treatment system as claimed in claim 6, wherein the bottom of the water treatment tank connected with the water collecting tank is fixedly connected through a second straight locking clip, and bolts respectively pass through the second locking clip and are embedded into the bottom of the water treatment tank and the water collecting tank.

9. The movable steel slag dedusting water treatment system according to claim 8, wherein a second supporting leg is fixed at the bottom of the second locking clip; first supporting legs are fixed at the bottoms of the corners of the water collecting tank and the water treatment tank.

10. The movable steel slag dedusting water treatment system according to claim 1, wherein a diversion cushion plate is adhered to the inner bottom of the water collecting tank; the flow guide base plate comprises a base plate body, a flow guide block and a flow guide angle; the base plate body covers the inner bottom of the water collecting tank; the top surface of the base plate body is slightly higher than the inner bottom wall of the communicating pipe; one end of the base plate body, which is far away from the water treatment tank, is provided with an integrally formed flow guide block; the slope surface of the flow guide block and the adjacent side wall of the water collecting tank form an obtuse angle; the other end of the base plate body is provided with a flow guide angle; the height of one end of the diversion angle facing the water treatment tank is lower than that of one section facing the water collecting tank.

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