CN107466943A - The fry hatching and culture pond of controlled water body exchange capacity - Google Patents

Abstract

The invention discloses a kind of fry hatching and culture pond of controlled water body exchange capacity, including cistern, multiple rows of fry hatching culture pond, fry hatching culture pond water inlet manifold, distributive pipe corresponding with each row's fry hatching culture pond, total drainage ditch and corresponding with each row's fry hatching culture pond divide drainage ditch；The top of the cistern is provided with water inlet, and the bottom of the cistern is provided with discharge outlet；Bottom in the cistern is provided with oxygenation nanotube, the outside oxygen-increasing device of oxygenation nanotube connection；The bottom of the water inlet access cistern of the fry hatching culture pond water inlet manifold, the delivery port of the fry hatching culture pond water inlet manifold connect the water inlet of distributive pipe respectively；The side of the fry hatching culture pond is influent side, the opposite side relative with the influent side is drain-side, the top of the fry hatching culture pond is provided with sparge pipe close to influent side, and the delivery port of the distributive pipe connects the water inlet of the sparge pipe of corresponding fry hatching culture pond respectively.

Description

The fry hatching and culture pond of controlled water body exchange capacity

Technical field

The present invention relates to field, the particularly a kind of fry hatching and culture pond of controlled water body exchange capacity.

Background technology

At present in fishery cultivating, the hatching of fry is to separate with cultivating link.Common practice is first to put embryonated egg In hatchery, flowing water is hatched.The fry hatched from embryonated egg is transferred in outdoor ponds again, is trained specification Seedling, or directly cultivate into marketable fish.On the one hand this way needs to use a large amount of water and land occupation, waste of resource；Meanwhile In Tibet, wild aquatic bird is a lot, can largely prey on fry, and outdoor earth pond training seedling needs to add bird prevention net, increases cost and work Amount；Therefore indoor raising of seedling system turns into nursery industry future developing trend.But squab fry, it is commonly called as " spray ", swims Ability is weak, can be attracted on the aperture or screen cloth of outlet part, cause death, have impact on fry with water movement to outlet part Survival rate.

Application No. CN201520558719.7 utility model discloses a kind of fry hatching pond, and " it includes：First pond Wall, it is annular；Second pool wall, it is annular, on the inside of the first pool wall, second pond coaxially arranged with the first pool wall Wall height is low compared with the first pool wall；With being barrier on the outside of the second pool wall to form the first pond on the inside of first pool wall, in the second pool wall Side is barrier to form the second pond；Screen pack, it is in cylindrical cloth along the second pool wall outward flange above the second pool wall Put；Water flow control system, the water in the second pond is pumped into the first pond by it；First drain outlet, it is located at the first pool bottom Portion, connected with the first pond；Second drain outlet, it is located at the second basin bottom, connected with the second pond ".However, the patent In fry hatching pond there is no aerator, the easy anoxic of high density intensive culture.

Application No. CN201520724047.2 utility model discloses a kind of new fry hatching, culture pond, " including Pond, the pond have outlet part and it is supporting be provided with aeration structure, the venthole of the aeration structure is along outlet part periphery It is evenly arranged.Aeration structure produces a large amount of bubbles and is full of around outlet part.It so can be very good to prevent that Burden-Swimming Ability of KM is weak Spray enters outlet part periphery, is attracted to outlet part, can not depart from, cause death, effectively raise fry survival rate.This External incubation period, aeration structure can play aeration oxygen replenishing, provide necessary oxygen for fry hatching, ensure higher hatching Rate ".However, aeration structure produces a large amount of bubbles injections around outlet part in the new fry hatching of the patent, culture pond, water Water body holds oxygen and does not know can guarantee that among pond, easy anoxic among high density intensive culture fry water body.

The content of the invention

To solve problems of the prior art, the invention provides a kind of fry hatching of controlled water body exchange capacity and Culture pond.

The technical solution adopted by the present invention is：

A kind of fry hatching and culture pond of controlled water body exchange capacity, including cistern, multiple rows of fry hatching culture pond, fish Seedling hatching, cultivating pond water inlet manifold, distributive pipe corresponding with each row's fry hatching culture pond, total drainage ditch and incubated with each row fry Change and divide drainage ditch corresponding to culture pond；The top of the cistern is provided with water inlet, and the bottom of the cistern is provided with discharge outlet； Bottom in the cistern is provided with oxygenation nanotube, the outside oxygen-increasing device of oxygenation nanotube connection；The fry hatching The bottom of the water inlet access cistern of culture pond water inlet manifold, the delivery port difference of the fry hatching culture pond water inlet manifold Connect the water inlet of distributive pipe；The side of the fry hatching culture pond is influent side, and the opposite side relative with the influent side is Drain-side, the drain-side for dividing drainage ditch to be located at fry hatching culture pond, the delivery port for dividing drainage ditch access total draining Canal, the top of the fry hatching culture pond are provided with sparge pipe close to influent side, the delivery port of the distributive pipe connect respectively with The water inlet of the sparge pipe of its corresponding fry hatching culture pond.

Preferably, the fry hatching culture pond water inlet manifold be located on the tube wall of cistern inside points uniformly offer it is more Individual opening, the opening are provided with screen pack.

Preferably, the side of the cistern is provided with the water level controller for controlling water level in the cistern, the water level control The intake pump of device connection cistern processed.

Preferably, the gradient of the columns base is 0.5%-1.5%.

Preferably, there are the more oxygenation being parallel to each other nanometers the bottom of the cistern along the tiling of bottom of pond incline direction Pipe, the tube pitch of the oxygenation nanotube is 30cm-50cm, and multiple gas explosion holes are evenly equipped with the oxygenation nanotube, described quick-fried The aperture of stomata is 20 μm -30 μm, and the pitch of holes in the gas explosion hole is 10 μm -20 μm.

Preferably, the fry hatching culture pond water inlet manifold is provided with control taps and water flow velocity table.

Preferably, the bottom of the sparge pipe is evenly equipped with multiple water jets towards influent side, the axle center of the water jet Horizontal by 40 ° of -50 ° of angles.

Preferably, the drain-side of the fry hatching culture pond is combination baffle, and the combination baffle includes being parallel to each other The first baffle of setting and adjustable for height second baffle, the second baffle are located at side of the first baffle away from influent side, The bottom of the first baffle is provided with mesh sheet.

Preferably, the gradient of the fry hatching culture pond bottom is 2 ‰ -4 ‰.

Preferably, direction of the fry hatching culture pond from close to the side of cistern to away from cistern is often arranged successively Increase.

The beneficial effects of the invention are as follows：

1st, present invention water inlet is the water after cistern nanotube aeration filtration, and the water-soluble oxygen come out from cistern is reachable More than 10mg/L, water are sprayed on pool wall by water pipe and flowed into again in fry hatching and culture pond, can so ensure intensive fish The dissolved oxygen demand that seedling is hatched and cultivated；Bottom of pond no-sundries (oxygen increasing tube, aeration are first-class) simultaneously, easy cleaning excrement and residual bait.

2nd, it is schizothoracin class because Tibet native country fish is most of, has sensitive periods during hatch fish roe, intake in the present invention Saliva is first passed through after uniform 45 ° of the pipe for being covered with aperture is tiltedly sprayed on pool wall and flowed into again in pond, the influence to caused by water fluctuation Very little, therefore it will not be impacted in the sensitive periods of hatch fish roe；Without accommodating mitron in fry hatching culture pond Or aeration stone, avoiding producing substantial amounts of bubble may cause fry to obtain bubble illness.

3rd, culture pond water inlet end is equipped with water volume flow rate table in the present invention, can control water body exchange times in the unit interval, It is significant in scientific research training base.

4th, in fry hatching culture pond of the invention, bottom of pond has 3/1000ths gradient, and such draining can drain, again Fry can be prevented to be collected at discharge outlet, hurt fry.

5th, reclaimed water of the present invention is entered from culture pond one end top, goes out below from the other end, and water body exchanges abundant.

Brief description of the drawings

Fig. 1 is the overlooking the structure diagram of the embodiment of the present invention；

Fig. 2 is the structural representation of cistern in the embodiment of the present invention；

Fig. 3 is the part-structure schematic diagram of fry hatching culture pond water inlet manifold in the embodiment of the present invention；

Fig. 4 is the structural representation of the influent side of fry hatching culture pond in the embodiment of the present invention；

Fig. 5 is the structural representation of the drain-side of fry hatching culture pond in the embodiment of the present invention；

Fig. 6 is the schematic diagram that current exchange in fry hatching culture pond in the embodiment of the present invention；

Reference：10- cisterns, 11- oxygenation nanotubes, 12- water level controllers, 13- water inlet 14- discharge outlet, 20- Fry hatching culture pond, 21- influent sides, 22- drain-sides, 23- sparge pipes, 24- first baffles, 25- second baffles, 30- fries Hatching, cultivating pond water inlet manifold, 31- distributive pipes, 32- control tapses, 33- water flow velocity tables, the total drainage ditch of 40-, 41- divide drainage ditch.

Embodiment

Embodiments of the invention are described in detail below in conjunction with the accompanying drawings.

Embodiment

As shown in Figure 1, Figure 2, Figure 4 shows, a kind of fry hatching and culture pond of controlled water body exchange capacity, including cistern 10, It is multiple rows of fry hatching culture pond 20, fry hatching culture pond water inlet manifold 30, corresponding with each row's fry hatching culture pond 20 point Water pipe 31, total drainage ditch 40 and corresponding with each row's fry hatching culture pond 20 divide drainage ditch 41；The top of the cistern 10 Provided with water inlet 13, the bottom of the cistern 10 is provided with discharge outlet 14；Bottom in the cistern 10 is provided with oxygenation nanometer Pipe 11, the oxygenation nanotube 11 connect outside oxygen-increasing device；The water inlet of the fry hatching culture pond water inlet manifold 30 connects Enter the bottom of cistern 10, the delivery port of the fry hatching culture pond water inlet manifold 30 connects the water inlet of distributive pipe 31 respectively Mouthful；The side of the fry hatching culture pond 20 is influent side 21, and the opposite side relative with the influent side 21 is drain-side 22, institute The drain-side 22 that point drainage ditch 41 is located at fry hatching culture pond 20 is stated, the delivery port for dividing drainage ditch 41 accesses total drainage ditch 40, the top of the fry hatching culture pond 20 is provided with sparge pipe 23, the delivery port point of the distributive pipe 31 close to influent side 21 The water inlet of the sparge pipe 23 of corresponding fry hatching culture pond 20 is not connected.

In use, by water from the water inlet injection cistern of cistern, the water in cistern is trained by fry hatching again Educate pond water inlet manifold, distributive pipe, sparge pipe and be injected separately into fry hatching culture pond, after oxygenation nanotube connects outside oxygen-increasing device Can be to the water oxygenation in cistern.

, can be thoroughly clear by being carried out after the water in the discharge outlet discharge pond of cistern to cistern when cleaning cistern Wash.

Water in fry hatching culture pond flows into from influent side, is flowed out from drain-side, in fry hatching culture pond, water can Fully to exchange.

Water in fry hatching culture pond enters after drain-side outflow divides drainage ditch to be united after flowing into total drainage ditch again One discharge or purified treatment.

The present invention is uniformly oxygenated using oxygenation nanotube in advance in cistern, then the water after oxygenation is respectively fed to In fry hatching culture pond, without setting the oxygenation of gas explosion device in fry hatching culture pond again, device structure is simplified, makes fish Dissolved oxygen in seedling hatching, cultivating pond is uniformly abundant, is easy to intensive management.

In one of the embodiments, the fry hatching culture pond water inlet manifold 30 is located at the pipe of the inside points of cistern 10 Multiple openings are uniformly offered on wall, the opening is provided with screen pack.

Water in cistern enters fry hatching culture pond water inlet manifold after screen pack, opening, to being incubated into fry The water for changing culture pond water inlet manifold is effectively filtered, and prevents columns base silt from entering fry hatching culture pond.

In another embodiment, the side of the cistern 10 is provided with the water level control for controlling water level in the cistern 10 Device 12 processed, the water level controller 12 connect the intake pump of cistern.

In the present embodiment, the size of cistern can be long 10m, wide 6m, high 3m, and the size of fry hatching culture pond can be length It is 3m, wide 1.5m, high 0.7 meter, wherein, cistern height 2m high compared with fry hatching culture pond.Intake pump is controlled by water level controller Work, by cistern water level control between 2.5m-2.8m, the automatic pumping when water level is less than 2.5m, when water level is higher than 2.8m It is automatically stopped and draws water.Fry hatching culture pond water inlet manifold is in cistern side wall and away from cistern bottom 1m positions.

In another embodiment, the gradient of the bottom of cistern 10 is 0.5%-1.5%.

Columns base is obliquely installed, and facilitates columns base periodically to remove contamination, in the present embodiment, the gradient of cistern Can be 1%, and the water inlet of cistern be located at higher side, the discharge outlet of cistern is located at relatively low side, during draining, just Just water flows out from discharge outlet, without making columns base silt excess accumulation at discharge outlet.

In another embodiment, the bottom of the cistern 10 has more mutually to put down along the tiling of bottom of pond incline direction Capable oxygenation nanotube 11, the tube pitch of the oxygenation nanotube 11 is 30cm-50cm, is evenly equipped with the oxygenation nanotube 11 Multiple gas explosion holes, the aperture in the gas explosion hole is 20 μm -30 μm, and the pitch of holes in the gas explosion hole is 10 μm -20 μm.

Booster fan can be selected in the oxygen-increasing device for connecting oxygenation nanotube, and the power of the booster fan is in 3kw- It is between 5kw, booster fan is always on, continue gas explosion oxygenation, it is ensured that exist from the water-soluble tolerance of cistern output Between 9.5mg/L-10.5mg/L, it can so ensure the dissolved oxygen demand of intensive fry hatching and cultivation.

In another embodiment, as shown in figure 3, the fry hatching culture pond water inlet manifold 30 is opened provided with control water Close 32 and water flow velocity table 33.

Water flow velocity is adjusted by controlling taps, specific water flow velocity is, it is necessary to according to cultivation needs (cultivation density, fry rule Lattice) regulation, so as to adjust the time of water body whole exchange once.

Water flow velocity table can easily observe the water speed in fry hatching culture pond water inlet manifold, and be adjusted by controlling taps Step-less adjustment valve may be selected in water speed, the control taps.

In another embodiment, the bottom of the sparge pipe 23 is evenly equipped with multiple water jets towards influent side 21, The axle center of the water jet is horizontal by 40 ° of -50 ° of angles.

In the present embodiment, the axle center of water jet and horizontal plane can be in 45 ° of angles, and 45 ° of the water spray product of water from sparge pipe are oblique Flowed into again in pond after being sprayed on the pool wall of fry hatching culture pond, very little is influenceed to caused by water fluctuation, therefore incubate in fish-egg It will not be impacted in the sensitive periods of change.

In another embodiment, as shown in figure 5, the drain-side 22 of the fry hatching culture pond 20 is kept off for combination Plate, the combination baffle include first baffle 24 and adjustable for height second baffle 25 arranged in parallel, the second gear Plate 25 is located at side of the first baffle 24 away from influent side 21, and the bottom of the first baffle 24 is provided with mesh sheet.

In the present embodiment, the specification of first baffle is wide 1m, high 50cm；The specification of second baffle is wide 1m, high 40cm, The height adjustable of second baffle, and can securing height for one per 10cm.The mesh diameter of first baffle bottom mesh sheet 1mm, mesh sheet total height 15cm.Second baffle is less than first baffle, and second baffle combines to form overflow pool structure with first baffle, Constantly intake in fry hatching culture pond, and water circulation is constantly formed by the run-off structure drainage.

In another embodiment, the gradient of the bottom of fry hatching culture pond 20 is 2 ‰ -4 ‰.

In the present embodiment, the gradient of fry hatching culture pond bottom concretely 3 ‰, such draining can drain, Fry can be prevented to be collected at drain-side again, hurt fry.

In another embodiment, often arrange the fry hatching culture pond 20 from close to cistern 10 side away from The direction of cistern 10 increases successively.

With the growth of fish, the constantly increase of its bodily form often arranges the fry hatching training, it is necessary to change fry hatching culture pond Each fry hatching culture pond educated in pond increases successively, according to its growth cycle fish easily can be changed into fry hatching training successively Educate pond.

In the present invention, reservoir capacity is 1-2 times of each cultivation tankage sum, and breeding water 2h-12h is exchanged once, Cistern 2h-4h draws water once, ensures that dissolved oxygen is maintained between 9.5mg/L-10.5mg/L in culturing pool.The underground water aeration time Dissolved oxygen can reach peak value after 2h.

Embodiment described above only expresses the embodiment of the present invention, and its description is more specific and detailed, but simultaneously Therefore the limitation to the scope of the claims of the present invention can not be interpreted as.It should be pointed out that for one of ordinary skill in the art For, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to the guarantor of the present invention Protect scope.

Claims (10)

1. a kind of fry hatching and culture pond of controlled water body exchange capacity, it is characterised in that including cistern, multiple rows of fry hatching Culture pond, fry hatching culture pond water inlet manifold, distributive pipe corresponding with each row's fry hatching culture pond, total drainage ditch and with it is each Divide drainage ditch corresponding to row's fry hatching culture pond；The top of the cistern is provided with water inlet, and the bottom of the cistern is set There is discharge outlet；Bottom in the cistern is provided with oxygenation nanotube, the outside oxygen-increasing device of oxygenation nanotube connection；It is described The bottom of the water inlet access cistern of fry hatching culture pond water inlet manifold, the fry hatching culture pond water inlet manifold go out The mouth of a river connects the water inlet of distributive pipe respectively；The side of the fry hatching culture pond is influent side, relative with the influent side Opposite side is drain-side, and the drain-side for dividing drainage ditch to be located at fry hatching culture pond, the delivery port for dividing drainage ditch connects Enter total drainage ditch, the top of the fry hatching culture pond is provided with sparge pipe, the delivery port point of the distributive pipe close to influent side The water inlet of the sparge pipe of corresponding fry hatching culture pond is not connected.

2. the fry hatching and culture pond of controlled water body exchange capacity according to claim 1, it is characterised in that the fry Hatching, cultivating pond water inlet manifold, which is located on the tube wall of cistern inside points, uniformly offers multiple openings, and the opening was provided with Filter screen.

3. the fry hatching and culture pond of controlled water body exchange capacity according to claim 1, it is characterised in that the water storage The side in pond is provided with the water level controller for controlling water level in the cistern, the intake pump of the water level controller connection cistern.

4. the fry hatching and culture pond of the controlled water body exchange capacity according to Claims 2 or 3, it is characterised in that described The gradient of columns base is 0.5%-1.5%.

5. the fry hatching and culture pond of controlled water body exchange capacity according to claim 4, it is characterised in that the water storage There are the more oxygenation being parallel to each other nanotubes, the tube pitch of the oxygenation nanotube in the bottom in pond along the tiling of bottom of pond incline direction For 30cm-50cm, multiple gas explosion holes are evenly equipped with the oxygenation nanotube, the aperture in the gas explosion hole is 20 μm -30 μm, described The pitch of holes in gas explosion hole is 10 μm -20 μm.

6. the fry hatching and culture pond of controlled water body exchange capacity according to claim 1, it is characterised in that the fry Hatching, cultivating pond water inlet manifold is provided with control taps and water flow velocity table.

7. the fry hatching and culture pond of controlled water body exchange capacity according to claim 5, it is characterised in that the water spray The bottom of pipe is evenly equipped with multiple water jets towards influent side pool wall, and the axle center of the water jet is horizontal by 40 ° of -50 ° of folders Angle.

8. the fry hatching and culture pond of controlled water body exchange capacity according to claim 5, it is characterised in that the fry The pool wall of the drain-side in hatching, cultivating pond is combination baffle, and the combination baffle includes first baffle and height arranged in parallel Adjustable second baffle is spent, the second baffle is located at side of the first baffle away from influent side, the bottom of the first baffle Provided with mesh sheet, the first baffle is higher than second baffle.

9. the fry hatching and culture pond of the controlled water body exchange capacity according to claim 6 or 7, it is characterised in that described The gradient of fry hatching culture pond bottom is 2 ‰ -4 ‰.

10. the fry hatching and culture pond of the controlled water body exchange capacity according to claim 6 or 7, it is characterised in that often arrange Direction of the fry hatching culture pond from close to the side of cistern to away from cistern increases successively.