CN110228918A

CN110228918A - One kind integrated processor of sewage containing carbon tetrachloride and treatment process

Info

Publication number: CN110228918A
Application number: CN201910659131.3A
Authority: CN
Inventors: 梁瑛; 范宁; 范毓纯
Original assignee: Xuzhou Green Source Intelligent Technology Co Ltd
Current assignee: Xuzhou Green Source Intelligent Technology Co Ltd; Xuzhou Luyuan Intelligent Technology Co Ltd
Priority date: 2019-07-22
Filing date: 2019-07-22
Publication date: 2019-09-13

Abstract

The invention discloses a kind of integrated processor of sewage containing carbon tetrachloride and treatment process, wherein the damping spring air cooling equipment includes: air cooling equipment pedestal, air cooling equipment relieve heat pipe, cold wind relief hole, air cooling equipment standpipe, cold wind distributor, air cooling equipment blast pipe, standpipe rolling bearing；The cold wind distributor is located at air cooling equipment base interior center, and air cooling equipment pedestal is cylindrical hollow structure；The air cooling equipment blast pipe is inserted into from air cooling equipment base outer wall side, and is penetrated through and connected with cold wind dispenser bottom；The air cooling equipment standpipe is located above cold wind distributor, and air cooling equipment standpipe is connected by standpipe rolling bearing and the perforation of cold wind distributor, and air cooling equipment standpipe is hollow structure.One kind integrated processor of sewage containing carbon tetrachloride of the present invention, for the device using automatically controlling, simple to operate, work efficiency is high, specifically there is stronger stability.

Description

One kind integrated processor of sewage containing carbon tetrachloride and treatment process

Technical field

The invention belongs to environmental protection treatment process fields, and in particular to a kind of integrated processor of sewage containing carbon tetrachloride and Treatment process.

Background technique

Industry sewage containing carbon tetrachloride refers to the sewage containing carbon tetrachloride and waste liquid being discharged in art production process, wherein containing There is the object containing Carbon Tetrachloride Contamination generated in industrial production materials, intermediate product, byproduct and the production process outflowed with water, It is to cause environmental pollution, the especially major reason of water pollution.Although the processing of industry sewage containing carbon tetrachloride is early in 19th century End has begun, but due to many trade effluent complicated components, property is changeable, still has some technical problems not to be fully solved.

Summary of the invention

In order to solve the above-mentioned technical problem, the present invention relates to a kind of integrated processors of sewage containing carbon tetrachloride, comprising: level-one Sewage buffer pool 1, sewage transport pump 2, level 2 buffering pond 3, biochemical reaction column force (forcing) pump 4, biochemical reaction column 5 remove removing heavy metals Ion flow tank 6, mud discharging pipe 7, probe tube 8, clear water delivery pipe 9, biochemical reaction column outlet pipe 10, electrical control cabinet 11, Overflow water recovery tube 12, anaerobic fermentation case 13, bracket 14, sludge reflux and discharge tee tube 15；Level-one sewage positioned at side Buffer pool 1 is connected to by sewage transport pump 2 with the anaerobic fermentation case 13 for being located at upper left quarter, 13 enclosed construction of anaerobic fermentation case, bottom Portion is equipped with sludge reflux and discharge tee tube 15；13 lower part of anaerobic fermentation case is equipped with level 2 buffering pond 3, the connection of the two pipeline；Detest 13 top side of aerobe fermentation case is equipped with overflow water recovery tube 12, the connection of the two pipeline, and overflow water recovery tube 12 is discharged water and flows back into Level-one sewage buffer pool 1；Portion is equipped with electrical control cabinet 11 on the support 14；14 side of bracket is equipped with biochemical reaction column 5, the life It is horizontal positioned to change reaction column 5, quantity is five, parallel with one another, and filler, shell are contained in 5 hollow structure of biochemical reaction column, inside It is made of high molecular material, the preposition mouth in parallel of biochemical reaction column 5 and external air pump connection, the biochemical reaction column 5 pass through life Change reaction column force (forcing) pump 4 to be connected to level 2 buffering pond 3；The heavy-metal ion removal flow tank 6 is discharged by biochemical reaction column Pipe 10 is connected to biochemical reaction column 5, and gas outlet is equipped at the top of biochemical reaction column outlet pipe 10；Heavy-metal ion removal flow tank 6 Lower part is equipped with mud discharging pipe 7, the connection of the two pipeline；6 top of heavy-metal ion removal flow tank be equipped with clear water delivery pipe 9, two The connection of person's pipeline；6 waist of heavy-metal ion removal flow tank is equipped with probe tube 8, the connection of the two pipeline；The sewage transport pump 2, Biochemical reaction column force (forcing) pump 4, external air pump are linked with 11 polygon control survey of electrical control cabinet.

Further, this section is the explanation to 14 structure of bracket in the present invention.The bracket 14 includes: carriage drive motor 14-1, change gear box 14-2, built-in gear 14-3, contains rack gear sliding rail 14-4, rack shell 14-5, fixed block 14-6, L Type sliding block 14-7, bracket base 14-8；Wherein carriage drive motor 14-1, change gear box 14-2, built-in gear 14-3, solid Determine that block 14-6, L-type sliding block 14-7, bracket base 14-8 structure are integral, which separates with rack shell 14-5, and can promote Move up and down rack shell 14-5；It is described to be fixed on inside rack shell 14-5 containing rack gear sliding rail 14-4；The L-type sliding block 14-7 is vertically fixed on the top bracket base 14-8；Inside L-type sliding block 14-7 be equipped with built-in gear 14-3, one end with contain There is rack gear sliding rail 14-4 engagement connection, the other end engages connection with change gear box 14-2；The other end of change gear box 14-2 It is sequentially connected with carriage drive motor 14-1；The carriage drive motor 14-1 is located at the lower end change gear box 14-2 side, branch Frame driving motor 14-1 is connected by conducting wire with the control of electrical control cabinet 11；The fixed block 14-6 is located at the top L-type sliding block 14-7 End, the end fixed block 14-6 are stretched out outside rack shell 14-5, and waist is slidably connected with rack shell 14-5, fixed block 14-6 End is lead composition, is used for counterweight；The change gear box 14-2 is arranged in the side L-type sliding block 14-7.

Further, this section is the explanation to 6 structure of heavy-metal ion removal flow tank in the present invention.The removal huge sum of money Belonging to ion flow tank 6 includes: shower washing device 6-1, flocculant adding tube 6-2, coagulation paddle 6-3, stirring motor 6-4, Pot cleaner 6-5；Shower washing device 6-1 positioned at bottom, one end are connected to external fresh water pump, and the other end generates 8 A spray head being directed upwards towards；It is equipped with flocculant adding tube 6-2 on the top shower washing device 6-1, flocculant adding tube 6-2 is wherein One end annular tube structure is equipped with multiple showers on its surface, and flocculant adding tube 6-2 is into heavy-metal ion removal flow tank 6 Crowndaisy chrysanthemum plant polyose flocculant is added；Coagulation paddle 6-3, the coagulation paddle are equipped on the flocculant top adding tube 6-2 The 6-3 and stirring motor 6-4 of upper part is drivingly connected；It is cleaned in 6 interior side of heavy-metal ion removal flow tank equipped with tank body Device 6-5, waterproofing design, latch hook are fixed on wall fixed position, connect with 11 wireless control of electrical control cabinet.

Further, this section is the explanation to coagulation paddle 6-3 structure in the present invention.The coagulation paddle 6-3 packet It includes: blade slide plate 6-3-1, blade sliding rail 6-3-2, sliding rail rack 6-3-3, vane-driver 6-3-4, slide plate linkage support 6-3- 5；Blade slide plate 6-3-1 quantity positioned at periphery is 7, is equipped with blade sliding rail 6-3-2 on the inside of each blade slide plate 6-3-1, The two is slidably connected, and blade slide plate 6-3-1 is slided up and down along blade sliding rail 6-3-2；It is equipped with and slides on the inside of blade sliding rail 6-3-2 Rail bracket 6-3-3, the two connection, sliding rail rack 6-3-3 are vertically arranged 7 blade sliding rail 6-3-2 angularly；In sliding rail branch The lower part frame 6-3-3 is equipped with slide plate linkage support 6-3-5, and blade slide plate 6-3-1 is connect with slide plate linkage support 6-3-5, slide plate connection Dynamic bracket 6-3-5 is vertically arranged 7 blade slide plate 6-3-1 angularly；Blade is fixed on the top sliding rail rack 6-3-3 to drive Dynamic device 6-3-4, vane-driver 6-3-4 and blade slide plate 6-3-1 are drivingly connected, vane-driver 6-3-4 and electrical control cabinet The connection of 11 wireless control.

Further, this section is the explanation to vane-driver 6-3-4 structure in the present invention.The vane-driver 6-3- 4 include: driving fluted disc 6-3-4-1, and fluted disc left and right adjusting device 6-3-4-2, slide plate positioning guide wheel 6-3-4-3, fluted disc front and back is adjusted Device 6-3-4-4, by drive rack 6-3-4-5, fluted disc driver 6-3-4-6；It is described to be fixedly mounted on by drive rack 6-3-4-5 On blade slide plate 6-3-1, connection is engaged with driving fluted disc 6-3-4-1 by drive rack 6-3-4-5；Drive fluted disc 6-3-4-1 mono- Side is equipped with fluted disc driver 6-3-4-6, and the two is drivingly connected；The side fluted disc 6-3-4-1 is driven to be equipped with fluted disc left and right adjusting device 6- 3-4-2, to driving fluted disc 6-3-4-1 or so micro-adjustment；The other side fluted disc 6-3-4-1 is driven to be equipped with fluted disc Fore/aft regulator 6- 3-4-4, to micro-adjustment before and after driving fluted disc 6-3-4-1；Slide plate positioning is equipped on the fluted disc top Fore/aft regulator 6-3-4-4 to lead It takes turns 6-3-4-3, slide plate positioning guide wheel 6-3-4-3 and blade slide plate 6-3-1 and rolls connection, and limiting blade slide plate 6-3-1 can only It moves up and down.

Further, this section is the explanation to pot cleaner 6-5 structure in the present invention.The pot cleaner 6- 5 include: casing 6-5-1, bright sensing device 6-5-2, and signal receives transmitter 6-5-3, and alternate row adsorbent equipment 6-5-4 is washed Wash equipment 6-5-5, spot detector 6-5-6；The upper surface the casing 6-5-1 is equipped with bright sensing device 6-5-2, feels in light Know that the lower part device 6-5-2 is equipped with battery, movable motor, water tank, water pump；The light side sensing device 6-5-2 is equipped with signal Transmitter 6-5-3 is received, the alternate row adsorbent equipment 6-5-4 is located at casing 6-5-1 apex angle surface, alternate row adsorbent equipment 6- 5-4 quantity is 4 groups, and the washing facility 6-5-5 is located at casing 6-5-1 central lower, and the lower surface washing facility 6-5-5 is equipped with dirt Stain detector 6-5-6；The light sensing device 6-5-2, spot detector 6-5-6 by signal receive transmitter 6-5-3 and The connection of 11 wireless control of electrical control cabinet.

Further, this section is the explanation to alternate row adsorbent equipment 6-5-4 structure in the present invention.The alternate row absorption Device 6-5-4 includes: horizontal swing arm 6-5-4-1, alternate row forearm 6-5-4-2, preposition telescoping cylinder 6-5-4-3, alternate row postbrachium 6-5-4-4, postposition telescoping cylinder 6-5-4-5, fixed disk 6-5-4-6, sucker 6-5-4-7, connecting flange 6-5-4-8, damping spring 6-5-4-9；The end horizontal swing arm 6-5-4-1 be equipped with alternate row forearm 6-5-4-2, the alternate row forearm 6-5-4-2 with Horizontal swing arm 6-5-4-1 rotation connection, is equipped with preposition telescoping cylinder between alternate row forearm 6-5-4-2 and horizontal swing arm 6-5-4-1 6-5-4-3, the preposition telescoping cylinder 6-5-4-3 are connect with 11 wireless control of electrical control cabinet；The alternate row postbrachium 6-5-4-4 Positioned at the end alternate row forearm 6-5-4-2, alternate row postbrachium 6-5-4-4 and alternate row forearm 6-5-4-2 are rotatablely connected, alternate row Postposition telescoping cylinder 6-5-4-5, the postposition telescoping cylinder 6-5-4-5 are equipped between postbrachium 6-5-4-4 and alternate row forearm 6-5-4-2 It is connect with 11 wireless control of electrical control cabinet；The fixed disk 6-5-4-6 is located at the lower surface alternate row postbrachium 6-5-4-4；It is fixed Sucker 6-5-4-7 is equipped with below disk 6-5-4-6, be elastomeric material, bell mouth shape, at center by conduit, air valve with Minipump connection, is fixedly connected between the sucker 6-5-4-7 and fixed disk 6-5-4-6 by connecting flange 6-5-4-8； The one end the damping spring 6-5-4-9 is connected and fixed disk 6-5-4-6, the damping spring 6-5-4-9 other end and connecting flange 6-5- 4-8 connection.

Further, this section is the explanation to swing arm 6-5-4-1 structure horizontal in the present invention.The horizontal swing arm 6-5- 4-1 includes: the U-shaped shell 6-5-4-1-1 of horizontal swing arm, vertical rotation axis 6-5-4-1-2, vertical rotation axis fixture block 6-5-4-1-3, water Flat turn moving axis 6-5-4-1-4, circular radiating pipe group 6-5-4-1-5, water inlet solenoid valve 6-5-4-1-6, horizontal swing arm water inlet 6-5-4-1-7, water outlet solenoid valve 6-5-4-1-8, horizontal swing arm water outlet 6-5-4-1-9；The U-shaped shell 6-5- of horizontal swing arm Horizontal rotating shaft 6-5-4-1-4, horizontal rotating shaft 6-5-4-1-4 and the U-shaped shell 6- of horizontal swing arm are equipped between the body of the two sides 4-1-1 5-4-1-1 rotation connection；The circular radiating pipe group 6-5-4-1-5 is socketed in the both ends horizontal rotating shaft 6-5-4-1-4, and annular Heat-dissipating pipe group 6-5-4-1-5 is located inside the U-shaped shell 6-5-4-1-1 of horizontal swing arm, and the side of circular radiating pipe group 6-5-4-1-5 is set There is horizontal swing arm water inlet 6-5-4-1-7, the other side of circular radiating pipe group 6-5-4-1-5 is equipped with horizontal swing arm water outlet 6-5- 4-1-9；The horizontal swing arm water inlet 6-5-4-1-7 and horizontal swing arm water outlet 6-5-4-1-9 with circular radiating pipe group 6- 5-4-1-5 perforation connection, the horizontal top swing arm water inlet 6-5-4-1-7 is equipped with water inlet solenoid valve 6-5-4-1-6, horizontal swing arm The top water outlet 6-5-4-1-9 is equipped with water outlet solenoid valve 6-5-4-1-8；The water inlet solenoid valve 6-5-4-1-6 and water outlet Mouth solenoid valve 6-5-4-1-8 is connect with 11 wireless control of electrical control cabinet respectively；The vertical rotation axis fixture block 6-5-4-1-3 is solid Surely it is connected to the side horizontal swing arm U-shaped shell 6-5-4-1-1, the quantity of vertical rotation axis fixture block 6-5-4-1-3 is 2, adjacent perpendicular Vertical rotation axis 6-5-4-1-2 is equipped between straight rotation axis fixture block 6-5-4-1-3, vertical rotation axis 6-5-4-1-2 turns with vertical Moving axis fixture block 6-5-4-1-3 rotation connection.

Further, this section is the explanation to telescoping cylinder 6-5-4-3 structure preposition in the present invention.The preposition telescoping cylinder 6- 5-4-3 includes: horizontal rotating shaft 6-5-4-1-4, preposition telescoping cylinder pinning 6-5-4-3-2, telescoping cylinder hydraulic mechanism 6-5-4-3- 3；The horizontal rotating shaft 6-5-4-1-4 is fixedly connected on the inside of the U-shaped shell 6-5-4-1-1 of horizontal swing arm, horizontal rotating shaft 6-5- Preposition telescoping cylinder pinning 6-5-4-3-2 is rotatably connected on 4-1-4, and preposition telescoping cylinder pinning 6-5-4-3-2 is socketed in level Outside rotation axis 6-5-4-1-4, high temperature locking device is equipped with inside preposition telescoping cylinder pinning 6-5-4-3-2, when temperature is more than 100 Horizontal rotating shaft 6-5-4-1-4 is locked simultaneously sound-light alarm by degree, preposition telescoping cylinder pinning 6-5-4-3-2；The preposition telescoping cylinder The side of pinning 6-5-4-3-2 is equipped with telescoping cylinder hydraulic mechanism 6-5-4-3-3, one end of telescoping cylinder hydraulic mechanism 6-5-4-3-3 It is fixedly connected with preposition telescoping cylinder pinning 6-5-4-3-2, the other end and alternate row forearm 6-5-4-2 are rotatablely connected.

Further, this section is the explanation to telescoping cylinder hydraulic mechanism 6-5-4-3-3 structure in the present invention.The telescoping cylinder Hydraulic mechanism 6-5-4-3-3 includes: hydraulic mechanism shell 6-5-4-3-3-1,1# oil inlet port 6-5-4-3-3-2,1# inlet valve 6-5-4-3-3-3, hydraulic mechanism oil pump 6-5-4-3-3-4 lead to beam hanger 6-5-4-3-3-5, piston left chamber 6-5-4-3-3- 6,2# inlet valve 6-5-4-3-3-7,2# oil inlet port 6-5-4-3-3-8, hydraulic mechanism telescopic rod 6-5-4-3-3-9, hydraulic press Structure moves piston 6-5-4-3-3-10, piston right chamber 6-5-4-3-3-11, hydraulic mechanism tail portion pinning 6-5-4-3-3-12； One end of the hydraulic mechanism shell 6-5-4-3-3-1 is fixedly connected on the preposition side telescoping cylinder pinning 6-5-4-3-2, hydraulic press Structure shell 6-5-4-3-3-1 is hollow structure；The mobile piston 6-5-4-3-3-10 of the hydraulic mechanism is located at hydraulic mechanism shell Inside 6-5-4-3-3-1, the mobile piston 6-5-4-3-3-10 of hydraulic mechanism and hydraulic mechanism shell 6-5-4-3-3-1 inner wall are slided Connection, the mobile piston 6-5-4-3-3-10 of hydraulic mechanism will be divided into piston left side cavity inside hydraulic mechanism shell 6-5-4-3-3-1 Room 6-5-4-3-3-6 and piston right chamber 6-5-4-3-3-11；The hydraulic mechanism telescopic rod 6-5-4-3-3-9 is located at piston In left chamber 6-5-4-3-3-6, one end of hydraulic mechanism telescopic rod 6-5-4-3-3-9 and the mobile piston 6-5-4- of hydraulic mechanism 3-3-10 is fixedly connected, the other end and hydraulic mechanism tail portion pinning 6-5-4-3-3- of hydraulic mechanism telescopic rod 6-5-4-3-3-9 12 are fixedly connected, and wherein pinning 6-5-4-3-3-12 in hydraulic mechanism tail portion is connect with alternate row forearm 6-5-4-2；The 1# oil inlet Valve 6-5-4-3-3-3 and 2# inlet valve 6-5-4-3-3-7 is respectively provided at the both ends of the side hydraulic mechanism shell 6-5-4-3-3-1, 1# oil inlet port 6-5-4-3-3-2 is connected by 1# inlet valve 6-5-4-3-3-3 and piston right chamber 6-5-4-3-3-11 perforation It connects, 2# inlet valve 6-5-4-3-3-7 is penetrated through by 2# oil inlet port 6-5-4-3-3-8 and piston left chamber 6-5-4-3-3-6 Connection；The hydraulic mechanism oil pump 6-5-4-3-3-4 is located at the 1# oil inlet port side 6-5-4-3-3-2, hydraulic mechanism oil pump 6- 5-4-3-3-4 and 1# oil inlet port 6-5-4-3-3-2 perforation connects；The logical beam hanger 6-5-4-3-3-5 hollow structure, both ends point It is not connected to 1# inlet valve 6-5-4-3-3-3,2# inlet valve 6-5-4-3-3-7；Described 1# inlet valve 6-5-4-3-3-3,2# into Oil valve 6-5-4-3-3-7 and hydraulic mechanism oil pump 6-5-4-3-3-4 are connect with 11 wireless control of electrical control cabinet.

Further, this section is the explanation to sucker 6-5-4-7 structure in the present invention.The sucker 6-5-4-7 includes: to inhale Disk adsorbs bottom surface 6-5-4-7-1, adsorbs the curved shape conduit 6-5-4-7-2 in bottom surface, air volume regulating device 6-5-4-7-3, sucker ventilation Block 6-5-4-7-4, horizontal gas delivery pipe 6-5-4-7-5, sucker ventilation alms bowl 6-5-4-7-6, sucker air inlet pipe 6-5-4-7-7, Sucker air cleaning device 6-5-4-7-8；The sucker suction bottom surface 6-5-4-7-1 is located at the bottom entire sucker 6-5-4-7, inhales It is umbrella-shaped structure that disk, which adsorbs bottom surface 6-5-4-7-1,；The curved shape conduit 6-5-4-7-2 in absorption bottom surface is located at sucker suction bottom surface 6- Above 5-4-7-1, the bottom end of the absorption curved shape conduit 6-5-4-7-2 in bottom surface is connected to sucker suction bottom surface 6-5-4-7-1, and to suction Disk adsorbs bottom surface 6-5-4-7-1 and carries out gas transmission and pumping；The sucker ventilation block 6-5-4-7-4 is located at the absorption curved shape conduit in bottom surface The quantity of the top 6-5-4-7-2 side, sucker ventilation block 6-5-4-7-4 is 2, between adjacent sucker ventilation block 6-5-4-7-4 It is fixedly connected with horizontal gas delivery pipe 6-5-4-7-5, sucker ventilates block 6-5-4-7-4 as lock quick fixation structure, realization and water The flat fast quick-detach of air shooter 6-5-4-7-5；One end of the horizontal gas delivery pipe 6-5-4-7-5 is logical by left side sucker The curved shape conduit 6-5-4-7-2 perforation of air parcel 6-5-4-7-4 and absorption bottom surface connects, and horizontal gas delivery pipe 6-5-4-7-5's is another One end is connected by right side sucker ventilation block 6-5-4-7-4 and sucker ventilation alms bowl 6-5-4-7-6 perforation, wherein sucker ventilation alms bowl 6- 5-4-7-6 is located inside right side sucker ventilation block 6-5-4-7-4；The air volume regulating device 6-5-4-7-3 is fixedly connected on suction Disk is ventilated above block 6-5-4-7-4, and is connect with gate valve inside sucker ventilation block 6-5-4-7-4, air volume regulating device 6-5-4- 7-3 is connect with 11 wireless control of electrical control cabinet；The sucker air inlet pipe 6-5-4-7-7 is located at right side sucker ventilation block 6-5-4- Side outside 7-4, the both ends of sucker air inlet pipe 6-5-4-7-7 are cleaned with sucker ventilation alms bowl 6-5-4-7-6 and sucker gas respectively Device 6-5-4-7-8 perforation connection, wherein it is right to be located at sucker air inlet pipe 6-5-4-7-7 by sucker air cleaning device 6-5-4-7-8 Side.

Further, this section is the explanation to sucker air cleaning device 6-5-4-7-8 structure in the present invention.The sucker Air cleaning device 6-5-4-7-8 includes: cleaning device blowing mouth 6-5-4-7-8-1, cleaning device shell 6-5-4-7-8-2, The slow drop board group 6-5-4-7-8-3, impurity absorption block 6-5-4-7-8-4, gas filtration net 6-5-4-7-8-5 of waveform, cleaning solution Pump 6-5-4-7-8-6, cleaning solution ingress pipe 6-5-4-7-8-7, cleaning device gas outlet 6-5-4-7-8-8, outlet velar plate 6- 5-4-7-8-9, cover board rot 6-5-4-7-8-10；The side of the cleaning device shell 6-5-4-7-8-2 is equipped with sanitizer cartridge It sets and is passed through inside blowing mouth 6-5-4-7-8-1, cleaning device blowing mouth 6-5-4-7-8-1 and cleaning device shell 6-5-4-7-8-2 Logical, cleaning device shell 6-5-4-7-8-2 is cuboid hollow structure；The cleaning device gas outlet 6-5-4-7-8-8 is located at The top cleaning device shell 6-5-4-7-8-2, cleaning device gas outlet 6-5-4-7-8-8 and cleaning device shell 6-5-4-7-8- 2 internal run-throughs are equipped with outlet velar plate 6-5-4-7-8-9 at the port 6-5-4-7-8-8 of cleaning device gas outlet；The gas outlet The side of cover board 6-5-4-7-8-9 be equipped with cover board rot 6-5-4-7-8-10, cover board rot 6-5-4-7-8-10 axis with Outlet velar plate 6-5-4-7-8-9 is fixedly connected, and outlet velar plate 6-5-4-7-8-9 is cover board rot 6-5-4-7-8-10's It is opened or closed under effect, cover plate rot 6-5-4-7-8-10 is connect with 11 wireless control of electrical control cabinet；The wave The slow drop board group 6-5-4-7-8-3 of shape wave is located inside cleaning device shell 6-5-4-7-8-2, quantity is 2 groups, promotes dust slow Drop；The impurity absorption block 6-5-4-7-8-4 is located at the slow drop lower part board group 6-5-4-7-8-3 of waveform, quantity is 4, impurity Attraction block 6-5-4-7-8-4 is made of porosity active carbon pressing mold, equidistant point between other impurities Attraction block 6-5-4-7-8-4 Cloth；Gas filtration net 6-5-4-7-8-5 is equipped with below impurity absorption block 6-5-4-7-8-4；The slow drop board group 6-5- of the waveform 4-7-8-3, impurity absorption block 6-5-4-7-8-4 and gas filter screen 6-5-4-7-8-5 with cleaning device shell 6-5-4-7- 8-2 inner wall is fixedly connected；The cleaning liquid pump 6-5-4-7-8-6 is located at side outside cleaning device shell 6-5-4-7-8-2, clearly Lotion pumps 6-5-4-7-8-6 is connect with cleaning device shell 6-5-4-7-8-2 by cleaning solution ingress pipe 6-5-4-7-8-7, and Cleaning solution one end ingress pipe 6-5-4-7-8-7 and cleaning device shell 6-5-4-7-8-2 internal run-through, and dispersed in the form of water mist Inside cleaning device shell 6-5-4-7-8-2；The cleaning liquid pump 6-5-4-7-8-6 and 11 wireless control of electrical control cabinet connect It connects；The cleaning device bottom shell 6-5-4-7-8-2 is equipped with return pipe, and return pipe is connected to cleaning liquid pump 6-5-4-7-8-6.

Further, this section is the explanation to connecting flange 6-5-4-8 structure in the present invention.The connecting flange 6-5-4- 8 include: connecting flange external disk 6-5-4-8-1, anti-deformation steel plate 6-5-4-8-2；The connecting flange external disk 6-5-4-8-1 is circle Column structure, connecting flange external disk 6-5-4-8-1 with a thickness of 5cm~8cm, the diameter of connecting flange external disk 6-5-4-8-1 is 25 cm~40cm；The anti-deformation steel plate 6-5-4-8-2 is located inside connecting flange external disk 6-5-4-8-1, anti-deformation steel plate 6- 5-4-8-2 is round reticular structure, and the diameter of anti-deformation steel plate 6-5-4-8-2 is straight less than connecting flange external disk 6-5-4-8-1 Diameter, the quantity of anti-deformation steel plate 6-5-4-8-2 are 2, the distance between adjacent anti-deformation steel plate 6-5-4-8-2 be 2cm~ Deformation when 4cm, anti-deformation steel plate 6-5-4-8-2 prevent connecting flange 6-5-4-8 uneven heating.

Further, this section is the explanation to damping spring 6-5-4-9 structure in the present invention.The damping spring 6-5-4- 9 include: damping spring mandril 6-5-4-9-1, spring body 6-5-4-9-2, damping spring air cooling equipment 6-5-4-9-3, damping bullet Spring collet 6-5-4-9-4；The damping spring collet 6-5-4-9-4 is located at the bottom entire damping spring 6-5-4-9, damping spring The two sides collet 6-5-4-9-4 are connect with connecting flange 6-5-4-8；The damping spring air cooling equipment 6-5-4-9-3 is located at damping Above spring collet 6-5-4-9-4, and the damping spring bottom air cooling equipment 6-5-4-9-3 and damping spring collet 6-5-4-9-4 It is fixedly connected；The spring body 6-5-4-9-2 is located at outside damping spring air cooling equipment 6-5-4-9-3, spring body 6-5-4-9-2 Diameter be greater than the diameter of damping spring air cooling equipment 6-5-4-9-3, the bottom end spring body 6-5-4-9-2 and the air-cooled dress of damping spring The bottom 6-5-4-9-3 is set to be fixedly connected；The damping spring mandril 6-5-4-9-1 is fixedly connected on the top spring body 6-5-4-9-2 End, the damping spring two sides mandril 6-5-4-9-1 are connect with fixed disk 6-5-4-6.

Further, this section is the explanation to damping spring air cooling equipment 6-5-4-9-3 structure in the present invention.The damping Spring air cooling equipment 6-5-4-9-3 includes: air cooling equipment pedestal 6-5-4-9-3-1, air cooling equipment relieve heat pipe 6-5-4-9-3-2, Cold wind relief hole 6-5-4-9-3-3, air cooling equipment standpipe 6-5-4-9-3-4, cold wind distributor 6-5-4-9-3-5, air cooling equipment Blast pipe 6-5-4-9-3-6, standpipe rolling bearing 6-5-4-9-3-7；The cold wind distributor 6-5-4-9-3-5 is located at air-cooled dress It sets at pedestal 6-5-4-9-3-1 inside center, air cooling equipment pedestal 6-5-4-9-3-1 is cylindrical hollow structure；It is described air-cooled Device blast pipe 6-5-4-9-3-6 from air cooling equipment pedestal 6-5-4-9-3-1 outer wall side be inserted into, and with cold wind distributor 6-5- The perforation connection of the bottom 4-9-3-5；The air cooling equipment standpipe 6-5-4-9-3-4 is located above cold wind distributor 6-5-4-9-3-5, Air cooling equipment standpipe 6-5-4-9-3-4 is penetrated through by standpipe rolling bearing 6-5-4-9-3-7 and cold wind distributor 6-5-4-9-3-5 Connection, air cooling equipment standpipe 6-5-4-9-3-4 are hollow structure；The upper end device for cooling standpipe 6-5-4-9-3-4 is equipped with cold wind The quantity of relief hole 6-5-4-9-3-3, cold wind relief hole 6-5-4-9-3-3 are 6, adjacent cold wind relief hole 6-5-4-9-3-3 Between equidistantly distribute, the tangential outlet air of cold wind relief hole 6-5-4-9-3-3 is produced from rotatory force；The air cooling equipment relieve heat pipe 6-5-4-9-3-2 is located at outside air cooling equipment standpipe 6-5-4-9-3-4, is spacious at the top of air cooling equipment relieve heat pipe 6-5-4-9-3-2 Mouth structure, the diameter of air cooling equipment relieve heat pipe 6-5-4-9-3-2 are greater than the diameter of air cooling equipment standpipe 6-5-4-9-3-4, the two Between form cold air duct, cold air duct and cold wind distributor 6-5-4-9-3-5 are penetrated through；The standpipe rolling bearing 6-5-4-9- The outer ring 3-7 is connect with cold wind distributor 6-5-4-9-3-5, inner ring and the 6-5-4-9-3-4 connection of air cooling equipment standpipe, standpipe rotate Bearing 6-5-4-9-3-7 drives the 6-5-4-9-3-4 rotation of air cooling equipment standpipe.

Further, this section is the explanation to washing facility 6-5-5 structure in the present invention.The washing facility 6-5-5 packet Include: cleaning motor 6-5-5-1, impeller unit 6-5-5-2, gear train 6-5-5-3 clean disk 6-5-5-4, cleaning brush 6-5-5- 5, water system 6-5-5-6；The cleaning motor 6-5-5-1 is connect with 11 wireless control of electrical control cabinet, cleans motor 6-5- 5-1 output end is equipped with impeller unit 6-5-5-2, is blown washing surface by the wind-force that impeller unit 6-5-5-2 is generated after washing It is dry；The gear train 6-5-5-3 is located at below impeller unit 6-5-5-2, gear train 6-5-5-3 and cleaning motor 6-5-5- 1 output main shaft engagement connection；The cleaning disk 6-5-5-4 is located at the lower surface gear train 6-5-5-3, and the two is drivingly connected, clearly Dishwashing 6-5-5-4 quantity is 3 groups, and gear train 6-5-5-3 drives cleaning disk 6-5-5-4 rotation；Clean the lower surface disk 6-5-5-4 Equipped with cleaning brush 6-5-5-5；The water system 6-5-5-6 is located at the upper surface gear train 6-5-5-3, water system 6-5-5- 6 are mutually communicated with cleaning disk 6-5-5-4.

One kind integrated processor of sewage containing carbon tetrachloride disclosed by the invention, the advantage is that: the device is using automatic control System, easy to operate, efficient work is steady, long working life.

Detailed description of the invention

Fig. 1 is a kind of integrated processor structure chart of sewage containing carbon tetrachloride in the present invention.

Fig. 2 is 14 structure chart of bracket in the present invention.

Fig. 3 is 6 structure chart of heavy-metal ion removal flow tank in the present invention.

Fig. 4 is coagulation paddle 6-3 structure chart in the present invention.

Fig. 5 is vane-driver 6-3-4 structure chart in the present invention.

Fig. 6 is pot cleaner 6-5 structure chart in the present invention.

Fig. 7 is alternate row adsorbent equipment 6-5-4 structure chart in the present invention.

Fig. 8 is horizontal swing arm 6-5-4-1 structure chart in the present invention.

Fig. 9 is preposition telescoping cylinder 6-5-4-3 structure chart in the present invention.

Figure 10 is telescoping cylinder hydraulic mechanism 6-5-4-3-3 structure chart in the present invention.

Figure 11 is sucker 6-5-4-7 structure chart in the present invention.

Figure 12 is sucker air cleaning device 6-5-4-7-8 structure chart in the present invention.

Figure 13 is connecting flange 6-5-4-8 structure chart in the present invention.

Figure 14 is damping spring 6-5-4-9 structure chart in the present invention.

Figure 15 is damping spring air cooling equipment 6-5-4-9-3 structure chart in the present invention.

Figure 16 is washing facility 6-5-5 structure chart in the present invention.

Specific embodiment

With reference to the accompanying drawing, embodiment carries out into one one kind integrated processor of sewage containing carbon tetrachloride provided by the invention Walk explanation.

Embodiment

As shown in Figure 1, being a kind of integrated processor structure chart of sewage containing carbon tetrachloride in the present invention.As seen from the figure, one The kind integrated processor of sewage containing carbon tetrachloride, comprising: level-one sewage buffer pool 1, sewage transport pump 2, level 2 buffering pond 3 are biochemical Reaction column force (forcing) pump 4, biochemical reaction column 5, heavy-metal ion removal flow tank 6, mud discharging pipe 7, probe tube 8, clear water discharge Pipe 9, biochemical reaction column outlet pipe 10, electrical control cabinet 11, overflow water recovery tube 12, anaerobic fermentation case 13, bracket 14, sludge return Stream and discharge tee tube 15；Level-one sewage buffer pool 1 positioned at side is sent out by sewage transport pump 2 with the anaerobism for being located at upper left quarter Ferment case 13 is connected to, and 13 enclosed construction of anaerobic fermentation case, bottom are equipped with sludge reflux and discharge tee tube 15；Under anaerobic fermentation case 13 Portion is equipped with level 2 buffering pond 3, the connection of the two pipeline；13 top side of anaerobic fermentation case is equipped with overflow water recovery tube 12, the two pipe Road connection, overflow water recovery tube 12 are discharged water and flow back into level-one sewage buffer pool 1；Portion is equipped with electrical control cabinet on the support 14 11；14 side of bracket is equipped with biochemical reaction column 5, and the biochemical reaction column 5 is horizontal positioned, and quantity is five, parallel with one another, biochemical Filler is contained in 5 hollow structure of reaction column, inside, and shell is made of high molecular material, the preposition mouth in parallel of biochemical reaction column 5 with External air pump connection, the biochemical reaction column 5 are connected to by biochemical reaction column force (forcing) pump 4 with level 2 buffering pond 3；The removal weight Metal ion flow tank 6 is connected to by biochemical reaction column outlet pipe 10 with biochemical reaction column 5,10 top of biochemical reaction column outlet pipe Equipped with gas outlet；6 lower part of heavy-metal ion removal flow tank is equipped with mud discharging pipe 7, the connection of the two pipeline；Go removing heavy metals from Sub- 6 top of flow tank is equipped with clear water delivery pipe 9, the connection of the two pipeline；6 waist of heavy-metal ion removal flow tank is equipped with probe tube 8, the connection of the two pipeline；The sewage transport pump 2, biochemical reaction column force (forcing) pump 4, external air pump and 11 conducting wire control of electrical control cabinet System link.

As shown in Fig. 2, being 14 structure chart of bracket in the present invention.As seen from the figure, the bracket 14 includes: carriage drive electricity Machine 14-1, change gear box 14-2, built-in gear 14-3 contain rack gear sliding rail 14-4, rack shell 14-5, fixed block 14- 6, L-type sliding block 14-7, bracket base 14-8；Wherein carriage drive motor 14-1, change gear box 14-2, built-in gear 14- 3, fixed block 14-6, L-type sliding block 14-7, bracket base 14-8 structure are integral, which separates with rack shell 14-5, and energy Rack shell 14-5 is enough promoted to move up and down；It is described to be fixed on inside rack shell 14-5 containing rack gear sliding rail 14-4；The L-type Sliding block 14-7 is vertically fixed on the top bracket base 14-8；Built-in gear 14-3, one end are equipped with inside L-type sliding block 14-7 Connection is engaged with containing rack gear sliding rail 14-4, the other end engages connection with change gear box 14-2；Change gear box 14-2's is another One end and carriage drive motor 14-1 are sequentially connected；The carriage drive motor 14-1 is located at the lower end change gear box 14-2 one Side, carriage drive motor 14-1 are connected by conducting wire with the control of electrical control cabinet 11；The fixed block 14-6 is located at L-type sliding block The top 14-7, the end fixed block 14-6 are stretched out outside rack shell 14-5, and waist is slidably connected with rack shell 14-5, fixed The end block 14-6 is lead composition, is used for counterweight；The change gear box 14-2 is arranged in the side L-type sliding block 14-7.

As shown in figure 3, being 6 structure chart of heavy-metal ion removal flow tank in the present invention.As seen from the figure, the removal weight Metal ion flow tank 6 includes: shower washing device 6-1, flocculant adding tube 6-2, coagulation paddle 6-3, stirring motor 6- 4, pot cleaner 6-5；Shower washing device 6-1 positioned at bottom, one end are connected to external fresh water pump, and the other end generates 8 spray heads being directed upwards towards；The top shower washing device 6-1 be equipped with flocculant adding tube 6-2, flocculant adding tube 6-2 its Middle one end annular tube structure is equipped with multiple showers on its surface, and flocculant adding tube 6-2 is to heavy-metal ion removal flow tank 6 Interior addition crowndaisy chrysanthemum plant polyose flocculant；Coagulation paddle 6-3, the coagulation stirring are equipped on the flocculant top adding tube 6-2 The leaf 6-3 and stirring motor 6-4 of upper part is drivingly connected；It is clear that tank body is equipped in 6 interior side of heavy-metal ion removal flow tank Cleaning device 6-5, waterproofing design, latch hook are fixed on wall fixed position, connect with 11 wireless control of electrical control cabinet.

As shown in figure 4, being coagulation paddle 6-3 structure chart in the present invention.As seen from the figure, the coagulation paddle 6-3 It include: blade slide plate 6-3-1, blade sliding rail 6-3-2, sliding rail rack 6-3-3, vane-driver 6-3-4, slide plate linkage support 6- 3-5；Blade slide plate 6-3-1 quantity positioned at periphery is 7, is equipped with blade sliding rail 6-3- on the inside of each blade slide plate 6-3-1 2, the two is slidably connected, and blade slide plate 6-3-1 is slided up and down along blade sliding rail 6-3-2；It is equipped on the inside of blade sliding rail 6-3-2 Sliding rail rack 6-3-3, the two connection, sliding rail rack 6-3-3 are vertically arranged 7 blade sliding rail 6-3-2 angularly；In sliding rail The lower part bracket 6-3-3 is equipped with slide plate linkage support 6-3-5, and blade slide plate 6-3-1 is connect with slide plate linkage support 6-3-5, slide plate Linkage support 6-3-5 is vertically arranged 7 blade slide plate 6-3-1 angularly；Blade is fixed on the top sliding rail rack 6-3-3 Driver 6-3-4, vane-driver 6-3-4 and blade slide plate 6-3-1 are drivingly connected, vane-driver 6-3-4 and electrical control The connection of 11 wireless control of cabinet.

As shown in figure 5, being vane-driver 6-3-4 structure chart in the present invention.As seen from the figure, the vane-driver 6- 3-4 includes: driving fluted disc 6-3-4-1, and fluted disc left and right adjusting device 6-3-4-2, slide plate positioning guide wheel 6-3-4-3, fluted disc front and back is adjusted Device 6-3-4-4 is saved, by drive rack 6-3-4-5, fluted disc driver 6-3-4-6；It is described to be fixedly mounted by drive rack 6-3-4-5 On blade slide plate 6-3-1, connection is engaged with driving fluted disc 6-3-4-1 by drive rack 6-3-4-5；Drive fluted disc 6-3-4-1 Side is equipped with fluted disc driver 6-3-4-6, and the two is drivingly connected；The side fluted disc 6-3-4-1 is driven to be equipped with fluted disc left and right adjusting device 6-3-4-2, to driving fluted disc 6-3-4-1 or so micro-adjustment；The other side fluted disc 6-3-4-1 is driven to be equipped with fluted disc Fore/aft regulator 6-3-4-4, to micro-adjustment before and after driving fluted disc 6-3-4-1；It is positioned on the fluted disc top Fore/aft regulator 6-3-4-4 equipped with slide plate Guide wheel 6-3-4-3, slide plate positioning guide wheel 6-3-4-3 and blade slide plate 6-3-1 roll connection, and limit blade slide plate 6-3-1 only It can move up and down.

As shown in fig. 6, being pot cleaner 6-5 structure chart in the present invention.As seen from the figure, the pot cleaner 6-5 includes: casing 6-5-1, bright sensing device 6-5-2, and signal receives transmitter 6-5-3, alternate row adsorbent equipment 6-5-4, Washing facility 6-5-5, spot detector 6-5-6；The upper surface the casing 6-5-1 is equipped with bright sensing device 6-5-2, in light The lower part sensing device 6-5-2 is equipped with battery, movable motor, water tank, water pump；The light side sensing device 6-5-2 is equipped with letter Number reception transmitter 6-5-3, the alternate row adsorbent equipment 6-5-4 are located at casing 6-5-1 apex angle surface, alternate row adsorbent equipment 6-5-4 quantity is 4 groups, and the washing facility 6-5-5 is located at casing 6-5-1 central lower, and the lower surface washing facility 6-5-5 is equipped with Spot detector 6-5-6；The light sensing device 6-5-2, spot detector 6-5-6 receive transmitter 6-5-3 by signal It is connect with 11 wireless control of electrical control cabinet.

As shown in fig. 7, being alternate row adsorbent equipment 6-5-4 structure chart in the present invention.As seen from the figure, the alternate row is inhaled Adsorption device 6-5-4 includes: horizontal swing arm 6-5-4-1, alternate row forearm 6-5-4-2, preposition telescoping cylinder 6-5-4-3, after alternate row Arm 6-5-4-4, postposition telescoping cylinder 6-5-4-5, fixed disk 6-5-4-6, sucker 6-5-4-7, connecting flange 6-5-4-8, damping bullet Spring 6-5-4-9；The end horizontal swing arm 6-5-4-1 is equipped with alternate row forearm 6-5-4-2, the alternate row forearm 6-5-4-2 It is rotatablely connected, is equipped between alternate row forearm 6-5-4-2 and horizontal swing arm 6-5-4-1 preposition flexible with horizontal swing arm 6-5-4-1 Cylinder 6-5-4-3, the preposition telescoping cylinder 6-5-4-3 are connect with 11 wireless control of electrical control cabinet；The alternate row postbrachium 6-5- 4-4 is located at the end alternate row forearm 6-5-4-2, and alternate row postbrachium 6-5-4-4 and alternate row forearm 6-5-4-2 are rotatablely connected, hand over For between row postbrachium 6-5-4-4 and alternate row forearm 6-5-4-2 be equipped with postposition telescoping cylinder 6-5-4-5, the postposition telescoping cylinder 6- 5-4-5 is connect with 11 wireless control of electrical control cabinet；The fixed disk 6-5-4-6 is located at the lower surface alternate row postbrachium 6-5-4-4； Sucker 6-5-4-7 is equipped with below fixed disk 6-5-4-6, to pass through conduit, gas at elastomeric material, bell mouth shape, center Valve is connected to minipump, is fixed between the sucker 6-5-4-7 and fixed disk 6-5-4-6 by connecting flange 6-5-4-8 Connection；The one end the damping spring 6-5-4-9 is connected and fixed disk 6-5-4-6, the damping spring 6-5-4-9 other end and connecting flange 6-5-4-8 connection.

As shown in figure 8, being horizontal swing arm 6-5-4-1 structure chart in the present invention.As seen from the figure, horizontal swing arm 6- described in 5-4-1 includes: the U-shaped shell 6-5-4-1-1 of horizontal swing arm, vertical rotation axis 6-5-4-1-2, vertical rotation axis fixture block 6-5-4-1-3, Horizontal rotating shaft 6-5-4-1-4, circular radiating pipe group 6-5-4-1-5, water inlet solenoid valve 6-5-4-1-6, horizontal swing arm water inlet Mouth 6-5-4-1-7, water outlet solenoid valve 6-5-4-1-8, horizontal swing arm water outlet 6-5-4-1-9；The U-shaped shell 6- of horizontal swing arm Horizontal rotating shaft 6-5-4-1-4, horizontal rotating shaft 6-5-4-1-4 and the U-shaped shell of horizontal swing arm are equipped between the body of the two sides 5-4-1-1 6-5-4-1-1 rotation connection；The circular radiating pipe group 6-5-4-1-5 is socketed in the both ends horizontal rotating shaft 6-5-4-1-4, and ring Shape heat-dissipating pipe group 6-5-4-1-5 is located inside the U-shaped shell 6-5-4-1-1 of horizontal swing arm, the side of circular radiating pipe group 6-5-4-1-5 Equipped with horizontal swing arm water inlet 6-5-4-1-7, the other side of circular radiating pipe group 6-5-4-1-5 is equipped with horizontal swing arm water outlet 6- 5-4-1-9；The horizontal swing arm water inlet 6-5-4-1-7 and horizontal swing arm water outlet 6-5-4-1-9 with circular radiating pipe group 6-5-4-1-5 perforation connection, the horizontal top swing arm water inlet 6-5-4-1-7 is equipped with water inlet solenoid valve 6-5-4-1-6, horizontal pendulum The arm top water outlet 6-5-4-1-9 is equipped with water outlet solenoid valve 6-5-4-1-8；The water inlet solenoid valve 6-5-4-1-6 and go out Mouth of a river solenoid valve 6-5-4-1-8 is connect with 11 wireless control of electrical control cabinet respectively；The vertical rotation axis fixture block 6-5-4-1-3 It is fixedly connected on the side horizontal swing arm U-shaped shell 6-5-4-1-1, the quantity of vertical rotation axis fixture block 6-5-4-1-3 is 2, adjacent It is equipped with vertical rotation axis 6-5-4-1-2 between vertical rotation axis fixture block 6-5-4-1-3, vertical rotation axis 6-5-4-1-2 and vertical Rotation axis fixture block 6-5-4-1-3 rotation connection.

As shown in figure 9, being preposition telescoping cylinder 6-5-4-3 structure chart in the present invention.As seen from the figure, the preposition telescoping cylinder 6-5-4-3 includes: horizontal rotating shaft 6-5-4-1-4, preposition telescoping cylinder pinning 6-5-4-3-2, telescoping cylinder hydraulic mechanism 6-5-4- 3-3；The horizontal rotating shaft 6-5-4-1-4 is fixedly connected on the inside of the U-shaped shell 6-5-4-1-1 of horizontal swing arm, horizontal rotating shaft 6- Preposition telescoping cylinder pinning 6-5-4-3-2 is rotatably connected on 5-4-1-4, and preposition telescoping cylinder pinning 6-5-4-3-2 is socketed in water Outside flat turn moving axis 6-5-4-1-4, high temperature locking device is equipped with inside preposition telescoping cylinder pinning 6-5-4-3-2, when temperature is more than 100 degree, horizontal rotating shaft 6-5-4-1-4 is locked simultaneously sound-light alarm by preposition telescoping cylinder pinning 6-5-4-3-2；It is described preposition flexible The side of cylinder pinning 6-5-4-3-2 be equipped with telescoping cylinder hydraulic mechanism 6-5-4-3-3, the one of telescoping cylinder hydraulic mechanism 6-5-4-3-3 End is fixedly connected with preposition telescoping cylinder pinning 6-5-4-3-2, and the other end and alternate row forearm 6-5-4-2 are rotatablely connected.

It as shown in Figure 10, is telescoping cylinder hydraulic mechanism 6-5-4-3-3 structure chart in the present invention.As seen from the figure, described to stretch Contracting cylinder hydraulic mechanism 6-5-4-3-3 include: hydraulic mechanism shell 6-5-4-3-3-1,1# oil inlet port 6-5-4-3-3-2,1# into Oil valve 6-5-4-3-3-3, hydraulic mechanism oil pump 6-5-4-3-3-4 lead to beam hanger 6-5-4-3-3-5, piston left chamber 6-5-4- 3-3-6,2# inlet valve 6-5-4-3-3-7,2# oil inlet port 6-5-4-3-3-8, hydraulic mechanism telescopic rod 6-5-4-3-3-9, liquid Press mechanism moves piston 6-5-4-3-3-10, piston right chamber 6-5-4-3-3-11, hydraulic mechanism tail portion pinning 6-5-4-3- 3-12；One end of the hydraulic mechanism shell 6-5-4-3-3-1 is fixedly connected on the preposition side telescoping cylinder pinning 6-5-4-3-2, Hydraulic mechanism shell 6-5-4-3-3-1 is hollow structure；The mobile piston 6-5-4-3-3-10 of the hydraulic mechanism is located at hydraulic press Inside structure shell 6-5-4-3-3-1, in the mobile piston 6-5-4-3-3-10 and hydraulic mechanism shell 6-5-4-3-3-1 of hydraulic mechanism Wall is slidably connected, and the mobile piston 6-5-4-3-3-10 of hydraulic mechanism will be divided into piston inside hydraulic mechanism shell 6-5-4-3-3-1 Left chamber 6-5-4-3-3-6 and piston right chamber 6-5-4-3-3-11；Hydraulic mechanism telescopic rod 6-5-4-3-3-9 In in piston left chamber 6-5-4-3-3-6, one end of hydraulic mechanism telescopic rod 6-5-4-3-3-9 and hydraulic mechanism move piston 6-5-4-3-3-10 is fixedly connected, the other end and hydraulic mechanism tail portion pinning 6-5- of hydraulic mechanism telescopic rod 6-5-4-3-3-9 4-3-3-12 is fixedly connected, and wherein pinning 6-5-4-3-3-12 in hydraulic mechanism tail portion is connect with alternate row forearm 6-5-4-2；It is described 1# inlet valve 6-5-4-3-3-3 and 2# inlet valve 6-5-4-3-3-7 is respectively provided at the side hydraulic mechanism shell 6-5-4-3-3-1 Both ends, 1# oil inlet port 6-5-4-3-3-2 are passed through by 1# inlet valve 6-5-4-3-3-3 and piston right chamber 6-5-4-3-3-11 Lead to and connect, 2# inlet valve 6-5-4-3-3-7 passes through 2# oil inlet port 6-5-4-3-3-8 and piston left chamber 6-5-4-3-3-6 Perforation connection；The hydraulic mechanism oil pump 6-5-4-3-3-4 is located at the 1# oil inlet port side 6-5-4-3-3-2, hydraulic mechanism oil 6-5-4-3-3-4 and 1# oil inlet port 6-5-4-3-3-2 perforation is pumped to connect；The logical beam hanger 6-5-4-3-3-5 hollow structure, two End is connected to 1# inlet valve 6-5-4-3-3-3,2# inlet valve 6-5-4-3-3-7 respectively；The 1# inlet valve 6-5-4-3-3-3, 2# inlet valve 6-5-4-3-3-7 and hydraulic mechanism oil pump 6-5-4-3-3-4 are connect with 11 wireless control of electrical control cabinet.

It as shown in figure 11, is sucker 6-5-4-7 structure chart in the present invention.As seen from the figure, the sucker 6-5-4-7 packet Include: sucker suction bottom surface 6-5-4-7-1 adsorbs the curved shape conduit 6-5-4-7-2 in bottom surface, air volume regulating device 6-5-4-7-3, sucker Ventilate block 6-5-4-7-4, horizontal gas delivery pipe 6-5-4-7-5, sucker ventilation alms bowl 6-5-4-7-6, sucker air inlet pipe 6-5-4- 7-7, sucker air cleaning device 6-5-4-7-8；The sucker suction bottom surface 6-5-4-7-1 is located at the bottom entire sucker 6-5-4-7 Portion, sucker suction bottom surface 6-5-4-7-1 are umbrella-shaped structure；The curved shape conduit 6-5-4-7-2 in absorption bottom surface is located at sucker suction Above the 6-5-4-7-1 of bottom surface, the bottom end of the absorption curved shape conduit 6-5-4-7-2 in bottom surface is connected to sucker suction bottom surface 6-5-4-7-1, And gas transmission and pumping are carried out to sucker suction bottom surface 6-5-4-7-1；It is curved that the sucker ventilation block 6-5-4-7-4 is located at absorption bottom surface The quantity of the shape top conduit 6-5-4-7-2 side, sucker ventilation block 6-5-4-7-4 is 2, adjacent sucker ventilation block 6-5-4-7- Horizontal gas delivery pipe 6-5-4-7-5 is fixedly connected between 4, sucker is ventilated block 6-5-4-7-4 as lock quick fixation structure, realized With the fast quick-detach of horizontal gas delivery pipe 6-5-4-7-5；It is inhaled by left side one end of the horizontal gas delivery pipe 6-5-4-7-5 The curved shape conduit 6-5-4-7-2 perforation of disk ventilation block 6-5-4-7-4 and absorption bottom surface connects, horizontal gas delivery pipe 6-5-4-7-5 The other end connected by block 6-5-4-7-4 and sucker the alms bowl 6-5-4-7-6 perforation of ventilating of ventilating of right side sucker, wherein sucker is ventilated Alms bowl 6-5-4-7-6 is located inside right side sucker ventilation block 6-5-4-7-4；The air volume regulating device 6-5-4-7-3 is fixedly connected It is connect above sucker ventilation block 6-5-4-7-4, and with gate valve inside sucker ventilation block 6-5-4-7-4, air volume regulating device 6- 5-4-7-3 is connect with 11 wireless control of electrical control cabinet；The sucker air inlet pipe 6-5-4-7-7 is located at right side sucker ventilation block 6- Side outside 5-4-7-4, ventilate with sucker alms bowl 6-5-4-7-6 and sucker gas respectively at the both ends of sucker air inlet pipe 6-5-4-7-7 Cleaning device 6-5-4-7-8 perforation connection, wherein sucker air cleaning device 6-5-4-7-8 is located at sucker air inlet pipe 6-5-4-7- 7 right sides.

It as shown in figure 12, is sucker air cleaning device 6-5-4-7-8 structure chart in the present invention.As seen from the figure, described Sucker air cleaning device 6-5-4-7-8 includes: cleaning device blowing mouth 6-5-4-7-8-1, cleaning device shell 6-5-4-7- 8-2, slow drop board group 6-5-4-7-8-3, impurity absorption block 6-5-4-7-8-4, the gas filtration net 6-5-4-7-8-5 of waveform, clearly Lotion pumps 6-5-4-7-8-6, cleaning solution ingress pipe 6-5-4-7-8-7, cleaning device gas outlet 6-5-4-7-8-8, outlet lid Plate 6-5-4-7-8-9, cover board rot 6-5-4-7-8-10；The side of the cleaning device shell 6-5-4-7-8-2 is equipped with clear In clean device blowing mouth 6-5-4-7-8-1, cleaning device blowing mouth 6-5-4-7-8-1 and cleaning device shell 6-5-4-7-8-2 Portion's perforation, cleaning device shell 6-5-4-7-8-2 are cuboid hollow structure；The cleaning device gas outlet 6-5-4-7-8-8 Positioned at the top cleaning device shell 6-5-4-7-8-2, cleaning device gas outlet 6-5-4-7-8-8 and cleaning device shell 6-5-4- 7-8-2 internal run-through is equipped with outlet velar plate 6-5-4-7-8-9 at the port 6-5-4-7-8-8 of cleaning device gas outlet；It is described go out The side of port cover board 6-5-4-7-8-9 is equipped with cover board rot 6-5-4-7-8-10, in cover board rot 6-5-4-7-8-10 Axis is fixedly connected with outlet velar plate 6-5-4-7-8-9, and outlet velar plate 6-5-4-7-8-9 is in cover board rot 6-5-4-7-8- It is opened or closed under the action of 10, cover plate rot 6-5-4-7-8-10 is connect with 11 wireless control of electrical control cabinet；Institute It states that the slow drop board group 6-5-4-7-8-3 of waveform is located inside cleaning device shell 6-5-4-7-8-2, quantity is 2 groups, promotes dirt Angstrom slow drop；The impurity absorption block 6-5-4-7-8-4 is located at the slow drop lower part board group 6-5-4-7-8-3 of waveform, quantity is 4, Impurity absorption block 6-5-4-7-8-4 is made of porosity active carbon pressing mold, equidistant between other impurities Attraction block 6-5-4-7-8-4 From distribution；Gas filtration net 6-5-4-7-8-5 is equipped with below impurity absorption block 6-5-4-7-8-4；The slow drop board group of the waveform 6-5-4-7-8-3, impurity absorption block 6-5-4-7-8-4 and gas filter screen 6-5-4-7-8-5 with cleaning device shell 6-5- 4-7-8-2 inner wall is fixedly connected；The cleaning liquid pump 6-5-4-7-8-6 is located at one outside cleaning device shell 6-5-4-7-8-2 Side, cleaning liquid pump 6-5-4-7-8-6 and cleaning device shell 6-5-4-7-8-2 are connected by cleaning solution ingress pipe 6-5-4-7-8-7 It connects, and cleaning solution one end ingress pipe 6-5-4-7-8-7 and cleaning device shell 6-5-4-7-8-2 internal run-through, and with water mist shape Formula is scattered in inside cleaning device shell 6-5-4-7-8-2；The cleaning liquid pump 6-5-4-7-8-6 and electrical control cabinet 11 are wireless Control connection；The cleaning device bottom shell 6-5-4-7-8-2 is equipped with return pipe, and return pipe and cleaning liquid pump 6-5-4-7-8-6 connect It is logical.

It as shown in figure 13, is connecting flange 6-5-4-8 structure chart in the present invention.As seen from the figure, the connecting flange 6- 5-4-8 includes: connecting flange external disk 6-5-4-8-1, anti-deformation steel plate 6-5-4-8-2；The connecting flange external disk 6-5-4-8-1 For cylindrical-shaped structure, connecting flange external disk 6-5-4-8-1 with a thickness of 5cm~8cm, connecting flange external disk 6-5-4-8-1's is straight Diameter is 25 cm~40cm；The anti-deformation steel plate 6-5-4-8-2 is located inside connecting flange external disk 6-5-4-8-1, Anti-deformation steel Plate 6-5-4-8-2 is round reticular structure, and the diameter of anti-deformation steel plate 6-5-4-8-2 is less than connecting flange external disk 6-5-4-8-1 Diameter, the quantity of anti-deformation steel plate 6-5-4-8-2 is 2, and the distance between adjacent anti-deformation steel plate 6-5-4-8-2 is 2cm Deformation when~4cm, anti-deformation steel plate 6-5-4-8-2 prevent connecting flange 6-5-4-8 uneven heating.

It as shown in figure 14, is damping spring 6-5-4-9 structure chart in the present invention.As seen from the figure, the damping spring 6- 5-4-9 includes: damping spring mandril 6-5-4-9-1, and spring body 6-5-4-9-2, damping spring air cooling equipment 6-5-4-9-3 subtract Shake spring collet 6-5-4-9-4；The damping spring collet 6-5-4-9-4 is located at the bottom entire damping spring 6-5-4-9, damping The spring two sides collet 6-5-4-9-4 are connect with connecting flange 6-5-4-8；The damping spring air cooling equipment 6-5-4-9-3 is located at Above damping spring collet 6-5-4-9-4, and the damping spring bottom air cooling equipment 6-5-4-9-3 and damping spring collet 6-5-4- 9-4 is fixedly connected；The spring body 6-5-4-9-2 is located at outside damping spring air cooling equipment 6-5-4-9-3, spring body 6-5-4- The diameter of 9-2 is greater than the diameter of damping spring air cooling equipment 6-5-4-9-3, the bottom end spring body 6-5-4-9-2 and damping spring wind The bottom device for cooling 6-5-4-9-3 is fixedly connected；The damping spring mandril 6-5-4-9-1 is fixedly connected on spring body 6-5-4-9- 2 tops, the damping spring two sides mandril 6-5-4-9-1 are connect with fixed disk 6-5-4-6.

It as shown in figure 15, is damping spring air cooling equipment 6-5-4-9-3 structure chart in the present invention.As seen from the figure, described Damping spring air cooling equipment 6-5-4-9-3 includes: air cooling equipment pedestal 6-5-4-9-3-1, air cooling equipment relieve heat pipe 6-5-4-9- 3-2, cold wind relief hole 6-5-4-9-3-3, air cooling equipment standpipe 6-5-4-9-3-4, cold wind distributor 6-5-4-9-3-5 are air-cooled Device blast pipe 6-5-4-9-3-6, standpipe rolling bearing 6-5-4-9-3-7；The cold wind distributor 6-5-4-9-3-5 is located at wind At device for cooling pedestal 6-5-4-9-3-1 inside center, air cooling equipment pedestal 6-5-4-9-3-1 is cylindrical hollow structure；It is described Air cooling equipment blast pipe 6-5-4-9-3-6 from air cooling equipment pedestal 6-5-4-9-3-1 outer wall side be inserted into, and with cold wind distributor The perforation connection of the bottom 6-5-4-9-3-5；The air cooling equipment standpipe 6-5-4-9-3-4 is located at cold wind distributor 6-5-4-9-3-5 Top, air cooling equipment standpipe 6-5-4-9-3-4 pass through standpipe rolling bearing 6-5-4-9-3-7 and cold wind distributor 6-5-4-9-3- 5 perforation connections, air cooling equipment standpipe 6-5-4-9-3-4 are hollow structure；The upper end device for cooling standpipe 6-5-4-9-3-4 is equipped with The quantity of cold wind relief hole 6-5-4-9-3-3, cold wind relief hole 6-5-4-9-3-3 are 6, adjacent cold wind relief hole 6-5-4-9- It is equidistantly distributed between 3-3, the tangential outlet air of cold wind relief hole 6-5-4-9-3-3 is produced from rotatory force；The air cooling equipment relieve heat Pipe 6-5-4-9-3-2 is located at outside air cooling equipment standpipe 6-5-4-9-3-4, is at the top of air cooling equipment relieve heat pipe 6-5-4-9-3-2 Uncovered structure, diameter of the diameter greater than air cooling equipment standpipe 6-5-4-9-3-4 of air cooling equipment relieve heat pipe 6-5-4-9-3-2, two Cold air duct is formed between person, cold air duct and cold wind distributor 6-5-4-9-3-5 are penetrated through；The standpipe rolling bearing 6-5-4- The outer ring 9-3-7 is connect with cold wind distributor 6-5-4-9-3-5, inner ring and the 6-5-4-9-3-4 connection of air cooling equipment standpipe, standpipe turn Dynamic bearing 6-5-4-9-3-7 drives the 6-5-4-9-3-4 rotation of air cooling equipment standpipe.

It as shown in figure 16, is washing facility 6-5-5 structure chart in the present invention.As seen from the figure, the washing facility 6-5-5 Include: cleaning motor 6-5-5-1, impeller unit 6-5-5-2, gear train 6-5-5-3, cleans disk 6-5-5-4, cleaning brush 6-5- 5-5, water system 6-5-5-6；The cleaning motor 6-5-5-1 is connect with 11 wireless control of electrical control cabinet, cleans motor 6- 5-5-1 output end is equipped with impeller unit 6-5-5-2, and the wind-force generated after washing by impeller unit 6-5-5-2 is by washing surface Drying；The gear train 6-5-5-3 is located at below impeller unit 6-5-5-2, gear train 6-5-5-3 and cleaning motor 6-5- 5-1 exports main shaft engagement connection；The cleaning disk 6-5-5-4 is located at the lower surface gear train 6-5-5-3, and the two is drivingly connected, Cleaning disk 6-5-5-4 quantity is 3 groups, and gear train 6-5-5-3 drives cleaning disk 6-5-5-4 rotation；Clean disk 6-5-5-4 following table Face is equipped with cleaning brush 6-5-5-5；The water system 6-5-5-6 is located at the upper surface gear train 6-5-5-3, water system 6-5- 5-6 is mutually communicated with cleaning disk 6-5-5-4.

Claims

1. a kind of integrated processor of sewage containing carbon tetrachloride, comprising: level-one sewage buffer pool (1), sewage transport pump (2), second level Buffer pool (3), biochemical reaction column force (forcing) pump (4), biochemical reaction column (5), heavy-metal ion removal flow tank (6), mud discharging It manages (7), probe tube (8), clear water delivery pipe (9), biochemical reaction column outlet pipe (10), electrical control cabinet (11), overflow water recycling It manages (12), anaerobic fermentation case (13), bracket (14), sludge reflux and discharge tee tube (15)；It is characterized in that, being located at side Level-one sewage buffer pool (1) is connected to by sewage transport pump (2) with the anaerobic fermentation case (13) for being located at upper left quarter, anaerobic fermentation case (13) enclosed construction, bottom are equipped with sludge reflux and discharge tee tube (15)；Anaerobic fermentation case (13) lower part is equipped with level 2 buffering Pond (3), the connection of the two pipeline；Anaerobic fermentation case (13) top side is equipped with overflow water recovery tube (12), and the connection of the two pipeline is overflow Flowing water recovery tube (12) discharge water flows back into level-one sewage buffer pool (1)；Electrical control cabinet (11) are equipped on bracket (14) top； Bracket (14) side is equipped with biochemical reaction column (5), and the biochemical reaction column (5) is horizontal positioned, and quantity is five, parallel with one another, Filler is contained in biochemical reaction column (5) hollow structure, inside, and shell is made of high molecular material, and biochemical reaction column (5) is preposition Mouth in parallel and external air pump connection, the biochemical reaction column (5) pass through biochemical reaction column force (forcing) pump (4) and level 2 buffering pond (3) Connection；The heavy-metal ion removal flow tank (6) is connected to by biochemical reaction column outlet pipe (10) with biochemical reaction column (5), Gas outlet is equipped at the top of biochemical reaction column outlet pipe (10)；Heavy-metal ion removal flow tank (6) lower part is equipped with mud discharging pipe (7), the two pipeline is connected to；Heavy-metal ion removal flow tank (6) top is equipped with clear water delivery pipe (9), the connection of the two pipeline；It goes Removing heavy metals ion flow tank (6) waist is equipped with probe tube (8), the connection of the two pipeline；The sewage transport pump (2), biochemistry are anti- Column force (forcing) pump (4), external air pump is answered to link with electrical control cabinet (11) polygon control survey；

The heavy-metal ion removal flow tank (6) is equipped with pot cleaner (6-5)；In heavy-metal ion removal flow tank (6) interior side is equipped with pot cleaner (6-5)；

The pot cleaner (6-5) is equipped with alternate row adsorbent equipment (6-5-4)；The alternate row adsorbent equipment (6-5-4) Positioned at casing (6-5-1) apex angle surface；

The alternate row adsorbent equipment (6-5-4) is equipped with damping spring (6-5-4-9)；Described damping spring (6-5-4-9) one end It is connected and fixed disk (6-5-4-6), damping spring (6-5-4-9) other end is connect with connecting flange (6-5-4-8)；

The damping spring (6-5-4-9) is equipped with damping spring air cooling equipment (6-5-4-9-3)；The damping spring air cooling equipment (6-5-4-9-3) is located above damping spring collet (6-5-4-9-4)；

The damping spring air cooling equipment (6-5-4-9-3) includes: air cooling equipment pedestal (6-5-4-9-3-1), and air cooling equipment dissipates Air hose (6-5-4-9-3-2), cold wind relief hole (6-5-4-9-3-3), air cooling equipment standpipe (6-5-4-9-3-4), cold wind distribution Device (6-5-4-9-3-5), air cooling equipment blast pipe (6-5-4-9-3-6), standpipe rolling bearing (6-5-4-9-3-7)；It is described cold Wind distributor (6-5-4-9-3-5) is located at air cooling equipment pedestal (6-5-4-9-3-1) inside center, air cooling equipment pedestal (6- It 5-4-9-3-1) is cylindrical hollow structure；The air cooling equipment blast pipe (6-5-4-9-3-6) is from air cooling equipment pedestal (6-5- 4-9-3-1) outer wall side is inserted into, and is penetrated through and connected with the cold wind distributor bottom (6-5-4-9-3-5)；The air cooling equipment standpipe (6-5-4-9-3-4) is located above cold wind distributor (6-5-4-9-3-5), and air cooling equipment standpipe (6-5-4-9-3-4) passes through vertical Pipe rolling bearing (6-5-4-9-3-7) and cold wind distributor (6-5-4-9-3-5) perforation connect, air cooling equipment standpipe (6-5-4- It 9-3-4) is hollow structure；The device for cooling standpipe upper end (6-5-4-9-3-4) is equipped with cold wind relief hole (6-5-4-9-3-3), The quantity of cold wind relief hole (6-5-4-9-3-3) is 6, is equidistantly distributed between adjacent cold wind relief hole (6-5-4-9-3-3), The tangential outlet air of cold wind relief hole (6-5-4-9-3-3) is produced from rotatory force；The air cooling equipment relieve heat pipe (6-5-4-9-3-2) It is external to be located at air cooling equipment standpipe (6-5-4-9-3-4), is uncovered structure at the top of air cooling equipment relieve heat pipe (6-5-4-9-3-2), The diameter of air cooling equipment relieve heat pipe (6-5-4-9-3-2) is greater than the diameter of air cooling equipment standpipe (6-5-4-9-3-4), between the two Cold air duct is formed, cold air duct and cold wind distributor (6-5-4-9-3-5) are penetrated through；Standpipe rolling bearing (the 6-5-4-9- 3-7) outer ring is connect with cold wind distributor (6-5-4-9-3-5), inner ring and air cooling equipment standpipe (6-5-4-9-3-4) connect, and is stood Pipe rolling bearing (6-5-4-9-3-7) drives air cooling equipment standpipe (6-5-4-9-3-4) rotation.

2. one kind integrated processor of sewage containing carbon tetrachloride according to claim 1, which is characterized in that the bracket (14) It include: carriage drive motor (14-1), change gear box (14-2), built-in gear (14-3), containing rack gear sliding rail (14-4), Rack shell (14-5), fixed block (14-6), L-type sliding block (14-7), bracket base (14-8)；Wherein carriage drive motor (14- 1), change gear box (14-2), built-in gear (14-3), fixed block (14-6), L-type sliding block (14-7), bracket base (14- 8) structure is integral, this is integrally separated with rack shell (14-5), and rack shell (14-5) can be promoted to move up and down；It is described It is internal that rack shell (14-5) is fixed on containing rack gear sliding rail (14-4)；The L-type sliding block (14-7) is vertically fixed on bracket bottom Seat top (14-8)；Equipped with built-in gear (14-3), one end and contain rack gear sliding rail (14- in L-type sliding block (14-7) inside 4) engagement connection, the other end engage connection with change gear box (14-2)；The other end and bracket of change gear box (14-2) drive Dynamic motor (14-1) transmission connection；The carriage drive motor (14-1) is located at the lower end side change gear box (14-2), bracket Driving motor (14-1) is connected by conducting wire with electrical control cabinet (11) control；The fixed block (14-6) is located at L-type sliding block The outside rack shell (14-5) is stretched out in the top (14-7), the fixed block end (14-6), and waist and rack shell (14-5) are slided Connection, the fixed block end (14-6) are lead composition, are used for counterweight；The change gear box (14-2) is arranged in L-type sliding block The side (14-7).

3. one kind integrated processor of sewage containing carbon tetrachloride according to claim 2, which is characterized in that the removal huge sum of money Belonging to ion flow tank (6) includes: shower washing device (6-1), flocculant adding tube (6-2), coagulation paddle (6-3), stirring Motor (6-4), pot cleaner (6-5)；Shower washing device (6-1) positioned at bottom, one end and external fresh water pump connect Logical, the other end generates 8 spray heads being directed upwards towards；It is equipped with flocculant adding tube (6-2) on the shower washing device top (6-1), Flocculant adding tube (6-2) wherein one end annular tube structure is equipped with multiple showers on its surface, flocculant adding tube (6-2) to Crowndaisy chrysanthemum plant polyose flocculant is added in heavy-metal ion removal flow tank (6)；It is equipped on the flocculant adding tube top (6-2) mixed The stirring motor (6-4) of solidifying paddle (6-3), the coagulation paddle (6-3) and upper part is drivingly connected；Removing removing heavy metals Ion flow tank (6) interior side is fixed on wall fixed position equipped with pot cleaner (6-5), waterproofing design, latch hook, It is connect with electrical control cabinet (11) wireless control.

4. one kind integrated processor of sewage containing carbon tetrachloride according to claim 3, which is characterized in that the coagulation stirring Leaf (6-3) includes: blade slide plate (6-3-1), blade sliding rail (6-3-2), sliding rail rack (6-3-3), vane-driver (6-3- 4), slide plate linkage support (6-3-5)；Blade slide plate (6-3-1) quantity positioned at periphery is 7, each blade slide plate (6-3- 1) inside be equipped with blade sliding rail (6-3-2), the two is slidably connected, blade slide plate (6-3-1) along blade sliding rail (6-3-2) up and down Sliding；Sliding rail rack (6-3-3), the two connection are equipped on the inside of blade sliding rail (6-3-2), sliding rail rack (6-3-3) makes 7 Blade sliding rail (6-3-2) is angularly vertically arranged；It is equipped with slide plate linkage support (6-3-5) in the sliding rail rack lower part (6-3-3), leaf Piece slide plate (6-3-1) is connect with slide plate linkage support (6-3-5), and slide plate linkage support (6-3-5) makes 7 blade slide plate (6- 3-1) angularly it is vertically arranged；Vane-driver (6-3-4), vane-driver (6- are fixed on the top sliding rail rack (6-3-3) It 3-4) is drivingly connected with blade slide plate (6-3-1), vane-driver (6-3-4) is connect with electrical control cabinet (11) wireless control.

5. one kind integrated processor of sewage containing carbon tetrachloride according to claim 4, which is characterized in that vane-driver (6-3-4) includes: to drive fluted disc (6-3-4-1), fluted disc left and right adjusting device (6-3-4-2), slide plate positioning guide wheel (6-3-4-3), Fluted disc Fore/aft regulator (6-3-4-4), by drive rack (6-3-4-5), fluted disc driver (6-3-4-6)；It is described by sliding tooth Item (6-3-4-5) is fixedly mounted on blade slide plate (6-3-1), by drive rack (6-3-4-5) and driving fluted disc (6-3-4-1) Engagement connection；The fluted disc side (6-3-4-1) is driven to be equipped with fluted disc driver (6-3-4-6), the two is drivingly connected；Drive fluted disc The side (6-3-4-1) is equipped with fluted disc left and right adjusting device (6-3-4-2), to driving fluted disc (6-3-4-1) left and right micro-adjustment；Driving The fluted disc other side (6-3-4-1) is equipped with fluted disc Fore/aft regulator (6-3-4-4), to fine tuning before and after driving fluted disc (6-3-4-1) It is whole；It is equipped with slide plate positioning guide wheel (6-3-4-3) on the fluted disc Fore/aft regulator top (6-3-4-4), slide plate positioning guide wheel (6-3-4- 3) it rolls and connects with blade slide plate (6-3-1), and limit blade slide plate (6-3-1) to move up and down.

6. one kind integrated processor of sewage containing carbon tetrachloride according to claim 5, which is characterized in that the tank body cleaning Device (6-5) includes: casing (6-5-1), bright sensing device (6-5-2), and signal receives transmitter (6-5-3), and alternate row is inhaled Adsorption device (6-5-4), washing facility (6-5-5), spot detector (6-5-6)；The casing upper surface (6-5-1) is equipped with light Sensing device (6-5-2) is equipped with battery, movable motor, water tank, water pump in the bright sensing device lower part (6-5-2)；The light The sensing device side (6-5-2) is equipped with signal and receives transmitter (6-5-3), and the alternate row adsorbent equipment (6-5-4) is located at machine Shell (6-5-1) apex angle surface, alternate row adsorbent equipment (6-5-4) quantity are 4 groups, and the washing facility (6-5-5) is located at casing (6-5-1) central lower, the washing facility lower surface (6-5-5) are equipped with spot detector (6-5-6)；The light sensing device (6-5-2), spot detector (6-5-6) receive transmitter (6-5-3) by signal and electrical control cabinet (11) wireless control connects It connects.

7. one kind integrated processor of sewage containing carbon tetrachloride according to claim 6, which is characterized in that the alternate row is inhaled Adsorption device (6-5-4) includes: horizontal swing arm (6-5-4-1), alternate row forearm (6-5-4-2), preposition telescoping cylinder (6-5-4-3), Alternate row postbrachium (6-5-4-4), postposition telescoping cylinder (6-5-4-5), fixed disk (6-5-4-6), sucker (6-5-4-7), connection method Blue (6-5-4-8), damping spring (6-5-4-9)；The horizontal swing arm end (6-5-4-1) is equipped with alternate row forearm (6-5-4- 2), the alternate row forearm (6-5-4-2) and horizontal swing arm (6-5-4-1) are rotatablely connected, alternate row forearm (6-5-4-2) and water Preposition telescoping cylinder (6-5-4-3), the preposition telescoping cylinder (6-5-4-3) and electrical control are equipped between flat pendulum arm (6-5-4-1) The connection of cabinet (11) wireless control；The alternate row postbrachium (6-5-4-4) is located at the end alternate row forearm (6-5-4-2), alternate row Postbrachium (6-5-4-4) and alternate row forearm (6-5-4-2) are rotatablely connected, alternate row postbrachium (6-5-4-4) and alternate row forearm (6- It is equipped with postposition telescoping cylinder (6-5-4-5) between 5-4-2), the postposition telescoping cylinder (6-5-4-5) and electrical control cabinet (11) are wireless Control connection；The fixed disk (6-5-4-6) is located at the lower surface alternate row postbrachium (6-5-4-4)；Below fixed disk (6-5-4-6) Equipped with sucker (6-5-4-7), to be connected at elastomeric material, bell mouth shape, center by conduit, air valve and minipump It is logical, it is fixedly connected between the sucker (6-5-4-7) and fixed disk (6-5-4-6) by connecting flange (6-5-4-8)；It is described to subtract Shake one end spring (6-5-4-9) is connected and fixed disk (6-5-4-6), damping spring (6-5-4-9) other end and connecting flange (6-5- 4-8) connect.

8. one kind integrated processor of sewage containing carbon tetrachloride according to claim 7, which is characterized in that the horizontal swing arm (6-5-4-1) includes: the U-shaped shell of horizontal swing arm (6-5-4-1-1), vertical rotation axis (6-5-4-1-2), vertical rotation axis fixture block (6-5-4-1-3), horizontal rotating shaft (6-5-4-1-4), circular radiating pipe group (6-5-4-1-5), water inlet solenoid valve (6-5-4- 1-6), horizontal swing arm water inlet (6-5-4-1-7), water outlet solenoid valve (6-5-4-1-8), horizontal swing arm water outlet (6-5-4- 1-9)；It is equipped with horizontal rotating shaft (6-5-4-1-4) between the body of the U-shaped shell of horizontal swing arm (6-5-4-1-1) two sides, level turns Moving axis (6-5-4-1-4) and the U-shaped shell of horizontal swing arm (6-5-4-1-1) are rotatablely connected；The circular radiating pipe group (6-5-4-1-5) The both ends horizontal rotating shaft (6-5-4-1-4) are socketed in, and circular radiating pipe group (6-5-4-1-5) is located at the U-shaped shell (6- of horizontal swing arm 5-4-1-1) internal, the side of circular radiating pipe group (6-5-4-1-5) is equipped with horizontal swing arm water inlet (6-5-4-1-7), annular The other side of heat-dissipating pipe group (6-5-4-1-5) is equipped with horizontal swing arm water outlet (6-5-4-1-9)；The horizontal swing arm water inlet (6-5-4-1-7) and horizontal swing arm water outlet (6-5-4-1-9) are penetrated through with circular radiating pipe group (6-5-4-1-5) and are connected, water The flat pendulum arm water inlet top (6-5-4-1-7) is equipped with water inlet solenoid valve (6-5-4-1-6), horizontal swing arm water outlet (6-5-4- 1-9) top is equipped with water outlet solenoid valve (6-5-4-1-8)；The water inlet solenoid valve (6-5-4-1-6) and water outlet solenoid valve (6-5-4-1-8) is connect with electrical control cabinet (11) wireless control respectively；The vertical rotation axis fixture block (6-5-4-1-3) is fixed It is connected to the side the U-shaped shell of horizontal swing arm (6-5-4-1-1), the quantity of vertical rotation axis fixture block (6-5-4-1-3) is 2, adjacent It is equipped with vertical rotation axis (6-5-4-1-2) between vertical rotation axis fixture block (6-5-4-1-3), vertical rotation axis (6-5-4-1-2) It is rotatablely connected with vertical rotation axis fixture block (6-5-4-1-3).

9. one kind integrated processor of sewage containing carbon tetrachloride according to claim 8, which is characterized in that described preposition flexible Cylinder (6-5-4-3) includes: horizontal rotating shaft (6-5-4-1-4), preposition telescoping cylinder pinning (6-5-4-3-2), telescoping cylinder hydraulic press Structure (6-5-4-3-3)；The horizontal rotating shaft (6-5-4-1-4) is fixedly connected in the U-shaped shell of horizontal swing arm (6-5-4-1-1) Side is rotatably connected to preposition telescoping cylinder pinning (6-5-4-3-2) on horizontal rotating shaft (6-5-4-1-4), and preposition telescoping cylinder is locked Nail (6-5-4-3-2) is socketed in horizontal rotating shaft (6-5-4-1-4) outside, sets inside preposition telescoping cylinder pinning (6-5-4-3-2) There is high temperature locking device, when temperature is more than 100 degree, preposition telescoping cylinder pinning (6-5-4-3-2) is by horizontal rotating shaft (6-5-4-1- 4) simultaneously sound-light alarm is locked；The side of the preposition telescoping cylinder pinning (6-5-4-3-2) is equipped with telescoping cylinder hydraulic mechanism (6-5-4- 3-3), one end of telescoping cylinder hydraulic mechanism (6-5-4-3-3) is fixedly connected with preposition telescoping cylinder pinning (6-5-4-3-2), another One end and alternate row forearm (6-5-4-2) are rotatablely connected；

The telescoping cylinder hydraulic mechanism (6-5-4-3-3) includes: hydraulic mechanism shell (6-5-4-3-3-1), 1# oil inlet port (6- 5-4-3-3-2), 1# inlet valve (6-5-4-3-3-3), hydraulic mechanism oil pump (6-5-4-3-3-4) lead to beam hanger (6-5-4-3-3- 5), piston left chamber (6-5-4-3-3-6), 2# inlet valve (6-5-4-3-3-7), 2# oil inlet port (6-5-4-3-3-8), liquid Press mechanism telescopic rod (6-5-4-3-3-9), hydraulic mechanism is mobile piston (6-5-4-3-3-10), piston right chamber (6-5-4- 3-3-11), hydraulic mechanism tail portion pinning (6-5-4-3-3-12)；One end of the hydraulic mechanism shell (6-5-4-3-3-1) is solid Surely it is connected to preposition telescoping cylinder pinning (6-5-4-3-2) side, hydraulic mechanism shell (6-5-4-3-3-1) is hollow structure；Institute It states hydraulic mechanism mobile piston (6-5-4-3-3-10) and is located at hydraulic mechanism shell (6-5-4-3-3-1) inside, hydraulic mechanism moves Piston (6-5-4-3-3-10) is slidably connected with hydraulic mechanism shell (6-5-4-3-3-1) inner wall, the mobile piston of hydraulic mechanism (6-5-4-3-3-10) will be divided into inside hydraulic mechanism shell (6-5-4-3-3-1) piston left chamber (6-5-4-3-3-6) and Piston right chamber (6-5-4-3-3-11)；The hydraulic mechanism telescopic rod (6-5-4-3-3-9) is located at piston left chamber (6- In 5-4-3-3-6), one end of hydraulic mechanism telescopic rod (6-5-4-3-3-9) and the mobile piston (6-5-4-3-3- of hydraulic mechanism 10) it is fixedly connected, the other end and hydraulic mechanism tail portion pinning (6-5-4-3-3- of hydraulic mechanism telescopic rod (6-5-4-3-3-9) 12) it is fixedly connected, wherein hydraulic mechanism tail portion pinning (6-5-4-3-3-12) is connect with alternate row forearm (6-5-4-2)；It is described 1# inlet valve (6-5-4-3-3-3) and 2# inlet valve (6-5-4-3-3-7) are respectively provided at hydraulic mechanism shell (6-5-4-3-3-1) The both ends of side, 1# oil inlet port (6-5-4-3-3-2) pass through 1# inlet valve (6-5-4-3-3-3) and piston right chamber (6- 5-4-3-3-11) perforation connection, 2# inlet valve (6-5-4-3-3-7) are left by 2# oil inlet port (6-5-4-3-3-8) and piston Side cavity (6-5-4-3-3-6) perforation connection；The hydraulic mechanism oil pump (6-5-4-3-3-4) is located at 1# oil inlet port (6-5- 4-3-3-2) side, hydraulic mechanism oil pump (6-5-4-3-3-4) and 1# oil inlet port (6-5-4-3-3-2) perforation connect；It is described Logical beam hanger (6-5-4-3-3-5) hollow structure, both ends respectively with 1# inlet valve (6-5-4-3-3-3), 2# inlet valve (6-5-4-3- 3-7) it is connected to；The 1# inlet valve (6-5-4-3-3-3), 2# inlet valve (6-5-4-3-3-7) and hydraulic mechanism oil pump (6-5-4- 3-3-4) it is connect with electrical control cabinet (11) wireless control；

The sucker (6-5-4-7) includes: sucker suction bottom surface (6-5-4-7-1), adsorbs the curved shape conduit (6-5-4-7- in bottom surface 2), air volume regulating device (6-5-4-7-3), sucker are ventilated block (6-5-4-7-4), and horizontal gas delivery pipe (6-5-4-7-5) is inhaled Disk is ventilated alms bowl (6-5-4-7-6), sucker air inlet pipe (6-5-4-7-7), sucker air cleaning device (6-5-4-7-8)；The suction Disk absorption bottom surface (6-5-4-7-1) is located at the bottom entire sucker (6-5-4-7), and sucker suction bottom surface (6-5-4-7-1) is umbrella Structure；The curved shape conduit (6-5-4-7-2) in absorption bottom surface is located above sucker suction bottom surface (6-5-4-7-1), adsorbs bottom surface The bottom end of curved shape conduit (6-5-4-7-2) is connected to sucker suction bottom surface (6-5-4-7-1), and to sucker suction bottom surface (6-5- 4-7-1) carry out gas transmission and pumping；Sucker ventilation block (6-5-4-7-4) is located at the absorption curved shape conduit (6-5-4-7-2) in bottom surface Top side, the quantity of sucker ventilation block (6-5-4-7-4) are 2, fixed between adjacent sucker ventilation block (6-5-4-7-4) to connect It is connected to horizontal gas delivery pipe (6-5-4-7-5), sucker ventilates block (6-5-4-7-4) as lock quick fixation structure, realizes and horizontal Air shooter (6-5-4-7-5) fast quick-detach；One end of the horizontal gas delivery pipe (6-5-4-7-5) passes through left side sucker It ventilates block (6-5-4-7-4) and curved shape conduit (6-5-4-7-2) perforation in absorption bottom surface connects, horizontal gas delivery pipe (6-5-4- Other end 7-5) is connected by right side sucker ventilation block (6-5-4-7-4) and sucker ventilation alms bowl (6-5-4-7-6) perforation, wherein It is internal that sucker ventilation alms bowl (6-5-4-7-6) is located at right side sucker ventilation block (6-5-4-7-4)；Air volume regulating device (the 6-5- It 4-7-3) is fixedly connected on above sucker ventilation block (6-5-4-7-4), and connects with the internal gate valve of sucker ventilation block (6-5-4-7-4) It connects, air volume regulating device (6-5-4-7-3) is connect with electrical control cabinet (11) wireless control；Sucker air inlet pipe (the 6-5-4- 7-7) be located at the external side of right side sucker ventilation block (6-5-4-7-4), the both ends of sucker air inlet pipe (6-5-4-7-7) respectively with suction Disk ventilation alms bowl (6-5-4-7-6) and sucker air cleaning device (6-5-4-7-8) perforation connects, wherein sucker air cleaning device (6-5-4-7-8) is located on the right side of sucker air inlet pipe (6-5-4-7-7)；

The sucker air cleaning device (6-5-4-7-8) includes: cleaning device blowing mouth (6-5-4-7-8-1), cleaning device Shell (6-5-4-7-8-2), slow drop board group (6-5-4-7-8-3) of waveform, impurity absorption block (6-5-4-7-8-4), gas mistake Strainer (6-5-4-7-8-5) cleans liquid pump (6-5-4-7-8-6), and cleaning solution ingress pipe (6-5-4-7-8-7), cleaning device goes out Port (6-5-4-7-8-8), outlet velar plate (6-5-4-7-8-9), cover board rot (6-5-4-7-8-10)；The sanitizer cartridge The side for setting shell (6-5-4-7-8-2) is equipped with cleaning device blowing mouth (6-5-4-7-8-1), cleaning device blowing mouth (6-5- 4-7-8-1) with cleaning device shell (6-5-4-7-8-2) internal run-through, cleaning device shell (6-5-4-7-8-2) is cuboid Hollow structure；The cleaning device gas outlet (6-5-4-7-8-8) is located at the top cleaning device shell (6-5-4-7-8-2), clearly Clean device gas outlet (6-5-4-7-8-8) and cleaning device shell (6-5-4-7-8-2) internal run-through, cleaning device gas outlet Outlet velar plate (6-5-4-7-8-9) is equipped at the port (6-5-4-7-8-8)；The outlet velar plate (6-5-4-7-8-9) Side is equipped with cover board rot (6-5-4-7-8-10), cover board rot (6-5-4-7-8-10) axis and outlet velar plate (6- It 5-4-7-8-9) is fixedly connected, outlet velar plate (6-5-4-7-8-9) is under the action of cover board rot (6-5-4-7-8-10) It opens or closes, cover plate rot (6-5-4-7-8-10) is connect with electrical control cabinet (11) wireless control；The wave Slow drop board group (6-5-4-7-8-3) of shape is located at cleaning device shell (6-5-4-7-8-2) inside, quantity is 2 groups, promotes dust Slow drop；The impurity absorption block (6-5-4-7-8-4) is located at the slow drop lower part board group (6-5-4-7-8-3), quantity 4 of waveform A, impurity absorption block (6-5-4-7-8-4) is made of porosity active carbon pressing mold, other impurities Attraction block (6-5-4-7-8-4) Between equidistantly distribute；Gas filtration net (6-5-4-7-8-5) is equipped with below impurity absorption block (6-5-4-7-8-4)；The wave Slow drop board group (6-5-4-7-8-3) of shape wave, impurity absorption block (6-5-4-7-8-4) and gas filter screen (6-5-4-7-8-5) are equal It is fixedly connected with cleaning device shell (6-5-4-7-8-2) inner wall；The cleaning liquid pump (6-5-4-7-8-6) is located at cleaning device The external side of shell (6-5-4-7-8-2), cleaning liquid pump (6-5-4-7-8-6) and cleaning device shell (6-5-4-7-8-2) are logical Over cleaning liquid ingress pipe (6-5-4-7-8-7) connection, and cleaning solution ingress pipe one end (6-5-4-7-8-7) and cleaning device shell (6-5-4-7-8-2) internal run-through, and cleaning device shell (6-5-4-7-8-2) inside is scattered in the form of water mist；It is described clear Lotion pumps (6-5-4-7-8-6) are connect with electrical control cabinet (11) wireless control；The bottom cleaning device shell (6-5-4-7-8-2) Equipped with return pipe, return pipe is connected to cleaning liquid pump (6-5-4-7-8-6)；

The connecting flange (6-5-4-8) includes: connecting flange external disk (6-5-4-8-1), anti-deformation steel plate (6-5-4-8-2)； The connecting flange external disk (6-5-4-8-1) be cylindrical-shaped structure, connecting flange external disk (6-5-4-8-1) with a thickness of 5cm~ 8cm, the diameter of connecting flange external disk (6-5-4-8-1) are 25 cm~40cm；The anti-deformation steel plate (6-5-4-8-2) is located at Connecting flange external disk (6-5-4-8-1) is internal, and anti-deformation steel plate (6-5-4-8-2) is round reticular structure, anti-deformation steel plate (6- Diameter 5-4-8-2) is less than the diameter of connecting flange external disk (6-5-4-8-1), and the quantity of anti-deformation steel plate (6-5-4-8-2) is 2, the distance between adjacent anti-deformation steel plate (6-5-4-8-2) is 2cm~4cm, anti-deformation steel plate (6-5-4-8-2) company of preventing It is deformed when acting flange (6-5-4-8) uneven heating；

The damping spring (6-5-4-9) includes: damping spring mandril (6-5-4-9-1), spring body (6-5-4-9-2), damping Spring air cooling equipment (6-5-4-9-3), damping spring collet (6-5-4-9-4)；Damping spring collet (6-5-4-9-4) position In the bottom entire damping spring (6-5-4-9), the damping spring collet two sides (6-5-4-9-4) and connecting flange (6-5-4-8) are even It connects；The damping spring air cooling equipment (6-5-4-9-3) is located above damping spring collet (6-5-4-9-4), and damping spring The air cooling equipment bottom (6-5-4-9-3) is fixedly connected with damping spring collet (6-5-4-9-4)；Spring body (the 6-5-4-9- 2) it is located at damping spring air cooling equipment (6-5-4-9-3) outside, it is air-cooled that the diameter of spring body (6-5-4-9-2) is greater than damping spring The diameter of device (6-5-4-9-3), the spring body bottom end (6-5-4-9-2) and the bottom damping spring air cooling equipment (6-5-4-9-3) It is fixedly connected；The damping spring mandril (6-5-4-9-1) is fixedly connected on the top spring body (6-5-4-9-2), damping spring The mandril two sides (6-5-4-9-1) are connect with fixed disk (6-5-4-6).

10. one kind integrated processor of sewage containing carbon tetrachloride according to claim 9, which is characterized in that the washing is set Standby (6-5-5) includes: cleaning motor (6-5-5-1), impeller unit (6-5-5-2), gear train (6-5-5-3), cleaning disk (6- 5-5-4), cleaning brush (6-5-5-5), water system (6-5-5-6)；The cleaning motor (6-5-5-1) and electrical control cabinet (11) wireless control connects, and cleaning motor (6-5-5-1) output end is equipped with impeller unit (6-5-5-2), passes through impeller after washing The wind-force that device (6-5-5-2) generates dries up washing surface；The gear train (6-5-5-3) is located at impeller unit (6-5- 5-2) lower section, gear train (6-5-5-3) engage connection with cleaning motor (6-5-5-1) output main shaft；Cleaning disk (the 6-5- 5-4) it is located at the lower surface gear train (6-5-5-3), the two is drivingly connected, and cleaning disk (6-5-5-4) quantity is 3 groups, gear train Disk (6-5-5-4) rotation is cleaned in (6-5-5-3) drive of uniting；It cleans the disk lower surface (6-5-5-4) and is equipped with cleaning brush (6-5-5-5)； The water system (6-5-5-6) is located at the upper surface gear train (6-5-5-3), water system (6-5-5-6) and cleaning disk (6- 5-5-4) it is mutually communicated；

A kind for the treatment of process of the integrated processor of sewage containing carbon tetrachloride is:

Step 1: in a kind of integrated processor of sewage containing carbon tetrachloride；Sewage is sent out from level-one sewage buffer pool (1) into anaerobism Ferment case (13) carries out Anaerobic Treatment, enters back into level 2 buffering pond (3) and implements solution buffering；The part activated sludge in Anaerobic Treatment Anaerobic fermentation case (13) are flowed back into as active bacteria by sludge reflux and discharge tee tube (15), further promote anaerobism anti- It answers, extra sludge passes through sludge reflux and discharge tee tube (15) outlet；Incompletely processed grease floating in Anaerobic Treatment Object is flowed back into level-one sewage buffer pool (1) by overflow water recovery tube (12), then carries out secondary Anaerobic Treatment；After Anaerobic Treatment Solution carries out biochemical reaction into biochemical reaction column (5), most under the action of biochemical reaction column force (forcing) pump (4), external air pump Enter heavy-metal ion removal flow tank (6) afterwards and implement heavy metal settlement treatment, treated, and clear water is flowed from clear water delivery pipe (9) Out, sludge is discharged from mud discharging pipe (7), wherein being supervised in real time by probe tube (8) to reaction process in infall process It surveys；

Step 2: in bracket (14) operation process, powering on and start electrical control cabinet (11), electrical control cabinet (11) control Carriage drive motor (14-1) processed is operated, and drives built-in gear (14-3) rotation by change gear box (14-2), And then promote built-in gear (14-3) that engaged transmission occurs with containing rack gear sliding rail (14-4), realize upper and lower displacement；Due to L-type Sliding block (14-7) is fixed on bracket base (14-8), fixes containing rack gear sliding rail (14-4) and rack shell (14-5), bracket Shell (14-5) and entire bracket (14) are fixed, therefore in transmission process, only drive containing rack gear sliding rail (14-4) entire Bracket (14) moves up and down, and then realizes the adjustment up and down of device location；

Step 3: in heavy-metal ion removal flow tank (6) work, the turbid solution and flocculant adding tube (6- that slowly enter 2) the flocculant mixing flowed out, promotes sedimentation anti-in the case where stirring motor (6-4) drives coagulation paddle (6-3) to mix slowly effect It answers, sludge is discharged from bottom, and clear water is discharged from top；It is needed after material emptying, inside heavy-metal ion removal flow tank (6) clear When washing, by pot cleaner (6-5) and shower washing device (6-1) shared cleaning；

Step 4: in coagulation paddle (6-3) work, while stirring motor (6-4) drives coagulation paddle (6-3) rotation, Electrical control cabinet (11) controls vane-driver (6-3-4), driving blade slide plate (6-3-1) along blade sliding rail (6-3-2), with 1~2 period/min speed moves up and down, and increases stirring capacity；

Step 5: in vane-driver (6-3-4) work；Fluted disc driver (6-3-4-6) passes through driving fluted disc (6-3-4-1) Driving blade slide plate (6-3-1) moves up and down, meanwhile, pass through fluted disc left and right adjusting device (6-3-4-2), fluted disc Fore/aft regulator (6-3-4-4) adjusts driving fluted disc (6-3-4-1) and by the spacing between drive rack (6-3-4-5)；In addition, slide plate positions Guide wheel (6-3-4-3) further limits blade slide plate (6-3-1) and can only move up and down；

Step 6: in pot cleaner (6-5) cleaning process, alternate row adsorbent equipment (6-5-4) is controlled by electrical control cabinet (11) and pot cleaner (6-5) is driven to walk in heavy-metal ion removal flow tank (6) inner wall；Meanwhile spot is visited The spot situation for surveying device (6-5-6) real-time detection wall surface, when spot detector (6-5-6) detect wall surface there are when spot, it is dirty Stain detector (6-5-6) receives transmitter (6-5-3) by signal and transmits signals to electrical control cabinet (11), electrical control cabinet (11) control washing facility (6-5-5) increases cleaning dynamics；Bright sensing device (6-5-2) perception spot and clean wall generate Different luminance signals, to find out the specific location of spot, by electrical control cabinet (11) guidance pot cleaner (6-5) into Row processing；

Step 7: in alternate row adsorbent equipment (6-5-4) work, four horizontal swing arm (6-5-4-1) alternating horizontals are swung, together When, tank body cleaning is realized in cooperation alternate row forearm (6-5-4-2), the regular stretching, extension of alternate row postbrachium (6-5-4-4) and contraction Device (6-5) do straight line be moved forward and backward, move left and right, curve movement；In moving process, minipump cooperates with air valve, Electrical control cabinet (11) control is lower to be implemented pumping and deflates, and realizes sucker (6-5-4-7) to the adsorption and desorption of wall；

Step 8: in horizontal swing arm (6-5-4-1) course of work, electrical control cabinet (11) controls water inlet solenoid valve (6-5-4- 1-6) opened with water outlet solenoid valve (6-5-4-1-8)；Then, heat transmission water is flowed from horizontal swing arm water inlet (6-5-4-1-7) Enter circular radiating pipe group (6-5-4-1-5), and radiates to horizontal rotating shaft (6-5-4-1-4)；After the completion of heat dissipation, hot water from Horizontal swing arm water outlet (6-5-4-1-9) discharge；Meanwhile vertical rotation axis (6-5-4-1-2) promotes the U-shaped shell (6- of horizontal swing arm 5-4-1-1) horizontal hunting, horizontal rotating shaft (6-5-4-1-4) promote to connect workpiece with the U-shaped shell of horizontal swing arm (6-5-4-1-1) It swings up and down；

Step 9: in preposition telescoping cylinder (6-5-4-3) course of work, electrical control cabinet (11) controls preposition telescoping cylinder (6-5-4- 3) it starts to work, the movement of preposition telescoping cylinder (6-5-4-3) promotes alternate row forearm (6-5-4-2) with horizontal swing arm (6-5-4- 1) it is swung up and down for fulcrum；Preposition telescoping cylinder pinning (6-5-4-3-2) uses SMA memory metal spring technology, realizes that setting is high 100 degree of temperature lock and combine sound-light alarm, and the mode unlocked lower than 80 degree realizes the purpose of overheating protection；

Step 10: it in telescoping cylinder hydraulic mechanism (6-5-4-3-3) course of work, is controlled first by electrical control cabinet (11) hydraulic Mechanism oil pump (6-5-4-3-3-4) is operated；Hydraulic press is driven when needing hydraulic mechanism to move piston (6-5-4-3-3-10) When structure telescopic rod (6-5-4-3-3-9) moves downward, beaten by electrical control cabinet (11) control 1# inlet valve (6-5-4-3-3-3) It opens, while controlling 2# inlet valve (6-5-4-3-3-7) closing, oil body enters piston from 1# inlet valve (6-5-4-3-3-3) at this time Right chamber (6-5-4-3-3-11), and generate pressure to the left；When needing hydraulic mechanism mobile piston (6-5-4-3-3-10) When hydraulic mechanism telescopic rod (6-5-4-3-3-9) being driven to move right, 2# inlet valve (6-5-4- is controlled by electrical control cabinet (11) It 3-3-7) opens, while controlling 1# inlet valve (6-5-4-3-3-3) closing, oil body leads to from logical beam hanger (6-5-4-3-3-5) at this time 2# oil inlet port (6-5-4-3-3-8) is crossed into piston left chamber (6-5-4-3-3-6), and generates pressure to the right；It is hydraulic Mechanism telescopic rod (6-5-4-3-3-9's) moves left and right, and promotes alternate row forearm (6-5-4-2) at horizontal swing arm (6-5-4-1) It rotates upwardly and downwardly；

Step 11: in sucker (6-5-4-7) course of work, under the action of external air pump, gas is from sucker gas sanitizer cartridge Set (6-5-4-7-8) sequentially enter sucker air inlet pipe (6-5-4-7-7), sucker ventilation alms bowl (6-5-4-7-6) and horizontal gas it is defeated Pipe (6-5-4-7-5) is sent, passes through the internal gate valve of sucker ventilation block (6-5-4-7-4), and from the absorption curved shape conduit (6-5-4- in bottom surface 7-2) enter between sucker suction bottom surface (6-5-4-7-1) and wall surface to be cleaned, sucker (6-5-4-7) is in release conditions；When External air pump implements pumping, and opens the gas outlet on sucker air cleaning device (6-5-4-7-8), gas backtracking, and It is discharged from gas outlet, sucker (6-5-4-7) is in adsorbed state；The disengaging process of gas realizes sucker suction bottom surface (6-5- 4-7-1) treat loosening and adsorbing for cleaning wall surface；In intake process, it can be controlled by air volume regulating device (6-5-4-7-3) Air inflow；

Step 12: in sucker air cleaning device (6-5-4-7-8) course of work, when intake air is required, in electrical control cabinet (11) under controlling, gas enters in cleaning device shell (6-5-4-7-8-2) from cleaning device gas outlet (6-5-4-7-8-8) Portion, and in slow drop board group (6-5-4-7-8-3), impurity absorption block (6-5-4-7-8-4), gas filtration net (6-5-4- of waveform 7-8-5), disperse to complete the cleaning to gas under the synergy of water mist；Then, gas is from cleaning device blowing mouth (6- 5-4-7-8-1) enter in sucker (6-5-4-7)；At the same time, electrical control cabinet (11) controls cover board rot (6-5-4-7- It 8-10) rotates, realizes the open and close control to outlet velar plate (6-5-4-7-8-9)；When it is necessary to vent gas, electrical control cabinet (11) Control external air pump pumping, the output of gas opposite direction original road；

Step 13: in connecting flange (6-5-4-8) course of work, whole device ensure that sucker (6-5-4-7) and fixed disk Being stably connected between (6-5-4-6)；Meanwhile anti-deformation steel plate (6-5-4-8-2) can prevent connecting flange external disk (6-5-4- 8-1) deform；

Step 14: in damping spring (6-5-4-9) course of work, the pressure of reciprocating vibration that top is transmitted reaches damping spring When mandril (6-5-4-9-1), promote it that spring body (6-5-4-9-2) pushing or upper lift, spring body (6-5-4-9-2) is driven to receive Above-mentioned energy is to reach damping effect；In the process, damping spring air cooling equipment (6-5-4-9-3) is spring body (6- 5-4-9-2) cool down；

Step 15: in damping spring air cooling equipment (6-5-4-9-3) course of work, cold wind is from air cooling equipment blast pipe (6-5- 4-9-3-6) enter in cold wind distributor (6-5-4-9-3-5), a portion cold wind enters air cooling equipment standpipe (6-5-4-9- 3-4), and from the tangential outlet air of cold wind relief hole (6-5-4-9-3-3), air cooling equipment standpipe (6-5-4-9-3-4) rotation, wind are formed Rotation diffusion around is implemented to cool down to spring body (6-5-4-9-2)；Another part cold wind enters cold air duct, and from air-cooled It sheds at device relieve heat pipe (6-5-4-9-3-2) open top, thus cools down to spring body (6-5-4-9-2)；

Step 16: in washing facility (6-5-5) work, electrical control cabinet (11) opens cleaning motor (6-5-5-1), passes through tooth Wheel system (6-5-5-3) carries out gear power transmission, and cleaning disk (6-5-5-4) and cleaning brush (6-5-5-5) is driven to carry out rotation The cleaning to wall is realized in movement；Meanwhile electrical control cabinet (11) control water pump passes through water system (6-5-5-6) to equipment Clear water is supplied, shower is dirty；After cleaning, cleaning motor (6-5-5-1) passes through output main shaft impeller device (6-5-5- 2) high speed rotation is carried out, huge wind-force is generated, clean wall adhesive water is dried up.