CN208413969U - Multifunction aerator - Google Patents

Abstract

The utility model discloses Multifunction aerators, the lower end of stay pipe is connected with motor, motor lower end connects stirring ball by shaft, it stirs and is provided with inlet duct on the outside of the shaft of ball upper end, the bottom of inlet duct is provided with gas chamber, booster is arranged in gas chamber, the lower end of gas chamber is provided with cloth gas hood, the stirring ball is arranged in the cavity of cloth gas hood formation, the outer wall of stirring ball is set as rough spherical structure, it is external using rubber diaphragm covering package, and interval forms gas chamber between rubber diaphragm and the outer wall for stirring ball；Stirring ball inner wall is provided with magnetizer, and magnetizer, which equally arranges to be spaced using several pieces iron plates, forms diversion trench, is embedded magnet on the side wall of iron plate；Stay pipe top extends in the middle part of cloth gas hood and is symmetrically arranged with lacing wire.It is convenient to repair；Aeration effect is good, improves the utilization rate of oxygen, and magnetizer gets higher hydrone liveness, dissolution and the aerobic decomposing organic matter of aerobic strain conducive to oxygen.

Description

Multifunction aerator

Technical field

The utility model belongs to aerator technical field, and in particular to Multifunction aerator.

Background technique

Aeration, which refers to, is oxygenated water body by blower, improves dirty content of oxygen dissolved in water, is conducive to aerobic strain decomposing organic matter. Prior art submersible aerator does not need additional wind regime by air intake duct grade motor form, is generated by electric motor with vane wheel rotation negative Pressure draws air into equipment and is intake in water body again.In carrying out Sewage Treatment Project design engineering and improvement project, discovery aeration Link energy consumption accounts for very big specific gravity in the entire system, and aerator energy consumption is higher, and equipment generation bubble is excessive, bubble table specific area Small, the utilization rate of oxygen is extremely low；Service area is small；Maintenance is inconvenient, exists and needs the drawbacks of clearing up pond, and maintenance needs stop production, It causes damages to producer, maintenance is risky, and maintenance personal is commonplace because of anoxic or poisoning event.In addition, existing equipment It has a single function, is perhaps vertical mixing or vertical aeration, is aerated using aeration plate, there are the areas 20cm Si Ni for aeration pan bottom It can not be aerated；In addition the agitating mode of impeller is used, impeller wound by sundries, and sundries can twine motor shaft with wheel rotation Extremely, current overload is caused to burn motor.Therefore, how Multifunction aerator is researched and developed, to improve in current sewage treatment project, The problem of aeration link encounters, has important practical significance.

Utility model content

Technical problem higher for equipment energy consumption existing in the prior art, maintenance is inconvenient, the mesh of the utility model Be Multifunction aerator is provided, will stirring and aeration be combined together, be not easy to be wound using spheroidal blender, i.e., Make to be wound and also only be wound in spherome surface, sundries will not contact motor shaft as impeller；Hydrone is improved by magnetization Activity is conducive to the aerobic decomposing organic matter of strain.

The technical solution that the utility model is taken are as follows:

Multifunction aerator, including stay pipe, lacing wire, motor, inlet duct, cloth gas hood, booster and stirring ball, it is described The lower end of stay pipe is connected with motor, and motor lower end connects stirring ball by shaft, is stirred and is provided on the outside of the shaft of ball upper end Inlet duct, the bottom of inlet duct are provided with gas chamber, and booster is arranged in gas chamber, and the lower end of gas chamber is provided with cloth gas hood, The stirring ball is arranged in the cavity of cloth gas hood formation, and the outer wall for stirring ball is set as rough spherical structure, outside Portion is using rubber diaphragm covering package, and interval forms gas chamber between rubber diaphragm and the outer wall for stirring ball；Stir the setting of ball inner wall There is magnetizer, magnetizer, which equally arranges to be spaced using several pieces iron plates, forms diversion trench, is embedded magnet on the side wall of iron plate；Branch It holds tube top end and extends in the middle part of cloth gas hood and be symmetrically arranged with lacing wire.

Further, the stirring ball is set as being arranged at intervals with gas between hollow-sphere structures, and the shaft of motor Gap.

Further, the outer wall of the stirring ball, which outwardly protrudes to be extended, hemispheric protrusion and the setting that is recessed inwardly There is hemispherical shrinkage pool, protrusion and shrinkage pool circulation are equidistant staggered.

Further, the surface of the rubber diaphragm offers the micropore of 0.01-0.5mm, rubber diaphragm and raised table Face is in tangent setting.

Further, the iron plate of the diversion trench is set as the laminated structure in zigzag circulation arrangement, adjacent iron plate edge Stirring ball spherical surface inner wall in parallel equidistant arrangement.

Further, the booster is set as gyroscope structure, and the upper/lower terminal for being pressurized spiral organ is respectively arranged with aperture Escape pipe and macropore air inlet pipe, form the booster cavity of hollow cylinder structure between aperture escape pipe and macropore air inlet pipe, aperture goes out Tracheae is extended the baffle for having the arrangement that is stepped to booster cavity.

Further, the cloth gas hood includes inner cover and outer cover, and interval forms gap and passes through spiral shell between inner cover and outer cover Silk connection, cloth gas hood are set as the cone structure that aperture becomes larger according to the distance apart from gas chamber.

The utility model has the following beneficial effects:

(1) easy to maintenance, it does not need to stop production, it is convenient to repair, and terrestrial operation avoids maintenance personal from damaging.

(2) aeration effect is good, and the bubble which generates is small, while bubble is in the case where stirring ball stirring action, helically Shape rises, and extends bubble residence time in water body, improves the utilization rate of oxygen, reaches energy-efficient purpose.

(3) it stirs in the diversion trench inside ball and is furnished with permanent magnetic iron, form simple magnetizer, to a certain extent magnetized water Body, after water body is magnetized, hydrone liveness is got higher, dissolution and the aerobic decomposing organic matter of aerobic strain conducive to oxygen.

(4) single-unit operation will not impact other equipment because of individual plants failure, solve traditional aeration plate The technical issues of aeration a, damage will lead to aeration unevenly, influence multiple aeration plate aeration effects on same pipeline.

Detailed description of the invention

Fig. 1 is the overall structure diagram of the utility model.

Fig. 2 is the structural schematic diagram of booster in the utility model.

Fig. 3 is the structural schematic diagram that ball is stirred in the utility model.

Wherein, 1, stay pipe；2, lacing wire；3, submersible motor；4, inlet duct；5, gas chamber；6, cloth gas hood；7, ball is stirred； 8, booster；9, booster cavity；10, baffle；11, raised；12, shrinkage pool；13, rubber diaphragm；14, diversion trench；15, iron plate；16, Magnet.

Specific embodiment

The utility model is further illustrated with reference to the accompanying drawing.

Embodiment 1

As shown in Figure 1, Figure 2 and Figure 3, Multifunction aerator, including stay pipe 1, lacing wire 2, motor 3, inlet duct 4, cloth Gas hood 6, booster 8 and stirring ball 7, the lower end of the stay pipe 1 and motor 3 connect, and 3 lower end of motor is connected by shaft and stirred Ball 7 stirs and is provided with inlet duct 4 on the outside of the shaft of 7 upper end of ball, and the bottom of inlet duct 4 is provided with gas chamber 5, and booster 8 is set It sets in gas chamber 5, the lower end of gas chamber 5 is provided with cloth gas hood 6, and the stirring ball 7 is arranged in the cavity of the formation of cloth gas hood 6, stirs The outer wall for mixing ball 7 is set as rough spherical structure, external using the covering package of rubber diaphragm 13,13 He of rubber diaphragm It stirs interval between the outer wall of ball 7 and forms gas chamber 5；Stirring 7 inner wall of ball is provided with magnetizer, and magnetizer is in using several pieces iron plates 15 Equidistant arrangement interval forms diversion trench 14, and magnet 16 is embedded on the side wall of iron plate 15；1 top of stay pipe extends to cloth gas hood 6 Middle part is symmetrically arranged with lacing wire 2.

Equipment uses stainless steel material, and important component is made of casting, durable, applied widely, can be used for more Kind different sewage water quality.

Stirring ball 7 is set as being arranged at intervals with air gap between hollow-sphere structures, and the shaft of motor 3.Inlet duct 4 It being supplied by blower, the air supply mode used is mode from top to bottom, from top pipeline air-inlet, by the booster 8 of lower section, With ejector again through 6 gas distribution of cloth gas hood, the requirement to wind pressure is reduced, the gas after gas distribution is along stirring ball 7 and 3 shaft of motor Between air gap enter stirring ball 7 inside, integrate propulsion, jet stream, stirring, cutting function, improve the utilization efficiency of oxygen, Reduce energy consumption.

The outer wall of stirring ball 7, which outwardly protrudes to be extended, to be had hemispheric raised 11 and is recessed inwardly that be provided with hemispherical recessed Hole 12, protrusion 11 and shrinkage pool 12 recycle equidistant staggered.Subversiveness is using stirring ball 7, so that mixing wastewater with air is more uniform, Rise in the shape of a spiral into the gas in stirring ball 7, is discharged further along the shrinkage pool 12 on stirring 7 outer wall of ball, extend oxygen The residence time in water body solves the problems, such as to be wound by sundries using impeller.

The surface of rubber diaphragm 13 offers the micropore of 0.01-0.5mm, and rubber diaphragm 13 and raised 11 surfaces are set in tangent It sets.Its cladding between the outer wall of stirring ball 7 forms small-sized gas chamber 5 one by one, and stationarity is more preferable, and it is de- to reduce rubber diaphragm 13 Rate is fallen, silt blocking aeration hole in water body is avoided.

The iron plate 15 of diversion trench 14 is set as the laminated structure in zigzag circulation arrangement, and adjacent iron plate 15 is along stirring The spherical surface inner wall of ball 7 is in parallel equidistant arrangement.

Breakthrough uses magnetization principle, and stirring the diversion trench 14 inside ball 7 increases gas residence time in ball, magnetic Change device to be arranged in inside stirring ball 7, the magnet 16 of gas and magnetizer rubs, and generates magnetic efficiency to gas, gas is again Magnetic efficiency is generated to hydrone and aerobic bacteria, improves hydrone and aerobic bacterial activity, improves air water solute effect and bacterium Kind decomposition efficiency is more advantageous to organic matter in degradation water body.

Booster 8 is set as gyroscope structure, and the upper/lower terminal for being pressurized spiral organ is respectively arranged with aperture escape pipe and macropore Air inlet pipe, forms the booster cavity 9 of hollow cylinder structure between aperture escape pipe and macropore air inlet pipe, aperture escape pipe is to booster cavity 9 are extended the baffle 10 for having the arrangement that is stepped.Booster cavity 9 increases gas stream by large aperture air inlet, small-bore outlet Speed also has amplification to gas pressure, is oriented to gas, generates vortex effect, is more advantageous to lower member and plays corresponding function Effect.

Cloth gas hood 6 is set as the cone structure that aperture becomes larger according to the distance apart from gas chamber 5, and cloth gas hood 6 wraps Inner cover and outer cover are included, inner cover and outer cover diameter proportion are 1:5, and the cover wall aperture of inner cover and outer cover, inner cover and outer cover pass through screw It connects, interstice coverage 5mm-8mm between inside and outside cover, cloth gas hood 6 uniformly arranges in 120 ° along apex angle and is provided with support rod, props up Strut plays stable support effect, and the special construction in cloth gas hood 6 uses gradual change open-celled structure, and cloth gas hood 6 makes air water It is more evenly distributed, to increase bubble gas distribution area, improves coefficient of oxygen utilization.

Carrying out practically process are as follows: blower supplies equipment, and gas enters gas chamber 5 from inlet duct 4, then through booster 8 carry out pressurization guiding, enter in stirring ball 7 along the air gap between 3 shaft of motor and stirring ball 7, and gas is along in stirring ball 7 Magnetizer between diversion trench 14 carry out water conservancy diversion, the magnet 16 of gas and magnetizer rubs, and is stirring in ball 7 through magnetizing Device magnetization, improves hydrone and aerobic bacterial activity, organic matter in the water body that is conducive to degrade, and stirs gas in ball 7 along stirring It mixes the shrinkage pool 12 on 7 outer wall of ball and enters the small gas chamber 5 that stirring ball 7 and outer wall rubber diaphragm 13 are formed, using rubber diaphragm 13 Discharge is uniformly distributed under the effect of cloth gas hood 6 into water body, i.e., micro-bubble is evenly distributed in water body through cloth gas hood 6； Ball 7 is stirred simultaneously to rotate under the effect of motor 3, increase aqueous vapor rotation, and extending gas, the residence time (changes tradition in water The state of aerating gas vertical ascent), aeration and stirring are combined together, gas-water mixing efficiency is improved, improves the benefit of oxygen With rate.

The above is not limitations of the present invention, it should be pointed out that: for the ordinary skill people of the art For member, under the premise of not departing from the utility model in essence range, several variations, modifications, additions or substitutions can also be made, These improvements and modifications also should be regarded as the protection scope of the utility model.

Claims (7)

1. Multifunction aerator, which is characterized in that including stay pipe, lacing wire, motor, inlet duct, cloth gas hood, booster and stir Ball is mixed, the lower end of the stay pipe is connected with motor, and motor lower end is connected by shaft and stirs ball, outside the shaft for stirring ball upper end Side is provided with inlet duct, and the bottom of inlet duct is provided with gas chamber, and booster is arranged in gas chamber, and the lower end of gas chamber is provided with Cloth gas hood, the stirring ball are arranged in the cavity of cloth gas hood formation, and the outer wall for stirring ball is set as rough spherical surface knot Structure, external using rubber diaphragm covering package, interval forms gas chamber between rubber diaphragm and the outer wall for stirring ball；It stirs in ball Wall is provided with magnetizer, and magnetizer, which equally arranges to be spaced using several pieces iron plates, forms diversion trench, is embedded on the side wall of iron plate Magnet；Stay pipe top extends in the middle part of cloth gas hood and is symmetrically arranged with lacing wire.

2. Multifunction aerator according to claim 1, which is characterized in that the stirring ball is set as hollow-sphere structures, It is arranged at intervals with air gap between the shaft of motor.

3. Multifunction aerator according to claim 1, which is characterized in that the outer wall of the stirring ball outwardly protrudes extension and sets It is equipped with hemispheric protrusion and is recessed inwardly and be provided with hemispherical shrinkage pool, protrusion and shrinkage pool circulation are equidistant staggered.

4. Multifunction aerator according to claim 3, which is characterized in that the surface of the rubber diaphragm offers 0.01- The micropore of 0.5mm, rubber diaphragm and convex surfaces are in tangent setting.

5. Multifunction aerator according to claim 1, which is characterized in that the iron plate of the diversion trench is set as in zigzag The laminated structure of arrangement is recycled, adjacent iron plate is along the spherical surface inner wall of stirring ball in parallel equidistant arrangement.

6. Multifunction aerator according to claim 1, which is characterized in that the booster is set as gyroscope structure, pressurization The upper/lower terminal of spiral organ is respectively arranged with aperture escape pipe and macropore air inlet pipe, between aperture escape pipe and macropore air inlet pipe The booster cavity of hollow cylinder structure is formed, aperture escape pipe is extended the baffle for having the arrangement that is stepped to booster cavity.

7. Multifunction aerator according to claim 1, which is characterized in that the cloth gas hood includes inner cover and outer cover, inner cover Interval forms gap and by screw connection between outer cover, and cloth gas hood is set as aperture according to the distance apart from gas chamber The cone structure become larger.