CN207108630U - The micro-nano bubble aeration machine of titanium alloy - Google Patents

Abstract

The utility model discloses the micro-nano bubble aeration machine of titanium alloy,Including surface caisson and the nano bubble generation module positioned at surface caisson bottom,The surface caisson top is provided with air admission hole,And the air admission hole is provided with multiple and scattering device in surface caisson tip edge position,The surface caisson side is provided with suction hose,And the suction hose is in sleep " L " type to be absorbed water in order to which the port of suction hose is put in water,The surface caisson side is provided with working station indicator,The surface caisson top is provided with supported collection spool,The supported collection spool top is provided with solar powered plate,Inlet water tank is provided with inside the surface caisson,And the inlet water tank side is connected to suction hose,It is fixedly connected between the nano bubble generation module and surface caisson by scolding tin,Micro-nano airlift pump is installed inside the nano bubble generation module,This kind of bubble aeration machine is that one kind is applied to landscape water body,Aquaculture,The new high-efficiency aerator on the ground such as sewage disposal.

Description

The micro-nano bubble aeration machine of titanium alloy

Technical field

It the utility model is related to aerator technical field, the specially micro-nano bubble aeration machine of titanium alloy.

Background technology

Aeration aerating can accelerate water reoxygenation process, material caused by oxidation of organic compounds anaerobic degradation, improve water body Black smelly situation, strengthen the turbulent fluctuation of water body, slow down the speed of water Release of Phosphorus from Suspended Sediment in Lake Dianchi, at present practice in use must compare more than aerator Blast aeration, mechanical aeration, the class of jet-flow aeration three can be divided into from principle, its principle is different, and advantage and disadvantage are different, wherein air blast Aeration is to be aerated under water, and air quantity is big, and oxygenation effect is best, but needs to build air blast computer room and be aerated pipe network, and cost is high, not beautiful Sight, it is inconvenient that installation is safeguarded, mechanical aeration price is low, and installation maintenance is more convenient, but it is aerated in the water surface, and oxygenation effect is poor, Service area is small, fragile, and jet-flow aeration is to be aerated under water, and price is low, attractive in appearance, but efficiency is low, easily blocks, and not side is safeguarded in installation Just, underwater aeration effect is good in a word, because being submersible type, installation safeguards that inconvenience and equipment requirement are high, water surface aeration Effect is poor, and all kinds of aerators are all unidirectional or two-way aerations at present, and service area is very small, and made material can not Preserve under water for a long time, damage of easily getting rusty.

So how to design the micro-nano bubble aeration machine of titanium alloy, turning into us will currently solve the problems, such as.

Utility model content

The purpose of this utility model is to provide titanium alloy micro-nano bubble aeration machine, to solve to carry in above-mentioned background technology The problem of going out.

To achieve the above object, the utility model provides following technical scheme：The micro-nano bubble aeration machine of titanium alloy, including Surface caisson and the nano bubble generation module positioned at surface caisson bottom, the surface caisson top is provided with air admission hole, and institute State air admission hole and water suction is installed in surface caisson tip edge position, the surface caisson side provided with multiple and scattering device Pipe, and the suction hose is in sleep " L " type to be absorbed water in order to which the port of suction hose is put in water, the surface caisson side is set There is working station indicator, the surface caisson top is provided with supported collection spool, and the supported collection spool top is provided with solar energy Power supply board, the surface caisson inside is provided with inlet water tank, and the inlet water tank side is connected to suction hose, the nano bubble production It is fixedly connected between raw module and surface caisson by scolding tin, micro-nano bubble is installed inside the nano bubble generation module Pump, the micro-nano airlift pump top is provided with fixed communicating pipe, and the fixed communicating pipe top is connected to inlet water tank bottom simultaneously In conducting state, the micro-nano airlift pump side is provided with air entry, and the nano bubble generation module side is provided with the water surface Kickboard, the water surface floating edges of boards side is provided with alloy rotating shaft, and the alloy rotating shaft is connected on nano bubble generation module, described Micro-nano airlift pump bottom is provided with aqueduct, and the nano bubble generation module bottom is provided with pressure water distributing area, and the pressure is matched somebody with somebody Pool side is provided with working condition monitor, and pressure water distributing area bottom is provided with bubble protection pipe, the bubble protection pipe Side is provided with swivel bearing, and the swivel bearing side is provided with ejector, and the ejector port is provided with resistance to compression mouth, described Ejector top layer is provided with nozzle, and the ejector side is provided with check valve, and described ejector one end is provided with rotating-spray dress Put, the rotating spray device surface is provided with side hole for water spraying, and the rotating spray device side is provided with nano bubble release.

Further, grid layer is installed inside the inlet water tank.

Further, signal connects between the working condition monitor and working station indicator.

Further, the surface caisson and nano bubble generation module are made by titanium alloy material.

Further, the pressure water distributing area is fixedly connected with nano bubble generation module by aqueduct, the sun Energy power supply board is fixedly connected with surface caisson by supported collection spool.

Further, it is electrically connected between the solar powered plate and micro-nano airlift pump.

Further, it is flexibly connected between the water surface kickboard and nano bubble generation module by alloy rotating shaft.

Compared with prior art, the beneficial effects of the utility model are：This kind of aerator all devices are without the concern for water Sealing problem, due to being seal case, there is no water in casing, the micro-nano bubble aeration machine is integrated with blast aeration and diving exposes The advantage of gas, the shortcomings that overcoming blast aeration and underwater jet aeration each, convenient for installation and maintenance, service life length, low cost, dress To put and use the micro-nano bubble aeration machine of solar energy, effect is good, and energy-conservation, device uses rotating spray device gas distribution, and service area is big, Suitable for the water field everywhere such as landscape water body, aquaculture, sewage disposal.

Brief description of the drawings

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

Fig. 2 is nano bubble generation module schematic internal view of the present utility model；

Fig. 3 is rotating spray device structural representation of the present utility model；

Fig. 4 is ejector structural representation of the present utility model；

In figure：1- surface caissons；The solar powered plates of 2-；3- supported collection spools；4- air admission holes；5- working conditions indicate Lamp；6- suction hoses；7- water surface kickboards；8- alloy rotating shafts；9- nano bubble generation modules；10- inlet water tanks；11- grid layers；12- Fixed communicating pipe；The micro-nano airlift pumps of 13-；14- air entries；15- aqueducts；16- pressure water distributing area；17- working state monitorings Device；18- bubble protection pipes；19- swivel bearings；20- rotating spray devices；21- ejectors；22- sides water jet；23- nanometers Bubble release；24- nozzles；25- check valves；26- resistance to compression mouths.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out Clearly and completely describing, it is clear that described embodiment is only the utility model part of the embodiment, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made The every other embodiment obtained, belong to the scope of the utility model protection.

Fig. 1-4 are referred to, the utility model provides a kind of technical scheme：The micro-nano bubble aeration machine of titanium alloy, including water Face buoyancy tank 1 and the nano bubble generation module 9 positioned at the bottom of surface caisson 1, the top of surface caisson 1 are provided with air admission hole 4, and The air admission hole 4 is provided with provided with multiple and scattering device in the tip edge position of surface caisson 1, the side of surface caisson 1 Suction hose 6, and the suction hose 6 is in sleep " L " type to be absorbed water in order to which the port of suction hose 6 is put in water, the water surface floating The side of case 1 is provided with working station indicator 5, and the top of surface caisson 1 is provided with supported collection spool 3, and the supported collection spool 3 pushes up End is provided with solar powered plate 2, and the inside of surface caisson 1 is provided with inlet water tank 10, and the side of the inlet water tank 10 is connected to inhale Water pipe 6, it is fixedly connected between the nano bubble generation module 9 and surface caisson 1 by scolding tin, the nano bubble produces mould Micro-nano airlift pump 13 is installed, the micro-nano top of airlift pump 13 is provided with fixed communicating pipe 12, and the fixation inside block 9 Top was connected to the bottom of inlet water tank 10 and was in conducting state communicating pipe 12, and the micro-nano side of airlift pump 13 is provided with air entry 14, the side of nano bubble generation module 9 is provided with water surface kickboard 7, and the avris of water surface kickboard 7 is provided with alloy rotating shaft 8, and The alloy rotating shaft 8 is connected on nano bubble generation module 9, and the micro-nano bottom of airlift pump 13 is provided with aqueduct 15, institute State the bottom of nano bubble generation module 9 and be provided with pressure water distributing area 16, the side of pressure water distributing area 16 is provided with working condition prison Device 17 is surveyed, the bottom of pressure water distributing area 16 is provided with bubble protection pipe 18, and the side of bubble protection pipe 18 is provided with rotary shaft 19 are held, the side of swivel bearing 19 is provided with ejector 21, and the port of ejector 21 is provided with resistance to compression mouth 26, the ejector 21 top layers are provided with nozzle 24, and the side of ejector 21 is provided with check valve 25, and described one end of ejector 21 is provided with rotation spray Injection device 20, the surface of rotating spray device 20 are provided with side hole for water spraying 22, and the side of rotating spray device 20 is provided with and received Rice bubble release 23.

Further, grid layer 11 is installed, the grid layer 11 is used to place in water suction inside the inlet water tank 10 Machine is damaged in foreign body from entering.

Further, signal connects between the working condition monitor 17 and working station indicator 5, the work shape State monitor 17 can be monitored in aerator service stage to behaviour in service, to avoid several failure problems.

Further, the surface caisson 1 and nano bubble generation module 9 are the water made by titanium alloy material Face buoyancy tank 1 provides key effect for the use of air admission hole 4, prevents body from sinking under water.

Further, the pressure water distributing area 16 is fixedly connected with nano bubble generation module 9 by aqueduct 15, described Solar powered plate 2 is fixedly connected with surface caisson 1 by supported collection spool 3, and the pressure water distributing area 16 ensures what is discharged Bubble diameter can reach micro-nano rank.

Further, it is electrically connected between the solar powered plate 2 and micro-nano airlift pump 13, it is described solar powered The work of 2 bodies of plate provides sufficient power, the especially use to micro-nano airlift pump 13.

Further, it is flexibly connected between the water surface kickboard 7 and nano bubble generation module 9 by alloy rotating shaft 8, institute State water surface kickboard 7 and the floating effect of second support is played to support body.

Operation principle：This kind of aerator is placed in it is waterborne, using it is preceding closing ejector 21 on check valve 25 avoid occurring Backflow phenomenon, surface caisson 1 can bubble through the water column water surface kickboard 7 under the assistance of water surface kickboard 7 can be in the presence of alloy rotating shaft 8 Being overturn, solar powered plate 2 can carry out absorbing luminous energy and converting being powered underwater installation by supported collection spool 3, Air admission hole 4 can convey into surface caisson 1 and nano bubble generation module 9 at any time, and suction hose 6 absorbs water and launched in inlet water tank Launched communicating pipe 12 in micro-nano airlift pump 13 in 10 and by fixation, the air entry on micro-nano airlift pump 13 is from nanometer gas Draw gas in generation module 9 is steeped, the air-water mixture with micro-nano bubble is formed in micro-nano airlift pump 13, passes through water guide Pipe 15 enters in pressure water distributing area 16, and residence time of the air-water mixture in pressure water distributing area 16 is about one minute or so, so as to The bubble diameter for ensuring to discharge can reach micro-nano rank, and the air-water mixture being stored in pressure water distributing area 16 passes through bubble Protection pipe 18 enters ejector 21 and then entered in rotating spray device 20, the nano bubble installed on rotating spray device 20 Release 23 and the side hole for water spraying 22 of side carry out aeration operation, and rotating spray device 20 carries out 360 degree of rotation, made simultaneously Obtain the more extensive simultaneously uniformly dispersing of underwater effect area.

While there has been shown and described that embodiment of the present utility model, for the ordinary skill in the art, It is appreciated that these embodiments can be carried out with a variety of changes in the case where not departing from principle of the present utility model and spirit, repaiied Change, replace and modification, the scope of the utility model are defined by the appended claims and the equivalents thereof.

Claims (7)

1. the micro-nano bubble aeration machine of titanium alloy, including surface caisson (1) produce with the nano bubble positioned at surface caisson (1) bottom Raw module (9), it is characterised in that：Surface caisson (1) top is provided with air admission hole (4), and the air admission hole (4) is provided with multiple And scattering device is provided with suction hose (6) in surface caisson (1) tip edge position, surface caisson (1) side, and it is described Suction hose (6) is provided with working station indicator (5), surface caisson (1) top in " L " type, surface caisson (1) side is slept End is provided with supported collection spool (3), and supported collection spool (3) top is provided with solar powered plate (2), the surface caisson (1) Inside is provided with inlet water tank (10), and the inlet water tank (10) side is connected to suction hose (6), the nano bubble generation module (9) it is fixedly connected, is provided with inside the nano bubble generation module (9) micro-nano by scolding tin between surface caisson (1) Airlift pump (13), micro-nano airlift pump (13) top are provided with fixed communicating pipe (12), and the fixed communicating pipe (12) pushes up End is connected to inlet water tank (10) bottom, and micro-nano airlift pump (13) side is provided with air entry (14), the nano bubble production Raw module (9) side is provided with water surface kickboard (7), and water surface kickboard (7) avris is provided with alloy rotating shaft (8), and the alloy Rotating shaft (8) is connected on nano bubble generation module (9), and micro-nano airlift pump (13) bottom is provided with aqueduct (15), institute State nano bubble generation module (9) bottom and be provided with pressure water distributing area (16), pressure water distributing area (16) side is provided with work State monitor (17), pressure water distributing area (16) bottom are provided with bubble protection pipe (18), the bubble protection pipe (18) one Side is provided with swivel bearing (19), and swivel bearing (19) side is provided with ejector (21), ejector (21) port Provided with resistance to compression mouth (26), ejector (21) top layer is provided with nozzle (24), and ejector (21) side is provided with check valve (25), described ejector (21) one end is provided with rotating spray device (20), and rotating spray device (20) surface is provided with side Face hole for water spraying (22), rotating spray device (20) side are provided with nano bubble release (23).

2. the micro-nano bubble aeration machine of titanium alloy according to claim 1, it is characterised in that：The inlet water tank (10) is internal Grid layer (11) is installed.

3. the micro-nano bubble aeration machine of titanium alloy according to claim 1, it is characterised in that：The working condition monitor (17) signal is connected between working station indicator (5).

4. the micro-nano bubble aeration machine of titanium alloy according to claim 1, it is characterised in that：The surface caisson (1) with Nano bubble generation module (9) is made by titanium alloy material.

5. the micro-nano bubble aeration machine of titanium alloy according to claim 1, it is characterised in that：The pressure water distributing area (16) It is fixedly connected with nano bubble generation module (9) by aqueduct (15), the solar powered plate (2) and surface caisson (1) It is fixedly connected by supported collection spool (3).

6. the micro-nano bubble aeration machine of titanium alloy according to claim 1, it is characterised in that：The solar powered plate (2) it is electrically connected between micro-nano airlift pump (13).

7. the micro-nano bubble aeration machine of titanium alloy according to claim 1, it is characterised in that：The water surface kickboard (7) with It is flexibly connected between nano bubble generation module (9) by alloy rotating shaft (8).