CN110574722A - inflatable shellfish larva water changing net cage device and using method thereof - Google Patents

Abstract

The invention provides an inflatable water-changing net cage device used in a shellfish larva cultivation process and a using method thereof. The net cage frame is cylindrical, is made of stainless steel, is divided into an inner frame and an outer frame, has a large diameter, and is mainly used for supporting the whole device; the diameter of the inner frame is small, the bottom end of the inner frame is 5-8cm higher than that of the outer frame, a row of water-hardening pipe fixing rings are respectively welded at the central positions of the upper portion and the lower portion of the inner frame, the lower portion fixing rings are 15-20cm away from the bottom of the inner frame, the water-hardening pipes are located in the fixing rings, one end of the water-changing hose is placed into the water-hardening pipes, and water changing operation is carried out by utilizing a siphon principle. The filter screen is sleeved outside the inner frame, and the upper end of the filter screen is fixed at the upper end of the net cage frame through a rope body on the outer wall of the filter screen. The air charging device is a nano air charging pipe which is respectively fixed on the inner frame and the outer frame, and the length of the nano air charging pipe is respectively the same as the perimeter of the inner frame and the outer frame; the air inlet pipe is connected with the nanometer inflation pipe through a tee joint, the air inlet pipe is fixed on the net cage frame, and an air inlet valve is arranged at the air inlet of the air inlet pipe, so that the use method of the device can save more than 80% of labor cost, and the adhesion rate of larvae on the filter screen is reduced by 70% -90% when water is changed.

Description

Inflatable shellfish larva water changing net cage device and using method thereof

Technical Field

The invention relates to the field of aquaculture, in particular to an inflatable water changing net cage device used in a shellfish larva cultivation process and a using method thereof.

Background

China has a huge seawater shellfish culture industry, shellfish culture is an important member of the seawater culture industry, and the yield of the shellfish culture accounts for 80 percent of the total seawater culture yield of China. Common shellfish such as clams, oysters, scallops, gastropod red snails and the like have delicious taste and rich nutrition and have important economic value. With the continuous development of artificial breeding technology, the efficient industrial seedling raising mode receives more attention.

In the process of raising the shellfish seedlings, daily water change in the early planktonic larva stage is an important task. At present, the traditional mode of breeding a large variety of shellfish offspring seeds in China before 20-30 years is basically used, most of the traditional modes adopt artificial shaking water changing net cages to change water for larva cultivation, as shown in figure 1, one end of a water changing hose is placed into a drainage hard pipe, the other end of the water changing hose is placed at a lower horizontal plane (lower than the lowest water changing horizontal plane of a cultivation pool), and water is sucked out by utilizing the siphon principle. The disadvantages of this method are: utilize siphon to adsorb the shellfish larva on the bolting-silk easily when absorbing water to arouse the death of larva, consequently need the workman constantly to wave the box with a net of changing water, prevent that the larva from adsorbing on the bolting-silk, this cost of labor with regard to greatly increased the growing seedlings, and the workman waves the different clearance of changing the box with a net of water, still has serious larva and adsorbs the phenomenon at the bolting-silk, thereby has increased the mortality of larva.

In view of the problems in the prior art, the invention provides an inflatable water changing net cage device used in a shellfish larva cultivation process and a using method thereof, so as to overcome the defects.

Disclosure of Invention

For the problems in the prior art, the invention aims to provide the inflatable water changing net cage device for the shellfish larva cultivation process, which saves labor and improves the survival rate of the larva, realizes automatic water changing in the larva cultivation process, and solves the problems of high death rate and high labor cost of the larva of the existing shellfish water changing net cage.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

The utility model provides an inflatable trades water box with a net device for shellfish larva process of breeding, its includes box with a net frame, and the box with a net frame includes inside casing and frame, and the inside casing setting is in the frame, and the inside casing bottom is sealed, and the periphery sets up the filter screen cover, and inside casing central authorities run through the inside casing and set up the drainage hard tube, set up the wash port on the drainage hard tube, and it still includes trades the water hose, trades the one end of water hose and puts into the drainage hard tube, and the other end stretches to drainage department, and it still includes aerating device, aerating device fixes on inside casing and frame, and the aerating tube sets up in the bottom of frame and inside casing, and the intake pipe passes through the tee bend and.

Furthermore, the air charging device is a nano air charging pipe, the length of the nano air charging pipe is respectively the same as the perimeter of the inner frame and the outer frame, and the inner frame is crossed.

Furthermore, the diameter of the inner frame is 10cm smaller than that of the outer frame, and the bottom end of the inner frame is 5-8cm higher than that of the outer frame.

Furthermore, the floating ball type net cage further comprises a floating ball, wherein the floating ball is fixed near the middle of the net cage frame and is connected with the frame through a thin line.

Further, the filter screen is a bolting silk, and the mesh number of the bolting silk is selected according to the type and the size of the shellfish larvae.

Furthermore, the distance between the fixing ring of the drainage hard pipe at the lower part of the inner frame and the bottom of the inner frame is 15-20 cm.

A use method of the inflatable water changing net cage device used in the shellfish larva cultivating process is characterized in that: which comprises the following steps:

A. selecting proper mesh number of the bolting silk according to the size of the shellfish larva, and installing the bolting silk on the inner frame;

B. The water changing net cage is placed in water, then the air charging pipe is connected with the air inlet of the water changing net cage, the air inlet valve is opened, the nano air charging pipe at the bottom end of the device starts to be charged with air, then one end of the water changing hose is placed in the water drainage hardening pipe, and automatic water changing is carried out by utilizing the siphon principle.

The shellfish includes bivalve shellfish such as hard shell clam, Mactra chinensis, Meretrix meretrix Linnaeus, Ruditapes philippinarum, Concha Ostreae, bay scallop, Chlamys farreri, Patinopecten yessoensis, etc., and gastropods such as Rapana venosa.

on the basis of the common knowledge in the field, the above-mentioned preferred conditions can be combined arbitrarily to obtain the embodiment of the invention.

The invention has the following advantages:

(1) The invention provides an inflatable water-changing net cage device used in a shellfish larva cultivation process and a using method thereof. The net cage frame is cylindrical, is made of stainless steel, is divided into an inner frame and an outer frame, has a large diameter, and is mainly used for supporting the whole device; the diameter of the inner frame is small, the bottom end of the inner frame is 5-8cm higher than that of the outer frame, a row of water-hardening pipe fixing rings are respectively welded at the central positions of the upper portion and the lower portion of the inner frame, the lower portion fixing rings are 15-20cm away from the bottom of the inner frame, the water-hardening pipes are located in the fixing rings, one end of the water-changing hose is placed into the water-hardening pipes, and water changing operation is carried out by utilizing a siphon principle. The filter screen is sleeved outside the inner frame, and the upper end of the filter screen is fixed at the upper end of the net cage frame through a rope body on the outer wall of the filter screen. The air charging devices are nano air charging tubes which are respectively fixed on the inner frame and the outer frame, the length of each nano air charging tube is respectively the same as the perimeter of the inner frame and the outer frame, and the inner frames are crossed into a cross shape; the air inlet pipe is connected with the nanometer inflation pipe through a tee joint, the air inlet pipe is fixed on the net cage frame, and an air inlet valve is arranged at the air inlet of the air inlet pipe. The use method of the device can save the labor cost by more than 80 percent, and the adhesion rate of the larvae on the filter screen is reduced by 70 to 90 percent when water is changed.

(2) The cultivation device further comprises a floating ball, wherein the floating ball is fixed near the middle of the net cage frame and is connected with the frame through a thin line, and the purpose of the floating ball is to enable the water changing net cage to float on the water surface, so that more bolting silk is prevented from being exposed in the air along with the reduction of the water level, and larvae attached to the bolting silk are prevented from dying.

(3) The aeration device of the cultivation device is a nano aeration pipe, so that dissolved oxygen in a water body is effectively improved, negative pressure inside and outside the filter screen is increased, and larvae are effectively prevented from being adhered to the filter screen.

(4) the cultivation device can realize automatic water changing without continuously shaking the net cage by workers, and effectively saves labor cost.

(5) The seedling raising device is made of stainless steel, is non-toxic and harmless, is not easy to rust, is simple to operate, is durable, and effectively reduces the seedling raising cost.

The use principle is as follows: the nanometer gas-filled tube through interior outer frame produces the bubble inside and outside the bolting silk, produces the negative pressure and stirs the larva of adhesion on the bolting silk to reduce the adhesion rate of larva when changing water.

drawings

FIG. 1 illustrates a conventional water-changing net cage;

fig. 2 is a water changing net cage device for inflatable shellfish larvae of the present invention;

FIG. 3 is a schematic view of the inflatable shellfish larva water exchange net cage device of the present invention;

The air inlet valve comprises a 1-air inlet valve, a 2-air inlet pipe, a 3-first tee joint, a 4-water discharge hard pipe, a 5-second tee joint, a 6-water discharge hard pipe fixing ring, a 7-bolting silk, a 8-floating ball, a 9-inflation pipe, a 10-inner frame, an 11-outer frame, a 12-bolting silk inner bubble and a 13-bolting silk outer bubble.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Example 1:

as shown in fig. 2, the inflatable water changing net cage device for the shellfish larva cultivation process comprises a net cage frame, wherein the net cage frame comprises an inner frame 10 and an outer frame 11, the inner frame 10 is arranged in the outer frame 11, the bottom of the inner frame 10 is closed, a filter net sleeve is arranged on the periphery of the inner frame, a water discharging hard pipe 4 is arranged in the inner frame 11 in a penetrating mode and penetrates through the inner frame 11, a water discharging hole is formed in the water discharging hard pipe 4, the inflatable water changing net cage device further comprises a water changing hose, one end of the water changing hose is placed into the water discharging hard pipe 4, the inflatable water changing net cage device is fixed on the inner frame 10 and the outer frame 11, an inflating pipe 9 is arranged at the bottoms of the outer frame 10 and the inner frame 11, an air inlet pipe 2 is. The air charging device is a nanometer air charging pipe, the length of the nanometer air charging pipe is respectively the same as the circumference of the inner frame 10 and the outer frame 11, and the nanometer air charging pipe is crossed with the inner frame 10. The diameter of the inner frame 10 is 10cm smaller than that of the outer frame, and the bottom end of the inner frame is 5-8cm higher than that of the outer frame 11. The floating ball device further comprises a floating ball 8, wherein the floating ball 8 is fixed near the middle of the net cage frame and is connected with the frame through a thin line. The filter screen is bolting silk 7, the mesh number of bolting silk 7 is selected according to the type and size of the shellfish larva, and the bolting silk is arranged outside the inner frame. The distance between the lower part of the inner frame and the fixed ring of the hard drainage pipe is 15-20 cm. The water changing net cage is placed in water, then the air charging pipe 9 is connected with an air inlet of the water changing net cage, the air inlet valve 1 is opened, the nano air charging pipe at the bottom end of the device starts to charge air, air bubbles 12 in the bolting silk inside and outside the bolting silk 7 and air bubbles 13 outside the bolting silk are shown in figure 3, then one end of the water changing hose is placed in the water discharging hard pipe 4, and automatic water changing is carried out by utilizing the siphon principle. The bottom end of the inner frame of the embodiment is 5 cm higher than the bottom end of the outer frame, and the fixing ring 4 at the lower part of the inner frame is 15 cm away from the bottom of the inner frame. The drain pipe 6 is fixed on the frame through the drain pipe fixing ring. The inflation tube 9 is fixed on the inner frame through a second tee joint 5.

Example 2

the bottom end of the inner frame of the embodiment is 8cm higher than the bottom end of the outer frame, and the distance between the fixing ring of the drainage hard pipe at the lower part of the inner frame and the bottom of the inner frame is 20 cm. The shellfish selected in the embodiment is hard shell clam larvae, the average shell length is 210 mu m, the experimental conditions are that the water temperature is 23-27 ℃, the salinity is 30-33, the pH value is 7.6-7.8, and the unicellular algae bait is chrysophyceae. The experimental group places the inflatable shellfish larva water changing net cage in a culture pond, connects the air charging pipe with the air inlet of the water changing net cage, opens the air inlet valve to start charging the nano air charging pipe at the bottom end of the device, then places the water changing hose in the water drainage hardening pipe, and automatically changes water by using the siphon principle. The control group is a traditional water changing net cage.

the cultivation apparatus used in this embodiment is the same as that of embodiment 1, and the specific parameters are as follows: the mesh number of the bolting silk is 300 meshes.

The water change effect of the hard shell clam larvae is shown in table 1.

TABLE 1 Water exchange Effect of hard shell clam larvae

Can see through the water effect of changing in table 1, the adhesion rate of larva at the filter screen reduces more than 70% -90% when changing water, utilizes this device can practice thrift the cost of labor more than 80%, to sum up this water installation of changing has the beneficial effect that reduces larva adhesion rate, practices thrift the cost of labor.

Example 3:

The same parts as those in embodiment 2 will not be described again, except that: the bivalve shellfish larvae selected in the embodiment are mactra chinensis, and the average shell length is 190 μm; in the embodiment, the bottom end of the inner frame is 7 cm higher than that of the outer frame, the distance between the fixing ring of the drainage hard pipe at the lower part of the inner frame and the bottom of the inner frame is 18 cm, and the number of the bolting silk is 260 meshes.

The water changing effect of the mactra chinensis larvae is shown in table 1.

TABLE 2 Water exchange Effect of Mactra chinensis larvae

Can see through the water effect of changing in table 2, the adhesion rate of larva at the filter screen reduces more than 70% -90% when changing water, utilizes this device can practice thrift the cost of labor more than 80%, to sum up this water installation of changing has the beneficial effect that reduces larva adhesion rate, practices thrift the cost of labor. It should be emphasized that the embodiments described herein are illustrative rather than restrictive, and thus the present invention is not limited to the embodiments described in the detailed description, but also includes other embodiments that can be derived from the technical solutions of the present invention by those skilled in the art.

Claims (7)

1. The utility model provides an inflatable shellfish larva trades water box with a net device which characterized in that, it includes box with a net frame, and the box with a net frame includes inside casing and frame, and the inside casing sets up in the frame, and the inside casing bottom is sealed, and the periphery sets up the filter screen cover, and inside casing central authorities run through the inside casing and set up the drainage hard tube, set up the wash port on the drainage hard tube, and drainage hole department sets up the filter screen, and it still includes trades the water hose, trades the one end of water hose and puts into the drainage hard tube, and the other end stretches to drainage department, and it still includes aerating device, aerating device fixes on inside casing and frame, and aerating device includes gas tube and intake pipe, and the gas tube setting is in the bottom of frame and inside casing, and.

2. The inflatable shellfish larva water exchange net cage device according to claim 1, wherein the inflation device is a nano inflation tube, the length of the nano inflation tube is the same as the perimeter of the inner frame and the outer frame respectively, and the inner frame is crossed.

3. The water changing net cage device for inflatable shellfish larvae according to claim 1, wherein the diameter of the inner frame is 10cm smaller than that of the outer frame, and the bottom end of the inner frame is 5-8cm higher than that of the outer frame.

4. The water changing net cage device for inflatable shellfish larvae as claimed in claim 1, further comprising a floating ball fixed near the middle of the net cage frame and connected with the frame by a thin wire.

5. The water changing net cage device for inflatable shellfish larvae according to claim 1, wherein the filter screen is a bolting silk, and the mesh number of the bolting silk is selected according to the species and size of shellfish larvae.

6. The water changing net cage device for inflatable shellfish larvae according to claim 1, wherein the fixing ring of the drainage hard tube at the lower part of the inner frame is 15-20cm away from the bottom of the inner frame.

7. Use of the device of the water changing net cage for inflatable shellfish larvae according to any of claims 1 to 6, characterized in that: which comprises the following steps:

A. Selecting proper mesh number of the bolting silk according to the size of the shellfish larva, and installing the bolting silk on the inner frame;

B. The water changing net cage is placed in water, then the air charging pipe is connected with the air inlet of the water changing net cage, the air inlet valve is opened, the nano air charging pipe at the bottom end of the device starts to be charged with air, then one end of the water changing hose is placed in the water drainage hardening pipe, and automatic water changing is carried out by utilizing the siphon principle.