CN105210973A - Shrimp culture system - Google Patents

Abstract

The invention discloses a kind of shrimp culture system, comprise culturing pool, go out dirty well, separate tank, water treating pond and dirty treatment pond, the water surface of described separate tank arranges the first suction pump, the bottom of described separate tank arranges the second suction pump, described first suction pump extracts the upper water of described separate tank and is delivered to described water treating pond by the first water-supply-pipe, described second suction pump extracts the lower layer of water of described separate tank and is delivered to described dirty treatment pond by the second water-supply-pipe, 3rd suction pump is set in described water treating pond, 4th suction pump is set in described dirty treatment pond, biological agent is placed with in described water treating pond, described 3rd suction pump extracts through described biological agent treated water and is transmitted back to described culturing pool by the 3rd water-supply-pipe.The shrimps safety that this cultivating system cultivates out is organic, nontoxic, useful health.

Description

Shrimp culture system

Technical field

The present invention relates to a kind of shrimp culture system.

Background technology

In recent years, shrimp has become the cultured product that in aquaculture, selling price is the most stable, and therefore, as long as plant receives, certain quantity and Absorbable organic halogens are made a profit.

Many raisers, in order to pursue higher interests, put 20,000 shrimp seedlings in a suitable place to breed from ecologic breeding every mu on soil is pool cultivated, rise to 3-4 ten thousand shrimp seedlings mid-term.Like this, the consequence brought is, starts the problem facing germ injury in breeding process.And plant in the face of more germ problem, brings into use medicine for avoiding one after another.The drug use at initial stage makes harvest amount increase, originally several are only had to use medicine, most plant all rose and imitated afterwards, effectively improving harvest amount from making medication, plant just constantly increases cultivation density, approximately since two thousand five, put 3-4 ten thousand in a suitable place to breed from every mu and be increased to gradually and put 5-7 ten thousand in a suitable place to breed, also have increase to put 8-10 ten thousand in a suitable place to breed at no distant date.

Soil pond high-density breeding mainly relies on: one be that to change water, two in a large number be a large amount of use medicine to prevent and treat oxygen in germ problem, the change of three increase facility regulating and controlling temperatures and supplementing water.

Had high-density breeding basis, native pond, plant, for improving cultivation density, through research and practice, derives again the rise of VHD breeding facility.The infection that the facility of VHD solves cold-proof, quick moisturizing, it is overboard to prevent, Quick drainage, effectively blowdown, dynamo-electric monitoring, less pool area prevent germ.

Use after facility is improved in outfit, more effectively can solve the defect of native pond high-density breeding, the initial stage, such facility represented better effect.But, after high density reaches good result, plant is for pursuing high interests, increase cultivation amount rapidly, put 100,000 shrimp seedlings in a suitable place to breed from every mu and rapidly increase to 250,000, be increased to 400,000 from 250,000 again to have, it is not pursue shrimp seedling to grow up healthy and sound that plant's superelevation quantity puts seedling, only pursues survival rate on the contrary.So use the more kinds of medicine of greater amount to cultivate, minority winner has 6-8 to become harvest yield, general person 3-5 becomes harvest yield, and the recent end is over half nearly to account for entirety down to total crop failure person in 3 one-tenth, because there is minority success mark post, therefore, the follow-up that no sooner has one fallen than another steps into the breach of absolute majority plant, the amount that a plant is larger than the cultivation of another plant, also improves relatively because pursue larger amount cultivation risk simply, so medicine will be used in a large number, even if thus make the shrimp that survives also very unhealthy.

Plant, in order to pursue survival rate, for produced problem normal in shrimp aquaculture process, as do not eaten feed " the empty tripe of jejunum ", meeting the empty tripe of jejunum and representing that stomach has sick problem, having this phenomenon to throw in stomach medicine in shrimp pond at once.As long as the excreta adularescent soft stool being found shrimp in shrimp pond just judges it is shrimp diarrhoea, just to the medicine putting diarrhoea.And because gastro-intestinal problems uses medicine for enterogastritis normality just to have 5-6 kind medicine in a shrimp pond.Naked eyes one hope that liver has, and " enlargement " will stand clearing liver medicine; Naked eyes one hope that liver has, and " committee's contracting " will eat tonifying liver medicine, because hepatopathy use medicine normality also has 5-6 kind medicine in the shrimp pond in.The cheek being found minority shrimp in shrimp pond has heterochromatic i.e. judgement " respiratory tract infection ", gives the anti-inflammatory medicine throwing in respiratory tract at once.And shrimp cheek has a bit dirty i.e. judgement to be " vibrios ", give to throw in Vibriocidal product at once; The foot of shrimp, cheek are found similar fine worm and at once judge " infusorian ", and will give input kills ciliophoran medicine at once.And shrimp pool water look have dim just at once abort in clear medicine.When detecting that the too high horse back of ammonia nitrogen, nitrite gives to throw in degraded medicine; Finally can give to throw in antibiotic, this is that the medicine cultivation of at present very normality makes medication.Visible, so cultivation shrimp is out very unsound.

In addition, in current shrimp culture process, growing up for pursuing more high efficiency, on Feed selection, rising to present 42-47% from past normality breeding feed protein content 32-38%; For achieving the above object, shrimp gives shrimp when shelling and replenishes the calcium; When meeting Changes in weather, shrimp stress medicine vitamin be given; Be afraid of that oligotrophy gives nutritional supplementation element again; For pursuing more Fast Growth, the moment adds some somatotropin.

To sum up, the shrimp that current shrimp culture industry raises is very unhealthy, containing multi-medicament in body.

Summary of the invention

The technical problem to be solved in the present invention is, provides a kind of shrimp culture system, and the shrimps safety of this shrimp culture system cultivation is organic, nontoxic and healthy, and the survival rate of shrimps is higher, and aquaculture cost is lower.

The present invention is for solving the problems of the technologies described above adopted technical scheme:

A kind of shrimp culture system, wherein said shrimp culture system comprises culturing pool, what be communicated in described culturing pool by the first outlet pipe goes out dirty well, the separate tank of dirty well is gone out described in being communicated in by the second outlet pipe, described culturing pool be communicated with into fresh water the first water inlet and enter the second water inlet of seawater, the bottom of described culturing pool is provided with delivery port, contiguous described water outlet is provided with support bar, described support bar is provided with the first catch net and the second catch net, described first catch net and the second catch net are filtered through the water of described delivery port, describedly go out to be fixed with obstruction bar in dirty well, one end of described first outlet pipe is connected to described delivery port, the other end of described first outlet pipe is connected to described obstruction bar, described obstruction bar is provided with switch, described shrimp culture system also comprises water treating pond and dirty treatment pond, the water surface of described separate tank arranges the first suction pump, the bottom of described separate tank arranges the second suction pump, described first suction pump extracts the upper water of described separate tank and is delivered to described water treating pond by the first water-supply-pipe, described second suction pump extracts the lower layer of water of described separate tank and is delivered to described dirty treatment pond by the second water-supply-pipe, 3rd suction pump is set in described water treating pond, 4th suction pump is set in described dirty treatment pond, biological agent is placed with in described water treating pond, described 3rd suction pump extracts through described biological agent treated water and is transmitted back to described culturing pool by the 3rd water-supply-pipe.

The invention has the beneficial effects as follows, the breeding environment green ecological of this cultivating system, substantially increases the survival rate of shrimps, for raiser adds profit; Meanwhile, this cultivating system greatly reduces quantity of exchanged water, has saved water source and electric energy, thus has greatly reduced aquaculture cost.In addition, the shrimps of cultivation are without the need to using any medicine, and the shrimps safety cultivated out is organic, nontoxic, useful health.

Preferably, the water surface of described culturing pool arranges aerator, and the bottom of described culturing pool arranges end oxygen pipe.

Preferably, the cross section squarely of described culturing pool, described aerator is diagonally arranged.

Preferably, the bottom of described culturing pool becomes the gradient to arrange, and descending grade is 5%.

Preferably, described first catch net is positioned at the top of described second catch net, and the mesh count of described first catch net is not more than 20 orders, and the mesh of described second catch net is greater than 0.5cm*0.5cm.

Preferably, contiguous described culturing pool place arranges gas temperature and controls room, and described gas control room is connected in described culturing pool, and described gas temperature controls room and comprises preheating and pre-cooler.

Preferably, contiguous described culturing pool place is also provided with control cabinet, and described control cabinet is connected with the temperature sensor of water temperature in the described culturing pool of detection, measures the pH value tester of pH value.

Preferably, described control cabinet is also connected with the water level detector of water level in detection culturing pool, and for controlling the aerator controller of described aerator.

Preferably, described control cabinet is also connected with System Monitor, and described System Monitor has display unit.

Preferably, the pH value of the water in described culturing pool is 7.5-9.

Accompanying drawing explanation

Above-described object of the present invention, technical scheme and beneficial effect by the detailed description that can realize specific embodiments of the invention below, can describe and clearly obtain simultaneously by reference to the accompanying drawings.

Identical label in accompanying drawing and specification and symbol are for representing identical or equivalent element.

Fig. 1 shows the schematic diagram of the shrimp culture system that first embodiment of the invention provides.

Fig. 2 shows the vertical view of the culturing pool of the shrimp culture system in Fig. 1, now arranges two aerators in culturing pool.

Fig. 3 shows the vertical view of the culturing pool of the shrimp culture system in Fig. 1, now arranges oxygen pipe at the bottom of a row in culturing pool.

Fig. 4 shows the vertical view of the culturing pool of the shrimp culture system in Fig. 1, now arranges four aerators in culturing pool.

Fig. 5 shows the vertical view of the culturing pool of the shrimp culture system in Fig. 1, now arranges oxygen pipe of the double end in culturing pool.

Fig. 6 shows the front view of the culturing pool of the shrimp culture system in Fig. 1, and now contiguous culturing pool place is provided with gas temperature and controls room and control cabinet.

Fig. 7 shows the schematic diagram of the shrimp culture system that second embodiment of the invention provides.

Wherein:

1. culturing pool 2. goes out dirty well

3. separate tank 4. water treating pond

5. dirty treatment pond 6. delivery port

7. support bar 8. first catch net

9. the second catch net 10. first water inlet

11. second water inlet 12. first outlet pipes

13. block bar 14. retainer plate

15. switch 16. second outlet pipes

17. first suction pump 18. second suction pumps

19. first water-supply-pipe 20. the 3rd suction pumps

21. the 3rd water-supply-pipe 22. second water-supply-pipes

23. the 4th suction pump 24. aerators

25. end oxygen pipe 26. control cabinets

27. temperature sensor 28.PH value testers

29. water level detector 30. aerator controllers

31. System Monitor 32. gas temperatures control room

40-45. culturing pool 46. goes out dirty well

47. separate tank 48. water treating pond

49. dirty treatment ponds

Embodiment

As shown in Figure 1, a kind of shrimp culture system, comprise culturing pool 1, what be communicated in culturing pool 1 by the first outlet pipe 12 goes out dirty well 2, the separate tank 3 of dirty well 2 is communicated in out by the second outlet pipe 16, culturing pool 1 be communicated with into fresh water the first water inlet 10 and enter the second water inlet 11 of seawater, the bottom of culturing pool 1 is provided with delivery port 6, contiguous delivery port 6 place is provided with support bar 7, support bar 7 is provided with the first catch net 8 and the second catch net 9, first catch net 8 and the second catch net 9 are filtered through the water of delivery port 6, go out in dirty well 2 to be fixed with and block bar 13, one end of first outlet pipe 12 is connected to delivery port 6, the other end of the first outlet pipe 12 is connected to and blocks bar 13, block bar 13 and be provided with switch 15, shrimp culture system also comprises water treating pond 4 and dirty treatment pond 5, the water surface of separate tank 3 arranges the first suction pump 17, the bottom of separate tank 3 arranges the second suction pump 18, first suction pump 17 extracts the upper water of separate tank 3 and is delivered to water treating pond 4 by the first water-supply-pipe 19, second suction pump 18 extracts the lower layer of water of separate tank 3 and is delivered to dirty treatment pond 5 by the second water-supply-pipe 22, 3rd suction pump 20 is set in water treating pond 4, in dirty treatment pond 5, the 4th suction pump 23 is set, biological agent is placed with in water treating pond 4, 3rd suction pump 20 extracts through biological agent treated water and is transmitted back to culturing pool 1 by the 3rd water-supply-pipe 21.

In this preferred embodiment, block bar 13 and fixed by retainer plate 14, block bar 13 and be provided with switch 15, opened or closed the outlet of the first outlet pipe 12 by rotary switch 15.

Shrimp culture system in this preferred embodiment operationally, first enters fresh water to culturing pool 1 from the first water inlet 10, enters seawater to culturing pool 1, meet salinity needed for shrimps in culture from the second water inlet 11, and adds biological bactericide and carry out sterilization to pond and water.

Then carry out examination seedling and put seedling, when putting seedling, the first catch net 8 and the second catch net 9 all need to install, and when shrimp seedling grows to 4cm-5cm, can remove the first catch net 8.Along with the growth of shrimp seedling and the input of feed, the excreta of shrimp, the harmful substances such as the residue of feed are increased sharply, when rotary switch 15, block bar 13 to open, in culturing pool 1, Chi Shui flows into separate tank 3 by the second outlet pipe 16, waste water precipitates in separate tank 3, water above separate tank 3 enters water treating pond 4 by the first suction pump 17, and useless dirt below enters dirty treatment pond 5 by the second suction pump 18, in water treating pond 4, add biological agent process water, become nutritious diatom water, culturing pool 1 is entered by the 3rd suction pump 20, repetitive cycling uses.

And in dirty treatment pond 5, add biological agent useless dirt is processed, fertilizer can be prepared into, directly be applied to farmland etc. by the 4th suction pump 23.

The invention has the beneficial effects as follows, the breeding environment green ecological of this cultivating system, substantially increases the survival rate of shrimps, improves the output value, for raiser adds profit; Meanwhile, this cultivating system greatly reduces quantity of exchanged water, has saved water source and electric energy, thus has greatly reduced aquaculture cost.In addition, the shrimps of cultivation are without the need to using any medicine, and the shrimps safety cultivated out is organic, nontoxic, useful health.And shrimps discarded object is as first-class all organic nontoxic in shrimp shell, shrimp, can be used for exploitation high-quality high value-added product, as chitin, shitosan etc., further increase the profit of raiser.In addition, useless dirt also can be prepared into fertilizer, thus does not only pollute the environment, more environmental protection, and further increases the profit of raiser.

In this preferred embodiment, the bottom of culturing pool 1 becomes the gradient to arrange, and descending grade is 5%.Certainly, also other gradient can be arranged to.

In addition, the first catch net 8 is positioned at the top of the second catch net 9, and the mesh count of the first catch net 8 is not more than 20 orders, and the mesh of the second catch net 9 is greater than 0.5cm*0.5cm.

Further, the water surface of culturing pool 1 arranges aerator 24, and the bottom of culturing pool 1 arranges end oxygen pipe 25.Concrete, the cross section squarely of culturing pool 1, aerator 24 is diagonally arranged.

As shown in Figures 2 and 3, now the area of culturing pool 1 is 1-2 mu, and aerator 24 is set to two, and two aerators 24 are diagonally arranged.Meanwhile, end oxygen pipe 25 is set in pond bank 1/4 distance of distance culturing pool 1.

As shown in Figure 4 and Figure 5, now the area of culturing pool 1 is 3-5 mu, and aerator 24 is set to four, and four aerators 24 are diagonally arranged respectively, and that is, four aerators 24 lay respectively at the corner of culturing pool 1.Meanwhile, oxygen pipe of the double end 25 is set in the bottom of culturing pool 1.

In addition, aerator 24 is arranged in the diagonal angle of culturing pool 1, not only can oxygen in make-up water, also makes foreign material in pond concentrate on center simultaneously, is discharged by delivery port 6.

The quantity of culturing pool 1 can adjust according to the demand difference of raiser, and the size of culturing pool 1 is divided into two kinds usually, and one is little Chi, about 1 mu-2 mu, and one is great Chi, about 3 mu-5 mu.Certainly, also different areas can be arranged to.

In addition, the size of water treating pond 4 is relevant with quantity of exchanged water, and maximum quantity of exchanged water height is generally 50cm.And within 1 month, to change waterside number be 1-3 time, the size of 1 water treating pond 4 should supply the quantity of exchanged water of 10 culturing pools 1 simultaneously.

With further reference to Fig. 6, for improving the survival rate of shrimps, contiguous culturing pool 1 place arranges gas temperature and controls room 32, and gas control room is connected in culturing pool 1, and gas temperature controls room 32 and comprises preheating and pre-cooler.Preheating and the low-oxygen gas of pre-cooler to input carry out preheating and precooling treatment.

When summer, temperature reaches about 38 DEG C, and at the bottom of the pond of now culturing pool 1, temperature can reach 32 DEG C-33 DEG C, because temperature is too high, shrimps itself do not eat feed, therefore be easy to death, and by pre-cooler, squeeze into cold air, temperature at the bottom of pond can be made to be reduced to and to be less than 29 DEG C, thus promote the feed of shrimps, to improve survival rate, ensure the healthy normal growth of shrimps.When in winter, because temperature is too low, be unfavorable for the growth of shrimp.Now, by preheating device, squeeze into hot-air, keep water temperature, thus promote the feed of shrimp, to improve the survival rate of shrimps.

In addition, contiguous culturing pool 1 place is also provided with control cabinet 26, and control cabinet 26 is connected with the temperature sensor 27 of water temperature in detection culturing pool 1, measures the pH value tester 28 of pH value.Thus the water temperature can understood in time in culturing pool 1, and start preheating device or pre-cooler to regulate water temperature according to the difference of water temperature, thus improve the survival rate of shrimps.

Moreover, pH value tester 28 is set, detects the pH value of water in culturing pool 1 in time, thus accomplish timely adjustment.Preferably, the pH value of the water in culturing pool 1 is 7.5-9, is now more conducive to survival and the growth of shrimps.

In this preferred embodiment, further, control cabinet 26 is also connected with the water level detector 29 of water level in detection culturing pool 1, and for controlling the aerator controller 30 of aerator 24.Thus realize water-level detecting and control aerator 24, understand the environment in culturing pool 1 better.Thus improve the survival rate of shrimps further.

Control cabinet 26 is also connected with System Monitor 31, and System Monitor 31 has display unit.Thus the environment in Real-Time Monitoring culturing pool 1, then accomplish timely adjustment.

As shown in Figure 7, another embodiment of the present invention, in the present embodiment, culturing pool is set to 6, and shrimp culture system comprises 6 culturing pool 40-45, goes out dirty well 46, separate tank 47, water treating pond 48, dirty treatment pond 49.Wherein, the configuration of culturing pool 40-45 is identical with the configuration of culturing pool 1, correspondingly, is going out in dirty well 46, is arranging 6 obstruction bar 34-39, be connected respectively by water-supply-pipe with culturing pool 40-45.Within the system, other configuration is all identical with the first embodiment, is no longer described in detail at this.

During this system works, in culturing pool 40-45, first put into water and allotment extremely corresponding pH value, then sterilization processing is carried out to water and pond, then test shrimp seedling respectively and put seedling.Block bar 34-39 by allotment, the sewage culturing pool 40-45 is put into separate tank 47 precipitate from going out dirty well 46, then upper water input water treating pond 48, the dirty treatment pond 49 of the useless dirty input of lower floor respectively.The diatom water that in water treating pond 48, water is treated as nutrition through biological agent re-enters culturing pool 40-45, repetitive cycling uses, and useless soiled ends crosses the part that biological agent is treated as fertilizer in dirty treatment pond 49, as nitrogenous fertilizer, can directly input farmland as Fertilizer application.The enforcement principle of the present embodiment is identical with the first embodiment.

Above embodiment is only the present invention's two kinds of embodiments wherein, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the scope of the claims of the present invention.It should be pointed out that for the person of ordinary skill of the art, under the prerequisite not departing from inventive concept of the present invention, can also make some distortion and improvement, these all belong to protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.

Claims (10)

1. a shrimp culture system, it is characterized in that: described shrimp culture system comprises culturing pool, what be communicated in described culturing pool by the first outlet pipe goes out dirty well, the separate tank of dirty well is gone out described in being communicated in by the second outlet pipe, described culturing pool be communicated with into fresh water the first water inlet and enter the second water inlet of seawater, the bottom of described culturing pool is provided with delivery port, contiguous described water outlet is provided with support bar, described support bar is provided with the first catch net and the second catch net, described first catch net and the second catch net are filtered through the water of described delivery port, describedly go out to be fixed with obstruction bar in dirty well, one end of described first outlet pipe is connected to described delivery port, the other end of described first outlet pipe is connected to described obstruction bar, described obstruction bar is provided with switch, described shrimp culture system also comprises water treating pond and dirty treatment pond, the water surface of described separate tank arranges the first suction pump, the bottom of described separate tank arranges the second suction pump, described first suction pump extracts the upper water of described separate tank and is delivered to described water treating pond by the first water-supply-pipe, described second suction pump extracts the lower layer of water of described separate tank and is delivered to described dirty treatment pond by the second water-supply-pipe, 3rd suction pump is set in described water treating pond, 4th suction pump is set in described dirty treatment pond, biological agent is placed with in described water treating pond, described 3rd suction pump extracts through described biological agent treated water and is transmitted back to described culturing pool by the 3rd water-supply-pipe.

2. shrimp culture system according to claim 1, is characterized in that: the water surface of described culturing pool arranges aerator, and the bottom of described culturing pool arranges end oxygen pipe.

3. shrimp culture system according to claim 2, is characterized in that: the cross section squarely of described culturing pool, described aerator is diagonally arranged.

4. shrimp culture system according to claim 1, is characterized in that: the bottom of described culturing pool becomes the gradient to arrange, and descending grade is 5%.

5. shrimp culture system according to claim 1, is characterized in that: described first catch net is positioned at the top of described second catch net, and the mesh count of described first catch net is not more than 20 orders, and the mesh of described second catch net is greater than 0.5cm*0.5cm.

6. shrimp culture system according to claim 2, is characterized in that: contiguous described culturing pool place arranges gas temperature and controls room, and described gas control room is connected in described culturing pool, and described gas temperature controls room and comprises preheating and pre-cooler.

7. shrimp culture system according to claim 6, is characterized in that: contiguous described culturing pool place is also provided with control cabinet, and described control cabinet is connected with the temperature sensor of water temperature in the described culturing pool of detection, measures the pH value tester of pH value.

8. shrimp culture system according to claim 7, is characterized in that: described control cabinet is also connected with the water level detector of water level in detection culturing pool, and for controlling the aerator controller of described aerator.

9. shrimp culture system according to claim 8, it is characterized in that: described control cabinet is also connected with System Monitor, described System Monitor has display unit.

10. shrimp culture system according to claim 7, is characterized in that: the pH value of the water in described culturing pool is 7.5-9.