CN213463479U

CN213463479U - Intelligent aquaculture pond

Info

Publication number: CN213463479U
Application number: CN202021789795.6U
Authority: CN
Inventors: 侯宗元; 韦国勇
Original assignee: Guangxi Wooden Shell Technology Co ltd
Current assignee: Guangxi Wooden Shell Technology Co ltd
Priority date: 2020-08-25
Filing date: 2020-08-25
Publication date: 2021-06-18
Anticipated expiration: 2030-08-25

Abstract

The utility model discloses an intelligent aquaculture pond, which comprises a pond body and is characterized in that the pond body is a square body without a top plate and is fixed on a fixed support, a first baffle plate on the left side in the pond and a second baffle plate on the rear side divide the pond into an equipment area, a separation area and a culture room, the culture room is a square body, a front wall plate and a right wall plate are made of transparent materials, the bottom plate inclines from right to left at an angle, a bottom flushing pipe is arranged on the rightmost side, a water quality monitor arranged on the outer side is respectively communicated with the equipment area and the separation area through a first water outlet and a first water inlet, a circle of side flushing pipe tightly attached to the side wall and communicated with the bottom flushing pipe is arranged on the inner side of the top, the equipment area is divided into an equipment installation chamber and a rotary drum installation chamber through a third baffle plate, a nano aeration pipe is arranged at the bottom of the separation area and is divided into a protein separation chamber through a fourth baffle plate, a biological treatment chamber and a sterilization chamber.

Description

Intelligent aquaculture pond

Technical Field

The utility model belongs to the technical field of aquaculture equipment, concretely relates to intelligent aquaculture pond.

Background

Along with the improvement of living standard of people, more and more people advocate leisure and pleasant life, fish culture, flower culture and the like become more and more interests and hobbies of more and more people in leisure time, and cultured aquatic animals are various and more expensive, and the requirement on water quality is higher and higher. In aquaculture, the aquatic animals are fed everyday to produce excess production materials, and meanwhile, the aquatic animals also produce excrement and urine and the like after digestion, so that water is eutrophicated and generates grease, ammonia nitrogen and nitrite can be generated due to untimely treatment, water quality is easily polluted, bacteria are bred, harmful substances are generated, the oxygen content in water is reduced, and fish is ill, poisoned, anoxic and even die. Grease adheres to the wall of the jar, a large amount of dirt is generated along with the grease, and the jar is not easy to brush.

However, most of the existing ornamental aquaculture ponds have single functions, and the general solution is to change water frequently, which wastes much water and time, and meanwhile, the water change frequently is not suitable for many aquatic animals, and meanwhile, the water quality cannot be monitored constantly.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem and providing an intelligent aquaculture pond.

The purpose of the utility model is realized through following mode:

the utility model provides an intelligent aquaculture pond, includes the cell body, be a square body of not taking the roof, fix on fixed bolster, left first baffle in the pond and the second baffle of rear side divide into equipment district, disengagement zone and breed room with it, breed the room and be a square body, preceding wallboard and right wallboard are transparent material, the bottom plate is inclined an angle from right to left, the rightmost side is equipped with a bottom flushing pipe, respectively through first delivery port and first water inlet and equipment district and disengagement zone intercommunication, the top inboard is equipped with the side flushing pipe that the lateral wall and bottom flushing pipe intercommunication are hugged closely to the round, equipment district, divide into equipment fixing chamber and rotary drum installation chamber with it by the third baffle, disengagement zone bottom set up the nanometer blast pipe, divide into protein separation room, biological treatment room and disinfection room by fourth baffle and fifth baffle.

Preferably, the rotary drum installation chamber is divided into a water purification chamber and a sewage chamber by a sixth partition plate, the rotary drum is transversely installed in the water purification chamber and communicated with the sewage chamber through a central pipe, a second water outlet is formed in the upper portion of the rear side of the rotary drum installation chamber and communicated with the protein separation chamber, the sewage chamber is communicated with the culture chamber through a first water inlet, and a backwashing device is arranged above the rotary drum.

Preferably, back washing unit, including booster pump, back flushing pipe, shower nozzle and dirty device of collection, back flushing pipe and booster pump and side flushing pipe intercommunication, install shower nozzle and ball-cock assembly, dirty device of collection, collect that the filth after the back flushing pipe washes filters the back clean water recovery and flows into the clean water room.

Preferably, the float valve is installed behind the communication port with the side flushing pipe, and is controlled to be opened and closed by the water level in the water purifying chamber.

Preferably, the top parts of the fourth partition plate and the fifth partition plate on the left side and the right side of the biological treatment chamber are respectively provided with a water passing hole which is respectively communicated with the protein separation chamber and the disinfection chamber, the biological treatment chamber is divided into a left grid and a right grid from the middle, K3 and a hair brush for bacteria cultivation are respectively placed in the left grid and the right grid, and water passes through the biological treatment chamber from the bottom.

Preferably, the water quality monitor is provided with a plurality of water quality probes for monitoring the water quality of the culture area, and the water quality probes can be converted into data to be connected with the terminal.

Compared with the prior art, the beneficial effects of the utility model are that: 1. the system integrates the whole systems of solid waste removal by a rotary drum, protein separation, ammonia nitrogen and nitrite removal, final disinfection and the like, so as to ensure that the high requirements of aquaculture on water quality are met, reduce the times of water replacement and reduce the waste of water; 2. the periphery and the bottom of the culture room are provided with high-pressure washing to ensure the cleanness of the culture room, meanwhile, the washing can also be used as a water curtain, and the front wall and the right wall are designed with transparent materials to greatly increase the ornamental value; 3. the water quality monitor can monitor the water quality of the culture through a mobile phone and other terminals, so that the water quality change can be known in advance for prevention. 4. The whole water transfer system is basically fully automatic, and meanwhile, the water level is simply adjusted, so that the labor intensity of the cultivation is greatly reduced, and the water transfer system is suitable for more people.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic diagram of the structure of the tank body of the present invention.

Fig. 3 is a schematic view of the bracket structure of the present invention.

Fig. 4 is a schematic structural view of the inner pipe distribution component of the present invention.

Fig. 5 is a schematic view of the drum structure of the present invention.

Fig. 6 is a schematic view of the overall structure of the oblique corner of the present invention.

The illustration is that 1-right wall plate, 2-culture chamber, 3-side flushing pipe, 4-disinfection chamber, 5-sterilization light pipe, 6-water passing hole, 7-fifth clapboard, 8-brush, 9-biological treatment chamber, 10-K3, 11-fourth clapboard, 12-rotary drum installation chamber, 13-protein separation chamber, 14-protein discharge pipe, 15-sewage chamber, 16-water level regulator, 17-back flushing pipe, 18-sewage receiving device, 19-driving wheel, 20-emptying pipe, 21-water purification chamber emptying pipe, 22-culture chamber emptying pipe, 23-motor, 24-air pipe, 25-control box, 26-equipment installation chamber, 27-bottom plate, 28-front wall plate, 29-support, 30-bottom flushing pipe, 31-submersible pump, 32-booster pump, 33-blower, 34-rotary drum, 35-first clapboard, 36-second clapboard, 37-third clapboard, 38-sixth clapboard, 39-clear water chamber, 40-tank body, 41-equipment area, 42-separation area, and 43-water quality monitor.

Detailed Description

Referring now to the drawings in further detail, it is noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

As shown in FIGS. 1 to 6, the tank body 40 is a square body without a top plate and fixed on the fixed support 29, and the first partition 35 at the left side and the second partition 36 at the rear side in the tank divide the tank body into an equipment area 41, a separation area 42 and a culture chamber 2.

The culture room 2 is a square body, the front wall plate 28 and the right wall plate 1 are made of transparent materials, the bottom plate 27 is inclined from right to left at an angle, the rightmost side is provided with a bottom flushing pipe 30 which is respectively communicated with the equipment area 41 and the separation area 42 through a first water outlet 202 and a first water inlet 201, and the inner side of the top is provided with a circle of side flushing pipes 3 which are tightly attached to the side walls and are communicated with the bottom flushing pipe 30.

The equipment area 41 is divided into an equipment installation chamber 26 and a rotary drum installation chamber 12 by a third partition plate 37, the bottom of the separation area 42 is provided with a nanometer aeration pipe 2402, and the separation area is divided into a protein separation chamber 13, a biological treatment chamber 9 and a disinfection chamber 4 by a fourth partition plate 11 and a fifth partition plate 5.

The rotating drum installation chamber 13 is divided into a water purification chamber 39 and a sewage chamber 15 by a sixth partition plate 38, the rotating drum 34 is transversely installed in the water purification chamber 39 and communicated with the sewage chamber 15 through a central pipe 3401, a second water outlet 3901 is arranged above the rear side of the rotating drum installation chamber and communicated with the protein separation chamber 13, the sewage chamber 15 is communicated with the culture chamber 2 through a first water inlet 202, and a backwashing device is arranged above the rotating drum 34.

The back washing device comprises a booster pump 32, a back washing pipe 17, a spray head 1701 and a sewage collecting device 18, wherein the back washing pipe 17 is communicated with the booster pump 32 and the side washing pipe 3 and is provided with the spray head 1701 and a ball float valve 1702, and the sewage collecting device 18 collects sewage flushed by the back washing pipe 17, filters the sewage and then recovers and flows into the purified water chamber 15.

The ball float 1702 is installed behind the communication port with the side wash pipe 3, and is controlled to open and close by the level of water in the clean water chamber 15.

The top of the fourth clapboard 11 and the fifth clapboard 7 on the left side and the right side of the biological treatment chamber 9 are respectively provided with a water passing hole 6 which is respectively communicated with the protein separation chamber 13 and the disinfection chamber 4, the biological treatment chamber is divided into a left grid and a right grid from the middle, K318 and a brush 8 for bacteria cultivation are respectively placed in the left grid and the right grid, and water passes through the biological treatment chamber from the bottom.

The emptying pipe 20 is used for emptying and cleaning the protein separation chamber 13 and the biological treatment chamber 9 in the separation area.

The water purifying chamber emptying pipe 21 is used for emptying and cleaning the water purifying chamber 39.

The water quality monitor 43 is provided with a dissolved oxygen probe 4301, a PH value probe 4302, a salinity probe 4303, a temperature probe 4304 and other water quality probes for monitoring the water quality of the culture area, and can convert the water quality into data to be connected with a terminal, wherein the terminal comprises intelligent tools such as a mobile phone and a computer.

The water circulation process: water in the culture chamber 2 enters the sewage chamber 15 through the first water inlet 202, then enters the rotary drum 34 through the central pipe 3401 for filtration, the filtered water enters the water purification chamber 39, solids are in the rotary drum 34, the filtered water is pumped to the second water outlet 3901 by the submersible pump 31 to enter the protein separation chamber 13 for treating protein in the water, protein foam is blown down by the air blowing pipe 2401 and is discharged from the protein discharge pipe 14, the treated water enters the biological treatment chamber 9 through the water passing port 6 on the left side, ammonia nitrogen and nitrite are removed through the indoor K318 and the indoor brush 8 for bacteria cultivation, the reasonable range of ammonia nitrogen and nitrite is ensured, the treated water enters the disinfection chamber 4 through the water passing port 6 on the right side, a plurality of sterilizing light pipes 5 are arranged at the inlet for sterilizing and disinfecting water, then the water enters the culture room 2 through the first water inlet 201, meanwhile, the fan 33 supplies the water to the separation area 42 through the air pipe 24 to the nanometer air blasting pipe 2402.

Cleaning and backwashing: the booster pump 32 takes water from the clean water chamber 39, the water flows through the backwash pipe 17, the inlet side flushing pipe 3 and the bottom flushing pipe 30 pass through the high pressure nozzle 301 to flush the side wall and the bottom of the culture chamber 2, so that the solid materials flow to the first water inlet 202 and enter the sewage chamber 15, filtered water is increased, impurities in the rotary drum 34 are increased, the water level in the clean water chamber 39 is lowered, the ball float valve 1702 is opened after the water level in the clean water chamber 39 is lowered to a certain height, the filter screen on the surface of the rotary drum 34 is backwashed by the water entering the backwash pipe 17, meanwhile, the control box 25 starts the motor 23 to drive the transmission wheel 19 so as to drive the rotary drum 34 to rotate and flush the backwash pipe 17, the water level of the clean water chamber 39 is raised, the ball float valve 1702 is closed, the motor 23 is closed, impurities enter the sewage collection tray 1802 of the sewage collection device 18 and enter the sewage collection pipe 1803, the.

Adjusting the water level of the culture room 2: the water level regulator 16 is a telescopic pipe and a guide rail which enables the telescopic pipe to freely slide up and down, the telescopic pipe is regulated up and down according to the requirement to be suitable for the required water level height, the lowest water level set by the water level regulation ensures that aquatic products in the culture room 2 survive and are not dead due to too low water level, if the telescopic pipe is required to be emptied, the water is emptied from the culture room emptying pipe 22.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims

1. An intelligent aquaculture pond comprises a pond body and is characterized in that the pond body is a square body without a top plate and is fixed on a fixed support, a first partition plate on the left side in the pond and a second partition plate on the rear side divide the pond into an equipment area, a separation area and a culture room, the culture room is a square body, a front wall plate and a right wall plate are made of transparent materials, a bottom plate inclines from right to left at an angle, a bottom flushing pipe is arranged on the rightmost side, a water quality monitor is arranged on the outer side and is respectively communicated with the equipment area and the separation area through a first water outlet and a first water inlet, a circle of side flushing pipe tightly attached to the side wall and communicated with the bottom flushing pipe is arranged on the inner side of the top of the equipment area, the equipment area is divided into an equipment installation chamber and a rotary drum installation chamber through a third partition plate, a nano aeration pipe is arranged at the bottom of the separation area, a protein separation chamber, a biological treatment chamber and a disinfection chamber are, the biological treatment room, the water hole is established respectively and is passed through at the fourth baffle of the left and right sides and fifth baffle top and communicate protein separation room and disinfection room respectively, divide into about two check from the middle and place respectively and cultivate with the material, two check from the end water of crossing, water quality monitor be equipped with a plurality of water quality probes monitoring breed district quality of water to can convert the data into and be connected with the terminal, water quality probe including dissolved oxygen degree probe, PH value probe, salinity probe, temperature probe.

2. An intelligent aquaculture pond according to claim 1, wherein said drum installation chamber is divided into a clean water chamber and a sewage chamber by a sixth partition plate, said clean water chamber is horizontally installed with a drum, and is communicated with the sewage chamber through a central tube, a second water outlet is provided at the upper part of the rear side and is communicated with the protein separation chamber, said sewage chamber is communicated with the aquaculture chamber through a first water inlet, and a back washing device is provided above said drum.

3. An intelligent aquaculture pond according to claim 2 wherein said back flush means comprises a booster pump, a back flush pipe, a spray head and a dirt collecting means, said back flush pipe is connected to said booster pump and said side flush pipe, and said dirt collecting means collects the dirt flushed by said back flush pipe, filters said dirt and recovers the filtered clean water to flow into said clean water chamber.

4. An intelligent aquaculture pond according to claim 3 wherein said ball float valve is mounted behind the opening communicating with the side flush pipe and is controlled to open and close by the level of water in the clean water chamber.