CN216722702U - Nucleus-inserting and pearl-culturing recuperation device for Pinctada martensii - Google Patents

Abstract

The utility model discloses a nucleus-inserting and pearl-cultivating resting device for a clitocybe maxima, which comprises a net cage and first net plates, wherein cross rods are arranged on the side edges of the net cage, U-shaped clamping protrusions are arranged on the edges of the first net plates and movably clamped with the cross rods, the U-shaped clamping protrusions can slide along the cross rods, the net cage is divided into a plurality of resting areas capable of being adjusted in a stepless mode by the first net plates, and the clitocybe maxima are clamped in the resting areas by the meshes of the adjacent two first net plates. The utility model aims to provide a nucleus-inserting and bead-culturing recuperation device for Pinctada martensii, which can steplessly adjust the size of a recuperation area, is convenient for recuperation of Pinctada martensii and improves the success rate of nucleus-planting and bead-culturing.

Description

Nucleus-inserting and pearl-culturing recuperation device for Pinctada martensii

Technical Field

The utility model relates to the technical field of shell pearl culture, in particular to a shell pearl culture device by inserting a nucleus.

Background

A large-scale pearl shellfish, namely a white butterfly shellfish which is known as 'rare treasure', grows in coastal waters of West coastal areas of the semi-island of the Thai province and the Western coastal areas of the south island of China, especially in coastal areas of delirium, Linghe, Chengmai and other city counties. The large high-quality pearl cultivated by the white butterfly mussel is a rare treasure in the interpersonal. The method has the advantages that the white butterflies need to be rested before and after the white butterflies are planted with the nucleus and grow the pearl, and the white butterflies are not completely consistent in size, so that the white butterflies of different sizes need to be rested in different sizes during the restitution, the size of the restitution area cannot be adjusted steplessly by the aid of the restitution device in the prior art, inconvenience is brought to the restitution of the white butterflies, and the success rate of nucleus and pearl planting is reduced.

Disclosure of Invention

Aiming at the prior art, the utility model provides the nucleus-inserting and bead-culturing recuperation device for the Pinctada martensii, which can steplessly adjust the size of a recuperation area, is convenient for recuperation of the Pinctada martensii and improves the success rate of nucleus-implanting and bead-culturing.

The technical scheme of the utility model is realized as follows:

white butterfly shellfish inserts nuclear pearl rearing device, including cylinder mould and first otter board, the side of cylinder mould is equipped with the horizontal pole, the edge of first otter board is equipped with the U-shaped card protruding, the U-shaped card protruding with horizontal pole activity joint, the U-shaped card is protruding can be followed the horizontal pole slides, first otter board will the cylinder mould is separated for a plurality of can the stepless regulation the district of recuperation, adjacent two the mesh of first otter board is with white butterfly shellfish card in the district of recuperation.

Furthermore, the meshes of the first screen plate are rectangular, the width of the rectangle is 5-9 cm, and the length of the rectangle is 5-9 cm.

Further, the distance between the adjacent first net plates is 2-4 cm.

Further, the net cage is cuboid, the length of the net cage is 50-90 cm, the width of the net cage is 18-24 cm, and the height of the net cage is 18-24 cm.

Furthermore, the periphery of the cylinder mould is formed by second net plates which are connected with each other in a detachable connection mode.

Furthermore, a plurality of C-shaped buckles are arranged at the joints of the adjacent second net plates, and two ends of each C-shaped buckle are respectively buckled with the second net plates.

Furthermore, third screen plates are arranged at two ends of the net cage, and the third screen plates cover openings at two ends of the net cage.

Further, be located the second otter board of cylinder mould bottom comprises a plurality of violently pipes and vertical pipe, violently manage and communicate each other with vertical pipe, violently manage and correspond the position in maintenance district is equipped with the bin outlet, vertical pipe is equipped with the feed inlet, the feed inlet passes through conveying pipeline and feed pump intercommunication.

Further, the longitudinal pipe is provided with an air inlet which is communicated with an air pump through an air pipe.

Furthermore, a heating wire is arranged in the first screen plate and electrically connected with a power supply through a switch.

The utility model has the beneficial effects that:

the periphery of the net cage can allow water to circulate, the side face of the net cage is provided with the cross rod, the first net plate is arranged in the net cage, the net cage is divided into a plurality of independent rest areas by the first net plate, and the white butterfly shellfish can be placed into the rest areas for rest. The U-shaped clamping protrusions are arranged at the edges of the first net plates and movably clamped with the cross rods, so that the first net plates can be detached from the net cage, and the first net plates with proper quantity can be installed as required. The U-shaped clamping protrusions can slide along the cross rods and are clamped on the cross rods under the action of friction force after sliding to proper positions, so that the size of the recuperation area is fixed. The U-shaped clamping protrusions can slide along the cross rods, so that the resting area can be adjusted steplessly, the white butterfly shells can be clamped in the resting area through meshes of the two adjacent first net plates, and the white butterfly shells with different sizes can be clamped. Because the first net plate is provided with the meshes, the shell can be clamped in the middle of the rest area, the clamped shell is clamped at the meshes, and the clamped shell can still be opened. The utility model can be applied before and after nucleus insertion and pearl culture of the Pinctada martensii to provide guarantee for the recuperation of the Pinctada martensii. Improve the success rate of nucleus insertion and pearl culture and can adapt to the white butterfly shells with different sizes.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only preferred embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without inventive exercise.

FIG. 1 is a perspective view of a nucleus insertion and pearl culturing device of a Pteridium album in accordance with an embodiment 1 of the present invention;

FIG. 2 is a side sectional view of a nucleus insertion and pearl culturing apparatus of a Pteridium album in example 1 of the present invention;

FIG. 3 is a front view of a first net sheet according to example 1 of the present invention;

FIG. 4 is a front view of a first net sheet according to example 2 of the present invention;

FIG. 5 is a front view of a second net sheet according to example 2 of the present invention;

in the figure, 1 net cage, 2 first net plate, 3 cross bars, 4U-shaped clamping protrusions, 5 rest areas, 6 second net plate, 7C-shaped buckles, 8 third net plate, 9 transverse pipes, 10 longitudinal pipes, 11 discharge ports, 12 feed ports, 13 feed conveying pipes, 14 feed pumps, 15 air inlets, 16 air pipes, 17 air pumps, 18 heating wires, 19 switches and 20 power supplies.

Detailed Description

For a better understanding of the technical content of the present invention, the following detailed description is provided in conjunction with the accompanying drawings for further explanation of the present invention.

Example 1

Referring to fig. 1-3, the nucleus inserting and pearl culturing resting device for the white butterfly shells comprises a net cage 1 and first net plates 2, a cross rod 3 is arranged on the side edge of the net cage 1, U-shaped clamping protrusions 4 are arranged on the edge of the first net plates 2, the U-shaped clamping protrusions 4 are movably clamped with the cross rod 3, the U-shaped clamping protrusions 4 can slide along the cross rod 3, the net cage 1 is divided into a plurality of resting areas 5 capable of being adjusted in a stepless mode through the first net plates 2, and the white butterfly shells are clamped in the resting areas 5 through meshes of the first net plates 2 which are adjacent to each other.

The periphery of the net cage 1 can allow water to circulate, the side face of the net cage 1 is provided with the cross rod 3, the first net plate 2 is arranged in the net cage 1, the net cage 1 is divided into a plurality of independent rest areas 5 by the first net plate 2, and the white butterfly shellfish can be placed into the rest areas 5 for rest. The U-shaped clamping protrusions 4 are arranged at the edges of the first net plates 2, and the U-shaped clamping protrusions 4 are movably clamped with the cross rods 3, so that the first net plates 2 can be detached from the net cage 1, and the first net plates 2 with proper quantity can be installed as required. The U-shaped clamping protrusions 4 can slide along the cross rod 3 and are clamped on the cross rod 3 under the action of friction force after sliding to a proper position, so that the size of the rest area 5 is fixed. The U-shaped clamping protrusions 4 can slide along the cross rod 3, so that the resting area 5 can be adjusted steplessly, the white butterfly shells can be clamped in the resting area 5 through meshes of the two adjacent first net plates 2, and the white butterfly shells with different sizes can be clamped. Since the first net plate 2 is provided with the meshes, the shell can be clamped in the middle of the resting area 5, the clamped shell is clamped at the meshes, and the shell can still be opened by the clamped shell. The utility model can be applied before and after nucleus insertion and pearl culture of the Pinctada martensii to provide guarantee for the recuperation of the Pinctada martensii. Improve the success rate of nucleus insertion and pearl culture and can adapt to the white butterfly shells with different sizes.

Specifically, the meshes of the first screen plate 2 are rectangular, the width of the rectangle is 5-9 cm, and the length of the rectangle is 5-9 cm. The shell of the white butterfly which is suitable for most of the shells for nucleus insertion and pearl culture is clamped between the meshes of the two adjacent first net plates 2, so that the shell of the white butterfly is clamped in the middle of the rest area 5, and the shell of the white butterfly is not contacted with the edges of the periphery of the net cage 1.

Specifically, the distance between the adjacent first net plates 2 is 2-4 cm. Is suitable for most of the white butterfly shells for nucleus insertion and bead culture.

Specifically, the net cage 1 is cuboid, the length of the net cage 1 is 50-90 cm, the width of the net cage is 18-24 cm, and the height of the net cage is 18-24 cm. Is convenient for the fallowing of the white butterfly shellfish.

Specifically, the periphery of the netpen 1 is composed of second net plates 6, and the second net plates 6 are connected with each other in a detachable connection mode. The second net plate 6 forms the net cage 1 through splicing, can be spliced according to needs, and has high variable degree.

Preferably, the cross rod 3 is one part of the second net plate 6, the net plate is composed of a plurality of cross rods 3 and longitudinal rods, and the U-shaped clamping protrusions 4 are clamped on the cross rods 3, so that the structure of the device is simplified.

Specifically, a plurality of C-shaped buckles 7 are arranged at the joints of the adjacent second net plates 6, and two ends of each C-shaped buckle 7 are respectively buckled with the second net plates 6. The C-shaped buckle 7 is used for buckling the edges of the two second net plates 6, so that the two second net plates 6 are connected together, and the connecting operation is convenient.

Specifically, the two ends of the net cage 1 are provided with third net plates 8, and the third net plates 8 cover openings at the two ends of the net cage 1. The two ends of the net cage 1 are covered.

Example 2

Referring to fig. 4 to 5, the present embodiment is different from embodiment 1 in that the second mesh plate 6 located at the bottom of the mesh cage 1 is composed of a plurality of horizontal pipes 9 and vertical pipes 10, the horizontal pipes 9 and the vertical pipes 10 are communicated with each other, a discharge opening 11 is formed at a position of the horizontal pipe 9 corresponding to the maintenance area, a feed opening 12 is formed in the vertical pipe 10, and the feed opening 12 is communicated with a feed pump 14 through a feed delivery pipe 13. The material is conveyed in the vertical pipe 10 by the feed pump 14 through the conveying pipe 13, the horizontal pipe 9 and the vertical pipe 10 are communicated with each other, and the material flows to the horizontal pipe 9 through the vertical pipe 10 and is finally discharged from the discharge port 11 of the horizontal pipe 9. The discharge port 11 of the transverse pipe 9 is positioned in the resting area 5, and the material from the discharge port 11 enters the resting area 5 to be supplied with the white butterflies.

Specifically, the longitudinal pipe 10 is provided with an air inlet 15, and the air inlet 15 is communicated with an air pump 17 through an air pipe 16. The air pump 17 supplies air into the longitudinal pipes 10 through the air pipes 16, the air is discharged through the discharge ports 11 of the transverse pipes 9, and the discharged air enters the rest area 5, so that the oxygen content of the rest area 5 is increased.

Specifically, a heating wire 18 is arranged in the first screen plate 2, and the heating wire 18 is electrically connected with a power supply 20 through a switch 19. After the switch 19 is closed, the power supply 20 supplies power to the heating wires 18, and the heating wires 18 generate heat to heat the water body in the rest area 5, so that the water temperature in the rest area 5 is prevented from being too low.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. The device for nucleus insertion and pearl culture recuperation of the white butterfly shells is characterized by comprising a net cage and first net plates, wherein cross rods are arranged on the side edges of the net cage, U-shaped clamping protrusions are arranged on the edges of the first net plates, the U-shaped clamping protrusions are movably clamped with the cross rods, the U-shaped clamping protrusions can slide along the cross rods, the first net plates divide the net cage into a plurality of recuperation areas capable of being adjusted in a stepless mode, and the white butterfly shells are clamped in the recuperation areas through meshes of the first net plates.

2. The Pinctada martensii nucleus-inserting and pearl-culturing resting device as claimed in claim 1, wherein the meshes of the first net plate are rectangular, the width of the rectangle is 5-9 cm, and the length of the rectangle is 5-9 cm.

3. The Pinctada martensii nuclear-inserting and pearl-culturing resting device as claimed in claim 1, wherein the distance between the adjacent first net plates is 2-4 cm.

4. The Pinctada martensii nucleus-inserting and bead-culturing resting device as claimed in claim 1, wherein the net cage is rectangular, the length of the net cage is 50-90 cm, the width of the net cage is 18-24 cm, and the height of the net cage is 18-24 cm.

5. The Pinctada martensii nucleus-inserting and pearl-culturing resting device as claimed in claim 4, wherein the periphery of the net cage is composed of second net plates, and the second net plates are detachably connected with each other.

6. The Pinctada martensii nucleus-inserting and pearl-culturing resting device as claimed in claim 5, wherein a plurality of C-shaped buckles are arranged at the connection positions of the adjacent second net plates, and the two ends of the C-shaped buckles are respectively fastened with the second net plates.

7. The Pinctada martensii nucleus-inserting and pearl-culturing resting device as claimed in claim 4, wherein the two ends of the net cage are provided with third net plates, and the third net plates cover the openings at the two ends of the net cage.

8. The device for nucleus-inserting and pearl-culturing of the Pinctada martensii as claimed in claim 5, wherein the second net plate located at the bottom of the net cage is composed of a plurality of horizontal pipes and vertical pipes, the horizontal pipes and the vertical pipes are communicated with each other, a discharge port is arranged at the position of the horizontal pipe corresponding to the culturing area, a feed port is arranged on the vertical pipe, and the feed port is communicated with a feed pump through a feed delivery pipe.

9. The nucleus-inserting and pearl-culturing resting device for the white butterfly shellfish according to claim 8, wherein the longitudinal tube is provided with an air inlet which is communicated with an air pump through an air tube.

10. The nucleus-inserting and pearl-culturing resting device for the Pinctada martensii as claimed in claim 8, wherein a heating wire is arranged in the first net plate, and the heating wire is electrically connected with a power supply through a switch.

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