CN216983148U - Self-circulation type constant-temperature fry indoor incubator - Google Patents

Abstract

The utility model relates to a self-circulation type constant-temperature indoor fry incubator which comprises a transparent hatching barrel with an open top, wherein a deep water inlet pipe extends into the transparent hatching barrel, an overflow emergence groove is arranged at the top of the transparent hatching barrel, one end of the overflow emergence groove is communicated with the transparent hatching barrel, a fry collecting barrel is arranged on one side of the transparent hatching barrel, the other end of the overflow emergence groove extends to the upper side of a barrel opening of the fry collecting barrel, a manual flow control valve is further arranged at one end, far away from the transparent hatching barrel, of the deep water inlet pipe, and an overflow pipe is vertically arranged on the fry collecting barrel. The fry and roe separator has the advantages that timely separation of fries and roes can be achieved while water circulation is achieved, the effect of synchronous collection of fries is achieved, the fry specifications are collected to be consistent, the structure is simple, the fry separator is suitable for indoor non-sticky or semi-sticky egg hatching, the water temperature and the oxygen content can be timely controlled through circulating water, operation is simple and convenient, and people do not need to stare at and watch for a long time.

Description

Self-circulation type constant-temperature fry indoor incubator

Technical Field

The utility model relates to the technical field of fry incubation, in particular to a self-circulation type constant-temperature indoor fry incubator.

Background

Two kinds of hatching modes are generally adopted in fry hatching process, non-stick eggs are mostly hatched by adopting a cement hatching circular pool, fresh water flows in through a duckbill sprayer at the bottom of the pool, so that the fish eggs are turned over to uniformly oxygenate to realize hatching, the advantage is that water is greatly changed, the water quality is not easy to deteriorate, the defect is that water and electricity resources are greatly wasted, and the large space utilization rate of the occupied area is low. Most of the viscous eggs adopt a square cement pond, the fish egg still water is uniformly adhered to nylon meshes, and the fish egg still water is aerated and incubated by an air pump, so that the advantage is that the space utilization rate of the pond is greatly improved, and the disadvantage is that the fish eggs are manually and uniformly adhered to each nylon mesh, and the circulating running water cannot be realized; the two hatching facilities are outdoor facilities which are easily affected by factors such as weather and the like outdoors, and have large occupied area and large water consumption, and large-scale water treatment equipment needs to be configured. And indoor hatching technique is also in constantly exploring the progress, like chinese utility model patent "three-dimensional fry incubator of automatic cycle", publication number CN202857558U, including hatching basin, hatching loop, grudging post, cistern, the grudging post sets up two layers or more than two layers at least, settles 2 or more than 2 hatching basins on every layer at least, is equipped with a cistern bottom the grudging post, installs a water pump in the cistern, takes out the water in the pond to the hatching basin on grudging post top layer through the aqueduct in, and toward lower floor's flushing is arranged through water purifier, drain pipe again, constitutes a circulation channel. The water filter consists of an upper layer and a lower layer, wherein the upper half layer is a filter screen, and the lower half layer is closed. The incubator can be used indoors, the incubation water can be recycled, the water consumption is saved, the three-dimensional multilayer structure of the incubator can realize mass flow production, and the incubation efficiency is improved; although the incubator structure with the circulating water operation is provided for indoor use, the incubator structure still has the problems that fry and roe cannot be separated in time and the fry cannot be collected quickly.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the utility model provides a self-circulation type constant-temperature fry chamber incubator which is simple in structure.

According to the specific technical scheme, the self-circulation type constant-temperature indoor incubator for the fries comprises a transparent incubation barrel with an open-type top, a deep water inlet pipe extends into the transparent incubation barrel, an overflow emergence groove is formed in the top of the transparent incubation barrel, one end of the overflow emergence groove is communicated with the transparent incubation barrel, a fry collecting barrel is arranged on one side of the transparent incubation barrel, the other end of the overflow emergence groove extends to the upper side of a barrel opening of the fry collecting barrel, a manual flow control valve is further arranged at one end, far away from the transparent incubation barrel, of the deep water inlet pipe, and an overflow pipe is vertically arranged on the fry collecting barrel.

Further, preferably, a mesh pipe head is arranged at the water inlet at the upper part of the overflow pipe.

Further, it is preferable that the nozzle of the deep water inlet pipe extends to the bottom of the transparent hatching barrel.

Further, preferably, the top of the fry collecting barrel is also in an open structure, and the barrel opening of the fry collecting barrel is lower than that of the transparent hatching barrel.

Further, preferably, the hatching barrel further comprises a conical flow distribution disc, and the bottom of the transparent hatching barrel is provided with the conical flow distribution disc which is over against the pipe orifice of the deep water inlet pipe.

Further, preferably, the hatching device further comprises a water supply pipe, and one end of the deep water inlet pipe, which is far away from the transparent hatching barrel, is connected with the water supply pipe.

Further, preferably, still include the wet return, the overflow pipe lower extreme passes the barrel bottom of fry collecting vessel and is connected with the wet return.

The beneficial effects of the utility model are: the water circulation type fry and egg hatching device has the advantages that timely separation of fries and eggs is achieved while water circulation is achieved, the effect of synchronous fry collection is achieved, the collected fries are consistent in specification, the structure is simple, the fry and egg hatching device is suitable for indoor non-stick eggs or semi-stick eggs, water temperature and oxygen content can be controlled timely through circulating water, operation is simple and convenient, and people do not need to stare at the fry and the eggs for a long time.

Drawings

FIG. 1 is a front view of a self-circulation type constant temperature fry chamber incubator of the present invention;

FIG. 2 is a top view of a self-circulation type constant temperature fry chamber incubator of the present invention;

FIG. 3 is a schematic perspective view of a conical diverter tray;

fig. 4 is a schematic view of water flow direction.

In the upper diagram: 1-transparent hatching barrel, 2-deep water inlet pipe, 3-overflow seedling emergence tank, 4-fry collecting barrel, 5-overflow pipe, 6-mesh pipe head, 7-manual flow control valve, 801-water supply pipe, 802-water return pipe, 9-triangular support frame, 1001-base I, 1002-base II and 11-conical splitter plate.

Detailed Description

In order to make the technical problems and technical solutions solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, are merely for convenience of description of the present invention, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1 and fig. 2, the self-circulation type constant-temperature indoor incubator for the fries comprises a transparent incubation barrel 1 with an open structure at the top, wherein the transparent incubation barrel 1 is made of a transparent organic material, the bottom of the transparent incubation barrel is semicircular, the incubation condition of the fries can be observed in time by adopting the transparent material, and the fries can be supplemented in time.

The deep water inlet pipe 2 extends into the transparent hatching barrel 1, and the pipe orifice of the deep water inlet pipe 2 extends to the bottom of the transparent hatching barrel 1, so that the purposes of pushing the fish eggs to suspend through the water flow at the bottom and circularly changing water are achieved; further, a triangular support frame 9 for supporting the deep water inlet pipe 2 is arranged in the transparent hatching barrel 1.

Be provided with the overflow at 1 top of transparent hatching bucket and emerge groove 3, 3 one end in the overflow tank of emerging communicates with transparent hatching bucket 1, be provided with fry collecting vessel 4 in 1 one side of transparent hatching bucket, the overflow tank of emerging 3 other ends extend to the bung hole upside of fry collecting vessel 4, it also is open structure to notice fry collecting vessel 4 top, its bung hole is less than the bung hole of transparent hatching bucket 1, rivers and fry just can enter into fry collecting vessel 4 from transparent hatching bucket 1 through overflow tank of emerging 3 like this.

The end of the deep water inlet pipe 2 far away from the transparent hatching barrel 1 is also provided with a manual flow control valve 7, and certainly, an electronic flow control valve can be arranged, the technical effects are the same, but the structure and the use are complicated.

The vertical overflow pipe 5 that is provided with on fry collecting vessel 4, the upper end mouth of pipe of overflow pipe 5 should be less than fry collecting vessel 4's bung hole, just so can play the technical purpose that prevents the rivers and spill over, and the department installs mesh tube head 6 in 5 upper portion water inlets of overflow pipe plays and prevents that the fry from flowing out from the overflow pipe.

As shown in fig. 3 and 4, a conical diversion plate 11 is disposed at the bottom of the transparent hatching barrel 1, and is directly opposite to the mouth of the deep water inlet pipe 2, and mainly plays a role in rapidly and uniformly guiding the flow direction of the water flow of the water inlet to the upper part, so that the force of the water flow of the water inlet can not cause the suspended fish eggs to float up and down.

One end of the deep water inlet pipe 2 far away from the transparent hatching barrel 1 is connected with a water supply pipe 801, the lower end of the overflow pipe 5 penetrates through the barrel bottom of the fry collecting barrel 4 and is connected with a water return pipe 802, and the lower end of the overflow pipe 5 penetrates through the barrel bottom of the fry collecting barrel 4 in a sealing manner, so that water leakage of the barrel bottom of the fry collecting barrel 4 cannot be caused.

The bottom of the transparent hatching barrel 1 is provided with a supporting base I1001, and the bottom of the fry collecting barrel 4 is also provided with a base II 1002.

When the device is used, the treated constant-temperature water is provided through the water supply pipe 801, the manual flow control valve 7 is opened, the roes are manually put into the transparent hatching barrel 1, the water outlet quantity of the manual flow control valve 7 is adjusted by observing the suspension condition of the roes, the roes are suspended, namely, the roes cannot sink to the bottom or float upwards, the water inlet flow is adjusted, the water flow is in direct proportion to the weight of the roes and always in the middle-lower position, the fish fries broken shell flow into the front fry collecting barrel 4 from the overflow emergence groove 3 along the water flow, workers can periodically recover the fish fries, the aborted water flows into the water return pipe 802 through the overflow pipe 5 and finally returns to the treatment equipment, the water flows into the treatment equipment for use from the water supply pipe 801 after treatment and oxygenation, the added roes in each day or the roes of each fish have different maturation time, so the fry emergence time is different, after the device is adopted, the function of synchronously collecting the fry can be realized, and the collected fry have more consistent specifications; the fish roe cleaning machine is always operated, and the fish roe cleaning machine only needs to add fish roe every day and clean the fish roe regularly.

The present invention has been described in detail with reference to the specific and preferred embodiments, but it should be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and any modifications, equivalents and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (7)

1. The utility model provides an indoor incubator of self-loopa type constant temperature fry, its characterized in that is open structure's transparent hatching bucket (1) including the top, and deep position inlet tube (2) extend into in transparent hatching bucket (1) top is provided with overflow and emerges groove (3), overflow emerges groove (3) one end and transparent hatching bucket (1) intercommunication transparent hatching bucket (1) one side is provided with fry collecting vessel (4), the overflow emerges groove (3) the other end and extends to the bung hole upside of fry collecting vessel (4), deep position inlet tube (2) are kept away from transparent hatching bucket (1) one end and still are provided with manual flow control valve (7), the vertical overflow pipe (5) that are provided with on fry collecting vessel (4).

2. A self-circulation type constant temperature fry chamber incubator according to claim 1, wherein the water inlet at the upper part of the overflow pipe (5) is provided with a mesh pipe head (6).

3. A self-circulation type constant temperature indoor hatcher for fries according to claim 1, wherein the mouth of the deep water intake pipe (2) extends to the bottom of the transparent hatching barrel (1).

4. The self-circulation type constant-temperature fry chamber incubator according to claim 1, wherein the top of the fry collecting barrel (4) is also in an open structure, and the opening of the fry collecting barrel is lower than the opening of the transparent hatching barrel (1).

5. The self-circulation type constant-temperature indoor fry incubator according to claim 1, further comprising a conical distribution plate (11), wherein the bottom of the transparent hatching barrel (1) is provided with the conical distribution plate (11) which is opposite to the nozzle of the deep water inlet pipe (2).

6. The self-circulation type constant-temperature fry chamber incubator as claimed in claim 1, further comprising a water supply pipe (801), wherein one end of the deep water inlet pipe (2) far away from the transparent hatching barrel (1) is connected with the water supply pipe (801).

7. The self-circulation type constant-temperature fry chamber incubator according to claim 6, further comprising a water return pipe (802), wherein the lower end of the overflow pipe (5) penetrates through the bottom of the fry collecting barrel (4) and is connected with the water return pipe (802).

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