CN208956752U - Fish pond fish pot oxygen increasing filter core - Google Patents

Abstract

The utility model belongs to the field of breeding fish, and in particulars relate to a kind of fish pond fish pot oxygen increasing filter core, and the oxygenation suitable for fish pond and fish jar cultivates, and can greatly improve cultivation density.The strainer composition bubble incised layer for adhering to aperture in parallel on keel surrounds a three-dimensional closed space with bubble incised layer, and referred to as bubble cuts chamber, and all solid particles greater than sieve meshes aperture all go out not going, and cutting in chamber in bubble has suction nozzle；Bubble cutting chamber and suction nozzle collectively constitute oxygenation filter core, and oxygenation filter core impregnates in water；It can only be discharged from the aperture of strainer from the air that suction nozzle is come in；The air atmosphere bubble for entering bubble cutting chamber from suction nozzle, is cut into minute bubbles fine crushing by the aperture of strainer by force and enters in water, be then discharged from water.Due to the cutting tool steeped using strainer as air atmosphere, air drag is greatly reduced, thus improves oxygenation efficiency.

Description

Fish pond fish pot oxygen increasing filter core

Technical field:

This technology belongs to the field of breeding fish, and in particulars relate to a kind of fish pond fish pot oxygen increasing filter core, suitable for fish pond and fish jar Oxygenation cultivation.

Background technique:

Currently, one is the sand head oxygenation of fish jar, and one is the air in fish pond to evoke there are two types of oxygenation ways of breeding fish Spray gas explosion oxygenation, both efficient low, the excessively high defect of oxygenation power consumption.

Summary of the invention

The present invention is designed aiming at existing bleeding technique drawback, empty due to using strainer as bubble cutting tool Atmidometer substantially reduces, thus efficiency is greatly enhanced.With keel and strainer composition closed space and impregnate in water, it will be empty Gas is blown into from suction nozzle, so that air atmosphere bubble is cut into micro-bubble by force by strainer aperture, is reached oxygenation purpose.

It realizes the technical solution used in the present invention is: adhering to the strainer composition bubble cutting of aperture in parallel on keel Layer surrounds a three-dimensional closed space with bubble incised layer, and referred to as bubble cuts chamber, all solids greater than sieve meshes aperture Grain all goes out not going, and cutting in chamber in bubble has suction nozzle；Bubble cutting chamber and suction nozzle collectively constitute oxygenation filter core, oxygenation filter core It impregnates in water；It can only be discharged from the aperture of strainer from the air that suction nozzle is come in；Enter bubble cutting chamber from suction nozzle Air atmosphere bubble, is cut into minute bubbles fine crushing by the aperture of strainer by force and enters in water, be then discharged from water.

Detailed description of the invention:

This technology is further illustrated with reference to the accompanying drawing.

Fig. 1 is oxygenation filter element structure cross-sectional schematic schematic diagram.

Fig. 2 is the stereoscopic schematic diagram of keel.

Fig. 3 is bubble cutting chamber stereoscopic schematic diagram.

Fig. 4 is bubble incised layer floor map.

Fig. 5 is bubble cutting chamber while the stereoscopic schematic diagram for using ventilative face and airtight face.

Fig. 6 is the stereoscopic schematic diagram of multi-layer bubbles cutting chamber.

In figure, 1. keel, 2. strainers, 3. bubble incised layers, 4. bubbles cutting chamber, 5. suction nozzles, 6. air pockets, 7 is stingy Bubble, 8. oxygenation filter cores, 9. skeletons, 10. macropore racks, 11. outlet apertures, 12. airtight planar materials, 13. ventilative faces, 14. Airtight face.

Specific embodiment:

This technology is further illustrated with reference to the accompanying drawing.

The keel 1 of bubble incised layer 3 are the skeleton 9 of arbitrary shape, and the strainer 2 of the keel 1 and attachment thereon constitutes vertical Body closed space.

The keel 2 of bubble incised layer 3 are the three-dimensional closed space being made of the macropore rack 10 of some strength, and strainer 2 wraps 10 outside of macropore rack is overlayed on, three-dimensional closed space is formed.

Bubble cuts the combination that chamber 4 is two layers or more, and the bubble cutting chamber 4 of outer layer and the bubble of internal layer cut 4 base of chamber This parallel, spaced-apart certain distance, every layer of bubble cutting chamber 4 are all combined into closed space, and small bubble cutting chamber 4 is enclosed in greatly Bubble cutting chamber 4 in.

Suction nozzle 5 is the combination of porous air inlet, i.e., ventilative outlet aperture is uniformly distributed on the space tube wall of closure 11。

Bubble incised layer 3 is to be together to form a bubble by strainer 2 and airtight planar materials 12 to cut chamber 4, the gas The airtight face 14 that bubble cutting chamber 4 is made of the ventilative face 13 of strainer and gas impermeable material.

In Fig. 1, there is suction nozzle 5 in bubble cutting chamber 4, there are multiple outlet apertures 11 on suction nozzle 5, air pocket 6 is from air inlet Mouth 5 is blown into bubble cutting chamber 4, and under pressure, the air pocket 6 in bubble cutting chamber 4 leads to by force from the mesh of strainer 2 It crosses, be cut into minute bubbles 7 and entered in water by sieve meshes.

In Fig. 2, Fig. 2 is the construction stereoscopic schematic diagram of keel 2.Keel 2 can be any shape, as long as can filter in cladding A three-dimensional closed space can be formed after net.

In Fig. 3, strainer 2 and keel 1 collectively constitute bubble cutting chamber 4, and strainer 2 is coated on 1 outside of keel, forms one and close Close space.

In Fig. 4, strainer 2 is attached in parallel on macropore rack 10, forms bubble incised layer 3, and bubble incised layer 3 is converted into closure Space forms bubble cutting chamber 4.

In Fig. 5, the ventilative face 13 and airtight planar materials 12 being made of strainer 2 form airtight face 14, collectively constitute Bubble cuts chamber 4.

In Fig. 6, bubble cuts the combination that chamber 4 is two layers or more, and the bubble cutting chamber 4 of outer layer and the bubble of internal layer are cut Chamber 4 is substantially parallel and spaced apart, and every layer of bubble cutting chamber 4 is all combined into closed space, and small bubble cuts 4 quilt cover of chamber In big bubble cutting chamber 4.Using the cutting chamber design of this multi-layer bubbles, bubble can be shredded to minimum as best one can, because And the oxygen content in water is increased, thus can greatly improve the cultivation density of fish.

Claims (6)

1. a kind of fish pond fish pot oxygen increasing filter core, which is characterized in that adhere to strainer (2) the composition gas of aperture in parallel on keel (1) It steeps incised layer (3), surrounds a three-dimensional closed space with bubble incised layer (3), referred to as bubble cutting chamber (4) is all to be greater than strainer (2) solid particle of mesh aperture all goes out not going, and in bubble cutting, chamber (4) are inner suction nozzle (5)；Bubble cut chamber (4) and into Gas nozzle (5) collectively constitutes oxygenation filter core (8), and oxygenation filter core (8) impregnates in water；The air come in from suction nozzle (5) can only be from It is discharged in the aperture of strainer (2)；The air atmosphere for entering bubble cutting chamber (4) from suction nozzle (5) steeps (6), by the small of strainer (2) Hole is cut into minute bubbles fine crushing (7) by force and enters in water, is then discharged from water.

2. fish pond fish pot oxygen increasing filter core according to claim 1, which is characterized in that the keel (1) of the bubble incised layer (3) For the skeleton (9) of arbitrary shape, the strainer (2) of the keel (1) and attachment thereon constitutes three-dimensional closed space.

3. fish pond fish pot oxygen increasing filter core according to claim 1, which is characterized in that the keel (1) of the bubble incised layer (3) For the three-dimensional closed space being made of the macropore rack (10) of some strength, strainer (2) is coated on the outside of macropore rack (10), shape At three-dimensional closed space.

4. fish pond fish pot oxygen increasing filter core according to claim 1, which is characterized in that bubble cutting chamber (4) be two layers and Above combination, bubble cutting chamber (4) and the bubble of internal layer cutting chamber (4) of outer layer are substantially parallel and spaced apart, often Layer bubble cutting chamber (4) is all combined into closed space, and small bubble cutting chamber (4) is enclosed in big bubble cutting chamber (4).

5. fish pond fish pot oxygen increasing filter core according to claim 1, which is characterized in that the suction nozzle (5) is porous air inlet Hole combination, i.e., be uniformly distributed ventilative outlet aperture (11) on the space tube wall of closure.

6. fish pond fish pot oxygen increasing filter core according to claim 1, which is characterized in that the bubble incised layer (3) is by strainer (2) and airtight planar materials (12) are together to form bubble cutting chamber (4), and bubble cutting chamber (4) has the saturating of strainer The airtight face (14) in gas face (13) and gas impermeable material composition.