CN215947007U

CN215947007U - Protein separator integrating foam removal and water sterilization

Info

Publication number: CN215947007U
Application number: CN202121886152.8U
Authority: CN
Inventors: 向坤; 叶章颖; 朱建新; 颉志刚; 董炜峰; 张文明; 张思源; 向钧泽
Original assignee: Blue Song Intelligent Fishery Qingdao Marine Science & Technology Engineering Co ltd; Shandong Luwei Ocean Technology Co ltd
Current assignee: Blue Song Intelligent Fishery Qingdao Marine Science & Technology Engineering Co ltd; Shandong Luwei Ocean Technology Co ltd
Priority date: 2021-08-12
Filing date: 2021-08-12
Publication date: 2022-03-04
Anticipated expiration: 2031-08-12

Abstract

The utility model discloses a protein separator integrating foam removal and water sterilization, which comprises a reaction barrel body provided with a gas-water mixing device, an ultraviolet sterilizer, a jet water pump and a control cabinet, wherein the reaction barrel body is provided with a gas-water mixing device; the gas-water mixing device is fixed in the middle of the bottom of the reaction barrel body; the water inlet of the ultraviolet sterilization machine is connected with the water outlet of the reaction barrel body of the protein separator; the water inlet of the jet flow water pump is connected with the reaction barrel body, and the water outlet of the jet flow water pump is connected with the water inlet of the Venturi ejector through a pipeline; the control cabinet is connected with the ultraviolet sterilizer and the jet water pump through cables and wires and is fixed on the reaction barrel body. The structure of the utility model is designed reasonably, and the multiple Venturi tubes are adopted to greatly increase the bubbles and the fineness of the bubbles and enhance the gas-liquid mixing effect, thereby greatly improving the working efficiency of the protein separator; meanwhile, the water outlet of the protein separator can kill disease bacteria in the water body through ultraviolet rays and solve the problem of ozone residue.

Description

Protein separator integrating foam removal and water sterilization

Technical Field

The utility model relates to the technical field of circulating aquaculture water treatment, in particular to a protein separator integrating foam removal and water sterilization.

Background

At present, a protein separator is adopted in an industrial circulating water culture system to remove particulate matters (less than or equal to 35 um) and soluble organic matters, and the protein separator is also called as a foam separator to remove suspended colloidal bodies, cellulose, protein, residual baits, excrement and other organic matters in water in an air floatation mode;

at present, the protein separator developed in China has the following defects in practical application: (1) the structure of bubbles generated by various methods in the existing protein separator is complex, the internal space is occupied, the particle size of the generated bubbles is larger and the distribution is not uniform, the removal efficiency of fine particles and protein is not high, and the energy consumption is high; (2) the protein separators are all provided with ozone adding ports, ozone added in the protein separators is often not fully utilized due to uneven mixing and has the problem of ozone residue, so that the ozone enters the biological filter tank subsequently to kill part of nitrifying bacteria or overflows into the air to generate unpleasant smell.

Disclosure of Invention

In order to solve the problems, the utility model discloses a protein separator which integrates foam removal and water sterilization and is easy to install and maintain; by ultraviolet rays, not only can disease bacteria in water be killed, but also the problem of ozone residue can be solved.

A protein separator integrating foam removal and water sterilization comprises a reaction barrel body provided with a gas-water mixing device, an ultraviolet sterilizer, a jet water pump and a control cabinet; the gas-water mixing device is arranged in the middle of the bottom of the reaction barrel body; the water inlet of the ultraviolet sterilizer is connected with the water outlet of the reaction barrel body for protein separation; the water inlet of the jet flow water pump is connected with the reaction barrel body, and the water outlet of the jet flow water pump is connected with the water inlet of the Venturi ejector through a pipeline; the control cabinet is connected with the ultraviolet sterilizer and the jet water pump through cables and wires and is fixed on the reaction barrel body.

The utility model further improves that: the gas-water mixing water inlet of the gas-water mixing device is connected with the water outlet of the Venturi ejector, and water outlet small holes are uniformly formed in the top of the gas-water mixing device.

The utility model further improves that: the top of the reaction barrel body is provided with a transparent dirt collecting cup, and the top of the dirt collecting cup is provided with a rotatable sprinkler head.

The utility model further improves that: the middle part of the reaction barrel body is provided with an observation window, and the middle upper part of the reaction barrel body is provided with a liquid level pipe.

The utility model further improves that: the water inlet and the water outlet of the reaction barrel body are arranged in opposite positions, wherein the water inlet is arranged at the upper part of one side of the reaction barrel body, and the water outlet is arranged at the bottom of the other side of the reaction barrel body.

The utility model further improves that: the number of the Venturi ejectors is two or more than two, and the Venturi ejectors are arranged at the lower part of the reaction barrel body side by side.

The utility model further improves that: the pipeline that jet pump and venturi ejector are connected is equipped with the manometer to be equipped with a branch pipeline and be connected with the sprinkler head at top, be equipped with the ball valve on the branch pipeline.

The utility model further improves that: the air inlet of the venturi ejector is provided with a venturi branch pipeline, and the tail end of the venturi branch pipeline is respectively provided with an air intake and an ozone intake.

The utility model further improves that: the reaction barrel body is made of one of glass fiber reinforced plastics, PP, PE and stainless steel

When the utility model works: the aquaculture seawater enters the reaction barrel body through the water inlet, when the water level rises to the visible state of the liquid level pipe, the jet flow pump is opened, the water body enters the jet flow pump from the bottom of the reaction barrel body, enters the air-water mixing device through the Venturi ejector, fine bubbles rise, negative pressure is formed in the process, ozone is sucked from the ozone intake and enters the reaction barrel body 1, ammonia nitrogen, nitrite, hydrogen sulfide, heavy metal ions and the like in the aquaculture water body are oxidized, and meanwhile, hospital microorganisms in the aquaculture water body are sterilized and disinfected; during the ascending process of the tiny bubbles, organic matters such as suspended colloidal bodies, cellulose, protein, residual baits, excrement and the like are brought into the sewage collection cup, and then a rotatable sprinkler head arranged at the top of the sewage collection cup is used for spraying and removing the reaction barrel body, and the reaction barrel body enters a sewage discharge pipeline network; clean water body gets into ultraviolet sterilizer through the delivery port, decomposes unnecessary ozone and further disinfects the water simultaneously, and the water body gets into next level filtration system.

The utility model has the beneficial effects that:

1. the dual design of the multiple Venturi ejectors and the air-water mixing device thereof is provided with the air and ozone intake ports, so that the Venturi ejection is greatly increased, the fineness of bubbles and bubbles is greatly increased, the air-water mixing effect is enhanced, and the working efficiency of the protein separator is greatly improved;

2. the water outlet of the protein separator can kill disease bacteria in the water body through ultraviolet rays and decompose ozone, so that the problem of ozone residue is solved, and the double sterilization effects of ozone oxidation and ozone and ultraviolet rays are realized;

3. the product has reasonable integral design and low energy consumption, and the protein separator with the treatment capacity of 100m3/h only needs a jet pump with the flow of 0.75-1.0kw and is easy to install and maintain.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a left side view of FIG. 1;

FIG. 3 is a right side view of FIG. 1;

FIG. 4 is a schematic structural view of a reaction barrel body according to the present invention;

list of reference numerals:

wherein 1, the reaction barrel body; 2-a gas-water mixing device; 3-ultraviolet sterilization machine; 4-jet pump; 5-a control cabinet; 6-venturi ejector; 7-observation window; 8-a liquid level pipe; 9-a water inlet; 10-a water outlet; 11-pressure gauge; 12-dirt collecting cup; 13-a ball valve; 14-a sprinkler head; 61-an air inlet; 62-an air intake; 63-an ozone intake; 21-gas-water mixing water inlet.

Detailed Description

The present invention will be further illustrated with reference to the accompanying drawings and specific embodiments, which are to be understood as merely illustrative of the utility model and not as limiting the scope of the utility model. It should be 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.

The protein separator integrating foam removal and water sterilization as shown in fig. 1-4 comprises a reaction barrel body 1 provided with a gas-water mixing device 2, an ultraviolet sterilizer 3, a jet water pump 4 and a control cabinet 5; the gas-water mixing device 2 is arranged in the middle of the bottom of the reaction barrel body 1; the reaction barrel body 1 is made of glass fiber reinforced plastic or PP or PE or stainless steel.

The middle part of the reaction barrel body 1 is provided with an observation window 7, and the middle upper part is provided with a liquid level pipe 8, so that the condition in the reaction barrel body 1 can be observed conveniently.

The water inlet 9 and the water outlet 10 of the reaction barrel body 1 are arranged in opposite positions, wherein the water inlet 9 is arranged at the upper part of one side of the reaction barrel body 1, and the water outlet 10 is arranged at the bottom of the other side of the reaction barrel body 1.

The water inlet of the ultraviolet sterilizer 3 is connected with the water outlet 10 of the reaction barrel body 1 for separating protein; the water inlet of the jet water pump 4 is connected with the reaction barrel body 1, and the water outlet of the jet water pump is connected with the water inlet of the Venturi ejector 6 through a pipeline; the control cabinet 5 is connected with the ultraviolet sterilizer 3 and the jet flow water pump 4 through cables and wires and is fixed on the reaction barrel body 1.

The gas-water mixing water inlet 21 of the gas-water mixing device 2 is connected with the water outlet of the Venturi ejector 6, and small water outlet holes are uniformly formed in the top of the gas-water mixing device 2.

The top of the reaction barrel body 1 is provided with a transparent dirt collecting cup 12, and the top of the dirt collecting cup 12 is provided with a rotatable sprinkler head 14.

The number of the Venturi ejectors 6 is two or more, and the Venturi ejectors are arranged at the lower part of the reaction barrel body 1 side by side.

A pressure gauge 11 is arranged on a pipeline connected with the jet water pump 4 and the venturi ejector 6, a branch pipeline is arranged to be connected with a sprinkler head 14 at the top, and a ball valve 13 is arranged on the branch pipeline; by controlling the ball valve 13, the water output of the sprinkler head 4 is controlled.

The air inlet 61 of the venturi ejector 6 is provided with a venturi branch pipeline, and the tail end of the venturi branch pipeline is respectively provided with an air intake 62 and an ozone intake 63; the design of multiple venturi is equipped with air simultaneously and takes in the mouth 62 and the ozone mouth 63 of taking in for the venturi sprays and rises by a wide margin, has increased the exquisite degree of bubble and bubble in a large number, has strengthened the gas-liquid mixture effect, thereby increases substantially the work efficiency of protein separator.

The embodiment works as follows: the aquaculture seawater enters the reaction barrel body 1 through the water inlet 9, when the seawater with the liquid level rises to the liquid level pipe 8, the jet flow water pump 4 is opened, the water body enters the jet flow water pump 4 from the bottom of the reaction barrel body 1 and enters the gas-water mixing device 2 through the Venturi ejector 6 to form fine bubbles to rise, negative pressure is formed in the process, ozone is sucked from the ozone intake and enters the reaction barrel body 1 to oxidize ammonia nitrogen, nitrite, hydrogen sulfide, heavy metal ions and the like in the aquaculture water body, and meanwhile, the microorganisms in hospital in the aquaculture water body are sterilized and disinfected; in the ascending process of the tiny bubbles, organic matters such as suspended colloidal bodies, cellulose, protein, residual baits, excrement and the like are brought into the dirt collection cup 12, and then the organic matters are sprayed and discharged out of the reaction barrel body 1 through a rotatable spraying head 14 arranged at the top of the dirt collection cup 12 and enter a sewage discharge pipeline network; clean water body gets into ultraviolet sterilization machine 3 through the delivery port, decomposes unnecessary ozone and further disinfects the water simultaneously, and the water body gets into next level of filtration system.

The technical means disclosed in the utility model scheme are not limited to the technical means disclosed in the above embodiments, but also include the technical scheme formed by any combination of the above technical features.

Claims

1. A protein separator integrating foam removal and water sterilization is characterized in that: comprises a reaction barrel body (1) provided with a gas-water mixing device (2), an ultraviolet sterilization machine (3), a jet water pump (4) and a control cabinet (5); the gas-water mixing device (2) is arranged in the middle of the bottom of the reaction barrel body (1); the water inlet of the ultraviolet sterilizer (3) is connected with the water outlet of the reaction barrel body (1) for separating protein; a water inlet of the jet flow water pump (4) is connected with the reaction barrel body (1) and a water outlet is connected with a water inlet of the Venturi ejector (6) through a pipeline; the control cabinet (5) is connected with the ultraviolet sterilization machine (3) and the jet flow water pump (4) through cables and wires and is fixed on the reaction barrel body (1).

2. The protein separator integrating foam removal and water sterilization as claimed in claim 1, wherein: the gas-water mixing water inlet (21) of the gas-water mixing device (2) is connected with the water outlet of the Venturi ejector (6), and water outlet small holes are uniformly distributed at the top of the gas-water mixing device (2).

3. The protein separator integrating foam removal and water sterilization as claimed in claim 1, wherein: the top of the reaction barrel body (1) is provided with a transparent dirt collecting cup (12), and the top of the dirt collecting cup (12) is provided with a rotatable sprinkler head (14).

4. The protein separator integrating foam removal and water sterilization as claimed in claim 1, wherein: the middle part of the reaction barrel body (1) is provided with an observation window (7) and the middle upper part is provided with a liquid level pipe (8).

5. The protein separator integrating foam removal and water sterilization as claimed in claim 1, wherein: the water inlet (9) and the water outlet (10) of the reaction barrel body (1) are arranged in opposite positions, wherein the water inlet (9) is arranged at the upper part of one side of the reaction barrel body (1), and the water outlet (10) is arranged at the bottom of the other side of the reaction barrel body (1).

6. The protein separator integrating foam removal and water sterilization as claimed in claim 1, wherein: the number of the Venturi ejectors (6) is two or more, and the Venturi ejectors are arranged at the lower part of the reaction barrel body (1) side by side.

7. The protein separator integrating foam removal and water sterilization as claimed in claim 1, wherein: the pipeline that jet pump (4) and venturi ejector (6) are connected is equipped with manometer (11) to be equipped with a branch pipeline and be connected with sprinkler head (14) at top, be equipped with ball valve (13) on the branch pipeline.

8. The protein separator integrating foam removal and water sterilization as claimed in claim 1, wherein: the venturi ejector (6) is characterized in that a venturi air inlet (61) is provided with a venturi branch pipeline, and the tail end of the venturi branch pipeline is respectively provided with an air intake (62) and an ozone intake (63).

9. The protein separator integrating foam removal and water sterilization as claimed in claim 1, wherein: the reaction barrel body (1) is made of one of glass fiber reinforced plastics, PP, PE and stainless steel.