CN202941278U - Manual-control circulating-water incubation system for embryonic and larval amphioxus - Google Patents

Abstract

The utility model relates to an egg incubation and young fish rearing system, in particular to a manual-control circulating-water incubation system for embryonic and larval amphioxus. The manual-control circulating-water incubation system comprises a framework structure, incubation containers and a thermostatic control system, wherein a plurality of incubation containers are arranged on the framework structure and are all connected with the thermostatic control system; and owing to the thermostatic control system, embryonic or larval fish in the incubation containers can live in a thermostatic environment. The manual-control circulating-water incubation system for embryonic and larval amphioxus can control the temperature, has a small occupied area and lowers the probability of large-scale death during incubation.

Description

Lancelet embryo larvae juvenile fish cycle water Artificial Control incubation system

Technical field

The utility model relates to ovum hatching and young seedling culture system, specifically lancelet embryo larvae juvenile fish cycle water Artificial Control incubation system.

Background technology

Lancelet has long research history and wide distribution in China, and China comprises Dalian, Shandong, Fujian, the ground such as Guangxi from north orientation south.In the last few years owing to enclosing and cultivating on a large scale, filling out the sea, digging the reasons such as sand and pollution, make the habitat of lancelet reduce, thereby make the quantity of lancelet sharply descend, carry out the lancelet artificial breeding extremely urgent, this just needs to consider hatching and the cultivation of young seedling of Wenchang fish-egg.

The hatching of Wenchang fish-egg and young seedling are cultivated needs to consider Wenchang fish-egg and fragile, the tiny characteristic of young seedling, to characteristic and the small characteristics of bait of the sensitivity of temperature.At China and Japan, mainly adopt glass jar or plastics cylinder to carry out artificial incubation and the cultivation of young seedling, carry out in the room of temperature control simultaneously.

In the lancelet breeding process, temperature is cultivated extremely important to hatching and the young seedling of Wenchang fish-egg, utilize the temperature control room to have influence on sometimes the cultivation of other biology, and the phenomenon that can occur the incubator somatic death in the time of hatching and cultivation is fit to the dedicated system that Wenchang hatch fish roe and young seedling are cultivated up to now.

The utility model content

For the problems referred to above, the purpose of this utility model is to provide a kind of lancelet embryo larvae juvenile fish cycle water Artificial Control incubation system.This system can control temperature and floor space is little, extensive dead probability when reducing hatching.

To achieve these goals, the utility model is by the following technical solutions:

A kind of lancelet embryo larvae juvenile fish cycle water Artificial Control incubation system, comprise frame structure, hatch container, thermostatic control system, wherein frame structure is provided with a plurality of containers of hatching, respectively hatch container and all be connected with thermostatic control system, by thermostatic control system, the embryo son or the young juvenile fish that hatch in container are survived in isoperibol.

the described container of hatching comprises inner pressurd vessel and outer container, wherein the both sides, upper end of inner pressurd vessel are provided with handle, described inner pressurd vessel is arranged in outer container, and be mounted on the limit, upper end of outer container by upper end two side handles, leave the gap that thermostatted water is passed through between described inner pressurd vessel outer wall and outer container inwall, the bottom of described outer container is provided with delivery port, the upper port of outer container and bottom delivery port are connected with thermostatic control system, by the Clearance Flow of thermostatted water between inner pressurd vessel outer wall and outer container inwall, embryo son or young juvenile fish in inner pressurd vessel are survived in isoperibol.

Leave the gap of passing through for thermostatted water between the bottom of the unsettled and outer container in the bottom of described inner pressurd vessel.The bottom of described inner pressurd vessel is provided with feet.

Described thermostatic control system comprises storage tank, water pump, inlet pipeline, handpiece Water Chilling Units and outlet pipeline, wherein storage tank is arranged at the bottom of frame structure, described storage tank is connected with inlet pipeline by water pump, described inlet pipeline passes handpiece Water Chilling Units and is connected with the upper end of respectively hatching container, and the bottom of respectively hatching container is connected with storage tank by outlet pipeline.

Described frame structure is sandwich construction, and described thermostatic control system is arranged at the bottom of frame structure, all is placed with a plurality of containers of hatching on each layer of all the other of frame structure.

The utlity model has following advantage and beneficial effect:

1. the utility model adopts cooling and heater can guarantee the constant of whole system temperature.

The utility model adopt space frame structure can utility very little space carry out the hatching of a large amount of Wenchangs fish-egg and the cultivation of young seedling, the phenomenon of colony's death when having avoided simultaneously a large amount of Wenchangs fish-egg to hatch in a container.

3. the utility model adopts the outer container temperature control, and the structure that inner pressurd vessel is hatched has guaranteed the constant of temperature, has also avoided because Wenchang fish-egg, young seedling and bait are tiny, and young seedling moves about everywhere and can not utilize the problem of cycle water temperature control.

Description of drawings

Fig. 1 is that the structure of the utility model embodiment forms schematic diagram;

Fig. 2 is the right view of Fig. 1;

Fig. 3 is the left view of Fig. 1;

Fig. 4 is that the structure of container of the utility model embodiment forms schematic diagram;

Fig. 5 is the vertical view of Fig. 4.

Wherein: 1 is storage tank, and 2 is outlet pipeline, and 3 for hatching container, and 301 is inner pressurd vessel, and 302 is outer container, and 4 is frame structure, and 5 is inlet pipeline, and 6 is handpiece Water Chilling Units, and 7 is water pump.

Embodiment

The utility model will be further described below in conjunction with accompanying drawing.

As Figure 1-3, the utility model comprises frame structure 4, hatches container 3, thermostatic control system, wherein frame structure 4 is provided with a plurality of containers 3 of hatching, respectively hatch container 3 and all be connected with thermostatic control system, by thermostatic control system, the embryo son or the young juvenile fish that hatch in container 3 are survived in isoperibol.

Frame structure 4 is sandwich construction, and described thermostatic control system is arranged at the bottom of frame structure 4, all is placed with a plurality of containers 3 of hatching on all the other each layers of frame structure 4.Frame structure 4 can adopt corrosion resistant Steel material, and the material of hatching container 3 can adopt fiberglass or plastics.

As Fig. 4, shown in Figure 5, hatch container 3 and comprise inner pressurd vessel 301 and outer container 302, wherein the both sides, upper end of inner pressurd vessel 301 are provided with handle, and inner pressurd vessel 301 is arranged in outer container 302 and is mounted on by upper end two side handles on the limit, upper end of outer container 302.Leave the gap that thermostatted water is passed through between inner pressurd vessel 301 outer walls and outer container 302 inwalls, the bottom of outer container 302 is provided with delivery port.Leave the gap of passing through for thermostatted water between the bottom of the unsettled and outer container 302 in the bottom of inner pressurd vessel 301.The bottom of described inner pressurd vessel 301 can arrange feet.

Described thermostatic control system comprises storage tank 1, water pump 7, inlet pipeline 5, handpiece Water Chilling Units 6 and outlet pipeline 2, wherein storage tank 1 is arranged at the bottom of frame structure 4, storage tank 1 is connected with inlet pipeline 5 by water pump 7, inlet pipeline 5 passes handpiece Water Chilling Units 6 and is connected with outer container 302 upper ends of respectively hatching container 3, and the outer container 302 bottom delivery ports of respectively hatching container 3 are connected with storage tank 1 by outlet pipeline 2.Circulation constant temperature water enters gap between inner pressurd vessel 301 outer walls and outer container 302 inwalls from the upper port of outer container 302, and thermostatted water flows out from the bottom delivery port of outer container 302, and the young or young juvenile fish of embryo in inner pressurd vessel 301 is survived in isoperibol all the time.Described handpiece Water Chilling Units 6 is prior art.

Embodiment

Frame structure 4 adopts 316 stainless steel steel, and length is 2.4m, and width is 36cm, is highly 2.2m, and wherein the bottom height is 70cm, and being used for placing height is the storage tank of 60cm, and the upper strata is divided into 3 layers, and every layer is that 50cm is high, places 6 and hatches container 3.

The material of hatching the outer container 302 of container 3 adopts fiberglass, and inside dimension is 35cmx35cmx30cm, and thickness is 2mm, and the material of inner pressurd vessel 301 is plastics, and inside dimension is 25cmx15cmx30cm, and thickness is 1mm.

Claims (6)

1. lancelet embryo larvae juvenile fish cycle water Artificial Control incubation system, it is characterized in that: comprise frame structure (4), hatch container (3), thermostatic control system, wherein frame structure (4) is provided with a plurality of containers (3) of hatching, respectively hatch container (3) and all be connected with thermostatic control system, by thermostatic control system, the embryo son or the young juvenile fish that hatch in container (3) are survived in isoperibol.

2. by lancelet embryo larvae juvenile fish cycle water Artificial Control incubation system claimed in claim 1, it is characterized in that: the described container (3) of hatching comprises inner pressurd vessel (301) and outer container (302), wherein the both sides, upper end of inner pressurd vessel (301) are provided with handle, described inner pressurd vessel (301) is arranged in outer container (302), and be mounted on the limit, upper end of outer container (302) by upper end two side handles, leave the gap that thermostatted water is passed through between described inner pressurd vessel (301) outer wall and outer container (302) inwall, the bottom of described outer container (302) is provided with delivery port, upper port and the bottom delivery port of outer container (302) are connected with thermostatic control system, by the Clearance Flow of thermostatted water between inner pressurd vessel (301) outer wall and outer container (302) inwall, embryo son or young juvenile fish in inner pressurd vessel (301) are survived in isoperibol.

3. by lancelet embryo larvae juvenile fish cycle water Artificial Control incubation system claimed in claim 2, it is characterized in that: the gap that the confession thermostatted water passes through is left between unsettled bottom with outer container (302) in the bottom of described inner pressurd vessel (301).

4. by lancelet embryo larvae juvenile fish cycle water Artificial Control incubation system claimed in claim 3, it is characterized in that: the bottom of described inner pressurd vessel (301) is provided with feet.

5. by lancelet embryo larvae juvenile fish cycle water Artificial Control incubation system claimed in claim 1, it is characterized in that: described thermostatic control system comprises storage tank (1), water pump (7), inlet pipeline (5), handpiece Water Chilling Units (6) and outlet pipeline (2), wherein storage tank (1) is arranged at the bottom of frame structure (4), described storage tank (1) is connected with inlet pipeline (5) by water pump (7), described inlet pipeline (5) passes handpiece Water Chilling Units (6) and is connected with the upper end of respectively hatching container (3), the bottom of respectively hatching container (3) is connected with storage tank (1) by outlet pipeline (2).

6. by lancelet embryo larvae juvenile fish cycle water Artificial Control incubation system claimed in claim 1, it is characterized in that: described frame structure (4) is sandwich construction, described thermostatic control system is arranged at the bottom of frame structure (4), all is placed with a plurality of containers (3) of hatching on all the other each layers of frame structure (4).

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