CN110125116A - A kind of ancillary equipment for water treatment plant aeration tank - Google Patents

Abstract

The invention discloses a kind of ancillary equipments for water treatment plant aeration tank, wherein cleaning disk includes: cleaning disk three-level intake pool, cleaning disk second level intake pool, cleaning disk level-one intake pool, cleaning disk filter device outlet pipe, cleaning disk water supplying pipe, cleaning disk filter device；The cleaning disk second level intake pool is located inside cleaning disk three-level intake pool, disk level-one intake pool is cleaned to be located inside cleaning disk second level intake pool, the diameter and height for wherein cleaning disk level-one intake pool are less than cleaning disk second level intake pool, and the diameter and height for cleaning disk second level intake pool are less than cleaning disk three-level intake pool again；The cleaning disk level-one intake pool and cleaning disk second level intake pool are open top structure, and cleaning disk three-level intake pool is top closed structure.A kind of ancillary equipment for water treatment plant aeration tank of the present invention, structure is relatively easy, and installation operation is convenient, and construction cost is moderate, and intelligence degree is high；The device cleaning speed is fast, and cleaning effect is good.

Description

A kind of ancillary equipment for water treatment plant aeration tank

Technical field

The invention belongs to water treatment plants for field, and in particular to a kind of ancillary equipment for water treatment plant aeration tank.

Background technique

Large-scale water treatment plant aeration tank is either during capital construction or the equipment operation phase, for a period of time when aeration heats Multi units tube row's amount of scale buildup must all be cleaned after reaching certain thickness.In traditional technology, pipe row organizes cleaning and need to build in aeration tank Complicated scavenger circuit is stood, scavenger circuit is formed by steel-pipe welding, and in addition scavenger circuit will connect various cleaning equipments, to be formed A set of aeration tank cleaning device.When for pressing the above aeration tank in cleaning, although the scavenger circuit can satisfy various aerations The cleaning requirement in pond, but for the high pressure water treatment aeration of 0.20MPa heating multi units tube row when, due to cleaning system structure mistake In complexity, processing and installation all time and effort consumings.This aeration tank cleaning device, the set-up time is long, it is long to remove the time, it is difficult to meet The production requirement of client.Moreover, this aeration tank cleaning device construction cost is high, daily preservation land occupation is larger, inconvenient for use.

Summary of the invention

In order to solve the above technical problem, the present invention provides a kind of ancillary equipments for water treatment plant aeration tank, comprising: Casing 1, solar collecting device 2, signal receiver 3, adsorbent equipment 4 of creeping, cleaning device 5, spot detector 6, intelligence are controlled System 7 processed；It is characterized in that, 1 upper surface of casing is equipped with solar collecting device 2,2 side of solar collecting device Equipped with signal receiver 3, the adsorbent equipment 4 of creeping is located at 1 apex angle surface of casing, and 4 quantity of adsorbent equipment of creeping is 4 groups, institute It states cleaning device 5 to be located inside casing 1,5 lower surface of cleaning device is equipped with spot detector 6, and the intelligence control system 7 is hand Hold formula control；The solar collecting device 2, signal receiver 3 and spot detector 6 are wireless with intelligence control system 7 respectively Control connection.

Further, this section is the explanation to heretofore described 4 structure of adsorbent equipment of creeping.The adsorbent equipment of creeping 4 include: the fixation wall 4-1 that creeps, and creep forearm 4-2, and preposition telescoping cylinder 4-3, creep rear wall 4-4, postposition telescoping cylinder 4-5, fixed Disk 4-6, sucker 4-7, connecting flange 4-8, damping spring 4-9；The end fixation wall 4-1 of creeping is equipped with the forearm 4-2 that creeps, institute Creep forearm 4-2 and fixation wall 4-1 rotation connection of creeping are stated, creeps and is equipped with preposition stretch between forearm 4-2 and the fixation wall 4-1 that creeps Contracting cylinder 4-3, the preposition telescoping cylinder 4-3 are connect with 7 wireless control of intelligence control system；The rear wall 4-4 that creeps, which is located at, to creep The end forearm 4-2, creep rear wall 4-4 and forearm 4-2 rotation connection of creeping, creeps and is equipped between rear wall 4-4 and the forearm 4-2 that creeps Postposition telescoping cylinder 4-5, the postposition telescoping cylinder 4-5 are connect with 7 wireless control of intelligence control system；The fixed disk 4-6 is located at It creeps the lower surface rear wall 4-4, sucker 4-7 is equipped with below fixed disk 4-6, passes through connection between the sucker 4-7 and fixed disk 4-6 Flange 4-8 is fixedly connected；The one end the damping spring 4-9 is connected and fixed disk 4-6, the damping spring 4-9 other end and connecting flange 4-8 connection.

Further, this section is the explanation to heretofore described fixation wall 4-1 structure of creeping.The fixation wall 4- that creeps 1 includes: the creep U-shaped shell 4-1-1 of fixation wall, vertical rotation axis 4-1-2, vertical rotation axis fixture block 4-1-3, horizontal rotating shaft 4-1- 4, circular radiating pipe group 4-1-5, water inlet solenoid valve 4-1-6, fixation wall of creeping water inlet 4-1-7, water outlet solenoid valve 4-1- 8, fixation wall of creeping water outlet 4-1-9；Horizontal rotating shaft 4- is equipped between the body of the two sides fixation wall of the creeping U-shaped shell 4-1-1 1-4, horizontal rotating shaft 4-1-4 and the U-shaped shell 4-1-1 of fixation wall of creeping are rotatablely connected；The circular radiating pipe group 4-1-5 is socketed in The both ends horizontal rotating shaft 4-1-4, and circular radiating pipe group 4-1-5 is located inside the U-shaped shell 4-1-1 of fixation wall that creeps, circular radiating The side of pipe group 4-1-5 is equipped with the fixation wall water inlet 4-1-7 that creeps, and the other side of circular radiating pipe group 4-1-5, which is equipped with, creeps admittedly Determine wall water outlet 4-1-9；Described creep and creeps fixation wall water outlet 4-1-9 and circular radiating at fixation wall water inlet 4-1-7 Pipe group 4-1-5 perforation connection, fixation wall of the creeping top water inlet 4-1-7 are equipped with water inlet solenoid valve 4-1-6, and fixation wall of creeping goes out The mouth of a river top 4-1-9 is equipped with water outlet solenoid valve 4-1-8；The water inlet solenoid valve 4-1-6 and water outlet solenoid valve 4-1-8 points It is not connect with 7 wireless control of intelligence control system；It is U-shaped that the vertical rotation axis fixture block 4-1-3 is fixedly connected on fixation wall of creeping The side shell 4-1-1, the quantity of vertical rotation axis fixture block 4-1-3 are 2, are equipped between adjacent upright rotation axis fixture block 4-1-3 perpendicular Straight rotation axis 4-1-2, vertical rotation axis 4-1-2 and vertical rotation axis fixture block 4-1-3 rotation connection.

Further, this section is the explanation to heretofore described preposition telescoping cylinder 4-3 structure.The preposition telescoping cylinder 4- 3 include: preposition telescoping cylinder pinning 4-3-1, telescoping cylinder hydraulic mechanism 4-3-2；The preposition telescoping cylinder pinning 4-3-1 is located at level On rotation axis 4-1-4, preposition telescoping cylinder pinning 4-3-1 and horizontal rotating shaft 4-1-4 are rotatablely connected；The preposition telescoping cylinder pinning The side of 4-3-1 is equipped with telescoping cylinder hydraulic mechanism 4-3-2, one end of telescoping cylinder hydraulic mechanism 4-3-2 and preposition telescoping cylinder pinning 4-3-1 is fixedly connected, the other end of telescoping cylinder hydraulic mechanism 4-3-2 and forearm 4-2 rotation connection of creeping.

Further, this section is the explanation to heretofore described telescoping cylinder hydraulic mechanism 4-3-3 structure.The telescoping cylinder Hydraulic mechanism 4-3-3 includes: hydraulic mechanism shell 4-3-3-1,1# oil inlet port 4-3-3-2,1# inlet valve 4-3-3-3, hydraulic Mechanism oil pump 4-3-3-4 leads to beam hanger 4-3-3-5, piston left chamber 4-3-3-6,2# inlet valve 4-3-3-7,2# oil inlet port 4-3-3-8, hydraulic mechanism telescopic rod 4-3-3-9, hydraulic mechanism mobile piston 4-3-3-10, piston right chamber 4-3-3-11, Hydraulic mechanism tail portion pinning 4-3-3-12；One end of the hydraulic mechanism shell 4-3-3-1 is fixedly connected on preposition telescoping cylinder lock The side 4-3-2 is followed closely, hydraulic mechanism shell 4-3-3-1 is hollow structure；The mobile piston 4-3-3-10 of the hydraulic mechanism is located at liquid Inside press mechanism shell 4-3-3-1, the mobile piston 4-3-3-10 of hydraulic mechanism and the sliding of hydraulic mechanism shell 4-3-3-1 inner wall connect Connect, the mobile piston 4-3-3-10 of hydraulic mechanism will be divided into inside hydraulic mechanism shell 4-3-3-1 piston left chamber 4-3-3-6 and Piston right chamber 4-3-3-11；The hydraulic mechanism telescopic rod 4-3-3-9 is located in piston left chamber 4-3-3-6, hydraulic One end of mechanism telescopic rod 4-3-3-9 is fixedly connected with the mobile piston 4-3-3-10 of hydraulic mechanism, hydraulic mechanism telescopic rod 4-3- The other end of 3-9 is fixedly connected with hydraulic mechanism tail portion pinning 4-3-3-12, wherein hydraulic mechanism tail portion pinning 4-3-3-12 with It creeps forearm 4-2 connection；The 1# inlet valve 4-3-3-3 and 2# inlet valve 4-3-3-7 is respectively provided at hydraulic mechanism shell 4-3- The both ends of the side 3-1,1# oil inlet port 4-3-3-2 are penetrated through by 1# inlet valve 4-3-3-3 and piston right chamber 4-3-3-11 Connection, 2# inlet valve 4-3-3-7 are connected by 2# oil inlet port 4-3-3-8 and piston left chamber 4-3-3-6 perforation；The liquid Press mechanism oil pump 4-3-3-4 is located at the 1# oil inlet port side 4-3-3-2, hydraulic mechanism oil pump 4-3-3-4 and 1# oil inlet port 4- 3-3-2 perforation connection；1# inlet valve 4-3-3-3,2# inlet valve 4-3-3-7 and hydraulic mechanism oil pump 4-3-3-4 is and intelligence It can control the connection of 7 wireless control of system.

Further, this section is the explanation to heretofore described sucker 4-7 structure.The sucker 4-7 includes: that sucker is inhaled Attached bottom surface 4-7-1 adsorbs the curved shape conduit 4-7-2 in bottom surface, air volume regulating device 4-7-3, sucker ventilation block 4-7-4, horizontal gas Delivery pipe 4-7-5, sucker ventilation alms bowl 4-7-6, sucker air inlet pipe 4-7-7, sucker air cleaning device 4-7-8；The sucker is inhaled Attached bottom surface 4-7-1 is located at the bottom entire sucker 4-7, and sucker suction bottom surface 4-7-1 is umbrella-shaped structure；The curved shape in the absorption bottom surface is led Pipe 4-7-2 is located above the 4-7-1 of sucker suction bottom surface, adsorbs bottom end and the sucker suction bottom surface 4- of the curved shape conduit 4-7-2 in bottom surface 7-1 connection, and gas transmission and pumping are carried out to sucker suction bottom surface 4-7-1；It is curved that the sucker ventilation block 4-7-4 is located at absorption bottom surface The quantity of the shape top conduit 4-7-2 side, sucker ventilation block 4-7-4 is 2, fixed between adjacent sucker ventilation block 4-7-4 to connect It is connected to horizontal gas delivery pipe 4-7-5；One end of the horizontal gas delivery pipe 4-7-5 passes through left side sucker ventilation block 4-7-4 It is connected with the curved shape conduit 4-7-2 perforation in absorption bottom surface, the other end and sucker ventilation the alms bowl 4-7-6 of horizontal gas delivery pipe 4-7-5 Perforation connection, wherein sucker ventilation alms bowl 4-7-6 is located inside right side sucker ventilation block 4-7-4；The air volume regulating device 4-7-3 It is fixedly connected on above sucker ventilation block 4-7-4, air volume regulating device 4-7-3 is connect with 7 wireless control of intelligence control system；Institute State sucker air inlet pipe 4-7-7 be located at right side sucker ventilation block 4-7-4 outside side, the both ends of sucker air inlet pipe 4-7-7 respectively with Sucker ventilation alms bowl 4-7-6 and sucker air cleaning device 4-7-8 perforation connects, and wherein sucker air cleaning device 4-7-8 is located at On the right side of sucker air inlet pipe 4-7-7.

Further, this section is the explanation to heretofore described sucker air cleaning device 4-7-8 structure.The sucker Air cleaning device 4-7-8 includes: cleaning device blowing mouth 4-7-8-1, cleaning device shell 4-7-8-2, the slow drop plate of waveform Group 4-7-8-3, impurity absorption block 4-7-8-4, gas filtration net 4-7-8-5, clean liquid pump 4-7-8-6, cleaning solution ingress pipe 4- 7-8-7, cleaning device gas outlet 4-7-8-8, outlet velar plate 4-7-8-9, cover board rot 4-7-8-10；The cleaning device The side of shell 4-7-8-2 is equipped with cleaning device blowing mouth 4-7-8-1, cleaning device blowing mouth 4-7-8-1 and cleaning device shell Body 4-7-8-2 internal run-through, cleaning device shell 4-7-8-2 are cuboid hollow structure；The cleaning device gas outlet 4-7- 8-8 is located at the top cleaning device shell 4-7-8-2, inside cleaning device gas outlet 4-7-8-8 and cleaning device shell 4-7-8-2 It penetrates through, outlet velar plate 4-7-8-9 is equipped at the port 4-7-8-8 of cleaning device gas outlet；The outlet velar plate 4-7-8-9's Side is equipped with cover board rot 4-7-8-10, and cover board rot 4-7-8-10 axis is fixedly connected with outlet velar plate 4-7-8-9, Outlet velar plate 4-7-8-9 is opened or closed under the action of cover board rot 4-7-8-10, cover plate rot 4-7-8- 10 connect with 7 wireless control of intelligence control system；The slow drop board group 4-7-8-3 of the waveform is located at cleaning device shell 4-7-8- Inside 2, the quantity of the slow drop board group 4-7-8-3 of waveform is 2 groups；The impurity absorption block 4-7-8-4 is located at the slow drop plate of waveform The group lower part 4-7-8-3, the quantity of impurity absorption block 4-7-8-4 are 4, and the impurity absorption block 4-7-8-4 is by porosity activity Charcoal pressing mold forms, and equidistantly distributes between other impurities Attraction block 4-7-8-4, and gas is equipped with below impurity absorption block 4-7-8-4 Filter screen 4-7-8-5；The slow drop board group 4-7-8-3 of the waveform, impurity absorption block 4-7-8-4 and gas filter screen 4-7-8-5 It is fixedly connected with cleaning device shell 4-7-8-2 inner wall；The cleaning liquid pump 4-7-8-6 is located at cleaning device shell 4-7-8- 2 outsides side, cleaning liquid pump 4-7-8-6 are connect with cleaning device shell 4-7-8-2 by cleaning solution ingress pipe 4-7-8-7, and Cleaning solution one end ingress pipe 4-7-8-7 and cleaning device shell 4-7-8-2 internal run-through, and sanitizer cartridge is scattered in the form of water mist It sets inside shell 4-7-8-2；The cleaning liquid pump 4-7-8-6 is connect with 7 wireless control of intelligence control system.

Further, this section is the explanation to heretofore described connecting flange 4-8 structure.The connecting flange 4-8 packet It includes: connecting flange external disk 4-8-1, anti-deformation steel plate 4-8-2；The connecting flange external disk 4-8-1 is cylindrical-shaped structure, connection method Blue external disk 4-8-1 with a thickness of 5cm~8cm, the diameter of connecting flange external disk 4-8-1 is 25cm~40cm；The Anti-deformation steel Plate 4-8-2 is located inside connecting flange external disk 4-8-1, and anti-deformation steel plate 4-8-2 is round reticular structure, anti-deformation steel plate 4-8- 2 diameter is less than the diameter of connecting flange external disk 4-8-1, and the quantity of anti-deformation steel plate 4-8-2 is 2, adjacent anti-deformation steel plate The distance between 4-8-2 is 2cm~4cm.

Further, this section is the explanation to heretofore described damping spring 4-9 structure.The damping spring 4-9 packet It includes: damping spring mandril 4-9-1, spring body 4-9-2, damping spring air cooling equipment 4-9-3, damping spring collet 4-9-4；It is described Damping spring collet 4-9-4 is located at the bottom entire damping spring 4-9, and the damping spring two sides collet 4-9-4 and connecting flange 4-8 connect It connects；The damping spring air cooling equipment 4-9-3 is located above damping spring collet 4-9-4, and damping spring air cooling equipment 4-9-3 Bottom is fixedly connected with damping spring collet 4-9-4；The spring body 4-9-2 is located at outside damping spring air cooling equipment 4-9-3, The diameter of spring body 4-9-2 is greater than the diameter of damping spring air cooling equipment 4-9-3, the bottom end spring body 4-9-2 and damping spring wind The bottom device for cooling 4-9-3 is fixedly connected；The damping spring mandril 4-9-1 is fixedly connected on the top spring body 4-9-2, damping bullet The spring two sides mandril 4-9-1 are connect with fixed disk 4-6.

Further, this section is the explanation to heretofore described damping spring mandril 4-9-1 structure.The damping spring Mandril 4-9-1 includes: that damping spring mandril pushes main shaft 4-9-1-1, damping spring mandril cooling system 4-9-1-2, damping bullet Spring mandril fixes horizontal axis 4-9-1-3, damping spring mandril briquetting 4-9-1-4, damping spring mandril fastening bolt 4-9-1-5, damping Spring spindle platen 4-9-1-6；The fixed horizontal axis 4-9-1-3 of the damping spring mandril is located at damping spring mandril and pushes main shaft 4- 9-1-1 axis body top, the fixed horizontal axis 4-9-1-3 of damping spring mandril it is vertical with damping spring mandril pushing main shaft 4-9-1-1 and Connection；The damping spring mandril briquetting 4-9-1-4 is located at the fixed both ends horizontal axis 4-9-1-3 of damping spring mandril, damping spring The outside of mandril briquetting 4-9-1-4 is equipped with damping spring mandril fastening bolt 4-9-1-5, damping spring mandril fastening bolt 4-9-1-5 Quantity with damping spring mandril briquetting 4-9-1-4 is 2, and damping spring mandril fastening bolt 4-9-1-5 and damping spring Mandril briquetting 4-9-1-4 is connect with the fixed horizontal axis 4-9-1-3 of damping spring mandril；The damping spring mandril cooling system 4- 9-1-2 is located at damping spring mandril and pushes inside main shaft 4-9-1-1；The damping spring mandril platen 4-9-1-6 is fixedly connected Main shaft 4-9-1-1 axis body lower part is pushed in damping spring mandril.

Further, this section is the explanation to heretofore described damping spring mandril cooling system 4-9-1-2 structure.Institute Stating damping spring mandril cooling system 4-9-1-2 includes: cooling system shell 4-9-1-2-1, coolant return line 4-9-1-2- 2, cooling system postposition follower 4-9-1-2-3, cooling system liner 4-9-1-2-4, cooling system annular additive charging point 4-9-1-2-5, cooling system homogeneous device 4-9-1-2-6, cooling system water feed apparatus 4-9-1-2-7；In the cooling system Gallbladder 4-9-1-2-4 is located inside cooling system shell 4-9-1-2-1, cooling system liner 4-9-1-2-4 and cooling system shell 4-9-1-2-1 is cylindrical hollow configuration, cooling system liner 4-9-1-2-4 up and down, cooling system liner 4-9-1- The diameter of 2-4 is less than the diameter of cooling system shell 4-9-1-2-1；The cooling system liner 4-9-1-2-4 inner upper is set There is cooling system annular additive charging point 4-9-1-2-5, goes out liquid on cooling system annular additive charging point 4-9-1-2-5 Mouthful with cooling system liner 4-9-1-2-4 internal run-through, inlet on cooling system annular additive charging point 4-9-1-2-5 It pumps and connects with external additive；It is equal that the lower section of the cooling system annular additive charging point 4-9-1-2-5 is equipped with cooling system The diameter of matter device 4-9-1-2-6, cooling system homogeneous device 4-9-1-2-6 and cooling system liner 4-9-1-2-4 diameter are big Small consistent, cooling system homogeneous device 4-9-1-2-6 is made of multiple channels up and down；The cooling system water feed apparatus 4- 9-1-2-7 is located at the lower part cooling system shell 4-9-1-2-1, and one end of cooling system water feed apparatus 4-9-1-2-7 passes through cooling The bottom system shell 4-9-1-2-1 is simultaneously inserted into cooling system liner 4-9-1-2-4；The coolant return line 4-9-1-2-2 Set on the top cooling system shell 4-9-1-2-1, one end of coolant return line 4-9-1-2-2 and cooling system liner 4-9-1- 2-4 perforation, the other end and cooling system postposition follower 4-9-1-2-3 of coolant return line 4-9-1-2-2 penetrates through, wherein cold But system postposition follower 4-9-1-2-3 is connected to the top coolant return line 4-9-1-2-2.

Further, this section is the explanation to heretofore described cooling system postposition follower 4-9-1-2-3 structure.Institute Stating cooling system postposition follower 4-9-1-2-3 includes: postposition conveyer shell 4-9-1-2-3-1, postposition conveyer stationary cylinder Ring 4-9-1-2-3-2, catalyst inlet 4-9-1-2-3-3, postposition conveyer paddle 4-9-1-2-3-4, postposition conveyer Inlet 4-9-1-2-3-5, postposition conveyer liquid outlet 4-9-1-2-3-6, postposition conveyor motor 4-9-1-2-3-7, postposition Conveyer shaft 4-9-1-2-3-8；The postposition conveyer inlet 4-9-1-2-3-5 and postposition conveyer liquid outlet 4-9-1- 2-3-6 is respectively provided at the both ends of postposition conveyer shell 4-9-1-2-3-1, and both with postposition conveyer shell 4-9-1-2- 3-1 internal run-through, the hollow tubular structure that wherein postposition conveyer shell 4-9-1-2-3-1 is arranged horizontally；The postposition is defeated Device shaft 4-9-1-2-3-8 is sent to be located inside postposition conveyer shell 4-9-1-2-3-1, postposition conveyer shaft 4-9-1-2-3- 8 two sides are equipped with postposition conveyor motor 4-9-1-2-3-7, postposition conveyor motor 4-9-1-2-3-7 and postposition conveyer shaft 4-9-1-2-3-8 rotation connection, and postposition conveyor motor 4-9-1-2-3-7 is connect with 7 wireless control of intelligence control system；Institute The both ends for stating postposition conveyer shaft 4-9-1-2-3-8 are equipped with postposition conveyer paddle 4-9-1-2-3-4, and postposition conveyer stirs It mixes leaf 4-9-1-2-3-4 to be fixedly connected with postposition conveyer shaft 4-9-1-2-3-8, every end postposition conveyer paddle 4-9-1- The quantity of 2-3-4 is no less than 20；The middle part of the postposition conveyer shell 4-9-1-2-3-1 is equipped with catalyst inlet 4-9- 1-2-3-3, catalyst inlet 4-9-1-2-3-3 and postposition conveyer shell 4-9-1-2-3-1 perforation, catalyst inlet 4- The quantity of 9-1-2-3-3 is 4；The fixed cylinder ring 4-9-1-2-3-2 of the postposition conveyer is fixedly connected on postposition conveyer shell On body 4-9-1-2-3-1 outer wall, the quantity of the fixed cylinder ring 4-9-1-2-3-2 of postposition conveyer is 3, and adjacent postposition conveyer is solid Determine to equidistantly distribute between cylinder ring 4-9-1-2-3-2.

Further, this section is the explanation to heretofore described cooling system water feed apparatus 4-9-1-2-7 structure.It is described Cooling system water feed apparatus 4-9-1-2-7 includes: cooling system inlet pipe 4-9-1-2-7-1, cooling system inlet pipe solenoid valve 4-9- 1-2-7-2, cooling water conveying box 4-9-1-2-7-3, cooling water conveying box base station 4-9-1-2-7-4, top rush nut cap 4-9-1-2- 7-5, cooling system outlet pipe 4-9-1-2-7-6, cooling system branch pipe 4-9-1-2-7-7, cooling system branch pipe solenoid valve 4-9-1- 2-7-8；The cooling system inlet pipe 4-9-1-2-7-1 is located at below cooling water conveying box base station 4-9-1-2-7-4, and cooling water is defeated Case 4-9-1-2-7-3 is sent to be fixedly connected on above cooling water conveying box base station 4-9-1-2-7-4, cooling system inlet pipe 4-9-1-2- One end of 7-1 passes through cooling water conveying box base station 4-9-1-2-7-4 and cooling water conveying box 4-9-1-2-7-3 perforation and connects；Institute It states cooling system inlet pipe solenoid valve 4-9-1-2-7-2 to be located on cooling system inlet pipe 4-9-1-2-7-1, cooling system inlet pipe electromagnetism Valve 4-9-1-2-7-2 is connect with 7 wireless control of intelligence control system；The cooling system outlet pipe 4-9-1-2-7-6 is located at cooling Above water conveying box 4-9-1-2-7-3, cooling system outlet pipe 4-9-1-2-7-6 and cooling water conveying box 4-9-1-2-7-3 are penetrated through Connection, the top of cooling system outlet pipe 4-9-1-2-7-6 is equipped with top and rushes nut cap 4-9-1-2-7-5, between the two at a distance of 50cm；Institute It states cooling system branch pipe 4-9-1-2-7-7 and is fixedly connected on the two sides cooling water conveying box 4-9-1-2-7-3, and cooling system branch pipe 4-9-1-2-7-7 and cooling water conveying box 4-9-1-2-7-3 is penetrated through, and every side cooling system branch pipe 4-9-1-2-7-7 is equipped with cold But system branch pipe solenoid valve 4-9-1-2-7-8, wherein cooling system branch pipe solenoid valve 4-9-1-2-7-8 and intelligence control system 7 Wireless control connection.

Further, this section is the explanation to heretofore described damping spring air cooling equipment 4-9-3 structure.The damping Spring air cooling equipment 4-9-3 includes: air cooling equipment pedestal 4-9-3-1, air cooling equipment relieve heat pipe 4-9-3-2, cold wind relief hole 4- 9-3-3, air cooling equipment standpipe 4-9-3-4, cold wind distributor 4-9-3-5, air cooling equipment blast pipe 4-9-3-6；The cold wind point Orchestration 4-9-3-5 is located at air cooling equipment pedestal 4-9-3-1 inside center, and air cooling equipment pedestal 4-9-3-1 is cylindrical hollow Structure；The air cooling equipment blast pipe 4-9-3-6 is inserted into from air cooling equipment pedestal 4-9-3-1 outer wall side, and is distributed with cold wind The perforation connection of the bottom device 4-9-3-5；The air cooling equipment standpipe 4-9-3-4 is located above cold wind distributor 4-9-3-5, air-cooled dress It sets standpipe 4-9-3-4 and cold wind distributor 4-9-3-5 perforation to connect, air cooling equipment standpipe 4-9-3-4 is hollow structure；It is described cold The device upper end standpipe 4-9-3-4 is equipped with cold wind relief hole 4-9-3-3, and the quantity of cold wind relief hole 4-9-3-3 is 6, adjacent cold It is equidistantly distributed between wind relief hole 4-9-3-3；The air cooling equipment relieve heat pipe 4-9-3-2 is located at air cooling equipment standpipe 4-9-3- It is uncovered structure at the top of air cooling equipment relieve heat pipe 4-9-3-2 outside 4, the diameter of air cooling equipment relieve heat pipe 4-9-3-2 is greater than air-cooled The diameter of device standpipe 4-9-3-4, forms cold air duct between the two, and cold air duct and cold wind distributor 4-9-3-5 are penetrated through.

Further, this section is the explanation to heretofore described 5 structure of cleaning device.The cleaning device 5 includes: clear Motor 5-1, impeller unit 5-2, gear train 5-3 are washed, disk 5-4, cleaning brush 5-5, water system 5-6 are cleaned；The cleaning electricity Machine 5-1 is connect with 7 wireless control of intelligence control system, and cleaning motor 5-1 output end is equipped with impeller unit 5-2；The gear train System 5-3 is located at below impeller unit 5-2, and gear train 5-3 engages connection with cleaning motor 5-1 output main shaft；The cleaning disk 5-4 is located at the lower surface gear train 5-3, and cleaning disk 5-4 quantity is 3 groups, and the cleaning lower surface disk 5-4 is equipped with cleaning brush 5-5；It is described Water system 5-6 is located at the upper surface gear train 5-3, and water system 5-6 is mutually communicated with cleaning disk 5-4.

Further, this section is the explanation to heretofore described cleaning disk 5-4 structure.The cleaning disk 5-4 includes: clear Dishwashing three-level intake pool 5-4-1 cleans disk second level intake pool 5-4-2, cleans disk level-one intake pool 5-4-3, cleaning disk filtering dress Outlet pipe 5-4-4 is set, disk water supplying pipe 5-4-5 is cleaned, cleans disk filter device 5-4-6；The cleaning disk second level intake pool 5-4-2 Inside cleaning disk three-level intake pool 5-4-1, cleaning disk level-one intake pool 5-4-3 is located at cleaning disk second level intake pool 5-4-2 Disk two is cleaned wherein the diameter of cleaning disk level-one intake pool 5-4-3 and height are less than cleaning disk second level intake pool 5-4-2 in inside The diameter and height of grade intake pool 5-4-2 is less than cleaning disk three-level intake pool 5-4-1 again；The cleaning disk level-one intake pool 5-4- 3 and cleaning disk second level intake pool 5-4-2 is open top structure, and cleaning disk three-level intake pool 5-4-1 is top closed structure, It cleans the disk three-level bottom intake pool 5-4-1 and is equipped with spray apertures；The cleaning disk filter device 5-4-6 is located at cleaning disk level-one water inlet At the 5-4-3 inside center of pond, the side of cleaning disk filter device 5-4-6 is connected with cleaning disk filter device outlet pipe 5-4-4, clearly The both ends of dishwashing filter device outlet pipe 5-4-4 respectively with cleaning disk filter device 5-4-6 and clean disk level-one intake pool 5-4-3 Perforation；The cleaning disk water supplying pipe 5-4-5 is located at the cleaning top disk three-level intake pool 5-4-1, cleans the one of disk water supplying pipe 5-4-5 End is connected with water system 5-6 perforation, and the other end and cleaning disk filter device 5-4-6 perforation for cleaning disk water supplying pipe 5-4-5 connect It connects.

A kind of ancillary equipment for water treatment plant aeration tank disclosed in the invention patent, the advantage is that: the device knot Structure is rationally compact, and cleaning effect is good；The device cleaning brush is prepared using high molecular material, and cleaning speed enhancing rate is high.

Detailed description of the invention

Fig. 1 is a kind of heretofore described ancillary equipment schematic diagram for water treatment plant aeration tank.

Fig. 2 is heretofore described 4 structural schematic diagram of adsorbent equipment of creeping.

Fig. 3 is heretofore described fixation wall 4-1 schematic diagram of creeping.

Fig. 4 is heretofore described preposition telescoping cylinder 4-3 schematic diagram.

Fig. 5 is heretofore described telescoping cylinder hydraulic mechanism 4-3-3 schematic diagram.

Fig. 6 is heretofore described sucker 4-7 schematic diagram.

Fig. 7 is heretofore described sucker air cleaning device 4-7-8 schematic diagram.

Fig. 8 is heretofore described connecting flange 4-8 schematic diagram.

Fig. 9 is heretofore described damping spring 4-9 schematic diagram.

Figure 10 is heretofore described damping spring mandril 4-9-1 schematic diagram.

Figure 11 is heretofore described damping spring mandril cooling system 4-9-1-2 schematic diagram.

Figure 12 is heretofore described cooling system postposition follower 4-9-1-2-3 schematic diagram.

Figure 13 is heretofore described cooling system water feed apparatus 4-9-1-2-7 schematic diagram.

Figure 14 is heretofore described damping spring air cooling equipment 4-9-3 schematic diagram.

Figure 15 is heretofore described 5 structural schematic diagram of cleaning device.

Figure 16 is heretofore described cleaning disk 5-4 schematic diagram.

Specific embodiment

With reference to the accompanying drawings and examples to a kind of ancillary equipment for water treatment plant aeration tank provided by the invention into Row further illustrates.

Embodiment

As shown in Figure 1, being a kind of schematic diagram of heretofore described ancillary equipment for water treatment plant aeration tank.Figure In find out, comprising: casing 1, solar collecting device 2, signal receiver 3, adsorbent equipment 4 of creeping, cleaning device 5, spot visit Survey device 6, intelligence control system 7；It is characterized in that, 1 upper surface of casing is equipped with solar collecting device 2, the solar energy 2 side of acquisition device is equipped with signal receiver 3, and the adsorbent equipment 4 of creeping is located at 1 apex angle surface of casing, adsorbent equipment 4 of creeping Quantity is 4 groups, and the cleaning device 5 is located inside casing 1, and 5 lower surface of cleaning device is equipped with spot detector 6, the intelligence Control system 7 is hand-held control；The solar collecting device 2, signal receiver 3 and spot detector 6 respectively with intelligence The connection of 7 wireless control of control system.

As shown in Fig. 2, being heretofore described 4 structural schematic diagram of adsorbent equipment of creeping.As seen from the figure, described to creep Adsorbent equipment 4 includes: the fixation wall 4-1 that creeps, and creep forearm 4-2, and preposition telescoping cylinder 4-3, creep rear wall 4-4, postposition telescoping cylinder 4-5, fixed disk 4-6, sucker 4-7, connecting flange 4-8, damping spring 4-9；The end fixation wall 4-1 of creeping is equipped with before creeping Arm 4-2, creep forearm 4-2 and the fixation wall 4-1 rotation connection of creeping are creeped and are set between forearm 4-2 and the fixation wall 4-1 that creeps There are preposition telescoping cylinder 4-3, the preposition telescoping cylinder 4-3 to connect with 7 wireless control of intelligence control system；The rear wall 4-4 that creeps Positioned at the end forearm 4-2 of creeping, creep rear wall 4-4 and forearm 4-2 rotation connection of creeping, creep the rear wall 4-4 and forearm 4-2 that creeps Between be equipped with postposition telescoping cylinder 4-5, the postposition telescoping cylinder 4-5 connect with 7 wireless control of intelligence control system；The fixed disk 4-6 is located at the lower surface rear wall 4-4 of creeping, and sucker 4-7 is equipped with below fixed disk 4-6, between the sucker 4-7 and fixed disk 4-6 It is fixedly connected by connecting flange 4-8；The one end the damping spring 4-9 is connected and fixed disk 4-6, the damping spring 4-9 other end with Connecting flange 4-8 connection.

As shown in figure 3, being heretofore described fixation wall 4-1 structural schematic diagram of creeping.As seen from the figure, described to creep Fixation wall 4-1 includes: the creep U-shaped shell 4-1-1 of fixation wall, vertical rotation axis 4-1-2, vertical rotation axis fixture block 4-1-3, and level turns Moving axis 4-1-4, circular radiating pipe group 4-1-5, water inlet solenoid valve 4-1-6, fixation wall of creeping water inlet 4-1-7, water outlet electricity Magnet valve 4-1-8, fixation wall of creeping water outlet 4-1-9；Level is equipped between the body of the two sides fixation wall of the creeping U-shaped shell 4-1-1 Rotation axis 4-1-4, horizontal rotating shaft 4-1-4 and the U-shaped shell 4-1-1 of fixation wall of creeping are rotatablely connected；The circular radiating pipe group 4- 1-5 is socketed in the both ends horizontal rotating shaft 4-1-4, and circular radiating pipe group 4-1-5 is located inside the U-shaped shell 4-1-1 of fixation wall that creeps, The side of circular radiating pipe group 4-1-5 is equipped with the fixation wall water inlet 4-1-7 that creeps, and the other side of circular radiating pipe group 4-1-5 is set Fixation wall of creeping water outlet 4-1-9；It is described creep fixation wall water inlet 4-1-7 and creep fixation wall water outlet 4-1-9 with Circular radiating pipe group 4-1-5 perforation connection, fixation wall of the creeping top water inlet 4-1-7 is equipped with water inlet solenoid valve 4-1-6, creeps The fixation wall top water outlet 4-1-9 is equipped with water outlet solenoid valve 4-1-8；The water inlet solenoid valve 4-1-6 and water outlet electromagnetism Valve 4-1-8 is connect with 7 wireless control of intelligence control system respectively；The vertical rotation axis fixture block 4-1-3, which is fixedly connected on, to creep The side fixation wall U-shaped shell 4-1-1, the quantity of vertical rotation axis fixture block 4-1-3 are 2, adjacent upright rotation axis fixture block 4-1-3 it Between be equipped with vertical rotation axis 4-1-2, vertical rotation axis 4-1-2 and vertical rotation axis fixture block 4-1-3 rotation connection.

As shown in figure 4, being heretofore described preposition telescoping cylinder 4-3 structural schematic diagram.As seen from the figure, described preposition Telescoping cylinder 4-3 includes: preposition telescoping cylinder pinning 4-3-1, telescoping cylinder hydraulic mechanism 4-3-2；The preposition telescoping cylinder pinning 4-3-1 It is located on horizontal rotating shaft 4-1-4, preposition telescoping cylinder pinning 4-3-1 and horizontal rotating shaft 4-1-4 are rotatablely connected；It is described preposition to stretch The side of contracting cylinder pinning 4-3-1 is equipped with telescoping cylinder hydraulic mechanism 4-3-2, and one end of telescoping cylinder hydraulic mechanism 4-3-2 is stretched with preposition Contracting cylinder pinning 4-3-1 is fixedly connected, the other end of telescoping cylinder hydraulic mechanism 4-3-2 and forearm 4-2 rotation connection of creeping.

As shown in figure 5, being heretofore described telescoping cylinder hydraulic mechanism 4-3-3 structural schematic diagram.As seen from the figure, institute Stating telescoping cylinder hydraulic mechanism 4-3-3 includes: hydraulic mechanism shell 4-3-3-1,1# oil inlet port 4-3-3-2,1# inlet valve 4-3- 3-3, hydraulic mechanism oil pump 4-3-3-4 lead to beam hanger 4-3-3-5, piston left chamber 4-3-3-6,2# inlet valve 4-3-3-7,2# Oil inlet port 4-3-3-8, hydraulic mechanism telescopic rod 4-3-3-9, hydraulic mechanism mobile piston 4-3-3-10, piston right chamber 4- 3-3-11, hydraulic mechanism tail portion pinning 4-3-3-12；One end of the hydraulic mechanism shell 4-3-3-1 is fixedly connected on preposition stretch The side contracting cylinder pinning 4-3-2, hydraulic mechanism shell 4-3-3-1 are hollow structure；The mobile piston 4-3-3-10 of the hydraulic mechanism Inside hydraulic mechanism shell 4-3-3-1, the mobile piston 4-3-3-10 of hydraulic mechanism and hydraulic mechanism shell 4-3-3-1 inner wall It is slidably connected, the mobile piston 4-3-3-10 of hydraulic mechanism will be divided into piston left chamber 4- inside hydraulic mechanism shell 4-3-3-1 3-3-6 and piston right chamber 4-3-3-11；The hydraulic mechanism telescopic rod 4-3-3-9 is located at piston left chamber 4-3-3-6 Interior, one end of hydraulic mechanism telescopic rod 4-3-3-9 is fixedly connected with the mobile piston 4-3-3-10 of hydraulic mechanism, and hydraulic mechanism is flexible The other end of bar 4-3-3-9 is fixedly connected with hydraulic mechanism tail portion pinning 4-3-3-12, wherein hydraulic mechanism tail portion pinning 4-3- 3-12 is connect with the forearm 4-2 that creeps；The 1# inlet valve 4-3-3-3 and 2# inlet valve 4-3-3-7 is respectively provided at hydraulic mechanism shell The both ends of the side body 4-3-3-1,1# oil inlet port 4-3-3-2 pass through 1# inlet valve 4-3-3-3 and piston right chamber 4-3-3- 11 perforation connections, 2# inlet valve 4-3-3-7 are connected by 2# oil inlet port 4-3-3-8 and piston left chamber 4-3-3-6 perforation； The hydraulic mechanism oil pump 4-3-3-4 is located at the 1# oil inlet port side 4-3-3-2, hydraulic mechanism oil pump 4-3-3-4 and 1# oil inlet Port 4-3-3-2 perforation connection；1# inlet valve 4-3-3-3,2# inlet valve 4-3-3-7 and hydraulic mechanism oil pump 4-3-3-4 It is connect with 7 wireless control of intelligence control system.

As shown in fig. 6, being heretofore described sucker 4-7 structural schematic diagram.As seen from the figure, the sucker 4-7 packet Include: sucker suction bottom surface 4-7-1 adsorbs the curved shape conduit 4-7-2 in bottom surface, air volume regulating device 4-7-3, sucker ventilation block 4-7-4, Horizontal gas delivery pipe 4-7-5, sucker ventilation alms bowl 4-7-6, sucker air inlet pipe 4-7-7, sucker air cleaning device 4-7-8；Institute It states sucker suction bottom surface 4-7-1 and is located at the bottom entire sucker 4-7, sucker suction bottom surface 4-7-1 is umbrella-shaped structure；The absorption bottom The curved shape conduit 4-7-2 in face is located above the 4-7-1 of sucker suction bottom surface, and the bottom end and sucker for adsorbing the curved shape conduit 4-7-2 in bottom surface are inhaled Attached bottom surface 4-7-1 connection, and gas transmission and pumping are carried out to sucker suction bottom surface 4-7-1；The sucker ventilation block 4-7-4 is located at suction The attached curved top the shape conduit 4-7-2 side in bottom surface, the ventilate quantity of block 4-7-4 of sucker is 2, adjacent sucker ventilation block 4-7-4 it Between be fixedly connected with horizontal gas delivery pipe 4-7-5；It is ventilated by left side sucker one end of the horizontal gas delivery pipe 4-7-5 The curved shape conduit 4-7-2 perforation of block 4-7-4 and absorption bottom surface connects, and the other end and sucker of horizontal gas delivery pipe 4-7-5 is ventilated Alms bowl 4-7-6 perforation connection, wherein sucker ventilation alms bowl 4-7-6 is located inside right side sucker ventilation block 4-7-4；The tolerance adjusts dress It sets 4-7-3 to be fixedly connected on above sucker ventilation block 4-7-4, air volume regulating device 4-7-3 and 7 wireless control of intelligence control system Connection；The sucker air inlet pipe 4-7-7 is located at side outside right side sucker ventilation block 4-7-4, the both ends of sucker air inlet pipe 4-7-7 It is connected respectively with sucker ventilation alms bowl 4-7-6 and sucker air cleaning device 4-7-8 perforation, wherein sucker air cleaning device 4-7- 8 are located on the right side of sucker air inlet pipe 4-7-7.

As shown in fig. 7, being heretofore described sucker air cleaning device 4-7-8 structural schematic diagram.As seen from the figure, The sucker air cleaning device 4-7-8 includes: cleaning device blowing mouth 4-7-8-1, cleaning device shell 4-7-8-2, wave Slow drop board group 4-7-8-3, impurity absorption block 4-7-8-4, the gas filtration net 4-7-8-5 of shape, cleans liquid pump 4-7-8-6, cleaning solution Ingress pipe 4-7-8-7, cleaning device gas outlet 4-7-8-8, outlet velar plate 4-7-8-9, cover board rot 4-7-8-10；It is described The side of cleaning device shell 4-7-8-2 is equipped with cleaning device blowing mouth 4-7-8-1, cleaning device blowing mouth 4-7-8-1 and clear Clean device housing 4-7-8-2 internal run-through, cleaning device shell 4-7-8-2 are cuboid hollow structure；The cleaning device goes out Port 4-7-8-8 is located at the top cleaning device shell 4-7-8-2, cleaning device gas outlet 4-7-8-8 and cleaning device shell 4- 7-8-2 internal run-through is equipped with outlet velar plate 4-7-8-9 at the port 4-7-8-8 of cleaning device gas outlet；The outlet velar plate The side of 4-7-8-9 is equipped with cover board rot 4-7-8-10, cover board rot 4-7-8-10 axis and outlet velar plate 4-7-8-9 It is fixedly connected, outlet velar plate 4-7-8-9 is opened or closed under the action of cover board rot 4-7-8-10, cover plate rotation Device 4-7-8-10 is connect with 7 wireless control of intelligence control system；The slow drop board group 4-7-8-3 of the waveform is located at cleaning device shell Inside body 4-7-8-2, the quantity of the slow drop board group 4-7-8-3 of waveform is 2 groups；The impurity absorption block 4-7-8-4 is located at wave The slow drop lower part board group 4-7-8-3 of shape, the quantity of impurity absorption block 4-7-8-4 are 4, and the impurity absorption block 4-7-8-4 is by more Permeability active carbon pressing mold forms, and equidistantly distributes between other impurities Attraction block 4-7-8-4, below impurity absorption block 4-7-8-4 Equipped with gas filtration net 4-7-8-5；The slow drop board group 4-7-8-3 of the waveform, impurity absorption block 4-7-8-4 and gas filter screen 4-7-8-5 is fixedly connected with cleaning device shell 4-7-8-2 inner wall；The cleaning liquid pump 4-7-8-6 is located at cleaning device shell Side outside body 4-7-8-2, cleaning liquid pump 4-7-8-6 and cleaning device shell 4-7-8-2 pass through cleaning solution ingress pipe 4-7-8-7 Connection, and cleaning solution one end ingress pipe 4-7-8-7 and cleaning device shell 4-7-8-2 internal run-through, and dispersed in the form of water mist Inside cleaning device shell 4-7-8-2；The cleaning liquid pump 4-7-8-6 is connect with 7 wireless control of intelligence control system.

As shown in figure 8, being heretofore described connecting flange 4-8 structural schematic diagram.As seen from the figure, the connection method Blue 4-8 includes: connecting flange external disk 4-8-1, anti-deformation steel plate 4-8-2；The connecting flange external disk 4-8-1 is cylindric knot Structure, connecting flange external disk 4-8-1 with a thickness of 5cm~8cm, the diameter of connecting flange external disk 4-8-1 is 25cm~40cm；It is described Anti-deformation steel plate 4-8-2 is located inside connecting flange external disk 4-8-1, and anti-deformation steel plate 4-8-2 is round reticular structure, anti-deformation The diameter of steel plate 4-8-2 is less than the diameter of connecting flange external disk 4-8-1, and the quantity of anti-deformation steel plate 4-8-2 is 2, adjacent anti- The distance between deformed steel flat 4-8-2 is 2cm~4cm.

As shown in figure 9, being heretofore described damping spring 4-9 structural schematic diagram.As seen from the figure, the damping bullet Spring 4-9 includes: damping spring mandril 4-9-1, spring body 4-9-2, damping spring air cooling equipment 4-9-3, damping spring collet 4- 9-4；The damping spring collet 4-9-4 is located at the bottom entire damping spring 4-9, the damping spring two sides collet 4-9-4 with connect Flange 4-8 connection；The damping spring air cooling equipment 4-9-3 is located above damping spring collet 4-9-4, and damping spring is air-cooled The bottom device 4-9-3 is fixedly connected with damping spring collet 4-9-4；The spring body 4-9-2 is located at damping spring air cooling equipment Outside 4-9-3, the diameter of spring body 4-9-2 is greater than the diameter of damping spring air cooling equipment 4-9-3, the bottom end spring body 4-9-2 with The bottom damping spring air cooling equipment 4-9-3 is fixedly connected；The damping spring mandril 4-9-1 is fixedly connected on spring body 4-9-2 Top, the damping spring two sides mandril 4-9-1 are connect with fixed disk 4-6.

It as shown in Figure 10, is heretofore described damping spring mandril 4-9-1 structural schematic diagram.As seen from the figure, institute Stating damping spring mandril 4-9-1 includes: that damping spring mandril pushes main shaft 4-9-1-1, damping spring mandril cooling system 4-9- 1-2, damping spring mandril fixed horizontal axis 4-9-1-3, damping spring mandril briquetting 4-9-1-4, damping spring mandril fastening bolt 4- 9-1-5, damping spring mandril platen 4-9-1-6；The fixed horizontal axis 4-9-1-3 of the damping spring mandril is located at damping spring mandril Main shaft 4-9-1-1 axis body top is pushed, the fixed horizontal axis 4-9-1-3 of damping spring mandril and damping spring mandril push main shaft 4-9- 1-1 is vertical and connects；The damping spring mandril briquetting 4-9-1-4 is located at the fixed both ends horizontal axis 4-9-1-3 of damping spring mandril, The outside of damping spring mandril briquetting 4-9-1-4 is equipped with damping spring mandril fastening bolt 4-9-1-5, damping spring mandril fastening bolt The quantity of 4-9-1-5 and damping spring mandril briquetting 4-9-1-4 are 2, and damping spring mandril fastening bolt 4-9-1-5 with subtract Shake spring spindle briquetting 4-9-1-4 is connect with the fixed horizontal axis 4-9-1-3 of damping spring mandril；The damping spring mandril is cooling System 4-9-1-2 is located at damping spring mandril and pushes inside main shaft 4-9-1-1；The damping spring mandril platen 4-9-1-6 is solid Surely it is connected to damping spring mandril and pushes main shaft 4-9-1-1 axis body lower part.

It as shown in figure 11, is heretofore described damping spring mandril cooling system 4-9-1-2 structural schematic diagram.From figure In find out, the damping spring mandril cooling system 4-9-1-2 includes: cooling system shell 4-9-1-2-1, coolant return line 4-9-1-2-2, cooling system postposition follower 4-9-1-2-3, cooling system liner 4-9-1-2-4, the addition of cooling system annular Agent charging point 4-9-1-2-5, cooling system homogeneous device 4-9-1-2-6, cooling system water feed apparatus 4-9-1-2-7；It is described cold But system liner 4-9-1-2-4 is located inside cooling system shell 4-9-1-2-1, cooling system liner 4-9-1-2-4 and cooling System shell 4-9-1-2-1 is cylindrical hollow configuration, cooling system liner 4-9-1-2-4 up and down, in cooling system The diameter of gallbladder 4-9-1-2-4 is less than the diameter of cooling system shell 4-9-1-2-1；In the cooling system liner 4-9-1-2-4 Cooling system annular additive charging point 4-9-1-2-5, cooling system annular additive charging point 4-9-1-2-5 are equipped with above portion On liquid outlet and cooling system liner 4-9-1-2-4 internal run-through, on cooling system annular additive charging point 4-9-1-2-5 Inlet and external additive pump connect；The lower section of the cooling system annular additive charging point 4-9-1-2-5 is equipped with cold But the diameter and cooling system liner 4-9-1-2- of system homogeneous device 4-9-1-2-6, cooling system homogeneous device 4-9-1-2-6 4 diameters are consistent, and cooling system homogeneous device 4-9-1-2-6 is made of multiple channels up and down；The cooling system into Water installations 4-9-1-2-7 is located at the lower part cooling system shell 4-9-1-2-1, one end of cooling system water feed apparatus 4-9-1-2-7 Across the cooling system bottom shell 4-9-1-2-1 and it is inserted into cooling system liner 4-9-1-2-4；The coolant return line 4- 9-1-2-2 is in the top cooling system shell 4-9-1-2-1, one end and cooling system of coolant return line 4-9-1-2-2 Gallbladder 4-9-1-2-4 perforation, the other end and the cooling system postposition follower 4-9-1-2-3 of coolant return line 4-9-1-2-2 are passed through Logical, wherein cooling system postposition follower 4-9-1-2-3 is connected to the top coolant return line 4-9-1-2-2.

It as shown in figure 12, is heretofore described cooling system postposition follower 4-9-1-2-3 structural schematic diagram.From figure In find out, the cooling system postposition follower 4-9-1-2-3 includes: postposition conveyer shell 4-9-1-2-3-1, postposition conveying Device fixes cylinder ring 4-9-1-2-3-2, catalyst inlet 4-9-1-2-3-3, postposition conveyer paddle 4-9-1-2-3-4, after Set conveyer inlet 4-9-1-2-3-5, postposition conveyer liquid outlet 4-9-1-2-3-6, postposition conveyor motor 4-9-1-2- 3-7, postposition conveyer shaft 4-9-1-2-3-8；The postposition conveyer inlet 4-9-1-2-3-5 and postposition conveyer go out liquid Mouthful 4-9-1-2-3-6 is respectively provided at the both ends of postposition conveyer shell 4-9-1-2-3-1, and both with postposition conveyer shell 4-9-1-2-3-1 internal run-through, the hollow tubular structure that wherein postposition conveyer shell 4-9-1-2-3-1 is arranged horizontally；Institute It states postposition conveyer shaft 4-9-1-2-3-8 to be located inside postposition conveyer shell 4-9-1-2-3-1, postposition conveyer shaft 4- The two sides 9-1-2-3-8 are equipped with postposition conveyor motor 4-9-1-2-3-7, and postposition conveyor motor 4-9-1-2-3-7 and postposition are defeated Device shaft 4-9-1-2-3-8 is sent to be rotatablely connected, and postposition conveyor motor 4-9-1-2-3-7 and 7 wireless controlled of intelligence control system System connection；The both ends of the postposition conveyer shaft 4-9-1-2-3-8 are equipped with postposition conveyer paddle 4-9-1-2-3-4, after It sets conveyer paddle 4-9-1-2-3-4 to be fixedly connected with postposition conveyer shaft 4-9-1-2-3-8, every end postposition conveyer stirs The quantity for mixing leaf 4-9-1-2-3-4 is no less than 20；The middle part of the postposition conveyer shell 4-9-1-2-3-1 is equipped with catalyst Inlet 4-9-1-2-3-3, catalyst inlet 4-9-1-2-3-3 and postposition conveyer shell 4-9-1-2-3-1 perforation, catalysis The quantity of agent inlet 4-9-1-2-3-3 is 4；After the fixed cylinder ring 4-9-1-2-3-2 of the postposition conveyer is fixedly connected on It sets on conveyer shell 4-9-1-2-3-1 outer wall, the quantity of the fixed cylinder ring 4-9-1-2-3-2 of postposition conveyer is 3, after adjacent It sets and is equidistantly distributed between the fixed cylinder ring 4-9-1-2-3-2 of conveyer.

It as shown in figure 13, is heretofore described cooling system water feed apparatus 4-9-1-2-7 structural schematic diagram.From figure Find out, the cooling system water feed apparatus 4-9-1-2-7 includes: cooling system inlet pipe 4-9-1-2-7-1, cooling system inlet pipe electricity Magnet valve 4-9-1-2-7-2, cooling water conveying box 4-9-1-2-7-3, cooling water conveying box base station 4-9-1-2-7-4, top rush nut cap 4-9-1-2-7-5, cooling system outlet pipe 4-9-1-2-7-6, cooling system branch pipe 4-9-1-2-7-7, cooling system branch pipe electromagnetism Valve 4-9-1-2-7-8；The cooling system inlet pipe 4-9-1-2-7-1 is located at below cooling water conveying box base station 4-9-1-2-7-4, Cooling water conveying box 4-9-1-2-7-3 is fixedly connected on above cooling water conveying box base station 4-9-1-2-7-4, cooling system inlet pipe One end of 4-9-1-2-7-1 passes through cooling water conveying box base station 4-9-1-2-7-4 and cooling water conveying box 4-9-1-2-7-3 and penetrates through Connection；The cooling system inlet pipe solenoid valve 4-9-1-2-7-2 is located on cooling system inlet pipe 4-9-1-2-7-1, cooling system Inlet pipe solenoid valve 4-9-1-2-7-2 is connect with 7 wireless control of intelligence control system；The cooling system outlet pipe 4-9-1-2-7-6 It is located above cooling water conveying box 4-9-1-2-7-3, cooling system outlet pipe 4-9-1-2-7-6 and cooling water conveying box 4-9-1-2- 7-3 perforation connection, the top of cooling system outlet pipe 4-9-1-2-7-6 are equipped with top and rush nut cap 4-9-1-2-7-5, between the two apart 50cm；The cooling system branch pipe 4-9-1-2-7-7 is fixedly connected on the two sides cooling water conveying box 4-9-1-2-7-3, and cooling System branch pipe 4-9-1-2-7-7 and cooling water conveying box 4-9-1-2-7-3 is penetrated through, every side cooling system branch pipe 4-9-1-2-7-7 It is equipped with cooling system branch pipe solenoid valve 4-9-1-2-7-8, wherein cooling system branch pipe solenoid valve 4-9-1-2-7-8 and intelligence are controlled 7 wireless control of system connection processed.

It as shown in figure 14, is heretofore described damping spring air cooling equipment 4-9-3 structural schematic diagram.From figure Out, the damping spring air cooling equipment 4-9-3 includes: air cooling equipment pedestal 4-9-3-1, air cooling equipment relieve heat pipe 4-9-3-2, cold Wind relief hole 4-9-3-3, air cooling equipment standpipe 4-9-3-4, cold wind distributor 4-9-3-5, air cooling equipment blast pipe 4-9-3-6； The cold wind distributor 4-9-3-5 is located at air cooling equipment pedestal 4-9-3-1 inside center, and air cooling equipment pedestal 4-9-3-1 is Cylindrical hollow structure；The air cooling equipment blast pipe 4-9-3-6 is inserted into from air cooling equipment pedestal 4-9-3-1 outer wall side, and It penetrates through and connects with the cold wind bottom distributor 4-9-3-5；The air cooling equipment standpipe 4-9-3-4 is located at cold wind distributor 4-9-3-5 Top, air cooling equipment standpipe 4-9-3-4 and cold wind distributor 4-9-3-5 perforation connect, and air cooling equipment standpipe 4-9-3-4 is hollow Structure；The upper end device for cooling standpipe 4-9-3-4 is equipped with cold wind relief hole 4-9-3-3, and the quantity of cold wind relief hole 4-9-3-3 is It 6, equidistantly distributes between adjacent cold wind relief hole 4-9-3-3；The air cooling equipment relieve heat pipe 4-9-3-2 is located at air cooling equipment It is uncovered structure at the top of air cooling equipment relieve heat pipe 4-9-3-2, air cooling equipment relieve heat pipe 4-9-3-2's is straight outside standpipe 4-9-3-4 Diameter is greater than the diameter of air cooling equipment standpipe 4-9-3-4, forms cold air duct, cold air duct and cold wind distributor 4-9- between the two 3-5 perforation.

It as shown in figure 15, is heretofore described 5 structural schematic diagram of cleaning device.As seen from the figure, the cleaning dress Setting 5 includes: cleaning motor 5-1, impeller unit 5-2, gear train 5-3, cleans disk 5-4, cleaning brush 5-5, water system 5-6； The cleaning motor 5-1 is connect with 7 wireless control of intelligence control system, and cleaning motor 5-1 output end is equipped with impeller unit 5-2； The gear train 5-3 is located at below impeller unit 5-2, and gear train 5-3 engages connection with cleaning motor 5-1 output main shaft； The cleaning disk 5-4 is located at the lower surface gear train 5-3, and cleaning disk 5-4 quantity is 3 groups, and the cleaning lower surface disk 5-4 is equipped with cleaning Brush 5-5；The water system 5-6 is located at the upper surface gear train 5-3, and water system 5-6 is mutually communicated with cleaning disk 5-4.

It as shown in figure 16, is heretofore described cleaning disk 5-4 structural schematic diagram.As seen from the figure, the cleaning disk 5-4 includes: cleaning disk three-level intake pool 5-4-1, cleans disk second level intake pool 5-4-2, cleans disk level-one intake pool 5-4-3, clearly Dishwashing filter device outlet pipe 5-4-4 cleans disk water supplying pipe 5-4-5, cleans disk filter device 5-4-6；The cleaning disk second level Intake pool 5-4-2 is located inside cleaning disk three-level intake pool 5-4-1, and cleaning disk level-one intake pool 5-4-3 is located at cleaning disk second level Inside intake pool 5-4-2, wherein the diameter of cleaning disk level-one intake pool 5-4-3 and height are less than cleaning disk second level intake pool 5-4- 2, the diameter and height for cleaning disk second level intake pool 5-4-2 are less than cleaning disk three-level intake pool 5-4-1 again；The cleaning disk level-one Intake pool 5-4-3 and cleaning disk second level intake pool 5-4-2 is open top structure, and cleaning disk three-level intake pool 5-4-1 is top Portion's enclosed construction, the cleaning disk three-level bottom intake pool 5-4-1 are equipped with spray apertures；The cleaning disk filter device 5-4-6 is located at clear At dishwashing level-one intake pool 5-4-3 inside center, the side of cleaning disk filter device 5-4-6 is connected with cleaning disk filter device and goes out Water pipe 5-4-4, clean disk filter device outlet pipe 5-4-4 both ends respectively with cleaning disk filter device 5-4-6 and clean disk one Grade intake pool 5-4-3 perforation；The cleaning disk water supplying pipe 5-4-5 is located at the cleaning top disk three-level intake pool 5-4-1, and cleaning disk supplies One end of water pipe 5-4-5 and water system 5-6 perforation connect, and the other end and cleaning disk filtering for cleaning disk water supplying pipe 5-4-5 fill Set 5-4-6 perforation connection.

Claims (10)

1. a kind of ancillary equipment for water treatment plant aeration tank, comprising: casing (1), solar collecting device (2), signal connects It receives device (3), adsorbent equipment of creeping (4), cleaning device (5), spot detector (6), intelligence control system (7)；It is characterized in that, Casing (1) upper surface is equipped with solar collecting device (2), and solar collecting device (2) side is received equipped with signal Device (3), the adsorbent equipment of creeping (4) are located at casing (1) apex angle surface, and adsorbent equipment of creeping (4) quantity is 4 groups, described clear Cleaning device (5) is located at casing (1) inside, and cleaning device (5) lower surface is equipped with spot detector (6), the intelligence control system (7) it is controlled for hand-held；The solar collecting device (2), signal receiver (3) and spot detector (6) respectively with intelligence The connection of control system (7) wireless control；

The cleaning device (5) is equipped with cleaning disk (5-4)；The cleaning disk (5-4) is located at the lower surface gear train (5-3), clearly Dishwashing (5-4) quantity is 3 groups, and the cleaning disk lower surface (5-4) is equipped with cleaning brush (5-5)；

The cleaning disk (5-4) includes: cleaning disk three-level intake pool (5-4-1), is cleaned disk second level intake pool (5-4-2), cleaning Disk level-one intake pool (5-4-3) cleans disk filter device outlet pipe (5-4-4), cleans disk water supplying pipe (5-4-5), cleans disk mistake It filters device (5-4-6)；The cleaning disk second level intake pool (5-4-2) is located at cleaning disk three-level intake pool (5-4-1) inside, cleaning It is internal that disk level-one intake pool (5-4-3) is located at cleaning disk second level intake pool (5-4-2), wherein cleaning disk level-one intake pool (5-4- 3) diameter and height is less than cleaning disk second level intake pool (5-4-2), cleans the diameter and height of disk second level intake pool (5-4-2) It is less than cleaning disk three-level intake pool (5-4-1) again；The cleaning disk level-one intake pool (5-4-3) and cleaning disk second level intake pool (5-4-2) is open top structure, and cleaning disk three-level intake pool (5-4-1) is top closed structure, cleaning disk three-level water inlet The pond bottom (5-4-1) is equipped with spray apertures；The cleaning disk filter device (5-4-6) is located at cleaning disk level-one intake pool (5-4-3) At inside center, the side of cleaning disk filter device (5-4-6) is connected with cleaning disk filter device outlet pipe (5-4-4), cleaning The both ends of disk filter device outlet pipe (5-4-4) respectively with cleaning disk filter device (5-4-6) and clean disk level-one intake pool (5- 4-3) penetrate through；The cleaning disk water supplying pipe (5-4-5) is located at cleaning top disk three-level intake pool (5-4-1), cleans disk water supplying pipe The one end of (5-4-5) and water system (5-6) perforation connect, and clean the other end and the cleaning disk filtering of disk water supplying pipe (5-4-5) Device (5-4-6) perforation connection.

2. a kind of ancillary equipment for water treatment plant aeration tank according to claim 1, which is characterized in that described to creep Adsorbent equipment (4) includes: creep fixation wall (4-1), forearm of creeping (4-2), preposition telescoping cylinder (4-3), rear wall of creeping (4-4), Postposition telescoping cylinder (4-5), fixed disk (4-6), sucker (4-7), connecting flange (4-8), damping spring (4-9)；It is described to creep admittedly The wall end (4-1) is determined equipped with creeping forearm (4-2), and the forearm of creeping (4-2) and fixation wall (4-1) rotation connection of creeping are climbed It is equipped with preposition telescoping cylinder (4-3) between row forearm (4-2) and fixation wall of creeping (4-1), the preposition telescoping cylinder (4-3) and intelligence The connection of control system (7) wireless control；The rear wall of creeping (4-4) is located at end forearm (4-2) of creeping, rear wall of creeping (4-4) It is rotatablely connected with forearm of creeping (4-2), is equipped with postposition telescoping cylinder (4-5) between rear wall of creeping (4-4) and forearm of creeping (4-2), The postposition telescoping cylinder (4-5) connect with intelligence control system (7) wireless control；The fixed disk (4-6) is located at rear wall of creeping The lower surface (4-4), fixed disk (4-6) lower section are equipped with sucker (4-7), pass through company between the sucker (4-7) and fixed disk (4-6) Acting flange (4-8) is fixedly connected；Described damping spring (4-9) one end is connected and fixed disk (4-6), damping spring (4-9) other end It is connect with connecting flange (4-8).

3. a kind of ancillary equipment for water treatment plant aeration tank according to claim 2, which is characterized in that described to creep Fixation wall (4-1) includes: the U-shaped shell of fixation wall (4-1-1) of creeping, vertical rotation axis (4-1-2), vertical rotation axis fixture block (4-1- 3), horizontal rotating shaft (4-1-4), circular radiating pipe group (4-1-5), water inlet solenoid valve (4-1-6), fixation wall of creeping water inlet (4-1-7), water outlet solenoid valve (4-1-8), fixation wall of creeping water outlet (4-1-9)；U-shaped shell (the 4-1- of fixation wall of creeping 1) it is equipped with horizontal rotating shaft (4-1-4) between the body of two sides, horizontal rotating shaft (4-1-4) and the U-shaped shell of fixation wall (4-1-1) of creeping Rotation connection；The circular radiating pipe group (4-1-5) is socketed in the both ends horizontal rotating shaft (4-1-4), and circular radiating pipe group (4- 1-5) be located at that the U-shaped shell of fixation wall (4-1-1) of creeping is internal, the side of circular radiating pipe group (4-1-5) be equipped with creep fixation wall into The mouth of a river (4-1-7), the other side of circular radiating pipe group (4-1-5), which is equipped with, creeps fixation wall water outlet (4-1-9)；It is described to creep admittedly Determine wall water inlet (4-1-7) and fixation wall water outlet (4-1-9) of creeping is penetrated through with circular radiating pipe group (4-1-5) and connected, climbs The row fixation wall water inlet top (4-1-7) is equipped with water inlet solenoid valve (4-1-6), the top fixation wall of creeping water outlet (4-1-9) Equipped with water outlet solenoid valve (4-1-8)；The water inlet solenoid valve (4-1-6) and water outlet solenoid valve (4-1-8) respectively with intelligence It can control the connection of system (7) wireless control；The vertical rotation axis fixture block (4-1-3) is fixedly connected on the U-shaped shell of fixation wall of creeping The side (4-1-1), the quantity of vertical rotation axis fixture block (4-1-3) are 2, are set between adjacent upright rotation axis fixture block (4-1-3) Have vertical rotation axis (4-1-2), vertical rotation axis (4-1-2) and vertical rotation axis fixture block (4-1-3) are rotatablely connected.

4. a kind of ancillary equipment for water treatment plant aeration tank according to claim 3, which is characterized in that described preposition Telescoping cylinder (4-3) includes: preposition telescoping cylinder pinning (4-3-1), telescoping cylinder hydraulic mechanism (4-3-2), telescoping cylinder hydraulic mechanism (4- 3-3)；The telescoping cylinder hydraulic mechanism (4-3-3) is at the top of telescoping cylinder hydraulic mechanism (4-3-2)；The preposition telescoping cylinder pinning (4-3-1) is located on horizontal rotating shaft (4-1-4), and preposition telescoping cylinder pinning (4-3-1) and horizontal rotating shaft (4-1-4) rotation connect It connects；The side of the preposition telescoping cylinder pinning (4-3-1) is equipped with telescoping cylinder hydraulic mechanism (4-3-2), telescoping cylinder hydraulic mechanism (4- One end 3-2) is fixedly connected with preposition telescoping cylinder pinning (4-3-1), the other end of telescoping cylinder hydraulic mechanism (4-3-2) with creep Forearm (4-2) rotation connection.

5. a kind of ancillary equipment for water treatment plant aeration tank according to claim 4, which is characterized in that described flexible Cylinder hydraulic mechanism (4-3-3) includes: hydraulic mechanism shell (4-3-3-1), 1# oil inlet port (4-3-3-2), 1# inlet valve (4-3- 3-3), hydraulic mechanism oil pump (4-3-3-4) leads to beam hanger (4-3-3-5), piston left chamber (4-3-3-6), 2# inlet valve (4- 3-3-7), 2# oil inlet port (4-3-3-8), hydraulic mechanism telescopic rod (4-3-3-9), the mobile piston (4-3-3- of hydraulic mechanism 10), piston right chamber (4-3-3-11), hydraulic mechanism tail portion pinning (4-3-3-12)；Hydraulic mechanism shell (the 4-3-3- 1) one end is fixedly connected on preposition telescoping cylinder pinning (4-3-2) side, and hydraulic mechanism shell (4-3-3-1) is hollow structure； The hydraulic mechanism mobile piston (4-3-3-10) is located at hydraulic mechanism shell (4-3-3-1) inside, the mobile piston of hydraulic mechanism (4-3-3-10) is slidably connected with hydraulic mechanism shell (4-3-3-1) inner wall, and hydraulic mechanism moves piston (4-3-3-10) for liquid It is divided into piston left chamber (4-3-3-6) and piston right chamber (4-3-3-11) inside press mechanism shell (4-3-3-1)；It is described Hydraulic mechanism telescopic rod (4-3-3-9) is located in piston left chamber (4-3-3-6), hydraulic mechanism telescopic rod (4-3-3-9) One end is fixedly connected with hydraulic mechanism mobile piston (4-3-3-10), the other end and liquid of hydraulic mechanism telescopic rod (4-3-3-9) Press mechanism tail portion pinning (4-3-3-12) is fixedly connected, wherein hydraulic mechanism tail portion pinning (4-3-3-12) and the forearm (4- that creeps 2) it connects；The 1# inlet valve (4-3-3-3) and 2# inlet valve (4-3-3-7) are respectively provided at hydraulic mechanism shell (4-3-3-1) The both ends of side, 1# oil inlet port (4-3-3-2) are passed through by 1# inlet valve (4-3-3-3) with piston right chamber (4-3-3-11) Lead to and connect, 2# inlet valve (4-3-3-7) is connected by 2# oil inlet port (4-3-3-8) and piston left chamber (4-3-3-6) perforation It connects；The hydraulic mechanism oil pump (4-3-3-4) is located at the side 1# oil inlet port (4-3-3-2), hydraulic mechanism oil pump (4-3-3-4) It penetrates through and connects with 1# oil inlet port (4-3-3-2)；The 1# inlet valve (4-3-3-3), 2# inlet valve (4-3-3-7) and hydraulic press Structure oil pump (4-3-3-4) is connect with intelligence control system (7) wireless control.

6. a kind of ancillary equipment for water treatment plant aeration tank according to claim 5, which is characterized in that the sucker (4-7) includes: sucker suction bottom surface (4-7-1), adsorbs the curved shape conduit (4-7-2) in bottom surface, and air volume regulating device (4-7-3) is inhaled Disk is ventilated block (4-7-4), horizontal gas delivery pipe (4-7-5), and sucker is ventilated alms bowl (4-7-6), sucker air inlet pipe (4-7-7), is inhaled Disk air cleaning device (4-7-8)；The sucker suction bottom surface (4-7-1) is located at the bottom entire sucker (4-7), sucker suction bottom Face (4-7-1) is umbrella-shaped structure；The curved shape conduit (4-7-2) in absorption bottom surface is located above sucker suction bottom surface (4-7-1), inhales The bottom end of the attached curved shape conduit (4-7-2) in bottom surface is connected to sucker suction bottom surface (4-7-1), and to sucker suction bottom surface (4-7-1) Carry out gas transmission and pumping；Sucker ventilation block (4-7-4) is located at absorption curved shape conduit (4-7-2) the top side in bottom surface, sucker The quantity of ventilation block (4-7-4) is 2, is fixedly connected with horizontal gas delivery pipe (4- between adjacent sucker ventilation block (4-7-4) 7-5)；It is led by left side sucker ventilation block (4-7-4) and the absorption curved shape in bottom surface one end of the horizontal gas delivery pipe (4-7-5) (4-7-2) perforation connection is managed, the other end and sucker ventilation alms bowl (4-7-6) perforation of horizontal gas delivery pipe (4-7-5) connect, It is internal that middle sucker ventilation alms bowl (4-7-6) is located at right side sucker ventilation block (4-7-4)；The air volume regulating device (4-7-3) is fixed It is connected to above sucker ventilation block (4-7-4), air volume regulating device (4-7-3) is connect with intelligence control system (7) wireless control； The sucker air inlet pipe (4-7-7) is located at the external side of right side sucker ventilation block (4-7-4), and the two of sucker air inlet pipe (4-7-7) End is connected with sucker ventilation alms bowl (4-7-6) and sucker air cleaning device (4-7-8) perforation respectively, wherein sucker gas sanitizer cartridge (4-7-8) is set to be located on the right side of sucker air inlet pipe (4-7-7).

7. a kind of ancillary equipment for water treatment plant aeration tank according to claim 6, which is characterized in that the sucker Air cleaning device (4-7-8) includes: cleaning device blowing mouth (4-7-8-1), cleaning device shell (4-7-8-2), waveform Slow drop board group (4-7-8-3), impurity absorption block (4-7-8-4), gas filtration net (4-7-8-5) clean liquid pump (4-7-8-6), Cleaning solution ingress pipe (4-7-8-7), cleaning device gas outlet (4-7-8-8), outlet velar plate (4-7-8-9), cover board rot (4-7-8-10)；The side of the cleaning device shell (4-7-8-2) is equipped with cleaning device blowing mouth (4-7-8-1), sanitizer cartridge Blowing mouth (4-7-8-1) and cleaning device shell (4-7-8-2) internal run-through are set, cleaning device shell (4-7-8-2) is rectangular Body hollow structure；The cleaning device gas outlet (4-7-8-8) is located at the top cleaning device shell (4-7-8-2), cleaning device Gas outlet (4-7-8-8) and cleaning device shell (4-7-8-2) internal run-through, at the port cleaning device gas outlet (4-7-8-8) Equipped with outlet velar plate (4-7-8-9)；The side of the outlet velar plate (4-7-8-9) is equipped with cover board rot (4-7-8- 10), cover board rot (4-7-8-10) axis is fixedly connected with outlet velar plate (4-7-8-9), outlet velar plate (4-7-8-9) It is opened or closed under the action of cover board rot (4-7-8-10), cover plate rot (4-7-8-10) and intelligent control system (7) wireless control of uniting connection；Slow drop board group (4-7-8-3) of the waveform is located at cleaning device shell (4-7-8-2) inside, wave The quantity of slow drop board group (4-7-8-3) of shape wave is 2 groups；The impurity absorption block (4-7-8-4) is located at the slow drop board group (4- of waveform 7-8-3) lower part, the quantity of impurity absorption block (4-7-8-4) are 4, and the impurity absorption block (4-7-8-4) is by porosity activity Charcoal pressing mold forms, and equidistantly distributes between other impurities Attraction block (4-7-8-4), is equipped with below impurity absorption block (4-7-8-4) Gas filtration net (4-7-8-5)；Slow drop board group (4-7-8-3) of the waveform, impurity absorption block (4-7-8-4) and gas filtration Net (4-7-8-5) is fixedly connected with cleaning device shell (4-7-8-2) inner wall；The cleaning liquid pump (4-7-8-6) is located at clear The external side of clean device housing (4-7-8-2), cleaning liquid pump (4-7-8-6) and cleaning device shell (4-7-8-2) pass through cleaning Liquid ingress pipe (4-7-8-7) connection, and cleaning solution ingress pipe one end (4-7-8-7) and cleaning device shell (4-7-8-2) are internal Perforation, and cleaning device shell (4-7-8-2) inside is scattered in the form of water mist；The cleaning liquid pump (4-7-8-6) and intelligence The connection of control system (7) wireless control.

8. a kind of ancillary equipment for water treatment plant aeration tank according to claim 7, which is characterized in that the connection Flange (4-8) includes: connecting flange external disk (4-8-1), anti-deformation steel plate (4-8-2)；The connecting flange external disk (4-8-1) is Cylindrical-shaped structure, connecting flange external disk (4-8-1) with a thickness of 5cm~8cm, the diameter of connecting flange external disk (4-8-1) is 25cm~40cm；The anti-deformation steel plate (4-8-2) is located at connecting flange external disk (4-8-1) inside, anti-deformation steel plate (4-8-2) For round reticular structure, the diameter of anti-deformation steel plate (4-8-2) is less than the diameter of connecting flange external disk (4-8-1), Anti-deformation steel The quantity of plate (4-8-2) is 2, and the distance between adjacent anti-deformation steel plate (4-8-2) is 2cm~4cm；

The damping spring (4-9) includes: damping spring mandril (4-9-1), spring body (4-9-2), damping spring air cooling equipment (4-9-3), damping spring collet (4-9-4)；The damping spring collet (4-9-4) is located at the bottom entire damping spring (4-9), The damping spring collet two sides (4-9-4) are connect with connecting flange (4-8)；The damping spring air cooling equipment (4-9-3), which is located at, to be subtracted It shakes above spring collet (4-9-4), and the damping spring air cooling equipment bottom (4-9-3) and damping spring collet (4-9-4) are fixed Connection；The spring body (4-9-2) is located at damping spring air cooling equipment (4-9-3) outside, and the diameter of spring body (4-9-2) is greater than The diameter of damping spring air cooling equipment (4-9-3), the spring body bottom end (4-9-2) and the bottom damping spring air cooling equipment (4-9-3) It is fixedly connected；The damping spring mandril (4-9-1) is fixedly connected on the top spring body (4-9-2), damping spring mandril (4-9- 1) two sides are connect with fixed disk (4-6)；

The damping spring mandril (4-9-1) includes: that damping spring mandril pushes main shaft (4-9-1-1), and damping spring mandril is cold But system (4-9-1-2), damping spring mandril is fixed horizontal axis (4-9-1-3), damping spring mandril briquetting (4-9-1-4), damping Spring spindle fastening bolt (4-9-1-5), damping spring mandril platen (4-9-1-6)；Fixed horizontal axis (the 4- of the damping spring mandril It 9-1-3) is located at damping spring mandril and pushes main shaft (4-9-1-1) axis body top, damping spring mandril is fixed horizontal axis (4-9-1-3) It is vertical and connect that main shaft (4-9-1-1) is pushed with damping spring mandril；The damping spring mandril briquetting (4-9-1-4), which is located at, to be subtracted The fixed both ends horizontal axis (4-9-1-3) of spring spindle are shaken, the outside of damping spring mandril briquetting (4-9-1-4) is equipped with damping spring top Bar fastening bolt (4-9-1-5), the number of damping spring mandril fastening bolt (4-9-1-5) and damping spring mandril briquetting (4-9-1-4) Amount is 2, and damping spring mandril fastening bolt (4-9-1-5) and damping spring mandril briquetting (4-9-1-4) with damping bullet Spring mandril fixed horizontal axis (4-9-1-3) connection；The damping spring mandril cooling system (4-9-1-2) is located at damping spring mandril It is internal to push main shaft (4-9-1-1)；The damping spring mandril platen (4-9-1-6) is fixedly connected on the pushing of damping spring mandril Main shaft (4-9-1-1) axis body lower part；

The damping spring mandril cooling system (4-9-1-2) includes: cooling system shell (4-9-1-2-1), coolant liquid reflux It manages (4-9-1-2-2), cooling system postposition follower (4-9-1-2-3), cooling system liner (4-9-1-2-4), cooling system Annular additive charging point (4-9-1-2-5), cooling system homogeneous device (4-9-1-2-6), cooling system water feed apparatus (4-9- 1-2-7)；The cooling system liner (4-9-1-2-4) is located inside cooling system shell (4-9-1-2-1), in cooling system Gallbladder (4-9-1-2-4) and cooling system shell (4-9-1-2-1) are cylindrical hollow configuration, cooling system liner (4-9-1- 2-4) up and down, the diameter of cooling system liner (4-9-1-2-4) is less than the diameter of cooling system shell (4-9-1-2-1)； Cooling system liner (4-9-1-2-4) inner upper is equipped with cooling system annular additive charging point (4-9-1-2-5), cold But the liquid outlet on system annular additive charging point (4-9-1-2-5) and cooling system liner (4-9-1-2-4) internal run-through, Inlet and external additive pump on cooling system annular additive charging point (4-9-1-2-5) connect；The cooling system The lower section of annular additive charging point (4-9-1-2-5) is equipped with cooling system homogeneous device (4-9-1-2-6), cooling system homogeneous The diameter of device (4-9-1-2-6) is consistent with cooling system liner (4-9-1-2-4) diameter, cooling system homogeneous device (4-9-1-2-6) is made of multiple channels up and down；The cooling system water feed apparatus (4-9-1-2-7) is located at cooling system One end of the lower part shell (4-9-1-2-1), cooling system water feed apparatus (4-9-1-2-7) passes through cooling system shell (4-9-1- 2-1) bottom and it is inserted into cooling system liner (4-9-1-2-4)；The coolant return line (4-9-1-2-2) is set to cooling system System top shell (4-9-1-2-1), one end and cooling system liner (4-9-1-2-4) of coolant return line (4-9-1-2-2) Perforation, the other end and cooling system postposition follower (4-9-1-2-3) of coolant return line (4-9-1-2-2) penetrate through, wherein Cooling system postposition follower (4-9-1-2-3) is connected to the top coolant return line (4-9-1-2-2).

9. a kind of ancillary equipment for water treatment plant aeration tank according to claim 8, which is characterized in that the cooling System postposition follower (4-9-1-2-3) includes: postposition conveyer shell (4-9-1-2-3-1), the fixed cylinder ring of postposition conveyer (4-9-1-2-3-2), catalyst inlet (4-9-1-2-3-3), postposition conveyer paddle (4-9-1-2-3-4), postposition is defeated It send device inlet (4-9-1-2-3-5), postposition conveyer liquid outlet (4-9-1-2-3-6), postposition conveyor motor (4-9-1-2- 3-7), postposition conveyer shaft (4-9-1-2-3-8)；The postposition conveyer inlet (4-9-1-2-3-5) and postposition conveying Device liquid outlet (4-9-1-2-3-6) is respectively provided at the both ends of postposition conveyer shell (4-9-1-2-3-1), and both with postposition Conveyer shell (4-9-1-2-3-1) internal run-through, during wherein postposition conveyer shell (4-9-1-2-3-1) is arranged horizontally Hollow tube-like structure；The postposition conveyer shaft (4-9-1-2-3-8) is located in postposition conveyer shell (4-9-1-2-3-1) Portion, the postposition conveyer shaft two sides (4-9-1-2-3-8) are equipped with postposition conveyor motor (4-9-1-2-3-7), postposition conveyer Motor (4-9-1-2-3-7) and postposition conveyer shaft (4-9-1-2-3-8) are rotatablely connected, and postposition conveyor motor (4-9- 1-2-3-7) it is connect with intelligence control system (7) wireless control；The both ends of the postposition conveyer shaft (4-9-1-2-3-8) are set There are postposition conveyer paddle (4-9-1-2-3-4), postposition conveyer paddle (4-9-1-2-3-4) and postposition conveyer shaft (4-9-1-2-3-8) is fixedly connected, and the quantity of every end postposition conveyer paddle (4-9-1-2-3-4) is no less than 20；It is described The middle part of postposition conveyer shell (4-9-1-2-3-1) is equipped with catalyst inlet (4-9-1-2-3-3), catalyst inlet (4-9-1-2-3-3) and postposition conveyer shell (4-9-1-2-3-1) penetrate through, the number of catalyst inlet (4-9-1-2-3-3) Amount is 4；The postposition conveyer fixed cylinder ring (4-9-1-2-3-2) is fixedly connected on postposition conveyer shell (4-9-1-2- 3-1) on outer wall, the quantity of postposition conveyer fixed cylinder ring (4-9-1-2-3-2) is 3, the fixed cylinder ring of adjacent postposition conveyer It is equidistantly distributed between (4-9-1-2-3-2)；

The cooling system water feed apparatus (4-9-1-2-7) includes: cooling system inlet pipe (4-9-1-2-7-1), cooling system into Pipe solenoid valve (4-9-1-2-7-2), cooling water conveying box (4-9-1-2-7-3), cooling water conveying box base station (4-9-1-2-7- 4), top rushes nut cap (4-9-1-2-7-5), cooling system outlet pipe (4-9-1-2-7-6), cooling system branch pipe (4-9-1-2-7-7), Cooling system branch pipe solenoid valve (4-9-1-2-7-8)；The cooling system inlet pipe (4-9-1-2-7-1) is located at cooling water conveying box Below base station (4-9-1-2-7-4), cooling water conveying box (4-9-1-2-7-3) is fixedly connected on cooling water conveying box base station (4- One end of 9-1-2-7-4) top, cooling system inlet pipe (4-9-1-2-7-1) passes through cooling water conveying box base station (4-9-1-2-7- 4) it is connected with cooling water conveying box (4-9-1-2-7-3) perforation；The cooling system inlet pipe solenoid valve (4-9-1-2-7-2) is located at On cooling system inlet pipe (4-9-1-2-7-1), cooling system inlet pipe solenoid valve (4-9-1-2-7-2) and intelligence control system (7) Wireless control connection；The cooling system outlet pipe (4-9-1-2-7-6) is located above cooling water conveying box (4-9-1-2-7-3), Cooling system outlet pipe (4-9-1-2-7-6) and cooling water conveying box (4-9-1-2-7-3) perforation connect, cooling system outlet pipe (4- Top 9-1-2-7-6) is equipped with top and rushes nut cap (4-9-1-2-7-5), between the two at a distance of 50cm；The cooling system branch pipe (4-9-1-2-7-7) is fixedly connected on the two sides cooling water conveying box (4-9-1-2-7-3), and cooling system branch pipe (4-9-1-2- It 7-7) is penetrated through with cooling water conveying box (4-9-1-2-7-3), every side cooling system branch pipe (4-9-1-2-7-7) is equipped with cooling system It unites branch pipe solenoid valve (4-9-1-2-7-8), wherein cooling system branch pipe solenoid valve (4-9-1-2-7-8) and intelligence control system (7) wireless control connects.

10. a kind of ancillary equipment for water treatment plant aeration tank according to claim 9, which is characterized in that described to subtract Shaking spring air cooling equipment (4-9-3) includes: air cooling equipment pedestal (4-9-3-1), air cooling equipment relieve heat pipe (4-9-3-2), cold wind Relief hole (4-9-3-3), air cooling equipment standpipe (4-9-3-4), cold wind distributor (4-9-3-5), air cooling equipment blast pipe (4-9- 3-6)；The cold wind distributor (4-9-3-5) is located at air cooling equipment pedestal (4-9-3-1) inside center, air cooling equipment pedestal (4-9-3-1) is cylindrical hollow structure；The air cooling equipment blast pipe (4-9-3-6) is from air cooling equipment pedestal (4-9-3-1) The insertion of outer wall side, and penetrate through and connect with the cold wind distributor bottom (4-9-3-5)；Air cooling equipment standpipe (4-9-3-4) position Above cold wind distributor (4-9-3-5), air cooling equipment standpipe (4-9-3-4) and cold wind distributor (4-9-3-5) perforation are connected, Air cooling equipment standpipe (4-9-3-4) is hollow structure；The device for cooling standpipe upper end (4-9-3-4) is equipped with cold wind relief hole (4- 9-3-3), the quantity of cold wind relief hole (4-9-3-3) is 6, is equidistantly distributed between adjacent cold wind relief hole (4-9-3-3)； The air cooling equipment relieve heat pipe (4-9-3-2) is located at air cooling equipment standpipe (4-9-3-4) outside, air cooling equipment relieve heat pipe (4-9- 3-2) top is uncovered structure, and the diameter of air cooling equipment relieve heat pipe (4-9-3-2) is straight greater than air cooling equipment standpipe (4-9-3-4) Diameter, forms cold air duct between the two, and cold air duct and cold wind distributor (4-9-3-5) are penetrated through；

The cleaning device (5) includes: cleaning motor (5-1), impeller unit (5-2), gear train (5-3), cleaning disk (5- 4), cleaning brush (5-5), water system (5-6)；The cleaning motor (5-1) connect with intelligence control system (7) wireless control, It cleans motor (5-1) output end and is equipped with impeller unit (5-2)；The gear train (5-3) is located at below impeller unit (5-2), Gear train (5-3) engages connection with cleaning motor (5-1) output main shaft；The cleaning disk (5-4) is located at gear train (5-3) Lower surface, cleaning disk (5-4) quantity are 3 groups, and the cleaning disk lower surface (5-4) is equipped with cleaning brush (5-5)；Water system (the 5- 6) it is located at the upper surface gear train (5-3), water system (5-6) is mutually communicated with cleaning disk (5-4)；

A kind of ancillary equipment for water treatment plant aeration tank, the equipment working method including the following steps:

Step 1: whole equipment is placed in wall surface to be cleaned, while intelligence control system (7) opens cleaning motor (5-1), cleaning Motor (5-1) carries out high speed rotary motion by output main shaft impeller device (5-2), while driving gear train (5-3) Gear power transmission is carried out, gear train (5-3) drives cleaning disk (5-4) and cleaning brush (5-5) to be rotated；

Step 2: intelligence control system (7) controls outer water pump and supplies clear water, while intelligence to equipment by water system (5-6) Control system (7) opens preposition telescoping cylinder (4-3) and postposition telescoping cylinder (4-5), flexible by preposition telescoping cylinder (4-3) and postposition The stretching motion control of cylinder (4-5) is creeped, and adsorbent equipment (4) is continuous to be moved；

Step 3: in the process of cleaning, the spot situation of spot detector (6) real-time detection wall surface, when spot detector (6) are examined Wall surface is measured there are when spot, spot detector (6) transmits signals to intelligence control system (7), intelligence control system (7) control Cleaning device (5) processed increases cleaning dynamics；

Step 4: in fixation wall of creeping (4-1) course of work, intelligence control system (7) controls water inlet solenoid valve (4-1-6) It is opened with water outlet solenoid valve (4-1-8)；Then, heat transmission water from creep fixation wall water inlet (4-1-7) flow into circular radiating Pipe group (4-1-5), and radiate to horizontal rotating shaft (4-1-4)；After the completion of heat dissipation, hot water is from fixation wall water outlet of creeping (4-1-9) discharge；

Step 5: in preposition telescoping cylinder (4-3) course of work, intelligence control system (7) opens preposition telescoping cylinder (4-3), preposition The movement of telescoping cylinder (4-3) forearm (4-2) that promotes to creep rotates upwardly and downwardly on fixation wall of creeping (4-1)；

Step 6: in telescoping cylinder hydraulic mechanism (4-3-3) course of work, hydraulic mechanism is controlled by intelligence control system (7) first Oil pump (4-3-3-4) is operated；Hydraulic mechanism telescopic rod (4-3- is driven when needing hydraulic mechanism to move piston (4-3-3-10) When 3-9) moving downward, opened by intelligence control system (7) control 1# inlet valve (4-3-3-3), while controlling 2# inlet valve (4- It 3-3-7) closes, oil body enters piston right chamber (4-3-3-11) from 1# inlet valve (4-3-3-3) at this time, and generates to the left Pressure；When needing hydraulic mechanism mobile piston (4-3-3-10) that hydraulic mechanism telescopic rod (4-3-3-9) is driven to move right, by Intelligence control system (7) controls 2# inlet valve (4-3-3-7) and opens, while controlling 1# inlet valve (4-3-3-3) closing, oily at this time Body enters piston left chamber (4-3-3-6) from 2# oil inlet port (4-3-3-8), and generates pressure to the right；Hydraulic mechanism is stretched Contracting bar (4-3-3-9's) moves left and right, and the forearm (4-2) that promotes to creep is rotated upwardly and downwardly in fixation wall of creeping (4-1)；

Step 7: in sucker (4-7) course of work, under the action of external air pump, gas is from sucker air cleaning device (4- 7-8) sequentially enter sucker air inlet pipe (4-7-7), sucker ventilation alms bowl (4-7-6) and horizontal gas delivery pipe (4-7-5), and from suction The attached curved shape conduit (4-7-2) in bottom surface enters between sucker suction bottom surface (4-7-1) and wall surface to be cleaned, and sucker (4-7) is in and releases Put state；When the implementation pumping of external air pump, and the gas outlet on sucker air cleaning device (4-7-8) is opened, gas original road is returned It returns, and is discharged from gas outlet, sucker (4-7) is in adsorbed state；The disengaging process of gas realizes sucker suction bottom surface (4-7- 1) loosening and adsorbing for cleaning wall surface is treated；In intake process, air inflow can be controlled by air volume regulating device (4-7-3)；

Step 8: in sucker air cleaning device (4-7-8) course of work, intelligence control system (7) controls cover board rot (4-7-8-10) rotation, realizes the open and close control to outlet velar plate (4-7-8-9)；When intake air is required, intelligence control system (7) it controls external air pump to supply gas, gas enters in cleaning device shell (4-7-8-2) from cleaning device gas outlet (4-7-8-8) Portion, and impurity absorption block (4-7-8-4), gas filtration net (4-7-8-5), disperse water mist synergy under complete to gas Cleaning；Then, gas enters in sucker (4-7) from cleaning device blowing mouth (4-7-8-1)；When it is necessary to vent gas, intelligence It can control system (7) and control external air pump pumping, gas is from cleaning device blowing mouth (4-7-8-1), cleaning device gas outlet (4- 7-8-8) efflux gas；

Step 9: in connecting flange (4-8) course of work, whole device be ensure that between sucker (4-7) and fixed disk (4-6) Be stably connected with；Meanwhile anti-deformation steel plate (4-8-2) can prevent connecting flange external disk (4-8-1) from deforming；

Step 10: in damping spring (4-9) course of work, the pressure that top is transmitted reaches damping spring mandril (4-9-1) When, promote it to drive spring body (4-9-2) pushing or upper lift, spring body (4-9-2) has received above-mentioned energy to reach damping Effect；In the process, damping spring air cooling equipment (4-9-3) is spring body (4-9-2) cooling；

Step 11: in damping spring mandril (4-9-1) course of work, the pressure that top is transmitted reaches damping spring mandril (4- It 9-1) and concentrates in damping spring mandril pushing main shaft (4-9-1-1), so that damping spring mandril be promoted to push main shaft (4-9- 1-1) spring body (4-9-2) is driven to push, realizes damping；

Step 12: in damping spring mandril cooling system (4-9-1-2) course of work, external coolant liquid passes through cooling system Water feed apparatus (4-9-1-2-7) enters cooling system liner (4-9-1-2-4), and from cooling system liner (4-9-1-2-4) Cooling system homogeneous device (4-9-1-2-6) it is evenly dispersed pass through, realize homogeneous effect；At the same time, cooling additive Enter the inside cooling system liner (4-9-1-2-4) from cooling system annular additive charging point (4-9-1-2-5), with coolant liquid Mixing, to improve cooling efficiency, and then cools down to damping spring mandril (4-9-1)；Then, after coolant liquid is with cooling system Setting follower (4-9-1-2-3) is driving force, by coolant liquid outside coolant return line (4-9-1-2-2) output device；

Step 13: in cooling system postposition follower (4-9-1-2-3) course of work, coolant liquid is from coolant return line (4- 9-1-2-2) enter postposition conveyer inlet (4-9-1-2-3-5), and then flows into postposition conveyer shell (4-9-1-2-3-1) It is internal；Meanwhile external catalyst enters postposition conveyer shell (4-9-1-2-3- from catalyst inlet (4-9-1-2-3-3) 1) internal；At this point, intelligence control system (7) control postposition conveyor motor (4-9-1-2-3-7) is operated, and drive postposition The rotation of conveyer shaft (4-9-1-2-3-8) and postposition conveyer paddle (4-9-1-2-3-4) is realized to coolant liquid and is urged The stirring of agent；Then, liquid is discharged from postposition conveyer liquid outlet (4-9-1-2-3-6)；

Step 14: in cooling system water feed apparatus (4-9-1-2-7) course of work, intelligence control system (7) controls cooling system After inlet pipe solenoid valve (4-9-1-2-7-2) opening of uniting, cooling water is defeated from cooling system inlet pipe (4-9-1-2-7-1) into cooling water Send case (4-9-1-2-7-3)；Then, cooling water enters cooling system outlet pipe (4-9- from cooling water conveying box (4-9-1-2-7-3) 1-2-7-6), and under the action of top rushes nut cap (4-9-1-2-7-5) it sprays internal into cooling system liner (4-9-1-2-4)； Meanwhile cooling system branch pipe solenoid valve (4-9-1-2-7-8) can also be controlled by intelligence control system (7) and opened, make cooling water It is internal to enter cooling system liner (4-9-1-2-4) from cooling system branch pipe (4-9-1-2-7-7)；

Step 15: in damping spring air cooling equipment (4-9-3) course of work, cold wind is from air cooling equipment blast pipe (4-9-3-6) Into in cold wind distributor (4-9-3-5), a portion cold wind enters air cooling equipment standpipe (4-9-3-4), and releases from cold wind Discharge hole (4-9-3-3) sheds, and another part cold wind enters cold air duct, and spacious at the top of air cooling equipment relieve heat pipe (4-9-3-2) It sheds at mouthful, thus cools down to spring body (4-9-2)；

Step 16: cleaning disk (5-4) course of work in, water system (5-6) provide water from cleaning disk water supplying pipe (5-4-5) Into in cleaning disk filter device (5-4-6)；After filtering, water enters clear from cleaning disk filter device outlet pipe (5-4-4) Dishwashing level-one intake pool (5-4-3), and cleaning disk second level intake pool (5-4-2) and cleaning disk three are successively flowed by high-order overflow Grade intake pool (5-4-1) sprays finally by the spray apertures of cleaning bottom disk three-level intake pool (5-4-1), is cleaning brush (5-5) Watering.