CN106719195B

CN106719195B - Indoor circulation incubator of copepods

Info

Publication number: CN106719195B
Application number: CN201611104795.6A
Authority: CN
Inventors: 周超
Original assignee: Zhejiang Ocean University ZJOU
Current assignee: Zhejiang Ocean University ZJOU
Priority date: 2016-12-05
Filing date: 2016-12-05
Publication date: 2020-11-10
Anticipated expiration: 2036-12-05
Also published as: CN106719195A

Abstract

The invention provides an indoor circulating incubator for copepods, which comprises an incubator and an inflator pump, wherein the incubator is provided with a constant temperature rod, a salinity meter and the inflator pump, the constant temperature rod is connected with the top of the incubator through a connecting plate, the constant temperature rod is arranged in the incubator, the salinity meter is connected with the top of the incubator through the connecting plate, the salinity meter is arranged in the incubator, the inflator pump is arranged on the side surface of the incubator, the bottom of the incubator is provided with an inclined plane platform, a filter screen is arranged above the inclined plane platform, the top of the incubator is provided with a feeding device, the back of the incubator is provided with a lamp tube, and the bottom of the side surface of the incubator is provided. The incubator is printing opacity rubber glass incubator, and the incubator top is connected with prevents escaping the board, and the filter screen aperture is 100~155 um. The inclined platform and the bottom surface of the incubator form an included angle of 10-45 degrees. The invention realizes the stable, efficient and healthy culture of the copepods by accurately regulating and controlling the culture conditions of the copepods and separating adults, larvae and eggs.

Description

Indoor circulation incubator of copepods

Technical Field

The invention belongs to the field of indoor culture devices, and particularly relates to an indoor circulating incubator for copepods.

Background

The ocean copepods are in the second level of the ocean food chain, the ecological niches of the ocean copepods enable the ocean copepods to have important biological research values, and meanwhile, the ocean copepods are used as initial feeding materials for fish and shrimp fries to enable the ocean copepods to become a new popular research direction for researchers. Because the copepods are fragile, short in life cycle and easy to die, how to establish a high-efficiency, healthy and stable circulating culture system becomes the problem which is mainly solved by copepods research, and the invention of the copepods circulating culture device is the problem which is mainly solved.

The invention discloses an indoor culture device for copepoda population, which comprises an incubator, wherein the lower part of the incubator is connected with a water quality regulating box, a return pipe is arranged on the outer wall of the incubator, the upper end of the return pipe is connected with the upper part of the incubator, the lower end of the return pipe is arranged in the water quality regulating box, a pump is arranged in the water quality regulating box and is connected with the incubator through a water pipe, the water pipe is connected with one end of a fallopian tube, the other end of the fallopian tube is arranged outside the water quality regulating box, the top of the incubator is open, and a drain pipe is arranged at the bottom of the water quality regulating box. The device can realize the purpose of mass indoor propagation of copepods, so that the indoor culture method of copepods is simple, low in cost, high in efficiency and the like, but the device is complex in structure and is not easy to observe the culture process.

Disclosure of Invention

Aiming at the technical problems, the invention provides an indoor circulating culture device for copepods, which can monitor salinity, observe culture process, has simple structure device, high temperature resistance of an incubator and stable algae phase.

The scheme adopted by the invention aiming at the technical problems is as follows: the utility model provides an indoor circulation incubator of copepoda, including incubator 2, inflator pump 9, incubator 2 is equipped with the homoeothermic rod 5, the salinity meter 6, inflator pump 9, homoeothermic rod 5 is connected with 2 tops of incubator through the connecting plate, homoeothermic rod 5 is settled in incubator 2, salinity meter 6 passes through the connecting plate and is connected with 2 tops of incubator, salinity meter 6 is settled in incubator 2, inflator pump 9 is settled in 2 sides of incubator, 2 bottoms of incubator are equipped with

inclined plane platform

4, 4 tops of inclined plane platform are equipped with

filter screen

3, 2 tops of incubator are equipped with

feeding device

1, 2 backs of incubator are equipped with

fluorescent tube

7, 2 sides of incubator bottom is equipped with drainage collecting pipe 8.

The incubator 2 is a transparent rubber glass incubator, so that the culture condition can be clearly observed, and the rubber glass incubator has excellent corrosion resistance and long service life.

The top of the incubator 2 is connected with an escape-proof plate, the width of the escape-proof plate is larger than the wall thickness of the incubator 2, so that the cultured objects are not easy to climb out of the incubator 2, and the escape-proof performance of the incubator 2 is enhanced.

The aperture of the filter screen 3 is 100-155 um, so that eggs which fall off from the cultivated objects can enter the bottom of the box through the filter screen 3, separation of adults, eggs and larvae is realized, and the phenomenon of self-killing is avoided.

The inclined platform 4 and the bottom surface of the incubator 2 form an included angle of 10-45 degrees, and eggs and excrement which are discharged by adults slide and are gathered near the drainage and collection pipe 8 by utilizing the inclined surface and the attraction force.

The incubator 2 is rectangular, and the inner wall of the incubator 2 is provided with a heat-resistant coating which comprises the following components in parts by weight: 30-50 parts of acrylic acid modified organic silicon resin, 0.005-0.015 part of 2-methoxyphenol, 15-20 parts of low-viscosity high chlorinated polyethylene resin, 5-10 parts of nano titanium dioxide, 0.03-0.05 part of isoleucine, 2-3 parts of nano zinc oxide, 20-30 parts of butyl acetate, 2-5 parts of n-butyl alcohol and 2-5 parts of cyclohexanone. The influence of the temperature of the lamp tube on the culture in the incubator is avoided.

The inner wall of the incubator 2 is provided with circular convex points, the filter screen 3 is connected with the circular convex points or the filter screen 3 is glued with the inner wall of the incubator 2, so that the filter screen is arranged in the incubator 2 and cannot slide to the bottom of the incubator 2.

The inclined platform 4 is a rubber inclined platform which comprises the following components in parts by weight: 90-110 parts of chloroprene rubber, 1.5-3 parts of stearic acid, 0.01-0.03 part of sodium glutamate, 3-6 parts of resin, 1-2 parts of processing aid, 15-30 parts of semi-reinforcing carbon black, 0.005-0.01 part of dithiothreitol, 30-45 parts of thermal cracking carbon black, 20-40 parts of talcum powder, 0.002-0.01 part of 3-aminophthalic hydrazine, 8-15 parts of trillium oil, 15-25 parts of lead oxide and 0.5-2 parts of accelerator DM. Eggs and excrement discharged by the adult cultured objects can slide to the position near the drainage and collection pipe 8, and the rubber inclined platform has good corrosion resistance and compact surface, is beneficial to algae phase stabilization and has long service life.

Has the advantages that: the feeding device can simply and effectively realize bait feeding, the inflating pump and the constant temperature rod can keep the culture condition in a proper range, the oxygen content and the temperature control of the culture water body are ensured, the inclined platform can effectively gather eggs and excrement to the vicinity of the drainage and collection pipe, the filter screen can separate the adults, the eggs and the larvae, the phenomenon of self-killing is avoided, the culture condition can be observed through the culture box, and the adults, the larvae and the eggs are separated by accurately regulating and controlling the culture condition of the copepoda, so that the stable, efficient and healthy culture of the copepoda is realized.

Drawings

FIG. 1 is a schematic structural view of an indoor circulating incubator for copepods according to the present invention;

FIG. 2 is a front view of an indoor circulation incubator for copepods according to the present invention;

FIG. 3 is a top view of an indoor circulation incubator for copepods according to the present invention.

Description of reference numerals: 1 feeding device; 2, an incubator; 3, filtering by using a filter screen; 4, a slope platform; 5, a constant temperature rod; 6, a salinity meter; 7, a lamp tube; 8, a drain collecting pipe; 9 an inflator pump.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

The following is described in further detail with reference to the accompanying drawings and examples:

example 1:

as shown in fig. 1-3, an indoor circulation incubator of copepoda, including incubator 2, inflator pump 9, incubator 2 is equipped with the homoeothermic stick 5, the salinity meter 6, inflator pump 9, homoeothermic stick 5 is connected with 2 tops of incubator through the connecting plate, homoeothermic stick 5 is settled in incubator 2, the salinity meter 6 passes through the connecting plate and is connected with 2 tops of incubator, the salinity meter 6 is settled in incubator 2, inflator pump 9 is settled in incubator 2 side, incubator 2 bottom is equipped with inclined plane platform 4, inclined plane platform 4 top is equipped with filter screen 3, incubator 2 tops are equipped with feeding device 1, incubator 2 backs are equipped with fluorescent tube 7, incubator 2 side bottom is equipped with drainage collecting pipe 8.

The inclined platform 4 is a rubber inclined platform which comprises the following components in parts by weight: 90-110 parts of chloroprene rubber, 1.5-3 parts of stearic acid, 0.01-0.03 part of sodium glutamate, 3-6 parts of resin, 1-2 parts of processing aid, 15-30 parts of semi-reinforcing carbon black, 0.005-0.01 part of dithiothreitol, 30-45 parts of thermal cracking carbon black, 20-40 parts of talcum powder, 0.002-0.01 part of 3-aminophthalic hydrazine, 8-15 parts of trillium oil, 15-25 parts of lead oxide and 0.5-2 parts of accelerator DM. Eggs and excrement discharged by the cultured adult can slide to the position near the drainage and collection pipe 8, and the rubber inclined platform has good corrosion resistance and long service life.

Example 2:

as shown in fig. 1-3, an indoor circulation incubator of copepoda, incubator 2 is equipped with homoeothermic rod 5, the salinity meter 6, inflator pump 9, homoeothermic rod 5 passes through the connecting plate to be connected with 2 tops of incubator, homoeothermic rod 5 is settled in incubator 2, salinity meter 6 passes through the connecting plate to be connected with 2 tops of incubator, salinity meter 6 is settled in incubator 2, inflator pump 9 is settled in incubator 2 side, incubator 2 bottom is equipped with inclined plane platform 4, inclined plane platform 4 top is equipped with filter screen 3, incubator 2 tops are equipped with feeding device 1, incubator 2 backs are equipped with fluorescent tube 7, incubator 2 side bottoms are equipped with drainage collecting pipe 8.

The aperture of the filter screen 3 is preferably 120um, so that the dropped eggs produced by the cultured objects enter the box bottom through the filter screen 3, the separation of adults, eggs and larvae is realized, and the phenomenon of self-killing is avoided.

The inclined platform 4 and the bottom surface of the culture box 2 form an angle of preferably 30 degrees, and eggs and excrement which are removed by adults slide and are gathered near the drainage and collection pipe 8 by utilizing an inclined surface and attraction force.

The incubator 2 is rectangular, and the inner wall of the incubator 2 is provided with a heat-resistant coating which comprises the following components in parts by weight: 40 parts of acrylic acid modified organic silicon resin, 0.012 part of 2-methoxyphenol, 17 parts of low-viscosity high-chlorinated polyethylene resin, 8 parts of nano titanium dioxide, 0.038 part of isoleucine, 2.8 parts of nano zinc oxide, 25 parts of butyl acetate, 4 parts of n-butanol and 3 parts of cyclohexanone. The influence of the temperature of the lamp tube on the culture in the incubator is avoided.

The inclined platform 4 is a rubber inclined platform which comprises the following components in parts by weight: 100 parts of chloroprene rubber, 2 parts of stearic acid, 0.018 part of sodium glutamate, 4 parts of resin, 1.5 parts of processing aid, 18 parts of semi-reinforcing carbon black, 0.008 part of dithiothreitol, 39 parts of thermal cracking carbon black, 27 parts of talcum powder, 0.008 part of 3-aminophthalic hydrazine, 11 parts of trilinear oil, 20 parts of lead oxide and 1.2 parts of accelerator DM. Eggs and excrement discharged by the cultured adult can slide to the position near the drainage and collection pipe 8, and the rubber inclined platform has good corrosion resistance and long service life. The processing aid is a dispersing agent or a homogenizing agent or a tackifier.

Example 3:

as shown in figures 1-3, a feeding device 1 is positioned at the upper corner of an incubator 2, the flow rate of algae liquid bait is controlled by a valve to ensure the food supply amount (the bait density is 300 mu gC/L) of copepods every day, an inflator pump 9 and a constant-temperature heating rod 5 are arranged in the incubator 2 to ensure the oxygen content and the temperature control (20-25 ℃) of a culture water body, a lamp tube 7 ensures the illumination supply (the illumination period is 12L: 12D) of a culture system, and a salinity meter 6 monitors the salinity (20-30 permillage) fluctuation condition of the culture system in real time; the filter screen 3 (aperture 100~155 um) in the middle part of the box makes the ovum that the adult output drops pass through the filter screen 3 and get into the bottom of the case to realize the separation of adult, ovum and larva, the emergence inclined plane platform 4 that has avoided the phenomenon of killing mutually makes the ovum and the excrement and urine landing that the adult got rid of gather to drainage collecting pipe 8, drainage collecting pipe 8 is equipped with the stop valve, through proper amount drainage realize the collection of ovum, larva and the clear away of excrement and urine, the quality of water in the culture system has fully been guaranteed, the ovum of collecting can be used to establish new culture system or directly be used for scientific research.

The embodiments described above are intended to illustrate the technical solutions of the present invention in detail, and it should be understood that the above-mentioned embodiments are only specific embodiments of the present invention, and are not intended to limit the present invention, and any modification, supplement or similar substitution made within the scope of the principles of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides an indoor circulation incubator of copepod, includes incubator (2), pump (9), its characterized in that: the incubator (2) is provided with a constant temperature rod (5), a salinity meter (6) and an inflator pump (9), the constant temperature rod (5) is connected with the top of the incubator (2) through a connecting plate, the constant temperature rod (5) is arranged in the incubator (2), the salinity meter (6) is connected with the top of the incubator (2) through a connecting plate, the salinity meter (6) is arranged in the incubator (2), the inflator pump (9) is arranged on the side face of the incubator (2), an inclined plane platform (4) is arranged at the bottom of the incubator (2), a filter screen (3) is arranged above the inclined plane platform (4), a feeding device (1) is arranged at the top of the incubator (2), a lamp tube (7) is arranged at the back face of the incubator (2), and a drainage and collection tube (8) is arranged at the bottom of the side face of the incubator (2);

the incubator (2) is rectangular, and the inner wall of the incubator (2) is provided with a heat-resistant coating which comprises the following components in parts by weight: 30-50 parts of acrylic acid modified organic silicon resin, 0.005-0.015 part of 2-methoxyphenol, 15-20 parts of low-viscosity high chlorinated polyethylene resin, 5-10 parts of nano titanium dioxide, 0.03-0.05 part of isoleucine, 2-3 parts of nano zinc oxide, 20-30 parts of butyl acetate, 2-5 parts of n-butyl alcohol and 2-5 parts of cyclohexanone;

the inner wall of the incubator (2) is provided with circular convex points, and the filter screen (3) is connected with the circular convex points or the filter screen (3) is glued with the inner wall of the incubator (2);

the inclined plane platform (4) is a rubber inclined plane platform, and the rubber inclined plane platform comprises the following components in parts by weight: 90-110 parts of chloroprene rubber, 1.5-3 parts of stearic acid, 0.01-0.03 part of sodium glutamate, 3-6 parts of resin, 1-2 parts of processing aid, 15-30 parts of semi-reinforcing carbon black, 0.005-0.01 part of dithiothreitol, 30-45 parts of thermal cracking carbon black, 20-40 parts of talcum powder, 0.002-0.01 part of 3-aminophthalic hydrazine, 8-15 parts of trillium oil, 15-25 parts of lead oxide and 0.5-2 parts of accelerator DM;

the incubator (2) is a light-transmitting rubber glass incubator;

the top of the incubator (2) is connected with an escape-proof plate;

the aperture of the filter screen (3) is 100-155 um;

the included angle between the inclined plane platform (4) and the bottom surface of the incubator (2) is 10-45 degrees;

the incubator (2) is rectangular, and the inner wall of the incubator (2) is provided with a heat-resistant coating which comprises the following components in parts by weight: 30-50 parts of acrylic acid modified organic silicon resin, 0.005-0.015 part of 2-methoxyphenol, 15-20 parts of low-viscosity high chlorinated polyethylene resin, 5-10 parts of nano titanium dioxide, 0.03-0.05 part of isoleucine, 2-3 parts of nano zinc oxide, 20-30 parts of butyl acetate, 2-5 parts of n-butyl alcohol and 2-5 parts of cyclohexanone.