CN209854687U - Float-type full-automatic blue-green algae rapid disposal device - Google Patents

Abstract

The utility model discloses a quick processing apparatus of buoy formula full automatization blue alga. In the device, the flotation pontoon bottom is equipped with electric steering wheel and screw propeller, and the water pump in the algae liquid collection storehouse is through inhaling during the algae liquid inhales collection storehouse with the algae liquid through inhaling the algae pipe, is equipped with the multilayer in the processing storehouse and handles the layer, all is equipped with supersonic generator in each processing layer, handles the interior water pump of storehouse and inhales the processing storehouse with the algae liquid in the collection storehouse and carry out ultrasonic treatment in proper order through each processing layer, makes phycocyanin lose the activity, decomposes algae cell secretion and metabolites such as algae toxin simultaneously. Be equipped with battery, orientation module, microprocessor and wireless connection module in the control storehouse, the battery is whole device energy supply, and microprocessor controlling means work, and orientation module and wireless connection module make the staff can pass through wireless terminal location and know device operating condition. The device of the utility model is simple in structure, is applicable to full-automatic quick processing after the blue alga outbreak, and it is efficient to deal with.

Description

Float-type full-automatic blue-green algae rapid disposal device

Technical Field

The utility model relates to a water edulcoration technical field, concretely relates to quick processing apparatus of buoy formula full automatization blue alga.

Background

As the domestic sewage and the industrial and agricultural wastewater bring N, P and other pollutants into lakes, the eutrophication degree of the water bodies in the lakes is continuously intensified, and the prevention and treatment of the eutrophication of the water bodies become a worldwide problem. The eutrophication of the water body easily causes the blue algae outbreak, the problems of water bloom, red tide, water body anoxia, fish death and the like, and the algae can release algal toxins to endanger the water safety. The removal of the blue algae can not only improve the water landscape and promote the water ecological balance, but also remove N, P and other pollutants in the water body and reduce the eutrophication degree of the water body.

The blue algae is cleaned up mainly by fishing and collecting, centralized processing and further degrading to obtain the algae mud and the algae residue. The method has the advantages of complex treatment process, long treatment time, low efficiency, high cost especially after the blue algae outbreak, and high difficulty in effectively cleaning the blue algae.

Disclosure of Invention

The utility model provides a simple structure can deal with the blue alga fully automatically fast and deal with efficient buoy type blue alga and deal with device fast.

The utility model discloses the technical scheme who adopts does:

a float-type full-automatic blue algae rapid treatment device comprises: the device comprises a buoy, an algae liquid collecting bin, an algae liquid processing bin and a control bin which are arranged from bottom to top in sequence; the buoy floats on the water surface, the bottom of the buoy is fixedly provided with an electric steering engine and a propeller thruster, and the front end of the electric steering engine is provided with a blue algae sensor for measuring the concentration of blue algae;

a plurality of algae sucking pipes bent to the water surface extend out of the side surface of the algae liquid collecting bin; a first water pump is fixedly arranged at a position corresponding to each algae suction pipe in the algae liquid collecting bin, and each algae suction pipe is connected with an inlet of the first water pump at the corresponding position; the outlet of each first water pump is sequentially connected with a first water flow sensor and a first automatic flow control valve;

a plurality of closed treatment layers are arranged in the algae liquid treatment bin from bottom to top, a second water pump and a plurality of ultrasonic generators are arranged in each treatment layer, the outlet of each second water pump is connected with a second automatic flow control valve, and the inlet of each second water pump is connected with a hose; a hose connected with a second water pump of the lowest treatment layer extends into the algae liquid collecting bin; in every two adjacent treatment layers, a second water pump connecting hose in the upper treatment layer extends into the lower treatment layer; the bottom of the uppermost treatment layer is provided with a water outlet pipe, and an electric regulating valve is arranged on the water outlet pipe; in addition, a second water flow sensor is arranged at the top of each treatment layer;

the control bin is internally provided with a storage battery and a microprocessor; the storage battery supplies energy to the microprocessor, the electric steering engine, the propeller thruster, the blue algae sensor, the electric regulating valve, each ultrasonic generator, each water pump, each water flow sensor and each dynamic flow control valve; the blue algae sensor and the water flow sensors upload data to the microprocessor, and the microprocessor controls the electric steering engine, the propeller thruster, the electric regulating valve, the ultrasonic generators, the water pumps and the respective dynamic flow control valves to work.

Furthermore, a positioning module and a wireless connection module are also arranged in the control bin; the positioning module and the wireless connection module are respectively connected with the microprocessor; the battery does the orientation module with wireless connection module energy supply.

Furthermore, the upper part of the control bin is fixedly provided with a solar panel, and the solar panel is connected with the storage battery.

Further, above-mentioned quick processing apparatus of blue alga still includes the air supporting device, the air supporting device includes: the electric lifting and contracting rods are uniformly arranged along the edge of the bottom of the floating barrel, the electric lifting and contracting rods stretch up and down, and the bottom of each electric lifting and contracting rod is connected with an aeration disc; the storage battery supplies energy to the plurality of electric lifting and contracting rods and the plurality of aeration discs, and the microprocessor controls the plurality of electric lifting and contracting rods and the plurality of aeration discs to work. The air flotation device at the bottom of the floating barrel can improve the treatment efficiency of the device, improve the content of dissolved oxygen in water and improve the water environment.

Furthermore, the side surfaces of the buoy and the plurality of aeration discs are provided with anti-collision strips along the circumferential direction, and the side surfaces of the buoy and the plurality of aeration discs are also provided with infrared proximity sensors respectively; a plurality of infrared proximity sensor upload data respectively to microprocessor, the battery is a plurality of infrared proximity sensor energy supplies.

Furthermore, the number of the propeller thrusters is two, and the electric steering engine and the two propeller thrusters are arranged in an equilateral triangle.

The beneficial effects of the utility model reside in that:

the device of the utility model is simple in structure, it is with low costs, and it deals with the blue alga through the three-layer ultrasonic wave, can realize that automatic high efficiency deals with, especially in blue alga outbreak stage, can effectively kill the blue alga, prevents bigger aquatic harm.

Drawings

FIG. 1 is a schematic structural view of a blue algae rapid disposal apparatus of the present invention;

FIG. 2 is a schematic structural view of an algae liquid collecting bin;

FIG. 3 is a schematic structural diagram of an electric steering engine and a propeller;

FIG. 4 is a schematic structural diagram of a control cabin;

reference numerals: 1, a buoy; 1-1, an electric steering engine; 1-2 propeller thrusters; 1-3, a blue algae sensor; 2, collecting algae liquid; 2-1, an algae sucking pipe; 2-2, a first water pump; 2-3, a first water flow sensor; 2-4, a first automatic flow control valve; 3, an algae liquid treatment bin; 3-1, a primary treatment layer; 3-2, secondary treatment layer; 3-3, a third-level treatment layer; 3-4, an ultrasonic generator; 3-5, flexible pipe; 3-6, discharging a water pipe; 3-7, electric control valve; 4, controlling the bin; 4-1, a solar panel; 4-2, a storage battery; 4-3, a microprocessor; 4-4, positioning the module; 4-5, a wireless connection module; 5, an air floatation device; 5-1, electrically lifting and contracting a rod; 5-2, an aeration disc; 5-3, an anti-collision strip; 5-4, infrared proximity sensor.

Detailed Description

The invention is further described below with reference to the drawings and specific preferred embodiments.

The blue algae rapid disposal device shown in fig. 1 comprises: the device comprises a buoy 1, an algae liquid collecting bin 2, an algae liquid processing bin 3, a control bin 4 and an air floatation device 5. Wherein, the air supporting device 5 is arranged below the floating cylinder 1, the algae liquid collecting bin 2, the algae liquid processing bin 3 and the control bin 4 are sequentially arranged above the floating cylinder 1 from bottom to top, and the three bin bodies all keep water tightness.

Specifically, as shown in fig. 1 and 3, the buoy 1 is a flat cylinder made of marine-grade special plastic. The buoy 1 floats on the water surface and provides buoyancy for the whole blue algae rapid disposal device. An electric steering engine 1-1 is fixedly arranged at the front end of the bottom of the buoy 1, and two propeller propellers 1-2 are fixedly arranged at the rear end of the bottom of the buoy 1. Preferably, the electric steering engine 1-1 and the two propeller thrusters 1-2 are arranged at the bottom of the buoy 1 in an equilateral triangle. The electric steering engine 1-1 controls the advancing direction of the blue algae rapid treatment device, and the propeller thruster 1-2 provides power for the blue algae rapid treatment device to advance. In addition, the front end of the electric steering engine 1-1 is also provided with a blue algae sensor 1-3, the blue algae sensor 1-3 is used for analyzing the chlorophyll concentration of blue algae on line, and in the embodiment, the model of the blue algae sensor 1-3 is medium-clear environment-friendly EPT-460L.

As shown in fig. 1 and 2, the algae liquid collecting bin 2 is a flat cylinder, and a cavity for containing algae liquid is arranged inside the algae liquid collecting bin. The algae liquid collecting bin 2 is fixedly arranged on the upper end surface of the floating barrel 1, and the diameter of the algae liquid collecting bin 2 is smaller than that of the floating barrel 1. 8 algae sucking pipes 2-1 integrally extend out of the side face of the algae liquid collecting bin 2 and are uniformly arranged along the circumferential direction of the algae liquid collecting bin 2. Specifically, one end of the algae sucking pipe 2-1 is introduced into the algae liquid collecting bin 2 from the side surface of the algae liquid collecting bin 2, and the other end is bent to be below the water surface. A first water pump 2-2 is fixedly arranged at the position corresponding to each algae sucking pipe 2-1 in the algae liquid collecting bin 2, and the first water pump 2-2 has diving capacity. 8 algae sucking pipes 2-1 are correspondingly connected with inlets of 8 first water pumps 2-2 one by one, and an outlet of each first water pump 2-2 is sequentially connected with a first water flow sensor 2-3 and a first automatic flow control valve 2-4.

Storehouse 2 up end is collected to algae liquid to fixed the setting on the storehouse is collected to algae liquid 3 is cylindrical, and the diameter in storehouse 2 is collected to algae liquid 3 is less than to algae liquid. The interior of the algae liquid treatment bin 3 is a closed cavity, 2 horizontal partition plates are integrally arranged in the algae liquid treatment bin, the closed cavity is divided into three equal-size closed treatment layers, and the three treatment layers are a primary treatment layer 3-1, a secondary treatment layer 3-2 and a tertiary treatment layer 3-3 from bottom to top in sequence. Three ultrasonic generators 3-4 are fixedly arranged on the inner side wall surface of the bottom of each treatment layer, a second water pump with diving performance is fixedly arranged at the top of each treatment layer, the outlet of each second water pump is connected with a second automatic flow control valve, and the inlet of each second water pump is connected with a hose 3-5.

A hose connected with a second water pump of the primary treatment layer 3-1 is led out from the side surface of the primary treatment layer 3-1 and extends into the algae liquid collecting bin 2 from the bottom of the side surface of the algae liquid collecting bin 2. A hose connected with a second water pump of the secondary treatment layer 3-2 is led out from the side surface of the secondary treatment layer 3-2 and extends into the primary treatment layer 3-1 from the bottom of the side surface of the primary treatment layer 3-1. A hose connected with a second water pump of the third-stage treatment layer 3-3 is led out from the side surface of the third-stage treatment layer 3-3 and extends into the second-stage treatment layer 3-2 from the bottom of the side surface of the second-stage treatment layer 3-2. A water outlet pipe 3-6 is led out from the bottom of the third-stage treatment layer 3-3, and an electric regulating valve 3-7 is arranged on the water outlet pipe 3-6. In addition, each processing layer top all is fixed and is equipped with second rivers sensor.

As shown in fig. 1 and 4, the control cabin 4 is cylindrical and is fixedly arranged on the upper end surface of the algae liquid treating cabin 3, and the diameter of the control cabin 4 is the same as that of the algae liquid treating cabin 3. The upper end of the control bin 4 is provided with a solar panel 4-1, and a storage battery 4-2, a microprocessor 4-3, a positioning module 4-4 and a wireless connection module 4-5 are fixedly arranged in the control bin 4. As shown in fig. 1, the air floating device 5 includes: four electric lifting and shrinking rods 5-1 and four aeration discs 5-2. The four electric telescopic lifting rods 5-1 are uniformly arranged along the edge of the bottom of the buoy 1, and the electric telescopic lifting rods 5-1 extend and retract along the vertical direction. The lower end of each electric lifting and shrinking rod 5-1 is fixedly connected with an aeration disc 5-2. As an improvement, a circle of anti-collision strips 5-3 are arranged on the side surface of the buoy 1 and the side surface of each aeration disc 5-2 along the circumferential direction, the anti-collision strips 5-3 are made of rubber, and an infrared proximity sensor 5-4 is arranged on the side surface of each aeration disc 5-2.

In this embodiment, the buoy 1, the algae liquid collecting bin 2, the algae liquid processing bin 3 and the control bin 4 are coaxially arranged.

The solar panel 4-1 is connected with the storage battery 4-2, the storage battery 4-2 is a microprocessor 4-3, an electric steering engine 1-1, a propeller thruster 1-2, a blue algae sensor 1-3, an ultrasonic generator 3-4, an electric regulating valve 3-7, an electric telescopic rod 5-1, an aeration disc 5-2, an infrared proximity sensor 5-4, each water pump, each water flow sensor, a respective dynamic flow control valve and other power consumption components for supplying power, the storage battery 4-2 also supplies power for the positioning module 4-4 and the wireless connection module 4-5, and the power supply is realized through a wire connection mode.

The blue algae sensors 1-3, the infrared proximity sensors 5-4 and the water flow sensors upload data to the microprocessor 4-3, and the microprocessor 4-3 controls the electric steering engine 1-1, the propeller thruster 1-2, the ultrasonic generator 3-4, the electric adjusting valve 3-7, the electric telescopic rod 5-1, the aeration disc 5-2, the water pumps and the respective dynamic flow control valves to work. The positioning module 4-4 and the wireless connection module 4-5 are respectively connected with the microprocessor 4-3. The connection and transmission of signals in the device are realized by a signal wire connection mode.

The utility model discloses a blue alga deals with device fast's concrete working process does:

firstly, a blue algae sensor 1-3 arranged at the front end of an electric steering engine 1-1 senses the concentration of surrounding algae, the blue algae sensor 1-3 uploads algae concentration data to a microprocessor 4-3, and the microprocessor 4-3 controls the electric steering engine 1-1 to adjust the advancing direction and starts a propeller 1-2, so that the device reaches a blue algae dense area.

Then, the microprocessor 4-3 opens the air floating device 5, the electric telescopic rod 5-1 extends downwards, and the aeration disc 5-2 generates micro bubbles. In the process, the blue algae at the lower layer in the water body are attached to the bubbles and float to the water surface along with the bubbles, so that the treatment efficiency can be improved, and meanwhile, the dissolved oxygen concentration of the water body can be increased, and the water quality can be improved. An infrared proximity sensor 5-4 arranged on the side surface of the aeration disc 5-2 senses the topography and the water body environment at the water bottom, a microprocessor 4-3 adjusts an electric telescopic rod 5-1 to ascend and contract up and down according to signals uploaded by the infrared proximity sensor 5-4 to avoid impurities in water, and an anti-collision strip 5-3 on the side surface of the aeration disc 5-2 protects the air floatation device 5 from collision damage.

Next, the microprocessor 4-3 turns on the 8 first water pumps 2-2 and controls the flow rate through the 8 first automatic flow control valves 2-4. The algae liquid mixture enters an algae liquid collecting bin 2 through 8 algae sucking pipes 2-1, after a first water flow sensor 2-3 at an outlet of a first water pump 2-2 senses water flow, data are uploaded to a microprocessor 4-3, the microprocessor 4-3 opens a second water pump in a primary treatment layer 3-1, algae liquid in the algae liquid collecting bin 2 is sucked into the primary treatment layer 3-1, when the second water flow sensor at the top of the primary treatment layer 3-1 senses the water flow, the microprocessor 4-3 closes the second water pump in the primary treatment layer 3-1 and opens three ultrasonic generators 3-4 in the layer for 5 minutes of ultrasonic treatment, the ultrasonic wave can break algae cells, the phycocyanin loses active function, and in addition, algae cell secretion and metabolic products such as algae toxins can be decomposed, the harmful algae species in the water body are reduced, and the total density is reduced.

After 5 minutes, the microprocessor 4-3 turns on a second water pump in the secondary treatment layer 3-2 to suck the treatment liquid in the primary treatment layer 3-1 into the secondary treatment layer 3-2, when a second water flow sensor at the top of the secondary treatment layer 3-2 senses water flow, the microprocessor 4-3 turns off the second water pump in the secondary treatment layer 3-2 and turns on three ultrasonic generators 3-4 in the secondary treatment layer to perform ultrasonic treatment for 5 minutes, after 5 minutes, the microprocessor 4-3 turns on a second water pump in the tertiary treatment layer 3-3 to suck the treatment liquid in the secondary treatment layer 3-2 into the tertiary treatment layer 3-3, and when the second water flow sensor at the top of the tertiary treatment layer 3-3 senses water flow, the microprocessor 4-3 turns off the second water pump in the tertiary treatment layer 3-3 and turns on the tertiary treatment layer 3-3 The three ultrasonic generators 3-4 carry out ultrasonic treatment for 5 minutes, and after 5 minutes, the microprocessor 4-3 opens the electric control valve 3-7 on the water discharge pipe 3-6 to discharge the treatment liquid, and the treatment is circulated.

The upper part of the control cabin 4 is provided with a solar panel 4-1 which can convert solar energy into electric energy and store the electric energy in a storage battery 4-2, the storage battery 4-2 provides a power supply for the whole device, and the microprocessor 4-3 controls the whole device to operate. The control cabin 4 is internally provided with a positioning module 4-4 and a wireless connection module 4-5, the wireless connection module 4-5 is in remote communication with the mobile terminal, and the real-time position information of the blue algae disposal device is sent to the mobile terminal, so that the working state and the working running track of the device can be conveniently known.

Above only the utility model discloses an it is preferred embodiment, the utility model discloses a scope of protection not only limits in above-mentioned embodiment, and the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, a plurality of modifications and decorations without departing from the principle of the present invention should be considered as the protection scope of the present invention.

Claims (6)

1. The utility model provides a quick processing apparatus of float-type full automatization blue alga which characterized in that includes: the device comprises a buoy (1), an algae liquid collecting bin (2), an algae liquid processing bin (3) and a control bin (4) which are arranged from bottom to top in sequence; the floating pontoon (1) floats on the water surface, the bottom of the floating pontoon (1) is fixedly provided with an electric steering engine (1-1) and a propeller thruster (1-2), and the front end of the electric steering engine (1-1) is provided with a blue algae sensor (1-3);

a plurality of algae sucking pipes (2-1) bent to the water surface extend out of the side surface of the algae liquid collecting bin (2); a first water pump (2-2) is fixedly arranged at a position corresponding to each algae sucking pipe (2-1) in the algae liquid collecting bin (2), and each algae sucking pipe (2-1) is connected with an inlet of the first water pump (2-2) at the corresponding position; the outlet of each first water pump (2-2) is sequentially connected with a first water flow sensor (2-3) and a first automatic flow control valve (2-4);

a plurality of closed treatment layers are arranged in the algae liquid treatment bin (3) from bottom to top, a second water pump and a plurality of ultrasonic generators (3-4) are arranged in each treatment layer, the outlet of each second water pump is connected with a second automatic flow control valve, and the inlet of each second water pump is connected with a hose (3-5); a second water pump connecting hose of the lowest treatment layer extends into the algae liquid collecting bin (2); in every two adjacent treatment layers, a second water pump connecting hose in the upper treatment layer extends into the lower treatment layer; the bottom of the uppermost treatment layer is provided with a water outlet pipe (3-6), and the water outlet pipe (3-6) is provided with an electric regulating valve (3-7); in addition, a second water flow sensor is arranged at the top of each treatment layer;

a storage battery (4-2) and a microprocessor (4-3) are arranged in the control bin (4); the storage battery (4-2) supplies energy for the microprocessor (4-3), the electric steering engine (1-1), the propeller thruster (1-2), the blue algae sensor (1-3), the electric regulating valve (3-7), each ultrasonic generator, each water pump, each water flow sensor and each dynamic flow control valve; the blue algae sensors (1-3) and the water flow sensors upload data to the microprocessor (4-3), and the microprocessor (4-3) controls the electric steering engine (1-1), the propeller thruster (1-2), the electric regulating valve (3-7), the ultrasonic generators, the water pumps and the dynamic flow control valves to work.

2. The float-type full-automatic fast blue algae disposal device according to claim 1, wherein the control cabin (4) is further provided with a positioning module (4-4) and a wireless connection module (4-5); the positioning module (4-4) and the wireless connection module (4-5) are respectively connected with the microprocessor (4-3); the storage battery (4-2) supplies power to the positioning module (4-4) and the wireless connection module (4-5).

3. The float-type full-automatic blue algae fast disposal device according to claim 1, wherein a solar panel (4-1) is fixedly arranged at the upper part of the control bin (4), and the solar panel (4-1) is connected with a storage battery (4-2).

4. The float-type full-automatic blue algae fast disposal device according to any one of claims 1 to 3, further comprising an air floating device (5), wherein the air floating device (5) comprises: the electric lifting and shrinking rods (5-1) are uniformly arranged along the edge of the bottom of the buoy (1), the electric lifting and shrinking rods (5-1) stretch out and draw back in the vertical direction, and the bottom of each electric lifting and shrinking rod (5-1) is connected with an aeration disc (5-2); the storage battery (4-2) supplies power to the plurality of electric lifting and contracting rods and the plurality of aeration discs, and the microprocessor (4-3) controls the plurality of electric lifting and contracting rods and the plurality of aeration discs to work.

5. The float-type full-automatic blue algae fast disposal device according to claim 4, wherein the side surfaces of the float (1) and the plurality of aeration discs are provided with anti-collision strips (5-3) along the circumferential direction, and the side surface of the float (1) and the side surfaces of the plurality of aeration discs are further provided with infrared proximity sensors (5-4) respectively; the plurality of infrared proximity sensors respectively upload data to the microprocessor (4-3), and the storage battery (4-2) supplies energy to the plurality of infrared proximity sensors.

6. The float-type full-automatic blue algae fast disposal device according to claim 1, wherein the number of the propeller thrusters (1-2) is two, and the electric steering engine (1-1) and the two propeller thrusters (1-2) are arranged in an equilateral triangle.