CN205830812U - A kind of gas-liquid mixed conveying-type aquatic-organism culture systems - Google Patents

Abstract

This utility model relates to aquatic-organism culture technique field, particularly relates to a kind of gas-liquid mixed conveying-type aquatic-organism culture systems.This gas-liquid mixed conveying-type aquatic-organism culture systems includes biological culture container, gas-liquid mixing pump, source of the gas, water inlet pipe, outlet pipe and trachea；One end of trachea connects with source of the gas, the other end connects with water inlet pipe, so that gas enters gas-liquid mixing pump with liquid mixing, after utilizing gas-liquid mixing pump to be sucked with liquid mixing by gas, gas is broken up through the high speed of gas-liquid mixed impeller of pump, may be implemented in fully dissolving and diffusion in liquid, it is ensured that the biological growth demand to gas componant；Meanwhile, eliminating air pump and poromerics, device structure is simple, can greatly reduce equipment cost, reduces energy consumption；And, it is convenient to safeguard, reduces poromerics and cleans, the most attractive in appearance.

Description

A kind of gas-liquid mixed conveying-type aquatic-organism culture systems

Technical field

This utility model relates to aquatic-organism culture technique field, particularly relates to a kind of gas-liquid mixed conveying-type aquatic-organism Culture systems.

Background technology

At present, along with improving constantly of people's lives quality, Shui nationality industry is gradually accepted by ordinary populace, views and admires the Shui nationality Case also progresses into huge numbers of families, and China's Shui nationality industry just develops rapidly in Rapid development stage, how to increase technology content, Preferably meet the demand of people, day by day highlight in Shui nationality market.

As it is shown in figure 1, in aquatic-organism is cultivated, the supply of usual gas and liquid is carried out separately, and gas is direct Be passed through in the liquid of aquarium 4 by gas pump 1 and trachea 3, gas spread in a liquid usual way be use gas pump 1 or High-pressure gas cylinder provides power, allows the poromerics (micropore refining device 2) of one end that gas is positioned in liquid by trachea break up Realization is broken up, spreads and is dissolved, and liquid is individually passed through aquarium 4 by water pump 5.

But, traditional approach has a following deficiency:

1, gas diffusion in a liquid needs extra gas pump, poromerics and corollary equipment facility, and gas pump is adopted Purchase cost high, the most aging, increase energy consumption and noise.

2, microcellular structure easily adheres to dirt, impact diffusion and solute effect, safeguards inconvenience.

3, poromerics is expensive, and import poromerics is up to hundreds of unit, adds the one-tenth of aquatic-organism culture device This.

Therefore, for above not enough, it is desirable to provide a kind of gas-liquid mixed conveying-type aquatic-organism culture systems.

Utility model content

(1) to solve the technical problem that

It is existing to solve that the purpose of this utility model there is provided a kind of gas-liquid mixed conveying-type aquatic-organism culture systems The device structure that aquatic-organism training method exists is complicated, cost is high, safeguard inconvenience and the problem of gas diffusion dissolution weak effect.

(2) technical scheme

In order to solve above-mentioned technical problem, this utility model provides a kind of gas-liquid mixed conveying-type aquatic-organism training system System, it includes biological culture container, gas-liquid mixing pump, source of the gas, water inlet pipe, outlet pipe and trachea；Described biological culture container Water exit position is connected with the water inlet of described gas-liquid mixing pump by described water inlet pipe, and the outlet of described gas-liquid mixing pump passes through Described outlet pipe connects with described biological culture container water inlet position, and one end of described trachea connects with source of the gas, the other end and institute State water inlet pipe connection, so that gas enters described gas-liquid mixing pump with liquid mixing.

Wherein, described biological culture container is aquatic weed cylinder, and described source of the gas is co 2 liquefaction steel cylinder.

Wherein, described co 2 liquefaction steel cylinder is equipped with solving pressure valve.

Wherein, described co 2 liquefaction steel cylinder is equipped with regulation valve of giving vent to anger.

Wherein, described biological culture container is fishpond or fish jar, and described source of the gas is oxygen.

Wherein, described biological culture container is fishpond or fish jar, and described source of the gas is air.

Wherein, described trachea is provided with air volume regulating valve.

Wherein, described gas-liquid mixing pump is water pump.

(3) beneficial effect

Technique scheme of the present utility model has the advantage that the gas-liquid mixed conveying-type Shui nationality of the present utility model are raw In thing culture systems, one end of trachea connects with source of the gas, and the other end connects with water inlet pipe, so that gas enters gas with liquid mixing Liquid mixing pump, after utilizing gas-liquid mixing pump to be sucked with liquid mixing by gas, gas is beaten through the high speed of gas-liquid mixed impeller of pump Dissipate, may be implemented in fully dissolving and diffusion in liquid, it is ensured that the biological growth demand to gas componant；Meanwhile, eliminate Air pump and poromerics, device structure is simple, can greatly reduce equipment cost, reduces energy consumption；And, it is convenient to safeguard, reduces micro- Porous materials cleans, the most attractive in appearance.

When source of the gas is co 2 liquefaction steel cylinder, tradition refining device depends on the high pressure in co 2 liquefaction steel cylinder will Gas extrudes away to realize gas refinement diffusion from poromerics refining device and dissolves, co 2 liquefaction steel pressure of the inside of a bottle Then cannot refine after reduction, in causing co 2 liquefaction steel cylinder, gas uses not exclusively, wastes gas, and this utility model is to bottle Interior pressure no requirement (NR), utilizes gas-liquid mixing pump gas and liquid to be sucked, therefore can extend gas in co 2 liquefaction steel cylinder The use time, economize on resources.

Accompanying drawing explanation

Fig. 1 is the structural representation of aquatic-organism training method in prior art；

Fig. 2 is the knot of this utility model embodiment gas-liquid mixed conveying-type aquatic-organism the first concrete form of culture systems Structure schematic diagram；

Fig. 3 is the knot of this utility model embodiment gas-liquid mixed conveying-type aquatic-organism culture systems the second concrete form Structure schematic diagram.

In figure, 1: gas pump；2: micropore refining device；3: trachea；4: aquarium；5: water pump；6: biological culture container；601: Aquatic weed cylinder；602: fish jar；7: gas-liquid mixing pump；8: source of the gas；9: water inlet pipe；10: outlet pipe；11: air volume regulating valve.

Detailed description of the invention

With embodiment, detailed description of the invention of the present utility model is described in further detail below in conjunction with the accompanying drawings.Following reality Execute example for this utility model is described, but be not limited to model of the present utility model

In description of the present utility model, it should be noted that unless otherwise clearly defined and limited, term " peace Dress ", should be interpreted broadly " being connected ", " connection ", for example, it may be fix connection, it is also possible to be to removably connect, or integratedly Connect；Can be to be mechanically connected, it is also possible to be electrical connection；Can be to be joined directly together, it is also possible to be indirectly connected to by intermediary, It can be the connection of two element internals.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition Language concrete meaning in this utility model.

As shown in Figures 2 and 3, the gas-liquid mixed conveying-type aquatic-organism culture systems that this utility model provides includes biology Culture vessel 6, gas-liquid mixing pump 7, source of the gas 8, water inlet pipe 9, outlet pipe 10 and trachea 3；The water exit position of biological culture container 6 leads to Crossing water inlet pipe 9 to connect with the water inlet of described gas-liquid mixing pump 7, the outlet of gas-liquid mixing pump 7 is by outlet pipe 10 and biology Culture vessel 6 is intake position connection, and one end of trachea 3 connects with source of the gas 8, and the other end connects with water inlet pipe 9, so that gas and liquid Body is mixed into gas-liquid mixing pump 7.Wherein, the water exit position of biological culture container 6 can be the opening on chamber wall, it is also possible to The position that chamber wall connects is crossed with container internal liquid for water inlet pipe.

In above-mentioned embodiment, the liquid in biological culture container 6 enters gas-liquid mixing pump 7, the most again by water inlet pipe 9 Return biological culture container 6 through outlet pipe 10, supply biological culture, form recycling of liquid, energy-conserving and environment-protective；Wherein, One end of trachea 3 connects with source of the gas 8, and the other end connects with water inlet pipe 9, so that gas enters gas-liquid mixing pump 7 with liquid mixing, Utilizing gas-liquid mixing pump 7 that with liquid mixing, gas is sucked gas-liquid mixing pump 7, gas is through the high speed of gas-liquid mixing pump 7 impeller Break up, may be implemented in fully dissolving and diffusion in liquid, it is ensured that the biological growth demand to gas componant；Meanwhile, save Air pump and poromerics, can greatly reduce equipment cost, reduces energy consumption；And, it is convenient to safeguard, reduces poromerics and cleans, The most attractive in appearance.

Specifically, as in figure 2 it is shown, biological culture container 6 can be aquatic weed cylinder 601, source of the gas 8 is co 2 liquefaction steel cylinder, Gas-liquid mixing pump 7 is common water pump, specifically, inserts one end of trachea 3 at pump water inlet 9, and trachea 3 other end is even Being connected on co 2 liquefaction steel cylinder, co 2 liquefaction steel cylinder is equipped with solving pressure valve and regulation valve of giving vent to anger, after mixing up gas output, Carbon dioxide and water enter water pump in the lump, and gas is broken up through the high speed of water pump vane, send into aquatic weed cylinder 601 with current, Realize the carbon dioxide fully refinement in water to dissolve and diffusion, it is ensured that the pasture and water growth demand to carbon dioxide.This equipment Utilization, eliminate the use of micropore refining device 2 in pasture and water cultivating process, cost-effective, decrease clean refining device work Amount, also makes aquatic weed cylinder 601 more neat and artistic；Tradition refining device depends on the high pressure in co 2 liquefaction steel cylinder by gas from micro- Porous materials refining device extrude away realize gas refinement diffusion and dissolve, after the reduction of co 2 liquefaction steel pressure of the inside of a bottle then Cannot refine, cause gas in co 2 liquefaction steel cylinder to use not exclusively, waste gas, this utility model to pressure of the inside of a bottle without Requirement, in therefore can extending co 2 liquefaction steel cylinder, gas uses the time, economizes on resources.

As it is shown on figure 3, biological culture container 6 is fishpond or fish jar 602 certainly, source of the gas 8 is air.It is provided with on trachea 3 Air volume regulating valve 11；Specifically, inserting trachea 3 at pump water inlet 9, trachea 3 other end is connected to an air control valve On, after mixing up air inflow, air and water enter water pump in the lump, and gas is broken up through the high speed of water pump vane, send into fish with current Cylinder 602, fishpond, it is achieved that in air, the oxygen fully refinement in water is spread and dissolved, it is ensured that the health of fish jar 602 Fish The growth demand to water body dissolved oxygen amount.The utilization of this equipment, eliminate fish jar 602 air pump use, save equipment become This, also reduce by electric energy consumption simultaneously, also make fish jar 602 internal more neat and artistic.

It addition, this utility model gas-liquid mixed conveying-type aquatic-organism culture systems is applicable to treatment tank, it is possible to It is applicable to microorganism culturing.

In sum, in the gas-liquid mixed conveying-type aquatic-organism culture systems that this utility model provides, one end of trachea 3 Connecting with source of the gas 8, the other end connects with water inlet pipe 9, so that gas enters gas-liquid mixing pump 7 with liquid mixing, utilizes gas-liquid to mix Closing pump 7 and with liquid mixing, gas is sucked gas-liquid mixing pump 7, gas is broken up through the high speed of gas-liquid mixing pump 7 impeller, can realize Fully dissolving in a liquid and diffusion, it is ensured that the biological growth demand to gas componant；Meanwhile, air pump and micropore are eliminated Material, can greatly reduce equipment cost, reduces energy consumption；And, it is convenient to safeguard, reduces poromerics and cleans, the most attractive in appearance.

The above is only preferred implementation of the present utility model, it is noted that for the common skill of the art For art personnel, on the premise of without departing from this utility model know-why, it is also possible to make some improvement and modification, these change Enter and also should be regarded as protection domain of the present utility model with modification.

Claims (8)

1. a gas-liquid mixed conveying-type aquatic-organism culture systems, it is characterised in that: it includes that biological culture container, gas-liquid are mixed Close pump, source of the gas, water inlet pipe, outlet pipe and trachea；The water exit position of described biological culture container passes through described water inlet pipe with described The water inlet connection of gas-liquid mixing pump, the outlet of described gas-liquid mixing pump is by described outlet pipe and described biological culture container The connection of water inlet position, one end of described trachea connects with source of the gas, and the other end connects with described water inlet pipe, so that gas mixes with liquid Close and enter described gas-liquid mixing pump.

Gas-liquid mixed conveying-type aquatic-organism culture systems the most according to claim 1, it is characterised in that: described biological training Foster container is aquatic weed cylinder, and described source of the gas is co 2 liquefaction steel cylinder.

Gas-liquid mixed conveying-type aquatic-organism culture systems the most according to claim 2, it is characterised in that: described titanium dioxide Carbon liquefaction steel cylinder is equipped with solving pressure valve.

Gas-liquid mixed conveying-type aquatic-organism culture systems the most according to claim 2, it is characterised in that: described titanium dioxide Carbon liquefaction steel cylinder is equipped with regulation valve of giving vent to anger.

Gas-liquid mixed conveying-type aquatic-organism culture systems the most according to claim 1, it is characterised in that: described biological training Foster container is fishpond or fish jar, and described source of the gas is oxygen.

Gas-liquid mixed conveying-type aquatic-organism culture systems the most according to claim 1, it is characterised in that: described biological training Foster container is fishpond or fish jar, and described source of the gas is air.

7. according to the gas-liquid mixed conveying-type aquatic-organism culture systems described in claim 5 or 6, it is characterised in that: described gas Air volume regulating valve it is provided with on pipe.

Gas-liquid mixed conveying-type aquatic-organism culture systems the most according to claim 1, it is characterised in that: described gas-liquid is mixed Conjunction pump is water pump.