CN115812662A - Fry breeding and transferring method - Google Patents

Abstract

The invention belongs to the field of aquatic products, and particularly relates to a fry breeding and transferring method. According to the invention, the oxygen bag is placed into the bag storage box distributed from top to bottom, and then the cover cap is buckled, so that the oxygen bag, the bag storage box, the cover cap, the support box and the inserting hopper form a stable shock-resistant and stress-resistant integral structure, when an external force acts on the oxygen bag in the bag storage box, the bag storage box firstly disperses a part of force, and the force applied to the oxygen bag is dispersed through the transmission of the inner enclosure, the outer enclosure, the spring, the inner enclosure, the mesh at the bottom of the inner enclosure and the transmission of the adjacent oxygen bag, so that the damage of the oxygen bag is avoided.

Description

Fry breeding and transferring method

Technical Field

The invention belongs to the field of aquatic products, and particularly relates to a fry breeding and transferring method.

Background

Current fry breed the mode that adopts the oxygen bag transportation in the transportation more, and is concrete to grow seedlings and water and put into in the transparent plastic bag then aerify in toward the oxygen bag and stack the oxygen bag after will aerifing and place in the carriage and transport (as shown in fig. 14), and the in-process oxygen bag at the transport oxygen bag is damaged very easily: if workers press the oxygen bags one by one on the carriage when the oxygen bags are placed in the carriage, the workers easily damage the oxygen bags when taking and placing the oxygen bags, the oxygen bags at the bottom are easily crushed by the oxygen bags at the upper part of the oxygen bags due to the weight of the oxygen bags, and meanwhile, the oxygen bags cannot be trampled by the workers and cannot be well operated in the carriage full of the oxygen bags, and the oxygen bags can be trampled by the workers carelessly; the oxygen bag is easy to damage due to jolt of a transport vehicle in the transportation process, the fry and water in the damaged oxygen bag directly flow into the carriage without recycling value, and meanwhile, the temperature in the carriage is not beneficial to the survival of the fry in the oxygen bag; when the vehicle arrives at a destination, workers need to timely remove the oxygen bag from the carriage, and the oxygen bag is also damaged by the operation of the workers, so that the oxygen bag is easily damaged by the external influence as a single whole in the whole loading, unloading and transporting process of the oxygen bag, and the transporting efficiency of the fry is influenced.

Disclosure of Invention

In order to solve the problem of low fry transportation efficiency in the prior art, the invention provides a fry breeding and transferring method. The invention is a complete anti-external force system for transporting oxygen bags, a plurality of oxygen bags and the combined oxygen bag are not stressed singly any more, and the oxygen bags are also taken as a whole in the process of dispersing stress of the system, so that the oxygen bags are gathered together to form an anti-external force whole, and the external force is dispersed, thereby greatly reducing the damage probability of the oxygen.

In order to achieve the purpose, the invention adopts the following technical scheme: a fry breeding and transferring method comprises the following steps:

injecting water into the oxygen bag, adding the fry, then filling oxygen into the oxygen bag until the oxygen bag expands, and then sealing the oxygen bag for later use;

putting ice blocks into the box body from an opening on the box body;

taking a bag storage box, aligning a through hole of the bag storage box with a vertical pipe, then pushing the bag storage box to enable the vertical pipe to penetrate through the through hole of the bag storage box and a sleeve of the bag storage box, and finally enabling a frame at the bottom of the bag storage box to be attached and contacted with the edge of the upper end face of the penetrating hopper, wherein a mesh at the bottom of the bag storage box is positioned right above the penetrating hopper;

sequentially placing the standby oxygen bags into a first storage chamber, a second storage chamber, a third storage chamber and a fourth storage chamber of the bag storage box;

taking another bag storage box, aligning the through hole of the bag storage box with the vertical pipe, then pushing the bag storage box to enable the vertical pipe to penetrate through the through hole of the bag storage box and the sleeve of the bag storage box, finally enabling the frame at the bottom of the bag storage box to be in fit contact with the upper part of the barrier of the bag storage box at the bottom, and enabling the mesh at the bottom of the bag storage box at the upper part to be right opposite to the upper part of the bag storage box at the bottom; sequentially placing the spare oxygen bags into a first storage chamber, a second storage chamber, a third storage chamber and a fourth storage chamber of another bag storage box;

sleeving a cover cap at the upper opening of the other bag storage box;

the fork of the forklift penetrates through the insertion gap, and then the supporting box, the inserting hopper, the bag storage box and the cover cap are placed in the carriage side by the forklift.

When the cap or the bag storage box is subjected to the action of an external force F, the oxygen bag positioned in the bag storage box is equivalently positioned in a relatively sealed space, the bag storage box and the oxygen bag are firstly subjected to the action of the external force, and the external force is dispersed under the combined action of the inner barrier, the outer barrier, the spring, the inner barrier and the bottom mesh of the bag storage box and the oxygen bag, so that the damage of the oxygen bag is avoided; when the bag reaches the destination, the fork can be directly used for penetrating the insertion gap, and the fork truck is used for penetrating the supporting box, the inserting hopper and the bag storage box

The cap is integrally moved out of the carriage, and the oxygen bag in the bag storage box can be taken out at any time according to the requirement.

It is preferable to use

The bottom of the inserting hopper is fixed on the supporting box and the inserting hopper is communicated with the supporting box;

the bag storage box is internally provided with an oxygen bag, the upper part of the bag storage box is open, the bag storage box is positioned at the upper part of the inserting hopper, the inserting hopper penetrates through the bag storage box, the number of the bag storage boxes is at least two, and the bag storage boxes are stacked from top to bottom;

the upper part of the cap is sealed, the lower part of the cap is open, and the cap is sleeved on the upper part of the bag storage box;

the interlude fill includes:

the vertical pipe is made of plastic, is of a hollow square tubular structure, and is open at the upper end and the lower end;

the water receiving hopper is funnel-shaped, the bottom of the vertical pipe vertically penetrates through the middle position of the water receiving hopper, and the bottom of the vertical pipe is communicated with the box body;

the vertical pipe is provided with water passing notches at the crossed position with the bottom of the water receiving hopper in a penetrating way, the main body of each water passing notch is of a cuboid hollow structure, the number of the water passing notches is four, and the water passing notches are uniformly distributed on four surfaces of the vertical pipe;

store up the bag case and include:

the frame is of a rectangular structure and is made of rubber;

the net piece is a nylon net, is fixed in the frame and covers the frame;

the enclosure is fixed on the frame and surrounds the frame for a circle, and a storage space is formed among the enclosure, the frame and the meshes;

the inner partition is fixed on the upper portion of the net piece, the edge of the inner partition is fixedly connected with the surrounding partition, the inner partition is located in the storage space and divides the storage space into different areas, and the vertical pipe penetrates through the inner partition.

The preferred support box comprises:

the supporting blocks are long-strip-shaped, and the number of the supporting blocks is two;

the box body is of a hollow sealing structure, the supporting blocks are respectively fixed on two sides of the bottom of the box body, the supporting blocks extend from one end of the box body to the other end of the box body, and an insertion gap is formed between the supporting blocks and the box body;

preferred fenders include:

the peripheral baffle is made of canvas materials and surrounds the frame for one circle;

the bottom of the spring is fixed on the upper surface of the frame, the springs are distributed on the frame at intervals, and the inner side wall of the peripheral baffle is fixed and clings to the outer side wall of the spring;

the inner wall baffle is made of canvas materials, surrounds the frame for one circle, and is fixed on the outer side wall and clings to the inner side wall of the spring; a buffer gap is formed between the outer wall baffle and the inner wall baffle, and the springs are distributed in the buffer gap.

Preferred inner baffles include:

the sleeve is made of canvas, the sleeve is of a cuboid tubular structure, two ends of the sleeve are both in an open shape, the sleeve is vertically fixed on the net piece and is positioned right above the via hole, and the central axis of the sleeve is superposed with the central axis of the via hole;

the first separating baffle is made of canvas materials and is of a sheet structure, one end of the first separating baffle is fixedly connected with the side wall of the sleeve, the other end of the first separating baffle is fixedly connected with the side wall of the inner periphery baffle, and the upper end face of the first separating baffle is positioned below the upper end face of the inner periphery baffle;

the second separating baffle is made of canvas materials and is of a sheet structure, one end of the second separating baffle is fixedly connected with the side wall of the sleeve, the other end of the second separating baffle is fixedly connected with the side wall of the inner periphery baffle, and the upper end face of the second separating baffle is positioned below the upper end face of the inner periphery baffle;

the separating baffle piece III is made of canvas materials and is of a sheet structure, one end of the separating baffle piece III is fixedly connected with the side wall of the sleeve, the other end of the separating baffle piece III is fixedly connected with the side wall of the inner periphery baffle, and the upper end surface of the separating baffle piece III is positioned below the upper end surface of the inner periphery baffle;

the fourth separating baffle is made of canvas materials and is of a sheet structure, one end of the fourth separating baffle is fixedly connected with the side wall of the sleeve, the other end of the fourth separating baffle is fixedly connected with the side wall of the inner periphery baffle, and the upper end surface of the fourth separating baffle is positioned below the upper end surface of the inner periphery baffle; the separation blocking piece I, the separation blocking piece II, the separation blocking piece III and the separation blocking piece IV are symmetrically distributed on the periphery of the sleeve.

Preferably, a first storage chamber is formed among the first separation baffle, the fourth separation baffle, the sleeve, the mesh and the inner enclosure, a second storage chamber is formed among the first separation baffle, the second separation baffle, the sleeve, the mesh and the inner enclosure, a third storage chamber is formed among the second separation baffle, the third separation baffle, the sleeve, the mesh and the inner enclosure, and a fourth storage chamber is formed among the third separation baffle, the fourth separation baffle, the sleeve, the mesh and the inner enclosure.

The beneficial effects of the invention are: the oxygen bag is placed into the bag storage box distributed from top to bottom, and then the cap is buckled, so that the oxygen bag, the bag storage box, the cap, the support box and the inserting hopper form a stable shock-resistant and stress-resistant integral structure;

the supporting box supports and alternates the fill, storage bag case and stable the placing on the horizontal plane of block, through storing up the bag case and inserting the cooperation of fighting, on the one hand, store up the bag case and can fold pile up from top to bottom and not shift, on the other hand oxygen bag is in case damaged, fish and water that flow out from the oxygen bag can be followed and are strutted fill from top to bottom and get into to the supporting box in, and the air conditioning in the supporting box can be through alternating fill diffusion to storing up the bag incasement, thereby control the temperature in storing up the bag incasement, avoid the high temperature to cause the death of growing seedlings, the low temperature environment in the supporting box does benefit to the survival of the fry that gets into it simultaneously.

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 first schematic diagram of the explosive structure of the present invention.

Fig. 4 is a schematic perspective view of the insertion funnel of the present invention.

Fig. 5 is a schematic top view of the insertion funnel of the present invention.

Fig. 6 isbase:Sub>A schematic view of the structurebase:Sub>A-base:Sub>A in fig. 5.

Fig. 7 is an enlarged schematic view of a portion a in fig. 4.

Fig. 8 is a schematic perspective view of a bag storage box according to the first embodiment of the present invention.

FIG. 9 is a schematic perspective view of a second embodiment of the bag storage box of the present invention.

Fig. 10 is a schematic perspective view of the bag box of the present invention with the peripheral barrier removed.

Fig. 11 is a schematic view of the cap structure of the present invention.

Fig. 12 is a second schematic diagram of the explosive structure of the present invention.

Fig. 13 is a schematic view of the structure of the oxygen bag of the present invention.

Fig. 14 is a schematic view of a conventional oxygen bag transfer structure according to the present invention.

Detailed Description

The fry breeding and transferring method as shown in fig. 1-14 relates to the structure as follows:

the supporting box 1 is internally provided with ice blocks;

the bottom of the inserting hopper 2 is fixed on the supporting box 1, and the inserting hopper 2 is communicated with the supporting box 1;

the oxygen storage bag comprises a bag storage box 3, an oxygen bag 5 is stored in the bag storage box 3, the upper part of the bag storage box 3 is open, the bag storage box 3 is positioned at the upper part of an inserting hopper 2, the inserting hopper 2 penetrates through the bag storage box 3, the number of the bag storage boxes 3 is at least two, and the bag storage boxes 3 are stacked from top to bottom;

the upper part of the cap 4 is sealed, the lower part of the cap 4 is open, and the cap 4 is sleeved on the upper part of the bag storage box 3; the support box 1 can stably support the bag storage box 3, collect water flowing out of the bag storage box 3, meanwhile, the support box 1 can provide the bag storage box 3 with a proper temperature, the inserting hopper 2 plays a role in connecting the bag storage box 3 of the support box 1 and can also play a role in fixing and limiting the bag storage box 3, the oxygen storage bag 5 in the bag storage box 3 can prevent the oxygen bag 5 from being damaged due to external effects in the transportation or storage process, meanwhile, the oxygen bag 5 in the bag storage box 3 is damaged once, water and fish fry in the oxygen bag 5 can move downwards along the bag storage box 3 and finally enter the support box 1 through the inserting hopper 2, on the other hand, once the oxygen bag 5 is placed in the bag storage box 3, the oxygen bag 5 in the bag storage box 3 is favorable for the flexible structure of the bag storage box 3 to be located between the adjacent bag storage boxes 3 or between the cover cap 4 and the bag storage box 3, the oxygen bag 5 in the bag storage box 3 can be integrated with the bag storage box 3, the overall compression resistance of the bag storage box 3 is jointly improved, and the external pressure of the oxygen bag 5 in the bag storage box 3 is prevented from being broken, and the transfer efficiency is improved.

The support box 1 includes:

the supporting blocks 11 are long-strip-shaped, and the number of the supporting blocks 11 is two;

the box body 12 is a hollow sealing structure, the supporting blocks 11 are respectively fixed at two sides of the bottom of the box body 12, the supporting blocks 11 extend from one end of the box body 12 to the other end of the box body 12, and an insertion gap 13 is formed between the supporting blocks 11 and the box body 12; preferably, the outer surface of the side wall of the box body 12 is coated with heat insulation cotton, and when ice cubes are put into the box body 12, the heat insulation cotton prevents cold air in the box body 12 from diffusing to the external environment, so that the cold air in the box body 12 can diffuse into the bag storage box 3 through the inserting hopper 2, and the temperature in the bag storage box 3 is reduced;

the box body 12 is provided with an opening 121; opening 121 for dispensing ice or water into tank 12 or for later cleaning tank 12;

referring to fig. 4, 5 and 6, the insertion bucket 2 includes:

the vertical pipe 21 is made of plastic, such as pp or pe plastic, the vertical pipe 21 is a hollow square tubular structure, and the upper end and the lower end of the vertical pipe 21 are both open;

the water receiving hopper 22 is funnel-shaped, the bottom of the vertical pipe 21 vertically penetrates through the middle position of the water receiving hopper 22, and the bottom of the vertical pipe 21 is communicated with the box body 12;

the vertical pipe 21 is provided with water passing notches 211 at the position intersected with the bottom of the water receiving hopper 22 in a penetrating manner, the main body of each water passing notch 211 is of a cuboid hollow structure, the number of the water passing notches 211 is four, and the water passing notches 211 are uniformly distributed on four surfaces of the vertical pipe 21; the vertical pipe 21 is used for fixing the bag storage box 3, so that the bag storage box 3 can be stacked from top to bottom without displacement, and if the cultivation bags 5 in the bag storage box 3 stacked from top to bottom are broken, water flowing out of the broken cultivation bags 5 can flow into the water receiving hopper 22 from top to bottom, then enters the vertical pipe 21 through the water gap 211 and enters the supporting box 1 through the vertical pipe 21.

Referring with emphasis to fig. 8, 9 and 10, the bag box 3 includes:

the frame 31, the frame 31 is a rectangular structure, the frame 31 is made of rubber;

the net piece 32 is a nylon net, the nylon net has meshes and has certain contraction and elasticity, the net piece 32 is fixed in the frame 31, and the net piece 32 covers the frame 31; preferably, a through hole 321 is formed in the middle of the mesh sheet 32, and the through hole 321 is used for the vertical pipe 21 to pass through; the meshes of the mesh 32 are permeable to water, so that water can flow downwards through the mesh 32, the water is prevented from being accumulated on the mesh 32, and meanwhile, the mesh 32 has certain elasticity, so that when the oxygen bag 5 is subjected to an upward or downward force, the mesh 32 can buffer the external force applied to the oxygen bag 5, and the oxygen bag 5 is prevented from being damaged due to the external force.

The enclosure 33 is fixed on the frame 31, the enclosure 33 surrounds the frame 31, and a storage space 330 is formed between the enclosure 33 and the frame 31 and the mesh 32; the storage space 330 is used for storing the oxygen bag 5. Enclose fender 33 and be used for prescribing an limits oxygen bag 5 in certain space range, enclose fender 33 simultaneously and can resist external power with oxygen bag 5 when receiving the external effort of enclosing fender 33 outside to avoid enclosing the oxygen bag 5 in the fender 33 and receive the damage, moreover enclose oxygen bag 5 in the fender 33 in the motion extrusion process also can in time be by enclosing the damage that fender 33 offset thereby avoiding oxygen bag 5 to enclosing the effort that fender 33 produced.

The inner partition 34 is fixed on the upper part of the mesh 32, the edge of the inner partition 34 is fixedly connected with the enclosure 33, the inner partition 34 is positioned in the storage space 330, the storage space 330 is divided into different areas by the inner partition 34, so that the oxygen bag 5 can be conveniently stored, and the vertical pipe 21 penetrates through the inner partition 34; the inner partition 34 has the function of dividing the storage space 330 and the different oxygen bags 5, so that the direct contact and collision of the oxygen bags 5 placed in the enclosure 33 are avoided, the collision force between the oxygen bags 5 is counteracted by the inner partition 34 as a buffer, and the probability of damage of the oxygen bags 5 caused by collision in the enclosure 33 is reduced.

The enclosure 33 includes:

the peripheral baffle 331 is made of canvas, the canvas has certain waterproofness and certain flexibility, so that the peripheral baffle 331 has waterproofness and flexibility to prevent the peripheral baffle 331 from damaging the oxygen bag, and the peripheral baffle 331 surrounds the frame 31 for a circle;

the springs 332 are preferably plastic springs, the bottoms of the springs 332 are fixed on the upper surface of the frame 31, the number of the springs 332 is several, the springs 332 are distributed on the frame 31 at intervals, and the inner side wall of the peripheral baffle 331 is fixed and clings to the outer side wall of the springs 332; the peripheral shield 331 is made of canvas and the peripheral shield 331 is connected to the spring 332 so that the peripheral shield 331 can move in an upward direction, a downward direction or a left-right direction along with the spring 332.

The inner enclosure 333 is made of canvas, the canvas has certain waterproofness and certain flexibility, so that the inner enclosure 333 has waterproofness and flexibility to prevent the inner enclosure 333 from damaging the oxygen bag, the inner enclosure 333 surrounds the frame 31 for one circle, and the outer side wall of the inner enclosure 333 is fixed and clings to the inner side wall of the spring 332; a buffer gap 334 is formed between the outer wall 331 and the inner wall 333, and the springs 332 are distributed in the buffer gap 334. The spring 332 is wrapped by the inner wall 333 and the outer wall 331, on one hand, the spring 332 plays a role in supporting the inner wall 333 and the outer wall 331 to enable the inner wall 333 and the outer wall 331 to be in a vertical state, on the other hand, the inner wall 333 selects a canvas material and the inner wall 333 is connected with the spring 332, so that the inner wall 333 can move upwards or downwards or leftwards and rightwards along with the spring 332, meanwhile, a buffer gap 334 exists between the inner wall 333 and the outer wall 331, the buffer gap 334 can play a role in buffering the external force when the inner wall 333 and the outer wall 331 respectively or simultaneously receive the external force, and the spring 332 in the buffer gap 334 can well counteract the external force.

The inner barrier 34 includes:

the sleeve 341 is made of canvas, the sleeve 341 is of a rectangular parallelepiped tubular structure, two ends of the sleeve 341 are open, the sleeve 341 is vertically fixed on the mesh 32, the sleeve 341 is positioned right above the through hole 321, and the central axis of the sleeve 341 is superposed with the central axis of the through hole 321; therefore, when the standpipe 21 passes through the through hole 321, the standpipe 21 can smoothly enter the sleeve 341, so that the sleeve 341 is connected with the standpipe 21, and the standpipe 21 is limited by the sleeve 341 for the bag storage box 3.

The first separating baffle 342 is made of canvas, the first separating baffle 342 is of a sheet structure, one end of the first separating baffle 342 is fixedly connected with the side wall of the sleeve 341, the other end of the first separating baffle 342 is fixedly connected with the side wall of the inner barrier 333, and the upper end face of the first separating baffle 34 is positioned below the upper end face of the inner barrier 333;

the separation blocking piece II 343, the separation blocking piece II 343 is made of canvas materials, and the separation blocking piece II 343 is of a sheet structure, one end of the separation blocking piece II 343 is fixedly connected with the side wall of the sleeve 341, the other end of the separation blocking piece II 343 is fixedly connected with the side wall of the inner surrounding block 333, and the upper end face of the separation blocking piece II 343 is located at a position below the upper end face of the inner surrounding block 333;

a third separating baffle 344, wherein the third separating baffle 344 is made of canvas and is of a sheet structure, one end of the third separating baffle 344 is fixedly connected with the side wall of the sleeve 341, the other end of the third separating baffle 344 is fixedly connected with the side wall of the inner wall baffle 333, and the upper end face of the third separating baffle 344 is positioned below the upper end face of the inner wall baffle 333;

a fourth blocking piece 345, the fourth blocking piece 345 is made of canvas, the fourth blocking piece 345 is of a sheet structure, one end of the fourth blocking piece 345 is fixedly connected with the side wall of the sleeve 341, the other end of the fourth blocking piece 345 is fixedly connected with the side wall of the inner surrounding block 333, and the upper end face of the fourth blocking piece 345 is positioned below the upper end face of the inner surrounding block 333;

the first blocking piece 342, the second blocking piece 343, the third blocking piece 344 and the fourth blocking piece 345 are symmetrically distributed on the periphery of the sleeve 341,

a first storage chamber 351 is formed among the first separation baffle 342, the fourth separation baffle 345, the sleeve 341, the mesh 32 and the inner enclosure 333, a second storage chamber 352 is formed among the first separation baffle 342, the second separation baffle 343, the sleeve 341, the mesh 32 and the inner enclosure 333, a third storage chamber 353 is formed among the second separation baffle 343, the third separation baffle 344, the sleeve 341, the mesh 32 and the inner enclosure 333, and a fourth storage chamber 354 is formed among the third separation baffle 344, the fourth separation baffle 345, the sleeve 341, the mesh 32 and the inner enclosure 333; the first baffle piece 342, the second baffle piece 343, the third baffle piece 344, the fourth baffle piece 345 and the sleeve 341 are made of canvas materials, so as to avoid the abrasion of the oxygen bag placed in the storage chamber in the later period, the spring 332 supports the inner wall baffle 333 and the outer wall baffle 331 to enable the inner wall baffle 333 and the outer wall baffle 331 to be in a vertical state, meanwhile, the standpipe 21 passes through the sleeve 341 and then provides a supporting function for the sleeve 341 to enable the sleeve 341 to be in a vertical state, the inner wall baffle 333, the outer wall baffle 331 and the sleeve 341 simultaneously support the first baffle piece 342, the second baffle piece 343, the third baffle piece 344 and the fourth baffle piece 345 to enable the first baffle piece 342, the second baffle piece 343, the third baffle piece 344 and the fourth baffle piece 345 to form four independent storage chambers, after the oxygen bag is placed in the storage chamber, the structure of the oxygen bag has certain elasticity, and the oxygen bag also plays a role of buffering the external force together with the inner wall baffle 34, the inner wall baffle 333, the outer wall baffle 331, the spring 332 and the mesh 32, the spring 332 and the vertical pipe 21 play a role of supporting a framework, and then the spring 332 and the vertical pipe 21 support the flexible structures of the baffle 34, the inner baffle 333, the peripheral baffle 331 and the mesh 32, so that the oxygen bag placed in the storage chamber and the storage chamber form an integrated shock-resistant and buffer structure, if the bag box 3 at the lower part is pressed downwards in the bag box 3 at the upper part, then because the force of the bag box 3 at the upper part acts on the oxygen bag 5 in the bag box 3 at the bottom part through the mesh 32 at the bottom part, the mesh 32 at the bottom part of the bag box 3 at the upper part is tightly attached to the bag box 3, the mesh 32 at the bottom part of the bag box 3 at the upper part and the bag box 3 at the lower part integrally form a stable structure for dispersing downward force, and when the oxygen bag in the storage chamber in the bag box 3 at the lower part is subjected to external force, the baffle and the inner baffle 333 of the bag box 3 at the lower part, under the combined action of the peripheral barrier 331, the spring 332, the inner barrier 34 and the mesh 32 at the bottom thereof, the force acting on the oxygen bag 5 can be dispersed in time, thereby avoiding the damage of the oxygen bag 5.

The cover cap 4 is made of canvas, and the projection of the cover cap 4 towards the bag storage box 3 covers the bag storage box 3; the cap 4 is involved in the composition of the stress dispersing structure of the topmost bag box 3, and when an external force is applied to the cap 4, the external force can be dispersed in time under the action of the cap 4 and the bag boxes 3 and 5 in the bag boxes 3, thereby avoiding the damage of the oxygen bag 5.

When in use, the oxygen bag 5 is filled with water, the fry is added, then the oxygen bag 5 is filled with oxygen until the oxygen bag 5 expands, and then the oxygen bag 5 is sealed for standby;

putting ice into the box 12 from the opening 121 on the box 12; increase the stability that the weight of box 12 does benefit to box 12 among the automobile driving process like this on the one hand, the ice-cube plays the effect that reduces storage bag case 3 internal temperature through the transmission effect of standpipe 21 in addition, form the water layer in box 12 after the ice-cube melts, after 5 damages of oxygen bag in storage bag case 3, fry and water leak into to the water receiving hopper 22 in then through water breach 211 entering to box 12 along the net piece 32 of storage bag case 3 bottom in, the fry in the damaged oxygen bag 5 is received to box 12, thereby abundant low temperature water conservancy does benefit to the survival of fry in the save of the vigor of growing seedlings in the box 12.

Taking a bag storage box 3, aligning a through hole 321 of the bag storage box 3 with a vertical pipe 21, then pushing the bag storage box 3 to enable the vertical pipe 21 to penetrate through the through hole 321 of the bag storage box 3 and a sleeve 341 of the bag storage box 3, and finally enabling a frame 31 at the bottom of the bag storage box 3 to be attached and contacted with the edge of the upper end face of an inserting hopper 2, wherein a mesh 32 at the bottom of the bag storage box 3 is positioned right above the inserting hopper 2;

placing the spare oxygen bags 5 into a first storage chamber 351, a second storage chamber 352, a third storage chamber 353 and a fourth storage chamber 354 of the bag box 3 in sequence;

taking another bag storage box 3, aligning the through hole 321 of the bag storage box 3 with the vertical pipe 21, then pushing the bag storage box 3 to enable the vertical pipe 21 to penetrate through the through hole 321 of the bag storage box 3 and the sleeve 341 of the bag storage box 3, finally, the frame 31 at the bottom of the bag storage box 3 is in contact with the upper part of the baffle 33 of the bag storage box 3 at the bottom, and the mesh sheet 32 at the bottom of the bag storage box 3 at the upper part is right opposite to the right upper part of the bag storage box 3 at the bottom; the spare oxygen bag 5 is sequentially put into a first storage room 351, a second storage room 352, a third storage room 353 and a fourth storage room 354 of the other bag box 3;

the cover cap 4 is sleeved at the upper opening of the other bag storage box 3;

the fork of the forklift is inserted into the insertion gap 13, and then the supporting box 1, the inserting hopper 2 and the bag storage box 3 are inserted into the insertion gap by the forklift

The caps 4 are arranged in the carriage side by side.

When the cap 4 or the bag box 3 is subjected to the external force F, the oxygen bag 5 located in the bag box 3 is equivalently located in a relatively sealed space, the bag box 3 and the oxygen bag 5 are subjected to the external force first, and the external force is dispersed under the combined action of the inner peripheral baffle 333, the outer peripheral baffle 331, the spring 332, the inner baffle 34, the bottom mesh 32 and the oxygen bag 5 of the bag box 3, so that the oxygen bag 5 is prevented from being damaged. After the bag reaches the destination, the fork can be directly used for penetrating the insertion gap 13, and the fork truck is used for penetrating the supporting box 1, the inserting hopper 2 and the bag storage box 3

The cap 4 is integrally moved out of the carriage, and the oxygen bag 5 in the bag storage box 3 can be taken out at any time according to the requirement.

The core of the invention is that the support box 1, the penetration hopper 2, the bag storage box 3 and the oxygen bag 5 are matched to finally obtain a stable oxygen bag storage and transportation environment, the stress on the oxygen bag 5 is decomposed through the flexible structure, the whole structure can generate stress dispersion to avoid stress concentration to press the oxygen bag 5 in the bag storage box 3, thereby reducing the damage of the oxygen bag 5 to the maximum extent, and simultaneously, if the oxygen bag 5 is damaged, water and fish fry in the damaged oxygen bag 5 can be collected in time to avoid the environment pollution of the damaged oxygen bag 5, and cold air is sent into the bag storage box 3 through the support box 1 and the penetration hopper 2 to ensure that the ambient temperature around the oxygen bag 5 is not too high, thereby playing a role of matching and regulating the ambient temperature around the oxygen bag 5.

Claims (6)

1. A fry breeding and transferring method is characterized by comprising the following steps:

injecting water into the oxygen bag, adding the fry, then filling oxygen into the oxygen bag until the oxygen bag expands, and then sealing the oxygen bag for later use;

putting ice blocks into the box body from an opening on the box body;

taking a bag storage box, aligning a through hole of the bag storage box with a vertical pipe, then pushing the bag storage box to enable the vertical pipe to penetrate through the through hole of the bag storage box and a sleeve of the bag storage box, and finally enabling a frame at the bottom of the bag storage box to be attached and contacted with the edge of the upper end face of the penetrating hopper, wherein a mesh at the bottom of the bag storage box is positioned right above the penetrating hopper;

sequentially placing the standby oxygen bags into a first storage chamber, a second storage chamber, a third storage chamber and a fourth storage chamber of the bag storage box;

taking another bag storage box, aligning the through hole of the bag storage box with the vertical pipe, then pushing the bag storage box to enable the vertical pipe to penetrate through the through hole of the bag storage box and the sleeve of the bag storage box, finally enabling the frame at the bottom of the bag storage box to be in fit contact with the upper part of the barrier of the bag storage box at the bottom, and enabling the mesh at the bottom of the bag storage box at the upper part to be right opposite to the upper part of the bag storage box at the bottom; sequentially placing the spare oxygen bags into a first storage chamber, a second storage chamber, a third storage chamber and a fourth storage chamber of another bag storage box;

sleeving a cover cap at the upper opening of the other bag storage box;

the fork of the forklift penetrates through the insertion gap, and then the supporting box, the inserting hopper, the bag storage box and the cover cap are placed in the carriage side by the forklift.

When the cap or the bag storage box is subjected to the action of an external force F, the oxygen bag positioned in the bag storage box is equivalently positioned in a relatively sealed space, the bag storage box and the oxygen bag are firstly subjected to the action of the external force, and the external force is dispersed under the combined action of the inner barrier, the outer barrier, the spring, the inner barrier and the bottom mesh of the bag storage box and the oxygen bag, so that the damage of the oxygen bag is avoided; after the oxygen bag arrives at the destination, the fork can be directly used for penetrating the insertion gap, the support box, the penetrating bucket, the bag storage box and the cover cap are integrally moved out of the carriage by the fork truck, and the oxygen bag in the bag storage box can be taken out at any time as required.

2. The fry breeding and transferring method of claim 1,

the bottom of the inserting hopper is fixed on the supporting box and the inserting hopper is communicated with the supporting box;

the bag storage box is internally provided with an oxygen bag, the upper part of the bag storage box is open, the bag storage box is positioned at the upper part of the inserting hopper, the inserting hopper penetrates through the bag storage box, the number of the bag storage boxes is at least two, and the bag storage boxes are stacked from top to bottom;

the upper part of the cap is sealed, the lower part of the cap is open, and the cap is sleeved on the upper part of the bag storage box;

the interlude fill includes:

the vertical pipe is made of plastic, is of a hollow square tubular structure, and is open at the upper end and the lower end;

the water receiving hopper is funnel-shaped, the bottom of the vertical pipe vertically penetrates through the middle position of the water receiving hopper, and the bottom of the vertical pipe is communicated with the box body;

the vertical pipe is provided with water passing notches at the crossed position with the bottom of the water receiving hopper in a penetrating way, the main body of each water passing notch is of a cuboid hollow structure, the number of the water passing notches is four, and the water passing notches are uniformly distributed on four surfaces of the vertical pipe;

the bag storage box includes:

the frame is of a rectangular structure and is made of rubber;

the net piece is a nylon net, is fixed in the frame and covers the frame;

the enclosure is fixed on the frame and surrounds the frame for a circle, and a storage space is formed among the enclosure, the frame and the meshes;

interior partition keeps off, and interior partition keeps off fixed in net piece upper portion and interior partition flange with enclose fender fixed connection, and interior partition keeps off in storage space, and interior partition keeps off and cuts apart storage space into different regions, and the standpipe passes interior partition and keeps off.

3. The fry breeding and transferring method of claim 2, wherein the supporting box comprises:

the supporting blocks are long-strip-shaped, and the number of the supporting blocks is two;

the box, the box is cavity seal structure, and the supporting shoe is fixed in the bottom half both sides respectively, and the supporting shoe extends to the other end of box from the one end of box, forms the clearance of inserting between supporting shoe and the box.

4. The fry breeding and transferring method of claim 3, wherein the enclosure comprises:

the peripheral baffle is made of canvas materials and surrounds the frame for one circle;

the bottom of the spring is fixed on the upper surface of the frame, the springs are distributed on the frame at intervals, and the inner side wall of the peripheral baffle is fixed and clings to the outer side wall of the spring;

the inner wall baffle is made of canvas materials, surrounds the frame for one circle, and is fixed on the outer side wall and clings to the inner side wall of the spring; a buffer gap is formed between the outer wall and the inner wall, and the spring is distributed in the buffer gap.

5. The fry breeding and transferring method of claim 4, wherein the inner partition comprises:

the sleeve is made of canvas, the sleeve is of a cuboid tubular structure, two ends of the sleeve are both in an open shape, the sleeve is vertically fixed on the net piece and is positioned right above the via hole, and the central axis of the sleeve is superposed with the central axis of the via hole;

the first separating baffle is made of canvas materials and is of a sheet structure, one end of the first separating baffle is fixedly connected with the side wall of the sleeve, the other end of the first separating baffle is fixedly connected with the side wall of the inner periphery baffle, and the upper end face of the first separating baffle is positioned below the upper end face of the inner periphery baffle;

the second separating baffle is made of canvas materials and is of a sheet structure, one end of the second separating baffle is fixedly connected with the side wall of the sleeve, the other end of the second separating baffle is fixedly connected with the side wall of the inner periphery baffle, and the upper end face of the second separating baffle is positioned below the upper end face of the inner periphery baffle;

the separating baffle piece III is made of canvas materials and is of a sheet structure, one end of the separating baffle piece III is fixedly connected with the side wall of the sleeve, the other end of the separating baffle piece III is fixedly connected with the side wall of the inner periphery baffle, and the upper end surface of the separating baffle piece III is positioned below the upper end surface of the inner periphery baffle;

the fourth separating baffle is made of canvas materials and is of a sheet structure, one end of the fourth separating baffle is fixedly connected with the side wall of the sleeve, the other end of the fourth separating baffle is fixedly connected with the side wall of the inner periphery baffle, and the upper end surface of the fourth separating baffle is positioned below the upper end surface of the inner periphery baffle; the separation blocking piece I, the separation blocking piece II, the separation blocking piece III and the separation blocking piece IV are symmetrically distributed on the periphery of the sleeve.

6. The fry breeding and transferring method of claim 5, wherein a first storage chamber is formed among the first barrier, the fourth barrier, the sleeve, the mesh and the inner enclosure, a second storage chamber is formed among the first barrier, the second barrier, the sleeve, the mesh and the inner enclosure, a third storage chamber is formed among the second barrier, the third barrier, the sleeve, the mesh and the inner enclosure, and a fourth storage chamber is formed among the third barrier, the fourth barrier, the sleeve, the mesh and the inner enclosure.

Images