CN208434560U - A kind of early stage fry rearing device - Google Patents

Abstract

The utility model discloses a kind of early stage fry rearing devices, including water storage box and incubator, water storage box is connected to incubator water inlet by water inlet pipe and water storage box is higher than incubator, water storage box is built-in with aeration oxygen increasing machine, multiple rows of vertically suspended viscous ovum mesh sheet is provided in incubator along its length, towards water inlet direction, incubator left end bottom is provided with fry and collects hole in the viscous ovum netting length direction of every row, and block device is provided on the upside of left end and is located above viscous ovum mesh sheet.Viscous roes can be distributed to as far as possible in viscous ovum mesh sheet by the utility model, avoid accumulation anoxic, it improves oxygen supply range and aeration oxygen increasing machine is set in water storage box to greatly improve hatch fish roe rate, further increase water quality oxygen content, multiple rows of removably viscous ovum mesh sheet is set, facilitates taking-up to carry out being laid with viscous roes to it and be convenient for cleaning and sterilizing, and convenient for checking fertilized fish roe, setting block device, prevents fry from escaping.

Description

A kind of early stage fry rearing device

Technical field

The utility model belongs to fry rearing engineering device technique field, is related to a kind of early stage fry rearing device.

Background technique

Fry rearing is another important link after fry hatching, and the quality of fry rearing is directly related to the later period The quality and quantity of fingerling or even the yield of marketable fish.Therefore, the hatching of fry is all paid close attention to by people all the time, in reality In the production of border, in addition to the technical level of consideration technical staff, also need to focus on improved production equipment, to improve fry quantity and matter Amount.

Currently, in seed base, fry rearing has special cultivation facilities and equipment, it can be common that manually builds cultivation and sets It applies, i.e. seed cultivation pool, this needs certain facility place, needs to spend certain cost, and carried out certain change It is good, such as original rectangular pond is changed to round pond, it flocks together to avoid fry in four, rectangular pond corner, causes hypoxia death. But it manually builds after pond existed grown using the time always, germ breeds, the case where being unfavorable for fry rearing.

Today there is also many manufacturers to utilize tempering material, produces fry tempered glass incubator, round or side Shape specification has, and equipment is configured to reservoir, diversion facility, incubator and pumping equipment etc. substantially, and current application is extensive. In cultivating process, whole set of installation is also suffered from certain drawbacks, and it is bad to be such as oxygenated the control of insufficient or oxygenation capacity, after seed is bred as Fishing operation, facility are lack of standardization, be easy to cause the problems such as fry growth is bad, mechanical damage is serious, reduce fry yield.

Currently, existing Patents documents report the special device or technical solution for solving early stage fry rearing, mainly For specific seed, corresponding treatment technology measure is taken, but all incomplete.Therefore, it develops a kind of more real It is significant with, more cost-effective early stage fry rearing device.

Summary of the invention

Technical problem to be solved by the utility model is: providing a kind of early stage fry rearing device, fry can be realized It effectively cultivates, easy to operate, at low cost, seed incubation rate is high, high-quality.

The technical solution that the utility model is taken are as follows: a kind of early stage fry rearing device, including water storage box and incubator store Water tank is connected to incubator water inlet by water inlet pipe and water storage box is higher than incubator, and water storage box is built-in with aeration oxygen increasing machine, trains Educating case is cylindrical box, and water inlet pipe water outlet is along incubator arranged tangential and close to box inner wall is cultivated, and middle part is set in incubator Drainage hole is set, vertical dismountable inner and outer tubes are provided on drainage hole, outer and outer tube diameter of bore is managed in outer tube socket inside Greater than diameter of inner pipe, inner tube is provided with permeable hole, is provided with multiple rows of circumferential overflow hole on outer tube along the vertical direction, and outer tube height is high In incubator top.

Preferably, above-mentioned overflow hole is separately positioned at 20cm, 30cm and 40cm height.

Preferably, oxygenation pipe of the surface with air hole is equipped in above-mentioned incubator, oxygenation pipe helically stretch by structure, one end Incubator is connected to oxygen increasing pump out.

Preferably, above-mentioned outer tube upper end is provided with anti-escape network, and anti-escape network includes cylindrical block frame and is laid on block Gauze in frame, block frame bottom are provided with embedding groove, and embedding groove is embedded on the raised line of incubator upper end.

Preferably, above-mentioned draining outer end of hole is connected to collection seedling bucket by fry collecting pipe, and the fry string bag is arranged in collection seedling bucket, Incubator is mounted on three leg supports.

Preferably, above-mentioned water inlet pipe is also connected with buffer tank.

Preferably, liquid level sensor and camera are installed on above-mentioned incubator, are provided with solenoid valve on water inlet pipe.

Preferably, eos exhaust oxygen sensor is additionally provided in above-mentioned incubator, eos exhaust oxygen sensor is located at liquid level or less.

Preferably, above-mentioned liquid level sensor and camera are connected to the signal input part of controller, the control terminal of controller It is connected with solenoid valve and aeration oxygen increasing machine and oxygen increasing pump, the signal input part of controller is also connected with eos exhaust oxygen sensor, control Device is connected with human-computer interaction interface.

Preferably, the control terminal of above controller is also connected with warning device and timing module.

The utility model has the beneficial effects that compared with prior art, the effect of the utility model is as follows:

(1) water inlet pipe of tangential water inlet is arranged in incubator and against side wall for the utility model, along wall box Bath, can be such that water body in case flows in one direction, promote bottom excrement, rubbish to concentrate towards centre, be discharged, storing from discharge outlet Aeration oxygen increasing machine is set in water tank, further increases water quality oxygen content, it is ensured that oxygen supply is sufficient, and discharge outlet is socketed using inner tube outer tube Structure, outer tube are arranged to multiple rows of overflow pore structure, convenient for the control of water level height in control incubator, using detachable fishplate bar, Convenient for being dismantled the releasing collection for carrying out fry, setting block device prevents fry from escaping, the utility model also has structure Simply, cheap and easy to operate feature；

(2) bottom setting oxygenation pipe further ensures that the oxygen content of incubator is sufficient, is laid on bottom using helical structure Portion realizes that oxygenation is sufficient；

(3) anti-escape network for using mosaic mode, facilitates and carries out assembly and disassembly cleaning and sterilizing, reduces the virus and bacteria for being unfavorable for fry Infringement, greatly improves survival rate of fish fry, and the structure is also convenient for being safeguarded, structure is simple, at low cost；

(4) setting collection seedling bucket, is convenient for the collection of fry, using the fry string bag is arranged in collection seedling bucket, is convenient for fish The transfer of seedling, three leg support supporting & stablizings are reliable；

(5) buffer tank is set, water shortage can be effectively prevent；

(6) liquid level sensor and camera are set, it being capable of the height of liquid level and the life of fry in real-time monitoring incubator Convenient for being remotely monitored, and solenoid valve is arranged in long situation, conducive to carrying out remotely carrying out adding water and changing water；

(7) eos exhaust oxygen sensor is set, convenient for water quality oxygen content in real time monitoring incubator, is handled in time, improves training Educate reliability；

(8) warning device and timing module are set, alarmed when reaching given threshold to oxygen content and liquid level, and timing Data acquisition is carried out, the automatic management level of fry rearing process is greatly improved.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the overlooking structure diagram of the utility model；

Fig. 3 is the anti-escape network structural schematic diagram of the utility model；

Fig. 4 is the anti-escape network left view structural representation of the utility model；

Fig. 5 is the control attachment structure schematic diagram of the utility model.

Specific embodiment

With reference to the accompanying drawing and utility model is described further in specific embodiment.

Embodiment 1: as Figure 1-Figure 5, a kind of early stage fry rearing device, including water storage box 1 and incubator 2, water storage Case 1 is connected to 2 water inlet of incubator by water inlet pipe 3 and water storage box 1 is higher than incubator 2, and water storage box 1 is built-in with aeration oxygen replenishing Machine, incubator 2 are cylindrical box, and 3 water outlet of water inlet pipe is along 2 arranged tangential of incubator and close to 2 inner sidewall of incubator, incubator Drainage hole 4 is arranged in middle part in 2, and vertical dismountable inner tube 5 is provided on drainage hole 4 and outer tube 6, outer tube 6 are socketed in outside inner tube 5 And 6 diameter of bore of outer tube is greater than 5 diameter of inner tube, inner tube 5 is provided with permeable hole 7, is provided with multiple rows of week along the vertical direction on outer tube 6 To overflow hole 8,6 height of outer tube is higher than 2 top of incubator.

Preferably, above-mentioned overflow hole 8 is separately positioned at 20cm, 30cm and 40cm height.

Preferably, it is equipped with oxygenation pipe 22 of the surface with air hole in above-mentioned incubator 2, is oxygenated the helically structure of pipe 22, One end stretches out incubator 2 and is connected to oxygen increasing pump 23.

Preferably, above-mentioned 6 upper end of outer tube is provided with anti-escape network 9, and anti-escape network 9 includes cylindrical block frame 10 and is laid on The gauze 11 blocked in frame 10, block 10 bottom of frame are provided with embedding groove 12, and embedding groove 12 is embedded in the raised line of 2 upper end of incubator On.

Preferably, above-mentioned 4 outer end of drainage hole is connected to collection seedling bucket 14 by fry collecting pipe 13, and fish is arranged in collection seedling bucket 14 The seedling string bag 15, incubator 2 are mounted on three leg supports 16.

Preferably, above-mentioned water inlet pipe 3 is also connected with buffer tank 17.

Preferably, liquid level sensor 18 and camera 19 are installed on above-mentioned incubator 2, are provided with electromagnetism on water inlet pipe 3 Valve 20, camera use rotatable 360 ° of camera, are mounted on above incubator by bracket, face incubator surface, liquid Level sensor, which is fixed by the bracket, is connected to incubator side.

Preferably, eos exhaust oxygen sensor 21 is additionally provided in above-mentioned incubator 2, eos exhaust oxygen sensor 21 is located at liquid level or less.

Preferably, above-mentioned liquid level sensor 18 and camera 19 are connected to the signal input part of controller, the control of controller End processed is connected with solenoid valve 20 and aeration oxygen increasing machine and oxygen increasing pump 23, and the signal input part of controller is also connected with oxygen-containing sensing Device 21, controller is connected with human-computer interaction interface.

Preferably, the control terminal of above controller is also connected with warning device and timing module.

Above description is only a specific implementation of the present invention, but the protection scope of the utility model is not limited to In this, anyone skilled in the art within the technical scope disclosed by the utility model, can readily occur in variation Or replacement, it should be covered within the scope of the utility model, therefore, the protection scope of the utility model should be with the power Subject to the protection scope that benefit requires.

Claims (10)

1. a kind of early stage fry rearing device, it is characterised in that: including water storage box (1) and incubator (2), water storage box (1) passes through Water inlet pipe (3) is connected to incubator (2) water inlet and water storage box (1) is higher than incubator (2), and water storage box (1) is built-in with aeration and increases Oxygen machine, incubator (2) are cylindrical box, and water inlet pipe (3) water outlet is along incubator (2) arranged tangential and in incubator (2) Drainage hole (4) are arranged in side wall, the interior middle part of incubator (2), and vertical dismountable inner tube (5) and outer tube are provided on drainage hole (4) (6), outer tube (6) is socketed in inner tube (5) outside and outer tube (6) diameter of bore is greater than inner tube (5) diameter, and inner tube (5) is provided with permeable Hole (7), multiple rows of circumferential overflow hole (8) is provided on outer tube (6) along the vertical direction, and outer tube (6) is highly higher than incubator (2) and pushes up End.

2. a kind of early stage fry rearing device according to claim 1, it is characterised in that: overflow hole (8) is separately positioned on At 20cm, 30cm and 40cm height.

3. a kind of early stage fry rearing device according to claim 1, it is characterised in that: be equipped with table in incubator (2) Oxygenation pipe (22) of the face with air hole, oxygenation pipe (22) helically stretch out incubator (2) and be connected to oxygen increasing pump by structure, one end (23).

4. a kind of early stage fry rearing device according to claim 1, it is characterised in that: outer tube (6) upper end is provided with anti- Escape net (9), anti-escape network (9) includes cylindrical block frame (10) and is laid on the gauze (11) blocked in frame (10), frame of blocking (10) bottom is provided with embedding groove (12), and embedding groove (12) is embedded on the raised line of incubator (2) upper end.

5. a kind of early stage fry rearing device according to claim 1, it is characterised in that: drainage hole (4) outer end passes through fish Seedling collecting pipe (13) is connected to collection seedling bucket (14), the fry string bag (15) is arranged in collection seedling bucket (14), incubator (2) is mounted on three legs On support frame (16).

6. a kind of early stage fry rearing device according to claim 1, it is characterised in that: water inlet pipe (3) is also connected with standby With water tank (17).

7. a kind of early stage fry rearing device according to claim 1, it is characterised in that: incubator is equipped with liquid on (2) Level sensor (18) and camera (19) are provided with solenoid valve (20) on water inlet pipe (3).

8. a kind of early stage fry rearing device according to claim 1, it is characterised in that: be additionally provided in incubator (2) Eos exhaust oxygen sensor (21), eos exhaust oxygen sensor (21) are located at liquid level or less.

9. a kind of early stage fry rearing device according to claim 6, it is characterised in that: liquid level sensor (18) and camera shooting Head (19) is connected to the signal input part of controller, the control terminal of controller be connected with solenoid valve (20) and aeration oxygen increasing machine and Oxygen increasing pump (23), the signal input part of controller are also connected with eos exhaust oxygen sensor (21), and controller is connected with human-computer interaction interface.

10. a kind of early stage fry rearing device according to claim 8, it is characterised in that: the control terminal of controller also connects It is connected to warning device and timing module.