CN213085731U

CN213085731U - Be applied to swirler in pond is bred to fish, shrimp

Info

Publication number: CN213085731U
Application number: CN202021642565.7U
Authority: CN
Inventors: 高长城; 张锋; 张朝阳; 马秀玲; 黄晓晨; 王晓奕; 白淑萍; 邱文杰; 高萌
Original assignee: Helan Jingcheng Aquaculture Co ltd
Current assignee: Helan Jingcheng Aquaculture Co ltd
Priority date: 2020-08-10
Filing date: 2020-08-10
Publication date: 2021-04-30
Anticipated expiration: 2030-08-10

Abstract

The application discloses be applied to fish, swirler in pond is bred to shrimp, including the overflow case, the upper end of overflow case is fixed with into the water tank, the impartial interval in both sides of overflow case is fixed with a plurality of swirler bodies, one side of swirler body is equipped with the raw water inlet tube, the one end of raw water inlet tube is connected in one side of going into the water tank, the upper end of swirler body is connected with the overflow pipe, the one end of overflow pipe is connected on the overflow case, spiral wet separator futilely is all installed to the both sides of overflow case, one side of spiral wet separator futilely is equipped with the opening, the lower extreme of swirler body extends to the opening part, two air pumps are installed to the. The utility model discloses can carry out the rapid filtration to the water in the breed pond, when the water oxygen content is not enough, can carry out the oxygenation to the water, improve the water quality to realized the circulation in breed pond, reduced the waste at water source, and be convenient for detect the water after filtering, impurity after the filtration is wet-dry after-separating, less to the influence of environment.

Description

Be applied to swirler in pond is bred to fish, shrimp

Technical Field

The utility model relates to an aquaculture technical field especially relates to a be applied to swirler in fish, shrimp culture pond.

Background

The existing industrial fish culture facilities in China are simple, and generally only comprise water lifting power equipment, an air pump, a sedimentation tank, a gravity type valveless filtering tank, a temperature regulating tank, a fish culture workshop, an open type flow pipe valve and the like; the method has the advantages that no strict water treatment facility is arranged in the front, no waste water treatment equipment is arranged in the rear, and the method is directly discharged, and belongs to the primary stage of industrial fish culture; in addition, diseases occur sometimes due to the high breeding density. Therefore, the industrial recirculating aquaculture technology standardizes the aquaculture mode, strengthens scientific management and prevents the occurrence and spread of diseases.

Compared with the traditional pond culture, the construction cost of a circulating water system is higher, so that the design requirement of the circulating water system is that the single yield is maximized, and the stability of the system is required to be maintained while the cost is reduced; the water treatment process has several technological steps, and the circulating water system is required to maintain proper water quality under the condition of sufficient feeding, and the water quality is deteriorated or not to result in death of farm animal, but the growth and stress of farm animal can be inhibited to result in diseases, so that it is important for farm management to maintain good water quality.

SUMMERY OF THE UTILITY MODEL

The application provides a be applied to swirler that pond was bred to fish, shrimp has solved traditional plant aquatic impurity more, and difficult processing influences the breed, often changes the problem at the extravagant water source of water.

The application provides a swirler applied to a fish and shrimp culture pond, which comprises an overflow box, wherein the upper end of the overflow box is fixed with a water inlet box, a plurality of swirler bodies are fixed at equal intervals on two sides of the overflow box, one side of the swirler bodies is provided with a raw water inlet pipe, one end of the raw water inlet pipe is connected with one side of the water inlet box, the upper end of the swirler bodies is connected with an overflow pipe, one end of the overflow pipe is connected with the overflow box, spiral dry-wet separators are respectively installed on two sides of the overflow box, one side of each spiral dry-wet separator is provided with an opening, the lower ends of the swirler bodies extend to the opening, two air pumps are installed at the upper end of the water inlet box, two air pumps are respectively provided with a main air pipe, one side of each main air pipe is fixed at the upper end of the water inlet box, one side of each main air pipe is equidistantly, the overflow pipes on the same side are in a group, the overflow pipes on the same group are in one-to-one correspondence with the branch gas pipelines on the side, the branch gas pipelines are connected to one side of the overflow pipes and incline to one side opposite to water flow, a sampling mechanism is arranged on one side of the overflow box, and a water outlet is formed in the bottom of the overflow box.

Preferably, the sampling mechanism comprises a collection pipe connected to one side of one of the overflow pipes, a second control valve is installed on the collection pipe, a placement plate is fixed to one side of the overflow box, and the placement plate corresponds to the collection pipe.

Preferably, the collecting pipe is arranged obliquely to one side of the water flow.

Preferably, the water outlet is obliquely arranged.

Preferably, a first control valve is installed on the branch gas pipeline, and the first control valve is an electromagnetic valve or a pneumatic control valve.

Preferably, the second control valve is a manual valve.

According to the technical scheme, the cyclone applied to the fish and shrimp culture pond is characterized in that during installation, equipment is installed on one side of the culture pond, one part of the equipment is located on the bank, the culture pond is connected with a water inlet tank through a water pump and a pipeline, when the cyclone is used, the water pump pumps water in the culture pond into the water tank and provides pressure, the water in the water tank enters the cyclone body through a raw water inlet pipe, heavier impurities enter a spiral dry-wet separator at the bottom of the cyclone body for dehydration and separation, the heavier impurities are discharged to the bank, the treated water flows into an overflow tank through an overflow pipe and flows back to the culture pond through a water outlet, when the oxygen content in the pond is insufficient, high-pressure gas is pumped into a main air pipe through an air pump, the air enters the overflow pipe through branch air pipelines, the air and the overflow water are mixed and then enter the overflow tank, the size of the air pump is adjusted according to the requirement of the oxygen, and water system circulation is realized.

Compared with the prior art, the beneficial effects of the utility model are that:

1. through the matching of the cyclone body, the overflow tank and the water inlet tank, the water in the culture pond is separated and purified, so that the water circulation in the culture pond is realized, and the water source waste is reduced;

2. the spiral dry-wet separator is matched with the cyclone body to perform dry-wet separation on the treated solid waste, so that the moisture of the solid waste is reduced, the solid waste is convenient to dry quickly, and the solid waste is convenient to transport and clean;

3. through the matching of the air pump, the main air pipe and the branch air pipe, when the oxygen content of the water body is insufficient, air is introduced into the water body through the air pump, so that the oxygen content in water is improved, and the quality of the water body is improved;

4. through sampling mechanism, the regular water of carrying out the sampling investigation, the timely quality of water index that obtains the drainage to quick adjustment water quality improves the environmental safety in the breed pond.

To sum up, the utility model discloses can carry out the rapid filtration to the water in the breed pond, when the water oxygen content is not enough, can carry out the oxygenation to the water, improve water quality to realized the circulation of breed pond, reduced the waste at water source, and be convenient for detect the water after filtering, impurity after the filtration is the wet separation futilely, the transportation of being convenient for, and is less to the influence of environment.

Drawings

In order to more clearly illustrate the technical solution of the present application, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious to those skilled in the art that other drawings can be obtained according to the drawings without any creative effort.

FIG. 1 is a top view of a cyclone applied to a fish and shrimp culture pond according to the present invention;

FIG. 2 is a schematic view of the mounting structure of a cyclone applied to a fish and shrimp culture pond according to the present invention;

fig. 3 is a schematic structural view of a cyclone applied to a fish and shrimp culture pond according to the present invention.

In the figure: 1 cyclone body, 2 spiral wet separator, 3 raw water inlet pipe, 4 main air pipes, 5 first control valve, 6 openings, 7 overflow box, 8 overflow pipe, 9 branch air pipe, 10 second control valve, 11 air pump, 12 water inlet box, 13 collection pipe, 14 placement plate and 15 water outlet.

Detailed Description

In order to make those skilled in the art better understand the technical solutions in the present application, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings.

Referring to fig. 1-3, a cyclone applied to a fish and shrimp culture pond, comprising an overflow tank 7 for temporarily storing filtered water, and a water body collides in the overflow tank 7 to easily remove ammonia and carbon dioxide and increase oxygen content, a water inlet tank 12 is fixed at the upper end of the overflow tank 7, the water to be filtered enters the water inlet tank 12 and is pressurized, a plurality of cyclone bodies 1 are fixed at equal intervals at both sides of the overflow tank 7 for two-phase separation and removing heavy impurities in the water, a raw water inlet pipe 3 is arranged at one side of the cyclone body 1, one end of the raw water inlet pipe 3 is connected to one side of the water inlet tank 12, the water in the water inlet tank 12 enters the cyclone body 1 through the raw water inlet pipe 3, an overflow pipe 8 is connected to the upper end of the cyclone body 1, one end of the overflow pipe 8 is connected to the overflow tank 7, the treated water flows into the overflow tank 7 through the overflow pipe 8 and, spiral dry-wet separators 2 are respectively arranged on two sides of an overflow box 7, an opening 6 is arranged on one side of each spiral dry-wet separator 2, the lower end of a swirler body 1 extends to the opening 6, heavier impurities enter the spiral dry-wet separators 2 at the bottom of the swirler body 1 for dehydration and separation and are discharged to the bank edge, two air pumps 11 are arranged at the upper end of a water inlet box 12, main air pipes 4 are respectively arranged on the two air pumps 11, one side of each main air pipe 4 is fixed at the upper end of the water inlet box 12, a plurality of branch air pipes 9 are connected to one side of each main air pipe 4 at equal intervals, a plurality of overflow pipes 8 on the same side are in a group, a plurality of overflow pipes 8 in the same group correspond to a plurality of branch air pipes 9 on the side one by one, the branch air pipes 9 are connected to one side of the overflow pipes 8, the branch air pipes 9 are inclined towards the side opposite to the water flow, the flow of overflow water is facilitated, the first control valve 5 is an electromagnetic valve or a pneumatic control valve, remote control and convenient control, when the oxygen content in the pond is insufficient, the air pump 11 pumps high-pressure air into the main air pipe 4, the high-pressure air enters the overflow pipe 8 through each branch air pipeline 9, the air and overflow water are mixed and then enter the overflow tank 7, the size of the air pump 11 is adjusted according to the requirement of the oxygen content, the water quality is improved, water system circulation is achieved, a sampling mechanism is arranged on one side of the overflow tank 7, regular sampling investigation is carried out on the water, the water quality index of filtered water is timely obtained, therefore, the water quality is quickly adjusted, the environmental safety in the culture pond is improved, a water outlet 15 is arranged at the bottom of the overflow tank 7, when the water outlet 15 is obliquely arranged, the water flows downwards obliquely, the water in the culture pond can be driven to flow, more oxygen is brought.

The utility model discloses in, sampling mechanism is including connecting the collection pipe 13 in 8 one side of one of them overflow pipe, collection pipe 13 sets up to the lopsidedness of rivers, the one side that the water tank of being convenient for was gathered pipe 13 flows, install second control valve 10 on the collection pipe 13, second control valve 10 is manual valve, when needing the sampling, manual back water of opening second control valve 10 and putting a period is sampled again, one side of overflow box 7 is fixed with places board 14, it is corresponding with collection pipe 13 to place board 14, be convenient for place the sampling household utensils.

According to the technical scheme, during installation, the equipment is installed on one side of a culture pond, one part of the equipment is located on the bank, so that treated solid impurities can be conveniently collected, the culture pond is connected with a water inlet tank 12 through a water pump and a pipeline, when the equipment is used, the water in the culture pond is pumped into the water tank 12 through the water pump, pressure is provided, water in the water inlet tank 12 enters a cyclone body 1 through a raw water inlet pipe 3, heavier impurities enter a spiral type dry-wet separator 2 at the bottom of the cyclone body 1 for dehydration and separation and are discharged to the bank, the treated water flows into an overflow tank 7 through an overflow pipe 8 and flows back to the culture pond through a water outlet 15, when the oxygen content in the pond is insufficient, high-pressure gas is pumped into a main gas pipe 4 through an air pump 11 and enters the overflow pipe 8 through branch gas pipelines 9, the air and the overflow water are mixed and then enter the overflow tank 7, the size of the air pump 11, and water system circulation is realized.

Other embodiments of the present application will be apparent to those skilled in the art from consideration of the specification and practice of the application disclosed herein. This application is intended to cover any variations, uses, or adaptations of the invention following, in general, the principles of the application and including such departures from the present disclosure as come within known or customary practice within the art to which the invention pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope of the disclosure being indicated by the following claims.

It will be understood that the present application is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The above-described embodiments of the present application do not limit the scope of the present application.

Claims

1. The utility model provides a be applied to swirler in fish, shrimp culture pond, includes overflow box (7), its characterized in that: the water inlet tank is characterized in that an inlet water tank (12) is fixed at the upper end of the overflow tank (7), a plurality of cyclone bodies (1) are fixed at equal intervals on two sides of the overflow tank (7), a raw water inlet pipe (3) is arranged on one side of each cyclone body (1), one end of each raw water inlet pipe (3) is connected to one side of the inlet water tank (12), an overflow pipe (8) is connected to the upper end of each cyclone body (1), one end of each overflow pipe (8) is connected to the overflow tank (7), spiral dry-wet separators (2) are installed on two sides of the overflow tank (7), an opening (6) is arranged on one side of each spiral dry-wet separator (2), the lower end of each cyclone body (1) extends to the opening (6), two air pumps (11) are installed on the upper end of the inlet water tank (12), and main air pipes (4) are installed on the two air pumps (11), one side of main trachea (4) is fixed go into the upper end of water tank (12), one side equidistant connection of main trachea (4) has a plurality of branch gas pipe ways (9), and is a plurality of with one side overflow pipe (8) are a set of, and are a plurality of with a set of overflow pipe (8) and a plurality of this side branch gas pipe way (9) one-to-one, branch gas pipe way (9) are connected one side of overflow pipe (8), just branch gas pipe way (9) are to the opposite lopsidedness of rivers, one side of overflow case (7) is equipped with sampling mechanism, the bottom of overflow case (7) is equipped with delivery port (15).

2. The cyclone applied to fish and shrimp culture ponds according to claim 1 characterized in that the sampling mechanism comprises a collection pipe (13) connected to one side of one of the overflow pipes (8), a second control valve (10) is installed on the collection pipe (13), a placing plate (14) is fixed to one side of the overflow tank (7), and the placing plate (14) corresponds to the collection pipe (13).

3. A cyclone for fish and shrimp ponds according to claim 2 wherein the collection pipe (13) is inclined to one side of the water flow.

4. A cyclone for fish and shrimp ponds according to claim 1 wherein the water outlet (15) is inclined.

5. The cyclone applied to the fish and shrimp culture pond according to the claim 1 is characterized in that the branch air pipe (9) is installed with a first control valve (5), and the first control valve (5) is an electromagnetic valve or an air control valve.

6. A cyclone applied to a fish and shrimp culture pond according to claim 2, characterized in that the second control valve (10) is a manual valve.