CN217677000U

CN217677000U - Intelligent water body treatment system

Info

Publication number: CN217677000U
Application number: CN202221016714.8U
Authority: CN
Inventors: 苏雯雯; 邢睿; 闫硕; 杨祥海; 张震明; 姜红花
Original assignee: Shandong Agricultural University
Current assignee: Shandong Agricultural University
Priority date: 2022-04-28
Filing date: 2022-04-28
Publication date: 2022-10-28
Anticipated expiration: 2032-04-28

Abstract

The utility model discloses an intelligent water body treatment system, including the connected frame, place the frame, the mounting panel, fountain aeration machine, reaction frame and water quality testing unit, the both sides of connected frame are fixed with the flotation pontoon respectively, place the frame and fix the lower extreme at the connected frame, the reaction frame is fixed in placing the frame, and biological fluidized bed filler has been placed in the reaction frame, the mounting panel is fixed in the central point department of connected frame, and the undercut is provided with a plurality of planting grooves on the mounting panel, fountain aeration machine is fixed on the mounting panel, water quality testing unit fixes on the lateral wall of placing the frame, and water quality testing unit is connected with the control module electricity, the control module communicates with long-range backstage through the communication module; the device has the advantages of having the functions of water body treatment, water body detection and water body landscape improvement.

Description

Intelligent water body treatment system

Technical Field

The utility model relates to a water treatment technical field especially relates to an intelligent water treatment system.

Background

Along with the development of social production, the living standard of people is continuously improved, people pollute water bodies such as rivers and lakes more and more seriously, the water body pollution becomes the problem which is paid more and more attention nowadays, and domestic garbage, domestic wastewater, agricultural and animal husbandry wastes and the like of residents are directly discharged into rivers and lakes, so that the content of aerobic organic pollutants and nitrogen and phosphorus nutrients in water is rapidly increased, the water body is eutrophicated, smells and blackens, and therefore the water bodies need to be treated.

In the water body treatment process, a more general method is to adopt an aeration oxygen-increasing ecological treatment mode, mainly through aeration, the dissolved oxygen in the water body is improved, according to the characteristics of microorganisms, organic pollutants of the microorganisms are degraded into biochemically harmless carbon dioxide, water and microorganism cells, ammonia nitrogen generates nitrate nitrogen in an aerobic process, then nitrogen is generated in an anoxic and anaerobic environment, phosphorus in the water body is taken as an essential element of a synthetic cell to participate in the synthesis and energy metabolism of the cell and is enriched in the cell, and a sulfur-containing compound generates sulfate radicals, so that the pollutant is removed.

However, the above device has the following disadvantages: 1. the function is single, only aeration and oxygenation are performed, so that the function of treating the water body by microorganisms is realized, and the function of detecting the water body is not realized; 2. the device has a single structure, and is arranged in the water body, so that the device is more abrupt and influences the water body landscape.

SUMMERY OF THE UTILITY MODEL

In order to solve the deficiencies existing in the prior art, the utility model provides an intelligent water treatment system, its effect that has water treatment, water detection and promotion water view concurrently.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: the utility model provides an intelligent water treatment system, includes connection frame, connection frame's both sides are fixed with the flotation pontoon respectively, still including placing frame, mounting panel, fountain aeration machine, reaction frame and water quality testing unit, it fixes to place the frame the lower extreme of connection frame, the reaction frame is fixed place in the frame, just biological fluidized bed filler has been placed in the reaction frame, the mounting panel is fixed connection frame's central point puts the department, just it is provided with a plurality of planting grooves to cave in downwards on the mounting panel, fountain aeration machine fixes on the mounting panel, water quality testing unit fixes place on the lateral wall of frame, just water quality testing unit is connected with the control module electricity, control module passes through communication module and long-range backstage communication.

Every the upper end of flotation pontoon is fixed with solar cell panel, solar cell panel is connected with the battery electricity, the battery is fixed in one of them flotation pontoon. In this structure, the quantity of solar cell panel has two, fixes respectively on corresponding flotation pontoon, and solar cell panel passes through photovoltaic charge controller and holds the battery electricity and be connected to the battery can provide electric power support for each components and parts, guarantees the lasting operation of equipment.

The solar cell panel is obliquely fixed at the upper end of the buoy, so that an inclination angle is formed between the solar cell panel and the horizontal plane, and the range of the inclination angle is 20-50 degrees. In the structure, an inclination angle is formed between the solar cell panel and the horizontal plane, so that water and dust are prevented from being gathered on the solar cell panel on one hand, and solar energy can be utilized to the maximum degree conveniently.

The mounting plate is composed of a longitudinal plate and a transverse plate which are integrally manufactured, the longitudinal plate is vertically connected with the transverse plate, and the fountain aerator is fixed at the connecting position of the longitudinal plate and the transverse plate. In the structure, the mounting plate is vertically connected by the longitudinal plate and the transverse plate and is integrally in a cross structure, so that water energy sprayed by the fountain aerator falls back into water from gaps between the mounting plate and the connecting frame to improve the spraying range of the fountain aerator.

The bottom of the planting groove is provided with a through groove for the plant root system to pass through. In this structure, the plant of planting the inslot and planting generally is aquatic plant, leads to the setting of groove and is convenient for plant roots and water contact to can normal growth.

The upper end of the reaction frame is connected with a door plate, a plurality of through holes are formed in the side wall of the reaction frame, and the diameter of each through hole is smaller than the particle size of the biological fluidized bed filler. In this structure, when needs fill the biological fluidized bed filler, open the door plant can, when whole put into the aquatic, the door plant is in the closed condition, and the diameter of through-hole is less than the particle size of biological fluidized bed filler again to prevent that biological fluidized bed filler from overflowing.

Two be connected with the anchor rod between the both ends of flotation pontoon respectively, every be connected with spacing rope on the anchor rod, spacing rope is connected with the stock of arranging in the bottom. In this structure, adopt spacing rope and the fixed mode of stock for whole can hover in aquatic, can not flow away along with rivers, guaranteed the steady operation of equipment.

The water quality detection unit comprises a dissolved oxygen sensor, a pH sensor and a turbidity sensor, wherein the dissolved oxygen sensor is used for detecting the oxygen content in water and is electrically connected with the control module, the pH sensor is used for detecting the pH value of the water body and is electrically connected with the control module, and the turbidity sensor is used for detecting the turbidity degree of the water body and is electrically connected with the control module. In the structure, the model of the dissolved oxygen sensor is COM253-WX0005 and is used for detecting oxygen content information in water, the pH sensor adopts a Telesky pH sensor and is used for detecting water body pH value information, the model of the turbidity sensor is TS-300B and is used for detecting water body turbidity degree information, the control module is a single chip microcomputer of model STM32F103C8T6 and is used for collecting and storing information after receiving the information sent by the dissolved oxygen sensor, the pH sensor and the turbidity sensor, a remote background is sent through the communication module and is a computer terminal, and the remote background is used for collecting and storing the information after receiving the information, and once the information exceeds a threshold value, the remote background can give corresponding prompts.

The water temperature sensor is used for detecting the temperature of the water body and is electrically connected with the control module. In this structure, flow sensor is used for detecting the velocity of flow of water, and temperature sensor is DS18B20 temperature sensor, and it is used for detecting the temperature of water, and control module receives the information back that flow sensor and temperature sensor sent, sends for long-range backstage through communication module, and the hydrology information of this device position is looked over to long-range backstage of being convenient for from this.

Compared with the prior art, the utility model has the advantages of: the buoy can suspend the whole body on the water surface, so as to provide buoyancy; the reaction frame is used for placing biological fluidized bed fillers, and has a remarkable improvement effect on the purification capacity of water quality, particularly on the purification capacity of ammonia nitrogen in water, so that the water quality of the water reaches the standard; due to the arrangement of the mounting plate, on one hand, a plurality of planting grooves formed in the mounting plate can be used for planting plants, so that the water landscape is improved, and on the other hand, a position is provided for mounting the fountain aerator, so that the overall structure is compact; the fountain aerator is arranged to increase the dissolved oxygen in the water body and promote the flow of the water body, and to increase the landscape property of the water body river; the water quality detection unit is used for detecting the water body and feeding detected information back to the control module, and the control module sends the detected information to the remote background through the communication module, so that the aim of remotely monitoring the water quality is fulfilled; the utility model discloses have water processing concurrently, water detects and promotes the effect of water view.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic perspective view of the connecting frame of the present invention;

fig. 3 is a schematic perspective view of the mounting plate of the present invention;

FIG. 4 is a schematic perspective view of the reaction frame of the present invention;

fig. 5 is a schematic block diagram of the circuit part of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples, but the present invention is not limited thereto.

The first embodiment is as follows: as shown in the figure, an intelligent water treatment system, including connected frame 1, place frame 2, mounting panel 3, fountain aeration machine 4, reaction frame 5 and water quality testing unit 6, connected frame 1's both sides are fixed with flotation pontoon 11 respectively, it fixes the lower extreme at connected frame 1 to place frame 2, reaction frame 5 is fixed in placing frame 2, and the biological fluidized bed filler has been placed in the reaction frame 5, mounting panel 3 is fixed in connected frame 1's central point department of putting, and the undercut is provided with a plurality of planting grooves 31 on mounting panel 3, fountain aeration machine 4 is fixed on mounting panel 3, water quality testing unit 6 is fixed on the lateral wall of placing frame 2, and water quality testing unit 6 is connected with control module 71 electricity, control module 71 passes through communication module 72 and long-range backstage 73 communication.

Example two: as shown, the other structure is the same as the first embodiment, except that a solar cell panel 81 is fixed to the upper end of each buoy 11, the solar cell panel 81 is electrically connected to a storage battery 82, and the storage battery 82 is fixed in one of the buoys 11. In the structure, the number of the solar cell panels 81 is two, the two solar cell panels are respectively fixed on the corresponding floating barrels 11, and the solar cell panels 81 are electrically connected with the storage battery 82 through the photovoltaic charging controller, so that the storage battery 82 can provide electric power support for each component and ensure the lasting operation of the equipment.

The solar cell panel 81 is obliquely fixed at the upper end of the buoy 11, so that an inclination angle is formed between the solar cell panel 81 and the horizontal plane, and the range of the inclination angle is 20-50 degrees. In the structure, an inclination angle is formed between the solar cell panel 81 and the horizontal plane, so that on one hand, water and dust are prevented from being gathered on the solar cell panel 81, and on the other hand, solar energy can be utilized to the greatest extent conveniently.

The mounting plate 3 consists of a vertical plate 32 and a horizontal plate 33 which are integrally manufactured, the vertical plate 32 is vertically connected with the horizontal plate 33, and the fountain aerator 4 is fixed at the connecting part of the vertical plate 32 and the horizontal plate 33. In the structure, the mounting plate 3 is vertically connected by the vertical plate 32 and the transverse plate 33, and the whole structure is cross, so that water energy sprayed by the fountain aerator 4 can fall back into water from a gap between the mounting plate 3 and the connecting frame 1, and the spraying range of the fountain aerator 4 is improved.

Example three: as shown in the figures, the other structure is the same as the second embodiment, but the difference is that the bottom of the planting groove 31 is provided with a through groove 34 for the plant root system to pass through. In this structure, the plant of planting in the planting groove 31 generally is aquatic plant, leads to the setting of groove 34 and is convenient for plant roots and water contact to can normal growth.

The upper end of the reaction frame 5 is connected with a door plate 51, a plurality of through holes 52 are formed in the side wall of the reaction frame 5, and the diameter of each through hole 52 is smaller than the particle size of the biological fluidized bed filler. In the structure, when the biological fluidized bed filler needs to be filled, the door plate 51 is opened, when the whole body is put into water, the door plate 51 is in a closed state, and the diameter of the through hole 52 is smaller than the particle size of the biological fluidized bed filler, so that the biological fluidized bed filler is prevented from overflowing.

Reinforcing rods 12 are respectively connected between two ends of the two buoys 11, each reinforcing rod 12 is connected with a limiting rope 13, and the limiting rope 13 is connected with an anchor rod 14 arranged at the bottom of the water. In this structure, adopt spacing rope 13 and the fixed mode of stock 14 for whole can hover in aqueous, can not flow away along with rivers, guaranteed the steady operation of equipment.

Example four: as shown in the figure, the other structures are the same as those of the third embodiment, and the difference is that the water quality detection unit 6 includes a dissolved oxygen sensor 61, a pH sensor 62 and a turbidity sensor 63, the dissolved oxygen sensor 61 is used for detecting the oxygen content in the water and is electrically connected with the control module 71, the pH sensor 62 is used for detecting the pH value of the water and is electrically connected with the control module 71, and the turbidity sensor 63 is used for detecting the turbidity degree of the water and is electrically connected with the control module 71. In the structure, the model of the dissolved oxygen sensor 61 is COM253-WX0005 and is used for detecting oxygen content information in water, the pH sensor 62 is a Telesky pH sensor 62 and is used for detecting water body pH value information, the model of the turbidity sensor 63 is TS-300B and is used for detecting water body turbidity degree information, the control module 71 is a single chip microcomputer of model STM32F103C8T6 and is used for receiving the information sent by the dissolved oxygen sensor 61, the pH sensor 62 and the turbidity sensor 63 and then sending the remote background 73 through the communication module 72, the remote background 73 is a computer terminal and is used for summarizing and storing after receiving the information, and once the information exceeds a threshold value, the remote background 73 can give corresponding prompts.

A flow velocity sensor 91 and a water temperature sensor 92 are further fixed on the side wall of the placing frame 2, the flow velocity sensor 91 is used for detecting the flow velocity of the water body and is electrically connected with the control module 71, and the water temperature sensor 92 is used for detecting the temperature of the water body and is electrically connected with the control module 71. In this structure, flow velocity sensor 91 is used for detecting the velocity of flow of water, and water temperature sensor 92 is DS18B20 temperature sensor, and it is used for detecting the temperature of water, and control module 71 receives behind the information that flow velocity sensor 91 and water temperature sensor 92 sent, sends for remote backstage 73 through communication module 72, and the hydrology information of this device position is looked over to remote backstage 73 of being convenient for from this.

It should be noted that the above-mentioned embodiments are only preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, and the present invention can also be modified in materials and structures, or replaced by technical equivalents. Therefore, all structural equivalents which may be made by applying the present invention to the specification and drawings, or by applying them directly or indirectly to other related technical fields, are intended to be encompassed by the present invention.

Claims

1. The utility model provides an intelligent water body treatment system, includes connection frame, connection frame's both sides are fixed with flotation pontoon, its characterized in that respectively: still including placing frame, mounting panel, fountain aeration machine, reaction frame and water quality testing unit, it fixes to place the frame connect the frame's lower extreme, the reaction frame is fixed place in the frame, just biological fluidized bed filler has been placed in the reaction frame, the mounting panel is fixed connect the frame's central point puts the department, just the undercut is provided with a plurality of planting grooves on the mounting panel, fountain aeration machine fixes on the mounting panel, water quality testing unit fixes on placing the lateral wall of frame, just water quality testing unit is connected with the control module electricity, control module passes through communication module and long-range backstage communication.

2. The intelligent water body treatment system of claim 1, wherein: every the upper end of flotation pontoon is fixed with solar cell panel, solar cell panel and battery electricity are connected, the battery is fixed in one of them the flotation pontoon.

3. The intelligent water body treatment system according to claim 2, wherein: the solar cell panel is obliquely fixed at the upper end of the buoy, so that an inclination angle is formed between the solar cell panel and the horizontal plane, and the range of the inclination angle is 20-50 degrees.

4. The intelligent water body treatment system of claim 2, wherein: the mounting plate is composed of a longitudinal plate and a transverse plate which are integrally manufactured, the longitudinal plate is vertically connected with the transverse plate, and the fountain aerator is fixed at the connecting position of the longitudinal plate and the transverse plate.

5. The intelligent water body treatment system of claim 4, wherein: the bottom of the planting groove is provided with a through groove for the plant root system to pass through.

6. The intelligent water body treatment system according to claim 1, wherein: the upper end of the reaction frame is connected with a door plate, the side wall of the reaction frame is provided with a plurality of through holes, and the diameter of each through hole is smaller than the particle size of the biological fluidized bed filler.

7. The intelligent water body treatment system of claim 1, wherein: two be connected with the anchor rod between the both ends of flotation pontoon respectively, every be connected with spacing rope on the anchor rod, spacing rope is connected with the stock of arranging in the bottom.

8. The intelligent water body treatment system of claim 1, wherein: the water quality detection unit comprises a dissolved oxygen sensor, a pH sensor and a turbidity sensor, wherein the dissolved oxygen sensor is used for detecting the oxygen content in water and is electrically connected with the control module, the pH sensor is used for detecting the pH value of the water body and is electrically connected with the control module, and the turbidity sensor is used for detecting the turbidity degree of the water body and is electrically connected with the control module.

9. The intelligent water body treatment system of claim 8, wherein: the water temperature sensor is used for detecting the temperature of the water body and is electrically connected with the control module.