CN214482879U

CN214482879U - Fairy shrimp shelling device

Info

Publication number: CN214482879U
Application number: CN202120167042.XU
Authority: CN
Inventors: 曾超海; 陈鑫; 黎启明; 蔡卓东; 陈妃业; 刘象; 戴小连
Original assignee: Zhanjiang Haiyi Aquatic Seed And Seedling Co ltd; Hainan Haiyi Aquatic Product Seedling Co ltd
Current assignee: Zhanjiang Haiyi Aquatic Seed And Seedling Co ltd; Hainan Haiyi Aquatic Product Seedling Co ltd
Priority date: 2021-01-21
Filing date: 2021-01-21
Publication date: 2021-10-26
Anticipated expiration: 2031-01-21

Abstract

The utility model relates to a fairy shrimp sheller, be applied to fairy shrimp shelling process, it includes sheller body and shelling bucket, the sheller body is detachable to be installed in the shelling bucket, the sheller body comprises five-way, standpipe, violently pipe, nanometer coil pipe and nanotube, be connected with the standpipe on the interface that five lead to, be connected with violently the pipe on four horizontal interfaces of five-way, four violently pipes form a square chassis, it has a plurality of nanometer coil pipes to coil on the chassis, one side of standpipe is fixed with the nanotube; the utility model discloses a it has many rings of nanometer coil pipes to wind on the chassis, and intensive nanometer coil pipe circle produces sufficient bubble, can make whole water present the boiling form to reach the rolling effect of water, make shelling liquid and worm's ovum fully contact, thereby reach fine shelling effect.

Description

Fairy shrimp shelling device

Technical Field

The utility model belongs to the field of the incubation of the fairy shrimp of aquatic breeding, specifically be a fairy shrimp shelling device.

Background

The brine shrimp is a small crustacean which is widely distributed in the world and is high-salt resistant, is one of the most extreme environments in the world, has strong stress resistance, can survive in environments with high salinity, strong alkalinity, strong ultraviolet rays, drought, low oxygen content, large temperature fluctuation and the like, has thick shell for resting eggs, can endure severe environmental conditions, and can not be directly incubated in water generally. Certain activation conditions are needed and under proper conditions, the nauplii can be hatched. The nauplii have a large amount of yolk and are rich in protein and fat (about 60% in protein and about 20% in fat), and their adults also have a high content of nutrients, so that the artemia are excellent feeds for the larvae and adults of aquatic animals such as fish, shrimp and crab.

The fairy shrimp generally has two hatching modes, the first mode is hatching without shelling, the hatching mode has the advantages that the operation is simple and convenient, only the worm eggs need to be simply activated, then the worm eggs are put into seawater with proper salinity and temperature, and the incubation can be carried out by providing proper illumination; the defects are obvious, 1, as the living conditions of the fairy shrimp are severe, more pathogens are carried on the surface of the fairy shrimp, the fairy shrimp directly hatched has higher vibrio content, and the fairy shrimp hatched without shelling needs to consume a large amount of energy in the hatching process, and is not beneficial to the intake of the next nutrition level from the perspective of biological energy transfer; 2. the shell of the fairy shrimp cannot be digested by fishes and shrimps, so the feeding pool is not allowed to input the fairy shrimp shell or dead eggs. The second is shelling incubation, which is a tedious process, but the step of shell separation can be omitted for the hatched insects, and the shelled eggs are incubated to retain a large amount of energy, the bodies of the insects are often rich, all the shells can be removed for general shelling incubation, and after shelling, the pathogenic bacteria on the surfaces of the eggs can be separated, and the vibrio content in the incubation process can be correspondingly reduced.

The key of the height of shelling hatching rate lies in the shelling effect, and the good or bad determinant factor of shelling effect is mainly by the control of shelling time, the proportion of preparing of shelling liquid, and whether shelling liquid is abundant with the contact of worm's ovum, the utility model discloses can be through abundant aeration at the shelling in-process to make shelling liquid and worm's ovum fully contact, further guarantee the shelling effect.

Disclosure of Invention

The utility model provides a be not enough to prior art, the utility model provides a fairy shrimp peeling apparatus can make shelling liquid and worm's ovum fully contact when the fairy shrimp shelling to promote shelling effect.

The technical scheme of the utility model is that: the utility model provides a fairy shrimp shelling device which characterized in that: the shelling device comprises a shelling device body and a shelling barrel, wherein the shelling device body is detachably mounted in the shelling barrel and comprises a five-way joint, a vertical pipe, a horizontal pipe, nanometer coil pipes and nanometer tubes, the vertical pipe is connected to a joint of the five-way joint, the horizontal pipes are connected to four transverse joints of the five-way joint, the four horizontal pipes form a square base plate, the nanometer coil pipes are wound on the base plate, and the nanometer tubes are fixed to one side of the vertical pipe.

Furthermore, a drain pipe is arranged at the bottom of the shelling barrel, and a switch valve is mounted on the drain pipe.

Furthermore, each circle of the nanometer coil pipe is independently connected with an air pipe, and the air pipe is connected with an external air supply mechanism to ensure that the air pumping is enough.

Further, the nano coil pipe and the nano tube are both microporous nano tubes.

The utility model has the advantages that: the utility model discloses a it has many rings of nanometer coil pipes to wind on the chassis, and intensive nanometer coil pipe circle produces sufficient bubble, can make whole water present the boiling form to reach the rolling effect of water, make shelling liquid and worm's ovum fully contact, thereby reach fine shelling effect.

Drawings

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

fig. 2 is a schematic structural diagram of a hulling device body.

In the figure, 1, a hulling device body; 2. a shelling barrel; 3. a drain pipe; 4. an on-off valve; 11. five-way connection; 12. a vertical tube; 13. A transverse tube; 14. a nano-coil; 15. a nanotube.

Detailed Description

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings:

as shown in fig. 1 and 2, the artemia sheller is characterized in that: the hulling device comprises a hulling device body 1 and a hulling barrel 2, wherein the hulling device body 1 is detachably arranged in the hulling barrel 2, the hulling device body 1 is composed of a five-way joint 11, a vertical pipe 12, a transverse pipe 13, a nano coil pipe 14 and a nano pipe 15, the vertical pipe 12 is connected to a joint of the five-way joint 11, the transverse pipes 13 are connected to four transverse joints of the five-way joint 11, the four transverse pipes 13 form a square base plate, the nano coil pipes 14 are wound on the base plate, and the nano pipe 15 is fixed to one side of the vertical pipe 12. The nano coil pipe 14 is circularly wound on the base plate, and the nano coil pipe 14 is wound on the base plate for a plurality of circles, so that the liquid in the shelling barrel 2 can fully roll, the shelling liquid is fully contacted with the worm eggs, and a better shelling effect is achieved; the vertical pipe 12 and the horizontal pipe 13 are both made of PVC25 pipes; the nanotube 15 is connected with the air pipe, the height of the nanotube 15 is 10-20cm lower than the water level of shelling, if the nanotube 15 is exposed out of the water surface, the aeration effect is worse when the nanotube 15 is aerated to the bottom, and the aim of stirring the water body can not be achieved.

The bottom of the shelling barrel 2 is provided with a drain pipe 3, and a switch valve 4 is installed on the drain pipe 3. The switch valve 4 is a flow switch valve which can control the flow of drained water, and in shelling and hatching, the control of shelling time is an important ring, so that the drain pipe 3 at the bottom of the shelling barrel 2 is large enough to quickly collect worm eggs, and the damage of partial worm eggs caused by too long shelling time is avoided.

Each circle the nanometer coil pipe 14 all connects an trachea alone, the trachea is connected with outside air feed mechanism, and air feed mechanism specifically is the air pump to guarantee to inflate enough.

The nano-coil 14 and the nano-tube 15 are both microporous nano-tubes.

The utility model discloses a theory of operation:

when shelling is carried out, the nano coil pipe fixed on the chassis is inflated, and sufficient bubbles are generated through the dense nano coil pipe rings, so that the shelling liquid is fully stirred to achieve the effect of water rolling, the shelling liquid is fully contacted with insect eggs, and a good shelling effect is achieved.

The foregoing embodiments and description have been provided to illustrate the principles and preferred embodiments of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed.

Claims

1. The utility model provides a fairy shrimp shelling device which characterized in that: the shelling device comprises a shelling device body (1) and a shelling barrel (2), wherein the shelling device body (1) is detachably mounted in the shelling barrel (2), the shelling device body (1) is composed of a five-way joint (11), a vertical pipe (12), a transverse pipe (13), a nano coil pipe (14) and a nano pipe (15), the vertical pipe (12) is connected to an upward connector of the five-way joint (11), the transverse pipes (13) are connected to four transverse connectors of the five-way joint (11), the four transverse pipes (13) form a square base plate, the base plate is wound with the nano coil pipes (14), and the nano pipe (15) is fixed to one side of the vertical pipe (12).

2. The artemia hulling device of claim 1, wherein: the bottom of the shelling barrel (2) is provided with a drain pipe (3), and the drain pipe (3) is provided with a switch valve (4).

3. The artemia hulling device of claim 2, wherein: and each circle of the nanometer coil pipe (14) is independently connected with an air pipe, and the air pipe is connected with an external air supply mechanism.

4. The artemia hulling device of claim 3, wherein: the nano coil pipe (14) and the nano tube (15) are both microporous nano tubes.