CN105831013A - Nanometer air inflation device used for incubation of Eubranchipus vernalis eggs - Google Patents

Abstract

The invention belongs to the field of aquaculture, and discloses a nanometer air inflation device used for incubation of Eubranchipus vernalis eggs. The device is characterized by comprising a PVC pipe (1), a reducing tee (2), a nanotube (3), a cylindrical sand head (4) and a hose (5), wherein the upper opening of the reducing tee (2) is connected with and arranged on the PVC pipe (1); the nanotube (3) is connected with the left opening and the right opening of the reducing tee (2) so as to form a ring shape; and the air inlet of the cylindrical sand head (4) is connected with the hose. The invention provides the nanometer air inflation device capable of improving the incubation rate of Eubranchipus vernalis eggs and reducing pollution risk brought by death of Eubranchipus vernalis eggs, so the use cost of Eubranchipus vernalis eggs is decreased, and incubation efficiency is improved. The nanometer air inflation device provided by the invention has the advantages of reasonable design, convenience and practicability.

Description

A kind of nanometer aerating device for brine shrimp eggs hatching

Technical field

The invention belongs to technical field of aquaculture, be specifically related to a kind of nanometer for brine shrimp eggs hatching and fill Device of air.

Background technology

Fairy shrimp is also artemia, and full name is fairy shrimp (Eubranchipus vernalis) saline shrimps, and it is one Planting worldwide widely distributed halophilic microcrustacean, survivable temperature range is 6-35 DEG C, salinity Scope is 50 ‰-250 ‰, as a kind of important food organisms, is constantly subjected to the attention widely of people. Culture fishery, particularly seedling raising process are very big to the demand of fairy shrimp, because fairy shrimp cultured output The highest, the price of brine shrimp eggs remains high always, and user buy hatch voluntarily after brine shrimp eggs into Row is thrown something and fed.

Brine shrimp eggs hatching is mainly affected by following factor: salinity, temperature, dissolved oxygen, pH and light intensity. In these factors, some is the most up to standard, all can affect incubation rate.The most universal brine shrimp eggs hatching is for improving Hatching efficiency, uses high density hatching, uses the inflation of cylinder sand head, at hatching later stage (12-24h) water body Dissolved oxygen is gradually reduced, and hatches required dissolved oxygen to less than brine shrimp eggs, and the current rolling of cylinder sand head inflation is little, Cannot form effective water circulating ring, major part ovum cannot release the illumination of the water surface in bottom of the barrel, so that cannot Hatching, causes brine shrimp eggs incubation rate low, reduces hatching efficiency and hatching output, indirectly improve cost； And after the brine shrimp eggs that cannot hatch becomes dead ovum, bring cultivating pool into, cause pathogen contamination.

Summary of the invention

It is an object of the invention to consider that the problems referred to above provide one can improve brine shrimp eggs incubation rate, reduce The pollution risk that brine shrimp eggs death brings, thus reduce brine shrimp eggs use cost, improve hatching efficiency Nanometer aerating device.The present invention is reasonable in design, convenient and practical.

The technical scheme is that the nanometer aerating device for brine shrimp eggs hatching of the present invention, including Pvc pipe, reducer tee, nanotube, cylinder sand head, flexible pipe, wherein reducer tee is suitable for reading is connected to PVC Guan Shang, it is ring-type with right interruption-forming that nanotube is connected to reducer tee Zuo Kou, the air inlet of cylinder sand head and flexible pipe Connect, be placed in the bottom centre of hatching barrel.

It is ring-type with right interruption-forming that above-mentioned nanotube is connected to reducer tee Zuo Kou.

The ring-type of above-mentioned nanotube formation is circular, a diameter of 17.5cm.

Distance bottom above-mentioned nanotube, with brine shrimp eggs hatching barrel is 17cm.

Above-mentioned cylinder sand head is placed in brine shrimp eggs hatching barrel bottom centre.

The present invention compared with prior art, has the advantage that (1) uses nanotube oxygen supplement, can effectively carry During the hatching of high brine shrimp eggs, the dissolved oxygen of water body, improves incubation rate.(2) nanotube of annular is used, and with rich The distance of year egg hatch bottom of the barrel is 17cm, can be effectively formed the rotation of current and flow up and down during inflation, Water body dissolved oxygen is uniform, makes brine shrimp eggs can accept illumination along with water movement to the water surface simultaneously, improves incubation rate. (3) cylinder sand head is placed in brine shrimp eggs hatching barrel bottom centre, can prevent and treat brine shrimp eggs and assemble in bottom centre Cannot stir, thus improve overall incubation rate.The present invention is that a kind of design is ingenious, and function admirable is convenient real For brine shrimp eggs hatching nanometer aerating device.

Accompanying drawing explanation

Fig. 1 is the structural representation of the present invention；

Fig. 2 is the mounting structure figure of apparatus of the present invention and brine shrimp eggs hatching barrel；

Fig. 3 is the mounting structure of existing aerating device and brine shrimp eggs hatching barrel.

Detailed description of the invention

Embodiment:

The structural representation of the present invention as shown in Figure 1, 2, fill by the nanometer for brine shrimp eggs hatching of the present invention Device of air, includes pvc pipe 1, reducer tee 2, nanotube 3, husky 4, cylinder, flexible pipe 5, wherein Reducer tee 2 is suitable for reading to be connected on pvc pipe 1, and reducer tee 2 Zuo Kou is connected with nanotube 3 with right mouth, The air inlet that cylinder is husky 4 is connected with flexible pipe 5.

In the present embodiment, the above-mentioned nanometer aerating device for brine shrimp eggs hatching, it is characterised in that above-mentioned It is ring-type with right interruption-forming that nanotube 3 is connected to reducer tee 2 Zuo Kou.

In the present embodiment, the above-mentioned nanometer aerating device for brine shrimp eggs hatching, it is characterised in that nanometer It is ring-type that pipe 3 is formed, and ring-type is circular, a diameter of 17.5cm.

In the present embodiment, the above-mentioned nanometer aerating device for brine shrimp eggs hatching, it is characterised in that nanometer It is ring-type that pipe 3 is formed, and is 17cm with the distance of drum head.

In the present embodiment, the above-mentioned nanometer aerating device for brine shrimp eggs hatching, it is characterised in that above-mentioned Husky 4, cylinder is placed in drum head center.

The present invention, for the aerating device of brine shrimp eggs hatching, promotes incubation rate clearly, inflation dress originally The dissolved oxygen putting raising is little, has arrived brine shrimp eggs hatching mid-term and later stage, and dissolved oxygen drastically declines, and arrives 2mg/L-2.5mg/L, it is difficult to ensure the dissolved oxygen numerical value needed for egg hatch, and simple employing cylinder sand head inflation, Current cannot be made to form effective circulating ring, it is difficult to allow water flow rotary and rolling up and down, part worm's ovum cannot be with Water flow to water body and shows to accept illumination, and cannot hatch death, reduces polluted-water while incubation rate, makes Feeding time is become to connect harm cultivated animals.And use nanotube aerating device, not only increase the quantity of inflation, Inflatable bladder is the least, improves dissolved oxygen numerical value obvious, still keeps water body height dissolved oxygen to the hatching later stage, with Time annular nanotube, and bottom centre place cylinder sand head, the rotation of current can be effectively formed during inflation Turning and flow up and down, water body dissolved oxygen is uniform, makes brine shrimp eggs can accept light along with water movement to the water surface simultaneously According to, improve incubation rate, reduce production cost.

Embodiment of the present invention includes but not limited to above-mentioned.

Claims (5)

1. the nanometer aerating device for brine shrimp eggs hatching, it is characterised in that: include pvc pipe (1), reducer tee (2), nanotube (3), cylinder sand head (4), flexible pipe (5), wherein reducer tee (2) suitable for reading being connected on pvc pipe (1), nanotube (3) is connected to reducer tee (2) Zuo Kou with right Interruption-forming is ring-type, and the air inlet of cylinder sand head (4) is with hose connection.

Nanometer aerating device for brine shrimp eggs hatching the most according to claim 1, it is characterised in that It is ring-type with right interruption-forming that above-mentioned nanotube (3) is connected to reducer tee (2) Zuo Kou.

Nanometer aerating device for brine shrimp eggs hatching the most according to claim 1, it is characterised in that It is ring-type that nanotube (3) is formed, and ring-type is circular, a diameter of 17.5cm.

Nanometer aerating device for brine shrimp eggs hatching the most according to claim 1, it is characterised in that It is ring-type that nanotube (3) is formed, and is 17cm with the distance bottom brine shrimp eggs hatching barrel.

Nanometer aerating device for brine shrimp eggs hatching the most according to claim 1, it is characterised in that Above-mentioned cylinder sand head (4) is placed in brine shrimp eggs hatching barrel bottom centre.