CN214508818U - Intensive shrimp cultured equipment is fed to multilayer - Google Patents

Abstract

The utility model provides a intensive shrimp farming equipment is fed to multilayer, includes the urceolus, the urceolus is cylindrical, and establish to the toper in its bottom, is equipped with in the toper bottom and strains dirty valve, the blowdown even is connected to the blow off pipe, is connected with the inlet tube on the urceolus, and urceolus inside is fixed with the shrimp building, the shrimp building comprises the circular breed board of multilayer, and the distance is 5-10cm between each layer of breed board, the shrimp building is fixed in the urceolus inboard through the support, all is equipped with the dog-house on each layer of breed board, the dog-house is connected to the feeding pipe, and the feeding pipe is connected to the feed pump, all communicate and allow the shrimp to freely remove between each layer of breed board.

Description

Intensive shrimp cultured equipment is fed to multilayer

Technical Field

The utility model relates to a cultured equipment technical field is a intensive shrimp cultured equipment is fed to multilayer particularly.

Background

The shrimp meat is delicious and has high economic value. In the culture process, because the environment temperature is proper, a large amount of silt, excrement, residual bait, animal and plant debris and the like are easily accumulated at the bottom of the culture pond, so that the water quality is deteriorated. In addition, higher density cultivation is required due to the couple of artificial cultivation density and economic value. Due to the existence of the reasons, various diseases such as white spot syndrome, taura syndrome virus, rotten eye disease, gill rot, tail rot and the like are very easy to occur frequently in the culture process, once the diseases occur, epidemic situations are rapidly epidemic, and the economic benefit of the whole culture farm is directly influenced. Therefore, the shrimp culture with higher density is a problem to be solved urgently by the current culture personnel.

In the prior art, in a conventional shrimp culture pond, the following problems are likely to occur: the feed is thrown and is fed the inequality and cause the shrimp growth condition to have the difference, and the fodder has sunk the end and has caused and can only breed the shrimp of relative quantity under the certain condition of water area, and current aquaculture device filth is collected and is mainly relied on gravity or the unidirectional flow of water to promote the filth, and the water dissolved oxygen content is not enough to appear easily when the density is too big in shrimp breed.

SUMMERY OF THE UTILITY MODEL

To the problem, the utility model provides an intensive shrimp cultured equipment is fed to multilayer, including the urceolus, the urceolus is cylindrical, and establish to the toper bottom its, is equipped with the dirt valve in the toper bottom, the blowdown is even connected to the blow off pipe, is connected with the inlet tube on the urceolus, and the urceolus is inside to be fixed with the shrimp building, the shrimp building comprises the circular breed board of multilayer, and the distance is 5-10cm between each layer of breed board, the shrimp building is fixed in the urceolus bottom through the support, all is equipped with the dog-house on each layer of breed board, the dog-house is connected to the dog-house, and the dog-house is connected to the feed pump.

Preferably, the water inlet pipe is arranged on the side surface of the outer barrel, and the central line of the inner diameter of the pipeline of the water inlet pipe is tangent to the inner diameter of the outer barrel.

Preferably, the circular culture plate consists of a plurality of fan-shaped culture plates, and the fan-shaped culture plates are culture plates made of plastic net structures, and a feeding port is connected to the side surface of each fan-shaped culture plate.

Preferably, the feeding pipes connected to each sector-shaped cultivation disc are communicated to the same feeding pipe at the top, and the feeding pipe at the top is also connected to an oxygen pump.

Compared with the prior art, the utility model has the advantages of it is following:

1. adopt circular design to intake through the water inlet on the lateral wall, promote the interior breed water of urceolus and slowly rotate, because the effect of centripetal force, the filth is rotatory and is concentrated in urceolus bottom cone along with rivers, and the dirt valve of straining is convenient for clean.

2. The multi-layer cultivation and feeding structure is adopted, so that more shrimps can be cultivated in a unit water area.

3. Oxygen can be filled in the feeding process, and the dispersed feeding ports are more and are uniformly distributed in the water body, so that the oxygen filling speed is low, the dissolution is more sufficient, and the feed cannot be blown away.

Drawings

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

Fig. 2 is a front view of the present invention.

Fig. 3 is a schematic view of the shrimp building of the present invention.

Fig. 4 is a front view of the shrimp building of the present invention.

Wherein the reference numbers are as follows:

1-water inlet pipe; 2-a sewage draining pipe; 3-a feeding pipe; 4-outer cylinder; 5-a bracket; 6-a feeding port; 7-sector culture dish.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Examples

The utility model provides a intensive shrimp farming equipment is thrown to multilayer, includes urceolus 4, urceolus 4 is cylindrical, and its bottom is established to the toper, is equipped with at the toper bottom and strains dirty valve, strains dirty valve and can have artifical manual cleaning. Strain dirty valve and be connected to blow off pipe 2, be connected with inlet tube 1 on urceolus 4, inlet tube 1 locates urceolus 4 sides, and its pipeline internal diameter central line is tangent with 4 internal diameters of outer urceolus, and through such design, when injecting into the circulating water through inlet tube 1, the rivers direction is put down around 4 internal diameter circles of urceolus and is flowed along 4 internal diameters of urceolus, makes the water in whole urceolus 4 slowly rotate in urceolus 4 like this. Due to the action of centripetal force of liquid in the bucket, excrement positioned on the cone slowly approaches to the middle of the cone. When the equipment needs to be cleaned, dirt in the cultivation equipment can be collected more easily.

In the embodiment, referring to fig. 3, the shrimp building is composed of three layers of circular culture plates, the distance between each layer of culture plates is 5-10cm, and the shrimp building can be adjusted according to the body type of the cultured shrimps. The circular culture plate is composed of a plurality of fan-shaped culture plates 7, wherein the fan-shaped culture plates 7 are slightly inclined towards the middle part, and are culture plates made of plastic net structures, so that excrement can flow conveniently. Each sector-shaped cultivation disk 7 is connected with a feeding port 6.

Each feeding port 6 is connected to a feeding pipe 3 and to the same feeding pipe 3 at the top of the apparatus. The top feeding pipe 3 is connected to the feed pump and the oxygen pump through a tee joint. Thus, oxygen and feed are mixed in the feeding pipe 3 and are evenly fed to each fan-shaped culture disc 3 through the feeding pipe 3. Due to the foraging property of the shrimps in the culture process, the shrimps also move to the position where food is positioned. Due to this property, the shrimp will be evenly distributed over the fan shaped cultivation plates 7 of each layer and start to eat, and will stay in place after the end of their eating. Because the feed inlet 6 is connected with the oxygen pump, the dispersed feed inlets 6 are more and are uniformly distributed in the water body, so that the speed of oxygen filling into the water body is low, the oxygen is dissolved more fully, and the feed cannot be blown away.

The use principle is as follows: adding the circulating water through the water inlet 1, the circulating water is circular flow in the equipment to in concentrating on the cone bottom dirt filtering valve with the filth, through feeding pipe 3 and dog-house 6, evenly dissolve oxygen in the water, and evenly put in fodder to each layer evenly distributed's fan-shaped breed dish 7, utilize the foraging nature of shrimp to make the shrimp in the whole equipment evenly distributed on each fan-shaped breed board 7.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (4)

1. The utility model provides a intensive shrimp farming equipment is fed to multilayer, includes urceolus (4), its characterized in that: urceolus (4) are cylindrical, and establish to the toper in its bottom, are equipped with in the toper bottom and strain dirty valve, strain dirty valve and be connected to blow off pipe (2), are connected with inlet tube (1) on urceolus (4), and urceolus (4) inside is fixed with the shrimp building, the shrimp building comprises the circular breed board of multilayer, and the distance is 5-10cm between each layer of breed board, the shrimp building is fixed in urceolus (4) bottom through support (5), all is equipped with dog-house (6) on each layer of breed board, dog-house (6) are connected to dog-house (3), and dog-house (3) are connected to the feed pump.

2. A multi-deck fed dense shrimp farming plant according to claim 1, wherein: the water inlet pipe (1) is arranged on the side surface of the outer barrel (4), and the central line of the inner diameter of the pipeline of the water inlet pipe is tangent to the inner diameter of the outer barrel (4).

3. A multi-deck fed dense shrimp farming plant according to claim 2, wherein: the circular breeding plate is composed of a plurality of fan-shaped breeding disks (7), the fan-shaped breeding disks (7) are made of plastic net structures, and a feeding port (6) is connected to the outer side of each fan-shaped breeding disk (7).

4. A multi-layered feeding dense shrimp farming plant according to claim 3, characterized in that: feeding pipes (3) connected to each sector-shaped cultivation tray (7) are all communicated to the same feeding pipe (3) at the top, and the feeding pipe (3) at the top is also connected to an oxygen pump.

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