CN109316988A - Micro air bubble generation system - Google Patents

Abstract

A kind of micro air bubble generation system, for in a water area, and the water area at least has water layer on one, one is located at the horizontal plane of water layer top surface on this, once water layer and one be located at lower water layer bottom surface sediment layer, and the micro air bubble generation system includes at least a submergeable sphere, one movable floating platform, one body of rod, one gas enters pipe and a micro air bubble device, wherein the body of rod one end is fixed on the submergeable sphere, and the body of rod other end passes through the movable floating platform, since the submergeable sphere can be contacted with the bed mud layer surface and will not be sunk in the sediment layer, therefore when micro air bubble device running generates fine gas bubbles, the sphere structure of the submergeable sphere will reduce the case where causing the bed mud of sediment layer to stir because of vibration, therefore it can be avoided in water area and cause water pollution because bed mud is stirred It happens.

Description

Micro air bubble generation system

Technical field

The present invention relates to a kind of micro air bubble generation system, especially one kind can reduce bed mud and stir to avoid water is caused The micro air bubble generation system of matter pollution.

Background technique

Upper water layer can make dissolved oxygen amount sufficient because of algae row photosynthesis in general outdoor aquaculture pond, but lower water layer can be because For bottom long-term accumulated organic substance, therefore dissolved oxygen amount consumption is more quick；

And when dissolved oxygen amount has the case where shortage to occur, anaerobic fermentation phenomenon can then occur for bottom, and the organic substance of bottom Meeting is accumulated so that ammonia nitrogen improves in water, and generates the noxious materials such as hydrogen sulfide because of anaerobic fermentation phenomenon, therefore can endanger cultivation The safety of biology in pond, the therefore in order to enable oxygen content in water is promoted, to avoid water-bed depths due to oxygen content not Foot makes fish that can not obtain sufficient oxygen, and oxygen deficiency will make the immunity degradation of fish, therefore will be unable to resist and support Existing virus in pond is grown, therefore air can be squeezed into water or be injected using aerator micro air bubble device by dealer Water-bed mode increases the oxygen content in water.

But this kind of aerators or micro air bubble device is often affixed at water-bed bed mud, due to this kind Aerator or micro air bubble device all there is motor, therefore will do it when aerator or micro air bubble device operate Vibration, therefore will cause water-bed bed mud and be agitated, and when being agitated, the harmful substance in bed mud will be released Come, so will be unable to avoid the case where causing water pollution.

Therefore, if the micro air bubble device can be made directly not contact with bed mud by device, therefore when micro air bubble fills When setting running generation fine gas bubbles, the case where causing bed mud to stir because of vibration will be reduced, it is best so to should be one Solution.

Summary of the invention

A kind of micro air bubble generation system is used in a water area, and the water area at least has water layer on one, one On this horizontal plane of water layer top surface, once water layer and one be located at lower water layer bottom surface sediment layer, and the micro air bubble generate System includes at least a submergeable sphere, and to put in the lower water layer, and the submergeable sphere can be with the sediment layer table Face contact；One movable floating platform, can float on the horizontal plane, and have one first perforation and one the on the movable floating platform Two perforation；One body of rod, the body of rod one end are fixed on the submergeable sphere, and the body of rod other end can penetrate first perforation To be pierced by the horizontal plane；One gas enters pipe, and one end can penetrate second perforation to be pierced by the horizontal plane；One micro air bubble dress Set, be set on the submergeable sphere, and the micro air bubble device include at least have a submerged motor；One water inlet, one end with The submerged motor is connected, and the other end is located in the water area；And a micro air bubble generator, the micro air bubble generate Device includes an interconnecting piece, a gas pressurized portion and a bubble output section, wherein the gas pressurized portion both ends respectively with the connection Portion and the bubble output section are connected, and the caliber in the gas pressurized portion is less than the interconnecting piece and the caliber of the bubble output section, And the interconnecting piece enters the pipe other end with the submerged motor and the gas and is connected, so that gas enters pipe and can be sent into gas In the interconnecting piece, and the liquid that the water inlet inputs is sent into the interconnecting piece by the submerged motor, in the gas pressurized Lathery liquid is produced in portion, and is exported the lathery liquid to the lower water layer by the bubble output section.

In a preferred embodiment, wherein the gas, which enters the pipe other end, can also connect a gas supply device.

In a preferred embodiment, wherein the gas supply device can be ozone supplied device, carbon dioxide supply vessel, pure oxygen Power supply unit.

In a preferred embodiment, wherein the bubble output section is arranged in parallel with the bed mud layer surface, so that can be horizontal The liquid that will be filled with foam of shape is exported to the lower water layer.

In a preferred embodiment, wherein the submergeable sphere is a hollow sphere.

In a preferred embodiment, wherein at least both ends on the movable floating platform can be connected separately with a fixed dress It sets, and the fixation device is be capable of fixing the movable floating platform in the water area without drift or shaking.

In a preferred embodiment, wherein at least both ends on the body of rod can be connected separately with a fixed device, and be somebody's turn to do Fixed device is be capable of fixing the movable floating platform in the water area without drift or shaking.

In a preferred embodiment, when wherein the horizontal plane of the water area is down or up, which can With the horizontal fluctuating in carrying out upper and lower displacement on the body of rod.

In a preferred embodiment, wherein the body of rod top can also be connected with a lid.

Detailed description of the invention

Fig. 1 is the configured in one piece schematic diagram of micro air bubble generation system of the invention.

Fig. 2 is that the micro air bubble of micro air bubble generation system of the invention generates schematic diagram.

Fig. 3 is the water level decreasing implementation diagram of micro air bubble generation system of the invention.

Description of symbols

The upper water layer of A-

Water layer in B-

Water layer under C-

1- submergeable sphere

The movable floating platform of 2-

21- first perforates

22- second perforates

The 3- body of rod

4- gas enters pipe

5- micro air bubble device

51- submerged motor

52- water inlet

53- micro air bubble generator

531- interconnecting piece

532- gas pressurized portion

533- bubble output section

5331- foam

6- water area

61- horizontal plane

62- sediment layer

7- gas supply device.

Specific embodiment

About other technologies content, feature and effect of the present invention, the preferred embodiment of attached drawing is referred in following cooperation In detailed description, can clearly it present.

Referring to Fig. 1, be micro air bubble generation system of the invention configured in one piece schematic diagram, by figure it is found that wherein The micro air bubble generation system is used in a water area 6, and at least there is the water area 6 water layer A on one, one to be located on this Water layer B in the horizontal plane 61, one of the top surface water layer A, once water layer C and one is located at the sediment layer 62 of the bottom surface lower water layer C.

The micro air bubble generation system includes at least a submergeable sphere 1, a movable floating platform 2, a body of rod 3, a gas Into pipe 4 and a micro air bubble device 5, wherein the submergeable sphere 1 is to put in the lower water layer C, and the submergeable ball Body 1 can be contacted with 62 surface of sediment layer, since wherein the submergeable sphere 1 is a hollow sphere, curved surfaces energy Contact area is enough reduced, in addition to the submergeable sphere 1 is enable to float in the lower water layer C, it is therefore necessary to which adjusting this can sink The specific gravity of formula sphere 1.

Wherein specific gravity can be adjusted by adjusting the radius of the submergeable sphere 1, the present embodiment, which can control this, to sink The radius of formula sphere 1 is 30 ~ 40cm, but this is only best implementation state, if being able to use unlike material, can reach makes to sink Formula sphere 1 can float on the lower water layer C, and being also not necessarily intended to Control Radius is 30 ~ 40cm, any that submergeable sphere 1 can be made floating In the lower water layer C and the material and size of the sediment layer 62 will not be sunk to, all without departing from the application scope of protection.

Wherein the movable floating platform 2 can float on the horizontal plane 61, and have one first to wear on the movable floating platform 2 Hole 21 and one second perforation 22, and 3 one end of the body of rod is fixed on the submergeable sphere 2, and 3 other end of the body of rod can penetrate First perforation 21 is to be pierced by the horizontal plane 61.

Wherein the gas, which enters 4 one end of pipe, can penetrate second perforation 22 to be pierced by the horizontal plane 61, and the fine gas Bulb apparatus 5 is set on the submergeable sphere 1, and wherein the micro air bubble device 5, which includes at least, has a submerged motor 51, one to enter water 52, one micro air bubble generator 53 of mouth, which is connected with the submerged motor 51, and 52 other end of water inlet In the water area 6；Wherein the micro air bubble device 5 is capable of fixing on the submergeable sphere 1 or on the body of rod 3.

And the micro air bubble generator 53 includes an interconnecting piece 531, a gas pressurized portion 532 and a bubble output section The bubble output section 533 533(and 62 surface of sediment layer are arranged in parallel), wherein 532 both ends of gas pressurized portion respectively with this Interconnecting piece 531 and the bubble output section 532 are connected, and the caliber in the gas pressurized portion 532 is less than the interconnecting piece 531 and the gas The caliber of output section 533 is steeped, and the interconnecting piece 531 enters 4 other end of pipe with the submerged motor 51 and the gas and is connected.

The micro air bubble generator 53 is to generate negative pressure using the change spray head section in closing pipe line and simultaneously inhale air Enter, with formation " mixing shock " phenomenon, is mixed on gas-liquid interface and be directed into gas in water in a manner of bubble, with Micro air bubble is generated in water, and any device that can generate micro air bubble all can be applied to the present invention, therefore be not limited to State proposed structure.

And when water is directed into the interconnecting piece 531 by the submerged motor 51 pressurization and flows to the gas pressurized portion 532, Due to the gas pressurized portion 532 caliber diminution meeting so that the flow velocity of water increases, and is left to the outlet in gas pressurized portion 532 When because caliber restores to the relatively Large Diameter Pipeline of the bubble output section 533, then can generate hydromechanical cavitation erosion, this be because It is greater than the pressure at the tube wall of bubble output section 533 for the outlet pressure in gas pressurized portion 532, therefore can be produced in the bubble output section Raw negative pressure appearance, allows air to enter pipe 4 by the gas and is sucked into the interconnecting piece 531, and because the impact generation of strength is small In 10 μm of ultra-fine microbubble, this ultra-fine microbubble can quickly be spread and be dissolved in the water to increase the oxygen content in water.

As shown in Fig. 2, the bubble output section 533 will be discharged in the liquid full of foam 5331 to the water area 6, And the liquid full of foam 5331 is discharged other than it can increase the dissolved oxygen amount of the lower water layer C, additionally it is possible to by lower water layer C with Water body between middle water layer B exchanges up and down.

And when the horizontal plane of the water area 6 61 is down or up, which can be with the horizontal plane 61 Lifting and in carrying out upper and lower displacement on the body of rod 3, as shown in figure 3, the movable floating platform 2 then can when the horizontal plane 61 decline And then decline, if in addition the water area 6 fluctuation it is too big, it will make bubble output section 533 can not horizontal discharge fill On at least both ends or the body of rod 3 in the liquid to the water area 6 of full foam 5331, therefore on the movable floating platform 2 At least both ends can be connected separately with a fixed device, and the fixation device is be capable of fixing the movable floating platform in the water Without drift or shaking in body region 6.

In addition, the gas enters 4 other end of pipe can also connect do not show in a gas supply device 7(figure), the wherein gas Power supply unit 7 can be ozone supplied device, carbon dioxide supply vessel or pure oxygen power supply unit.

In addition, 3 top of the body of rod can also be connected with a lid (not shown).

Micro air bubble generation system provided by the present invention, when being compared to each other with other prior arts, advantage is as follows:

1, the present invention can be such that the micro air bubble device does not directly contact with bed mud by device, therefore when micro air bubble device is transported When making generation fine gas bubbles, the case where causing bed mud to stir because of vibration will be reduced.

2, when micro air bubble device of the invention running generates fine gas bubbles, the sphere structure of the submergeable sphere will The case where reduction causes the bed mud of sediment layer to stir because of vibration, therefore can be avoided in water area and made because bed mud is stirred Occur at the case where water pollution.

Pass through the above detailed description of preferred embodiments, it would be desirable to feature and spirit of the invention are more clearly described, and Not protection scope of the present invention is limited with above-mentioned disclosed preferred embodiment.On the contrary, the purpose is to It wishes to cover various changes and being arranged in the be intended to protection scope of the present invention with equality.

Claims (9)

1. a kind of micro air bubble generation system, which is characterized in that it is used in a water area, and the water area at least has one Upper water layer, one are located at the horizontal plane of water layer top surface on this, once water layer and one are located at the sediment layer of lower water layer bottom surface, and this is fine Bubble generation system includes at least:

One submergeable sphere, to put in the lower water layer, and the submergeable sphere can be contacted with the bed mud layer surface；

One movable floating platform, can float on the horizontal plane, and have one first perforation and one second on the movable floating platform Perforation；

One body of rod, the body of rod one end are fixed on the submergeable sphere, and the body of rod other end can penetrate this first perforation with It is pierced by the horizontal plane；

One gas enters pipe, and one end can penetrate second perforation to be pierced by the horizontal plane；

One micro air bubble device is set on the submergeable sphere, and the micro air bubble device include at least have:

One submerged motor；

One water inlet, one end is connected with the submerged motor, and the other end is located in the water area；And

One micro air bubble generator, the micro air bubble generator include an interconnecting piece, a gas pressurized portion and bubble output Portion, wherein the gas pressurized portion both ends are connected with the interconnecting piece and the bubble output section respectively, and the pipe in the gas pressurized portion Diameter is less than the interconnecting piece and the caliber of the bubble output section, and the interconnecting piece enters the pipe other end with the submerged motor and the gas It is connected, so that gas enters pipe and can be sent into gas in the interconnecting piece, and is inputted the water inlet by the submerged motor Liquid be sent into the interconnecting piece, to produce lathery liquid in the gas pressurized portion, and by the bubble output section The lathery liquid is exported to the lower water layer.

2. micro air bubble generation system as described in claim 1, which is characterized in that the gas enters the pipe other end and can also connect Connect a gas supply device.

3. micro air bubble generation system as claimed in claim 2, which is characterized in that the gas supply device can be ozone supplied Device, carbon dioxide supply vessel or pure oxygen power supply unit.

4. micro air bubble generation system as described in claim 1, which is characterized in that the bubble output section and the bed mud layer surface It is arranged in parallel, so that the liquid that will be filled with foam that can be horizontal is exported to the lower water layer.

5. micro air bubble generation system as described in claim 1, which is characterized in that the submergeable sphere is a hollow sphere.

6. micro air bubble generation system as described in claim 1, which is characterized in that at least both ends energy on the movable floating platform Enough be connected separately with a fixed device, and the fixation device being capable of fixing the movable floating platform in the water area and It will not drift or shaking.

7. micro air bubble generation system as described in claim 1, which is characterized in that at least both ends on the body of rod can be distinguished It is connected with a fixed device, and the fixation device is be capable of fixing the movable floating platform in the water area without floaing It moves or shakes.

8. micro air bubble generation system as described in claim 1, which is characterized in that the horizontal plane of the water area decline or on When rising, which can be with the horizontal fluctuating and in carrying out upper and lower displacement on the body of rod.

9. micro air bubble generation system as described in claim 1, which is characterized in that the body of rod top can also be connected with a lid Body.