CN108529770A - A kind of reciprocating intelligent aerating system - Google Patents

Abstract

The invention discloses a kind of reciprocating intelligent aerating systems, including being located at the air supply pipe being connect with air feeder on aeration tank, the aerator being located on air supply pipe, it is located at the carriage that aerator is used to support on aeration tank, it is located at the control device moved along carriage to aerator on aeration tank, aerator will be in the sewage in the air delivery to aeration tank outside aeration tank by air supply pipe, aerator controls it by control device and moves back and forth on carriage or moved to outside aeration tank, to make aeration in aeration tank reduce dead zone, and the aerator to being located in aeration tank carries out fast assembling-disassembling and replacement.It is easy to maintain, it replaces easy and is not necessarily to discharge water or dive under water, thoroughly solve the problems, such as the fixedly mounted structure of aerator can not on-call maintenance replace, ensure the life safety of maintenance process, also avoid the secondary pollution problem that clear pond is safeguarded, oxygen-transfer efficiency higher, mud local accumulation will not occur and increase phenomenon pond is low.

Description

A kind of reciprocating intelligent aerating system

Technical field

The present invention relates to field of sewage treatment equipment, and in particular to a kind of reciprocating intelligent aerating system.

Background technology

So-called aeration is directed to constantly be filled with extraneous air-flow in water, and the oxygen in air-flow constantly dissolves in water, is aerated Quality directly affect the effect of water outlet, and there are one fixed values for the oxygen content in water, when water oxygen level is higher, oxygenation effect Fruit is poorer, therefore when being oxygenated to water, improves the contact range of oxygen and water, and aerator can be made to imitate the oxygenation of water Fruit is more preferable.When handling municipal sewage and industrial wastewater, generally sewage, waste water are given birth to by aeration tank (biochemistry pool) Change is handled, and carries out the pass that Air Exposure is entire biochemical treatment sewage, waste water to sewage, the waste water in aeration tank (biochemistry pool) Key, the quality of aeration directly affect the size of oxygen-transfer efficiency, practical function, service life and energy consumption, currently, universal both at home and abroad It is arranged stationary using aerated product in aeration tank (biochemistry pool), that there are product installation periods is long, cost is relatively high, dimension Inconvenient and energy-intensive problem is repaiied, such as during being aerated use, when there is aeration tube or air supply pipe disrepair phenomenon, Breakage will appear air pocket, directly affect the effect of water process, when to have to repair, be needed in repair or replacement Sewage in aeration tank, which is allowed to dry, can just be repaired or replaced processing, bring many troubles and inconvenience to user in this way, The secondary pollution that environment can also be caused, aerator is replaced and maintenance difficulty is high to making, meanwhile, present aerator due to It is fixed in aeration tank, generally there is in aeration process between two neighboring aerator certain gap, be easy to form aeration Dead zone, in the long-term use, the sewage corresponding to interval especially between the two have part not to be aerated directly, To solve to carry out the effect being aerated without dead angle to the sewage in aeration tank, accumulation silt is also easy between two aerators Mud, to make the aerator of aeration tank bottom be easier to cause blockages.

Invention content

In order to solve certain or certain technical problems existing in the prior art, the present invention provides a kind of reciprocating intelligence and exposes Gas system.

To solve above-mentioned existing technical problem, the present invention uses following scheme：

A kind of reciprocating intelligent aerating system, including be located at air supply pipe connect with air feeder on aeration tank, be located at described in At least one aerator on air supply pipe is located at and is used to support the carriage of the aerator on the aeration tank, sets The control device moved along the carriage to the aerator on the aeration tank, the aerator pass through institute Air supply pipe is stated by the sewage in the air delivery to aeration tank outside the aeration tank, the aerator is filled by the control Setting control, it moves back and forth on the carriage or is moved to outside the aeration tank.

Further, the control device includes hauling rope for connecting the aerator or transmission shaft, is located at institute The driving device of hauling rope or transmission shaft one or both ends is stated, the aerator drives the traction by the driving device The mobile realization synchronizing moving of rope or transmission shaft.

Further, the carriage includes being located on the aeration tank bottom and side wall or the aeration tank both sides At least one sliding rail, the sliding block being located on the sliding rail, the aerator are fixed on the sliding block, are filled by the control Set control reciprocating movement of the mobile realization aerator of the sliding block on the sliding rail in the aeration tank or to It is mobile outside the aeration tank, to realize the reduction of aerator installation number and energy saving.

Further, the sliding rail on the aeration tank side wall is equipped at least one to the hauling rope or transmission shaft Carry out the positioning slide of positioning and guiding.

Further, during the aerator is, pore type plate-type aerator or tube aerator.

Further, the aerator includes interconnected air inlet section and aeration section, the inlet end and the confession Tracheae is connected to.

Further, the air supply pipe include one end connect with air feeder gas supply supervisor, be located at the gas supply and be responsible for At least a gas manifold, the aerator be located on the gas manifold, air by the gas supply supervisor be transported to Entered in water by the aerator again after the gas manifold.

Further, the gas supply supervisor is flexible duct, and the gas manifold is flexible duct or rigid conduit.

Further, geometrical clamp is equipped between the gas manifold and the sliding block, the gas manifold passes through described solid Clamp is fixed on the sliding block.

Further, the sliding rail corner being mounted in the aeration tank bottom and side wall is arc-shaped transition, arc The sliding rail of transition region is roller transition guide structure.

Further, dissolving oxygen probe is additionally provided in the aeration tank, the dissolving oxygen probe includes that dissolved oxygen is visited The dissolved oxygen probe surveyed analyzer, connect with the dissolved oxygen detection analysis instrument, the dissolved oxygen probe go deep into aeration tank In sewage.

Further, the control device, air feeder and dissolving oxygen probe between by control terminal wirelessly or non-wirelessly Control, the control device are big to the air demand of the aerator to the movement speed of the aerator and the air supply pipe It is small to be automatically adjusted control by the result that detects of dissolving oxygen probe.

Further, the sliding rail at least uses two and is arranged in parallel, and the both sides of the gas manifold pass through institute respectively It states geometrical clamp to be fixed on the corresponding sliding block, the aerator is mounted on the gas manifold.

Compared with prior art, the beneficial effects of the present invention are：

Aerator is moved back and forth by control device along carriage, aerator can be made to aeration tank When interior sewage carries out Air Exposure, the moment for carrying out effective area in pond at any time moves back and forth, to make in aeration tank Aeration reduces or no longer exists aeration dead zone, keeps aerator more preferable for the oxidation effect of the sewage in aeration tank, oxygenation effect Rate higher can at least reduce 25% or more of installation total quantity needed for aerator in unit area, energy saving to realize, work as exposure When device of air is located at aeration tank bottom, it can be ensured that never local accumulation increases mud, in the holding pond to realize the longer time Dischargeable capacity is constant, when needing to replace aerator after long-time is aerated, need to only be filled aeration by control device It sets and is moved outside aeration tank, can be achieved with repair and the replacement to aerator or air supply pipe, it is no longer necessary to be allowed to dry aeration tank Interior sewage, the existing aerator of effective solution has in pond to be replaced under water state and problem difficult to install, Bu Huizai The normal processing of sewage is influenced because of the replacement of aerator.

Description of the drawings

Fig. 1 is when carriage of the present invention is mounted on bottom of pond and complete section front view that aerator is plate-type aerator；

Fig. 2 is that the complete section partial left that when carriage of the present invention is mounted on bottom of pond and aerator is plate-type aerator regards Figure；

Fig. 3 is when carriage of the present invention is mounted on bottom of pond and vertical view that aerator is plate-type aerator；

Fig. 4 is when carriage of the present invention is mounted on bottom of pond and complete section front view that aerator is tube aerator；

Fig. 5 is that the complete section partial left that when carriage of the present invention is mounted on bottom of pond and aerator is tube aerator regards Figure；

Fig. 6 is when carriage of the present invention is mounted on bottom of pond and vertical view that aerator is tube aerator；

Fig. 7 is that aerator of the present invention connect partial enlarged view with carriage.

Fig. 8 is complete section front view when carriage of the present invention is mounted on pond top；

Fig. 9 is vertical view when carriage of the present invention is mounted on pond top.

In figure：Aerator 1, dissolved oxygen probe 2, hauling rope 3, driving device 4, dissolving oxygen probe 5, solution oxygen detection point Analyzer 6, control device 7, positioning slide 8, air supply pipe 9, carriage 10, roller transition guide 11, gas supply supervisor 12, gas supply branch Pipe 13, sliding block 14, sliding rail 15, aeration tank 16, geometrical clamp 17, aeration section 18, air inlet section 19.

Specific implementation mode

In the following, in conjunction with attached drawing and specific implementation mode, the present invention is described further, it should be noted that not Under the premise of conflicting, new implementation can be formed between various embodiments described below or between each technical characteristic in any combination Example.

As described in Fig. 1~9, a kind of reciprocating intelligent aerating system, including be located at and connect with air feeder on aeration tank 16 Air supply pipe 9, at least one aerator 1 being located on the air supply pipe 9 are located on the aeration tank 16 and are used to support the exposure The carriage 10 of device of air 1 is located at and is moved along the carriage 10 to the aerator 1 on the aeration tank 16 Control device 7, the aerator 1 will be in the air deliveries outside the aeration tank 16 to aeration tank 16 by the air supply pipe 9 Sewage in, the aerator 1 controls it by the control device 7 and is moved back and forth on the carriage 10 or to institute State outside 16 pond of aeration tank it is mobile, to make in the aeration tank 16 aeration reduce dead zone and deposit without sludge, and described to being located at The aerator 1 in aeration tank 16 carries out fast assembling-disassembling and replacement；The control device 7 includes for connecting the aeration The hauling rope 3 or transmission shaft of device 1, the driving device 4 for being located at the hauling rope 3 or transmission shaft one or both ends, the aeration Device 1 drives the mobile realization synchronizing moving of the hauling rope 3 or transmission shaft by the driving device 4；The carriage 10 including being located at least one sliding rail 15 of on 16 bottom of the aeration tank and side wall or aeration tank both sides, being located at the cunning Sliding block 14 on rail 15, the aerator 1 are fixed on the sliding block 14, and the sliding block is controlled by the control device 7 Reciprocating movement of the 14 mobile realization on the sliding rail 15 aerator 1 in the aeration tank 16 or to the aeration It is mobile outside Chi16Chi, to realize the reduction of 1 installation number of aerator and energy saving；The cunning on 16 side wall of the aeration tank Rail 15 is equipped at least one positioning slide 8 that positioning and guiding is carried out to the hauling rope 3 or transmission shaft；The aerator 1 For in, pore type plate-type aerator or tube aerator；The aerator 1 includes the air inlet section 19 being interconnected and aeration section 18, the inlet end is connected to the air supply pipe 9；The air supply pipe 9 is responsible for 12 including the gas supply that one end is connect with air feeder, is set At least a gas manifold 13, the aerator 1 on the gas supply supervisor 12 are located on the gas manifold 13, air It is transported to after the gas manifold 13 by gas supply supervisor 12 and is entered in water by the aerator 1 again；The gas supply Supervisor 12 is flexible duct, and the gas manifold 13 is flexible duct or rigid conduit；The gas manifold 13 and the sliding block Geometrical clamp 17 is equipped between 14, the gas manifold 13 is fixed on by the geometrical clamp 17 on the sliding block 14；Mounted on institute It is arc-shaped transition to state 15 corner of the sliding rail in 16 bottom and side wall of aeration tank, and the sliding rail 15 in arc-shaped transition area is rolling 11 structure of sub- transition guide.；Dissolving oxygen probe 5 is additionally provided in the aeration tank 16, the dissolving oxygen probe 5 includes dissolving Oxygen detection analysis instrument 6, the dissolved oxygen probe 2 being connect with the dissolved oxygen detection analysis instrument 6, the dissolved oxygen probe 2 deeply expose In sewage in gas pond 16；It is wireless or have by control terminal between the control device 7, air feeder and dissolving oxygen probe 5 Line traffic control, confession of the control device 7 to the movement speed and the air supply pipe 9 of the aerator 1 to the aerator 1 Tolerance size is automatically adjusted control by the result that detects of dissolving oxygen probe 5；The sliding rail 15 is at least adopted It with two and is arranged in parallel, the both sides of the gas manifold 13 are fixed on the corresponding sliding block by the geometrical clamp 17 respectively On 14, the aerator 1 is mounted on the gas manifold 13.

In actual use, aerator 1 is mounted on by carriage 10 in aeration tank 16,9 one end of air supply pipe It is connect with air feeder, while air supply pipe 9 is connected to aerator 1, air is transported to by aeration out of air supply pipe 9 by air feeder It is that activity connects between aerator 1 and carriage 10 to carry out biochemical treatment to the sewage in aeration tank 16 on device 1 Connect, aerator 1 can be made to be moved along carriage 10 by control device 7, by control device 7 to aerator 1 It when being moved, is made of two ways, one is aerators 1 to be carried out back and forth by control device 7 along carriage 10 It is mobile, aerator 1 can be made when carrying out Air Exposure to the sewage in aeration tank 16, carry out effective area in pond at any time Moment move back and forth, to make aeration in aeration tank 16 reduce or no longer there is aeration dead zone, make aerator 1 for exposing The oxidation effect of sewage in gas pond 16 is more preferable, oxygen-transfer efficiency higher, when aerator 1 is located at aeration tank bottom, it can be ensured that Never local accumulation increases mud, and dischargeable capacity is constant in the holding pond to realize the longer time, is needed after long-time is aerated It is another that mobile control is carried out for one direction movement to aerator 1 when being replaced to aerator 1, need to only it pass through Control device 7 moves aerator 1 to outside 16 pond of aeration tank, can be achieved with the repair to aerator 1 or air supply pipe 9 and more It changes, it is no longer necessary to which the sewage being allowed to dry in aeration tank 16, effective solution existing aerator 1 has in pond to be replaced under water state With problem difficult to install, the normal processing of sewage will not be influenced because of the replacement of aerator 1 again.

Preferably, when aerator 1 is moved back and forth or unidirectionally moved by control device 7, by leading Straw line 3 is in series or in parallel together by multiple aerators 1, is then carried out to hauling rope 3 by driving device 4 front and back or left Right pulling moves back and forth to make aerator 1 realize, structure is simpler, and control is easier, and driving device 4 is generally Motor drives, and when driving motor is controlled for one, is controlled using positive and negative rotation decelerating motor, for the past of aerator 1 Movement and unidirectional pulling control are more convenient again, and the motion track of hauling rope 3 can be by being controlled after the combination of multiple positioning slides 8 System, the direction and position control to make hauling rope 3 are easier, when it is two to control motor, are separately mounted to sliding dress 10 both ends are set, and are controlled using decelerating motor, it is more efficient when moving moment.

Further, carriage 10 is made of sliding rail 15 and sliding block 14, and when installation, can be both mounted on sliding rail 15 On 16 bottom of aeration tank and side wall, sliding rail 15 can also be mounted on two two sides at the top of the aeration tank, work as sliding rail 15 when being mounted on 16 bottom of aeration tank and side wall, and aerator 1 extends from the bottom up, when sliding rail 15 is mounted on the aeration tank When on two two sides at top, aerator 1 extend into from top to bottom sewage from, to carrying out oxygenation processing to sewage, To keep the installation of aerator 1 more flexible, sliding block 14 is slidably connected on sliding rail 15, the junction of sliding rail 15 and sliding block 14 Cross section is U-shaped structure, and the materials of sliding block 14 can be made more convenient, and production cost is lower, meanwhile, aerator 1 directly or Person is indirectly fixed on sliding block 14, is moved by sliding block 14 and the structure of sliding rail 15 when aerator 1 needs mobile Can be more flexible, and when sliding rail 15 is mounted on 16 bottom of aeration tank and side wall, sliding block 14 when mounted can be from side wall On 15 top of sliding rail be inserted in, slid down on the sliding rail 15 of bottom then along the sliding rail 15 of side wall, when need to aeration When device 1 is replaced or repaired, sliding block 14 need to only be pulled on the sliding rail 15 of side wall by control device 7, it will be able to real Existing aeration tank 16 does not discharge water repair and replacement, and the gap size of aerator 1, can also be by between two neighboring sliding block 14 Distance is controlled, and control is more convenient, and when sliding rail 15 is on two two sides at the top of aeration tank, sliding rail 15 is It two and is arranged in parallel, only the sliding block 14 on two wood side-guides 15 need to be sequentially loaded into or pulled out sliding rail 15, pass through the sliding block at both ends 14 aerators 1 being supported can realize installation and removal at one end, moreover, working as 10 aeration tank of the carriage, 16 bottom After in the portion and side wall and both sides of the aeration tank are respectively mounted, the oxygen in aeration tank 16 can be made to be turned in the realization of moment oxygenation capacity Times effect, and when aerator 1 is moved back and forth or unidirectionally moved by control device 7, hauling rope 3 can be with It is directly bound with each aerator 1, also can series connection binding directly be carried out to the sliding block 14 on same one slide rail 15, to Make the simpler convenience of the mobile control of sliding block 14 and aerator 1, flexibility higher, while sliding block 14 positioning can also be used to slide Seat replaces, and flexibility is more preferable.

Further, the sliding rail 15 on 16 side wall of the aeration tank be equipped with it is at least one to the hauling rope 3 or Transmission shaft carries out the positioning slide 8 of positioning and guiding, and positioning slide 8 navigates to a certain after 15 slide downward of sliding rail on side wall Position, hauling rope 3 or transmission shaft make it be connect with side wall after passing through positioning slide 8, to make hauling rope 3 play the work of positioning With, meanwhile, when needing to pull out aerator 1, only aerator 1 need to up be pulled, be pushed up by aerator 1 It can be pulled out from sliding rail 15 together with hauling rope 3 after firmly positioning slide 8, it is more convenient simple for the taking-up of hauling rope 3.

Further, during aerator 1 generally uses, pore type plate-type aerator or tube aerator, when aerator 1 When being supported using an one slide rail 15, air supply pipe 9 is directly installed on sliding block 14, and plate-type aerator or tube aerator are direct On air supply pipe 9, the advantages of this design, is single wire control, when replacing, can be exposed extracting minimal amount of disc type out Aerator 1 is repaired and replaces under gas device or tube aerator state, when sliding rail 15 fills aeration using two or more When setting 1 and being supported, directly the both ends of tube aerator or branched support point can be fixed on sliding block 14, then pass through gas supply The advantages of pipe 9 directly carries out for gas disposal every tube aerator, this structure is that aerator 1 is tube aerator When, air supply pipe 9 can be placed at an arbitrary position, without being directly placed on sliding block 14, to make the setting of air supply pipe 9 more Add flexibly.

Meanwhile aerator 1 is made of intercommunicated air inlet section 19 and aeration 18 two parts of section, inlet end and air supply pipe 9 Connection, it is different by the length of air supply pipe 9, the position in water of aeration section 18 can be effectively controlled, to make sewage fill The control of oxygen position is more convenient simple.

Further, air supply pipe 9 is divided into is responsible for 12 and gas manifold 13 for gas supply, in two or more sliding rails 15 to exposing It when device of air 1 is supported, is mounted on the corresponding sliding block 14 per on one slide rail 15 by gas manifold 13, every gas supply Branch pipe 13 has 12 unified gas supply of gas supply supervisor, can make to be respectively mounted multiple aerators 1 on each gas manifold 13, especially adopt When with plate-type aerator, the coverage area of aerator can be made wider, and structure is simpler, production cost is lower, makes aeration Larger range of Air Exposure is realized in pond by minimum sliding rail 15, and hauling rope 3 can also be directly bound Aerator 1 is pulled on every gas manifold 13, at this point, the position of hauling rope 3 can also be bonded with aeration supervisor It is fixed, to make hauling rope 3 be not easy to knot or put on the spot by other objects when in use.

Another step based on said program is improved, and the gas supply supervisor 12 is flexible duct, can make the sliding of sliding block 14 It is more flexible, and air supply pipe 9 is flexible more convenient, and gas manifold 13 can be flexible duct or rigid conduit, materials are more Add extensively, it is more preferable for the support effect of aerator 1 when in particular by rigid conduit.Meanwhile gas manifold 13 or tubular type It is fixed on the sliding block 14 by geometrical clamp 17 between aerator and sliding block 14, fixation is more secured, and geometrical clamp 17 can be adopted With structures such as band or clips.

And 15 corner of sliding rail in 16 bottom and side wall of aeration tank is arc-shaped transition, arc-shaped transition area it is described Sliding rail 15 is that 11 structure of roller transition guide is moved to bottom when being moved to sliding block 14 from the sliding rail 15 on side wall Can be more flexible during sliding rail 15, be not in stuck phenomenon.

Further, a dissolving oxygen probe 5, the dissolved oxygen detection are also mounted in above-described aeration tank Dissolved oxygen detection analysis instrument 6 in device 5 is fixed on the side wall of aeration tank 16, and dissolved oxygen probe 2 then gos deep into aeration tank 16 Sewage in, be transferred to again after being detected to sewage by dissolved oxygen probe 2 after dissolved oxygen detection analysis instrument 6 analyzes, Can intuitively judge sewage treatment effect and required oxygenation as a result, and the control device 7, air feeder and dissolved oxygen It is wirelessly or non-wirelessly controlled by a control terminal between detector 5, the sewage institute detected according to dissolving oxygen probe 5 It need to be oxygenated size, confession that can automatically to the movement speed of aerator 1, frequency and the air supply pipe 9 to the aerator 1 Tolerance size is controlled, and to realize best oxidation effect, while being realized energy saving.

When sliding rail 15 is installed in aeration tank 16, sliding rail 15 at least uses two and is arranged in parallel, while gas manifold 13 Both sides be fixed on corresponding sliding block 14 by geometrical clamp 17 respectively, aerator 1 be mounted on the gas manifold 13 on, energy Aerator 1 is enough set more to stablize in moving process, and aeration effect is more preferable, the installation and positioning of plate-type aerator are more smart It is really easy.This structure is easy to maintain pond is low and Chi Dingjun can be installed, and replaces easy and without discharging water or diving under water, and need to only lead to It crosses control device 7 and is displaced outwardly sliding block 14 along sliding rail 15 and replacement and repair can be realized, it is solid thoroughly to solve aerator 1 Fixed pattern mounting structure can not on-call maintenance problem, it is ensured that the life safety of maintenance process also avoids clear pond is safeguarded two Secondary pollution problem, it is less simultaneously for the quantity demand of aerator 1, due to reducing 1 installation number of aerator, pass through intelligence Can control can realize energy saving and remote monitoring purpose.

The above embodiment is only the preferred embodiment of the present invention, and the scope of protection of the present invention is not limited thereto, The variation and replacement for any unsubstantiality that those skilled in the art is done on the basis of the present invention belong to institute of the present invention Claimed range.

Claims (10)

1. a kind of reciprocating intelligent aerating system, it is characterised in that：Including be located at the air supply pipe being connect with air feeder on aeration tank, At least one aerator for being located on the air supply pipe is located at the sliding that the aerator is used to support on the aeration tank Device is located at the control device moved along the carriage to the aerator on the aeration tank, the aeration dress It sets in the sewage in the air delivery to aeration tank outside the aeration tank through the air supply pipe, the aerator passes through institute It states control device and controls it and move back and forth on the carriage or moved to outside the aeration tank.

2. the reciprocating intelligent aerating system of one kind according to claim 1, it is characterised in that：The control device includes using In the hauling rope or transmission shaft for connecting the aerator, it is located at the hauling rope or the driving dress of transmission shaft one or both ends It sets, the aerator drives the mobile realization synchronizing moving of the hauling rope or transmission shaft by the driving device.

3. the reciprocating intelligent aerating system of one kind according to claim 2, it is characterised in that：The carriage includes setting On the aeration tank bottom and side wall or at least one sliding rail of the aeration tank both sides, the sliding block that is located on the sliding rail, The aerator is fixed on the sliding block, and mobile reality of the sliding block on the sliding rail is controlled by the control device Reciprocating movement of the existing aerator in the aeration tank is moved to outside the aeration tank, to realize aerator The reduction of installation number and energy saving.

4. the reciprocating intelligent aerating system of one kind according to claim 3, it is characterised in that：On the aeration tank side wall The sliding rail is equipped at least one positioning slide that positioning and guiding is carried out to the hauling rope or transmission shaft.

5. the reciprocating intelligent aerating system of one kind according to claim 1, it is characterised in that：The aerator be in, Pore type plate-type aerator or tube aerator.

6. according to a kind of reciprocating intelligent aerating system of claim 1-5 any one of them, it is characterised in that：The air supply pipe The gas supply supervisor being connect with air feeder including one end, at least gas manifold being located on the gas supply supervisor, the aeration Device is located on the gas manifold, and air is transported to after the gas manifold again by gas supply supervisor through the aeration Device enters in water.

7. the reciprocating intelligent aerating system of one kind according to claim 6, it is characterised in that：The gas supply supervisor is flexibility Pipeline, the gas manifold are flexible duct or rigid conduit.

8. the reciprocating intelligent aerating system of one kind according to claim 6, it is characterised in that：The gas manifold with it is described Geometrical clamp is equipped between sliding block, the gas manifold is fixed on by the geometrical clamp on the sliding block.

9. the reciprocating intelligent aerating system of one kind according to claim 1, it is characterised in that：It is additionally provided in the aeration tank Oxygen probe is dissolved, the dissolving oxygen probe includes dissolved oxygen detection analysis instrument, connect with the dissolved oxygen detection analysis instrument Dissolved oxygen probe, the dissolved oxygen probe gos deep into the sewage in aeration tank.

10. the reciprocating intelligent aerating system of one kind according to claim 9, it is characterised in that：The control device, gas supply It is wirelessly or non-wirelessly controlled by control terminal between machine and dissolving oxygen probe, shifting of the control device to the aerator The knot that dynamic speed and the air supply pipe detect the air demand size of the aerator by the dissolving oxygen probe Fruit automatically adjusts control.