CN108502959A - Intensive air-floating apparatus and system - Google Patents

Abstract

The invention discloses intensive air-floating apparatus and systems, are related to oily technical field of waste water processing.Intensive air-floating apparatus provided by the invention includes air supporting pond body, first pipe, the first valve, gas flowmeter, vacuum meter, air-water mixing pump, second pipe, the second valve, pressurized tank, pressure gauge, third pipeline, third valve and molten gas release pipe；Air-water mixing pump is connect by first pipe with air supporting pond body, and the first valve, gas flowmeter and vacuum meter are set in turn in first pipe；Pressurized tank is connect by second pipe with air-water mixing pump, and the second valve is set on second pipe, and pressure gauge is set on pressurized tank；Molten gas release pipe is connect by third pipeline with pressurized tank, and third valve is set to third pipeline.The present invention also provides a kind of intensive air-flotation systems including intensive air-floating apparatus.The structure of intensive air-floating apparatus provided by the invention and system is simple, easy to use, and can effectively save occupation of land, reduces energy consumption.

Description

Intensive air-floating apparatus and system

Technical field

The present invention relates to oily technical field of waste water processing, in particular to intensive air-floating apparatus and system.

Background technology

This part intends to provides background for the embodiments of the present invention stated in claims and specific implementation mode Or context.Description herein recognizes it is the prior art not because not being included in this part.

Oily waste water is mainly derived from the Ministry of Industry such as oil, petrochemical industry, steel, coking, gas generating station, mechanical processing Door.It is more and more harsher to various processing units in wastewater treatment industry with the development of society's automation, wastewater treatment dress Requirement is set under the premise of meeting processing requirement, embodies compact-sized, convenient transportation, reduction occupation of land, reduction energy consumption, drop as far as possible The characteristics of low artificial running cost.Existing tradition air supporting cannot be satisfied existing requirement, and there are high energy consumption, operation and maintenance are numerous Trivial feature.

Invention content

It is simple in structure, easy to use the purpose of the present invention is to provide a kind of intensive air-floating apparatus, and can effectively save About take up an area, reduces energy consumption.

The present invention provides a kind of technical solution about intensive air-floating apparatus：

A kind of intensive air-floating apparatus, for handling oily waste water.The intensive air-floating apparatus includes air supporting pond body, the first pipe Road, the first valve, gas flowmeter, vacuum meter, air-water mixing pump, second pipe, the second valve, pressurized tank, pressure gauge, third Pipeline, third valve and molten gas release pipe；

The air-water mixing pump is connect by the first pipe with the air supporting pond body, first valve, the gas Flowmeter body and the vacuum meter are set in turn in the first pipe；

The pressurized tank is connect by the second pipe with the air-water mixing pump, and second valve is set to described On second pipe, the pressure gauge is set on the pressurized tank；

The molten gas release pipe is connect by the third pipeline with the pressurized tank, and the third valve is set to institute State third pipeline.

Further, the air-water mixing pump, the second pipe and the pressurized tank are set as skid structure.

Further, the pressurized tank is provided with water inlet, water outlet, exhaust outlet and drain, the water inlet and institute Second pipe connection is stated, the water outlet is connect with the third pipeline, and the exhaust outlet and the drain are retractable Setting.

Further, the molten gas release pipe is provided with multiple liberation ports, and multiple liberation ports are evenly spaced apart to set It sets.

Further, the gas release pipe is disposed with the first liberation port, the second liberation port, third liberation port, the 4th Liberation port, the 5th liberation port and the 6th liberation port, first liberation port, second liberation port, the third liberation port, institute It states the 4th liberation port, the 5th liberation port and the 6th liberation port to be evenly spaced apart to be arranged, and first liberation port, institute State the shape of the second liberation port, the third liberation port, the 4th liberation port, the 5th liberation port and the 6th liberation port Shape and in the same size.

Further, the intensive air-floating apparatus further includes heating equipment and temperature sensor, the heating equipment and institute It states temperature sensor to may be contained in the pressurized tank, and the heating equipment is electrically connected with the temperature sensor；

The heating equipment is used to be heated to preset value to the pressurized tank, and the temperature sensor is for detecting the pressure Temperature value in power tank, when the temperature value reaches the preset value, the heating equipment stops heating.

Further, the intensive air-floating apparatus further includes processor and display, the processor and the display Electrical connection, the processor are electrically connected with the heating equipment and the temperature sensor.

Further, the intensive air-floating apparatus further includes Image Acquisition camera, described image acquisition camera and institute Processor electrical connection is stated, described image acquisition camera is used to acquire the image information of the mixing pump and the pressurized tank, and Described image information is transmitted to the processor.

Further, the intensive air-floating apparatus further includes communication module, and the communication module is electrically connected with the processor It connects, the communication module is for receiving control instruction or sending the communication information.

It is simple in structure, easy to use another object of the present invention is to provide a kind of intensive air-flotation system, and can be effective Saving take up an area, reduce energy consumption.

The present invention also provides a kind of technical solutions about intensive air-flotation system：

A kind of intensive air-flotation system, including intensive air-floating apparatus.The intensive air-floating apparatus includes air supporting pond body, the first pipe Road, the first valve, gas flowmeter, vacuum meter, air-water mixing pump, second pipe, the second valve, pressurized tank, pressure gauge, third Pipeline, third valve and molten gas release pipe；The air-water mixing pump is connect by the first pipe with the air supporting pond body, institute The first valve, the gas flowmeter and the vacuum meter is stated to be set in turn in the first pipe；The pressurized tank passes through The second pipe is connect with the air-water mixing pump, and second valve is set on the second pipe, the pressure gauge It is set on the pressurized tank；The molten gas release pipe is connect by the third pipeline with the pressurized tank, and the third Valve is set to the third pipeline.

Compared with prior art, the advantageous effect of intensive air-floating apparatus provided by the invention and system is：

First valve is connect by first pipe with air-water mixing pump, and the first valve plays a part of to adjust vacuum degree, adjusts Mixing wastewater with air ratio.Air-water mixing pump outlet end is connect with second pipe；Second valve is set on second pipe；Second valve, which rises, to be adjusted Save the effect of air-water mixing pump outlet pressure.Pressurized tank input end is connect with second pipe；Pressure gauge is set on pressurized tank；Pressure Table is for measuring pressure value in pressurized tank, and after pressure value reaches certain numerical value in pressurized tank, the dissolved air water of release can reach Optimum efficiency.The third valve being arranged on third pipeline has the function of adjusting pressure pressure inside the tank；Meanwhile third valve is released The effect for putting dissolved air water makes dissolved air water from the release pipe outflow of molten gas.

Description of the drawings

In order to illustrate the technical solution of the embodiments of the present invention more clearly, below will be to needed in the embodiment attached Figure is briefly described.It should be appreciated that the following drawings illustrates only certain embodiments of the present invention, therefore it is not construed as pair The restriction of range.It for those of ordinary skill in the art, without creative efforts, can also be according to this A little attached drawings obtain other relevant attached drawings.

Fig. 1 is the structural schematic diagram for the intensive air-floating apparatus that the embodiment of the present invention provides；

Fig. 2 is the cross section structure schematic diagram for the pressurized tank that the embodiment of the present invention provides；

Fig. 3 is the structural schematic diagram that the molten gas that the embodiment of the present invention provides discharges pipe；

Fig. 4 is that the heating equipment that provides of the embodiment of the present invention, temperature sensor, processor, display, Image Acquisition are taken the photograph As head and the connection relationship diagram of communication module.

Icon：The intensive air-floating apparatus of 100-；101- air supporting pond bodies；The first valves of 111-；110- first pipes；112- gases Flowmeter；113- vacuum meters；120- air-water mixing pumps；130- second pipes；The second valves of 131-；140- pressurized tanks；141- is pressed Power table；142- water inlets；143- water outlets；144- exhaust outlets；145- drains；150- third pipelines；151- third valves； The molten gas release pipes of 152-；The first liberation ports of 1521-；The second liberation ports of 1522-；1523- third liberation ports；1524- the 4th discharges Mouthful；The 5th liberation ports of 1525-；The 6th liberation ports of 1526-；161- heating equipments；162- temperature sensors；163- processors； 164- displays；165- Image Acquisition cameras；166- communication modules.

Specific implementation mode

In order to make the object, technical scheme and advantages of the embodiment of the invention clearer, below in conjunction with the embodiment of the present invention In attached drawing, technical scheme in the embodiment of the invention is clearly and completely described.Obviously, described embodiment is A part of the embodiment of the present invention, instead of all the embodiments.The present invention being usually described and illustrated herein in the accompanying drawings is implemented The component of example can be arranged and be designed with a variety of different configurations.

Therefore, below the detailed description of the embodiment of the present invention to providing in the accompanying drawings be not intended to limit it is claimed The scope of the present invention, but be merely representative of the present invention selected embodiment.Based on the embodiments of the present invention, this field is common The every other embodiment that technical staff is obtained without creative efforts belongs to the model that the present invention protects It encloses.

It should be noted that：Similar label and letter indicate similar terms in following attached drawing, therefore, once a certain Xiang Yi It is defined, then it further need not be defined and explained in subsequent attached drawing in a attached drawing.

In the description of the present invention, it is to be understood that, the instructions such as term "upper", "lower", "inner", "outside", "left", "right" Orientation or positional relationship be based on the orientation or positional relationship shown in the drawings or the invention product using when usually put Orientation or positional relationship or the orientation or positional relationship that usually understands of those skilled in the art, be merely for convenience of retouching It states the present invention and simplifies description, do not indicate or imply the indicated equipment or element must have a particular orientation, with specific Azimuth configuration and operation, therefore be not considered as limiting the invention.

In addition, term " first ", " second " etc. are only used for distinguishing description, it is not understood to indicate or imply relatively important Property.

In the description of the present invention, it is also necessary to which explanation is unless specifically defined or limited otherwise, " setting ", " even Connect " etc. terms shall be understood in a broad sense, for example, " connection " may be a fixed connection, may be a detachable connection, or integrally connect It connects；It can be mechanical connection, can also be electrical connection；Can be directly connected to, can also be indirectly connected with by intermediary, it can To be the connection inside two elements.For the ordinary skill in the art, can understand as the case may be above-mentioned The concrete meaning of term in the present invention.

Below in conjunction with the accompanying drawings, the specific implementation mode of the present invention is described in detail.

First embodiment

Fig. 1 to Fig. 4 is please referred to, a kind of intensive air-floating apparatus 100 is present embodiments provided, for handling oily waste water Water.Intensive air-floating apparatus 100 provided in this embodiment can be effectively removed the oil in waste water.Meanwhile the skid structure of compact Reduce floor space.Under the premise of ensureing treatment effect, simple in structure, few energy consumption, it is easy to operate, save operation and maintenance at This.

It is to be appreciated that intensive air-floating apparatus 100 is for handling oily waste water, it is understood that be intensive air-floating apparatus 100 For a kind of oil-containing waste water treating device.

Intensive air-floating apparatus 100 provided in this embodiment include air supporting pond body 101, first pipe 110, the first valve 111, Gas flowmeter 112, vacuum meter 113, air-water mixing pump 120, second pipe 130, the second valve 131, pressurized tank 140, pressure Table 141, third pipeline 150, third valve 151 and molten gas discharge pipe 152；Air-water mixing pump 120 passes through first pipe 110 and gas Floating pond body 101 connects, and the first valve 111, gas flowmeter 112 and vacuum meter 113 are set in turn in first pipe 110；Pressure Power tank 140 is connect by second pipe 130 with air-water mixing pump 120, and the second valve 131 is set on second pipe 130, pressure Table 141 is set on pressurized tank 140；Molten gas release pipe 152 is connect by third pipeline 150 with pressurized tank 140, and third valve 151 are set to third pipeline 150.

It is understood that the first valve 111, gas flowmeter 112, vacuum meter 113 are arranged in first pipe 110.The One valve 111 adjusts mixing wastewater with air ratio by valve opening, and for detecting vacuum degree, gas flowmeter 112 is used for vacuum meter 113 Observation and adjusting air inflow.

It is understood that second pipe 130 is connected with the outlet of air-water mixing pump 120, it is arranged second on second pipe 130 Valve 131, third valve 151 is for adjusting 120 outlet pressure of air-water mixing pump, and the second valve 131 is slowly beaten when system starts It opens, plays the role of building the pressure, prevent 120 moment of air-water mixing pump from starting overcurrent.

It is understood that the outlet of pressurized tank 140 is connect with third pipeline 150, third valve 151 connects molten gas release pipe 152。

It is appreciated that the first valve 111 is connect by first pipe 110 with air-water mixing pump 120, the first valve 111 rises The effect of vacuum degree is adjusted, mixing wastewater with air ratio is adjusted.120 outlet end of air-water mixing pump is connect with second pipe 130；Second pipe Second valve 131 is set on 130；Second valve 131 plays a part of to adjust 120 outlet pressure of air-water mixing pump.Pressurized tank 140 into Mouth end is connect with second pipe 130；Pressure gauge 141 is set on pressurized tank 140；Pressure gauge 141 is for measuring 140 internal pressure of pressurized tank Force value, after pressure value reaches certain numerical value in pressurized tank 140, the dissolved air water of release can reach optimum efficiency.Third pipeline The third valve 151 being arranged on 150 has the function of adjusting pressure in pressurized tank 140；Meanwhile third valve 151 has release molten The effect of air water makes dissolved air water be flowed out from molten gas release pipe 152.

Optionally, in the present embodiment, air-water mixing pump 120, second pipe 130 and pressurized tank 140 are set as skid knot Structure.Can further it be easily installed and be safeguarded using skid structure, and then reduce manpower and cost.

It is to be appreciated that using skid structure：It is connected, is passed through by pipeline between first valve 111 and air-water mixing pump 120 The aperture of valve adjusts mixing wastewater with air ratio.Vacuum meter 113 and gas flowmeter 112 are connected in first pipe 110, for examining Survey 120 inlet vacuum degree of air-water mixing pump.It is connected by second pipe 130 between pressurized tank 140 and air-water mixing pump 120, the Second valve 131 is set on two pipelines 130, for adjusting 120 outlet pressure of air-water mixing pump, the second valve when system starts 131 slowly open, and play the role of building the pressure, and prevent 120 moment of air-water mixing pump from starting overcurrent.Pressure is set on pressurized tank 140 Power table 141 measures pressure value in pressurized tank 140, and after pressure value reaches certain numerical value in pressurized tank 140, the dissolved air water of release is Optimum efficiency can be reached.140 outlet end of pressurized tank is connect with third pipeline 150, and third valve 151 is arranged on third pipeline 150, Third valve 151 plays the role of adjusting pressure in pressurized tank 140, meanwhile, play the role of discharging dissolved air water.Intensive air-flotation system, It can be effectively removed the oleaginous material in waste water.Meanwhile the skid is compact-sized, reduces floor space.Piecemeal skid knot Structure convenient transportation, it is easy to operate, it is not necessarily to special maintenance, reduces human and material resources cost.

In the present embodiment, pressurized tank 140 is provided with water inlet 142, water outlet 143, exhaust outlet 144 and drain 145, Water inlet 142 is connect with second pipe 130, and water outlet 143 is connect with third pipeline 150, and exhaust outlet 144 and drain 145 are equal For retractable setting.

It is understood that dissolved air water is sufficiently mixed by water inlet 142 into pressurized tank 140, and it is pressurized, The air in 144 discharge pressure tank 140 of exhaust outlet is opened simultaneously, has observed that dissolved air water discharge can close exhaust outlet 144.It puts It eats dishes without rice or wine 145 to play the role of emptying dissolved air water in pressurized tank 140, when maintenance opens.

In the present embodiment, molten gas release pipe 152 is provided with multiple liberation ports, and multiple liberation ports are evenly spaced apart to set It sets.

In the present embodiment, gas release pipe is disposed with the first liberation port 1521, the second liberation port 1522, third release The 1523, the 4th liberation port 1524 of mouth, the 5th liberation port 1525 and the 6th liberation port 1526, the release of the first liberation port 1521, second Mouth 1522, third liberation port 1523, the 4th liberation port 1524, the 5th liberation port 1525 and the 6th liberation port 1526 are evenly spaced apart Setting, and the first liberation port 1521, the second liberation port 1522, third liberation port 1523, the 4th liberation port 1524, the 5th liberation port 1525 and the 6th liberation port 1526 shapes and sizes it is consistent.

It is understood that the dissolved air water by supercharging discharges pipe 152 by molten gas and discharged, dissolved air water passes through uniformly distributed The first liberation port 1521, the second liberation port 1522, third liberation port 1523, the 4th liberation port 1524, the 5th liberation port 1525 And the 6th liberation port 1526 be sufficiently mixed with oily wastewater, increase bubble with oil contact probability.

Intensive air-floating apparatus 100 provided in this embodiment included three stages when in use：Mixing wastewater with air stage, supercharging are simultaneously protected Pressure stage, molten gas discharge the stage, illustrate individually below.

The mixing wastewater with air stage：Air-water mixing pump 120 is mixed in air and water suction pump.Air passes through gas Flowmeter 112 enters first pipe 110.

It is pressurized simultaneously packing stage：Dissolved air water is sufficiently mixed in pressurized tank 140, after pressure reaches certain value, is released The dissolved air water put can be only achieved optimum efficiency.The pressure pressurize of pressurized tank 140 is within limits when normal operation.

Molten gas discharges the stage：Dissolved air water enters molten gas and discharges pipe 152, passes through the first liberation port 1521, the second liberation port 1522, third liberation port 1523, the 4th liberation port 1524, the 5th liberation port 1525 and the 6th liberation port 1526, it is a large amount of and uniform Microbubble come into full contact with oily waste water, to achieve the purpose that oil removing.

In the present embodiment, intensive air-floating apparatus 100 further includes heating equipment 161 and temperature sensor 162, heating equipment 161 and temperature sensor 162 may be contained in pressurized tank 140, and heating equipment 161 is electrically connected with temperature sensor 162；

Heating equipment 161 is used to be heated to preset value to pressurized tank 140, and temperature sensor 162 is for detecting pressurized tank 140 Interior temperature value, when temperature value reaches preset value, heating equipment 161 stops heating.

It is to be appreciated that temperature sensor 162 can transmit signal when reaching the preset value to heating equipment 161 herein, The heating equipment 161 controls its working condition after obtaining the signal.Certainly, it can also be realized by chip.

In the present embodiment, intensive air-floating apparatus 100 further includes processor 163 and display 164, processor 163 with it is aobvious Show that device 164 is electrically connected, processor 163 is electrically connected with heating equipment 161 and temperature sensor 162.

In the present embodiment, intensive air-floating apparatus 100 further includes Image Acquisition camera 165, Image Acquisition camera 165 It is electrically connected with processor 163, Image Acquisition camera 165 is used to acquire the image information of mixing pump and pressurized tank 140, and will figure As information is transmitted to processor 163.

Image Acquisition camera 165 can monitor whole device in real time, so as to transfer the image in certain time period into Row analysis.

In the present embodiment, intensive air-floating apparatus 100 further includes communication module 166, communication module 166 and processor 163 Electrical connection, communication module 166 is for receiving control instruction or sending the communication information.

It is appreciated that communication module 166 can be the communicating wireless signals such as bluetooth, Wi-Fi, GPS, or serial ports is logical Wired modes such as letter.The present embodiment is not especially limited.

It is to be appreciated that when the first valve 111, the second valve 131, third valve 151, gas flowmeter 112, vacuum meter 113, it when pressure gauge 141 is all made of automation control, can be electrically connected with processor 163, it can be certainly by processor 163 The first valve 111, the second valve 131 and third valve 151 are controlled dynamicly to be turned on or off, and can also obtain gas in real time The numerical value of flowmeter 112, vacuum meter 113 and pressure gauge 141, so as to the processing routine on processor 163 according to the value at Reason.

The advantageous effect of intensive air-floating apparatus 100 provided in this embodiment：First valve 111 by first pipe 110 with Air-water mixing pump 120 connects, and the first valve 111 plays a part of to adjust vacuum degree, adjusts mixing wastewater with air ratio.Air-water mixing pump 120 Outlet end is connect with second pipe 130；Second valve 131 is set on second pipe 130；It is mixed that second valve 131 plays adjusting air water Close the effect of 120 outlet pressures of pump.140 input end of pressurized tank is connect with second pipe 130；Pressure gauge is set on pressurized tank 140 141；Pressure gauge 141 is for measuring pressure value in pressurized tank 140, after pressure value reaches certain numerical value in pressurized tank 140, release Dissolved air water can reach optimum efficiency.The third valve 151 being arranged on third pipeline 150, which has, adjusts 140 internal pressure of pressurized tank The effect of power；Meanwhile third valve 151 plays the role of discharging dissolved air water, and dissolved air water is made to be flowed out from molten gas release pipe 152.This reality Occupation of land can effectively be saved by applying the intensive air-floating apparatus 100 of example offer, reduce energy consumption.

Second embodiment

Present embodiments provide a kind of intensive air-flotation system comprising what automation control appliance and first embodiment provided Intensive air-floating apparatus 100.Intensive air-floating apparatus 100 includes air supporting pond body 101, first pipe 110, the first valve 111, gas stream Gauge 112, vacuum meter 113, air-water mixing pump 120, second pipe 130, the second valve 131, pressurized tank 140, pressure gauge 141, Third pipeline 150, third valve 151 and molten gas discharge pipe 152；Air-water mixing pump 120 passes through first pipe 110 and air supporting pond body 101 connections, the first valve 111, gas flowmeter 112 and vacuum meter 113 are set in turn in first pipe 110；Pressurized tank 140 It is connect with air-water mixing pump 120 by second pipe 130, the second valve 131 is set on second pipe 130, and pressure gauge 141 is set It is placed on pressurized tank 140；Molten gas release pipe 152 is connect by third pipeline 150 with pressurized tank 140, and third valve 151 is arranged In third pipeline 150, automation control appliance respectively with the first valve 111, the second valve 131, third valve 151, gas stream Gauge 112, vacuum meter 113 and pressure gauge 141 are electrically connected, to carry out automation control to these components.

The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, for the skill of this field For art personnel, the invention may be variously modified and varied.All within the spirits and principles of the present invention, any made by repair Change, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.

Claims (10)

1. a kind of intensive air-floating apparatus, for handling oily waste water, which is characterized in that the intensive air-floating apparatus includes flotation tank Body, first pipe, the first valve, gas flowmeter, vacuum meter, air-water mixing pump, second pipe, the second valve, pressurized tank, pressure Power table, third pipeline, third valve and molten gas release pipe；

The air-water mixing pump is connect by the first pipe with the air supporting pond body, first valve, the gas stream Gauge and the vacuum meter are set in turn in the first pipe；

The pressurized tank is connect by the second pipe with the air-water mixing pump, and second valve is set to described second On pipeline, the pressure gauge is set on the pressurized tank；

The molten gas release pipe is connect by the third pipeline with the pressurized tank, and the third valve is set to described the Three pipelines.

2. intensive air-floating apparatus according to claim 1, which is characterized in that the air-water mixing pump, the second pipe And the pressurized tank is set as skid structure.

3. intensive air-floating apparatus according to claim 1, which is characterized in that the pressurized tank is provided with water inlet, water outlet Mouth, exhaust outlet and drain, the water inlet are connect with the second pipe, and the water outlet is connect with the third pipeline, The exhaust outlet and the drain are retractable setting.

4. intensive air-floating apparatus according to claim 1, which is characterized in that the molten gas release pipe is provided with multiple releases Mouthful, and multiple liberation ports are evenly spaced apart to be arranged.

5. intensive air-floating apparatus according to claim 4, which is characterized in that the gas release pipe is disposed with first and releases Put mouth, the second liberation port, third liberation port, the 4th liberation port, the 5th liberation port and the 6th liberation port, first liberation port, Second liberation port, the third liberation port, the 4th liberation port, the 5th liberation port and the 6th liberation port are equal It is even to be positioned apart from, and first liberation port, second liberation port, the third liberation port, the 4th liberation port, institute The shapes and sizes for stating the 5th liberation port and the 6th liberation port are consistent.

6. the intensive air-floating apparatus according to any one of claim 1-5, which is characterized in that the intensive air-floating apparatus Further include heating equipment and temperature sensor, the heating equipment and the temperature sensor may be contained in the pressurized tank, And the heating equipment is electrically connected with the temperature sensor；

The heating equipment is used to be heated to preset value to the pressurized tank, and the temperature sensor is for detecting the pressurized tank Interior temperature value, when the temperature value reaches the preset value, the heating equipment stops heating.

7. intensive air-floating apparatus according to claim 6, which is characterized in that the intensive air-floating apparatus further includes processor And display, the processor are electrically connected with the display, the processor and the heating equipment and the temperature sensing Device is electrically connected.

8. intensive air-floating apparatus according to claim 7, which is characterized in that the intensive air-floating apparatus further includes that image is adopted Collect camera, described image acquisition camera is electrically connected with the processor, and described image acquisition camera is described for acquiring The image information of mixing pump and the pressurized tank, and described image information is transmitted to the processor.

9. intensive air-floating apparatus according to claim 7, which is characterized in that the intensive air-floating apparatus further includes communication mould Block, the communication module are electrically connected with the processor, and the communication module is for receiving control instruction or sending communication letter Breath.

10. a kind of intensive air-flotation system, which is characterized in that include the intensive air supporting as described in any one of claim 1-9 Device.