CN114342846A

CN114342846A - Efficient seafood abalone seedling culture method

Info

Publication number: CN114342846A
Application number: CN202210075654.5A
Authority: CN
Inventors: 张利英
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-01-22
Filing date: 2022-01-22
Publication date: 2022-04-15
Anticipated expiration: 2042-01-22
Also published as: CN114342846B

Abstract

The invention belongs to the field of seafood production, and particularly relates to a high-efficiency seafood abalone seedling culture method. According to the invention, the abalone feeding step is simplified, the abalone culture efficiency is improved, the feeding plate can be separated from the floating box cylinder directly from the fish steak, the labor intensity of workers is reduced, the convenience of feeding and feeding is improved, the surplus of kelp in the feeding plate can be judged according to the position of the feeding plate in the box cylinder, so that kelp is supplemented in time for feeding abalone, and the process of adding kelp in the feeding plate is a process of increasing the whole weight of the feeding plate, so that the downward gravity of the whole feeding plate can overcome the upward buoyancy of the culture box, and the whole feeding plate sinks again along with the supplement of kelp and drives the culture plate to sink to the lower part of the box cylinder.

Description

Efficient seafood abalone seedling culture method

Technical Field

The invention belongs to the field of seafood production, and particularly relates to a high-efficiency seafood abalone seedling culture method.

Background

Abalone is mainly cultured in a way of being hung on a fish raft, specifically, the abalone is placed in a culture tray, a culture basin is placed in a fish net bag, then a mouth of the fish net bag is tightened, the fish net bag and the culture basin are integrally thrown into water, the fish net bag is lifted out of the water when the abalone needs to be fed according to experience, then the mouth of the fish net bag is untied, the mouth of the fish net bag is taken out, the culture basin is filled with kelp serving as abalone feed, then the mouth of the fish net bag is tightened again, the fish net bag and the culture basin are thrown into the water again, a plurality of tedious steps such as lifting, bag opening, bagging, bag sealing and the like are needed in the whole feeding process, for a farm with a large culture quantity, more labor is consumed in the process, meanwhile, because the fish net bag is positioned at the bottom of the water, whether the kelp fed in the culture basin finishes feeding or needs to know the feeding condition of the abalone, the feeding speed and the feeding quantity of the abalone can be judged by pulling the fish net bag out of the water, therefore, the kelp can not be timely and accurately supplemented to the abalone.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a high-efficiency seafood abalone seedling raising method.

In order to achieve the purpose, the invention adopts the following technical scheme: a high-efficiency seafood abalone seedling raising method comprises the following steps: placing abalone fries in the culture tray, wherein the abalone fries are adsorbed on the inner wall of the inner tray and the side wall of the bifurcation plate;

placing the culture tray in the box barrel in advance;

placing the fish steaks A on the water surface, forming a culture area B between the fish steaks A, connecting a box cylinder with the fish steaks A through a rope, placing the box cylinder in the culture gap B, and floating the box cylinder in the culture area B under the action of a floating ring; wherein the flange and the upper part of the cylinder body are positioned above the horizontal plane; the inner disc moves upwards to the upper part of the box cylinder under the action of the floating platform; the guide pipe avoids the displacement of the inner disc in the process of moving the inner disc upwards;

pulling the bandage open, and placing the kelp in the area between the side support and the bottom net through the entrance window in advance;

the limiting rod is moved through the handle, so that the bottom end of the limiting rod is aligned to the guide pipe, then the limiting rod is inserted into the guide pipe, and meanwhile the guide pipe gradually penetrates through the through hole along with the descending of the limiting rod and the disc frame;

under the action of the gravity of the feeding plate and the gravity of the inner sea belt of the feeding plate, the feeding plate moves downwards and props into the inner plate, under the mutual combined action of the upward buoyancy of the inner plate and the downward gravity of the feeding plate, the feeding plate pushes the inner plate to move downwards until the bottom of the base props into the inner side wall of the bottom baffle, and at the moment, the floating platform protrudes out of the bottom end face of the bottom baffle and is positioned on the lower end face of the barrel body;

the bottom of the bottom net is in contact with the upper part of the bifurcation plate, and the side bracket is close to the inner side wall of the inner disc, so that abalones adsorbed on the inner wall of the inner disc and abalones adsorbed on the bifurcation plate eat kelp in the feeding disc;

as the kelp in the feeding tray is gradually eaten by the abalones, the weight of the kelp in the feeding tray is gradually reduced, and the downward pressure of the feeding tray on the culture tray is gradually reduced; breed the dish and upwards remove under the effect of floating platform buoyancy, along with breed the dish and upwards remove, breed the dish and upwards promote the dish of feeding and upwards remove gradually, after the kelp in the dish of feeding is finished by the abalone feed, breed the dish and upwards promote the dish of feeding and remove to barrel case upper portion, then pull out the dish of feeding through the handle, put into the kelp in the dish of feeding again, repeated above-mentioned step can.

Set up feeding plate and breed the dish in the better case section of thick bamboo, feeding plate is located breed dish upper portion, and feeding plate and breed the dish and contact, breed the dish and upwards move under the effect of self buoyancy.

Better when not packing the kelp in the feeding dish, the feeding dish is extruded downwards under the action of gravity of self and is bred the dish, breeds the dish this moment and is located the upper portion position department that leans on of a case section of thick bamboo, breeds the dish wholly and is located below the surface of water, and the feeding dish is located case section of thick bamboo upper portion position department under the ascending thrust effect of breeding the dish, and the personnel of raising can in time discover like this and feed the condition of dish interior kelp fodder and be convenient for in time supply the kelp to supply the abalone to eat.

Better after the feeding plate is filled with kelp feed, the feeding plate moves downwards under the action of self gravity and kelp gravity and extrudes and acts on the culture plate, so that the culture plate further moves downwards to the bottom of the box cylinder, and the culture plate is positioned in the water layer at the lower part of the box cylinder at the moment.

Compared with the prior art, the invention has the beneficial effects that: according to the invention, the abalone feeding step is simplified, the abalone culture efficiency is improved, the feeding plate can be separated from the floating box cylinder directly from the fish steak, the labor intensity of workers is reduced, the convenience of feeding and feeding is improved, the surplus of kelp in the feeding plate can be judged according to the position of the feeding plate in the box cylinder, so that kelp is supplemented in time for feeding abalone, and the process of adding kelp in the feeding plate is a process of increasing the whole weight of the feeding plate, so that the downward gravity of the whole feeding plate can overcome the upward buoyancy of the culture box, and the whole feeding plate sinks again along with the supplement of kelp and drives the culture plate to sink to the lower part of the box cylinder.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the present invention.

Fig. 3 is a three-dimensional structure diagram of the present invention.

FIG. 4 is a schematic view of the matching structure of the feeding tray and the cultivation tray in the invention.

Fig. 5 is a schematic perspective view of the container of the present invention.

FIG. 6 is a first schematic view of the structure of the cultivation tray of the present invention.

FIG. 7 is a second schematic view of the structure of the cultivation tray of the present invention.

FIG. 8 is a third schematic view of the structure of the culture tray of the present invention.

FIG. 9 is a schematic view of the structure of a feeder pan of the present invention.

Fig. 10 is a schematic view of a conventional fish steak layout structure.

Detailed Description

The high-efficiency seafood abalone fry breeding method as shown in the figures 1-10 comprises the following steps:

placing abalone fries in the culture tray 3, wherein the abalone fries are adsorbed on the inner wall of the inner tray 32 and the side wall of the bifurcation plate 33;

placing the culture tray 3 in the box barrel 1 in advance;

the fish steaks A are placed on the water surface, a culture area B is formed among the fish steaks A, then the box barrel 1 is connected with the fish steaks A through ropes (nylon ropes), the box barrel 1 is placed in the culture gap B, the cost is reduced by using the existing fish steaks as limiting carriers of the box barrel 1, and the box barrel 1 is guaranteed to float in the culture area B under the action of the floating ring 13; note that this is different from the existing ones which suspend abalone farming installations directly on the fish raft, the tank 1 of the present application floats throughout in the farming area B.

Wherein the flange 12 and the upper part of the barrel 11 are located above the horizontal plane; the inner disk 32 moves upwards to the upper part of the box cylinder 1 under the action of the floating platform 35; the guide tube 34 prevents displacement of the inner disc 32 during upward movement of the inner disc 32;

the bandage 24 is pulled open, the kelp is placed in the area between the side bracket 22 and the bottom net 23 through the entrance window 211 in advance, and the kelp is limited in a certain area by the side bracket 22 and the bottom net 23, so that the kelp is prevented from scattering;

the stopper rod 251 is moved by the handle 2533 such that the bottom end of the stopper rod 251 is aligned with the guide tube 34, and then the stopper rod 251 is inserted into the guide tube 34 while the guide tube 34 gradually passes through the through hole 252 as the stopper rod 251 and the disc frame 21 descend;

under the action of the gravity of the feeding disc 2 and the gravity of the sea belt in the feeding disc 2, the feeding disc 2 moves downwards and props against the inner disc 32, under the mutual combined action of the upward buoyancy of the inner disc 32 and the downward gravity of the feeding disc 2, the feeding disc 2 pushes the inner disc 32 to move downwards until the bottom of the base 31 props against the inner side wall of the bottom stop 14, at the moment, the floating platform 35 protrudes out of the bottom end face of the bottom stop 14, and the floating platform 35 is positioned on the lower end face of the barrel body 11;

the bottom of the bottom net 23 is contacted with the upper part of the forked plate 33, meanwhile, the side bracket 22 is close to the inner side wall of the inner disc 32, and the abalones adsorbed on the inner wall of the inner disc 32 and the abalones adsorbed on the forked plate 33 eat the kelp in the feeding disc 2;

as the kelp in the feeding tray 2 is gradually eaten by the abalone, the weight of the kelp in the feeding tray 2 is gradually reduced, and the downward pressure of the feeding tray 2 on the culture tray 3 is gradually reduced; breed dish 3 rebound under the effect of 35 buoyancy on floating platform, along with breed 3 rebound of dish, breed 3 rebound of dish 2 and upwards promote the dish of feeding and upwards remove gradually, and after the kelp in the dish of feeding 2 was finished by the abalone feed, breed 3 upwards promote the dish of feeding 2 and remove to 1 upper portion of barrel box, then will feed through handle 2533 and coil 2 and pull out, put into the kelp in the dish of feeding 2 again, repeat above-mentioned step can.

Wherein a feeding plate 2 and a breeding plate 3 are arranged in a box barrel 1, the feeding plate 2 is positioned on the upper part of the breeding plate 3, the feeding plate 2 is contacted with the breeding plate 3, the breeding plate 3 moves upwards under the action of self buoyancy, when kelp is not filled in the feeding plate 2, the feeding plate 2 extrudes the breeding plate 3 downwards under the action of self gravity, the breeding plate 3 is positioned at the position close to the upper part of the box barrel 1 at the moment, the whole breeding plate 3 is positioned below the water surface, and the feeding plate 2 is positioned at the position on the upper part of the box barrel 1 under the action of the upward thrust of the breeding plate 3, so that a feeder can find out the condition of the kelp feed in the feeding plate 2 in time so as to supplement the kelp feed for the abalone in time, after the kelp feed is filled in the feeding plate 2, the feeding plate 2 moves downwards under the action of self gravity and the kelp gravity and extrudes the breeding plate 3, so that the breeding plate 3 further moves downwards to the bottom of the box barrel 1, at this time, the breeding plate 3 is positioned in the water layer at the lower part of the box barrel 1, and the abalones eat the sea tangles in relatively deep water.

Please refer to fig. 5, the box barrel 1 includes a barrel 11, a flange 12, a floating ring 13 and a bottom block 14, the barrel 11 is cylindrical, and the upper opening of the barrel 11 with both open upper and lower ends is used for taking the feeding tray 2 and adding the feed, the lower opening of the barrel 11 is convenient for the whole floating of the cultivation tray 3 and the material exchange between the barrel 11 and the outside, so that the flange 12 is fixed on the upper portion of the barrel 11, the flange 12 protrudes out of the outer wall of the barrel 11 and the flange 12 surrounds the barrel 11 for a circle, the floating ring 13 is fixed on the bottom of the flange 12, the floating ring 13 is made of polyurethane foam, the floating ring 13 is circular, the bottom block 14 is fixed on the bottom of the barrel 11, the bottom block 14 is of flange structure, the block 14 protrudes out of the inner wall of the barrel 11, and the upper portion of the barrel 11 protrudes out of the flange 12. The round holes 111 are uniformly distributed on the side wall of the cylinder 11, and the round holes 111 play a role in exchanging water sources and nutrient substances between the inside of the cylinder 11 and the outside. Under the action of the floating ring 13, the upper part of the barrel body 11 floats on the water surface, the lower part of the barrel body 11 is positioned below the water surface, the whole barrel body 11 is equivalent to a container capable of exchanging internal and external water sources, the culture disc 3 can move up and down in the barrel body 11, the backstop 14 can prevent the culture disc 3 from being separated from the barrel body 11, meanwhile, the culture disc 3 can play a role of 'blocking' the bottom opening of the barrel body 11, and abalone 'escape' and external impurities are prevented from entering the barrel body 11; feed set 2 and breed 3 and can carry out relatively stable's removal in stack shell 11, breed 3 and feed the regional abalone of supplying between set 2 and the stack shell 11 of feeding and rest the feed, and stack shell 11 can in time carry out the exchange of material, water with the external world simultaneously and do benefit to the abalone and grow.

The culture tray 3 comprises a base 31, an inner tray 32, a bifurcation plate 33, a guide pipe 34 and a floating platform 35, wherein the base 31 is of a circular plate-shaped structure, the diameter of the base 31 is slightly smaller than that of the barrel 11, the base 31 can move up and down in the barrel 11, meanwhile, the base 31 can seal the bottom of the barrel 11, so that the space at the upper part of the base 31 is relatively sealed in the upward moving process of the base 31, the inner tray 32 is fixed at the upper part of the base 31, the inner tray 32 is formed by surrounding the upper surface of the base 31 by an inner ring plate 321, the main body of the inner ring plate 321 is of a cylindrical structure, the diameter of the inner ring plate 321 is gradually increased from bottom to top, the diameter of the inner ring plate 321 far away from the base 31 is larger than that the inner ring plate 321 is close to the base 31, the inner wall of the inner tray 32 serves as a main adsorption resting place for abalones to grow depending on the inner wall of the inner tray 32, the bifurcation plate 33 is fixed in the inner tray 32, the inner tray 33 divides the inner tray 32 into a plurality of isolation chambers 322, the abalone can adsorb and rest at inner circle board 321 inner wall and the outer wall of bifurcation board 33 eating, and the surface area that the bifurcation board 33 has increased inner pan 32 on the one hand does benefit to and raises more abalone, and on the other hand when the contact of feeding dish 2 bottom bifurcate board 33, the kelp that the easy feed feeding dish 2 of bifurcation board 33 spilt or the kelp in the feeding dish 2 can be crossed to the abalone.

One side of the base 31 is provided with a guide hole 311, the guide hole 311 is in a circular hole shape, the guide pipe 34 penetrates through the guide hole 311, the guide pipe 34 protrudes upwards from the upper surface of the base 31, the bottom of the guide pipe 34 is fixed on the bottom baffle 14, the base 31 can stably move up and down under the limiting action of the guide pipe 34, the bottom of the base 31 is fixed with a floating platform 35, the floating platform 35 is made of polyurethane foam material, the floating platform 35 is in a columnar structure, the floating platform 35 generates upward buoyancy, and the buoyancy can push the base 31, the inner disc 32 and the forked plate 33 to move upwards.

The guide tube 34 is a hollow round tubular structure. The guide tube 34 can limit the movement of the base 31 on the one hand and the hollow structure of the guide tube 34 can facilitate the subsequent up-and-down displacement of the limiting rod 251 in the guide tube 34 on the other hand.

The bifurcating plate 33 is composed of a plurality of partition boards 331, the partition boards 331 are radially distributed around the center of the inner disk 32, the main body of each partition board 331 is in a ladder-shaped structure, partition board gaps 332 are formed between every two adjacent partition boards 331, the height of the partition board 331 close to the center is larger than that of the partition board 331 far away from the center of the inner disk 32, and one side of each partition board 331 is tightly attached to the inner side wall of the inner disk 32. Thereby baffle 331 is on the one hand as "bridge" be convenient for the abalone to creep to the bifurcation board 331 from inner circle board 321 and reduce the distribution density of abalone, and on the other hand the spatial structure of baffle 331 and this spatial structure are located 2 bottoms of feeding dish can be convenient for the abalone to feed the kelp in feeding dish 2 through baffle 331 like this, have improved the efficiency of feeding the abalone.

Please refer to fig. 8, the feeding pan 2 is a trumpet-shaped structure as a whole, the feeding pan 2 includes a pan frame 21, a side support 22, a bottom net 23, a bandage 24 and a limit component 25, the main body of the pan frame 21 is an annular structure, the middle part of the pan frame 21 is provided with an inlet window 211, the inlet window 211 is circular, the upper part of the inlet window 211 is provided with the bandage 24, the side support 22 is fixed at one side of the bottom of the inlet window 211, the bottom net 23 is fixed at the bottom of the side support 22, the pan frame 21 is fixedly connected with the bottom net 23 through the side support 22, and the pan frame 21 is connected with the cultivation pan 3 in a lifting manner through the limit component 25. The plate frame 21 drives the side support 22, the bottom net 23 and the bandage 24 to move integrally, when the kelp is put into the area between the side support 22 and the bottom net 23 through the inlet window 211, the kelp is fixed in the area through the bandage 24, and under the combined action of the gravity of the feeding plate 2 and the gravity of the added kelp, the feeding plate 2 moves downwards through the limiting function of the limiting component 25, or the feeding plate 2 moves upwards under the pushing-up action of the cultivation plate 3.

The side bracket 22 is composed of a plurality of inclined rods 221, the inclined rods 221 are obliquely arranged, that is, the inclined rods 221 are in the shape of ㇏, and inclined rod gaps 222 are formed between adjacent inclined rods 221; the down tube 221 one end and the bottom fixed connection of dish frame 21, the down tube 221 other end and bottom net 223 upper portion fixed connection, the down tube 221 can avoid the kelp to break away from with the feeder pan 2, and down tube clearance 222 can be convenient for the kelp to spill wherein the kelp spills the kelp that the food that the abalone on inner wall of inner pan 32 can be convenient like this spills from down tube clearance 222 and spills the kelp.

The bottom net 23 is a plane structure, and the bottom net 23 is parallel to the disc frame 21; the outer diameter of the bottom net 23 is smaller than that of the disc frame 21, and the outer diameter of the bottom net 23 is smaller than the minimum diameter of the inner disc 32; after the bottom net 23 is contacted with the partition 331, the abalones on the partition 331 can directly feed the kelp leaked from the bottom net 23 upwards;

the bottom net 23 comprises an outer ring frame 231, an inner ring I232, an inner ring II 233 and a connecting rod 234, the upper end faces and the lower end faces of the outer ring frame 231, the inner ring I232, the inner ring II 233 and the connecting rod 234 are all located on the same horizontal plane, the outer ring frame 231 is of a circular ring structure, the inner ring I232 is arranged in the outer ring frame 231, the inner ring II 233 is arranged in the inner ring I232, the outer ring frame 231, the inner ring I232 and the inner ring II 233 are fixedly connected through the connecting rod 234, the outer ring frame 231, the inner ring I232 and the inner ring II 233 are concentric circles, the inner diameter of the outer ring frame 231 is larger than that of the inner ring I232, the inner diameter of the inner ring I232 is larger than that of the inner ring II 232, and gaps are reserved among the outer ring frame 231, the inner ring I232 and the inner ring II 233. The annular structures of the outer ring frame 231, the inner ring I232, the inner ring II 233 and the like can correspond to the annular structure boxes of the inner disc 32 and the bifurcation plate 33 so as to increase the contact area between the inner disc 32 and the bifurcation plate 33 and the bottom net 23.

The other end of the inclined rod 221 is fixedly connected with the upper surface of the outer ring frame 231.

The bandage 24 is made up of several rubber strips which are distributed in a cross-like manner, the ends of the bandage 24 being fixed to the reel 21. The bandage 24 prevents floating displacement of the kelp placed in the feeder pan 2, so that the kelp located in the feeder pan 2 can be confined in the feeder pan 2.

The limiting component 25 comprises a limiting rod 251, a through hole 252 and a shifting rod 253, the limiting rod 251 is in a round rod shape, the diameter of the limiting rod 251 is smaller than the inner diameter of the guide pipe 34, the limiting rod 251 is sleeved in the guide pipe 34, the guide pipe 34 penetrates through the through hole 252, the through hole 252 is located on one side of the plate frame 21, the through hole 252 penetrates through the plate frame 21, and the shifting rod 253 drives the feeding plate 2 and the limiting rod 251 to move up and down. Along with the up-and-down movement of the disk frame 21, the limiting rod 251 moves up and down in the guide tube 34, and the moving rod 253 can also drive the limiting rod 251 and the disk frame 21 to move up and down simultaneously, so that the shifting rod 253 can be directly pulled to take the limiting rod 251 out of the guide tube 34 and take the disk frame 21 out of the box barrel 1 directly.

The shifting rod 253 comprises a vertical block 2531, a transverse block 2532 and a handle 2533, the bottom end of the vertical block 2531 is fixedly connected with one side of the feeding plate 2, the upper end of the vertical block 25311 is fixedly connected with the upper end of the limiting rod 251 through the transverse block 2532, the bottom end of the handle 2533 is fixedly connected with the upper end face of the transverse block 2532, and the handle 2533 is bent.

Claims

1. A high-efficiency seafood abalone seedling raising method is characterized by comprising the following steps: placing abalone fries in the culture tray, wherein the abalone fries are adsorbed on the inner wall of the inner tray and the side wall of the bifurcation plate;

placing the culture tray in the box barrel in advance;

placing the fish steaks A on the water surface, forming a culture space B between the fish steaks A, connecting a box cylinder with the fish steaks A through a rope, placing the box cylinder in the culture gap B, and floating the box cylinder in the culture space B under the action of a floating ring; wherein the flange and the upper part of the cylinder body are positioned above the horizontal plane; the inner disc moves upwards to the upper part of the box cylinder under the action of the floating platform; the guide pipe avoids the displacement of the inner disc in the process of moving the inner disc upwards;

2. The method for culturing the seedlings of the seafood and the abalone as claimed in claim 1, wherein a feeding plate and a culturing plate are arranged in the box cylinder, the feeding plate is located on the upper portion of the culturing plate, the feeding plate is in contact with the culturing plate, and the culturing plate moves upwards under the action of buoyancy of the culturing plate.

3. The method for culturing the seedlings of the seafood and the abalone as claimed in claim 2, wherein when the kelp is not filled in the feeding tray, the feeding tray downwardly extrudes the cultivation tray under the action of gravity of the feeding tray, the cultivation tray is located at the position close to the upper part of the box cylinder, the whole cultivation tray is located below the water surface, the feeding tray is located at the position above the box cylinder under the action of upward thrust of the cultivation tray, and therefore the feeding personnel can find the situation of the kelp feed in the feeding tray in time so as to supplement the kelp for the abalone to eat in time.

4. The method for culturing the seedlings of the high-efficiency seafood and abalone as claimed in claim 3, wherein after the feeding tray is filled with the kelp feed, the feeding tray moves downwards under the action of the gravity of the feeding tray and the gravity of the kelp and acts on the culture tray in a squeezing manner, so that the culture tray further moves downwards to the bottom of the box barrel, and the culture tray is located in the water layer at the lower part of the box barrel.