CN110652903A

CN110652903A - Ultra-high-speed rotating multi-cutter-head gas-liquid cutting mixing oxygenator

Info

Publication number: CN110652903A
Application number: CN201910907299.1A
Authority: CN
Inventors: 梁健丰; 黄锦满
Original assignee: GUANGDONG DONGRONG METAL PRODUCT CO Ltd
Current assignee: GUANGDONG DONGRONG METAL PRODUCT CO Ltd
Priority date: 2019-09-24
Filing date: 2019-09-24
Publication date: 2020-01-07

Abstract

The invention particularly relates to an ultrahigh-speed rotating multi-cutter-head gas-liquid cutting and mixing oxygenator which comprises a shell, wherein a first water inlet pipe and a first gas outlet pipe are arranged on the outer surface of the shell, a partition plate is fixed in the shell and provided with a water outlet hole, a gas inlet pipe is arranged on the partition plate, the gas inlet pipe is connected with a gas-driven stirring device, and the shell is also connected with a first water discharge pipe. The invention has the beneficial effects that: this structure is used through baffle, apopore, intake pipe and the combination of air drive agitating unit, plays and promotes the mixed effect of water oxygen to overall structure is simple.

Description

Ultra-high-speed rotating multi-cutter-head gas-liquid cutting mixing oxygenator

Technical Field

The invention relates to the technical field of cultivation, in particular to a super-high-speed rotating multi-cutter-head gas-liquid cutting mixing oxygenator.

Background

At present, the water-oxygen mixing devices applied in production practice are more, and mainly have two types. One is to use the air pump or compressor to blow the gas into the water through the pipeline of the bore hole or the air bubble stone, this kind of way is used for the minor pond to oxygenate mostly, the characteristic is that the bubble formed is bigger, the effect of dissolving in the water is not ideal, and the water pump power consumption is high and the price is more expensive; the other method is a mixing tower, oxygen is filled in the tower by an air pump, and water is sprayed out in a mist form from a spray head arranged in the tower by a high-pressure water pump, but the water and oxygen mixing effect is poor.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides the ultrahigh-speed rotating multi-cutter-head gas-liquid cutting mixing oxygenator for improving the water-oxygen mixing effect.

The invention discloses an ultrahigh-speed rotating multi-cutter-head gas-liquid cutting mixing oxygenator which comprises a shell, wherein a first water inlet pipe and a first gas outlet pipe are arranged on the outer surface of the shell, a partition plate is fixed in the shell and provided with a water outlet hole, a gas inlet pipe is arranged on the partition plate and connected with a gas driving stirring device, and the shell is also connected with a first water discharge pipe.

It is specifically further that gas drive agitating unit is equipped with stirring utensil, carousel, stirring intake pipe and stirring outlet duct, and the carousel is located gas drive agitating unit, and stirring intake pipe and stirring outlet duct communicate respectively in gas drive agitating unit's inner chamber, and the end of giving vent to anger of stirring intake pipe is towards the carousel side, and the stirring utensil is connected in the middle part position of carousel.

Particularly, the stirring air outlet pipe is connected with a high-pressure air inlet pipe, and the high-pressure air inlet pipe is provided with a switch valve or an electromagnetic valve.

Specifically, the gas-driven stirring device is fixed on the upper surface of the partition plate, and one end of the stirring tool penetrates through the partition plate and extends out of the partition plate.

Specifically, the partition plate divides the inner cavity of the shell into an upper space and a lower space, the first water inlet pipe and the air outlet pipe are located in the upper space, and the water outlet hole is connected to the upper space and the lower space respectively.

It is specifically further that the outlet duct is equipped with the air outlet valve, the intake pipe is equipped with air inlet regulating valve.

Particularly, a second water inlet pipe is arranged on the outer surface of the shell.

Specifically, the water outlet hole is in a semicircular shape.

Specifically, a transparent tube for displaying the liquid level is arranged on the front surface of the shell.

Specifically further, the housing is provided with a top plate and a bottom plate, respectively, which seal the upper surface and the lower surface of the housing, respectively.

The first water discharge pipe is sequentially connected with an auxiliary pipe and a second water discharge pipe, and the auxiliary pipe is connected with the first water discharge pipe through a regulating valve.

The invention has the beneficial effects that: this structure is used through baffle, apopore, intake pipe and the combination of air drive agitating unit, plays and promotes the mixed effect of water oxygen to overall structure is simple.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is an exploded view of fig. 1.

Fig. 3 is a schematic view of the structure of the partition plate.

Fig. 4 is a schematic view of the bottom structure of fig. 3.

FIG. 5 is a schematic view of the connection structure of the air inlet pipe, the air inlet regulating valve and the air-driven stirring device.

Fig. 6 is a schematic view of the bottom structure of fig. 5.

Fig. 7 is a schematic diagram of the operation of the gas-driven stirring device.

FIG. 8 is a schematic view of the connection structure of the air-driven stirring device, the high-pressure air inlet pipe and the switch valve.

Fig. 9 is another angle structure diagram of fig. 8.

Description of reference numerals:

a housing 1; an intake pipe 101; an outlet pipe 102; an air outlet valve 2; a top plate 3; a base plate 301; a first water inlet pipe 4; a second water inlet pipe 5; an intake air regulating valve 6; a gas-driven stirring device 7; a stirring tool 701; a turntable 702; a stirring air inlet pipe 703; a stirring gas outlet pipe 704; a high pressure air inlet pipe 705; an on-off valve 706; a transparent tube 8; a first drain pipe 9; a second drain pipe 10; an output tube 11; a partition plate 12; a water outlet hole 1201; the valve 13 is adjusted.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

An ultra-high speed rotary multi-blade gas-liquid cutting mixing oxygenator according to an embodiment of the present invention is described below with reference to fig. 1 to 9, including a housing 1, wherein: the surface of casing 1 is equipped with first inlet tube 4 and outlet duct 102, and casing 1 internal fixation has division board 12, and division board 12 is equipped with apopore 1201, and division board 12 is equipped with intake pipe 101, and intake pipe 101 is connected with gas drive agitating unit 7, and casing 1 still is connected with first drain pipe 9.

This structure is used through baffle 12, apopore 1201, intake pipe 101 and the combination of air drive agitating unit 7, plays and promotes the mixed effect of water oxygen to overall structure is simple.

More specifically: water enters the shell 1 through the first water inlet pipe 4, falls on the upper surface of the partition plate 12, forms a water column through the water outlet hole 1201 and is sprayed out, and a certain water storage capacity is formed in the lower portion of the shell 1 by the water; the air inlet pipe 101 is required to be connected with a liquid oxygen bottle or a liquid oxygen tank, high-pressure liquid oxygen is stored in the liquid oxygen bottle or the liquid oxygen tank, the high-pressure liquid oxygen is conveyed into the air-driven stirring device 7 through the air inlet pipe 101, the air-driven stirring device 7 is driven to work, the air-driven stirring device 7 can stir water at the lower part in the shell 1 to form a vortex, the high-pressure liquid oxygen is converted into high-pressure oxygen in the air-driven stirring device 7, the air-driven stirring device 7 is in a working state, the high-pressure oxygen can be sprayed out, the high-pressure oxygen can perform a pressurization effect on the first water inlet pipe 4, and the oxygen; and a high water column is formed at the water outlet hole 1201 and is sprayed to the upper liquid surface of the vortex, so that the water is further in a rolling state, and the oxygen content is optimal in the state.

Wherein, the high-pressure oxygen makes the bottom surface of the partition plate 12 and the liquid surface leave a buffer space for mixing oxygen and water. The nitrogen in the shell 1 can not be dissolved in water and needs to be discharged out of the shell 1 through the air outlet pipe 102, so that the occupied space in the shell 1 is reduced, and the oxygen-water mixing is further promoted.

The gas-driven stirring device 7 is provided with a stirring tool 701, a rotating disc 702, a stirring gas inlet pipe 703 and a stirring gas outlet pipe 704, wherein the rotating disc 702 is positioned in the gas-driven stirring device 7, the stirring gas inlet pipe 703 and the stirring gas outlet pipe 704 are respectively communicated with an inner cavity of the gas-driven stirring device 7, the gas outlet end of the stirring gas inlet pipe 703 faces the rotating disc 702 side, and the stirring tool 701 is connected to the middle position of the rotating disc 702. High-pressure liquid oxygen enters from the stirring air inlet pipe 703 and is blown to one side of the rotating disc 702, so that the rotating disc 702 is driven by the high-pressure liquid oxygen to rotate at a high speed, the rotating disc 702 drives the stirring tool 701 to rotate, the stirring tool 701 is a needle type stirring tool, and the stirring part of the needle type stirring tool is in an acute shape, so that resistance is reduced in the stirring process, and a stirring effect is achieved, as shown in fig. 2, 5 and 6, the structure preferably has more than two layers of stirring parts, and stirring at different water levels is achieved.

As shown in fig. 8 and 9, the stirring gas outlet pipe 704 is connected to a high pressure gas inlet pipe 705, and the high pressure gas inlet pipe 705 is provided with a switch valve 706 or an electromagnetic valve. The high-pressure air inlet pipe 705 inputs high-pressure air, and can also drive the air-driven stirring device 7 to work. Alternatively, the high pressure air pipe 705 may be stopped, and high pressure liquid oxygen may be selectively supplied to operate the gas-driven stirring device 7.

The gas-driven stirring device 7 is fixed on the upper surface of the partition plate 12, and one end of the stirring tool 701 penetrates through the partition plate 12 and extends out of the partition plate 12. The stirrer 701 stirs water in the housing 1. More specifically, the partition plate 12 divides the inner cavity of the housing 1 into an upper space and a lower space, the first inlet pipe 4 and the outlet pipe 102 are located in the upper space, and the outlet hole 1201 is connected to the upper space and the lower space, respectively. The upper space is used for mixing water and primary water and oxygen, and the lower space is used for mixing water and oxygen for the second time, storing the mixed water and waiting for discharging outside the shell 1.

The outlet pipe 102 is provided with the outlet valve 2, and the outlet valve 2 is used for connecting and disconnecting the outlet pipe 102, so that nitrogen can be discharged. In addition, the air inlet pipe 101 is provided with an air inlet regulating valve 6, and the air inlet regulating valve 6 is used for regulating the air inlet amount and is determined according to the number of the air-driven stirring devices 7. The preferred number of the present structure is as shown in fig. 2, 5 and 6, but the number of the arrangement cannot be limited thereby, and the number of the arrangement can be increased or decreased depending on the volume of the housing 1.

The second water inlet pipe 5 is arranged on the outer surface of the shell 1, so that the water inflow effect is improved; the water outlet hole 1201 is in a semicircular shape. The water outlet holes 1201 achieve sufficient water yield, and the number of the water outlet holes 1201 is at least one, so that a multi-water-column jetting effect is achieved. The front surface of the shell 1 is provided with a transparent tube 8 for displaying the liquid level. The transparent tube 8 helps to observe the height of the liquid level, and when the water level is too high, the water is drained, so that the mixing space between the liquid level and the bottom surface of the partition plate 12 is at a reasonable height.

The casing 1 is equipped with roof 3 and bottom plate 301 respectively, and roof 3 and bottom plate 301 seal the upper surface and the lower surface of casing 1 respectively, effectively implement sealed casing 1, and roof 3 is used for installing first inlet tube 4. The bottom plate 301 is used to support the weight of the whole housing 1, and a support member may be further provided on the bottom surface of the bottom plate 301.

The first drainage pipe 9 of the invention is sequentially connected with an auxiliary pipe 11 and a second drainage pipe 10, and the auxiliary pipe 11 is connected with the first drainage pipe 9 through a regulating valve 13. The regulating valve 13 is used to regulate the amount of water discharged, thereby controlling the height of the liquid level.

The present invention is not limited to the above preferred embodiments, but rather, any modification, equivalent replacement or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a rotatory multiknife head gas-liquid cutting mixes oxygenator of hypervelocity, includes casing (1), its characterized in that: the outer surface of casing (1) is equipped with first inlet tube (4) and outlet duct (102), and casing (1) internal fixation has division board (12), and division board (12) are equipped with apopore (1201), and division board (12) are equipped with intake pipe (101), and intake pipe (101) are connected with air drive agitating unit (7), and casing (1) still is connected with first drain pipe (9).

2. The ultra-high speed rotating multi-cutter head gas-liquid cutting mixing oxygenator of claim 1, wherein: the gas-driven stirring device (7) is provided with a stirring tool (701), a turntable (702), a stirring air inlet pipe (703) and a stirring air outlet pipe (704), the turntable (702) is located in the gas-driven stirring device (7), the stirring air inlet pipe (703) and the stirring air outlet pipe (704) are respectively communicated with an inner cavity of the gas-driven stirring device (7), the air outlet end of the stirring air inlet pipe (703) faces towards the turntable (702) side, and the stirring tool (701) is connected to the middle position of the turntable (702).

3. The ultra-high speed rotating multi-cutter head gas-liquid cutting mixing oxygenator of claim 2, wherein: the stirring air outlet pipe (704) is connected with a high-pressure air inlet pipe (705), and the high-pressure air inlet pipe (705) is provided with a switch valve (706) or an electromagnetic valve.

4. The ultra-high speed rotating multi-cutter head gas-liquid cutting mixing oxygenator of claim 2, wherein: the gas-driven stirring device (7) is fixed on the upper surface of the partition plate (12), and one end of the stirring tool (701) penetrates through the partition plate (12) and extends out of the partition plate (12).

5. The ultra-high speed rotating multi-cutter head gas-liquid cutting mixing oxygenator of claim 1, wherein: the inner cavity of the shell (1) is divided into an upper space and a lower space by the partition plate (12), the first water inlet pipe (4) and the air outlet pipe (102) are located in the upper space, and the water outlet hole (1201) is connected to the upper space and the lower space respectively.

6. The ultra-high speed rotating multi-cutter head gas-liquid cutting mixing oxygenator of claim 1, wherein: the air outlet pipe (102) is provided with an air outlet valve (2), the air inlet pipe (101) is provided with an air inlet adjusting valve (6), and the outer surface of the shell (1) is provided with a second water inlet pipe (5).

7. The ultra-high speed rotating multi-cutter head gas-liquid cutting mixing oxygenator of claim 1, wherein: the water outlet hole (1201) is in a semicircular shape.

8. The ultra-high speed rotating multi-cutter head gas-liquid cutting mixing oxygenator of claim 1, wherein: the front surface of the shell (1) is provided with a transparent tube (8) for displaying the liquid level.

9. The ultra-high speed rotating multi-cutter head gas-liquid cutting mixing oxygenator of claim 1, wherein: the shell (1) is provided with a top plate (3) and a bottom plate (301) respectively, and the top plate (3) and the bottom plate (301) seal the upper surface and the lower surface of the shell (1) respectively.

10. The ultra-high speed rotating multi-cutter head gas-liquid cutting mixing oxygenator of claim 1, wherein: the first drainage pipe (9) is sequentially connected with an auxiliary pipe (11) and a second drainage pipe (10), and the auxiliary pipe (11) is connected with the first drainage pipe (9) through an adjusting valve (13).