CN106745867A - A kind of aerator - Google Patents

Abstract

The present invention relates to a kind of aerator, including motor, mixing chamber, diversion chamber and aeration impeller；The motor is connected with aeration impeller by rotating shaft, and the motor drives the aeration impeller to rotate；And it is connected with blade wheel chamber between the motor and aeration impeller；The outer surface of the blade wheel chamber is formed with water inlet, and the mixing chamber includes integrally formed water inlet end, hybrid chamber and water side, and the hybrid chamber is provided with air inlet；The jet direction of the aeration impeller is parallel with the direction of mixing chamber, and diversion chamber includes mozzle, and some pod apertures are formed with mozzle, and pod apertures are corresponding with the position of air inlet；Using such scheme so that simple structure, easy to process, current water inlet is more smooth, and extruding destruction current inner tensions are relatively reliable, improve the rotational efficienty of aeration impeller.

Description

A kind of aerator

Technical field

The invention belongs to Sewage Biological Treatment equipment technical field, and in particular to a kind of aerator.

Background technology

Landscape water body is used to modificatory environment, gives aesthetic feeling, maintaining ecological balance.Current landscape water is generally closure and non- The stagnant water feature of mobility；The intrusion of airborne dust, house refuse in natural rainfall, air, the bed-silt of long term accumulation and The harmful substance of mud release；Lack the environment of aquatic animal, plantses existence, water body is gradually lost self-purification capacity, add river course Bed mud is not long-term clear, and constantly release is decomposed into the nutritive salt such as N, P to make bed mud, causes body eutrophication, water body gradually greening, algae Class overgrows, and ultimately results in " wawter bloom " phenomenon, produces peculiar smell, easily blacks smelly, and water source is on the hazard, and influences the health of the mankind.

Water body is also mostly closed in aquaculture, and water body lacks necessary circulation, and dissolved oxygen is too low, with fish in water body Shrimp and other aquatic products quantity increase, and its demand to dissolved oxygen will be greatly increased, while excreta, residual bait etc. also can Increase therewith；Anoxic water body also provides the hotbed of growth to harmful bacteria and virus so that harmful bacteria and virus are substantial amounts of Flourish；The fishes and shrimps that will necessarily so encroach in same water body so that the probability that fishes and shrimps are fallen ill is greatly increased；Such as it is not added with control System, it is also possible to break out fish disease, cause the death of high-volume fishes and shrimps.

When aerator runs, water pump vane is rotated at a high speed under submersible motor drive, and mud mixture is pushed into ejector Jet is formed, negative pressuren zone is produced around jet, air is sucked into jet nozzle negative pressuren zone by air intake duct, in the larynx of ejector Gas and water, mud are carried out in pipe to be sufficiently mixed, enter after the kinetic energy of jet is progressively transformed into pressure energy further through the anemostat of ejector Air diffuser.In air diffuser, gas and water, mud mixture further mix, and force gas to continue to shear, crush and emulsify, it is ensured that absolutely Most of oxygen is completely dissolved in water.Meanwhile, in the presence of Jetstream fluid pressure, jet carries oxygen molecule and micro-bubble, Sprayed diagonally downward from the nozzle of air diffuser, spread, after being formed to water body and to the impact of biochemical bottom of pond portion sludge, stirring, by Bottom of pond slowly rises to the water surface, and microbubble residence time in water is generally up to more than 30 seconds, makes the oxygen in air fully molten Solution and absorption, improve oxygen transfer efficiency and oxygenation capacity.

Generally aerator can be divided into Mechanical aerator, blast aeration system, hydraulic shear formula aerator, Hydraulic blow formula aerator, underwater aeration device etc..In existing technology, overflowed by pernicious gas using aerator, Xiang Shui In be passed through air or suction air, it is and mixed with water, make to dissolve in the effect that more gases are purified in water.Main purpose It is that flowing, oxygenation are caused in water, stagnant water is changed into running water, to strengthen the self purification of water body.Existing underwater aeration machine is used Air compressor machine draws air into aerator, gas is released to reach gas-vapor mix, or suck air to reach using pump vacuum To gas-vapor mix, mostly can only side or bilateral aeration, it is impossible to allow aerator to rotate freely, aqueous vapor is unable to reasonable distribution, imitate Rate is relatively low, and complex structure, dumb.

Existing aerator such as Chinese patent literature discloses volute hydraulic rotational plug flow aerator（Application number： 201110356815.X）, including motor and volute, the motor is fixed on the aerator bottom, and the motor is via rotating shaft Couple with impeller, the impeller extends upwardly into the volute, the motor drives the wheel rotation, and the volute is filled by support Support is put, the support meanss are embedded in fixing device, grid, institute are set between the motor and the fixing device by roller bearing State the space formation water vapor mixing chamber that volute, support meanss, fixing device, motor and grid are surrounded, water vapor mixing chamber's warp Air intake duct is communicated with air, and the impeller is stretched in one end that the air intake duct stretches into the mixing chamber.

Because the mixing chamber of above-mentioned aerator is communicated through air intake duct with air, the efficiency of mixing chamber certainly will have so been resulted in Too low, mixing wastewater with air effect is less desirable, is greatly improved there is presently no a kind of mixing efficiency that can make aerator is worked out Equipment.

For problem above, therefore, it is necessary to make improvements.

The content of the invention

The present invention is to overcome above-mentioned defect of the prior art, there is provided a kind of aerator, the purpose of the aerator exists In the contact area for increasing mixing wastewater with air room, mixing efficiency is greatly improved, further improve aeration effect.

In order to reach object above, the technical solution adopted in the present invention is：A kind of aerator, including it is motor, mixed Close room, diversion chamber and aeration impeller；The motor is connected with aeration impeller by rotating shaft, and the motor drives institute State aeration impeller rotation；And it is connected with blade wheel chamber between the motor and aeration impeller；The outer surface shape of the blade wheel chamber Into there is water inlet, the mixing chamber includes integrally formed water inlet end, hybrid chamber and water side, and the hybrid chamber is provided with air inlet Mouthful；The jet direction of the aeration impeller is parallel with the direction of mixing chamber, and diversion chamber includes mozzle, is formed with mozzle some Pod apertures, one end of mozzle is provided with aeration outlet, and the other end of mozzle sequentially passes through water side and the mixing of mixing chamber Chamber, is mutually butted on the inwall of water inlet end；Inwall of the mozzle respectively with water inlet end inwall and water inlet end is fixedly connected, pod apertures with The position of air inlet is corresponding.

Used as a preferred embodiment of the present invention, the water inlet end includes the side of water inlet casing, water inlet casing and blade wheel chamber Wall is fixedly connected, and the internal diameter of the internal diameter more than mozzle of casing of intaking, the water side includes oblique water outlet casing, with This is corresponding, and the end of the mozzle is laid with the guide plate consistent with water outlet casing angle of inclination, guide plate and aeration Certain interval is left between impeller.

Used as a preferred embodiment of the present invention, the aeration impeller includes impeller axle, connecting shaft and aeration blade；It is described Aeration blade is arranged on the upper end of the impeller axle, and the lower end of impeller axle is fixedly connected with connecting shaft, and connecting shaft connection drives electricity Machine；There is certain inclination angle between aeration blade and impeller axle, when it rotates, the water body that will can enter in blade wheel chamber 2 is simultaneously Upward circulation and push ahead, complete the gas phase of oxygen to liquid phase transfer and full and uniform with water body mix purpose；So as to improve The service efficiency and dissolved oxygen rate of equipment.

Used as a preferred embodiment of the present invention, the aeration blade is located in the water inlet casing of water inlet end, the aeration leaf Piece is away from water inlet position.

Used as a preferred embodiment of the present invention, the diversion chamber includes two symmetrical tapered guide pipes, two Installing pipe is connected between individual guide pipe, pilot hole is formed with installing pipe, pilot hole is corresponding with the position of air inlet.

Used as a preferred embodiment of the present invention, the external diameter of described two guide pipes is adapted with the internal diameter of mixing chamber, and two Individual guide pipe is socketed in mixing chamber.

As a preferred embodiment of the present invention, the outer cover length direction of blade wheel chamber annular be equidistantly laid with it is some enter The mouth of a river, the water inlet laid along the outer casing width direction of blade wheel chamber is equidistant or is laid staggeredly.

Used as a preferred embodiment of the present invention, the water inlet is rounded, the width of water inlet and adjacent water inlet it Between spacing it is identical.

As a preferred embodiment of the present invention, a diameter of 1~1.5mm of the water inlet, the shell of the blade wheel chamber On water inlet perforated area account for the 20-80% of blade wheel chamber's gross area.

Used as a preferred embodiment of the present invention, the pilot hole annular is equidistantly laid on guide pipe, and pilot hole is set There are several, pilot hole is corresponding with the position of air inlet；Corresponding, the pilot hole annular is equidistantly laid in water conservancy diversion Guan Shang, pilot hole is corresponding with the position of air inlet.

The beneficial effects of the invention are as follows：

1. the outer cover length direction annular of blade wheel chamber is equidistantly laid with some water inlets, is laid along the outer casing width direction of blade wheel chamber Water inlet it is equidistant or be laid staggeredly, using such scheme so that simple structure, easy to process, current water inlet is more smooth, squeezes Crush bad current inner tensions relatively reliable, improve the rotational efficienty of aeration impeller.

2. some equidistant water inlets are set in blade wheel chamber, while facilitating current to enter, moreover it is possible to keep the impeller The bulk strength and firmness of the water inlet of room, using such scheme so that simple structure, easy to process, current are intake more Smooth, extruding destruction current inner tensions are relatively reliable, improve the rotational efficienty of aeration impeller；

3. the present invention economizes on resources, and makes simple, and environmental protection and economy is practical, good economy performance, and elegant in appearance.

Brief description of the drawings

Fig. 1 is the structural representation of embodiments of the invention one；

Fig. 2 is the structure sectional view of embodiments of the invention one；

Fig. 3 is the aeration impeller structural representation of embodiments of the invention one；

Fig. 4 is the diversion chamber's structural representation of embodiments of the invention two；

Fig. 5 is the structural representation of embodiments of the invention two；

Reference in figure：Motor 1, blade wheel chamber 2, mixing chamber 3, water inlet end 3-1, intake casing 3-1-1, hybrid chamber 3-2, Diversion chamber 4, mozzle 4-1, guide plate 4-1-1, pod apertures 4-2, aeration impeller 5, impeller axle 5-1, connecting shaft 5-2 are aerated leaf Piece 5-3, water inlet 6, guide pipe 7, installing pipe 8, pilot hole 8-1.

Specific embodiment

The embodiment of the present invention is elaborated below in conjunction with the accompanying drawings.

Embodiment one：As Figure 1-3, a kind of aerator, including motor 1, mixing chamber 3, diversion chamber 4 and aeration leaf Wheel 5；The motor 1 is connected with aeration impeller 5 by rotating shaft, and the motor 1 drives the aeration impeller 5 to rotate； And it is connected with blade wheel chamber 2 between the motor 1 and aeration impeller 5；The outer surface of the blade wheel chamber 2 is formed with water inlet 6, The mixing chamber 3 include integrally formed water inlet end 3-1, hybrid chamber 3-2 and water side 3-3, the hybrid chamber 3-2 be provided with into Gas port 3-4；The jet direction of the aeration impeller 5 is parallel with the direction of mixing chamber 3, and diversion chamber 4 includes mozzle 4-1, mozzle Be formed with some pod apertures 4-2 on 4-1, one end of mozzle 4-1 be provided with the other end of aeration outlet 4-3, mozzle 4-1 according to Secondary water side 3-3 and hybrid chamber 3-2 through mixing chamber 3, is mutually butted on the inwall of water inlet end 3-1；Mozzle 4-1 respectively with enter Water end (W.E.) 3-1 inwalls are fixedly connected with the inwall of water inlet end 3-1, and pod apertures 4-2 is corresponding with the position of air inlet 3-4.

Water outlet casing 3-3-1, annular gas-vapor mix is formed between guide plate 4-1-1 and mozzle 4-1 and mixing chamber 3 Chamber, and some pod apertures 4-2s corresponding with the position of air inlet 3-4 are formed with mozzle 4-1, in the rotation of aeration impeller 5 Under, the water that water inlet 6 is flowed into is pushed to mixing chamber 3, shape after the gas collisions imported with air inlet 3-4 in hybrid chamber 3-2 Into gas-vapor mix liquid, the gas-vapor mix liquid is entered in annular gas-vapor mix chamber, therefrom increases annular gas-vapor mix chamber and water The contact area of gas mixed liquor, surface area is bigger, and under equal gas flow, gas flow rate is lower, can preferably to air inlet The gas that mouth 3-4 is located in the annular gas-vapor mix chamber in hybrid chamber 3-2 after being passed through preferably is cut, and bubble is cut more Carefully, mix with current more preferably, so that the gas-vapor mix liquid that the water in the gas and hybrid chamber 3-2 of cutting is formed through collision rift Produce more not only small but also close uniform bubbles, the surface area of the overall bubble composition of increase, such that it is able to increase annular gas-vapor mix Surface area of the chamber in same inner diameter mixing chamber 3, surface area is bigger, and under equal gas flow, gas flow rate is lower, makes to mix Close efficiency to greatly improve, under equal power, 30% or so effect can be improved.

Water inlet end 3-1 includes that water inlet casing 3-1-1, water inlet casing 3-1-1 are fixedly connected with the side wall of blade wheel chamber 2, intake Internal diameter of the internal diameter of casing 3-1-1 more than mozzle 4-1, the water side 3-3 includes oblique water outlet casing 3-3-1, Corresponding, the end of the mozzle 4-1 is laid with the guide plate 4-1- consistent with water outlet casing 3-3-1 angles of inclination 1, leave certain interval between guide plate 4-1-1 and aeration impeller 5；

The distance between guide plate 4-1-1 and aeration impeller 5 can be set according to actual conditions, be easy to water inlet 6 to flow into Water be pushed in mixing chamber 3, the gas for being easy to air inlet 3-1 to be passed through carries out cutting filtering, makes the gas after cutting and mixes Water in the 3-2 of chamber produces more micro-bubbles in small, broken bits through the gas-vapor mix liquid energy that collision rift is formed, and the bubble that it is produced is again Small and density is again big, and the surface area that overall bubble is constituted is big, improves the water body fusion rate in bubble and pond so that water Dissolved oxygen efficiency rises, and so as to reach the effect of efficient oxygenic aeration, improves the aeration efficiency of aerator.

And aeration impeller 5 includes impeller axle 5-1, connecting shaft 5-2 and aeration blade 5-3；The aeration blade 5-3 is arranged on The upper end of the impeller axle 5-1, the lower end of impeller axle 5-1 is fixedly connected with connecting shaft 5-2, connecting shaft 5-2 connection motors 1, aeration blade 5-3 is fixedly connected with impeller axle 5-1, is integrally formed, it is ensured that the aerator bulk strength, extends and uses the longevity Life.

Aeration blade 5-3 is located in the water inlet casing 3-1-1 of water inlet end 3-1, and aeration blade 5-3 is away from water inlet 6 Put so that current can be entered to conveniently into water casing 3-1-1, while it also avoid aeration blade 5-3 in rotation process Current is overflowed from water inlet 6, so as to change water body raising efficiency, further improve the aeration efficiency of aerator.

The outer cover length direction annular of blade wheel chamber 2 is equidistantly laid with some water inlets 6, along the outer casing width side of blade wheel chamber 2 It is equidistant to the water inlet 6 laid or be laid staggeredly；The water inlet 6 is rounded, the width of water inlet 6 and adjacent water inlet 6 it Between spacing it is identical；A diameter of 1~1.5mm of water inlet 6, the perforated area of water inlet 6 on the shell of the blade wheel chamber 2 accounts for institute The 20-80% of the gross area of blade wheel chamber 2 is stated, the present embodiment is preferably 45%, while facilitating current to enter, moreover it is possible to keep the leaf The bulk strength and firmness of the water inlet 6 of engineer room 2, using such scheme so that simple structure, easy to process, current water inlet More smooth, extruding destruction current inner tensions are relatively reliable, improve the rotational efficienty of aeration impeller 5.

Embodiment two：

As illustrated in figures 4-5, the diversion chamber 4 of the present embodiment includes two symmetrical tapered guide pipes 7, two guide pipes 7 Between be connected with installing pipe 8, pilot hole 8-1 is formed with installing pipe 8, pilot hole 8-1 is corresponding with the position of air inlet 3-4；

Annular gas-vapor mix chamber is formed between two guide pipes 7 and installing pipe 8 and mixing chamber 3, and if being formed with installing pipe 8 Pilot hole 8-1 corresponding with the position of air inlet 3-4 is done, under the rotation of aeration impeller 5, the water that water inlet 6 is flowed into is pushed To mixing chamber 3, gas-vapor mix liquid, the gas-vapor mix liquid are formed after the gas collisions imported with air inlet 3-4 in hybrid chamber 3-2 Enter in annular gas-vapor mix chamber, therefrom increase the contact area in annular gas-vapor mix chamber and gas-vapor mix liquid, pilot hole The internal diameter of 8-1 is consistent with the internal diameter of pod apertures 4-2, and left and right is also identical, is provided to increase annular gas-vapor mix chamber identical Surface area in internal diameter mixing chamber 3, surface area is bigger, and under equal gas flow, gas flow rate is lower, makes mixing efficiency significantly Improve.

Two external diameters of guide pipe 7 are adapted with the internal diameter of mixing chamber 3, and two guide pipes 7 are socketed in mixing chamber 3, knot Structure is simple, easy to process, and current water inlet is more smooth, and overall appearance is more attractive in appearance, and current can be produced when being sprayed from guide pipe 7 and cut It is in hgher efficiency to thrust, and 360 ° of the aeration function rotates freely, and improves aeration scope.

Pilot hole 8-1 annular is equidistantly laid on guide pipe 7, pilot hole 8-1 is provided with several, pilot hole 8-1 with enter The position of gas port 3-4 is corresponding；Corresponding, the pod apertures 4-2 annulars are equidistantly laid on mozzle 4-1, water conservancy diversion Hole 4-2 is corresponding with the position of air inlet 3-4；Therefore aeration effect is substantially improved.

Other contents of the present embodiment refer to embodiment one.

The foregoing description of the disclosed embodiments, enables professional and technical personnel in the field to realize or uses the present invention. Various modifications to these embodiments will be apparent for those skilled in the art, as defined herein General Principle can be realized in other embodiments without departing from the spirit or scope of the present invention；Therefore, the present invention The embodiments shown herein is not intended to be limited to, and is to fit to and principles disclosed herein and features of novelty phase one The scope most wide for causing.

Although more having used reference in figure herein：Motor 1, blade wheel chamber 2, mixing chamber 3, water inlet end 3-1, Water inlet casing 3-1-1, hybrid chamber 3-2, diversion chamber 4, mozzle 4-1, guide plate 4-1-1, pod apertures 4-2, aeration impeller 5, leaf The terms such as wheel shaft 5-1, connecting shaft 5-2, aeration blade 5-3, water inlet 6, guide pipe 7, installing pipe 8, pilot hole 8-1, but not Exclude and use the possibility of other terms.It is used for the purpose of more easily describing and explaining of the invention using these terms Matter；Any additional limitation is construed as all to be disagreed with spirit of the present invention.

Claims (10)

1. a kind of aerator, it is characterised in that：Including motor（1）, mixing chamber（3）, diversion chamber（4）And aeration impeller（5）； The motor（1）With aeration impeller（5）Connected by rotating shaft, the motor（1）Drive the aeration impeller（5）Turn It is dynamic；And the motor（1）With aeration impeller（5）Between be connected with blade wheel chamber（2）；The blade wheel chamber（2）Outer surface shape Into there is water inlet（6）, the mixing chamber（3）Including integrally formed water inlet end（3-1）, hybrid chamber（3-2）And water side（3- 3）, the hybrid chamber（3-2）It is provided with air inlet（3-4）；The aeration impeller（5）Jet direction and mixing chamber（3）Direction It is parallel, diversion chamber（4）Including mozzle（4-1）, mozzle（4-1）On be formed with some pod apertures（4-2）, mozzle（4-1） One end be provided with aeration outlet（4-3）, mozzle（4-1）The other end sequentially pass through mixing chamber（3）Water side（3-3）With Hybrid chamber（3-2）, mutually it is butted on water inlet end（3-1）Inwall on；Mozzle（4-1）Respectively with water inlet end（3-1）Inwall and water inlet End（3-1）Inwall be fixedly connected, pod apertures（4-2）With air inlet（3-4）Position it is corresponding.

2. a kind of aerator according to claim 1, it is characterised in that：The water inlet end（3-1）Including water inlet casing（3- 1-1）, casing of intaking（3-1-1）With blade wheel chamber（2）Side wall be fixedly connected, intake casing（3-1-1）Internal diameter be more than mozzle （4-1）Internal diameter, the water side（3-3）Including oblique water outlet casing（3-3-1）, it is corresponding, it is described to lead Flow tube（4-1）End be laid with and water outlet casing（3-3-1）The consistent guide plate in angle of inclination（4-1-1）, guide plate（4-1- 1）With aeration impeller（5）Between leave certain interval.

3. a kind of aerator according to claim 2, it is characterised in that：The aeration impeller（5）Including impeller axle（5- 1）, connecting shaft（5-2）And aeration blade（5-3）；The aeration blade（5-3）It is arranged on the impeller axle（5-1）Upper end, leaf Wheel shaft（5-1）Lower end be fixedly connected with connecting shaft（5-2）, connecting shaft（5-2）Connection motor（1）.

4. a kind of aerator according to claim 3, it is characterised in that：The aeration blade（5-3）Positioned at water inlet end（3- 1）Water inlet casing（3-1-1）It is interior, the aeration blade（5-3）Away from water inlet（6）Position.

5. a kind of aerator according to claim 1, it is characterised in that：The diversion chamber（4）It is symmetrical including two Tapered guide pipe（7）, two guide pipes（7）Between be connected with installing pipe（8）, installing pipe（8）On be formed with pilot hole（8- 1）, pilot hole（8-1）With air inlet（3-4）Position it is corresponding.

6. a kind of aerator according to claim 5, it is characterised in that：Described two guide pipes（7）External diameter with mix Room（3）Internal diameter be adapted, two guide pipes（7）It is socketed on mixing chamber（3）It is interior.

7. a kind of aerator according to claim 1 and 2, it is characterised in that：The blade wheel chamber（2）Outer cover length direction Annular is equidistantly laid with some water inlets（6）, along blade wheel chamber（2）Outer casing width direction lay water inlet（6）Equidistant or friendship Mistake is laid.

8. a kind of aerator according to claim 7, it is characterised in that：The water inlet（6）It is rounded, water inlet（6） Width and adjacent water inlet（6）Between spacing it is identical.

9. a kind of aerator according to claim 8, it is characterised in that：The water inlet（6）A diameter of 1~1.5mm, The blade wheel chamber（2）Shell on water inlet（6）Perforated area accounts for the blade wheel chamber（2）The 20-80% of the gross area.

10. a kind of aerator according to claim 5, it is characterised in that：The pilot hole（8-1）Annular is equidistantly laid in Guide pipe（7）On, pilot hole（8-1）Several are provided with, pilot hole（8-1）With air inlet（3-4）Position it is corresponding；With this Corresponding, the pod apertures（4-2）Annular is equidistantly laid in mozzle（4-1）On, pod apertures（4-2）With air inlet（3-4） Position it is corresponding.