CN103548738A - Continuous shrimp aquaculture system and aquaculture method - Google Patents

Abstract

The invention relates to a continuous shrimp aquaculture system, which comprises a first-stage aquaculture pool, a second-stage aquaculture pool, a third-stage aquaculture pool, a fourth-stage aquaculture pool, a fifth-stage aquaculture pool, a sixth-stage aquaculture pool, a transfer pipeline, a gate pipe, a water inlet pipe and a water discharge pipe, wherein the volume of the next stage of aquaculture pool is double of the former stage of aquaculture pool, and a fall difference exists between the bottom of the next stage of aquaculture pool and the bottom of the former stage of aquaculture pool. The continuous shrimp aquaculture system has the beneficial effects that the structure is simple, the operation is convenient, the adaptation proportion of shrimp growth individuals and water bodies is fully considered, the waste of aquaculture water bodies is avoided, constant temperature, circulation water, high intensity and small water bodies are adopted, the water body quality is easy to control, the continuous shrimp aquaculture system is applicable to large-scale industrial aquaculture, the shrimp aquaculture number in the unit water body can be greatly increased, and a multistage multiple aquaculture mode is adopted, the output time of adult shrimps can be greatly shortened, the idle time of equipment is reduced, and the utilization rate of the equipment is improved. The production efficiency is greatly improved, and is improved by 3 to 5 times through being compared with the outer pond aquaculture efficiency.

Description

A kind of continuous shrimp aquaculture system and cultural method

Technical field

The present invention relates to shrimp aquaculture technical field, particularly a kind of continuous shrimp aquaculture system and cultural method.

Background technology

Batch production is supported shrimp and is utilized exactly modernization industry means, controls ecotope in pond, for prawn is created a best existence and growth conditions, in the intensive situation of putting in a suitable place to breed of high density, promote the smooth growth of prawn, improve output and the quality of unit are, strive for higher economic benefit.Concretely, in thering is the indoor cement pit or plastic cement pond of insulation, control light, by solar energy or other heat energy, water temperature is controlled to aquaculture organism optimum temperature exactly; By inflating even oxygenation, guaranteeing has sufficient dissolved oxygen in pond, not only required for cultivation subject breathed, more can improve pool inner water matter condition; By changing in right amount water, remove harmful substance in water, supply and supplementary benefit materials, keep good condition of water quality; By chemistry or biological means, set up a good biocoenosis, suppress pest, avoid the generation of serious disease; Feed with high-quality guarantees the needs that prawn grows, and promotes growth and improves premunition, thereby improve survival rate and the growth rate of prawn, improves the quality of products and quantity, reaches high-quality, high yield and efficient object.

But current industrial aquaculture, before becoming shrimp to fish for, cannot recycle culturing pool, become shrimp listing all to need long period of time, the availability of cultivation equipment is lower, occurs long vacant state.When becoming shrimp to concentrate listing in a large number, make shrimp products price fast-descending, do not reach best economic well-being of workers and staff.

Summary of the invention

The present invention, for solving the problems of the technologies described above, provides a kind of simple in structure, continuous shrimp aquaculture system and cultural method easy and simple to handle.The technical scheme adopting is as follows:

A shrimp aquaculture system, comprises low-level culture pool, high-level culture pool, three grades of culturing pools, level Four culturing pool, Pyatyi culturing pool, six grades of culturing pools, transfer pipe, brake tube, water inlet pipe, drainpipe, the volume of next stage culturing pool is two times of upper level culturing pool, between next stage culturing pool bottom and upper level culturing pool bottom, has drop; Culturing pool side wall upper part at different levels are connected with water inlet pipe, and bottom is connected with drainpipe; Described transfer pipe one end connects culturing pool at the corresponding levels bottom, and one end connects next stage culturing pool sidewall, and the culturing pool of adjacent culture zones at different levels all connects with the method by transfer pipe; The brake tube of controlling discharge is all housed on described transfer pipe, water inlet pipe, drainpipe.

Next stage culturing pool bottom is lower than upper level culturing pool bottom.

Described culturing pools at different levels bottom is provided with thermostat, water quality detecting device, oxygen-increasing device.

5-15 ° of angle of inclination arranged at described culturing pools at different levels bottom, and all to transfer conduit interface direction, tilts.

A cultural method of utilizing continuous shrimp aquaculture system, comprises the following steps:

(1) breeding water is injected in low-level culture pool, and throw in wherein shrimp seedling;

(2) in low-level culture pool, cultivate 10-15 days, shrimp seedling, by transfer pipe, is transferred in high-level culture pool, and by emptying low-level culture pool, according to the method for step (1), dropped into new shrimp seedling;

(3), according to the method for step (2), at interval of 10-15 days, shrimp seedling in upper level culturing pool is transferred in next stage culturing pool by transfer pipe, until gather in the crops into shrimp in six grades of culturing pools.

In breeding process, temperature remains on 25-30 ℃, and the PH of breeding water remains on 8-8.5.

Step (2) and (3) are when shifting shrimp seedling by transfer pipe, by brake tube, control the discharge of higher level's culturing pool, discharge that Shi Qiyu subordinate culturing pool is discharged by drainpipe equates, after the shrimp seedling for the treatment of higher level's culturing pool shifts completely, the breeding water of ，Zai Jiang subordinate culturing pool is filled with.

Because shrimp shelling is generally carried out at night, in order not injure the shell of shrimp, by transfer pipe, shift the operation of shrimp seedling, 13:00-17:00 carries out in the afternoon.

Next stage culturing pool bottom described in the present invention, lower than upper level culturing pool bottom, owing to selecting specifically varying in size of culturing pool, should arrange drop height according to the size of culturing pool.

By the thermostat of installing in culturing pool, make in pond temperature constant at 25-30 ℃, by the various indexs of the regular detection breeding water of the water quality detecting device installed in culturing pool, and by being arranged on oxygen-increasing device at the bottom of pond, improve the oxygen content of water body, the survival rate that makes culture shrimp, qualification rate improves greatly.

The invention has the beneficial effects as follows: the present invention is simple in structure, easy to operate, fully take into account the individual adaptation ratio with water body of shrimp growth, avoid the waste of breeding water body, adopt constant temperature, cycle water, high density, little water body, Water quality is easily controlled, and is suitable for large-scale industrialized cultivation, can greatly improve the shrimp aquaculture quantity of unit of water body, owing to adopting multistage repeatedly aquaculture model, the output time that can make into shrimp shortens greatly, the vacant time of minimizing equipment, improves utilization rate of equipment and installations.Production efficiency improves greatly, than outer pool cultivation efficiency, improves 3～5 times.

Accompanying drawing explanation

Fig. 1 is continuous shrimp aquaculture system architecture schematic diagram

Marginal data: 1-1, low-level culture pool, 1-2, low-level culture pool transfer pipe, 1-3, low-level culture pool drainpipe, 1-4, low-level culture pool brake tube, 1-5, low-level culture pool water inlet pipe, 2-1, high-level culture pool, 2-2, high-level culture pool transfer pipe, 2-3, high-level culture pool drainpipe, 2-4, high-level culture pool brake tube, 2-5, high-level culture pool water inlet pipe, 3-1, three grades of culturing pools, 3-2, three grades of culturing pool transfer pipe, 3-3, three grades of culturing pool drainpipes, 3-4, three grades of culturing pool brake tubes, 3-5, three grades of culturing pool water inlet pipes, 4-1, level Four culturing pool, 4-2, level Four culturing pool transfer pipe, 4-3, level Four culturing pool drainpipe, 4-4, level Four culturing pool brake tube, 4-5, level Four culturing pool water inlet pipe, 5-1, Pyatyi culturing pool, 5-2, Pyatyi culturing pool transfer pipe, 5-3, Pyatyi culturing pool drainpipe, 5-4, Pyatyi culturing pool brake tube, 5-5, Pyatyi culturing pool water inlet pipe, 6-1, six grades of culturing pools, 6-3, six grades of culturing pool drainpipes, 6-5, six grades of culturing pool water inlet pipes

Embodiment

For technological means, creation characteristic that the present invention is realized, reach object and effect is easy to understand, for accompanying drawing, the present invention is further elaborated below, but does not limit protection scope of the present invention.

A shrimp aquaculture system, comprises low-level culture pool 1-1, high-level culture pool 2-1, three grades of culturing pool 3-1, level Four culturing pool 4-1, Pyatyi culturing pool 5-1, six grades of culturing pool 6-1, transfer pipe, brake tube, water inlet pipe, drainpipe, the volume of next stage culturing pool is two times of upper level culturing pool, and next stage culturing pool bottom is lower than 1.0 meters of upper level culturing pool bottoms; Culturing pool side wall upper part at different levels are connected with water inlet pipe, and bottom is connected with drainpipe; Described transfer pipe one end connects culturing pool at the corresponding levels bottom, and one end connects next stage culturing pool sidewall, and the culturing pool of adjacent culture zones at different levels all connects with the method by transfer pipe; The brake tube of controlling discharge is all housed on described transfer pipe, water inlet pipe, drainpipe.

Low-level culture pool 1-1 volume is 6M ³, high-level culture pool 2-1 volume is 12M ³, three grades of culturing pool 3-1 volumes are 24M ³, level Four culturing pool 4-1 volume is 48M ³, Pyatyi culturing pool 5-1 volume is 96M ³, six grades of culturing pool 6-1 volumes are 192M ³.

Next stage culturing pool bottom is lower than upper level culturing pool bottom 0.5M.

Described culturing pools at different levels bottom is provided with thermostat, water quality detecting device, oxygen-increasing device.

5 ° of angles of inclination are arranged at described culturing pools at different levels bottom, and all to transfer conduit interface direction, tilt, and are beneficial to the downward low-level culture pool of shrimp seedling and shift.

Utilize the above cultural method of shrimp aquaculture system continuously, comprise the following steps:

(1) breeding water is injected in low-level culture pool, and throw in wherein shrimp seedling 16000 tails;

(2) in low-level culture pool, cultivate 10 days, shrimp seedling, by transfer pipe, is transferred in high-level culture pool, and by emptying low-level culture pool, according to the method for step (1), dropped into new shrimp seedling 16000 tails;

(3), according to the method for step (2), at interval of 10 days, shrimp seedling in upper level culturing pool is transferred in next stage culturing pool by transfer pipe, until gather in the crops into shrimp in six grades of culturing pools.

In breeding process, by thermostat, make temperature remain on 25-30 ℃, by the regular detection of water quality detecting device, make the PH of breeding water remain on 8-8.5, by being arranged on oxygen-increasing device at the bottom of pond, improve the oxygen content of water body, make the survival rate of culture shrimp, qualification rate improves greatly.

Step (2) and (3) are when shifting shrimp seedling by transfer pipe, by brake tube, control the discharge of higher level's culturing pool, discharge that Shi Qiyu subordinate culturing pool is discharged by drainpipe equates, after the shrimp seedling for the treatment of higher level's culturing pool shifts completely, the breeding water of ，Zai Jiang subordinate culturing pool is filled with.

Because shrimp shelling is generally carried out at night, in order not injure the shell of shrimp, by transfer pipe, shift the operation of shrimp seedling, 13:00-17:00 carries out in the afternoon.

With the final cultivation density of one-tenth shrimp of this cultivating system cultivation, can reach 7KG/M ³, existing cultural technique cultivation density is up to 3KG/M ³, being compared with the prior art, output increases substantially, and owing to adopting the system and method for classification cultivation, after setting up in the early stage cultivation chain, can continuous output become shrimp, and utilization rate of equipment and installations is improved greatly.

Above embodiment is concrete manifestation form of the present invention, but does not limit protection scope of the present invention.

Claims (8)

1. a continuous shrimp aquaculture system, comprises low-level culture pool, high-level culture pool, three grades of culturing pools, level Four culturing pool, Pyatyi culturing pool, six grades of culturing pools, transfer pipe, brake tube, water inlet pipe, drainpipe, it is characterized in that, the volume of next stage culturing pool is two times of upper level culturing pool, between next stage culturing pool bottom and upper level culturing pool bottom, has drop; Culturing pool side wall upper part at different levels are connected with water inlet pipe, and bottom is connected with drainpipe; Described transfer pipe one end connects culturing pool at the corresponding levels bottom, and one end connects next stage culturing pool sidewall, and the culturing pool of adjacent culture zones at different levels all connects with the method by transfer pipe; The brake tube of controlling discharge is all housed on described transfer pipe, water inlet pipe, drainpipe.

2. a kind of continuous shrimp aquaculture system according to claim 1, is characterized in that, next stage culturing pool bottom is lower than upper level culturing pool bottom.

3. a kind of continuous shrimp aquaculture system according to claim 1, is characterized in that, described culturing pools at different levels bottom is provided with thermostat, water quality detecting device, oxygen-increasing device.

4. a kind of continuous shrimp aquaculture system according to claim 1, is characterized in that, 5-15 ° of angle of inclination arranged at described culturing pools at different levels bottom, and all to transfer conduit interface direction, tilts.

5. a kind of cultural method of utilizing continuous shrimp aquaculture system according to claim 1, is characterized in that, comprises the following steps:

(1) breeding water is injected in low-level culture pool, and throw in wherein shrimp seedling;

(2) in low-level culture pool, cultivate 10-15 days, shrimp seedling, by transfer pipe, is transferred in high-level culture pool, and by emptying low-level culture pool, according to the method for step (1), dropped into new shrimp seedling;

(3), according to the method for step (2), at interval of 10-15 days, shrimp seedling in upper level culturing pool is transferred in next stage culturing pool by transfer pipe, until gather in the crops into shrimp in six grades of culturing pools.

6. a kind of cultural method of utilizing continuous shrimp aquaculture system according to claim 4, is characterized in that, in breeding process, temperature remains on 25-30 ℃, and the PH of breeding water remains on 8-8.5.

7. a kind of cultural method of utilizing continuous shrimp aquaculture system according to claim 4, it is characterized in that, step (2) and (3) are when shifting shrimp seedling by transfer pipe, by brake tube, control the discharge of higher level's culturing pool, the discharge that Shi Qiyu subordinate culturing pool is discharged by drainpipe equates, after the shrimp seedling for the treatment of higher level's culturing pool shifts completely, the breeding water of ，Zai Jiang subordinate culturing pool is filled with, and guarantees that shrimp is injury-free in transfer process.

8. a kind of cultural method of utilizing continuous shrimp aquaculture system according to claim 4, is characterized in that, by transfer pipe, shift the operation of shrimp seedling, 13:00-17:00 carries out in the afternoon.