CN211035555U - A device for promoting water diversion between surface and bottom layers - Google Patents

Abstract

The utility model relates to a device for promoting water diversion between surface layers and bottom layers, comprising: a first buoy; a second buoy, which is arranged inside the first buoy and divides the inside of the first support into a first water area and a second water area; The aeration device is located in the second water area, the upper end of the aeration device is communicated with the second water area, any side of the aeration device is communicated with the first water area through the second buoy, and a A cover plate that can be opened/closed is arranged on the side, a guide mechanism is arranged at the bottom of the aeration device, and an angle-adjustable guide plate assembly is arranged above the second buoy. By changing the state of the guide mechanism and the guide plate assembly, the utility model can realize the function switching of the same device, the upper layer water is transported downward or the bottom layer water is transported upward, so that a plurality of the same devices can form a complete upper and lower water diversion cycle system.

Description

A device for promoting water diversion between surface and bottom layers

technical field

The utility model belongs to the technical field of environmental protection, and relates to a treatment technology for water quality deterioration, in particular to a method for promoting the conduction of upper and lower water layers, which can be simply switched to conduct upper-layer water and lower-layer water diversion or lower-layer water and upper-layer water diversion. The flow device is suitable for improving the perennial anoxic environment in the lower waters, controlling the release of phosphorus and other pollutants in the sediment, or improving the eutrophication state of the upper waters.

Background technique

Most of the surface water in our country, such as rivers, lakes, reservoirs and ponds, is seriously polluted. A large number of untreated industrial sewage, domestic sewage, and agricultural irrigation water are directly discharged into rivers, rivers, lakes and seas, causing frequent water pollution and eutrophication. Because the specific gravity of pollutants is larger than that of water, most of the pollutants settle on the bottom of the water. The degradation of a large number of pollutants exceeds the self-purification capacity of the water body, and consumes the oxygen in the bottom water body, making the bottom water body in an oxygen-deficient state for a long time. Insufficient dissolved oxygen, anaerobic decomposition produces odor and black liquor, causing the water body to turn black and smelly. At the same time, due to the lack of oxygen in the bottom water, the release of phosphorus in the sediment was promoted, which further increased the possibility of algal blooms.

The formation of black odor and eutrophication is first caused by a large amount of organic matter or nutrient salts that induce the proliferation of specific microbial groups, resulting in a sharp drop in dissolved oxygen in water. When the water body is in an anoxic/anaerobic environment for a long time, the original aerobic metabolism will gradually transform into an anaerobic metabolism. Because the anaerobic metabolism rate of organic matter is much lower than the aerobic metabolism rate, the self-purification ability of water body will also disappear. At this time, a large amount of pollutants and nutrients are deposited to form the surface sediment of the channel. And under anaerobic conditions, pollutants and nutrients are gradually transformed into reduced substances, such as H2S, FeS, etc. These reduced substances tend to produce unpleasant color and taste in river water.

The high content of nitrogen and phosphorus in the water leads to the sudden and excessive proliferation of algae, which is prone to cyanobacterial blooms, and the frequent occurrence of cyanobacteria blooms, inland rivers, lakes and offshore waters are seriously polluted, reducing the efficiency of water resources utilization; Toxic substances, odor-causing substances and organic substances released by a large number of dead algae seriously deteriorate the local water and air quality, affect the ecology, fishery, landscape and other functions of the water body, and even threaten the safety of drinking water.

The algae and other organic matter produced in the surface water of the lake continue to sink to the deep water body. Along with the oxygen-consuming process such as the degradation of organic matter, the dissolved oxygen content of the lower water body gradually decreases, resulting in an anoxic state of the deep water body. In deep-water lakes (generally more than 10-15m deep), the formation of thermocline hinders the downward transfer of oxygen in the upper water body, and the hypoxia in the lower hydrostatic layer is more serious (dissolved oxygen <2mg/L). Once a deep-water lake forms a severe anoxic environment, it will form a positive feedback effect of "lower water body hypoxia → enhanced release of endogenous pollutants such as sediment phosphorus → improved primary productivity of the lake → increased hypoxia of lower water body", and the lake water quality will deteriorate significantly. , mainly manifested as intensified eutrophication of water body, excessive content of toxic gas hydrogen sulfide, excessive content of harmful heavy metals, etc., endangering the water ecosystem and endangering the safety of drinking water. In recent years, sudden water quality deterioration events caused by the lack of oxygen in the lower water bodies have occurred from time to time, which directly threatens the safety of regional water supply and ecological environment. It has become a hot issue that urgently needs to be solved in my country's economic construction and social development.

In order to solve the phenomenon of eutrophication, various aeration equipment is widely used in the field of industrial sewage and domestic sewage water treatment to increase dissolved oxygen in water bodies; ecological restoration and water quality of surface waters such as rivers, lakes, reservoirs, ponds, artificial landscape water bodies, etc. In the improvement, various aeration equipments are often used to aerate and increase oxygen. There are many types of these common aeration equipment, including various blast aeration equipment, jet aeration equipment, air flotation aeration equipment, and various mechanical aeration equipment (including various impeller aeration equipment, waterwheel aeration equipment, etc.) . But these traditional common aeration equipment have some problems, as follows:

All kinds of blast aeration equipment, jet aeration equipment, air flotation aeration equipment, etc. all achieve aeration and oxygenation by creating micro-bubbles to transfer the oxygen in the bubbles to the water. The aeration equipment overflows and floats up quickly, so that the oxygenated water body is mainly confined to the upper layer of the water body, and the dissolved oxygen in the deep layer of the water body is not easy to increase. If a variety of blast aeration equipment, jet aeration equipment, air flotation aeration equipment, etc. are installed on the bottom of the deep water area for aeration, although the dissolved oxygen at the bottom of the water body can be increased, the water pressure will increase, and it is necessary to install high lift The blower, the energy consumption increases, the operating cost increases, and it is not economical.

Various mechanical aeration equipment (including various impeller aeration equipment, waterwheel aeration equipment, etc.) is used for gas-liquid contact aeration by stirring the surface water and splashing it into the air. The aeration and oxygenation process is also limited to the upper layer of the water body, and the dissolved oxygen in the deep layer of the water body is not easy to increase.

Although in the case of adding vertical deflectors, the above-mentioned traditional aeration equipment can form a longitudinal circulation in the pool and bring dissolved oxygen to the bottom of the pool, but this can only be achieved in smaller aeration pools. For surface water and large-scale sewage treatment aeration tanks, the longitudinal circulation is limited to a small area, and the wider deep water area cannot be affected.

In addition, most of the existing aeration devices only oxygenate the bottom water by transporting the surface water downward, and its circulation only relies on the way of downwardly compressing the air, which cannot make good use of the bottom water.

Utility model content

Aiming at the deficiencies of the prior art, the purpose of the present invention is to provide a device for promoting the water diversion between the surface layer and the bottom layer.

In order to achieve the above purpose, the utility model provides the following technical solutions: a device for promoting water diversion between the surface layer and the bottom layer, which comprises:

The first buoy, suitable for floating on the water surface, is provided with a conduit at the bottom;

The second buoy is arranged inside the first buoy, and divides the inside of the first buoy into a first water area and a second water area;

The aeration device is fixedly arranged by the second buoy and is located in the second water area, the upper end of the aeration device is communicated with the second water area, and any side of the aeration device is communicated with the first water area through the second buoy , the side connected to the first water area is provided with an openable/closeable cover,

The bottom of the aeration device is provided with a guiding mechanism, and the guiding mechanism has a first state of closing the bottom of the aeration device and a second state of connecting the bottom of the aeration device with the conduit, and an angle adjustable above the second buoy. The guide plate assembly has a first state of isolating the first water area from the second water area when the aeration device is in operation, and a second state of connecting the second water area with the first water area when the aeration device is in operation.

The aeration device includes a third buoy, a motor and a centrifugal pump, the centrifugal pump is electrically connected to the motor, and the pump blade of the centrifugal pump is placed in the third buoy.

The conduit is a telescopic conduit.

An ultraviolet sterilization device is arranged along the circumferential direction of the second buoy.

The water outlet of the first buoy is provided with circular pipelines distributed horizontally and radially.

The bottom of the conduit is provided with circular pipelines distributed horizontally and radially.

The guiding mechanism includes a bottom plate of the aeration device that can be opened or closed and a sealing sleeve that can slide up and down.

The beneficial effects of the utility model: by changing the state of the guide mechanism and the guide plate assembly, the same device can realize the function switching of the upper water transport downward or the bottom water transport upward, so that a plurality of identical devices can form a complete upper and lower water Circulatory system for diversion.

Description of drawings

FIG. 1 is a schematic structural diagram of the bottom-to-top conveying of the present invention.

FIG. 2 is a schematic diagram of the structure of the top-to-bottom conveying of the present invention.

FIG. 3 is a schematic diagram of the division of the first water area and the second water area.

In the figure, 1, the first buoy; 2, the second buoy; 3, the aeration device; 4, the first water area; 5, the second water area; 6, the centrifugal pump; 7, the cover plate; 8, the guide plate assembly; 9 , bottom plate; 10, conduit.

Detailed ways

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. Obviously, the described embodiments are only a part of the embodiments of the present utility model, not all of them. Example. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative work fall within the protection scope of the present invention.

The utility model discloses a device for promoting water diversion between surface layers and bottom layers, comprising:

The first buoy 1 is suitable for floating on the water surface, and the bottom of the first buoy is provided with a conduit 10;

The upper surface of the first buoy 1 is slightly lower than the water surface, so that the surface water can enter the first buoy 1, and can be floated, and the bottom of the first buoy is connected to a conduit 10, which can be telescopic, according to the depth of the water body that needs to be filled with oxygen , adjust the length of the conduit 10, and in addition to facilitate installation, the conduit 10 and the bottom of the first buoy 1 can be detachably connected, such as screw fit or clamp clamping, etc., to facilitate disassembly and transportation.

The second pontoon 2 is arranged inside the first pontoon 1, and divides the inside of the first pontoon 1 into a first water area 4 and a second water area 5;

The second buoy 2 is connected to the first buoy 1 through the bottom, and divides the water area in the first buoy 1 into two water areas, namely the first water area 4 between the first buoy 1 and the second buoy 2 and the inside of the second buoy 2 the second water area 5;

The aeration device 3 is fixedly arranged by the second buoy 2, and is located in the second water area 5, the upper end of the aeration device 3 is communicated with the second water area 5, and any side of the aeration device 3 passes through the second water area 5. The buoy 2 is communicated with the first water area 4, and the side connected with the first water area 4 is provided with a cover 7 that can be opened/closed,

The aeration device 3 is fixed in the second buoy 2, and it also has a certain buoyancy, so it only needs to be supported on one side, and the entire aeration device 3 is set in the second water area 5, and its work will cause the pressure change of the second water area 5;

In order to enable the device to simply switch the water transmission direction, the result of the fixed connection between the aeration device 3 and the second buoy 2 is set as a pipe structure, so that the aeration device 3 can be directly connected to the first water area 4, and the In consideration of switching, a cover plate 7 that can be opened or closed is provided on the side communicating with the first water area 4 , and the opening and closing of the cover plate 7 is used to switch the communication state between the aeration device 3 and the first water area 4 .

In addition, a guiding mechanism is provided at the bottom of the aeration device 3 , and the guiding mechanism has a first state of closing the bottom of the aeration device 3 and a second state of connecting the bottom of the aeration device 3 with the conduit 10 .

The guiding mechanism is the bottom plate 9 of the aeration device 3 that can be opened or closed. The bottom plate 9 can isolate the aeration device 3 from the second water area 5 when it is opened, so that the conduit 10 is directly communicated with the third buoy of the aeration device 3 . .

The guide mechanism can also include the bottom plate 9 of the aeration device 3 that can be opened or closed, and the sealing sleeve that can slide up and down;

That is to say, the bottom of the aeration device 3 is designed as an openable or closed bottom plate 9. Whether the bottom of the aeration device 3 is connected to the conduit 10 can be determined by whether the bottom plate 9 is opened or not. There is a certain distance between them, so using the structure of the sealing sleeve that can slide up and down, the bottom plate 9 is directly connected to the conduit 10 at the bottom of the open aeration device 3, and is separated from the second water area 5 at the bottom of the aeration device 3. open, thereby realizing the inner water area of the first water area 4, the second water area 5 and the aeration device 3;

In addition, at the connection between the first buoy 1 and the conduit 10 , a limiting member may be provided to limit the position of the sliding sealing sleeve, and at the same time, it can also provide a certain sealing cooperation.

An angle-adjustable guide plate assembly 8 is arranged above the second buoy 2, and the guide plate assembly 8 has the first state of isolating the first water area 4 and the second water area 5 and the aeration device when the aeration device 3 is working. When working, the second state in which the second water area 5 is communicated with the first water area 4 .

The guide plate assembly 8 can be a plurality of guide plates arranged circumferentially, and each guide plate can be independently adjusted in angle, and when the inclination angle is small, the second water area 5 and the first water area 4 can be realized by overlapping with each other. Connected, the guide plate can be used to transport the water driven by the aeration device to the first water area 4 along the guide plate.

The aeration device 3 includes a third buoy, a motor and a centrifugal pump 6, the centrifugal pump 6 is electrically connected to the motor, and the pump blade is placed in the third buoy. The inner diameter of the third pontoon is larger than the outer diameter of the pump blade, so that the pump blade and the third pontoon can form a clearance fit, and the interval allows the rotating pump blade to generate upward or downward water flow by stirring the water in the third pontoon.

The device has the function of transporting surface water to the bottom layer:

Open the cover plate 7 so that the aeration device 3 communicates with the first water area 4, close the bottom plate 9 so that the inside of the aeration device 3 is an independent water area, and then adjust the position of the guide plate assembly 8 to completely isolate the first water area 4 from the second water area. In the water area 5, the two are connected only by the aeration device 3. At this time, by starting the aeration device 3, the centrifugal pump 6 is used to agitate the water in the third buoy, generating impact, changing the pressure in the third buoy, and sucking the water in the first water area 4 into the third buoy, and sucking it into the third buoy. Drive into the bottom layer through the conduit 10, and use the high dissolved oxygen in the surface water to fill the dissolved oxygen in the bottom layer. At the same time, because the inhaled water is rich in cyanobacteria, the inhaled cyanobacteria are also driven into the bottom layer, and the low temperature of the bottom water is used to forcefully make the bottom layer. The cyanobacteria enter a dormant state, thereby reducing the cyanobacterial content of the surface water.

With a simple switch, the device has the function of delivering bottom water to the surface:

Close the cover plate 7 so that the aeration device 3 is isolated from the first water area 4, open the bottom plate 9 so that the conduit 10 is directly communicated with the third buoy, and adjust the angle of the guide plate assembly 8 so that the spray generated when the aeration device 3 is activated will Guided by the guide plate assembly 8 to the first water area, at this time the first water area 4 is completely isolated from the second water area 5, the third buoy is communicated with the conduit 10, the aeration device 3 is activated, and the aeration device 3 is used to align the inside of the third buoy. The water is stirred and the impact is generated, so that the water is guided by the guide plate assembly 8 to the first water area 4, reducing the pressure in the second water area 5, thereby driving the bottom water to rise, and being guided to the first water area 4, using the bottom layer The low temperature and low dissolved oxygen of the water, the temperature and high dissolved oxygen to dilute the surface water.

Through the multiple devices with different functions, the upper and lower water self-circulation in the water area can be realized, and the surface water and the bottom water can be used to complete the purification of the water area.

The ultraviolet sterilization device is arranged along the circumferential direction of the second buoy 2 , and the ultraviolet sterilization device is arranged along the circumferential direction of the side wall of the second buoy 2 to reduce the activity of cyanobacteria sucked into the second buoy 2 by ultraviolet rays.

The water outlet of the first buoy 1 is provided with a circular pipeline with a horizontal radial distribution, and the bottom water is guided to the surface layer by the surface layer water temperature and solar heating through the horizontally arranged circular pipeline for water diffusion. , reducing the density of the bottom water to prevent it from diving into the bottom again, effectively using the bottom water and improving the quality of the surface water.

The bottom of the conduit 10 is provided with circular pipelines distributed horizontally and radially. The low temperature of the bottom water is used to cool the conveyed surface water, increasing its specific gravity, which can promote the improvement of the dirty bottom sludge.

Through simple adjustment, the device can switch between two functions, and the function can be selected according to the characteristics of the water area to be purified, so as to adapt to local conditions.

In addition, a solar cell can be provided to provide electric power to the aeration device, which is convenient for the power supply when the device is installed in the field.

A filter screen is arranged circumferentially at the water inlet of the conduit 10 at the bottom, in order to prevent debris, fish, shrimp or stones from entering the device and causing damage to it when the bottom-up conveying mode is activated.

Several nozzles can be arranged in the circumferential direction of the conduit 10 to strengthen the water pressure or adjust the flow rate of the water to achieve better aeration effect.

In addition, the part of the aeration device 3 located on the water surface is further provided with an exterior decoration. The exterior decoration body can be installation art, or advertising objects, or different landscape shapes, or warning objects, etc., so that the aeration device 3 of the present invention, in addition to aeration to maintain the water quality in the pool, has both entertainment and advertising at the same time. Effect.

A water quality purification method based on the above-mentioned device for promoting the diversion of upper and lower water layers, comprising the following steps:

1) Install a plurality of devices for promoting the diversion of the upper and lower water layers and the water area to be purified, and the devices for promoting the diversion of the upper and lower water layers are set to two modes;

According to the characteristics of the water area to be purified, select a single mode or two modes of the top-down conveying mode or the bottom-up conveying mode, and place the adjusted device in the water area to be purified to form a purification network;

2) Using the device that promotes the diversion of the upper and lower water layers in the top-down transport mode, the surface high dissolved oxygen and the surface water containing cyanobacteria are transported to the vicinity of the bottom layer through the conduit, and the dissolved oxygen content in the bottom water is filled with the high surface dissolved oxygen. And use the low water temperature of the bottom layer to make the cyanobacteria in the transported surface water enter the dormant period;

The temperature of the pool water near the surface is higher, and as the water depth goes to the middle and bottom layers, the sediment in the bottom layer requires high biological oxygen demand (BOD) and chemical oxygen demand (COD) due to the fast fermentation rate. Therefore, the pool water with a higher temperature near the surface layer can be extracted and sent to the bottom layer, and the higher temperature water can move to the bottom layer, so that the temperature of the bottom layer water is higher than that of the middle layer water, resulting in convection and increasing the water circulation exchange from the surface layer, the middle layer to the bottom layer. The forced circulation and the water temperature difference form the dual effect of convection, and the surface water with higher dissolved oxygen concentration is sent to the middle and bottom layers to improve the aeration efficiency.

3) The bottom-up water layer with low temperature and low dissolved oxygen is transported to the vicinity of the surface layer by means of the device that promotes the diversion of the upper and lower water layers in the bottom-up transport mode, and the dissolved oxygen content of the surface water is reduced by using the low dissolved oxygen in the bottom water layer, and Use the low temperature of the bottom water to reduce the temperature of the surface water;

4) The circulation in the vertical direction of the water body of the water area to be purified is realized through a plurality of devices for promoting the diversion of the upper and lower water layers, and the water body purification of the water area to be purified is completed.

The embodiment should not be regarded as a limitation of the present invention, but any improvements made based on the spirit of the present invention should fall within the protection scope of the present invention.

Claims (7)

1. A device for promoting water diversion between a surface layer and a bottom layer is characterized in that: it includes:

the first buoy (1) is suitable for floating on the water surface, and the bottom of the first buoy is provided with a guide pipe (10);

the second buoy (2) is arranged inside the first buoy (1) and divides the inside of the first buoy (1) into a first water area (4) and a second water area (5);

the aeration device (3) is fixedly arranged by the second buoy (2) and is positioned in the second water area (5), the upper end of the aeration device (3) is communicated with the second water area (5), any one side of the aeration device (3) passes through the second buoy (2) to be communicated with the first water area (4), one side communicated with the first water area (4) is provided with an openable/closable cover plate (7),

aeration equipment (3) bottom is equipped with guiding mechanism, guiding mechanism has the first state of closed aeration equipment (3) bottom and with the second state of aeration equipment (3) bottom and pipe (10) intercommunication, second flotation pontoon (2) top is equipped with guide plate subassembly (8) with adjustable angle, guide plate subassembly (8) have aeration equipment (3) during operation, keep apart the first state of first waters (4) and second waters (5) and aeration equipment (3) during operation, with the second state of second waters (5) and first waters (4) intercommunication.

2. The device of claim 1, wherein the device is adapted to facilitate flow of water between the bottom layers of the surface layer: the aeration device (3) comprises a third buoy, a motor and a centrifugal pump (6), wherein the centrifugal pump (6) is electrically connected with the motor, and pump blades of the centrifugal pump (6) are arranged in the third buoy.

3. The device of claim 1, wherein the device is adapted to facilitate flow of water between the bottom layers of the surface layer: the catheter (10) is a telescopic catheter.

4. The device of claim 1, wherein the device is adapted to facilitate flow of water between the bottom layers of the surface layer: an ultraviolet sterilization device is arranged along the circumferential direction of the second buoy (2).

5. The device of claim 1, wherein the device is adapted to facilitate flow of water between the bottom layers of the surface layer: and a circular pipeline which is horizontally and radially distributed is arranged at the water outlet of the first buoy (1).

6. The device of claim 1, wherein the device is adapted to facilitate flow of water between the bottom layers of the surface layer: the bottom of the conduit (10) is circumferentially provided with circular pipelines which are horizontally and radially distributed.

7. The device of claim 1, wherein the device is adapted to facilitate flow of water between the bottom layers of the surface layer: the guide mechanism comprises a bottom plate (9) of the aeration device (3) which can be opened or closed and a sealing sleeve which can slide up and down.

Images