CN207031093U - A kind of jet aerator - Google Patents

Abstract

The utility model discloses a kind of jet aerator, including water inlet pipe, suction room, mixing chamber, trunnion, anemostat, above-mentioned mixing chamber connects with trunnion, above-mentioned trunnion connects with anemostat, above-mentioned anemostat lower end offers delivery port, the nozzle of above-mentioned water inlet pipe is communicated to mixing chamber through suction room, leaves gap between the nozzle and trunnion in above-mentioned mixing chamber inner chamber, can form pulse shock wave.

Description

A kind of jet aerator

Technical field

It the utility model is related to sewage disposal, and in particular to a kind of jet aerator.

Background technology

In general sewage disposal aerobic section aeration aerating has various ways, and common micro-pore aeration, underwater jet aeration, table expose Machine, the easy aging of microporous aeration device is fragile, and cleaning must empty pond, and submersible aerator also and its is easily damaged, and is repaired Loop wheel machine must be used, and mounting cost is high, surface aerating machine aeration mode can block, and maintenance cost is high, and oxygen supply is non-constant, not high Effect.

Utility model content

The purpose of this utility model is to provide a kind of jet aerator solve when sewage supplies oxygen, can be in longer use Almost Maintenance free in lifetime, can it is constant, stably, the problem of efficiently supplying oxygen.

To solve above-mentioned technical problem, the utility model uses following technical scheme：A kind of jet aerator, it is above-mentioned to penetrate Flowing aerator includes water inlet pipe, suction room, mixing chamber, trunnion, anemostat, and above-mentioned water inlet pipe upper end sets water inlet, front end to set Put electrically operated valve, above-mentioned water inlet pipe lower end opens up nozzle, above-mentioned suction room sets air inlet, and above-mentioned suction room and mixing chamber are mutual Connection, above-mentioned mixing chamber connect with trunnion, and above-mentioned trunnion connects with anemostat, and above-mentioned anemostat lower end offers delivery port, on The nozzle for stating water inlet pipe is communicated to mixing chamber through suction room 10, and gap is left between the nozzle and trunnion of above-mentioned water inlet pipe.

Preferably, above-mentioned water inlet pipe top is respectively cylindric with middle and lower part and funnel-form, said nozzle are in funnel Bottom, for forming high-velocity flow by nozzle by current, so as to form negative pressure around nozzle.

Preferably, above-mentioned suction room is in cylinder, above-mentioned air inlet is placed in the side of suction room.

Preferably, above-mentioned mixing chamber is in funnel-form, bottom connection trunnion, for being entered by air from air inlet through sucking room Enter mixing chamber, current flow into mixing chamber mixing air by water inlet pipe.

Preferably, above-mentioned trunnion is in cylinder, for forming pulse shock wave by trunnion by current and air mixing.

Preferably, above-mentioned state anemostat flare, mixed for producing aqueous vapor inside anemostat by air and current Interflow, it is spouting by above-mentioned delivery port high speed.

Compared with prior art, the beneficial effects of the utility model are at least one of following：

Compared with traditional aerator, the high-velocity flow of water inlet entrance, set through front end and rotate freely electrically operated valve energy Unstable current are effectively formed on the periphery of nozzle.

Compared with traditional aerator, current by nozzle can be formed unstable high-velocity flow is formed around nozzle bear Pressure.

Compared with traditional aerator, blended room mixes with current, pulse shock wave is formed in trunnion section, to improving oxygen Mass-transfer efficiency be very significantly improved.

Compared with traditional aerator, tubaeform anemostat can produce gas-vapor mix stream.

Brief description of the drawings

Fig. 1 is the utility model structure diagram.

Description of reference numerals：

1- water inlets, 2- electrically operated valves, 3- air inlets, 4- nozzles, 5- trunnions, 6- anemostats, 7- delivery ports, 8- mixing Room, 9- water inlet pipes, 10- suctions room.

Embodiment

In order that the purpose of this utility model, technical scheme and advantage are more clearly understood, below in conjunction with accompanying drawing and implementation Example, the utility model is further elaborated.It should be appreciated that specific embodiment described herein is only explaining The utility model, it is not used to limit the utility model.

With reference to shown in figure 1, one embodiment of the present utility model is：A kind of jet aerator, its above-mentioned jet aerator Including water inlet pipe 9, suction room 10, mixing chamber 8, trunnion 5, anemostat 6, the above-mentioned upper end of water inlet pipe 9 sets water inlet 1, front end to set Put electrically operated valve 2, the lower end of above-mentioned water inlet pipe 9 opens up nozzle 4, above-mentioned suction room sets air inlet 3, and above-mentioned suction room 10 is with mixing Room 8 is interconnected, and above-mentioned mixing chamber 8 connects with trunnion 5, and above-mentioned trunnion 5 connects with anemostat 6, and the above-mentioned lower end of anemostat 6 opens up There is delivery port 7, the nozzle 4 of above-mentioned water inlet pipe 9 is communicated to mixing chamber 10, the nozzle 4 and larynx of above-mentioned water inlet pipe 9 through suction room 10 Gap is left between pipe 5, the high-velocity flow entered from water inlet 1, sets the electrically operated valve 2 rotated freely can be effective through front end The different current of hydraulic pressure are formed on the periphery of nozzle.

According to another embodiment of the present utility model：In order to form negative pressure, the above-mentioned top of water inlet pipe 9 around nozzle 4 With middle and lower part be respectively cylindric and funnel-form, said nozzle 4 are in its lower portion, for forming height by nozzle 4 by current Fast current, so as to form negative pressure around nozzle.

According to another embodiment of the present utility model：In order to suck room 10 and the pressure intercommunication of mixing chamber 8, above-mentioned suction room 10 be in cylinder, and air inlet is placed in the side of suction room, for by sucking the air of room 10 and the air intercommunication of mixing chamber 8.

According to another embodiment of the present utility model：In order to which current shoot high ejection, above-mentioned mixing chamber 8 into the form of pulse In funnel-form, bottom connection trunnion 5, for entering mixing chamber 10 through sucking room 10 from air inlet 3 by air, current are by water inlet Pipe 8 flows into the mixing air of mixing chamber 8.

Further, above-mentioned trunnion 5 is in cylinder, for forming pulse shock wave by trunnion 5 by current and air mixing, Current and air mixing form pulse shock wave by trunnion 5.

Further, the above-mentioned flare of anemostat 6, mixed for producing aqueous vapor inside anemostat 6 by air and current Interflow, it is spouting by the above-mentioned high speed of delivery port 7.

" one embodiment " for being spoken of in this manual, " another embodiment ", " embodiment ", " be preferable to carry out Example " etc., refer to that the specific features, structure or the feature that combine embodiment description are included in the description of the application generality extremely In few one embodiment.It is not necessarily to refer to same embodiment that statement of the same race, which occur, in multiple places in the description.Enter one For step, when describing a specific features, structure or feature with reference to any embodiment, what is advocated is to combine other implementations Example realizes that this feature, structure or feature also fall in the scope of the utility model.

Although reference be made herein to the utility model is described multiple explanatory embodiments of the present utility model, still, It should be understood that those skilled in the art can be designed that a lot of other modifications and embodiment, these modifications and embodiment It will fall within spirit disclosed in the present application and spirit.More specifically, in disclosure, drawings and claims In the range of, a variety of variations and modifications can be carried out to the building block and/or layout of theme combination layout.Except to building block And/or outside the modification and improvement of layout progress, to those skilled in the art, other purposes also will be apparent.

Claims (6)

1. A kind of 1. jet aerator, it is characterised in that：The jet aerator main body includes water inlet pipe（9）, suction room（10）, it is mixed Close room（8）, trunnion（5）, anemostat（6）, the water inlet pipe（9）Upper end sets water inlet（1）, front end set electrically operated valve（2）、 The water inlet pipe（9）Lower end opens up nozzle（4）, the suction room sets air inlet（3）, the suction room（10）With mixing chamber （8）It is interconnected, the mixing chamber（8）With trunnion（5）Connection, the trunnion（5）With anemostat（6）Connection, the anemostat （6）Lower end offers delivery port（7）, the water inlet pipe（9）Nozzle（4）Mixing chamber is communicated to through suction room (10)（8）, institute State water inlet pipe（9）Nozzle（4）With trunnion（5）Between leave gap.
2. 2. jet aerator according to claim 1, it is characterised in that：The water inlet pipe（9）Distinguish with middle and lower part on top For cylindric and funnel-form, the nozzle（4）In its lower portion, for passing through nozzle by current（4）High-velocity flow is formed, from And negative pressure is formed around nozzle.
3. 3. jet aerator according to claim 1, it is characterised in that：The suction room（10）In cylinder, it is described enter Gas port（3）It is placed in suction room（10）Side.
4. 4. jet aerator according to claim 1, it is characterised in that：The mixing chamber（8）In funnel-form, bottom connection Trunnion（5）, for by air from air inlet（3）Through sucking room（10）Into mixing chamber（8）, current pass through water inlet pipe（9）Flow into Mixing chamber（8）Mixing air.
5. 5. jet aerator according to claim 4, it is characterised in that：The trunnion（5）In cylinder, for by current Pass through trunnion with air mixing（5）Form pulse shock wave.
6. A kind of 6. jet aerator according to claim 4, it is characterised in that：The anemostat（6）Flare, it is used for By air and current in anemostat（6）Inside produces gas-vapor mix stream, by the delivery port（7）High speed is spouting.