CN111543378A

CN111543378A - Device of laying eggs is supported temporarily to golden cuttlefish

Info

Publication number: CN111543378A
Application number: CN202010612393.7A
Authority: CN
Inventors: 王培亮; 王培明; 王军杰; 谷虹
Original assignee: Weihai Hongrun Marine Technology Co ltd
Current assignee: Weihai Hongrun Marine Technology Co ltd
Priority date: 2020-06-30
Filing date: 2020-06-30
Publication date: 2020-08-18

Abstract

The invention provides a temporary culture and spawning device for sepia esculenta, which solves the technical problems that the conventional culture device for sepia esculenta is easy to damage spawning parents, does not adapt to the habit of multiple spawning of sepia esculenta and influences the spawning amount of sepia esculenta, and is provided with a buoy, a thin nylon rope and a temporary culture and spawning bottle for sepia esculenta, wherein two ends of the thin nylon rope are respectively connected with the buoy and a pottery sinker, and the thin nylon rope is connected with the temporary culture and spawning bottle for sepia esculenta; the inkfish temporary rearing spawning bottle is provided with a bottle cap, a bottle body and a bottle bottom, wherein openings at two ends of the bottle body are respectively detachably and hermetically connected with the bottle cap and the bottle bottom; the side wall of the bottle body is provided with a first limber hole; the bottle bottom is respectively provided with a second water through hole and a first accommodating groove, and the bottom of the first accommodating groove is matched and detachably connected with an attaching base; the third water through hole has been seted up to the adherance, and the second holding tank that is linked together with the body is seted up to the bottom surface of adherance, and the tank bottom of second holding tank is laid and is connected the net piece that is equipped with and is used for adhering to the embryonated egg, but wide application in the temporarily breed of laying eggs of sepia esculenta aquatic products.

Description

Device of laying eggs is supported temporarily to golden cuttlefish

Technical Field

The invention relates to a culture device, in particular to a temporary culture and spawning device for sepia esculenta.

Background

Sepia esculenta (Sepia esculenta) also called cuttlefish and cuttlefish belongs to cephalopoda, Sepiales, Sepiidae, and is a broad-temperature migration species. The sea cucumber grows eggs near islands which are favored to have water depth of 5-10 m, high salinity, slow clear water flow, hard substrate and more dense seaweeds, sand blasting and cave habits are generated during egg growing, and parents die after reproduction. The sepia esculenta is widely distributed in the far east sea of russia, the local state, the four countries and the nine states of japan, the west coast and the south coast of korea and the national waters of philippine archipelagia, and is mainly distributed in the middle and the north of the shandong langlan hill, the Qingdao, the yellow sea in China. It has short life cycle, fast generation updating and fast growth, is a good variety with higher economic value and is one of four oceanic fisheries in China.

Since the eighties of the last century, sepia esculenta is under the dual pressure of over-fishing and damage of habitat environment, the environment and production order of a spawning site and a proliferation protection area are threatened, and the resource regeneration capacity is remarkably reduced. The peripheral sea area of Shandong province is an important spawning ground of sepia esculenta, and is listed in local resource proliferation plan of Shandong province in 1992. At present, the sepia esculenta has two proliferation modes, one mode is that the traditional spawning base tamarisk or artemisia annua is used, although the price is low, the sepia esculenta cannot be recycled, and the quantity of the tamarisk and the artemisia annua is obviously reduced due to felling in successive years, so that the land vegetation is greatly damaged; the other adopts a semi-artificial proliferation protection mode, namely collecting the cuttlefish cages attached with the fertilized eggs of the sepia esculenta, and putting the cuttlefish cages into a certain sea area in a centralized manner to naturally hatch the cuttlefish cages for proliferation protection management. The sepia esculenta proliferation and release work is carried out on sunshine coastal areas in Shandong province by utilizing a semi-artificial proliferation protection method, and good economic benefits are obtained.

Although the effect is good when the cuttlefish cage is used as the spawning base, the cuttlefish cage is caught, so that spawning parents are easily damaged, the habit of multiple spawning of the sepiella esculenta is not adapted, and the spawning amount of the sepiella esculenta is influenced; and the cuttlefish cage is complex to manufacture and is not suitable for large-scale proliferation of the sepia esculenta.

Disclosure of Invention

The invention aims to solve the technical defects and provides a temporary sepia breeding device which is simple in structure, protects a breeding parent, adapts to the habit of repeated spawning of sepia and ensures the spawning amount of sepia.

Therefore, the invention provides a temporary sepia culture spawning device which is provided with a buoy, a thin nylon rope, a pottery pendant and a temporary sepia culture spawning bottle, wherein one end of the thin nylon rope is connected with the buoy, the other end of the thin nylon rope is connected with the pottery pendant, and the temporary sepia culture spawning bottle is fixedly connected to the thin nylon rope;

the temporary-culture golden cuttlefish spawning bottle is provided with a bottle cap, a bottle body and a bottle bottom, wherein the bottle body is of a hollow cylindrical structure, one end opening of the bottle body is detachably and hermetically connected with the bottle cap, and the other end opening of the bottle body is detachably and hermetically connected with the bottle bottom; a first limber hole is formed in the side wall of the bottle body, and the aperture of the first limber hole is 2-3 cm; the bottle bottom is of a hemispherical structure, a second water through hole is formed in the hemispherical surface of the bottle bottom, and the aperture of the second water through hole is 3cm-4 cm; the bottom surface of the bottle bottom is provided with a first accommodating groove, and the bottom of the first accommodating groove is matched and detachably connected with an attachment base;

the attachment base is of a hemispherical structure, a third water through hole communicated with the second water through hole is formed in the hemispherical surface of the attachment base, a second accommodating groove communicated with the bottle body is formed in the bottom surface of the attachment base, a net piece used for attaching fertilized eggs is laid and connected at the bottom of the second accommodating groove, and the mesh size of the net piece is usually 5cm-8 cm.

Preferably, the sepia esculenta temporary culture spawning bottle is further provided with a bottle ear, the bottle ear is connected with the bottle cap, and the sepia esculenta temporary culture spawning bottle is fixedly connected to the thin nylon rope through the bottle ear.

Preferably, the invention is also provided with a culture pond and a lacing wire, wherein the lacing wire is of a rope-shaped structure made of a thick nylon rope, two ends of the lacing wire are respectively fixed on the edge of the culture pond, and the lacing wire is connected with a buoy.

Preferably, the invention is also provided with a fluorescent lamp, the culture pond is a glass pond with an open top, and the fluorescent lamp is arranged below the bottom of the culture pond; the bottle bottom and the attaching base are made of transparent materials.

Preferably, the culture pond is also provided with a water inlet pipe and a water outlet pipe, wherein the water inlet pipe and the water outlet pipe are both fixedly provided with mesh cloth, and the pore diameter of the mesh cloth is 1-2 cm.

Preferably, one end of the thin nylon rope is fixedly connected to a connection point of the lacing wire and the buoy.

Preferably, the bottle cap and the bottle bottom are respectively connected with the bottle body in a pull-plug manner.

Preferably, the pottery drop is of an inverted conical configuration.

Preferably, golden cuttlefish temporarily-cultured spawning bottle still is equipped with suddenly post and installation cap, and the installation cap is equipped with the recess with suddenly post looks adaptation, the one end of suddenly post and the tank bottom fixed connection of second holding tank, and the other end of suddenly post passes the net piece and can dismantle with the installation cap and be connected, and the installation cap is pressed on the net piece.

The invention has the beneficial effects that: the invention provides a temporary culture and spawning device for sepia esculenta, which is provided with a temporary culture and spawning bottle for sepia esculenta, so that the sepia esculenta can be subjected to three-dimensional spawning temporary culture in a water body, and on one hand, the temporary culture and spawning density of the sepia esculenta is improved, the yield is increased, and the culture cost is reduced; on the other hand, the sepia esculenta is isolated from each other, so that the problem of low egg laying amount caused by fighting for the residual food is solved, the egg laying amount and the survival rate are increased, and the loss and the cost are reduced.

Drawings

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

FIG. 2 is a schematic structural diagram of a top view of the present invention;

FIG. 3 is a schematic structural view of the temporary rearing spawning bottle of the sepia esculenta shown in FIG. 1;

FIG. 4 is a schematic structural view of the partial cross-sectional view shown in FIG. 3;

FIG. 5 is a schematic structural view of the oviposition anchorage of sepia esculenta shown in FIG. 4;

fig. 6 is a schematic structural view of a sectional view a-a shown in fig. 5.

The labels in the figure are: 1. the culture pond comprises a culture pond, 2 tie bars, 3 floats, 4 thin nylon ropes, 5 pottery drops, 6 golden cuttlefish temporary culture spawning bottles, 7 bottle caps, 8 bottle bodies, 9 bottle lugs, 101 first water through holes, 102 second water through holes, 103 third water through holes, 11 water inlet pipes, 12 water outlet pipes, 13 mesh fabrics, 14 water surfaces, 15 protruding columns, 16 mounting caps, 17 attaching bases, 18 bottle bottoms, 191 first accommodating grooves, 192 second accommodating grooves, 20 fluorescent lamps and 21 meshes.

Detailed Description

The invention is further described below in conjunction with the drawings and the specific embodiments to assist in understanding the contents of the invention. The method used in the invention is a conventional method if no special provisions are made; the raw materials and the apparatus used are, unless otherwise specified, conventional commercially available products.

As shown in fig. 1 and 2, the invention provides a temporary culture spawning device for sepia esculenta, which is provided with a buoy 3, a thin nylon rope 4, a pottery pendant 5 and a temporary culture spawning bottle 6 for sepia esculenta, wherein one end of the thin nylon rope 4 is connected with the buoy 3, the other end of the thin nylon rope 4 is connected with the pottery pendant 5, and the temporary culture spawning bottle 6 for sepia esculenta is fixedly connected on the thin nylon rope 4. When in use, fertilized female sepia esculenta is placed into the sepia esculenta temporary culture spawning bottle 6, then one or more sepia esculenta temporary culture spawning bottles 6 are fixed on the thin nylon rope 4, one end of the thin nylon rope 4 is fixed on the buoy 3, and the other end of the thin nylon rope 4 is fixed with the pottery pendant 5; then the buoy 3, the thin nylon rope 4, the pottery pendant 5 and the golden cuttlefish temporary rearing spawning bottle 6 are put into the breeding water together, the buoy 3 floats on the water surface 14, and the pottery pendant 5 straightens the thin nylon rope 4 under the action of the gravity of the pottery pendant 5, so that the thin nylon rope 4 keeps a vertical state in the breeding water, and the thin nylon ropes 4 are prevented from being suspended and wound in the water. A plurality of temporary gold cuttlefish breeding spawning bottles 6 are fixed on the thin nylon ropes 4 at intervals, so that the gold cuttlefish can be bred in a three-dimensional spawning temporary manner in the water body, and the temporary gold cuttlefish breeding density is improved. In addition, the sepia esculenta temporary rearing spawning bottle 6 is adopted to isolate the sepia esculenta from each other, so that the problem of low spawning amount caused by fighting for the residual food is avoided, the spawning amount and the survival rate are increased, and the loss and the cost are reduced.

As shown in fig. 3-6, the temporary-culture spawning bottle 6 for sepia esculenta of the present invention is provided with a bottle cap 7, a bottle body 8 and a bottle bottom 18, wherein the bottle body 8 is a hollow cylindrical structure, an opening at one end of the bottle body 8 is detachably and hermetically connected with the bottle cap 7, and an opening at the other end of the bottle body 8 is detachably and hermetically connected with the bottle bottom 18; the bottle cap 7 is opened, the sepia esculenta to be oviposited can be put into the bottle body 8, and bait can be fed to the sepia esculenta temporarily breeding spawning bottle 6. The side wall of the bottle body 8 is provided with a first water through hole 101, the aperture of the first water through hole 101 is 2-3cm, so that the real-time circulation and updating of water in the sepia esculenta temporary culture spawning bottle 6 are facilitated, and massive food residues are discharged out of the bottle through the first water through hole 101 along with water flow. The bottle bottom 18 is of a hemispherical structure, the bottle bottom 18 is positioned at the end part of the temporary golden cuttlefish breeding spawning bottle 6, and the design of the hemispherical structure greatly reduces the water flow resistance of the breeding water to the bottle bottom 18, so that the temporary golden cuttlefish breeding spawning bottle 6 is in a stable state in the water. A second water through hole 102 is formed in the hemispherical surface of the bottle bottom 18, and the aperture of the second water through hole 102 is 3cm-4 cm; first holding tank 191 has been seted up to the bottom surface of bottle end 18, and the tank bottom adaptation of first holding tank 191 can be dismantled and connect and be equipped with the adhesion base 17, and wherein can dismantle the mode and peg graft for the adaptation, also can be threaded connection. The attachment base 17 is of a hemispherical structure, and a third water through hole 103 communicated with the second water through hole 102 is formed in the hemispherical surface of the attachment base 17. The bottom surface of the attachment base 17 is provided with a second accommodating groove 192 communicated with the bottle body 8, the bottom of the second accommodating groove 192 is paved and connected with a mesh sheet 21 for attaching the fertilized eggs, the mesh size of the mesh sheet 21 is usually 5cm-8cm, and the second accommodating groove 192 paved with the mesh sheet 21 is used for accommodating the fertilized eggs. The water body in the second accommodating groove 192 of the attachment base 17 is communicated with the external culture water through the third water through hole 103 and the second water through hole 102, so that the water quality of the attachment base 17 is circularly updated in real time, and the survival rate of the fertilized eggs attached to the net 21 is improved. The sepia esculenta has the habit of spawning for multiple times, after the mesh 21 is stained with sepia esculenta eggs, a farmer can open the bottle bottom 18, take out the attachment base 17 with the sepia esculenta egg mesh 21, replace a new attachment base 17 with the mesh 21, prepare for next spawning of the sepia esculenta, on one hand, take out the mesh 21 with the sepia esculenta eggs in time, keep the activity of the sepia esculenta eggs as far as possible, and carry out subsequent hatching work as soon as possible; on the other hand, the new mesh 21 is replaced in time to prepare for the sepia esculenta to spawn again, so that the spawning amount and the survival rate are increased, and the loss and the cost are greatly reduced.

As a preferred embodiment, as shown in fig. 1, 3 and 4, the temporary sepia maindroni spawning bottle 6 is further provided with a bottle ear 9, the bottle ear 9 is connected with the bottle cap 7, and the temporary sepia maindroni spawning bottle 6 is fixedly connected to the thin nylon rope 4 through the bottle ear 9.

As a preferred embodiment, as shown in fig. 1 and 2, the invention is further provided with a culture pond 1 and a tie bar 2, wherein the tie bar 2 is a rope-shaped structure made of a thick nylon rope, two ends of the tie bar 2 are respectively fixed on the edge of the culture pond 1, and a float 3 is connected to the tie bar 2. The sepia esculenta temporary culture spawning bottle 6 is arranged in the culture pond 1 filled with culture water, and is more favorable for controlling factors such as the temperature and the oxygen content of the culture water. The buoy 3 is fixed by the lacing wire 2 made of thick nylon rope, and the sepia esculenta temporary culture spawning bottle 6 is positioned at fixed point by the thin nylon rope 4.

As a further preferred embodiment, as shown in fig. 1, the present invention is further provided with a fluorescent lamp 20, the culture pond 1 is a glass pond with an open top, and the fluorescent lamp 20 is arranged below the bottom of the culture pond 1; the bottle bottom 18 and the attachment base 17 are made of a transparent material, such as a transparent plastic material like PMMA, PS, PC, etc. The sepia esculenta has phototaxis, after the fluorescent lamp 20 is electrified, the fluorescent light upwards passes through the bottom of the glass pool, and the sepia esculenta positioned in the temporary breeding spawning bottle 6 swims towards the bottle bottom 18 made of transparent materials and the attachment base 17, so that the net piece 21 on the attachment base 17 is more favorable for spawning.

As a further preferred embodiment, as shown in fig. 1, the culture pond 1 is further provided with a water inlet pipe 11 and a water outlet pipe 12, the water inlet pipe 11 and the water outlet pipe 12 are both fixedly provided with mesh cloth 13, and the aperture of the mesh cloth 13 is 1-2cm, so that the sepiella esculenta can be prevented from escaping from the water inlet pipe 11 and the water outlet pipe 12 after escaping from the sepiella esculenta temporary culture spawning bottle 6.

As a further preferred embodiment, as shown in fig. 1, one end of a thin nylon rope 4 is fixedly connected to a connection point of a tie bar 2 and a float 3, and the buoyancy of the float 3 is fully utilized to make a temporary cuttlefish breeding spawning bottle 6 fixed on the thin nylon rope 4 in a stable state in the culture water.

As a preferred embodiment, the bottle cap 7 and the bottle bottom 18 can be detachably connected to the bottle body 8 by a screw connection, a snap connection, a pull-plug connection, and the like, wherein the pull-plug connection is more convenient for installation and disassembly, as shown in fig. 4.

As a preferred embodiment, as shown in fig. 1, the pottery drop 5 has an inverted cone-shaped structure, and the inverted cone-shaped structure makes the pottery drop 5 in a stable state in the culture water.

As a preferred embodiment, the temporary-culture spawning bottle 6 for sepia esculenta is further provided with a protruding column 15 and a mounting cap 16, the mounting cap 16 is provided with a groove matched with the protruding column 15, one end of the protruding column 15 is fixedly connected with the bottom of the second accommodating groove 192, the other end of the protruding column 15 penetrates through the mesh sheet 21 to be detachably connected with the mounting cap 16, and the mounting cap 16 is pressed on the mesh sheet 21, so that the mesh sheet 21 is fixed and replaced conveniently.

However, the above description is only an embodiment of the present invention, and should not be taken as limiting the scope of the invention, for example, the ear can be fixed on the body, and the replacement of the equivalent component or the equivalent change and modification made according to the protection scope of the present invention should also fall within the scope of the appended claims.

Claims

1. The temporary culture spawning device for the sepiella esculenta is characterized by being provided with a buoy (3), a thin nylon rope (4), a pottery pendant (5) and a temporary culture spawning bottle (6) for the sepiella esculenta, wherein one end of the thin nylon rope (4) is connected with the buoy (3), the other end of the thin nylon rope (4) is connected with the pottery pendant (5), and the thin nylon rope (4) is fixedly connected with the temporary culture spawning bottle (6) for the sepiella esculenta;

the temporary-culture golden cuttlefish spawning bottle (6) is provided with a bottle cap (7), a bottle body (8) and a bottle bottom (18), the bottle body (8) is of a hollow cylindrical structure, an opening at one end of the bottle body (8) is detachably and hermetically connected with the bottle cap (7), and an opening at the other end of the bottle body (8) is detachably and hermetically connected with the bottle bottom (18); a first water through hole (101) is formed in the side wall of the bottle body (8), and the aperture of the first water through hole (101) is 2-3 cm; the bottle bottom (18) is of a hemispherical structure, a second water through hole (102) is formed in the hemispherical surface of the bottle bottom (18), and the diameter of the second water through hole (102) is 3cm-4 cm; a first accommodating groove (191) is formed in the bottom surface of the bottle bottom (18), and an attaching base (17) is detachably connected to the bottom of the first accommodating groove (191) in a matched manner;

the attachment base (17) is of a hemispherical structure, a third water through hole (103) communicated with the second water through hole (102) is formed in the hemispherical surface of the attachment base (17), a second accommodating groove (192) communicated with the bottle body (8) is formed in the bottom surface of the attachment base (17), and a net piece (21) used for attaching fertilized eggs is laid and connected at the groove bottom of the second accommodating groove (192).

2. The temporary sepia esculenta culture spawning device according to claim 1, wherein the temporary sepia esculenta culture spawning bottle (6) is further provided with a bottle ear (9), the bottle ear (9) is connected with the bottle cap (7), and the temporary sepia esculenta culture spawning bottle (6) is fixedly connected to the thin nylon rope (4) through the bottle ear (9).

3. The temporary sepia esculenta culture spawning device according to claim 1, further comprising a culture pond (1) and a tie bar (2), wherein the tie bar (2) is a rope-shaped structure made of thick nylon rope, two ends of the tie bar (2) are respectively fixed on the edge of the culture pond (1), and the float (3) is connected to the tie bar (2).

4. The temporary sepia esculenta culture spawning device according to claim 3, wherein a fluorescent lamp (20) is further provided, the culture pond (1) is a glass pond with an open top, and the fluorescent lamp (20) is arranged below the bottom of the culture pond (1); the bottle bottom (18) and the attachment base (17) are made of a transparent material.

5. The temporary sepia esculenta culture and spawning device according to claim 3, wherein the culture pond (1) is further provided with a water inlet pipe (11) and a water outlet pipe (12), the water inlet pipe (11) and the water outlet pipe (12) are both fixedly provided with mesh cloth (13), and the aperture of the mesh cloth (13) is 1-2 cm.

6. The temporary cuttlefish culture spawning device according to claim 3, wherein one end of the thin nylon rope (4) is fixedly connected to the connecting point of the lacing wire (2) and the buoy (3).

7. The temporary sepia esculenta culture oviposition device according to claim 1, wherein the bottle cap (7) and the bottle bottom (18) are respectively connected with the bottle body (8) in a plug-in manner.

8. The temporary cuttlefish culture spawning device according to claim 1, wherein the pottery sinker (5) has an inverted cone-shaped structure.

9. The sepia esculenta temporary culture spawning device according to claim 1, wherein the sepia esculenta temporary culture spawning bottle (6) is further provided with a protruding column (15) and a mounting cap (16), the mounting cap (16) is provided with a groove matched with the protruding column (15), one end of the protruding column (15) is fixedly connected with the bottom of the second accommodating groove (192), the other end of the protruding column (15) penetrates through the mesh sheet (21) to be detachably connected with the mounting cap (16), and the mounting cap (16) presses on the mesh sheet (21).