CN109107231A - Nutrient solution recycling processing system is discarded in a kind of camplotheca acuminata seedling cultivating process - Google Patents

Abstract

The invention discloses nutrient solution recycling processing system is discarded in a kind of camplotheca acuminata seedling cultivating process, wherein squeezer includes: pressure-ram screw thread, tensioning regulation cock, spring lock block, holddown spring, push rod driving gear, transmission shaft；The spring lock block is located at pressure-ram two sides and is arranged symmetrically, and holddown spring is equipped at spring lock block outside hub；The holddown spring is fixedly connected with spring lock block, and holddown spring is in horizontally disposed；The tensioning regulation cock is set between the spring lock block of two sides, and the both ends for being tensioned regulation cock are fixedly connected with every lateral spring briquetting respectively, and the quantity for being tensioned regulation cock is 4；The push rod driving gear is located inside spring lock block, and the quantity of every lateral spring briquetting inner push-rod driving gear is 2.Nutrient solution recycling processing system is discarded in a kind of camplotheca acuminata seedling cultivating process of the present invention, the apparatus structure is simple, and operation control is easy, and use cost is low, treatment effect is good, can apply on a large scale.

Description

Nutrient solution recycling processing system is discarded in a kind of camplotheca acuminata seedling cultivating process

Technical field

The invention belongs to field of sewage treatment equipment, and in particular to nutrient solution reuse is discarded in a kind of camplotheca acuminata seedling cultivating process Processing system.

Background technique

Nutrient fluid cultivation is also known as hydroponic culture, is a kind of without natural soil, and using required containing plant growth and development The nutrient solution of element provides nutrition, so that plant is normally completed the cultivation technique of whole life cycle, it greatly extends agricultural Production space, so that crop can not depend on soil and be produced, development prospect is very extensive.For making during nutrient fluid cultivation Nutrient solution is the Different Nutrient Elements according to required for plant production, and needing will not be of the same race using nutrient solution mixing arrangement The nutrient solution of class is uniformly mixed, in order to the fast-growth of plant.

But during plant culture now, most there are nutrient solutions without the feelings that use or do not use completely and discarded Condition causes great waste.Therefore, particularly important to the Treatment for Reuse of nutrient solution discarded during plant cultivation.

Summary of the invention

In order to solve the above technical problem, the present invention provides nutrient solution Treatment for Reuse is discarded in a kind of camplotheca acuminata seedling cultivating process System, comprising: fixing seat 1, second-level settling pond 2, stirring motor 3, controller 4, first stage precipitation tank 5, first stage precipitation tank liquidometer 6, baffle-box 7, connection 8, water pump 9, device supporting mechanism 10, pretreatment unit 11；Two-stage precipitation is equipped with inside the fixing seat 1 Pond 2 and first stage precipitation tank 5,5 structure of first stage precipitation tank are cube, and 2 structure of second-level settling pond is cylindrical body, second-level settling pond 2 It is connected to 5 pipeline of first stage precipitation tank；5 inner wall of first stage precipitation tank is disposed with first stage precipitation tank liquidometer 6；The controller 4 It is fixed on 1 top side of fixing seat；The stirring motor 3 is located at 2 top center of second-level settling pond, and stirring motor 3 passes through conducting wire It is connected with the control of controller 4；The baffle-box 7 is placed in 5 side of first stage precipitation tank, and wherein 7 one end of baffle-box is equipped with connecting tube 8, Connecting tube 8 and baffle-box 7 penetrate through；The water pump 9 is between first stage precipitation tank 5 and baffle-box 7, and wherein 9 one end of water pump passes through Pipeline and baffle-box 7 penetrate through, and the other end is penetrated through by pipeline and first stage precipitation tank 5；Described device supporting mechanism 10, which is located at, to be fixed 1 bottom of seat；The pretreatment unit 11 is penetrated through with connecting tube 8.

Further, this section is the explanation to heretofore described 2 structure of second-level settling pond.The second-level settling pond 2 wraps It includes: separator 2-1, separator vertical shaft 2-2, second-level settling pond liquidometer 2-3, support plate 2-4, particulate matter detector 2-5, second level Sedimentation basin water inlet pipe 2-6, second-level settling pond outlet pipe 2-7, deposit collection case 2-8, detritus tank 2-9, sediment comb 2-10；

The separator 2-1 top center is equipped with separator vertical shaft 2-2, is equipped with support plate 2-4 on separator vertical shaft 2-2, wherein Separator vertical shaft 2-2 is rotatablely connected by support plate 2-4 and separator 2-1；The second-level settling pond liquidometer 2-3 is located at separation In device 2-1 top inner wall；The particulate matter detector 2-5 is located in the middle part of separator 2-1 on inner wall；The second-level settling pond water inlet The one end pipe 2-6 is connected to first stage precipitation tank 5, and the second-level settling pond water inlet pipe 2-6 other end enters from 2 bottom of second-level settling pond；Institute Stating second-level settling pond outlet pipe 2-7, wherein one end is goed deep into inside second-level settling pond 2, and entrance face passes through floating ball for two-stage precipitation 2 surface water of pond is drawn；The deposit collection case 2-8 is located at 2 bottom periphery of second-level settling pond；The detritus tank 2-9, which is located at, to be divided From the lower part device 2-1, the two perforation；The sediment comb 2-10 is located at the bottom detritus tank 2-9, the two perforation；The two-stage precipitation Pit level meter 2-3 and particulate matter detector 2-5 passes through conducting wire and is connected with the control of controller 4.

Further, this section is the explanation to heretofore described separator vertical shaft 2-2 structure.The separator vertical shaft 2- 2 include: cleaning shoe 2-2-1, shaft coupling 2-2-2, shaft 2-2-3, rotating vane 2-2-4, cleaning shoe reinforcing rib 2-2-5；It is described The bottom end shaft 2-2-3 is equipped with cleaning shoe 2-2-1, and the top cleaning shoe 2-2-1 is equipped with shaft coupling 2-2-2, and cleaning shoe 2-2-1 passes through connection Axis device 2-2-2 is rotated coaxially with shaft 2-2-3, and wherein cleaning shoe 2-2-1 is equipped with cleaning shoe reinforcing rib 2-2-5, and cleaning shoe adds Strengthening tendons 2-2-5 quantity is 2；The rotating vane 2-2-4 is located on shaft 2-2-3, rotating vane 2-2-4 and shaft 2-2-3 It is welded and fixed.

Further, this section is the explanation to heretofore described detritus tank 2-9 structure.The detritus tank 2-9 includes: point It separates out water hole headstock gear 2-9-1, is centrifuged cone 2-9-2, detritus tank transmission gear 2-9-3, waterproof machine 2-9-4, sediment stir Mix device 2-9-5, agitating shaft THR REV 2-9-6；The separation apopore headstock gear 2-9-1 is set to centrifugation cone 2-9-2 Outer wall surface, separation apopore headstock gear 2-9-1 and centrifugation cone 2-9-2 perforation, separation apopore headstock gear 2-9-1's Quantity is no less than 16, and the adjacent separation apopore headstock gear 2-9-1 in every side is in being equally spaced；The centrifugation cone 2-9-2 is Hollow structure inside detritus tank 2-9 is centrifuged the diameter that the diameter at the top of cone 2-9-2 is greater than bottom；The agitating shaft is counter to be pushed away Device 2-9-6 is located at centrifugation cone 2-9-2 interior lower end, and the diameter of agitating shaft THR REV 2-9-6 is 10cm~20cm；It is described Sediment agitating device 2-9-5 is located inside centrifugation cone 2-9-2, and the diameter of sediment agitating device 2-9-5 is 20cm~30cm, sinks Slag agitating device 2-9-5 is connect with sediment agitating device 2-9-5 central axis rotation；The detritus tank transmission gear 2-9-3 is located at Being centrifuged the side cone 2-9-2 and the two engagement connection, the quantity of detritus tank transmission gear 2-9-3 is 2, adjacent detritus tank transmission Horizontal engagement connection between gear 2-9-3；The waterproof machine 2-9-4 is vertical at the top detritus tank transmission gear 2-9-3, prevents Hydroelectric machine 2-9-4 and detritus tank transmission gear 2-9-3 is rotatablely connected, and waterproof machine 2-9-4 is connect by conducting wire with controller 4.

Further, this section is the explanation to heretofore described separation apopore headstock gear 2-9-1 structure.Described point Separating out water hole headstock gear 2-9-1 includes: counterbalance fixed device 2-9-1-1, telescope support 2-9-1-2, porous adjustable plate 2- 9-1-3, adjustment hole 2-9-1-4 adjust board mount 2-9-1-5, headstock gear bracket 2-9-1-6, are discharged duct 2-9-1-7, circle Plate spacing regulating mechanism 2-9-1-8 seals plectane 2-9-1-9, plectane regulating arm 2-9-1-10, telescope support adjusting knob 2-9- 1-11；One end of the plectane regulating arm 2-9-1-10 is fixedly connected with sealing plectane 2-9-1-9, plectane regulating arm 2-9-1-10 The other end with adjust board mount 2-9-1-5 be fixedly connected；The sealing plectane 2-9-1-9 is located in water outlet duct 2-9-1-7 Portion, the quantity of sealing plectane 2-9-1-9 are 2, pass through plectane distance regulating mechanism 2-9- between adjacent seals plectane 2-9-1-9 1-8 is fixedly connected；The quantity of the plectane distance regulating mechanism 2-9-1-8 is 6, adjacent plectane distance regulating mechanism 2-9-1- It is equally spaced between 8；The water outlet duct 2-9-1-7 is diameter 3cm~5cm cylindrical hollow structure；The headstock gear branch Frame 2-9-1-6 is located at the upper end plectane regulating arm 2-9-1-10, on headstock gear bracket 2-9-1-6 and plectane regulating arm 2-9-1-10 Central axis rotation connection；The adjusting board mount 2-9-1-5 is fixedly connected on the lower end plectane regulating arm 2-9-1-10, adjustable plate Angle between bracket 2-9-1-5 and plectane regulating arm 2-9-1-10 is 45 °~60 °, and the two is with plectane regulating arm 2-9-1-10 On central axis be rotary shaft swing；The porous adjustable plate 2-9-1-3, which is located at, adjusts the lower part board mount 2-9-1-5, more Hole adjustable plate 2-9-1-3 is connect with adjusting board mount 2-9-1-5 by adjustment hole 2-9-1-4；The adjustment hole 2-9-1-4 is set to On adjustable plate 2-9-1-3, adjustment hole 2-9-1-4 is uneven distribution and the different hollow structure of shape size, adjustment hole 2-9- The quantity of 1-4 is no less than 7；The telescope support 2-9-1-2 is connected to the lower end porous adjustable plate 2-9-1-3, telescope support 2- 9-1-2 is realized by telescope support adjusting knob 2-9-1-11 to be risen and declines, the bottom of telescope support 2-9-1-2 and counterbalance Fixed device 2-9-1-1 is fixedly connected；The telescope support adjusting knob 2-9-1-11 is located on porous adjustable plate 2-9-1-3.

Further, this section is the explanation to the fixed device 2-9-1-1 structure of heretofore described counterbalance.The balance The fixed device 2-9-1-1 of object includes: balancing mass 2-9-1-1-1, pin adjusting knob 2-9-1-1-2, fixed transverse rod 2-9- 1-1-3, fixed ring heater 2-9-1-1-4, safetied pin 2-9-1-1-5, fixed ring adjusting knob 2-9-1-1-6, pin sleeve Pipe 2-9-1-1-7, fixed ring 2-9-1-1-8；The fixed transverse rod 2-9-1-1-3 pass through fixed ring 2-9-1-1-8 inside and with The center fixed ring 2-9-1-1-8 is vertical, and the diameter of fixed transverse rod 2-9-1-1-3 is less than the diameter of fixed ring 2-9-1-1-8；It is described Fixed ring 2-9-1-1-8 is the telescopic mounting of diameter 15cm~25cm, and fixed ring heating is cased on the inside of fixed ring 2-9-1-1-8 Device 2-9-1-1-4；The fixed ring adjusting knob 2-9-1-1-6 is set to fixed ring 2-9-1-1-8 outer wall side, and fixed ring is adjusted Knob 2-9-1-1-6 is equipped with fixed ring 2-9-1-1-8 slave interrupt interface, the ipsilateral fixed ring adjusting knob 2-9-1-1-6 of slave interrupt interface It is fixedly connected with fixed ring 2-9-1-1-8；The pin casing 2-9-1-1-7 is set on fixed ring 2-9-1-1-8, and the two is fixed Connection, the quantity of pin casing 2-9-1-1-7 are 3, and each pin casing 2-9-1-1-7 is in be equally spaced, adjacent pin sleeve Angle between pipe 2-9-1-1 is 120 °；The pin adjusting knob 2-9-1-1-2 is located at the top pin casing 2-9-1-1-7, The two rotation connection；The safetied pin 2-9-1-1-5 is set to the bottom end pin casing 2-9-1-1-7, pin casing 2-9-1-1-7 Fixed transverse rod 2-9-1-1-3 is fixed by safetied pin 2-9-1-1-5；The balancing mass 2-9-1-1-1 arrangement In the fixed bottom device 2-9-1-1 of counterbalance, balancing mass 2-9-1-1-1 and fixed ring 2-9-1-1-8 is fixed by column Connection.

Further, this section is the explanation to heretofore described agitating shaft THR REV 2-9-6 structure.The agitating shaft THR REV 2-9-6 includes: refrigerating fluid recycling can 2-9-6-1, THR REV refrigerating fluid import 2-9-6-2, anti-thrust bearing 2-9- 6-3, refrigerating fluid rise standpipe 2-9-6-4, refrigerating fluid relief hole 2-9-6-5, refrigerating fluid return flow line 2-9-6-6, THR REV Refrigerating fluid exports 2-9-6-7；The anti-thrust bearing 2-9-6-3 is set at agitating shaft THR REV 2-9-6 inside center, anti-push shaft It holds the top 2-9-6-3 and rises standpipe 2-9-6-4 equipped with refrigerating fluid, the lower part anti-thrust bearing 2-9-6-3 is equipped with refrigerating fluid recycling can 2- 9-6-1；The refrigerating fluid rises standpipe 2-9-6-4 and its external column is rotated coaxially with anti-thrust bearing 2-9-6-3 and connect, and makes Cold liquid rises and forms refrigerating fluid return flow line 2-9-6-6 between standpipe 2-9-6-4 and column, and refrigerating fluid rises standpipe 2-9-6-4 Upper end closed；The refrigerating fluid return flow line 2-9-6-6 is passed through inside anti-thrust bearing 2-9-6-3 and refrigerating fluid recycling can 2-9-6- 1 perforation；The refrigerating fluid relief hole 2-9-6-5 is located at refrigerating fluid and rises standpipe 2-9-6-4 outer wall upper end, refrigerating fluid relief hole 2- The quantity of 9-6-5 is no less than 6, and adjacent refrigerating fluid relief hole 2-9-6-5 is in be equally spaced；The THR REV refrigerating fluid import 2-9-6-2 is located at refrigerating fluid and rises the lower part standpipe 2-9-6-4, on THR REV refrigerating fluid one end import 2-9-6-2 and refrigerating fluid The seamless perforation of standpipe 2-9-6-4 is risen, the THR REV refrigerating fluid import 2-9-6-2 other end passes through agitating shaft THR REV 2-9-6 Outer wall is connected to external refrigerant tank；The THR REV refrigerating fluid exports 2-9-6-7 from agitating shaft THR REV 2-9-6 outer wall Side insertion, and penetrate through and connect with the refrigerating fluid bottom recycling can 2-9-6-1.

Further, this section is the explanation to heretofore described 10 structure of device supporting mechanism.Described device supports machine Structure 10 includes: mechanism lifting motor 10-1, gear assembly 10-2, link block 10-3, support arm slideway 10-4, stationary rack 10-5, lifting gear 10-6, support arm 10-7, supporting mechanism pedestal 10-8；The support arm slideway 10-4 is vertically positioned at support The top mechanism base 10-8, the side of support arm slideway 10-4 are disposed with stationary rack 10-5, support arm slideway 10-4 and fixation Rack gear 10-5 is parallel and the two is fixedly connected with supporting mechanism pedestal 10-8；The support arm 10-7 is located at support arm slideway 10-4 On, support arm 10-7 is slidably connected with support arm slideway 10-4, and support arm 10-7 is L-type structure, and the front end of support arm 10-7 is set There are link block 10-3, support arm 10-7 to be fixedly connected with link block 10-3；The gear assembly 10-2 is located at support arm 10- 7 sides, the both ends gear assembly 10-2 are disposed with lifting gear 10-6, gear assembly 10-2 and lifting gear 10-6 rolling Dynamic connection；The lifting gear 10-6 engages connection with stationary rack 10-5, and the quantity of lifting gear 10-6 is 2, adjacent liter Dropping the distance between gear 10-6 is 10cm~20cm；The mechanism lifting motor 10-1 is located at gear assembly 10-2 mono- Side, mechanism lifting motor 10-1 and gear assembly 10-2 are sequentially connected, and mechanism lifting motor 10-1 passes through conducting wire and control Device 4 is connected.

Further, this section is the explanation to heretofore described 11 structure of pretreatment unit.The pretreatment unit 11 It include: sediment discharge pipe 11-1, pretreatment unit bracket 11-2, sediment gathering room 11-3, reaction chamber 11-4, marine salvage equipment Lifting device 11-5, pending water enter pipe 11-6, floater dragging device 11-7, water discharge spout 11-8 after processing；The drift Floating object marine salvage equipment 11-7 is located at pretreatment unit bracket 11-2 inner upper end, floater dragging device 11-7 and marine salvage equipment liter Falling unit 11-5 is slidably connected；The marine salvage equipment lifting device 11-5 is fixedly connected on pretreatment unit bracket 11-2 inner wall End, the quantity of marine salvage equipment lifting device 11-5 are 4；The reaction chamber 11-4 is arranged under floater dragging device 11-7 Portion, reaction chamber 11-4 are fixedly connected with pretreatment unit bracket 11-2；Water is arranged after the side of the reaction chamber 11-4 is equipped with processing Pipe 11-8 is put, reaction chamber 11-4 is connected with water discharge spout 11-8 perforation after processing, and reaction chamber is hollow rectangular parallelepiped structure；It is described Sediment gathering room 11-3 is located at the lower part reaction chamber 11-4 and the seamless perforation of the two, and the sediment bottom gathering room 11-3 is equipped with precipitating Object delivery pipe 11-1, sediment gathering room 11-3 and sediment discharge pipe 11-1 perforation connection；The pending water enters pipe 11- 6 are located at entire 11 top of pretreatment unit.

Further, this section is the explanation to heretofore described sediment discharge pipe 11-1 structure.The sediment row Putting pipe 11-1 includes: secondary precipitate delivery pipe 11-1-1, secondary precipitation tank 11-1-2, water outlet 11-1-3, asymmetric U-tube 11-1-4, sediment pressurizing unit 11-1-5, mud mixture enter pipe 11-1-6, sediment extrusion 11-1-7；It is described heavy One end of starch pressurizing unit 11-1-5 is equipped with sediment extrusion 11-1-7, perforation that the two is seamless, sediment pressurizing unit 11- 1-5 is the horizontal cylindrical hollow structure put；The mud mixture enters pipe 11-1-6 and is arranged in sediment pressurizing unit Mono- upper lateral part of 11-1-5, mud mixture enter pipe 11-1-6 and connect by the way that locking device and sediment pressurizing unit 11-1-5 are fixed Connect, and the two vertically through；The asymmetry U-tube 11-1-4 is set to mono- side lower part of sediment pressurizing unit 11-1-5, not right Claim the one end U-tube 11-1-4 and sediment pressurizing unit 11-1-5 perforation connect, the other end of asymmetric U-tube 11-1-4 with go out Perforation that mouth of a river 11-1-3 is seamless；The secondary precipitation tank 11-1-2 is arranged in the bottom asymmetric U-tube 11-1-4 and the two penetrates through The lower end of connection, secondary precipitation tank 11-1-2 is equipped with secondary precipitate delivery pipe 11-1-1；The secondary precipitate delivery pipe 11- 1-1 and secondary precipitation tank 11-1-2 perforation connects.

Further, this section is the explanation to heretofore described sediment pressurizing unit 11-1-5 structure.The precipitating Object pressurizing unit 11-1-5 includes: to squeeze out water pipe 11-1-5-1, porous inner sleeve 11-1-5-2, pressurizing unit outer tube 11-1-5- 3, squeeze out aquaporin 11-1-5-4, squeezer 11-1-5-5, pressure-ram 11-1-5-6, extrusion piston 11-1-5-7；It is described more Hole inner sleeve 11-1-5-2 is located inside pressurizing unit outer tube 11-1-5-3, and the diameter of porous inner sleeve 11-1-5-2, which is less than, to be squeezed The diameter of device outer tube 11-1-5-3 forms squeeze out aquaporin 11-1-5-4 between the two；The pressure-ram 11-1-5-6 is set Inside porous inner sleeve 11-1-5-2, one end of pressure-ram 11-1-5-6 is fixedly connected with extrusion piston 11-1-5-7, is squeezed The other end and squeezer 11-1-5-5 for pressing push rod 11-1-5-6 are sequentially connected；The extrusion piston 11-1-5-7 and porous inner sleeve Pipe 11-1-5-2 inner wall is slidably connected, and the diameter of piston is 4cm~6cm；The squeezer 11-1-5-5 is located at entire sediment The side pressurizing unit 11-1-5, squeezer 11-1-5-5 are connected by conducting wire and the control of controller 4；The extrusion water pipe 11-1- 5-1 is set to the side pressurizing unit outer tube 11-1-5-3 lower end, and it is vertical with aquaporin 11-1-5-4 is squeezed out to squeeze out water pipe 11-1-5-1 Perforation, the diameter for squeezing out water pipe 11-1-5-1 is 10cm~15cm.

Further, this section is the explanation to heretofore described squeezer 11-1-5-5 structure.The squeezer 11-1- 5-5 includes: pressure-ram screw thread 11-1-5-5-1, is tensioned regulation cock 11-1-5-5-2, spring lock block 11-1-5-5-3, compresses bullet Spring 11-1-5-5-4, push rod drive gear 11-1-5-5-5, transmission shaft 11-1-5-5-6；Described spring lock block 11-1-5-5-3 It in the two sides pressure-ram 11-1-5-6 and is arranged symmetrically, holddown spring 11- is equipped at spring lock block 11-1-5-5-3 outside hub 1-5-5-4；The holddown spring 11-1-5-5-4 is fixedly connected with spring lock block 11-1-5-5-3, holddown spring 11-1-5-5-4 In horizontally disposed；The tensioning regulation cock 11-1-5-5-2 is set between two sides spring lock block 11-1-5-5-3, is tensioned regulation cock The both ends of 11-1-5-5-2 are fixedly connected with every lateral spring briquetting 11-1-5-5-3 respectively, are tensioned the number of regulation cock 11-1-5-5-2 Amount is 4；The push rod driving gear 11-1-5-5-5 is located inside spring lock block 11-1-5-5-3, every lateral spring briquetting 11- It is 2 that 1-5-5-3 inner push-rod, which drives the quantity of gear 11-1-5-5-5,；The transmission shaft 11-1-5-5-6 is located at push rod sliding tooth The inside of 11-1-5-5-5 is taken turns, transmission shaft 11-1-5-5-6 is vertical with the push rod driving center gear 11-1-5-5-5, and the two is same Axis transmission connection；The pressure-ram screw thread 11-1-5-5-1 is around in pressure-ram 11-1-5-6 outer wall surface, pressure-ram spiral shell Line 11-1-5-5-1 engages connection with push rod driving gear 11-1-5-5-5.

Further, this section is the explanation to heretofore described reaction chamber 11-4 structure.The reaction chamber 11-4 includes: Damping sheet 11-4-1, damping screen 11-4-2, flocculant filler 11-4-3, reaction chamber support bracket 11-4-4, overflow ducts mouth 11- 4-5 is moved forward and backward formula wave-shape board 11-4-6；The reaction chamber support bracket 11-4-4 is cylinder hollow structure, adjacent upright reaction Reaction chamber 11-4 outer wall is formed between the support bracket 11-4-4 of room；The overflow ducts mouth 11-4-5 is set to vertical reaction chamber support bracket It the upper end 11-4-4 and is penetrated through with sediment discharge pipe 11-1, the quantity of overflow ducts mouth 11-4-5 is 4；The back-and-forth motion formula Wave-shape board 11-4-6 is located at reaction chamber 11-4 inner upper end, and the quantity for being moved forward and backward formula wave-shape board 11-4-6 is 3, adjacent front and back It is equally spaced between mobile wave-shape board 11-4-6, each back-and-forth motion formula wave-shape board 11-4-6 is in M type；The back-and-forth motion formula Wave-shape board 11-4-6 is connect by strut with external motor；The damping sheet 11-4-1 is arranged in back-and-forth motion formula wave-shape board 11- The lower end 4-6, the both ends damping sheet 11-4-1 are fixedly connected with reaction chamber 11-4 side wall, and the quantity of damping sheet 11-4-1 is 4, adjacent Damping sheet 11-4-1 is in be equally spaced；The damping screen 11-4-2 is set to reaction chamber 11-4 interior lower end, damping screen 11-4-2 two Side is fixedly connected with reaction chamber 11-4 side wall, and the distance between damping screen 11-4-2 and damping sheet 11-4-1 are 5cm~10cm；Institute It states flocculant filler 11-4-3 and is arranged in reaction chamber 11-4 inner wall lower end.

Further, this section is the explanation to heretofore described marine salvage equipment lifting device 11-5 structure.The salvaging Apparatus lifting device 11-5 includes: lifting device upright bar 11-5-1, air pump air inlet 11-5-2, lifting device air pump 11-5-3, Lifting device air flue 11-5-4, upright bar piston 11-5-5, lifting device cylinder body 11-5-6, lifting device venthole 11-5-7；Institute It states lifting device upright bar 11-5-1 to be located inside lifting device cylinder body 11-5-6, the diameter of lifting device upright bar 11-5-1, which is less than, to be risen The diameter of falling unit cylinder body 11-5-6 forms lifting device between lifting device upright bar 11-5-1 and lifting device cylinder body 11-5-6 Air flue 11-5-4；The upright bar piston 11-5-5 is set to the top lifting device upright bar 11-5-1, upright bar piston 11-5-5 and lifting Device upright bar 11-5-1 is fixedly connected, and upright bar piston 11-5-5 is slidably connected with lifting device cylinder body 11-5-6 inner wall；The gas Pump air inlet 11-5-2 is arranged in the lower part lifting device cylinder body 11-5-6, air pump air inlet 11-5-2 and lifting device air flue 11- The side of 5-4 perforation, air pump air inlet 11-5-2 is equipped with lifting device air pump 11-5-3；The lifting device air pump 11-5-3 with Air pump air inlet 11-5-2 perforation connection, lifting device air pump 11-5-3 are connect by conducting wire with controller 4；The lifting device Venthole 11-5-7 is located at the top lifting device cylinder body 11-5-6, lifting device venthole 11-5-7 and lifting device cylinder body 11- 5-6 internal run-through.

Further, this section is the explanation to heretofore described floater dragging device 11-7 structure.The floating material Marine salvage equipment 11-7 includes: fishing net 11-7-1, salvages arm shaft 11-7-2, salvages arm 11-7-3, fishing net regulating device 11- 7-4, rocker-arm link 11-7-5, rocker arm 11-7-6 salvage driving motor 11-7-7, convex idler wheel 11-7-8；The convex idler wheel 11-7- 8 are set to the upper end floater dragging device 11-7, and the side of convex idler wheel 11-7-8, which is disposed with, salvages driving motor 11-7-7, convex idler wheel 11-7-8 and salvaging driving motor 11-7-7 transmission connection；One end of the rocker arm 11-7-6 does not turn coaxially with convex idler wheel 11-7-8 Dynamic connection, the quantity of rocker arm 11-7-6 are two, and adjacent rocker arm 11-7-6 rotates coaxially connection；The rocker-arm link 11-7-5 mono- End is connected to the lower end rocker arm 11-7-6, the rocker-arm link 11-7-5 other end and salvaging arm shaft 11-7-2 rotation connection；It is described to beat Fishing arm shaft 11-7-2 is arranged in floater dragging device 11-7 bracket lower part two sides, salvages arm shaft 11-7-2 and passes through fixed dress It sets and is connect with floater dragging device 11-7 bracket, every side salvages arm shaft 11-7-2 and is equipped with salvaging arm 11-7-3；It is described to beat It fishes out arm 11-7-3 and salvages arm shaft 11-7-2 rotation connection, salvage be fixedly connected between arm 11-7-3 by thin bar in pairs；Institute Stating fishing net 11-7-1 is the attachment device between floater dragging device 11-7 bracket lower part two sides salvaging arm 11-7-3；It is described Fishing net regulating device 11-7-4 is fixed on floater dragging device 11-7 pedestal upper end, fishing net regulating device 11-7-4 and beats Dredger 11-7-1 connection, the quantity of fishing net regulating device 11-7-4 are 4.

Further, this section is the explanation to heretofore described fishing net regulating device 11-7-4 structure.The salvaging Net regulating device 11-7-4 includes: net hauling rope 11-7-4-1, regulating device fixed frame 11-7-4-2, capstan winch 11-7-4-3, dress Cooling system 11-7-4-4, capstan winch motor 11-7-4-5, refrigeration compressor 11-7-4-6, capstan winch tensioning apparatus 11-7-4-7 are set, Guide cylinder 11-7-4-8；The capstan winch motor 11-7-4-5 is located at the entire upper end fishing net regulating device 11-7-4, capstan winch motor On the same axis, capstan winch motor 11-7-4-5 and capstan winch tensioning apparatus 11-7-4-7 are driven by 11-7-4-5 and capstan winch 11-7-4-3 Connection；Described device cooling system 11-7-4-4 be set to the lower part capstan winch motor 11-7-4-5, device cooling system 11-7-4-4 with Capstan winch 11-7-4-3 rotation connection；The refrigeration compressor 11-7-4-6 is connected to the bottom device cooling system 11-7-4-4 one Side；The capstan winch tensioning apparatus 11-7-4-7 is located inside capstan winch 11-7-4-3, capstan winch tensioning apparatus 11-7-4-7 and capstan winch 11- Rotation connection both when 7-4-3 is bonded；The capstan winch 11-7-4-3 is the cylindrical hollow configuration of diameter 10cm~20cm；It is described Guidance cylinder 11-7-4-8 is fixedly connected on the bottom capstan winch 11-7-4-3, and the guidance upper end cylinder 11-7-4-8 is equipped with regulating device fixed frame 11-7-4-2, the guidance lower end cylinder 11-7-4-8 are equipped with net hauling rope 11-7-4-1, and guidance cylinder 11-7-4-8 is hollow structure；It is described Regulating device fixed frame 11-7-4-2 is fixedly connected with guidance cylinder 11-7-4-8；The net hauling rope 11-7-4-1 and fishing net 11-7-1 connection, net hauling rope 11-7-4-1 is by guiding cylinder 11-7-4-8 to be wound on capstan winch 11-7-4-3.

Nutrient solution recycling processing system, the device processing cost are discarded in a kind of camplotheca acuminata seedling cultivating process of the present invention Low, simple and compact for structure, simple to operate, ideal treatment effect, nutrient solution reclamation rate is high, and inside is equipped with stirring and scrapes mud Plate avoids the difficult problem of the heavy mud discharge in the area Chi Neini dead zone and bottom.

Detailed description of the invention

Fig. 1 is that the structural representation of nutrient solution recycling processing system is discarded in a kind of heretofore described camplotheca acuminata seedling cultivating process Figure.

Fig. 2 is heretofore described 2 structural schematic diagram of second-level settling pond.

Fig. 3 is heretofore described separator vertical shaft 2-2 structural schematic diagram.

Fig. 4 is heretofore described detritus tank 2-9 structural schematic diagram.

Fig. 5 is heretofore described separation apopore headstock gear 2-9-1 structural schematic diagram.

Fig. 6 is the fixed device 2-9-1-1 structural schematic diagram of heretofore described counterbalance.

Fig. 7 is heretofore described agitating shaft THR REV 2-9-6 structural schematic diagram.

Fig. 8 is heretofore described 10 structural schematic diagram of device supporting mechanism.

Fig. 9 is heretofore described 11 structural schematic diagram of pretreatment unit.

Figure 10 is heretofore described sediment discharge pipe 11-1 structural schematic diagram.

Figure 11 is heretofore described sediment pressurizing unit 11-1-5 structural schematic diagram.

Figure 12 is heretofore described squeezer 11-1-5-5 structural schematic diagram.

Figure 13 is heretofore described reaction chamber 11-4 structural schematic diagram.

Figure 14 is heretofore described marine salvage equipment lifting device 11-5 structural schematic diagram.

Figure 15 is heretofore described floater dragging device 11-7 structural schematic diagram.

Figure 16 is heretofore described fishing net regulating device 11-7-4 structural schematic diagram.

Figure 17 is heretofore described cleaning shoe 2-2-1 fatigue resistance gaining rate and 5- methyl-1-(2,2,2- front three Base -3- cyclopentene -1- base) -6- oxabicyclo [3.2.1] octane volume relationship.

Specific embodiment

With reference to the accompanying drawing to discarding nutrient solution recycling processing system in a kind of camplotheca acuminata seedling cultivating process provided by the invention It is further described.

As shown in Figure 1, being to discard nutrient solution recycling processing system in a kind of heretofore described camplotheca acuminata seedling cultivating process Structural schematic diagram.As seen from the figure, second-level settling pond 2 and first stage precipitation tank 5, first stage precipitation tank 5 are equipped with inside the fixing seat 1 Structure is cube, and 2 structure of second-level settling pond is cylindrical body, and second-level settling pond 2 is connected to 5 pipeline of first stage precipitation tank；Described one Grade 5 inner wall of sedimentation basin is disposed with first stage precipitation tank liquidometer 6；The controller 4 is fixed on 1 top side of fixing seat；It is described to stir It mixes motor 3 and is located at 2 top center of second-level settling pond, stirring motor 3 is connected by conducting wire with the control of controller 4；The baffle-box 7 It is placed in 5 side of first stage precipitation tank, wherein 7 one end of baffle-box is equipped with connecting tube 8, and connecting tube 8 and baffle-box 7 penetrate through；The water pump 9 Between first stage precipitation tank 5 and baffle-box 7, wherein 9 one end of water pump is penetrated through by pipeline and baffle-box 7, and the other end passes through pipe Road and first stage precipitation tank 5 penetrate through；Described device supporting mechanism 10 is located at 1 bottom of fixing seat；The pretreatment unit 11 with connect Pipe 8 penetrates through.

As shown in Fig. 2, being heretofore described 2 structural schematic diagram of second-level settling pond.As seen from the figure, the separator 2-1 top center is equipped with separator vertical shaft 2-2, is equipped with support plate 2-4 on separator vertical shaft 2-2, and wherein separator vertical shaft 2-2 is logical Support plate 2-4 and separator 2-1 is crossed to be rotatablely connected；The second-level settling pond liquidometer 2-3 is located at separator 2-1 top inner wall On；The particulate matter detector 2-5 is located in the middle part of separator 2-1 on inner wall；Described one end second-level settling pond water inlet pipe 2-6 and one Grade sedimentation basin 5 is connected to, and the second-level settling pond water inlet pipe 2-6 other end enters from 2 bottom of second-level settling pond；The second-level settling pond goes out Water pipe 2-7 wherein go deep into inside second-level settling pond 2 by one end, and entrance face is drawn 2 surface water of second-level settling pond by floating ball； The deposit collection case 2-8 is located at 2 bottom periphery of second-level settling pond；The detritus tank 2-9 is located at the lower part separator 2-1, and two Person's perforation；The sediment comb 2-10 is located at the bottom detritus tank 2-9, the two perforation；The second-level settling pond liquidometer 2-3 and Grain analyte detection device 2-5 passes through conducting wire and is connected with the control of controller 4；Particulate matter detector 2-5 is prior art products, LD-3C Type micro computer laser particle analyte detection instrument is produced by Weifang Ai Wo environmental protection equipment Co., Ltd.

As shown in figure 3, being heretofore described separator vertical shaft 2-2 structural schematic diagram.As seen from the figure, the shaft The bottom end 2-2-3 is equipped with cleaning shoe 2-2-1, and the top cleaning shoe 2-2-1 is equipped with shaft coupling 2-2-2, and cleaning shoe 2-2-1 passes through shaft coupling 2-2-2 is rotated coaxially with shaft 2-2-3, and wherein cleaning shoe 2-2-1 is equipped with cleaning shoe reinforcing rib 2-2-5, cleaning shoe reinforcing rib 2-2-5 quantity is 2；The rotating vane 2-2-4 is located on shaft 2-2-3, and rotating vane 2-2-4 and shaft 2-2-3 are welded It is fixed.

As shown in figure 4, being heretofore described detritus tank 2-9 structural schematic diagram.As seen from the figure, the separation water outlet Hole headstock gear 2-9-1 is set to centrifugation cone 2-9-2 outer wall surface, separation apopore headstock gear 2-9-1 and centrifugation cone 2- The quantity of 9-2 perforation, separation apopore headstock gear 2-9-1 is no less than 16, the adjacent separation apopore headstock gear 2- in every side 9-1 is in be equally spaced；The centrifugation cone 2-9-2 is the hollow structure inside detritus tank 2-9, is centrifuged at the top of cone 2-9-2 Diameter is greater than the diameter of bottom；The agitating shaft THR REV 2-9-6 is located at centrifugation cone 2-9-2 interior lower end, and agitating shaft is anti- The diameter of pushing device 2-9-6 is 10cm~20cm；The sediment agitating device 2-9-5 is located inside centrifugation cone 2-9-2, sediment The diameter of agitating device 2-9-5 is 20cm~30cm, and sediment agitating device 2-9-5 and sediment agitating device 2-9-5 central axis turn Dynamic connection；The detritus tank transmission gear 2-9-3 is located at the centrifugation side cone 2-9-2 and the two engagement connection, detritus tank transmission The quantity of gear 2-9-3 is 2, horizontal engagement connection between adjacent detritus tank transmission gear 2-9-3；The waterproof machine 2-9- 4 are vertical at the top detritus tank transmission gear 2-9-3, and waterproof machine 2-9-4 and detritus tank transmission gear 2-9-3 are rotatablely connected, Waterproof machine 2-9-4 is connect by conducting wire with controller 4.

As shown in figure 5, being heretofore described separation apopore headstock gear 2-9-1 structural schematic diagram.From figure Out, one end of the plectane regulating arm 2-9-1-10 is fixedly connected with sealing plectane 2-9-1-9, plectane regulating arm 2-9-1-10's The other end is fixedly connected with board mount 2-9-1-5 is adjusted；The sealing plectane 2-9-1-9 is located inside water outlet duct 2-9-1-7, The quantity for sealing plectane 2-9-1-9 is 2, passes through plectane distance regulating mechanism 2-9-1-8 between adjacent seals plectane 2-9-1-9 It is fixedly connected；The quantity of the plectane distance regulating mechanism 2-9-1-8 be 6, adjacent plectane distance regulating mechanism 2-9-1-8 it Between be equally spaced；The water outlet duct 2-9-1-7 is diameter 3cm~5cm cylindrical hollow structure；The headstock gear bracket 2- 9-1-6 is located at the upper end plectane regulating arm 2-9-1-10, on headstock gear bracket 2-9-1-6 and plectane regulating arm 2-9-1-10 in Central axis connection；The adjusting board mount 2-9-1-5 is fixedly connected on the lower end plectane regulating arm 2-9-1-10, adjusts board mount Angle between 2-9-1-5 and plectane regulating arm 2-9-1-10 is 45 °~60 °, and the two is on plectane regulating arm 2-9-1-10 Central axis is rotary shaft swing；The porous adjustable plate 2-9-1-3, which is located at, adjusts the lower part board mount 2-9-1-5, porous tune Section plate 2-9-1-3 is connect with adjusting board mount 2-9-1-5 by adjustment hole 2-9-1-4；The adjustment hole 2-9-1-4, which is set to, to be adjusted On plate 2-9-1-3, adjustment hole 2-9-1-4 is uneven distribution and the different hollow structure of shape size, adjustment hole 2-9-1-4's Quantity is no less than 7；The telescope support 2-9-1-2 is connected to the lower end porous adjustable plate 2-9-1-3, telescope support 2-9-1-2 It is realized by telescope support adjusting knob 2-9-1-11 and rises and decline, bottom and the counterbalance of telescope support 2-9-1-2 is fixed Device 2-9-1-1 is fixedly connected；The telescope support adjusting knob 2-9-1-11 is located on porous adjustable plate 2-9-1-3.

As shown in fig. 6, being the fixed device 2-9-1-1 structural schematic diagram of heretofore described counterbalance.As seen from the figure, The fixed transverse rod 2-9-1-1-3 is inside fixed ring 2-9-1-1-8 and vertical with the center fixed ring 2-9-1-1-8, fixed The diameter of cross bar 2-9-1-1-3 is less than the diameter of fixed ring 2-9-1-1-8；The fixed ring 2-9-1-1-8 be diameter 15cm~ The telescopic mounting of 25cm, the inside fixed ring 2-9-1-1-8 are cased with fixed ring heater 2-9-1-1-4；The fixed ring is adjusted Knob 2-9-1-1-6 is set to fixed ring 2-9-1-1-8 outer wall side, and fixed ring adjusting knob 2-9-1-1-6 is equipped with fixed ring 2-9-1-1-8 slave interrupt interface, the ipsilateral fixed ring adjusting knob 2-9-1-1-6 of slave interrupt interface are fixedly connected with fixed ring 2-9-1-1-8； The pin casing 2-9-1-1-7 is set on fixed ring 2-9-1-1-8, and the two is fixedly connected, the number of pin casing 2-9-1-1-7 Amount is 3, and for each pin casing 2-9-1-1-7 in being equally spaced, the angle between adjacent pin casing 2-9-1-1 is 120 °； The pin adjusting knob 2-9-1-1-2 is located at the top pin casing 2-9-1-1-7, the two rotation connection；The safetied pin 2-9-1-1-5 is set to the bottom end pin casing 2-9-1-1-7, and pin casing 2-9-1-1-7 is by safetied pin 2-9-1-1-5 to solid Determine cross bar 2-9-1-1-3 to be fixed；The balancing mass 2-9-1-1-1 is arranged in the fixed bottom device 2-9-1-1 of counterbalance Portion, balancing mass 2-9-1-1-1 are fixedly connected with fixed ring 2-9-1-1-8 by column.

As shown in fig. 7, being heretofore described agitating shaft THR REV 2-9-6 structural schematic diagram.As seen from the figure, it states Anti- thrust bearing 2-9-6-3 is set at agitating shaft THR REV 2-9-6 inside center, and the top anti-thrust bearing 2-9-6-3 is equipped with refrigeration Liquid rises standpipe 2-9-6-4, and the lower part anti-thrust bearing 2-9-6-3 is equipped with refrigerating fluid recycling can 2-9-6-1；The refrigerating fluid rises vertical Pipe 2-9-6-4 and its column of outside are rotated coaxially with anti-thrust bearing 2-9-6-3 and connects, refrigerating fluid rising standpipe 2-9-6-4 and Refrigerating fluid return flow line 2-9-6-6 is formed between column, refrigerating fluid rises standpipe 2-9-6-4 upper end closed；The refrigerating fluid returns Circulation road 2-9-6-6 is passed through and is penetrated through inside anti-thrust bearing 2-9-6-3 with refrigerating fluid recycling can 2-9-6-1；The refrigerating fluid release Hole 2-9-6-5 is located at refrigerating fluid and rises standpipe 2-9-6-4 outer wall upper end, and the quantity of refrigerating fluid relief hole 2-9-6-5 is no less than 6 A, adjacent refrigerating fluid relief hole 2-9-6-5 is in be equally spaced；The THR REV refrigerating fluid import 2-9-6-2 is located at refrigerating fluid Rise the lower part standpipe 2-9-6-4, THR REV refrigerating fluid one end import 2-9-6-2 and refrigerating fluid rising standpipe 2-9-6-4 are seamless Perforation, the THR REV refrigerating fluid import 2-9-6-2 other end pass through agitating shaft THR REV 2-9-6 outer wall and external refrigerant tank Connection；The THR REV refrigerating fluid exports 2-9-6-7 and is inserted into from agitating shaft THR REV 2-9-6 outer wall side, and with refrigeration The perforation connection of the liquid bottom recycling can 2-9-6-1.

As shown in figure 8, being heretofore described 10 structural schematic diagram of device supporting mechanism.As seen from the figure, the branch Brace slideway 10-4 is vertically positioned at the top supporting mechanism pedestal 10-8, and the side of support arm slideway 10-4 is disposed with stationary rack 10-5, support arm slideway 10-4 are parallel with stationary rack 10-5 and the two is fixedly connected with supporting mechanism pedestal 10-8；The branch Brace 10-7 is located on support arm slideway 10-4, and support arm 10-7 is slidably connected with support arm slideway 10-4, and support arm 10-7 is L The front end of type structure, support arm 10-7 is equipped with link block 10-3, and support arm 10-7 is fixedly connected with link block 10-3；The gear Transmission device 10-2 is located at the side support arm 10-7, and the both ends gear assembly 10-2 are disposed with lifting gear 10-6, and gear passes Dynamic device 10-2 and lifting gear 10-6, which is rolled, to be connected；The lifting gear 10-6 engages connection with stationary rack 10-5, lifting The quantity of gear 10-6 is 2, and the distance between adjacent lifting gear 10-6 is 10cm~20cm；The mechanism lifting motor 10-1 is located at the side gear assembly 10-2, and mechanism lifting motor 10-1 and gear assembly 10-2 are sequentially connected, mechanism Lifting motor 10-1 is connected by conducting wire with controller 4.

As shown in figure 9, being heretofore described 11 structural schematic diagram of pretreatment unit.As seen from the figure, the floating Object marine salvage equipment 11-7 is located at pretreatment unit bracket 11-2 inner upper end, and floater dragging device 11-7 and marine salvage equipment are gone up and down Device 11-5 is slidably connected；The marine salvage equipment lifting device 11-5 is fixedly connected on pretreatment unit bracket 11-2 inner wall End, the quantity of marine salvage equipment lifting device 11-5 are 4；The reaction chamber 11-4 is arranged under floater dragging device 11-7 Portion, reaction chamber 11-4 are fixedly connected with pretreatment unit bracket 11-2；Water is arranged after the side of the reaction chamber 11-4 is equipped with processing Pipe 11-8 is put, reaction chamber 11-4 is connected with water discharge spout 11-8 perforation after processing, and reaction chamber is hollow rectangular parallelepiped structure；It is described Sediment gathering room 11-3 is located at the lower part reaction chamber 11-4 and the seamless perforation of the two, and the sediment bottom gathering room 11-3 is equipped with precipitating Object delivery pipe 11-1, sediment gathering room 11-3 and sediment discharge pipe 11-1 perforation connection；The pending water enters pipe 11- 6 are located at entire 11 top of pretreatment unit.

It as shown in Figure 10, is heretofore described sediment discharge pipe 11-1 structural schematic diagram.As seen from the figure, described One end of sediment pressurizing unit 11-1-5 is equipped with sediment extrusion 11-1-7, perforation that the two is seamless, sediment pressurizing unit 11-1-5 is the horizontal cylindrical hollow structure put；The mud mixture enters pipe 11-1-6 and is arranged in sediment extruding dress Mono- upper lateral part of 11-1-5 is set, mud mixture enters pipe 11-1-6 to be fixed by locking device and sediment pressurizing unit 11-1-5 Connection, and the two vertically through；The asymmetry U-tube 11-1-4 is set to mono- side lower part of sediment pressurizing unit 11-1-5, no Symmetrical one end U-tube 11-1-4 and sediment pressurizing unit 11-1-5 perforation connect, the other end of asymmetric U-tube 11-1-4 with Perforation that water outlet 11-1-3 is seamless；The secondary precipitation tank 11-1-2 is arranged in the bottom asymmetric U-tube 11-1-4 and the two is passed through Lead to and connect, the lower end of secondary precipitation tank 11-1-2 is equipped with secondary precipitate delivery pipe 11-1-1；The secondary precipitate delivery pipe 11-1-1 and secondary precipitation tank 11-1-2 perforation connects.

It as shown in figure 11, is heretofore described sediment pressurizing unit 11-1-5 structural schematic diagram.As seen from the figure, The porous inner sleeve 11-1-5-2 is located inside pressurizing unit outer tube 11-1-5-3, and the diameter of porous inner sleeve 11-1-5-2 is small In the diameter of pressurizing unit outer tube 11-1-5-3, is formed squeeze out aquaporin 11-1-5-4 between the two；The pressure-ram 11-1- 5-6 is set to inside porous inner sleeve 11-1-5-2, one end of pressure-ram 11-1-5-6 and the fixed company of extrusion piston 11-1-5-7 It connects, the other end and squeezer 11-1-5-5 of pressure-ram 11-1-5-6 is sequentially connected；The extrusion piston 11-1-5-7 and more Hole inner sleeve 11-1-5-2 inner wall is slidably connected, and the diameter of piston is 4cm~6cm；The squeezer 11-1-5-5 is located at entire The side sediment pressurizing unit 11-1-5, squeezer 11-1-5-5 are connected by conducting wire and the control of controller 4；The extrusion water pipe 11-1-5-1 is set to the side pressurizing unit outer tube 11-1-5-3 lower end, squeezes out water pipe 11-1-5-1 and squeezes out aquaporin 11-1-5-4 Vertically through the diameter for squeezing out water pipe 11-1-5-1 is 10cm~15cm.

It as shown in figure 12, is heretofore described squeezer 11-1-5-5 structural schematic diagram.As seen from the figure, the bullet Spring briquetting 11-1-5-5-3 is located at the two sides pressure-ram 11-1-5-6 and is arranged symmetrically, spring lock block 11-1-5-5-3 outside hub Place is equipped with holddown spring 11-1-5-5-4；The holddown spring 11-1-5-5-4 is fixedly connected with spring lock block 11-1-5-5-3, Holddown spring 11-1-5-5-4 is in horizontally disposed；The tensioning regulation cock 11-1-5-5-2 is set to two sides spring lock block 11-1-5- Between 5-3, the both ends of tensioning regulation cock 11-1-5-5-2 are fixedly connected with every lateral spring briquetting 11-1-5-5-3 respectively, and tensioning is adjusted The quantity for saving bolt 11-1-5-5-2 is 4；The push rod driving gear 11-1-5-5-5 is located in spring lock block 11-1-5-5-3 The quantity in portion, every lateral spring briquetting 11-1-5-5-3 inner push-rod driving gear 11-1-5-5-5 is 2；The transmission shaft 11-1- 5-5-6 is located at the inside of push rod driving gear 11-1-5-5-5, and transmission shaft 11-1-5-5-6 and push rod drive gear 11-1-5-5- 5 centers are vertical, and the two coaxial transmission connects；The pressure-ram screw thread 11-1-5-5-1 is around in outside pressure-ram 11-1-5-6 Wall surface, pressure-ram screw thread 11-1-5-5-1 engage connection with push rod driving gear 11-1-5-5-5.

It as shown in figure 13, is heretofore described reaction chamber 11-4 structural schematic diagram.As seen from the figure, the reaction chamber Support bracket 11-4-4 is cylinder hollow structure, forms reaction chamber 11-4 outer wall between adjacent upright reaction chamber support bracket 11-4-4； The overflow ducts mouth 11-4-5 is set to the vertical upper end reaction chamber support bracket 11-4-4 and penetrates through with sediment discharge pipe 11-1, overflows The quantity of circulation road junction 11-4-5 is 4；The back-and-forth motion formula wave-shape board 11-4-6 is located at reaction chamber 11-4 inner upper end, preceding The quantity of mobile wave-shape board 11-4-6 is 3 afterwards, is equally spaced between adjacent back-and-forth motion formula wave-shape board 11-4-6, Mei Geqian Movable type wave-shape board 11-4-6 is in M type afterwards；The back-and-forth motion formula wave-shape board 11-4-6 is connect by strut with external motor；Institute It states damping sheet 11-4-1 and is arranged in the lower end back-and-forth motion formula wave-shape board 11-4-6, the both ends damping sheet 11-4-1 and the side reaction chamber 11-4 Wall is fixedly connected, and the quantity of damping sheet 11-4-1 is 4, and adjacent damping sheet 11-4-1 is in be equally spaced；The damping screen 11-4- 2 are set to reaction chamber 11-4 interior lower end, and the two sides damping screen 11-4-2 are fixedly connected with reaction chamber 11-4 side wall, damping screen 11-4-2 The distance between damping sheet 11-4-1 is 5cm~10cm；The flocculant filler 11-4-3 is arranged in reaction chamber 11-4 Wall lower end.

It as shown in figure 14, is heretofore described marine salvage equipment lifting device 11-5 structural schematic diagram.As seen from the figure, The lifting device upright bar 11-5-1 is located inside lifting device cylinder body 11-5-6, and the diameter of lifting device upright bar 11-5-1 is less than The diameter of lifting device cylinder body 11-5-6 forms lifting dress between lifting device upright bar 11-5-1 and lifting device cylinder body 11-5-6 Set air flue 11-5-4；The upright bar piston 11-5-5 is set to the top lifting device upright bar 11-5-1, upright bar piston 11-5-5 and liter Falling unit upright bar 11-5-1 is fixedly connected, and upright bar piston 11-5-5 is slidably connected with lifting device cylinder body 11-5-6 inner wall；It is described Air pump air inlet 11-5-2 is arranged in the lower part lifting device cylinder body 11-5-6, air pump air inlet 11-5-2 and lifting device air flue The side of 11-5-4 perforation, air pump air inlet 11-5-2 is equipped with lifting device air pump 11-5-3；The lifting device air pump 11-5- 3 connect with air pump air inlet 11-5-2 perforation, and lifting device air pump 11-5-3 is connect by conducting wire with controller 4；The lifting Device venthole 11-5-7 is located at the top lifting device cylinder body 11-5-6, lifting device venthole 11-5-7 and lifting device cylinder body 11-5-6 internal run-through.

It as shown in figure 15, is heretofore described floater dragging device 11-7 structural schematic diagram.As seen from the figure, institute Stating floater dragging device 11-7 includes: fishing net 11-7-1, salvages arm shaft 11-7-2, salvages arm 11-7-3, fishing net tune Regulating device 11-7-4, rocker-arm link 11-7-5, rocker arm 11-7-6 salvage driving motor 11-7-7, convex idler wheel 11-7-8；It is described convex Idler wheel 11-7-8 is set to the upper end floater dragging device 11-7, and the side of convex idler wheel 11-7-8, which is disposed with, salvages driving motor 11- 7-7, convex idler wheel 11-7-8 and salvaging driving motor 11-7-7 transmission connection；One end of the rocker arm 11-7-6 and convex idler wheel 11- 7-8 is not rotatablely connected coaxially, and the quantity of rocker arm 11-7-6 is two, and adjacent rocker arm 11-7-6 rotates coaxially connection；The rocker arm The one end connecting rod 11-7-5 is connected to the lower end rocker arm 11-7-6, the rocker-arm link 11-7-5 other end and salvaging arm shaft 11-7-2 rotation Connection；The salvaging arm shaft 11-7-2 is arranged in floater dragging device 11-7 bracket lower part two sides, salvages arm shaft 11-7- 2 are connect by fixed device with floater dragging device 11-7 bracket, and every side salvages arm shaft 11-7-2 and is equipped with salvaging arm 11- 7-3；The salvaging arm 11-7-3 and salvaging arm shaft 11-7-2 rotation connection, are salvaged solid by thin bar between arm 11-7-3 in pairs Fixed connection；The fishing net 11-7-1 is the connection between floater dragging device 11-7 bracket lower part two sides salvaging arm 11-7-3 Device；The fishing net regulating device 11-7-4 is fixed on floater dragging device 11-7 pedestal upper end, fishing net regulating device 11-7-4 is connect with fishing net 11-7-1, and the quantity of fishing net regulating device 11-7-4 is 4.

It as shown in figure 16, is heretofore described fishing net regulating device 11-7-4 structural schematic diagram.As seen from the figure, The fishing net regulating device 11-7-4 includes: net hauling rope 11-7-4-1, regulating device fixed frame 11-7-4-2, capstan winch 11- 7-4-3, device cooling system 11-7-4-4, capstan winch motor 11-7-4-5, refrigeration compressor 11-7-4-6, capstan winch tensioning apparatus 11-7-4-7 guides cylinder 11-7-4-8；The capstan winch motor 11-7-4-5 is located at the entire upper end fishing net regulating device 11-7-4, Capstan winch motor 11-7-4-5 and capstan winch 11-7-4-3 on the same axis, capstan winch motor 11-7-4-5 and capstan winch tensioning apparatus 11- 7-4-7 transmission connection；Described device cooling system 11-7-4-4 is set to the lower part capstan winch motor 11-7-4-5, device cooling system 11-7-4-4 and capstan winch 11-7-4-3 is rotatablely connected；The refrigeration compressor 11-7-4-6 is connected to device cooling system 11-7- 4-4 bottom side；The capstan winch tensioning apparatus 11-7-4-7 is located inside capstan winch 11-7-4-3, capstan winch tensioning apparatus 11-7-4-7 It is rotatablely connected both when being bonded with capstan winch 11-7-4-3；The capstan winch 11-7-4-3 is the cylindrical, hollow of diameter 10cm~20cm Structure；The guidance cylinder 11-7-4-8 is fixedly connected on the bottom capstan winch 11-7-4-3, and the guidance upper end cylinder 11-7-4-8, which is equipped with, to be adjusted Device fixed frame 11-7-4-2, the guidance lower end cylinder 11-7-4-8 are equipped with net hauling rope 11-7-4-1, and guidance cylinder 11-7-4-8 is Hollow structure；The regulating device fixed frame 11-7-4-2 is fixedly connected with guidance cylinder 11-7-4-8；The net hauling rope 11-7-4- 1 connect with fishing net 11-7-1, and net hauling rope 11-7-4-1 is by guiding cylinder 11-7-4-8 to be wound on capstan winch 11-7-4-3.

Following embodiment further illustrates the contents of the present invention, and as cleaning shoe 2-2-1, it is important set of the invention Part increases the service life of integral device due to its presence, it plays pass for the safety of integral device, even running Key effect.For this purpose, by it is following be embodiment, further verify cleaning shoe 2-2-1 of the present invention, what is shown is higher than The physical characteristic of other related patents.

Embodiment 1

Cleaning shoe 2-2-1 of the present invention is manufactured according to the following steps, and by mass percentage:

Step 1: the 5- methyl-1-(2,2,2- trimethyl-3- cyclopentene-1- base)-in component will be matched according to mass percent 6- oxabicyclo [3.2.1] octane 2% is added in stirred-tank reactor tank, while purification lake water 9% is added, and starts stirred tank Blender in formula reactor tank, setting speed 2rpm；

Step 2: it after stirred-tank reactor tank operates 9 minutes, is added and promotes additive DPG1% and α, α '-[(1- methyl Asia second Base) two-4,1- phenylene] two [ω-[(methyl-1-oxo-2- propyl) oxygroup] poly- (oxygen-1,2- ethylidene) 4%, starting is stirred The bleeder heater in tank reactor tank is mixed, temperature is made to rise to 1 DEG C, diphenylguanidine 2% and rubidium oxide nanoparticle 9% is added, It is stirred evenly in stirred-tank reactor tank, obtains the homogenate of H component；

Step 3: weighing the promotion catalyst 5% in proportion component according to mass percent, be homogenized and be mixed with H component, then Bleeder heater in secondary starting stirred-tank reactor tank keeps the temperature 2 minutes, discharges into molding press, i.e., controlled at 4 DEG C Obtain cleaning shoe 2-2-1.

Embodiment 2

Cleaning shoe 2-2-1 of the present invention is manufactured according to the following steps, and by mass percentage:

Step 1: the 5- methyl-1-(2,2,2- trimethyl-3- cyclopentene-1- base)-in component will be matched according to mass percent 6- oxabicyclo [3.2.1] octane 52% is added in stirred-tank reactor tank, while purification lake water 1% is added, starting stirring Blender in tank reactor tank, setting speed 52rpm；

Step 2: stirred-tank reactor tank operates after ten minutes, is added and promotes additive DPG13% and α, and [(1- methyl is sub- by α '- Ethyl) two-4,1- phenylene] two [ω-[(methyl-1-oxo-2- propyl) oxygroup] poly- (oxygen-1,2- ethylidene) 85%, startings Bleeder heater in stirred-tank reactor tank makes temperature rise to 103 DEG C, and diphenylguanidine 95% is added and rubidium oxide nanometer is micro- Grain 39%, stirs evenly in stirred-tank reactor tank, obtains the homogenate of H component；

Step 3: weighing the promotion catalyst 19% in proportion component according to mass percent, be homogenized and be mixed with H component, then Bleeder heater in secondary starting stirred-tank reactor tank keeps the temperature 95 minutes, discharges into molding press controlled at 85 DEG C, Obtain cleaning shoe 2-2-1.

Reference examples

Reference examples are certain commercially available brand component same as the application cleaning shoe 2-2-1, to be tested for the property test.

Embodiment 3

The cleaning shoe 2-2-1 and reference examples that Examples 1 to 2 is prepared same component obtained carry out using effect pair Than.The two heat distortion temperature, compression strength, bending strength, corrosion rate are counted, the results are shown in Table 1.

As seen from Table 1, cleaning shoe 2-2-1 of the present invention, above-mentioned performance indicator are superior to prior art production Product.

Embodiment 4

Study 5- methyl-1-(2,2,2- trimethyl-3- cyclopentene-1- base)-6- oxabicyclo [3.2.1] octane accounting pair The influence of cleaning shoe 2-2-1 performance.Change 5- methyl-1-(2,2,2- trimethyl-3- cyclopentene-1- base)-6- oxabicyclo [3.2.1] octane volume is 10%, 20%, 30%, the 40% of total amount, is that evaluation refers to cleaning shoe 2-2-1 fatigue resistance gaining rate Mark.From heretofore described cleaning shoe 2-2-1 fatigue resistance gaining rate and 5- methyl-1-(2,2,2- trimethyl-3- ring penta Alkene-1- base) find out in-6- oxabicyclo [3.2.1] octane volume relational graph, 5- methyl-1-(2,2,2- trimethyl-3- rings penta Alkene -1- base) -6- oxabicyclo [3.2.1] octane content, have important influence to its material fatigue resistance gaining rate, The variation of content directly affects properties of product.

Claims (10)

1. discarding nutrient solution recycling processing system in a kind of camplotheca acuminata seedling cultivating process, comprising: fixing seat (1), second-level settling pond (2), stirring motor (3), controller (4), first stage precipitation tank (5), first stage precipitation tank liquidometer (6), baffle-box (7), connecting tube (8), water pump (9), device supporting mechanism (10), pretreatment unit (11)；It is characterized in that, being equipped with inside the fixing seat (1) Second-level settling pond (2) and first stage precipitation tank (5), first stage precipitation tank (5) structure are cube, and second-level settling pond (2) structure is circle Cylinder, second-level settling pond (2) are connected to first stage precipitation tank (5) pipeline；First stage precipitation tank (5) inner wall is disposed with level-one precipitating Pit level meter (6)；The controller (4) is fixed on fixing seat (1) top side；The stirring motor (3) is located at two-stage precipitation Pond (2) top center, stirring motor (3) are connected by conducting wire with controller (4) control；It is heavy that the baffle-box (7) is placed in level-one Shallow lake pond (5) side, wherein baffle-box (7) one end is equipped with connecting tube (8), and connecting tube (8) and baffle-box (7) penetrate through；The water pump (9) between first stage precipitation tank (5) and baffle-box (7), wherein water pump (9) one end is penetrated through by pipeline and baffle-box (7), separately One end is penetrated through by pipeline and first stage precipitation tank (5)；Described device supporting mechanism (10) is located at fixing seat (1) bottom；It is described pre- Processing unit (11) and connecting tube (8) penetrate through.

2. discarding nutrient solution recycling processing system in a kind of camplotheca acuminata seedling cultivating process according to claim 1, feature exists In the second-level settling pond (2) includes: separator (2-1), separator vertical shaft (2-2), second-level settling pond liquidometer (2-3), branch Fagging (2-4), particulate matter detector (2-5), second-level settling pond water inlet pipe (2-6), second-level settling pond outlet pipe (2-7), deposition Object collecting box (2-8), detritus tank (2-9), sediment comb (2-10)；Separator (2-1) top center is vertical equipped with separator Axis (2-2) is equipped with support plate (2-4) on separator vertical shaft (2-2), wherein separator vertical shaft (2-2) by support plate (2-4) with Separator (2-1) rotation connection；The second-level settling pond liquidometer (2-3) is located in separator (2-1) top inner wall；Described Grain analyte detection device (2-5) is located in the middle part of separator (2-1) on inner wall；Described second-level settling pond water inlet pipe one end (2-6) and level-one Sedimentation basin (5) connection, second-level settling pond water inlet pipe (2-6) other end enter from second-level settling pond (2) bottom；The two-stage precipitation Wherein second-level settling pond (2) inside is goed deep into one end to pond outlet pipe (2-7), and entrance face passes through floating ball for second-level settling pond (2) Surface water is drawn；The deposit collection case (2-8) is located at second-level settling pond (2) bottom periphery；The detritus tank (2-9) is located at The lower part separator (2-1), the two perforation；The sediment comb (2-10) is located at the bottom detritus tank (2-9), the two perforation；It is described Second-level settling pond liquidometer (2-3) and particulate matter detector (2-5) are connected by conducting wire with controller (4) control.

3. discarding nutrient solution recycling processing system in a kind of camplotheca acuminata seedling cultivating process according to claim 2, feature exists In the separator vertical shaft (2-2) includes: cleaning shoe (2-2-1), shaft coupling (2-2-2), shaft (2-2-3), rotating vane (2-2-4), cleaning shoe reinforcing rib (2-2-5)；The shaft bottom end (2-2-3) is equipped with cleaning shoe (2-2-1), cleaning shoe (2-2- 1) top is equipped with shaft coupling (2-2-2), and cleaning shoe (2-2-1) is rotated coaxially by shaft coupling (2-2-2) with shaft (2-2-3), Wherein cleaning shoe (2-2-1) is equipped with cleaning shoe reinforcing rib (2-2-5), and cleaning shoe reinforcing rib (2-2-5) quantity is 2；It is described Rotating vane (2-2-4) is located on shaft (2-2-3), and rotating vane (2-2-4) is welded and fixed with shaft (2-2-3).

4. discarding nutrient solution recycling processing system in a kind of camplotheca acuminata seedling cultivating process according to claim 3, feature exists In the detritus tank (2-9) includes: separation apopore headstock gear (2-9-1), is centrifuged cone (2-9-2), detritus tank driving cog It takes turns (2-9-3), waterproof machine (2-9-4), sediment agitating device (2-9-5), agitating shaft THR REV (2-9-6)；The separation Apopore headstock gear (2-9-1) be set to centrifugation cone (2-9-2) outer wall surface, separation apopore headstock gear (2-9-1) with It is centrifuged cone (2-9-2) perforation, the quantity of separation apopore headstock gear (2-9-1) is no less than 16, and every side is adjacent to isolate Water hole headstock gear (2-9-1) is in be equally spaced；Centrifugation cone (2-9-2) is detritus tank (2-9) internal hollow structure, It is centrifuged the diameter that the diameter at the top of cone (2-9-2) is greater than bottom；The agitating shaft THR REV (2-9-6) is located at centrifugation cone (2-9-2) interior lower end, the diameter of agitating shaft THR REV (2-9-6) are 10cm~20cm；Sediment agitating device (the 2-9- 5) it is located at centrifugation cone (2-9-2) inside, the diameter of sediment agitating device (2-9-5) is 20cm~30cm, sediment agitating device (2-9-5) is connect with sediment agitating device (2-9-5) central axis rotation；The detritus tank transmission gear (2-9-3) is located at centrifugation The cone side (2-9-2) and the two engage connection, and the quantity of detritus tank transmission gear (2-9-3) is 2, adjacent detritus tank transmission Horizontal engagement connection between gear (2-9-3)；The waterproof machine (2-9-4) is vertical at detritus tank transmission gear (2-9-3) Top, waterproof machine (2-9-4) and detritus tank transmission gear (2-9-3) are rotatablely connected, waterproof machine (2-9-4) by conducting wire with Controller (4) connection.

5. discarding nutrient solution recycling processing system in a kind of camplotheca acuminata seedling cultivating process according to claim 4, feature exists In the separation apopore headstock gear (2-9-1) includes: that counterbalance is fixed device (2-9-1-1), telescope support (2-9-1- 2), porous adjustable plate (2-9-1-3), adjustment hole (2-9-1-4) are adjusted board mount (2-9-1-5), headstock gear bracket (2-9- 1-6), it is discharged duct (2-9-1-7), plectane distance regulating mechanism (2-9-1-8) seals plectane (2-9-1-9), plectane regulating arm (2-9-1-10), telescope support adjusting knob (2-9-1-11)；One end of the plectane regulating arm (2-9-1-10) and sealing are justified Plate (2-9-1-9) is fixedly connected, the other end of plectane regulating arm (2-9-1-10) and the fixed company of adjusting board mount (2-9-1-5) It connects；The sealing plectane (2-9-1-9) is located at water outlet duct (2-9-1-7) inside, and the quantity of sealing plectane (2-9-1-9) is 2 It is a, it is fixedly connected between adjacent seals plectane (2-9-1-9) by plectane distance regulating mechanism (2-9-1-8)；Between the plectane The quantity of distance regulating mechanism (2-9-1-8) is 6, is equally spaced between adjacent plectane distance regulating mechanism (2-9-1-8)；It is described Being discharged duct (2-9-1-7) is diameter 3cm~5cm cylindrical hollow structure；The headstock gear bracket (2-9-1-6) is located at circle The upper end plate regulating arm (2-9-1-10), headstock gear bracket (2-9-1-6) and the central axis on plectane regulating arm (2-9-1-10) Rotation connection；The adjusting board mount (2-9-1-5) is fixedly connected on the lower end plectane regulating arm (2-9-1-10), adjusts board mount Angle between (2-9-1-5) and plectane regulating arm (2-9-1-10) is 45 °~60 °, and the two is with plectane regulating arm (2-9-1- 10) central axis on is rotary shaft swing；The porous adjustable plate (2-9-1-3), which is located at, adjusts board mount (2-9-1-5) Lower part, porous adjustable plate (2-9-1-3) are connect with adjusting board mount (2-9-1-5) by adjustment hole (2-9-1-4)；The adjusting Hole (2-9-1-4) is set on adjustable plate (2-9-1-3), and adjustment hole (2-9-1-4) is uneven distribution and shape size is different The quantity of hollow structure, adjustment hole (2-9-1-4) is no less than 7；The telescope support (2-9-1-2) is connected to porous adjustable plate The lower end (2-9-1-3), telescope support (2-9-1-2) is realized by telescope support adjusting knob (2-9-1-11) to be risen and declines, The bottom of telescope support (2-9-1-2) is fixedly connected with counterbalance fixed device (2-9-1-1)；The telescope support adjusting knob (2-9-1-11) is located on porous adjustable plate (2-9-1-3).

6. discarding nutrient solution recycling processing system in a kind of camplotheca acuminata seedling cultivating process according to claim 5, feature exists In the counterbalance fixed device (2-9-1-1) includes: balancing mass (2-9-1-1-1), pin adjusting knob (2-9-1- 1-2), fixed transverse rod (2-9-1-1-3), fixed ring heater (2-9-1-1-4), safetied pin (2-9-1-1-5), fixed ring tune It saves knob (2-9-1-1-6), pin casing (2-9-1-1-7), fixed ring (2-9-1-1-8)；Fixed transverse rod (the 2-9-1-1- 3) inside fixed ring (2-9-1-1-8) and, fixed transverse rod (2-9-1-1-3) vertical with the fixed ring center (2-9-1-1-8) are passed through Diameter be less than fixed ring (2-9-1-1-8) diameter；The fixed ring (2-9-1-1-8) is stretching for diameter 15cm~25cm Compression apparatus, fixed ring (2-9-1-1-8) inside are cased with fixed ring heater (2-9-1-1-4)；Fixed ring adjusting knob (the 2- It 9-1-1-6) is set to fixed ring (2-9-1-1-8) outer wall side, fixed ring adjusting knob (2-9-1-1-6) is equipped with fixed ring (2-9-1-1-8) slave interrupt interface, the ipsilateral fixed ring adjusting knob (2-9-1-1-6) of slave interrupt interface and fixed ring (2-9-1-1-8) are solid Fixed connection；The pin casing (2-9-1-1-7) is set on fixed ring (2-9-1-1-8), and the two is fixedly connected, pin casing The quantity of (2-9-1-1-7) is 3, and each pin casing (2-9-1-1-7) is in be equally spaced, adjacent pin casing (2-9-1- 1) angle between is 120 °；The pin adjusting knob (2-9-1-1-2) is located at the top pin casing (2-9-1-1-7), and two Person's rotation connection；The safetied pin (2-9-1-1-5) is set to the bottom end pin casing (2-9-1-1-7), pin casing (2-9-1- 1-7) fixed transverse rod (2-9-1-1-3) is fixed by safetied pin (2-9-1-1-5)；Balancing mass (the 2-9- 1-1-1) it is arranged in the fixed bottom device (2-9-1-1) of counterbalance, balancing mass (2-9-1-1-1) and fixed ring (2-9-1- 1-8) it is fixedly connected by column.

7. discarding nutrient solution recycling processing system in a kind of camplotheca acuminata seedling cultivating process according to claim 6, feature exists In the agitating shaft THR REV (2-9-6) includes: refrigerating fluid recycling can (2-9-6-1), THR REV refrigerating fluid import (2- 9-6-2), anti-thrust bearing (2-9-6-3), refrigerating fluid rise standpipe (2-9-6-4), refrigerating fluid relief hole (2-9-6-5), refrigerating fluid Return flow line (2-9-6-6), THR REV refrigerating fluid export (2-9-6-7)；The anti-thrust bearing (2-9-6-3) is set to agitating shaft At THR REV (2-9-6) inside center, the anti-thrust bearing top (2-9-6-3) is equipped with refrigerating fluid and rises standpipe (2-9-6-4), instead The thrust bearing lower part (2-9-6-3) is equipped with refrigerating fluid recycling can (2-9-6-1)；The refrigerating fluid rise standpipe (2-9-6-4) and its External column is rotated coaxially with anti-thrust bearing (2-9-6-3) to be connect, and refrigerating fluid rises shape between standpipe (2-9-6-4) and column At refrigerating fluid return flow line (2-9-6-6), refrigerating fluid rises standpipe (2-9-6-4) upper end closed；The refrigerating fluid return flow line (2-9-6-6) passes through the inside anti-thrust bearing (2-9-6-3) and penetrates through with refrigerating fluid recycling can (2-9-6-1)；The refrigerating fluid release Hole (2-9-6-5) is located at refrigerating fluid and rises standpipe (2-9-6-4) outer wall upper end, and the quantity of refrigerating fluid relief hole (2-9-6-5) is not Less than 6, adjacent refrigerating fluid relief hole (2-9-6-5) is in be equally spaced；THR REV refrigerating fluid import (2-9-6-2) position Rise the lower part standpipe (2-9-6-4) in refrigerating fluid, THR REV refrigerating fluid import one end (2-9-6-2) and refrigerating fluid rise standpipe Perforation that (2-9-6-4) is seamless, THR REV refrigerating fluid import (2-9-6-2) other end pass through agitating shaft THR REV (2-9-6) Outer wall is connected to external refrigerant tank；The THR REV refrigerating fluid exports (2-9-6-7) from agitating shaft THR REV (2-9-6) The insertion of outer wall side, and penetrate through and connect with the refrigerating fluid recycling can bottom (2-9-6-1).

8. discarding nutrient solution recycling processing system in a kind of camplotheca acuminata seedling cultivating process according to claim 7, feature exists In described device supporting mechanism (10) includes: mechanism lifting motor (10-1), gear assembly (10-2), link block (10- 3), support arm slideway (10-4), stationary rack (10-5), lifting gear (10-6), support arm (10-7), supporting mechanism pedestal (10-8)；The support arm slideway (10-4) is vertically positioned at the top supporting mechanism pedestal (10-8), support arm slideway (10-4) Side is disposed with stationary rack (10-5), and support arm slideway (10-4) is parallel with stationary rack (10-5) and the two and supporting mechanism Pedestal (10-8) is fixedly connected；The support arm (10-7) is located on support arm slideway (10-4), support arm (10-7) and support Arm slideway (10-4) is slidably connected, and support arm (10-7) is L-type structure, and the front end of support arm (10-7) is equipped with link block (10- 3), support arm (10-7) is fixedly connected with link block (10-3)；The gear assembly (10-2) is located at support arm (10-7) Side, the both ends gear assembly (10-2) are disposed with lifting gear (10-6), gear assembly (10-2) and lifting gear (10-6) rolls connection；The lifting gear (10-6) engages connection, the number of lifting gear (10-6) with stationary rack (10-5) Amount is 2, and the distance between adjacent lifting gear (10-6) is 10cm~20cm；The mechanism lifting motor (10-1) is located at tooth The side wheel transmission device (10-2), mechanism lifting motor (10-1) and gear assembly (10-2) are sequentially connected, mechanism lifting Motor (10-1) is connected by conducting wire with controller (4).

9. discarding nutrient solution recycling processing system in a kind of camplotheca acuminata seedling cultivating process according to claim 8, feature exists In the pretreatment unit (11) includes: sediment discharge pipe (11-1), pretreatment unit bracket (11-2), sediment convergence Room (11-3), reaction chamber (11-4), marine salvage equipment lifting device (11-5), pending water enter pipe (11-6), and floating material is salvaged Equipment (11-7), water discharge spout (11-8) after processing；The floater dragging device (11-7) is located at pretreatment unit bracket (11-2) inner upper end, floater dragging device (11-7) are slidably connected with marine salvage equipment lifting device (11-5)；The salvaging Apparatus lifting device (11-5) is fixedly connected on pretreatment unit bracket (11-2) inner wall upper end, marine salvage equipment lifting device (11- 5) quantity is 4；The reaction chamber (11-4) is arranged in the lower part floater dragging device (11-7), reaction chamber (11-4) and pre- Processing unit bracket (11-2) is fixedly connected；The side of the reaction chamber (11-4) is equipped with water discharge spout (11-8) after processing, instead Water discharge spout (11-8) perforation after room (11-4) and processing is answered to connect, reaction chamber is hollow rectangular parallelepiped structure；The sediment Gathering room (11-3) is located at the reaction chamber lower part (11-4) and the seamless perforation of the two, and the sediment gathering room bottom (11-3) is equipped with precipitating Object delivery pipe (11-1), sediment gathering room (11-3) and sediment discharge pipe (11-1) perforation connect；The pending water into Enter pipe (11-6) and is located at entire pretreatment unit (11) top；

The sediment discharge pipe (11-1) includes: secondary precipitate delivery pipe (11-1-1), secondary precipitation tank (11-1-2), out The mouth of a river (11-1-3), asymmetric U-tube (11-1-4), sediment pressurizing unit (11-1-5), mud mixture enter pipe (11- 1-6), sediment extrusion (11-1-7)；One end of the sediment pressurizing unit (11-1-5) is equipped with sediment extrusion (11-1-7), perforation that the two is seamless, sediment pressurizing unit (11-1-5) are the horizontal cylindrical hollow structure put；The mud Aqueous mixtures enter pipe (11-1-6) and are arranged in sediment pressurizing unit (11-1-5) upper lateral part, and mud mixture enters pipe (11-1-6) is fixedly connected by locking device with sediment pressurizing unit (11-1-5), and the two vertically through；It is described not right U-tube (11-1-4) is claimed to be set to sediment pressurizing unit (11-1-5) side lower part, asymmetric U-tube one end (11-1-4) and heavy Starch pressurizing unit (11-1-5) perforation connection, the other end and water outlet (11-1-3) of asymmetric U-tube (11-1-4) are seamless Perforation；The secondary precipitation tank (11-1-2) is arranged in the asymmetric U-tube bottom (11-1-4) and the two perforation connection, secondary heavy The lower end of shallow lake tank (11-1-2) is equipped with secondary precipitate delivery pipe (11-1-1)；The secondary precipitate delivery pipe (11-1-1) with Secondary precipitation tank (11-1-2) perforation connection；

The sediment pressurizing unit (11-1-5) includes: to squeeze out water pipe (11-1-5-1), and porous inner sleeve (11-1-5-2) is squeezed Pressure device outer tube (11-1-5-3) squeezes out aquaporin (11-1-5-4), squeezer (11-1-5-5), pressure-ram (11-1-5- 6), extrusion piston (11-1-5-7)；The porous inner sleeve (11-1-5-2) is located at pressurizing unit outer tube (11-1-5-3) inside, The diameter of porous inner sleeve (11-1-5-2) is less than the diameter of pressurizing unit outer tube (11-1-5-3), forms expressed water between the two Channel (11-1-5-4)；The pressure-ram (11-1-5-6) is set to the inside porous inner sleeve (11-1-5-2), pressure-ram The one end of (11-1-5-6) is fixedly connected with extrusion piston (11-1-5-7), the other end of pressure-ram (11-1-5-6) and extruding Device (11-1-5-5) transmission connection；The extrusion piston (11-1-5-7) and the sliding of porous inner sleeve (11-1-5-2) inner wall connect It connects, the diameter of piston is 4cm~6cm；The squeezer (11-1-5-5) is located at entire sediment pressurizing unit (11-1-5) one Side, squeezer (11-1-5-5) are connected by conducting wire and controller (4) control；The extrusion water pipe (11-1-5-1), which is set to, to be squeezed The side lower end device outer tube (11-1-5-3), squeeze out water pipe (11-1-5-1) and squeeze out aquaporin (11-1-5-4) vertically through, The diameter for squeezing out water pipe (11-1-5-1) is 10cm~15cm；

The squeezer (11-1-5-5) includes: pressure-ram screw thread (11-1-5-5-1), is tensioned regulation cock (11-1-5-5-2), Spring lock block (11-1-5-5-3), holddown spring (11-1-5-5-4), push rod drive gear (11-1-5-5-5), transmission shaft (11- 1-5-5-6)；The spring lock block (11-1-5-5-3) is located at the pressure-ram two sides (11-1-5-6) and is arranged symmetrically, spring pressure Holddown spring (11-1-5-5-4) is equipped at block (11-1-5-5-3) outside hub；The holddown spring (11-1-5-5-4) and bullet Spring briquetting (11-1-5-5-3) is fixedly connected, and holddown spring (11-1-5-5-4) is in horizontally disposed；Tensioning regulation cock (the 11- It 1-5-5-2) is set between two sides spring lock block (11-1-5-5-3), is tensioned the both ends of regulation cock (11-1-5-5-2) respectively and often Lateral spring briquetting (11-1-5-5-3) is fixedly connected, and the quantity of tensioning regulation cock (11-1-5-5-2) is 4；The push rod driving Gear (11-1-5-5-5) is located at spring lock block (11-1-5-5-3) inside, and every lateral spring briquetting (11-1-5-5-3) inner push-rod drives The quantity of moving gear (11-1-5-5-5) is 2；The transmission shaft (11-1-5-5-6) is located at push rod driving gear (11-1-5- Inside 5-5), transmission shaft (11-1-5-5-6) is vertical with the push rod driving gear center (11-1-5-5-5), and the two coaxially passes Dynamic connection；The pressure-ram screw thread (11-1-5-5-1) is around in pressure-ram (11-1-5-6) outer wall surface, pressure-ram spiral shell Line (11-1-5-5-1) engages connection with push rod driving gear (11-1-5-5-5)；

The reaction chamber (11-4) includes: damping sheet (11-4-1), damping screen (11-4-2), flocculant filler (11-4-3), Reaction chamber support bracket (11-4-4), overflow ducts mouth (11-4-5) are moved forward and backward formula wave-shape board (11-4-6)；The reaction chamber branch Retaining frame (11-4-4) is cylinder hollow structure, forms reaction chamber (11-4) outside between adjacent upright reaction chamber support bracket (11-4-4) Wall；The overflow ducts mouth (11-4-5) be set to the vertical reaction chamber support bracket upper end (11-4-4) and with sediment discharge pipe (11- 1) it penetrates through, the quantity of overflow ducts mouth (11-4-5) is 4；The back-and-forth motion formula wave-shape board (11-4-6) is located at reaction chamber (11-4) inner upper end, the quantity for being moved forward and backward formula wave-shape board (11-4-6) is 3, adjacent back-and-forth motion formula wave-shape board (11-4- 6) it is equally spaced between, each back-and-forth motion formula wave-shape board (11-4-6) is in M type；The back-and-forth motion formula wave-shape board (11-4-6) It is connect by strut with external motor；The damping sheet (11-4-1) is arranged in the lower end back-and-forth motion formula wave-shape board (11-4-6), The damping sheet both ends (11-4-1) are fixedly connected with reaction chamber (11-4) side wall, and the quantity of damping sheet (11-4-1) is 4, adjacent resistance Buddhist nun's plate (11-4-1) is in be equally spaced；The damping screen (11-4-2) is set to reaction chamber (11-4) interior lower end, damping screen (11- 4-2) two sides are fixedly connected with reaction chamber (11-4) side wall, and the distance between damping screen (11-4-2) and damping sheet (11-4-1) are 5cm~10cm；The flocculant filler (11-4-3) is arranged in reaction chamber (11-4) inner wall lower end；

The marine salvage equipment lifting device (11-5) includes: lifting device upright bar (11-5-1), and air pump air inlet (11-5-2) rises Falling unit air pump (11-5-3), lifting device air flue (11-5-4), upright bar piston (11-5-5), lifting device cylinder body (11-5- 6), lifting device venthole (11-5-7)；The lifting device upright bar (11-5-1) is located in lifting device cylinder body (11-5-6) Portion, the diameter of lifting device upright bar (11-5-1) are less than the diameter of lifting device cylinder body (11-5-6), lifting device upright bar (11- 5-1) lifting device air flue (11-5-4) is formed between lifting device cylinder body (11-5-6)；The upright bar piston (11-5-5) sets In the top lifting device upright bar (11-5-1), upright bar piston (11-5-5) is fixedly connected with lifting device upright bar (11-5-1), is stood Bar piston (11-5-5) is slidably connected with lifting device cylinder body (11-5-6) inner wall；The air pump air inlet (11-5-2) is arranged in The lower part lifting device cylinder body (11-5-6), air pump air inlet (11-5-2) and lifting device air flue (11-5-4) are penetrated through, air pump into The side of stomata (11-5-2) is equipped with lifting device air pump (11-5-3)；The lifting device air pump (11-5-3) and air pump air inlet Hole (11-5-2) perforation connection, lifting device air pump (11-5-3) are connect by conducting wire with controller (4)；The lifting device goes out Stomata (11-5-7) is located at the top lifting device cylinder body (11-5-6), lifting device venthole (11-5-7) and lifting device cylinder body (11-5-6) internal run-through；

The floater dragging device (11-7) includes: fishing net (11-7-1), is salvaged arm shaft (11-7-2), and arm (11- is salvaged 7-3), fishing net regulating device (11-7-4), rocker-arm link (11-7-5), rocker arm (11-7-6) salvage driving motor (11-7- 7), convex idler wheel (11-7-8)；The convex idler wheel (11-7-8) is set to the upper end floater dragging device (11-7), convex idler wheel (11-7- 8) side, which is disposed with, salvages driving motor (11-7-7), and convex idler wheel (11-7-8) and salvaging driving motor (11-7-7) transmission connect It connects；One end of the rocker arm (11-7-6) is not rotatablely connected coaxially with convex idler wheel (11-7-8), and the quantity of rocker arm (11-7-6) is Two, adjacent rocker arm (11-7-6) rotates coaxially connection；Described rocker-arm link (11-7-5) one end is connected to rocker arm (11-7-6) Lower end, rocker-arm link (11-7-5) other end and salvaging arm shaft (11-7-2) rotation connection；The salvaging arm shaft (11-7- 2) floater dragging device (11-7) bracket lower part two sides are arranged in, arm shaft (11-7-2) is salvaged and passes through fixed device and floating The connection of object marine salvage equipment (11-7) bracket, every side salvage arm shaft (11-7-2) and are equipped with salvaging arm (11-7-3)；The salvaging Arm (11-7-3) and salvaging arm shaft (11-7-2) rotation connection salvage connect between arm (11-7-3) by the way that thin bar is fixed in pairs It connects；The fishing net (11-7-1) is the company between floater dragging device (11-7) bracket lower part two sides salvaging arm (11-7-3) Connection device；The fishing net regulating device (11-7-4) is fixed on floater dragging device (11-7) pedestal upper end, fishing net tune Regulating device (11-7-4) is connect with fishing net (11-7-1), and the quantity of fishing net regulating device (11-7-4) is 4；

The fishing net regulating device (11-7-4) includes: net hauling rope (11-7-4-1), regulating device fixed frame (11-7-4- 2), capstan winch (11-7-4-3), device cooling system (11-7-4-4), capstan winch motor (11-7-4-5), refrigeration compressor (11-7- 4-6), capstan winch tensioning apparatus (11-7-4-7) is guided cylinder (11-7-4-8)；The capstan winch motor (11-7-4-5), which is located at, entirely beats The upper end dredger regulating device (11-7-4), capstan winch motor (11-7-4-5) and capstan winch (11-7-4-3) on the same axis, capstan winch Motor (11-7-4-5) and capstan winch tensioning apparatus (11-7-4-7) are sequentially connected；Described device cooling system (11-7-4-4) is set to The lower part capstan winch motor (11-7-4-5), device cooling system (11-7-4-4) and capstan winch (11-7-4-3) are rotatablely connected；The system Cold compressor (11-7-4-6) is connected to device cooling system (11-7-4-4) bottom side；Capstan winch tensioning apparatus (the 11-7- 4-7) it is located at the inside capstan winch (11-7-4-3), turns both when capstan winch tensioning apparatus (11-7-4-7) is bonded with capstan winch (11-7-4-3) Dynamic connection；The capstan winch (11-7-4-3) is the cylindrical hollow configuration of diameter 10cm~20cm；Guidance cylinder (the 11-7-4- 8) it is fixedly connected on the bottom capstan winch (11-7-4-3), the guidance cylinder upper end (11-7-4-8) is equipped with regulating device fixed frame (11-7-4- 2), the guidance cylinder lower end (11-7-4-8) is equipped with net hauling rope (11-7-4-1), and guidance cylinder (11-7-4-8) is hollow structure；It is described Regulating device fixed frame (11-7-4-2) is fixedly connected with guidance cylinder (11-7-4-8)；It the net hauling rope (11-7-4-1) and beats Dredger (11-7-1) connection, net hauling rope (11-7-4-1) is by guiding cylinder (11-7-4-8) to be wound in capstan winch (11-7-4-3) On；

Nutrient solution recycling processing system is discarded in a kind of camplotheca acuminata seedling cultivating process, the working method of the device includes following step It is rapid:

Step 1: it discards in the operation of nutrient solution recycling processing system, powers on, controller in a kind of camplotheca acuminata seedling cultivating process (4) start water pump (9), treatment sewage is now placed in by connecting tube (8) and baffle-box (7) into first stage precipitation tank (5) Internal first stage precipitation tank liquidometer (6) real-time monitoring first stage precipitation tank (5) water level inside of first stage precipitation tank (5)；When level-one is heavy When shallow lake pit level meter (6) monitor value reaches its setting value, first stage precipitation tank liquidometer (6) generates electric signal and is transmitted to controller (4), controller (4) control water pump (9) shuts down；Enter first stage precipitation tank (5) in treatment sewage, staff by pair Controller (4) programming sets sewage in the dead time of first stage precipitation tank (5), when controller (4) internal counter gate time When reaching setting value, controller (4) controls first stage precipitation tank (5) internal drain valve and opens, and sewage is put to second-level settling pond (2) internal；

Step 2: in second-level settling pond (2) operation, sewage enters second-level settling pond by second-level settling pond water inlet pipe (2-6) (2) internal, second-level settling pond liquidometer (2-3) real-time monitoring second-level settling pond (2) water level inside；When second-level settling pond liquidometer When (2-3) monitor value reaches its setting value, second-level settling pond liquidometer (2-3) generates electric signal and is transmitted to controller (4), controls The internal drain valve of device (4) control first stage precipitation tank (5) processed is closed；In second-level settling pond (2), particulate matter detector (2-5) is real When monitoring second-level settling pond (2) internal Wastewater particle content, when particulate matter detector (2-5) monitor value is higher than its setting value When, particulate matter detector (2-5) electricity production signal is transmitted to controller (4), and controller (4) controls stirring motor (3) starting, simultaneously It controls shaft coupling (2-2-2) to be detached from, promotes stirring motor (3) that rotating vane (2-2-4) is individually driven to rotate, sewage internal particle Object precipitates under the influence of centrifugal force；When particulate matter detector (2-5) monitor value is lower than its setting value, particulate matter detector (2-5) electricity production signal is transmitted to controller (4), and controller (4) control stirring motor (3) shuts down；

Step 3: in separator vertical shaft (2-2) operation, when second-level settling pond (2) internal precipitate object deposits to a certain extent, Staff controls shaft coupling (2-2-2) combination, stirring motor by controller (4) control stirring motor (3) starting (3) rotating vane (2-2-4) and cleaning shoe (2-2-1) rotation are driven, second-level settling pond (2) bottom sediment is collected into deposition In object collecting box (2-8), clear water is discharged from second-level settling pond outlet pipe (2-7)；

Step 4: in detritus tank (2-9) operation, after powering on, waterproof machine (2-9-4) drives detritus tank transmission gear (2- Operating 9-3), and then drive entire centrifugation cone (2-9-2) rotation；In centrifugation cone (2-9-2) and sediment agitating device (2- The stirring to material is realized under double action 9-5)；Then, material goes out from separation apopore headstock gear (2-9-1) swash of wave；

Step 5: it in separation apopore headstock gear (2-9-1) operation, when centrifugation cone (2-9-2) is rotated, stretches Bracket (2-9-1-2), adjustment hole (2-9-1-4), adjusts board mount (2-9-1-5) in centrifugal force at porous adjustable plate (2-9-1-3) Under the action of integrally to deviate rotary axis direction move, and then drive plectane regulating arm (2-9-1-10) move downward, realization it is close Seal the opening of plectane (2-9-1-9)；When centrifugation cone (2-9-2) stops operating, telescope support (2-9-1-2), porous adjusting Plate (2-9-1-3), adjustment hole (2-9-1-4) adjust board mount (2-9-1-5) and integrally hang state in nature, at this time plectane tune Joint arm (2-9-1-10) is in horizontality, realizes the closure of sealing plectane (2-9-1-9)；

Step 6: in counterbalance fixed device (2-9-1-1) operation, by the pine for adjusting pin adjusting knob (2-9-1-1-2) Tightness come realize safetied pin (2-9-1-1-5) to the fixation of fixed transverse rod (2-9-1-1-3) with loosen；Meanwhile in fixed ring Under the action of adjusting knob (2-9-1-1-6), fixed ring (2-9-1-1-8) is able to expansion and shrinks, and then it is different to adapt to diameter Fixed transverse rod (2-9-1-1-3)；

Step 7: agitating shaft THR REV (2-9-6) operation in, refrigerating fluid by THR REV refrigerating fluid import (2-9-6-2) into Enter refrigerating fluid and rises standpipe (2-9-6-4)；Refrigerating fluid is when reaching at the top of refrigerating fluid rising standpipe (2-9-6-4), from refrigerating fluid Refrigerating fluid return flow line (2-9-6-6) is flowed into relief hole (2-9-6-5)；Refrigerating fluid absorbs refrigerating fluid return flow line (2-9- It after heat in 6-6), flows into refrigerating fluid recycling can (2-9-6-1), and then is arranged from THR REV refrigerating fluid outlet (2-9-6-7) Out；

Step 8: in device supporting mechanism (10) operation, after powering on, mechanism lifting motor (10-1) drives gear drive Device (10-2) operating, and then lifting gear (10-6) rotation is driven, and pass through lifting gear (10-6) and stationary rack (10- 5) engagement realizes the rising and decline of support arm (10-7)；When lifting gear (10-6) rotates counterclockwise, support arm (10-7) rises；When lifting gear (10-6) rotates clockwise, support arm (10-7) decline；

Step 9: in pretreatment unit (11) operation, treatment sewage enters pipe (11-6) into reaction chamber by pending water (11-4)；Solid content in sewage is down to sediment gathering room (11-3) by precipitating, and is arranged from sediment discharge pipe (11-1) Out；Meanwhile floater dragging device (11-7) under the action of marine salvage equipment lifting device (11-5) to swimming in sewage surface Object salvaged；Finally, the discharge from water discharge spout after processing (11-8) of treated sewage；

Step 10: in sediment discharge pipe (11-1) operation, mud mixture enters pipe (11-1-6) by mud mixture and flows Enter sediment pressurizing unit (11-1-5)；Under the action of sediment pressurizing unit (11-1-5), mud in water is from sediment Extrusion (11-1-7) discharge, remaining water flow into asymmetric U-tube (11-1-4)；Water in asymmetric U-tube (11-1-4) After precipitating, solid content enters secondary precipitation tank (11-1-2) in water, and is discharged from secondary precipitate delivery pipe (11-1-1)； Meanwhile the water by precipitating is discharged by water outlet (11-1-3)；

Step 11: in sediment pressurizing unit (11-1-5) operation, mud mixture enters pipe (11-1- from mud mixture 6) enter porous inner sleeve (11-1-5-2)；Squeezer after being powered up, pushes pressure-ram (11-1-5-6) to move forward, And then promote extrusion piston (11-1-5-7) that the mud in mud mixture is pushed to the one end porous inner sleeve (11-1-5-2) Sediment extrusion (11-1-7) at, and be thus discharged；Meanwhile the water squeezed out in porous inner sleeve (11-1-5-2) is from hole It flows into and squeezes out aquaporin (11-1-5-4), and be discharged from water pipe (11-1-5-1) is squeezed out；After the completion of sludge discharge work, electricity is closed Source, pressure-ram (11-1-5-6) reset；

Step 12: in squeezer (11-1-5-5) operation, transmission shaft (11-1-5-5-6) carries out under the drive of external motor Operating, and then the rotation of push rod driving gear (11-1-5-5-5) is driven, and realize the flexible of pressure-ram (11-1-5-6)；Together When, push rod is adjusted by tensioning regulation cock (11-1-5-5-2) and holddown spring (11-1-5-5-4) drives gear (11-1-5- 5-5) tightness is engaged between pressure-ram screw thread (11-1-5-5-1)；

Step 13: in reaction chamber (11-4) operation, before the running of external motor promotes back-and-forth motion formula wave-shape board (11-4-6) After swing, realize stirring to sewage；And then under the action of damping sheet (11-4-1) and damping screen (11-4-2), sewage is realized Slow drop；Meanwhile flocculant and the sewage generation precipitation reaction of reaction chamber (11-4), place are flowed into from flocculant filler (11-4-3) Water body discharge from water discharge spout after processing (11-8) after reason；When sewage is more than upper height limit, from overflow ducts mouth (11- 4-5) flow into sediment discharge pipe (11-1)；

Step 14: in marine salvage equipment lifting device (11-5) operation, power on, lifting device air pump (11-5-3) continues not Lifting device air flue (11-5-4) is delivered the gas to by air pump air inlet (11-5-2) disconnectedly；Meanwhile upright bar piston (11- It 5-5) is moved up under the action of gas pressure, and lifting device upright bar (11-5-1) is driven to rise；As upright bar piston (11-5-5) On when moving at the top of lifting device cylinder body (11-5-6), lifting device air flue (11-5-4) and lifting device venthole (11-5-7) Perforation, gas outflow from lifting device venthole (11-5-7), and then promote upright bar piston (11-5-5) and lifting device vertical Bar (11-5-1) decline；

Step 15: in floater dragging device (11-7) operation, salvaging driving motor (11-7-7) and operated after powered up, And the rotation of convex idler wheel (11-7-8), rocker arm (11-7-6) and rocker-arm link (11-7-5) is driven, and then promote to salvage arm shaft (11-7-2) drives salvaging arm (11-7-3) to swing up and down, and salvages to floating material；Meanwhile passing through fishing net regulating device (11-7-4) adjusts the elasticity of fishing net (11-7-1)；

Step 16: in fishing net regulating device (11-7-4) operation, capstan winch motor (11-7-4-5) drives after powering on and twists Disk tensioning apparatus (11-7-4-7) is operated；When capstan winch tensioning apparatus (11-7-4-7) is bonded with capstan winch (11-7-4-3), Capstan winch (11-7-4-3) is wound fishing net (11-7-1) under the drive of capstan winch tensioning apparatus (11-7-4-7)；Meanwhile Under the action of refrigeration compressor (11-7-4-6), device cooling system (11-7-4-4) is to entire fishing net regulating device (11- 7-4) cool down；As capstan winch tensioning apparatus (11-7-4-7) and capstan winch (11-7-4-3) clutch, at capstan winch (11-7-4-3) In stationary state.

10. discarding nutrient solution recycling processing system in a kind of camplotheca acuminata seedling cultivating process according to claim 9, feature exists In, the cleaning shoe (2-2-1) is formed by high molecular material pressing mold, cleaning shoe (2-2-1) by mass percentage, by following component Composition:

5- methyl-1-(2,2,2- trimethyl-3- cyclopentene-1- base)-6- oxabicyclo [3.2.1] octane 2~52%；

Purify lake water 9~1%；

Promote additive DPG1~13%；

α, α '-[(1- methyl ethylidene) two-4,1- phenylenes] two [ω-[(methyl-1-oxo-2- propyl) oxygroup] poly- (oxygen- 1,2- ethylidene) 4~85%；

Diphenylguanidine 2~95%；

Rubidium oxide nanoparticle 9~39%；

Promote catalyst 5~19%；

The derivative for promoting additive DPG as dimethicone, molecular characterization are as follows:

Wherein, R is alkyl, is 8~68 carbon atoms；

The diphenylguanidine is the derivative of biphenol, molecular structural formula are as follows:

Wherein, the molecular structural formula of X group are as follows:

X group molecular formula are as follows: C13H11O2；

The accurate molecular masses of X group are as follows: 183.0810；Water-oil separating coefficient are as follows: 21576；

The promotion catalyst is the derivative of hexamethylene -1,2- dicarboxylic acids two (oxiranylmethyl) ester, molecular structural formula Are as follows:

Wherein, the molecular structural formula of B group are as follows:

Its molecular formula are as follows: C11H19N3O2；

The manufacturing method of cleaning shoe (2-2-1) is:

Step 1: the 5- methyl-1-(2,2,2- trimethyl-3- cyclopentene-1- base)-in component will be matched according to mass percent 6- oxabicyclo [3.2.1] octane is added in stirred-tank reactor tank, while purification lake water is added, starting stirring still reaction Blender in device tank, setting speed are 2rpm~52rpm；

Step 2: stirred-tank reactor tank operating 9~after ten minutes, it is added and promotes additive DPG and α, [(1- methyl is sub- by α '- Ethyl) two-4,1- phenylene] two [ω-[(methyl-1-oxo-2- propyl) oxygroup] poly- (oxygen-1,2- ethylidene), starting stirrings Bleeder heater in tank reactor tank makes temperature rise to 1 DEG C~103 DEG C, and diphenylguanidine and rubidium oxide nanoparticle is added, It is stirred evenly in stirred-tank reactor tank, obtains the homogenate of H component；

Step 3: the promotion catalyst in proportion component is weighed according to mass percent, is homogenized and is mixed with H component, open again Bleeder heater in dynamic stirred-tank reactor tank keeps the temperature 2~95 minutes, discharges into pressing mold controlled at 4 DEG C~85 DEG C Machine to get arrive cleaning shoe (2-2-1).