CN112225343A - Water environment treatment method based on water environment restoration device - Google Patents

Abstract

The invention discloses a water environment treatment method based on a water environment restoration device, which comprises four steps of device preparation, purified liquid injection and primary mixing, secondary mixing, device drainage and resetting, compared with the prior art, the invention can quantitatively and regularly dope concentrated purified water into a water body, the device is placed below a waterfall or adopts a manual pumping mode to realize the injection of the water body, when in use, the purified liquid is added into a liquid storage cavity, water enters a shell from a water inlet and gradually passes through a first float to drive a horizontal pipe to move upwards, the purified liquid is injected into the horizontal pipe by the matching of a bearing part at the left side of the horizontal pipe and a liquid outlet mechanism, the purified liquid in the horizontal pipe is released into a vertical pipe after the horizontal pipe is gradually moved upwards to a first through hole, under the common force of a floating mechanism and a magnetic component, the floating mechanism moves upwards, the through hole is opened after the floating mechanism moves upwards and releases the purified liquid in the vertical pipe, discharge apparatus after the rabbling mechanism stirring is suitable for the popularization.

Description

Water environment treatment method based on water environment restoration device

Technical Field

The invention belongs to the technical field of ecological restoration of eutrophic water bodies in rivers and lakes, and particularly relates to a water environment treatment method based on a water environment restoration device.

Background

Water is the life pulse of a city, and water resources are the continuation of the life of the city, namely Renzhe Leshan and Chi Zhi Leshui. Live along with the water in mountains, and are the first choice for human living and habitation since ancient times. The urban waterfront area starts from a remote village, is formed and started along with the city, and is the starting point of urban civilization. The urban waterfront facility is an important expression form of urban landscape, is an important condensation point and a inheritance body of the urban landscape, exists as the materialization of the landscape, and cannot inherit and continue the traditional culture in the local city. The existing waterfront landscape facility is simple in structure and performance, can only be used as a furnishing object generally, and cannot combine water resources with other purposes for practical use, so that the manpower management cost is increased, and the utilization rate of the water resources is reduced.

The urban waterfront zone is a type of land and water ecological staggered zone and is one of the weakest wetland ecosystems on the earth. The buffer zone has the functions of a filter and a barrier for logistics, energy flow, information flow and biological flow among water and land ecosystems, can keep biological diversity and provide wild animal and plant habitats and other special protection functions, and can play the functions of stabilizing lakes and banks and protecting banks for controlling soil erosion. In addition, a rich resource, a multi-purpose entertainment place, and a comfortable environment, i.e., economic aesthetic value, can be provided. However, with the increasing population and the development of socioeconomic performance, the urban waterside belt is seriously damaged by man.

On the other hand, most of rivers and lakes in China are seriously polluted due to eutrophication, and relevant data show that nearly 20 natural lakes are lost in China every year and over 75 percent of natural lakes and artificial lakes are eutrophicated in China in nearly 50 years. For another example, the water quality of landscape water in most northern cities in China is poor, although a plurality of cities transform partial landscape river systems, the water quality is still difficult to maintain, and the trend of continuous deterioration is shown, and the sewage receiving capacity exceeds the self-cleaning capacity of the water source pollution problem because the sewage interception is not thorough and the water source pollution problem is not solved.

At present, the water purification methods related to the water purification of the waterfront water body and the water purification are still few, and the technology is relatively immature, so the development and the utilization of the related technology are urgent technical problems to be solved.

Disclosure of Invention

The invention aims to provide a water environment treatment method based on a water environment restoration device, which comprises four steps of device preparation, purified liquid injection and primary mixing, secondary mixing and device drainage and resetting, can quantitatively and regularly mix concentrated purified water into a water body, and discharges the concentrated purified water through mixing and stirring.

The invention provides a water environment treatment method based on a water environment restoration device, which is characterized in that the restoration device comprises a shell, a liquid storage cavity, a liquid outlet mechanism, a floating mechanism, a magnet assembly and a stirring mechanism, wherein the shell is of a hollow rectangular structure, a water inlet is arranged above the shell, the liquid storage cavity is fixed on the left side of the shell, a liquid inlet is arranged at the contact part of the liquid storage cavity and the liquid outlet, a water outlet is arranged below the shell, a partition plate is arranged below the shell, a through hole is arranged on the partition plate, the shell is divided into an upper part and a lower part by the partition plate, the stirring mechanism is arranged below the partition plate, the liquid outlet mechanism is arranged on the liquid inlet, the liquid outlet mechanism comprises a left liquid outlet pipe, a right liquid outlet pipe, an outer sleeve and a telescopic spring, the outer sleeve is fixedly connected with the left liquid outlet pipe, wherein the inlet both sides are equipped with the guide rail, left side drain pipe both sides are equipped with protrudingly and are located its below baffle, outstanding and guide rail sliding fit, right side drain pipe end is equipped with slope portion, floating mechanism locates out the liquid mechanism right side, wherein floating mechanism includes horizontal pipe, vertical pipe, first cursory, second cursory, first horizontal plate, second horizontal plate and third horizontal plate constitution, the horizontal pipe is the hollow cuboid structure of both ends open-ended, the left side of horizontal pipe is equipped with the accepting portion, the accepting portion is used for mutually supporting with the right side drain pipe, wherein the accepting portion includes upper portion accepting board, vertical plate and lower part accepting board, the bottom slope of vertical plate sets up for cooperate with the slope portion of right side drain pipe, first cursory is rectangle or cuboid structure, its vertical fixation in the both sides of horizontal pipe, the vertical pipe is connected with the horizontal pipe in a sliding fit manner, the vertical pipe is sequentially provided with a first horizontal plate, a second floater and a third horizontal plate from top to bottom, when the device is static, the third horizontal plate is used for shielding a through hole at the position of the partition plate, the horizontal pipe is arranged between the first horizontal plate and the second horizontal plate, the vertical pipe also comprises a first through hole at the position of a left side wall, the right side wall of the vertical pipe is provided with a second through hole, the height of the second through hole is higher than that of the first through hole, the first through hole and the second through hole are communicated with the horizontal pipe, the magnet components are respectively arranged at the top of the first floater and above the shell, the shell also comprises a limiting cylinder body which is sleeved with the vertical pipe and used for limiting the horizontal displacement of the floating mechanism, and the stirring mechanism comprises a rotating motor and a stirring blade which are arranged at the bottom of the shell, wherein the output shaft of the rotating motor is fixedly connected with the stirring blades, the device also comprises a power supply, the power supply is electrically connected with the rotating motor, when the first buoy is stressed, the horizontal pipe is driven to move upwards, the right liquid outlet pipe is contacted with the lower part bearing plate, the right liquid outlet pipe is driven by the expansion spring to be inserted into the left side of the horizontal pipe, the purified liquid in the liquid outlet pipe is injected into the horizontal pipe, the horizontal pipe is gradually superposed with the first through hole along with the upward movement of the horizontal pipe, the purified liquid in the horizontal pipe is finally injected into the vertical pipe, after the horizontal pipe is abutted against the first horizontal plate, the buoyancy lifting floating mechanism moves upwards to release the purified liquid in the vertical pipe to the lower part of the shell, and the purified liquid is discharged after,

the water environment treatment method specifically comprises the following steps:

(1) preparing a device: when the device is static, the right liquid outlet pipe is abutted against the vertical plate of the bearing part, the liquid storage cavity injects purifying liquid into the liquid outlet mechanism, and a water inlet above the shell is opened;

(2) injecting and primarily mixing the purified liquid: along with the continuous rising of the water level in the shell, the first buoy is stressed to drive the horizontal pipe to move upwards, the right liquid outlet pipe is contacted with the lower bearing plate, the right liquid outlet pipe is driven by the telescopic spring to be inserted into the left side of the horizontal pipe, purified liquid in the liquid outlet pipe is injected into the horizontal pipe, the horizontal pipe gradually coincides with the first through hole along with the upward moving of the horizontal pipe and finally the purified liquid in the horizontal pipe is injected into the vertical pipe, along with the continuous upward moving of the horizontal pipe, the horizontal pipe is communicated with the second through hole and then injects a water body in the device into the vertical pipe, and the primary mixing and stirring of the purified liquid are facilitated in the water body injection process;

(3) and (3) secondary mixing: after the horizontal pipe abuts against the first horizontal plate, the buoyancy lifting floating mechanism moves upwards to release the purified liquid in the vertical pipe to the lower part of the shell, and the purified liquid is discharged out of the device after being secondarily stirred and mixed by the stirring mechanism;

(4) draining and resetting the device: after the floating mechanism moves upwards, the through hole is opened by the third horizontal plate, the device starts to drain water, at the moment, under the combined action of the magnetic assembly, the first buoy and the second buoy, the floating mechanism still floats upwards, the water level on the upper portion of the shell is gradually reduced, after the water level of the floating mechanism falls to the second buoy, the stress of the second buoy is reduced, the acting force of the magnetic assembly and the second buoy is smaller than the gravity of the floating mechanism and the liquid outlet mechanism, the device integrally falls back to the initial position, the through hole on the partition plate is plugged by the third horizontal plate, and the liquid storage cavity injects the purifying liquid into the liquid outlet mechanism again for next purification.

Further, the horizontal pipe is divided into a left chamber and a right chamber which are not communicated with each other by the vertical pipe.

Furthermore, a filter screen is arranged at the water inlet.

Furthermore, a certain inclination angle is arranged in the horizontal pipe and the horizontal pipe is concave.

Furthermore, a hollow cavity is arranged in the liquid outlet pipe on the left side and is used for containing quantitative purification liquid.

The invention has the beneficial effects that: the invention provides a water environment treatment method based on a water environment restoration device, which is convenient to use, can quantitatively and regularly mix concentrated purified water into a water body, the device is placed below a waterfall or adopts a manual water pumping mode to realize the injection of the water body, when in use, the purified liquid is added into a liquid storage cavity, water enters a shell from a water inlet, firstly does not pass through a second buoy and then gradually passes through a first buoy, a horizontal pipe is driven to move upwards, the purified liquid is injected into the horizontal pipe by the matching of a bearing part at the left side of the horizontal pipe and a liquid outlet mechanism, the purified liquid in the horizontal pipe is released into a vertical pipe after the horizontal pipe gradually moves upwards to a first through hole, under the common force application of a floating mechanism and a magnetic assembly, the floating mechanism moves upwards, the through hole is opened after the floating mechanism moves upwards, the purified liquid in the vertical pipe is released, and the device is discharged after being stirred by a stirring mechanism, the operation of discharging the purified liquid once is completed, the improvement of the ecological environment of the water body can be effectively realized, and the method is suitable for popularization.

Drawings

FIG. 1 is a schematic view of the overall construction of the prosthetic device of the present invention;

FIG. 2 is a schematic view of the floating mechanism of the present invention;

FIG. 3 is a schematic structural view of the liquid outlet mechanism of the present invention;

FIG. 4 is a schematic view of the structure of the inlet of the present invention;

FIG. 5 is a simplified schematic diagram of the fitting between the horizontal tube and the vertical tube.

The device comprises a shell, a water inlet, a liquid outlet, a water outlet, a partition plate, a 141, a through hole, a 2, a liquid storage cavity, a 3, a liquid outlet mechanism, a 31, a left liquid outlet pipe, a 311, a protrusion, a 312, a baffle, a 32, a right liquid outlet pipe, a 321, a slope part, a 33, an outer sleeve, a 34, a telescopic spring, 4, a floating mechanism, a 41, a horizontal pipe, a 411, a receiving part, 4111, an upper receiving plate, 4112, a vertical plate, 4113, a lower receiving plate, a 42, a vertical pipe, 421, a first through hole, 422, a second through hole, 43, a first floater, 44, a second floater, 45, a first horizontal plate, 46, a second horizontal plate, 47, a third horizontal plate, 5, a magnet assembly, 6, a stirring mechanism, 61, a rotating motor, 62 and a stirring blade.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but 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. Furthermore, the terms "first," "second," and "third," if used, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that unless otherwise specifically stated or limited, the terms "mounted," "connected," and "in communication with" are to be construed broadly, and may be, for example, fixedly, detachably, or integrally connected, mechanically, electrically, directly or indirectly through intervening elements, or in communication 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.

As shown in the figure, the water environment treatment method based on the water environment restoration device comprises a shell 1, a liquid storage cavity 2, a liquid outlet mechanism 3, a floating mechanism 4, a magnet assembly 5 and a stirring mechanism 6, and is characterized in that the shell 1 is of a hollow cuboid structure, a water inlet 11 is arranged above the shell, the liquid storage cavity 2 is fixed on the left side of the shell, a liquid inlet 12 is arranged at the contact position of the two, a water outlet 13 is arranged below the shell, a partition plate 14 is further arranged below the shell, a through hole 141 is arranged on the partition plate 14, the shell 1 is divided into an upper part and a lower part by the partition plate 14, the stirring mechanism 6 is arranged below the partition plate 14, the liquid outlet mechanism 3 is arranged at the liquid inlet 12, the liquid outlet mechanism 3 comprises a left liquid outlet pipe 31, a right liquid outlet pipe 32, an outer sleeve 33 and a telescopic spring 34, telescopically engaged with the right side liquid outlet pipe 32

Spring 34 sets firmly between left side drain pipe 31 and right side drain pipe 32, wherein inlet 12 both sides are equipped with the guide rail, left side drain pipe 31 both sides are equipped with outstanding 311 and are located baffle 312 of its below, outstanding 311 and guide rail sliding fit, right side drain pipe 32 end is equipped with slope portion 321, floating mechanism 4 is located out the liquid mechanism 3 right side, wherein floating mechanism 4 is including horizontal pipe 41, vertical pipe 42, first cursory 43, second cursory 44, first horizontal plate 45, second horizontal plate 46 and third horizontal plate 47 constitute, horizontal pipe 41 is both ends open-ended hollow cuboid structure, the left side of horizontal pipe 41 is equipped with accepting portion 411, accepting portion 411 is used for mutually supporting with right side drain pipe 32, wherein accepting portion 411 is including upper portion accepting board 4111, vertical board 4112 and lower part accepting board 4113, the bottom slope of 4112 sets up, the first float 43 is a rectangular or cuboid structure and is vertically fixed on two sides of the horizontal tube 41, the vertical tube 42 is connected with the horizontal tube 41 in a sliding fit manner, wherein the horizontal tube 41 can accommodate the vertical tube 42 and move up and down along the vertical tube, the hollow part of the horizontal tube 41 is contacted with the left and right outer side walls of the vertical tube 42, the vertical tube 42 is sequentially provided with a first horizontal plate 45, a second horizontal plate 46, a second float 44 and a third horizontal plate 47 from top to bottom, when the device is static, the third horizontal plate 47 is used for shielding the through hole 141 at the partition plate, the horizontal tube 42 is arranged between the first horizontal plate 45 and the second horizontal plate 46, the vertical tube 42 further comprises a first through hole 421 arranged at the left side wall, wherein the right side wall of the vertical tube 42 is provided with a second through hole 422, the height of the second through hole 422 is higher than that of the first through hole 421, the first through hole 421 and the second through hole 422 are used for being communicated with the horizontal pipe 41, the first through hole 421 is used for being communicated with the horizontal pipe 41, the magnet assembly 5 is respectively arranged at the top of the first float 43 and above the housing 1, the housing 1 further comprises a limiting cylinder body which is sleeved with the vertical pipe 42 and used for limiting the horizontal displacement of the floating mechanism 4, the stirring mechanism 6 comprises a rotating motor 61 and a stirring blade 62 which are arranged at the bottom of the housing, wherein an output shaft of the rotating motor 61 is fixedly connected with the stirring blade 62, the device further comprises a power supply which is electrically connected with the rotating motor 61, when the first float 43 is stressed, the horizontal pipe 41 is driven to move upwards, at the moment, the right side liquid outlet pipe 32 is contacted with the lower bearing plate 4113, the right side liquid outlet pipe 32 is inserted into the left side of the horizontal pipe 41 under the driving of the telescopic spring 34, and the purified liquid in the liquid outlet pipe is injected into, along with the gradual superposition of the horizontal pipe 41 and the first through hole 421 on the horizontal pipe 41 and the final injection of the purified liquid in the horizontal pipe into the vertical pipe 42, after the horizontal pipe 41 is abutted against the first horizontal plate 45, the buoyancy lifting floating mechanism 4 moves upwards to release the purified liquid in the vertical pipe 42 to the lower part of the shell, and the purified liquid is discharged after being stirred,

the water environment treatment method specifically comprises the following steps:

(1) preparing a device: when the device is static, the right liquid outlet pipe 32 is abutted against the vertical plate 4112 of the bearing part 411, the liquid storage cavity 2 injects the purified liquid into the liquid outlet mechanism, and the water inlet 11 above the shell is opened;

(2) injecting and primarily mixing the purified liquid: along with the continuous rising of the water level in the shell 1, when the first buoy 43 is stressed to drive the horizontal pipe 41 to move upwards, the right liquid outlet pipe 32 is contacted with the lower bearing plate 4113, the right liquid outlet pipe 32 is driven by the telescopic spring 34 to be inserted into the left side of the horizontal pipe 41, purified liquid in the liquid outlet pipe is injected into the horizontal pipe 41, the horizontal pipe 41 moves upwards to be gradually overlapped with the first through hole 421 and finally the purified liquid in the horizontal pipe is injected into the vertical pipe 42, and along with the continuous upward moving of the horizontal pipe 41, the purified liquid in the device is injected into the vertical pipe 42 after being communicated with the second through hole 422, so that the primary mixing and stirring of the purified liquid are facilitated in the water injection process;

(3) and (3) secondary mixing: after the horizontal pipe 41 abuts against the first horizontal plate 45, the buoyancy lifting floating mechanism 4 moves upwards to release the purified liquid in the vertical pipe 42 to the lower part of the shell 1, and the purified liquid is discharged out of the device after being secondarily stirred and mixed by the stirring mechanism 6;

(4) draining and resetting the device: after the floating mechanism 4 moves upwards, the through hole 141 is opened by the third horizontal plate 47, the device starts to drain, at this time, under the combined action of the magnetic assembly 5, the first buoy 43 and the second buoy 44, the floating mechanism 4 still keeps floating, the water level at the upper part of the shell 1 is gradually reduced, after the water level of the floating mechanism falls to the position of the second buoy 44, along with the reduction of the stress of the second buoy, the acting force of the magnetic assembly 5 and the second buoy 44 is smaller than the gravity of the floating mechanism 4 and the liquid outlet mechanism 3, the device integrally falls back to the initial position, the through hole 141 at the position of the partition plate is blocked by the third horizontal plate 47, and the liquid storage cavity 2 injects the liquid outlet mechanism 3 with the purifying liquid again for next purification.

As a further improvement of the present invention, the horizontal pipe 41 is divided into left and right chambers by the vertical pipe 42, the left and right chambers are not communicated with each other, wherein the right sidewall of the vertical pipe 42 is provided with a second through hole 422, the height of the second through hole 422 is higher than the height of the first through hole 421, wherein the left and right chambers of the horizontal pipe 41 are respectively communicated with the first through hole 421 and the second through hole 422 along with the lifting of the height of the horizontal pipe 41, firstly the left chamber is communicated with the first through hole 421 and then the purified liquid therein is injected into the vertical pipe 42, and then the right chamber is slowly moved upward and communicated with the second through hole 422 and then the water in the device is injected into the vertical pipe 42, which helps to realize the primary stirring of the purified liquid during the water injection process, and then the vertical pipe 42 is moved upward and enters the lower part of the housing 1.

As a further improvement of the invention, a filter screen is arranged at the water inlet 11, wherein the filter screen is used for filtering the residues such as sand and stone, leaves and the like entering the water inlet 11, and preventing the inside of the device from being blocked.

As a further improvement of the present invention, the horizontal tube has a certain inclination angle and is concave, and the concave structure is more favorable for discharging the purified liquid and the water body into the first through hole 421 and the second through hole 422.

As a further improvement of the invention, a hollow cavity is arranged in the left liquid outlet pipe and is used for containing quantitative purification liquid.

When the device is static, the right liquid outlet pipe 32 is abutted against the vertical plate 4112 of the receiving part 411, the liquid storage cavity 2 injects the purifying liquid into the liquid outlet mechanism 3, when the device works, with the continuous rise of the water level in the housing 1, the first float 43 is forced to drive the horizontal pipe 41 to move upwards, the right liquid outlet pipe 32 is contacted with the lower receiving plate 4113, the right liquid outlet pipe 32 is driven by the expansion spring 34 to be inserted into the left side of the horizontal pipe 41, the purifying liquid in the liquid outlet pipe is injected into the horizontal pipe 41, with the gradual coincidence of the horizontal pipe 41 and the first through hole 421 on the horizontal pipe 41, the purifying liquid in the vertical pipe 42 is finally injected into the vertical pipe 42, after the horizontal pipe 41 is abutted against the first horizontal plate 45, the floating force lifts the floating mechanism 4 to move upwards to release the purifying liquid in the vertical pipe 42 to the lower part of the housing, and then the purifying liquid is discharged after being stirred, at this time, under the combined action of the magnetic assembly 5, the first float 43 and the second float 44, along with the gradual reduction of the water level at the upper part of the shell 1, after the water level falls to the second buoy 44, along with the reduction of the stress of the second buoy 44, the acting force of the 5-stage second buoy 44 of the magnetic assembly is smaller than the gravity of the floating mechanism 4 and the liquid outlet mechanism 3, the whole device falls back to the initial position, the through hole 141 at the partition plate is blocked by the third horizontal plate 47, and the liquid storage cavity 2 injects the purifying liquid into the liquid outlet mechanism 3 again.

As another embodiment of the present invention, the top of the housing 1 is further provided with a binding belt, not shown in the figure, wherein the binding belt is matched with the liquid outlet mechanism 3, and the bottom of the binding belt has a height equal to or less than the height of the liquid inlet 12.

The above-mentioned embodiments are merely illustrative of the preferred embodiments of the present invention, and do not limit the scope of the present invention, and various modifications and improvements of the technical solution of the present invention by those skilled in the art should fall within the protection scope defined by the claims of the present invention without departing from the spirit of the present invention.

Claims (5)

1. A water environment treatment method based on a water environment restoration device is characterized in that the restoration device comprises a shell, a liquid storage cavity, a liquid outlet mechanism, a floating mechanism, a magnet assembly and a stirring mechanism, wherein the shell is of a hollow rectangular structure, a water inlet is formed above the shell, the liquid storage cavity is fixed on the left side of the shell, a liquid inlet is formed in the contact position of the liquid storage cavity and the liquid outlet, a water outlet is formed below the shell, a partition plate is further arranged below the shell and provided with a through hole, the shell is divided into an upper part and a lower part by the partition plate, the stirring mechanism is arranged below the partition plate, the liquid outlet is provided with the liquid outlet mechanism, the liquid outlet mechanism comprises a left liquid outlet pipe, a right liquid outlet pipe, an outer sleeve and a telescopic spring, the outer sleeve is fixedly connected with the left liquid outlet pipe and is in telescopic fit, wherein the inlet both sides are equipped with the guide rail, left side drain pipe both sides are equipped with protrudingly and are located its below baffle, outstanding and guide rail sliding fit, right side drain pipe end is equipped with slope portion, floating mechanism locates out the liquid mechanism right side, wherein floating mechanism includes horizontal pipe, vertical pipe, first cursory, second cursory, first horizontal plate, second horizontal plate and third horizontal plate constitution, the horizontal pipe is the hollow cuboid structure of both ends open-ended, the left side of horizontal pipe is equipped with the accepting portion, the accepting portion is used for mutually supporting with the right side drain pipe, wherein the accepting portion includes upper portion accepting board, vertical plate and lower part accepting board, the bottom slope of vertical plate sets up for cooperate with the slope portion of right side drain pipe, first cursory is rectangle or cuboid structure, its vertical fixation in the both sides of horizontal pipe, the vertical pipe is connected with the horizontal pipe in a sliding fit manner, the vertical pipe is sequentially provided with a first horizontal plate, a second floater and a third horizontal plate from top to bottom, when the device is static, the third horizontal plate is used for shielding a through hole at the position of the partition plate, the horizontal pipe is arranged between the first horizontal plate and the second horizontal plate, the vertical pipe also comprises a first through hole at the position of a left side wall, the right side wall of the vertical pipe is provided with a second through hole, the height of the second through hole is higher than that of the first through hole, the first through hole and the second through hole are communicated with the horizontal pipe, the magnet components are respectively arranged at the top of the first floater and above the shell, the shell also comprises a limiting cylinder body which is sleeved with the vertical pipe and used for limiting the horizontal displacement of the floating mechanism, and the stirring mechanism comprises a rotating motor and a stirring blade which are arranged at the bottom of the shell, wherein the output shaft of the rotating motor is fixedly connected with the stirring blades, the device also comprises a power supply, the power supply is electrically connected with the rotating motor, when the first buoy is stressed, the horizontal pipe is driven to move upwards, the right liquid outlet pipe is contacted with the lower part bearing plate, the right liquid outlet pipe is driven by the expansion spring to be inserted into the left side of the horizontal pipe, the purified liquid in the liquid outlet pipe is injected into the horizontal pipe, the horizontal pipe is gradually superposed with the first through hole along with the upward movement of the horizontal pipe, the purified liquid in the horizontal pipe is finally injected into the vertical pipe, after the horizontal pipe is abutted against the first horizontal plate, the buoyancy lifting floating mechanism moves upwards to release the purified liquid in the vertical pipe to the lower part of the shell, and the purified liquid is discharged after,

the water environment treatment method specifically comprises the following steps:

(1) preparing a device: when the device is static, the right liquid outlet pipe is abutted against the vertical plate of the bearing part, the liquid storage cavity injects purifying liquid into the liquid outlet mechanism, and a water inlet above the shell is opened;

(2) injecting and primarily mixing the purified liquid: along with the continuous rising of the water level in the shell, the first buoy is stressed to drive the horizontal pipe to move upwards, the right liquid outlet pipe is contacted with the lower bearing plate, the right liquid outlet pipe is driven by the telescopic spring to be inserted into the left side of the horizontal pipe, purified liquid in the liquid outlet pipe is injected into the horizontal pipe, the horizontal pipe gradually coincides with the first through hole along with the upward moving of the horizontal pipe and finally the purified liquid in the horizontal pipe is injected into the vertical pipe, along with the continuous upward moving of the horizontal pipe, the horizontal pipe is communicated with the second through hole and then injects a water body in the device into the vertical pipe, and the primary mixing and stirring of the purified liquid are facilitated in the water body injection process;

(3) and (3) secondary mixing: after the horizontal pipe abuts against the first horizontal plate, the buoyancy lifting floating mechanism moves upwards to release the purified liquid in the vertical pipe to the lower part of the shell, and the purified liquid is discharged out of the device after being secondarily stirred and mixed by the stirring mechanism;

(4) draining and resetting the device: after the floating mechanism moves upwards, the through hole is opened by the third horizontal plate, the device starts to drain water, at the moment, under the combined action of the magnetic assembly, the first buoy and the second buoy, the floating mechanism still floats upwards, the water level on the upper portion of the shell is gradually reduced, after the water level of the floating mechanism falls to the second buoy, the stress of the second buoy is reduced, the acting force of the magnetic assembly and the second buoy is smaller than the gravity of the floating mechanism and the liquid outlet mechanism, the device integrally falls back to the initial position, the through hole on the partition plate is plugged by the third horizontal plate, and the liquid storage cavity injects the purifying liquid into the liquid outlet mechanism again for next purification.

2. The water environment treatment method based on the water body environment restoration device according to claim 1, wherein the horizontal pipe is divided into a left chamber and a right chamber which are not communicated with each other by a vertical pipe.

3. The water environment treatment method based on the water body environment restoration device according to claim 1, wherein a filter screen is arranged at the water inlet.

4. The water environment treatment method based on the water body environment restoration device according to claim 1, wherein the horizontal tube is internally provided with a certain inclination angle and is concave.

5. The water environment treatment method based on the water body environment restoration device according to claim 1, wherein a hollow cavity is arranged in the left liquid outlet pipe, and the hollow cavity is used for containing quantitative purification liquid.

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