CN205603336U - Aeration machine efflux section of thick bamboo structure - Google Patents

Abstract

The utility model belongs to the technical field of sewage treatment device, especially, aeration machine efflux section of thick bamboo structure. The utility model discloses an efflux section of thick bamboo, efflux section of thick bamboo intercommunication has an aeration section of thick bamboo that is used for holding the impeller, the one end and the efflux section of thick bamboo intercommunication of an aeration section of thick bamboo, the other end of an aeration section of thick bamboo is provided with the guide plate, the central authorities of guide plate are provided with the dead eye that the impeller shaft that is used for the impeller passed, the water conservancy diversion hole circle of evenly arranging air guide hole circle on the guide plate and being used for rivers to pass through, air guide hole circle is parallel to each other with the axis of the impeller shaft of impeller, air guide hole circle manage say with the surface of water on the air supply communicate. The utility model discloses can utilize each position of impeller to carry out broken handle to the bubble to improve the efficiency of dissolving gas. Under same conditions, the aeration machine that dissolves gas risk ratio prior art has improved 30%.

Description

A kind of aerator jet barrel structure

Technical field

This utility model belongs to technical field of sewage treatment equipment, especially a kind of aerator jet barrel structure.

Background technology

Along with China's expanding economy and the raising of people's lives, living environment is increasingly taken seriously, so the various sewage treatment plants water resource environment with protection China is all being built in all parts of the country of nearly more than ten years, ensures the safe drinking water of people.

Aeration is one of most important technological process of biochemical wastewater treatment activated sludge process, submersible aerator is by submersible motor impeller high speed rotating, impeller produces powerful centrifugal force, under the influence of centrifugal force, negative pressuren zone is formed around impeller, thus it is produced from suction, by suction nozzle, a large amount of fresh airs in air are constantly sucked, sewage is sucked again and attracts cover by impeller simultaneously, in attracting cover, sewage is sprayed to surrounding by guiding gutter with the air generation gas-liquid collision substantial amounts of superfine air bubble of formation of suction, the effect of the gas-liquid mixed miscarriage raw stirring convection current ejected.Due to the generation of a large amount of micro air bubbles, good oxidation effect can be obtained；And aeration all be use aerator complete, existing aerator according to arrange mode be broadly divided under water with two kinds of aerators waterborne.

The such as patent of Patent No. 201020237786.6 discloses a kind of underwater aeration machine, including submersible machine, motor shaft, impeller, the aeration chamber of both ends open, air inlet pipe, guide shell, impeller is positioned at aeration intracavity portion, aeration chamber outer layer is provided with a urceolus, urceolus and aeration cavity wall and steel plate surround the ring-type air collecting chamber of closed at both ends jointly, and the aeration cavity wall part corresponding with air collecting chamber spreads all over qi-emitting hole；It is provided with plate face in air collecting chamber between aeration cavity wall and urceolus to gather the disk type hollow shape porous crushing shell of aperture；Porous crushing shell is vertical with aeration cavity wall；The quantity of porous crushing shell is 1 or more than 1；Hole shape on the qi-emitting hole of aeration cavity wall and porous crushing shell is circular, square or triangle, and aperture is 2～60mm；Impeller is made up of, in vortex shape 3～4 propeller blade shape blades；Air inlet pipe and horizontal plane, its top stretches out the water surface, and bottom communicates with air collecting chamber, and air inlet pipe top is provided with air volume regulating valve；Guide shell is extension type, is welded on one or both ends, aeration chamber, the export orientation mouth flare of guide shell, taper or the most barrel-shaped；Described targeting port is provided with the guide plate of two longitudinal directions；Motor is frequency control motor or standard electromotor.

But existing underwater aeration machine all arranges pore in the periphery of impeller, pore is in communication with the outside by conduit, and this setup can not make full use of the stirring action of impeller, causes molten gas efficiency low.

Utility model content

The purpose of this utility model is to overcome the deficiencies in the prior art, it is provided that a kind of aerator jet barrel structure.

This utility model solves its technical problem and is achieved through the following technical solutions:

A kind of aerator jet barrel structure, including jet cylinder, described jet cylinder is communicated with the aeration cylinder for accommodating impeller, one end of described aeration cylinder connects with jet cylinder, the other end of described aeration cylinder is provided with deflector, the central authorities of described deflector are provided with the dead eye that the impeller axle for impeller passes, gas port circle and the pod apertures circle passed through for current it is evenly arranged on described deflector, described gas port circle is parallel to each other with the axis of the impeller axle of impeller, and described gas port circle connects with the source of the gas on the water surface through pipeline.

Further, described gas port circle is the circulus formed by some gas ports.

Further, described pod apertures circle is the circulus formed by some pod apertures.

Further, described gas port circle and the spaced setting of pod apertures circle.

Further, described deflector is equipped with fairing cap, and described fairing cap includes that shell and inner shell, described shell and inner shell are joined together to form airtight cavity, and the central authorities of described shell and inner shell are provided with the through hole that the impeller axle for impeller passes；Being provided with airtight guide shell between described shell and inner shell, described guide shell is connected with each other through inner shell and shell with pod apertures；Being provided with gas cylinder on described inner shell, the cavity between described gas cylinder, guide shell, shell and inner shell is formed and holds air cavity, and one end of described gas cylinder connects with gas port, and the other end of described gas cylinder connects through inner shell with holding air cavity；Described appearance air cavity connects with the source of the gas on the water surface through pipeline.

Further, it is arranged with bearing in described dead eye.

Advantage of the present utility model and having the beneficial effect that

Aerator jet barrel structure of the present utility model, including jet cylinder, described jet cylinder is communicated with the aeration cylinder for accommodating impeller, one end of described aeration cylinder connects with jet cylinder, the other end of described aeration cylinder is provided with deflector, the central authorities of described deflector are provided with the dead eye that the impeller axle for impeller passes, gas port circle and the pod apertures circle passed through for current it is evenly arranged on described deflector, described gas port circle is parallel to each other with the axis of the impeller axle of impeller, and described gas port circle connects with the source of the gas on the water surface through pipeline.In use, impeller produces powerful centrifugal force, thus in aeration cylinder, form negative pressure, extraneous source of the gas moves to impeller by deflector along the axis direction of the impeller axle of impeller together with current, air-flow and current are the most fused during moving to impeller, crushing bubble at impeller, this utility model can utilize each position of impeller that bubble carries out break process, thus improves the efficiency of molten gas the most again.Under the same conditions, dissolved-air rate improves 30% than the aerator of prior art.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model；

Fig. 2 is the enlarged drawing structural representation in Fig. 1 at A.

Detailed description of the invention

Below by specific embodiment, the utility model is described in further detail, and following example are illustrative, it is impossible to limits protection domain of the present utility model with this.

In conjunction with accompanying drawing, aerator jet barrel structure of the present utility model, including jet cylinder 1, described jet cylinder 1 is communicated with the aeration cylinder 2 for accommodating impeller 3, one end of described aeration cylinder 2 connects with jet cylinder 1, the other end of described aeration cylinder 2 is provided with deflector 5, the central authorities of described deflector 5 are provided with the dead eye that the impeller axle 4 for impeller 3 passes, gas port circle and the pod apertures circle passed through for current it is evenly arranged on described deflector 5, described gas port circle is parallel to each other with the axis of the impeller axle 4 of impeller 3, described gas port circle connects with the source of the gas on the water surface through pipeline；In use, impeller produces powerful centrifugal force, thus in aeration cylinder, form negative pressure, extraneous source of the gas moves to impeller by deflector along the axis direction of the impeller axle of impeller together with current, air-flow and current are the most fused during moving to impeller, crushing bubble at impeller, this utility model can utilize each position of impeller that bubble carries out break process, thus improves the efficiency of molten gas the most again.Under the same conditions, dissolved-air rate improves 30% than the aerator of prior art.

Further, described gas port circle is the circulus formed by some gas ports 7；Described pod apertures circle is the circulus formed by some pod apertures 8.

Further, described gas port circle and the spaced setting of pod apertures circle, i other words the periphery of a gas port circle arranges a pod apertures circle, the periphery of pod apertures circle arranges a gas port circle again.It is thus possible to improve air-flow and the contact area of current to greatest extent, improve the efficiency of molten gas.

Further, described deflector 5 is equipped with fairing cap 6, described fairing cap 6 includes that shell 10 and inner shell 9, described shell 10 and inner shell 9 are joined together to form airtight cavity, and the central authorities of described shell 10 and inner shell 9 are provided with the through hole that the impeller axle 4 for impeller 3 passes；Being provided with airtight guide shell 11 between described shell 10 and inner shell 9, described guide shell 11 is connected with each other through inner shell 9 and shell 10 with pod apertures 8；It is provided with gas cylinder 12 on described inner shell 9, cavity between described gas cylinder 12, guide shell 11, shell 10 and inner shell 9 is formed and holds air cavity 13, one end of described gas cylinder 12 connects with gas port 8, and the other end of described gas cylinder 12 connects through inner shell 9 with holding air cavity 13；Described appearance air cavity 13 connects with the source of the gas on the water surface through pipeline.Structure of the present utility model designs, directly coordinating fairing cap 6 and deflector 5, while ensureing that air-flow and current can suck aeration cylinder 2, and the installation of minimizing pipeline, decrease the leakage point of air-flow, improve practicality of the present utility model.

Further, it is arranged with bearing in described dead eye, it is simple to reduce the friction between impeller axle and deflector.

Claims (6)

1. an aerator jet barrel structure, it is characterized in that: include jet cylinder, described jet cylinder is communicated with the aeration cylinder for accommodating impeller, one end of described aeration cylinder connects with jet cylinder, the other end of described aeration cylinder is provided with deflector, the central authorities of described deflector are provided with the dead eye that the impeller axle for impeller passes, gas port circle and the pod apertures circle passed through for current it is evenly arranged on described deflector, described gas port circle is parallel to each other with the axis of the impeller axle of impeller, and described gas port circle connects with the source of the gas on the water surface through pipeline.

Aerator jet barrel structure the most according to claim 1, is characterized in that: described gas port circle is the circulus formed by some gas ports.

Aerator jet barrel structure the most according to claim 2, is characterized in that: described pod apertures circle is the circulus formed by some pod apertures.

Aerator jet barrel structure the most according to claim 3, is characterized in that: described gas port circle and the spaced setting of pod apertures circle.

Aerator jet barrel structure the most according to claim 4, it is characterized in that: described deflector is equipped with fairing cap, described fairing cap includes shell and inner shell, described shell and inner shell are joined together to form airtight cavity, and the central authorities of described shell and inner shell are provided with the through hole that the impeller axle for impeller passes；Being provided with airtight guide shell between described shell and inner shell, described guide shell is connected with each other through inner shell and shell with pod apertures；Being provided with gas cylinder on described inner shell, the cavity between described gas cylinder, guide shell, shell and inner shell is formed and holds air cavity, and one end of described gas cylinder connects with gas port, and the other end of described gas cylinder connects through inner shell with holding air cavity；Described appearance air cavity connects with the source of the gas on the water surface through pipeline.

Aerator jet barrel structure the most according to claim 1, is characterized in that: be arranged with bearing in described dead eye.