CN109110987A - One kind being used for high concentrated organic wastewater dephosphorization denitrogenation processing system - Google Patents

Abstract

The invention discloses one kind to be used for high concentrated organic wastewater dephosphorization denitrogenation processing system, and wherein brake cooling water tank includes: cooling water return pipe, rectangle buffer board, cooling water buffer net, water temperature sensor, water tank upper chamber, cooling water settles plate, cooling water goes flow tube, cooling water reflux pump and water tank lower chambers；The water tank upper chamber and water tank lower chambers are respectively provided inside brake cooling water tank two sides up and down, and the two perforation connection；The cooling water sedimentation plate is fixedly connected on inside water tank upper chamber and water tank lower chambers, and the quantity of cooling water sedimentation plate is 3 in each chamber.Of the present invention a kind of for high concentrated organic wastewater dephosphorization denitrogenation processing system, the apparatus structure is compact, easy to adjust, high degree of automation, and dephosphorization carbonization treatment effect is good；In addition, carbon, iron material matter is respectively adopted in the device cathode and anode, material consumption can be reduced, reduces the generation of sludge, realizes the reduction of operating cost and maintenance cost.

Description

One kind being used for high concentrated organic wastewater dephosphorization denitrogenation processing system

Technical field

The invention belongs to field of sewage treatment equipment, and in particular to one kind is handled for high concentrated organic wastewater dephosphorization denitrogenation System.

Background technique

Instantly, since excessive phosphorus, nitrogen are discharged into water body, the eutrophication of water body is resulted in, water body is greatly reduced and watches valence Value, and the nitrate etc. for being oxidized generation also will affect the aquatile even health of the mankind.Therefore, at waste water dephosphorization denitrogenation Reason gets more and more people's extensive concerning.In view of high organic phosphorous content and high-concentration ammonia nitrogenous wastewater to the high harmfulness of humans and animals and To the inhibiting effect of microorganism, removing the organic phosphorus and ammonia nitrogen in waste water is the necessary step for wastewater treatment.

Summary of the invention

In order to solve the above technical problem, the present invention provides one kind to be used for high concentrated organic wastewater dephosphorization denitrogenation processing system System, comprising: control panel 1, support base 2, toppling over motor 3, electrolytic cell 4 add alkali pipe 5, sedimentation basin level sensor 6, sedimentation basin PH value detector 7, sedimentation basin 8, sedimentation basin outlet pipe 9, sedimentation basin water inlet pipe 10, acid adding pipe 11, intake pump 12；Its feature exists In 8 inner wall of sedimentation basin is equipped with sedimentation basin level sensor 6 and sedimentation basin pH value detector 7；8 bottom one of sedimentation basin Side has sedimentation basin water inlet pipe 10, and sedimentation basin water inlet pipe 10 and sedimentation basin 8 penetrate through, and wherein 10 other end of sedimentation basin water inlet pipe is equipped with Electrolytic cell 4, sedimentation basin water inlet pipe 10 and electrolytic cell 4 penetrate through；Described plus alkali pipe 5 and sedimentation basin outlet pipe 9 are respectively positioned on outside sedimentation basin 8 On wall, alkali pipe 5 and sedimentation basin outlet pipe 9 is added to penetrate through with sedimentation basin 8；4 bottom side of electrolytic cell is equipped with intake pump 12, electricity Pond 4 is solved to penetrate through by intake pump 12 and sedimentation basin 8；The acid adding pipe 11 is located at 4 top side of electrolytic cell, acid adding pipe 11 and electrolysis Pond 4 penetrate through, acid adding pipe 11 on electrolytic cell 4 eaves between 15cm~20cm；4 two sides of electrolytic cell are equipped with support base 2, branch Support 2 cross-sectional structure of seat be it is trapezoidal, support base 2 and electrolytic cell 4 are rotatablely connected by axis, and wherein support base 2 is equipped with control plane Plate 1 and toppling over motor 3；The toppling over motor 3, sedimentation basin level sensor 6, sedimentation basin pH value detector 7 and intake pump 12 are equal It is connected by conducting wire with the control of control panel 1.

Further, this section is the explanation to heretofore described 2 structure of support base.The support base 2 includes: connection branch Frame slideway base 2-1, connecting bracket pulley 2-2, connecting bracket motor 2-3, bracket transmission system 2-4, bracket transmission system connect Extension bar 2-5, support base panel connecting bracket 2-6, connecting bracket slideway 2-7, support base panel 2-8；The connecting bracket slideway Pedestal 2-1 is set to below connecting bracket slideway 2-7, and the two is vertical and is fixedly connected, and the quantity of connecting bracket slideway base 2-1 is 2, the 2 connecting bracket slideway 2-7 in left and right are equipped on each connecting bracket slideway base 2-1；The support base panel connection Left side connecting bracket slideway 2-7 on bracket 2-6 and connecting bracket slideway base 2-1 is slidably connected, support base panel connection branch The end of frame 2-6 is fixedly connected with support base panel 2-8, and the quantity of support base panel connecting bracket 2-6 is two；The connection Bracket pulley 2-2 is connected to the side support base panel connecting bracket 2-6, connecting bracket pulley 2-2 and connecting bracket slideway base Right side connecting bracket slideway 2-7 on 2-1 rolls connection, and the quantity of every side connecting bracket pulley 2-2 is 2；The bracket passes Dynamic system 2-4 is located at the other side each support base panel connecting bracket 2-6, and bracket transmission system 2-4 upper and lower ends are propped up with connecting Frame pulley 2-2 transmission connection；The connecting bracket motor 2-3 is arranged in mono- side lower part of bracket transmission system 2-4, connecting bracket electricity Machine 2-3 is connected by conducting wire with the control of control panel 1；The bracket transmission system connecting rod 2-5 is two side stand transmission systems Attachment device between 2-4, the quantity of bracket transmission system connecting rod 2-5 are 2.

Further, this section is the explanation to heretofore described 4 structure of electrolytic cell.The electrolytic cell 4 includes: intake pump Mounting base 4-1, electrolytic cell outlet pipe 4-2, bucket wall 4-3, blender 4-4, anode 4-5, stirring motor 4-6, pour spout 4-7, yin Pole 4-8, rotation axis 4-9, acid adding hole 4-10；The bucket wall 4-3 top side is equipped with pour spout 4-7, and bucket wall 4-3 bottom side is set There are intake pump mounting base 4-1 and electrolytic cell outlet pipe 4-2, wherein electrolytic cell outlet pipe 4-2 and bucket wall 4-3 is penetrated through；The water inlet The top mounting base 4-1 is pumped to penetrate through equipped with acid adding hole 4-10, acid adding hole 4-10 and bucket wall 4-3；The rotation axis 4-9 is located at bucket wall 4- 3 two sides center, rotation axis 4-9 quantity are 2, and two rotation axis 4-9 are rotated coaxially；The bucket wall 4-3 top center is equipped with and stirs Device 4-4 is mixed, the center blender 4-4 is equipped with stirring motor 4-6, and stirring motor 4-6 is threadedly coupled with blender 4-4；The stirring The two sides device 4-4 are respectively equipped with anode 4-5 and cathode 4-8, and anode 4-5 and cathode 4-8 are slidably connected with blender 4-4；It is described Anode 4-5, stirring motor 4-6 and cathode 4-8 pass through conducting wire and are connected with the control of control panel 1；The anode 4-5 is iron material Matter, cathode 4-8 are carbon materials matter.

Further, this section is the explanation to heretofore described intake pump mounting base 4-1 structure.The intake pump installation Seat 4-1 includes: mounting base panel 4-1-1, mounting base fixed block 4-1-2, fixed block connecting rod 4-1-3, water pump stabilizer blade 4-1-4, Hold-down bolt 4-1-5, bolt sleeve 4-1-6, bolt adjusting knob 4-1-7, stabilizer blade fixed ring 4-1-8；The mounting base is fixed Block 4-1-2 is located at the lower right mounting base panel 4-1-1, and the two is fixedly connected, and the quantity of mounting base fixed block 4-1-2 is 3, phase Adjacent mounting base fixed block 4-1-2 is angularly distributed centered on water pump stabilizer blade 4-1-4；The stabilizer blade fixed ring 4-1-8 is located at peace It fills on the inside of seat fixed block 4-1-2, stabilizer blade fixed ring 4-1-8 is solid by fixed block connecting rod 4-1-3 and mounting base fixed block 4-1-2 Fixed connection, stabilizer blade fixed ring 4-1-8 are equipped with bolt sleeve 4-1-6；The top of the bolt sleeve 4-1-6 is adjusted equipped with bolt The bottom of knob 4-1-7, bolt sleeve 4-1-6 are equipped with hold-down bolt 4-1-5, and the quantity of bolt sleeve 4-1-6 is 3；It is described Water pump stabilizer blade 4-1-4 is located inside stabilizer blade fixed ring 4-1-8, and the diameter of water pump stabilizer blade 4-1-4 is less than stabilizer blade fixed ring 4-1-8's Diameter, water pump stabilizer blade 4-1-4 are fixed on mounting base panel 4-1-1 by the effect of hold-down bolt 4-1-5.

Further, this section is the explanation to heretofore described blender 4-4 structure.The blender 4-4 includes: to hold Support plate 4-4-1, electrolytic cell pH value detector 4-4-2, electrolytic cell level sensor 4-4-3, agitating device 4-4-4；The carrying Plate 4-4-1 is equipped with electrolytic cell pH value detector 4-4-2 and electrolytic cell level sensor 4-4-3, electrolytic cell pH value detector 4- 4-2 and electrolytic cell level sensor 4-4-3 passes through conducting wire and is connected with the control of control panel 1；The agitating device 4-4-4 is located at The lower part loading plate 4-4-1, stirring motor 4-6 are fixedly connected by axis with agitating device 4-4-4.

Further, this section is the explanation to heretofore described agitating device 4-4-4 structure.The agitating device 4-4- 4 include: aerofoil profile paddle 4-4-4-1, agitating device connector 4-4-4-2, stirs axis 4-4-4-3, fixed impeller 4-4-4- 4, paddle support frame 4-4-4-5；It is equipped with fixed impeller 4-4-4-4 in the middle part of the stirring axis 4-4-4-3, stirs axis 4-4- The bottom 4-3 is equipped with agitating device connector 4-4-4-2；The agitating device connector 4-4-4-2 and stirring axis 4-4-4-3 are solid Fixed connection, the agitating device bottom connector 4-4-4-2 is fixedly connected with aerofoil profile paddle 4-4-4-1；The paddle support frame The both ends of 4-4-4-5 are fixedly connected with agitating device connector 4-4-4-2 and aerofoil profile paddle 4-4-4-1 respectively, paddle branch The quantity of support 4-4-4-5 is 2.

Further, this section is the explanation to heretofore described rotation axis 4-9 structure.The rotation axis 4-9 includes: pressure Block fixed plate 4-9-1, rate of tension regulation cock 4-9-2, gear assembly 4-9-3, axis briquetting 4-9-4, holddown spring 4-9- 5, shaft housing 4-9-6, axis drive gear 4-9-7, rotating middle shaft 4-9-8 are rotated, shaft brake 4-9-9 is rotated；The rotation Axis 4-9-8 is set at rotation shaft housing 4-9-6 inside center, and rotating middle shaft 4-9-8 outer wall is helicitic texture；The axis Briquetting 4-9-4 is arranged in rotating middle shaft 4-9-8 upper and lower ends, and axis briquetting 4-9-4 concave side is equipped with briquetting fixed plate 4-9- 1；The quantity of the briquetting fixed plate 4-9-1 is 2；The rate of tension regulation cock 4-9-2 perpendicular to briquetting fixed plate 4-9-1 it Between, and rate of tension regulation cock 4-9-2 passes through briquetting fixed plate 4-9-1 and is fixedly connected with axis briquetting 4-9-4, rate of tension regulation cock The quantity of 4-9-2 is 4；The axis drive gear 4-9-7 is arranged in inside axis briquetting 4-9-4, axis drive gear 4- 9-7 engages connection with rotating middle shaft 4-9-8, is equipped with gear assembly 4-9-3 on the outside of axis drive gear 4-9-7；The tooth Wheel transmission device 4-9-3 is connected by conducting wire with the control of control panel 1；The holddown spring 4-9-5 is fixedly connected on axis At the center of the side briquetting 4-9-4；The rotation shaft brake 4-9-9 is located at the other side rotating middle shaft 4-9-8, rotating middle shaft 4-9- 8 pass through in the middle part of rotation shaft brake 4-9-9.

Further, this section is the explanation to heretofore described rotation shaft brake 4-9-9 structure.The rotation axis system Dynamic device 4-9-9 includes: brake cooling water tank 4-9-9-1, belt controller 4-9-9-2, deceleration belt 4-9-9-3, and braking turns Disk 4-9-9-4, belt tightening regulating device 4-9-9-5；The brake rotor 4-9-9-4 is centered on rotating middle shaft 4-9-8 And the two is fixed by the bracket connection, the periphery brake rotor 4-9-9-4 is wound with deceleration belt 4-9-9-3；The deceleration belt The port of 4-9-9-3 is connect with belt controller 4-9-9-2, and the upside of deceleration belt 4-9-9-3 and belt tightening are adjusted and filled Set one end connection of 4-9-9-5；The belt controller 4-9-9-2 is located on the downside of belt tightening regulating device 4-9-9-5, skin Tape controller 4-9-9-2 is connect with the other end of belt tightening regulating device 4-9-9-5, and belt controller 4-9-9-2 passes through Conducting wire is connected with the control of control panel 1；The brake cooling water tank 4-9-9-1 is connected on rotating middle shaft 4-9-8, and position In the side brake rotor 4-9-9-4.

Further, this section is the explanation to heretofore described brake cooling water tank 4-9-9-1 structure.The braking Device cooling water tank 4-9-9-1 includes: cooling water return pipe 4-9-9-1-1, rectangle buffer board 4-9-9-1-2, cooling water buffer net 4-9-9-1-3, water temperature sensor 4-9-9-1-4, water tank upper chamber 4-9-9-1-5, cooling water settles plate 4-9-9-1-6, cooling Water removes flow tube 4-9-9-1-7, cooling water reflux pump 4-9-9-1-8, water tank lower chambers 4-9-9-1-9；The water tank upper chamber 4- 9-9-1-5 and water tank lower chambers 4-9-9-1-9 is respectively provided at two sides, and the two up and down inside brake cooling water tank 4-9-9-1 Perforation connection；The cooling water sedimentation plate 4-9-9-1-6 is fixedly connected on water tank upper chamber 4-9-9-1-5 and water tank lower chambers 4- Inside 9-9-1-9, the quantity of cooling water sedimentation plate 4-9-9-1-6 is 3 in each chamber, and adjacent cooling water settles plate 4-9-9- It is equidistantly distributed between 1-6；It is heavy that the rectangle buffer board 4-9-9-1-2 is located at the cooling water in water tank lower chambers 4-9-9-1-9 It drops on the downside of plate 4-9-9-1-6, the quantity of rectangle buffer board 4-9-9-1-2 is 4, between adjacent rectangle buffer board 4-9-9-1-2 It equidistantly distributes, the lower part of rectangle buffer board 4-9-9-1-2 is equipped with cooling water buffer net 4-9-9-1-3；The water temperature sensor 4-9-9-1-4 is fixedly connected on the downside of water tank lower chambers 4-9-9-1-9 inner wall, water temperature sensor 4-9-9-1-4 and control panel 1 It is connected by polygon control survey；The cooling water goes flow tube 4-9-9-1-7 to be located on the outside of water tank upper chamber 4-9-9-1-5, cooling water One end of flow tube 4-9-9-1-7 is gone to be inserted into inside water tank upper chamber 4-9-9-1-5, cooling water goes that flow tube 4-9-9-1-7's is another End is penetrated through by one end of cooling water reflux pump 4-9-9-1-8 and cooling water return pipe 4-9-9-1-1 and is connected；The cooling water returns Flow tube 4-9-9-1-1 is located on the outside of water tank lower chambers 4-9-9-1-9, and the other end of cooling water return pipe 4-9-9-1-1 is inserted into water Inside case lower chambers 4-9-9-1-9；The cooling water reflux pump 4-9-9-1-8 is arranged in entire brake cooling water tank 4-9-9- 1 side, cooling water reflux pump 4-9-9-1-8 are connected by conducting wire with control.

Further, this section is the explanation to heretofore described plus 5 structure of alkali pipe.Described plus alkali pipe 5 includes: that lye stirs Leaf 5-1 is mixed, interior motor 5-2 is managed, adds alkali pipe fixed ring 5-3, lye outflux 5-4, lye buffer unit 5-5, lye inlet port 5-6；The lye inlet port 5-6, lye outflux 5-4 are respectively arranged on plus 5 left and right ends of alkali pipe；Described plus alkali pipe fixed ring 5- 3 are fixedly attached to plus the middle part of alkali pipe 5, and adding the quantity of alkali pipe fixed ring 5-3 is 3, and adjacent plus alkali pipe fixed ring 5-3 is in equidistant point Cloth；Motor 5-2, which is located at, in the pipe adds inside alkali pipe 5, and the both ends for managing interior motor 5-2 are equipped with lye paddle 5-1, manages interior motor The waist of 5-2 is equipped with lye buffer unit 5-5, manages interior motor 5-2 and is connected by conducting wire and the control of control panel 1；The lye Paddle 5-1 and lye buffer unit 5-5 are fixedly connected with motor 5-2 in pipe.

Further, this section is the explanation to heretofore described 9 structure of sedimentation basin outlet pipe.The sedimentation basin outlet pipe 9 include: dredger pushing tow controller 9-1, secondary sediment pot 9-2, U-tube water outlet 9-3, U-tube 9-4, sediment discharge Mouth 9-5, dredger 9-6, sewage inlet pipe 9-7；The both ends of the dredger 9-6 are respectively equipped with the control of dredger pushing tow The upside of device 9-1 and sediment outlet 9-5, dredger 9-6 are equipped with sewage inlet pipe 9-7；The sediment outlet 9-5 It penetrates through and connects with dredger 9-6 with sewage inlet pipe 9-7；The U-tube 9-4 is located on the downside of dredger 9-6, U-tube One end of 9-4 and dredger 9-6 perforation connect, and the other end of U-tube 9-4 is equipped with U-tube water outlet 9-3；It is described secondary heavy Slag ladle 9-2 is set to the bottom U-tube 9-4, the two perforation connection；The dredger pusher 9-1 passes through conducting wire and control panel 1 Control is connected.

Further, this section is the explanation to heretofore described dredger pushing tow controller 9-1 structure.The dredging Device pushing tow controller 9-1 includes: controller housing 9-1-1, spill fixture block 9-1-2, fixture block spacing regulation cock 9-1-3, built-in Gear 9-1-4, gearing shaft 9-1-5, side pressure spring 9-1-6；The concave fixture block 9-1-2 is located at controller housing 9-1-1 Inside, the quantity of concave fixture block 9-1-2 are 2, pass through fixture block spacing regulation cock 9-1-3 connection between adjacent fixture block；The folder The quantity of block spacing regulation cock 9-1-3 is 4；The built-in gear 9-1-4 is set on the inside of spill fixture block 9-1-2, built-in gear 9-1-4 is connect with gearing shaft 9-1-5 coaxial transmission, and the quantity of built-in gear 9-1-4 is 2, adjacent built-in gear 9-1-4 Connection is engaged with sediment propulsion arm 9-6-4；The side pressure spring 9-1-6 is fixedly connected on the side spill fixture block 9-1-2, side The quantity of pressing spring 9-1-6 is 2；The gearing shaft 9-1-5 and external motor are drivingly connected, external motor and control plane The connection of 1 conducting wire of plate.

Further, this section is the explanation to heretofore described dredger 9-6 structure.The dredger 9-6 packet It includes: dredge outlet pipe 9-6-1, dredge cavity 9-6-2, ejector piston 9-6-3, sediment propulsion arm 9-6-4；The precipitating Object propulsion arm 9-6-4 is located inside dredge cavity 9-6-2, one end of sediment propulsion arm 9-6-4 and the control of dredger pushing tow Device 9-1 transmission connection processed, the other end of sediment propulsion arm 9-6-4 are fixedly connected with ejector piston 9-6-3；The dredge goes out Water pipe 9-6-1 is located at the side dredger 9-6 lower end, and dredge outlet pipe 9-6-1 and dredge cavity 9-6-2 perforation connect.

It is disclosed by the invention a kind of for high concentrated organic wastewater dephosphorization denitrogenation processing system, the advantage is that: the device Compact-sized, easy to adjust, high degree of automation, dephosphorization decarburization effect is good；In addition, the device cathode is respectively adopted with anode Carbon, iron material matter, can reduce material consumption, reduce the generation of sludge, realize the reduction of operating cost and maintenance cost.

Detailed description of the invention

Fig. 1 is heretofore described one kind for high concentrated organic wastewater dephosphorization denitrogenation processing system structural schematic diagram.

Fig. 2 is heretofore described 2 structural schematic diagram of support base.

Fig. 3 is heretofore described 4 structural schematic diagram of electrolytic cell.

Fig. 4 is heretofore described intake pump mounting base 4-1 structural schematic diagram.

Fig. 5 is heretofore described blender 4-4 structural schematic diagram.

Fig. 6 is heretofore described agitating device 4-4-4 structural schematic diagram.

Fig. 7 is heretofore described rotation axis 4-9 structural schematic diagram.

Fig. 8 is heretofore described rotation shaft brake 4-9-9 structural schematic diagram.

Fig. 9 is heretofore described brake cooling water tank 4-9-9-1 structural schematic diagram.

Figure 10 is heretofore described plus 5 structural schematic diagram of alkali pipe.

Figure 11 is heretofore described 9 structural schematic diagram of sedimentation basin outlet pipe.

Figure 12 is heretofore described dredger pushing tow controller 9-1 structural schematic diagram.

Figure 13 is heretofore described dredger 9-6 structural schematic diagram.

Figure 14 is that (5,5,6- trimethyl is bicyclic with 3- for heretofore described loading plate 4-4-1 fatigue resistance gaining rate (2.2.1) hept- 2- yl) hexamethylene -1- alcohol volume relationship.

Specific embodiment

With reference to the accompanying drawing to provided by the invention a kind of for the progress of high concentrated organic wastewater dephosphorization denitrogenation processing system It further illustrates.

As shown in Figure 1, being heretofore described one kind for high concentrated organic wastewater dephosphorization denitrogenation processing system structure Schematic diagram.As seen from Figure 1, comprising: control panel 1, support base 2, toppling over motor 3, electrolytic cell 4 add alkali pipe 5, sedimentation basin liquid Position inductor 6, sedimentation basin pH value detector 7, sedimentation basin 8, sedimentation basin outlet pipe 9, sedimentation basin water inlet pipe 10, acid adding pipe 11, into Water pump 12；8 inner wall of sedimentation basin is equipped with sedimentation basin level sensor 6 and sedimentation basin pH value detector 7；8 bottom of sedimentation basin Portion side is equipped with sedimentation basin water inlet pipe 10, and sedimentation basin water inlet pipe 10 and sedimentation basin 8 penetrate through, wherein 10 other end of sedimentation basin water inlet pipe Equipped with electrolytic cell 4, sedimentation basin water inlet pipe 10 and electrolytic cell 4 are penetrated through；Described plus alkali pipe 5 and sedimentation basin outlet pipe 9 are respectively positioned on precipitating On 8 outer wall of pond, alkali pipe 5 and sedimentation basin outlet pipe 9 is added to penetrate through with sedimentation basin 8；4 bottom side of electrolytic cell is equipped with intake pump 12, intake pump 12 is fixedly connected with electrolytic cell 4；The acid adding pipe 11 is located at 4 top side of electrolytic cell, acid adding pipe 11 and electrolytic cell 4 perforation, acid adding pipe 11 on electrolytic cell 4 eaves between 15cm~20cm；4 two sides of electrolytic cell are equipped with support base 2, support 2 cross-sectional structures of seat be it is trapezoidal, support base 2 and electrolytic cell 4, which roll, to be connected, and wherein support base 2 is equipped with control panel 1 and topples over Motor 3；The toppling over motor 3, sedimentation basin level sensor 6, sedimentation basin pH value detector 7 and intake pump 12 by conducting wire with The control of control panel 1 is connected.

As shown in Fig. 2, being heretofore described 2 structural schematic diagram of support base.As seen from the figure, support base 2 includes: to connect Connect bracket slideway base 2-1, connecting bracket pulley 2-2, connecting bracket motor 2-3, bracket transmission system 2-4, bracket power train Unite connecting rod 2-5, support base panel connecting bracket 2-6, connecting bracket slideway 2-7, support base panel 2-8；The connecting bracket Slideway base 2-1 is set to below connecting bracket slideway 2-7, and the two is vertical and is fixedly connected, the number of connecting bracket slideway base 2-1 Amount is 2, and the 2 connecting bracket slideway 2-7 in left and right are equipped on each connecting bracket slideway base 2-1；The support base panel Left side connecting bracket slideway 2-7 on connecting bracket 2-6 and connecting bracket slideway base 2-1 is slidably connected, and support base panel connects The end for meeting bracket 2-6 is fixedly connected with support base panel 2-8, and the quantity of support base panel connecting bracket 2-6 is two；It is described Connecting bracket pulley 2-2 is connected to the side support base panel connecting bracket 2-6, connecting bracket pulley 2-2 and connecting bracket slideway Right side connecting bracket slideway 2-7 on pedestal 2-1 rolls connection, and the quantity of every side connecting bracket pulley 2-2 is 2；The branch Frame transmission system 2-4 is located at the other side each support base panel connecting bracket 2-6, bracket transmission system 2-4 upper and lower ends and company Connect bracket pulley 2-2 transmission connection；The connecting bracket motor 2-3 is arranged in mono- side lower part of bracket transmission system 2-4, connection branch Frame motor 2-3 is connected by conducting wire with the control of control panel 1；The bracket transmission system connecting rod 2-5 is the transmission of two side stands Attachment device between system 2-4, the quantity of bracket transmission system connecting rod 2-5 are 2.

As shown in figure 3, being heretofore described 4 structural schematic diagram of electrolytic cell.As seen from the figure, electrolytic cell 4 include: into Water pump mounting base 4-1, electrolytic cell outlet pipe 4-2, bucket wall 4-3, blender 4-4, anode 4-5, stirring motor 4-6, pour spout 4- 7, cathode 4-8, rotation axis 4-9, acid adding hole 4-10；The bucket wall 4-3 top side is equipped with pour spout 4-7, the bottom bucket wall 4-3 one Side is equipped with intake pump mounting base 4-1 and electrolytic cell outlet pipe 4-2, and wherein electrolytic cell outlet pipe 4-2 and bucket wall 4-3 is penetrated through；It is described The intake pump top mounting base 4-1 is penetrated through equipped with acid adding hole 4-10, acid adding hole 4-10 and bucket wall 4-3；The rotation axis 4-9 is located at bucket The two sides wall 4-3 center, rotation axis 4-9 quantity are 2, and two rotation axis 4-9 are rotated coaxially；The bucket wall 4-3 top center is set There is blender 4-4, the center blender 4-4 is equipped with stirring motor 4-6, and stirring motor 4-6 is threadedly coupled with blender 4-4；It is described The two sides blender 4-4 are respectively equipped with anode 4-5 and cathode 4-8, and anode 4-5 and cathode 4-8 are slidably connected with blender 4-4； The anode 4-5, stirring motor 4-6 and cathode 4-8 pass through conducting wire and are connected with the control of control panel 1；The anode 4-5 is iron Material, cathode 4-8 are carbon materials matter.

As shown in figure 4, being heretofore described intake pump mounting base 4-1 structural schematic diagram.As seen from the figure, intake pump Mounting base 4-1 includes: mounting base panel 4-1-1, mounting base fixed block 4-1-2, fixed block connecting rod 4-1-3, water pump stabilizer blade 4- 1-4, hold-down bolt 4-1-5, bolt sleeve 4-1-6, bolt adjusting knob 4-1-7, stabilizer blade fixed ring 4-1-8；The mounting base Fixed block 4-1-2 is located at the lower right mounting base panel 4-1-1, and the two is fixedly connected, and the quantity of mounting base fixed block 4-1-2 is 3 A, adjacent mounting base fixed block 4-1-2 is angularly distributed centered on water pump stabilizer blade 4-1-4；Stabilizer blade fixed ring 4-1-8 On the inside of mounting base fixed block 4-1-2, stabilizer blade fixed ring 4-1-8 passes through fixed block connecting rod 4-1-3 and mounting base fixed block 4- 1-2 is fixedly connected, and stabilizer blade fixed ring 4-1-8 is equipped with bolt sleeve 4-1-6；The top of the bolt sleeve 4-1-6 is equipped with spiral shell The bottom of bolt adjusting knob 4-1-7, bolt sleeve 4-1-6 are equipped with hold-down bolt 4-1-5, and the quantity of bolt sleeve 4-1-6 is 3 It is a；The water pump stabilizer blade 4-1-4 is located inside stabilizer blade fixed ring 4-1-8, and the diameter of water pump stabilizer blade 4-1-4 is less than stabilizer blade fixed ring The diameter of 4-1-8, water pump stabilizer blade 4-1-4 are fixed on mounting base panel 4-1-1 by the effect of hold-down bolt 4-1-5.

As shown in figure 5, being heretofore described blender 4-4 structural schematic diagram.As seen from the figure, blender 4-4 packet It includes: loading plate 4-4-1, electrolytic cell pH value detector 4-4-2, electrolytic cell level sensor 4-4-3, agitating device 4-4-4, stirring Axis 4-4-5；The loading plate 4-4-1 is equipped with electrolytic cell pH value detector 4-4-2 and electrolytic cell level sensor 4-4-3, electricity Solution pond pH value detector 4-4-2 and electrolytic cell level sensor 4-4-3 passes through conducting wire and is connected with the control of control panel 1；It is described Agitating shaft 4-4-5 is located at the center loading plate 4-4-1, and agitating shaft 4-4-5 and loading plate 4-4-1 are penetrated through, wherein the bottom agitating shaft 4-4-5 End is equipped with agitating device 4-4-4, and agitating device 4-4-4 is fixedly connected with agitating shaft 4-4-5.

As shown in fig. 6, being heretofore described agitating device 4-4-4 structural schematic diagram.As seen from the figure, agitating device 4-4-4 includes: aerofoil profile paddle 4-4-4-1, agitating device connector 4-4-4-2, stirs axis 4-4-4-3, fixed impeller 4- 4-4-4, paddle support frame 4-4-4-5；It is equipped with fixed impeller 4-4-4-4 in the middle part of the stirring axis 4-4-4-3, stirs axis The bottom 4-4-4-3 is equipped with agitating device connector 4-4-4-2；The agitating device connector 4-4-4-2 and stirring axis 4-4- 4-3 is fixedly connected, and the agitating device bottom connector 4-4-4-2 is fixedly connected with aerofoil profile paddle 4-4-4-1；The paddle branch The both ends of support 4-4-4-5 are fixedly connected with agitating device connector 4-4-4-2 and aerofoil profile paddle 4-4-4-1 respectively, stirring The quantity of leaf support frame 4-4-4-5 is 2.

As shown in fig. 7, being heretofore described rotation axis 4-9 structural schematic diagram.As seen from the figure, rotation axis 4-9 packet It includes: briquetting fixed plate 4-9-1, rate of tension regulation cock 4-9-2, gear assembly 4-9-3, axis briquetting 4-9-4, holddown spring 4-9-5 rotates shaft housing 4-9-6, axis drive gear 4-9-7, rotating middle shaft 4-9-8, rotates shaft brake 4-9-9；It is described Rotating middle shaft 4-9-8 is set at rotation shaft housing 4-9-6 inside center, and rotating middle shaft 4-9-8 outer wall is helicitic texture；It is described Axis briquetting 4-9-4 is arranged in rotating middle shaft 4-9-8 upper and lower ends, and axis briquetting 4-9-4 concave side is equipped with briquetting fixed plate 4-9-1；The quantity of the briquetting fixed plate 4-9-1 is 2；The rate of tension regulation cock 4-9-2 is perpendicular to briquetting fixed plate 4- Between 9-1, and rate of tension regulation cock 4-9-2 passes through briquetting fixed plate 4-9-1 and is fixedly connected with axis briquetting 4-9-4, rate of tension The quantity of regulation cock 4-9-2 is 4；The axis drive gear 4-9-7 is arranged in inside axis briquetting 4-9-4, axis drive Gear 4-9-7 engages connection with rotating middle shaft 4-9-8, is equipped with gear assembly 4-9-3 on the outside of axis drive gear 4-9-7； The gear assembly 4-9-3 is connected by conducting wire with the control of control panel 1；The holddown spring 4-9-5 is fixedly connected At the center of the axis side briquetting 4-9-4；The rotation shaft brake 4-9-9 is located at the other side rotating middle shaft 4-9-8, in rotation Axis 4-9-8 is passed through in the middle part of rotation shaft brake 4-9-9.

As shown in figure 8, being heretofore described rotation shaft brake 4-9-9 structural schematic diagram.As seen from the figure, it rotates Shaft brake 4-9-9 includes: brake cooling water tank 4-9-9-1, belt controller 4-9-9-2, deceleration belt 4-9-9-3, system Turn disk 4-9-9-4, belt tightening regulating device 4-9-9-5；The brake rotor 4-9-9-4 is with rotating middle shaft 4-9-8 Center and the two are fixed by the bracket connection, and the periphery brake rotor 4-9-9-4 is wound with deceleration belt 4-9-9-3；The deceleration The port of belt 4-9-9-3 is connect with belt controller 4-9-9-2, the upside of deceleration belt 4-9-9-3 and belt tightening tune One end of regulating device 4-9-9-5 connects；The belt controller 4-9-9-2 is located under belt tightening regulating device 4-9-9-5 Side, belt controller 4-9-9-2 are connect with the other end of belt tightening regulating device 4-9-9-5, belt controller 4-9-9-2 It is connected by conducting wire with the control of control panel 1；The brake cooling water tank 4-9-9-1 is connected on rotating middle shaft 4-9-8, And it is located at the side brake rotor 4-9-9-4.

As shown in figure 9, being heretofore described brake cooling water tank 4-9-9-1 structural schematic diagram.As seen from the figure, Brake cooling water tank 4-9-9-1 includes: cooling water return pipe 4-9-9-1-1, rectangle buffer board 4-9-9-1-2, and cooling water is slow Punching net 4-9-9-1-3, water temperature sensor 4-9-9-1-4, water tank upper chamber 4-9-9-1-5, cooling water settle plate 4-9-9-1-6, Cooling water removes flow tube 4-9-9-1-7, cooling water reflux pump 4-9-9-1-8, water tank lower chambers 4-9-9-1-9；The water tank epicoele Room 4-9-9-1-5 and water tank lower chambers 4-9-9-1-9 is respectively provided inside brake cooling water tank 4-9-9-1 two sides up and down, and The two perforation connection；The cooling water sedimentation plate 4-9-9-1-6 is fixedly connected on water tank upper chamber 4-9-9-1-5 and water tank cavity of resorption Inside the 4-9-9-1-9 of room, the quantity of cooling water sedimentation plate 4-9-9-1-6 is 3 in each chamber, and adjacent cooling water settles plate 4- It is equidistantly distributed between 9-9-1-6；The rectangle buffer board 4-9-9-1-2 is located at the cooling in water tank lower chambers 4-9-9-1-9 Water settles on the downside of plate 4-9-9-1-6, and the quantity of rectangle buffer board 4-9-9-1-2 is 4, adjacent rectangle buffer board 4-9-9-1-2 Between equidistantly distribute, the lower part of rectangle buffer board 4-9-9-1-2 is equipped with cooling water buffer net 4-9-9-1-3；The water temperature passes Sensor 4-9-9-1-4 is fixedly connected on the downside of water tank lower chambers 4-9-9-1-9 inner wall, water temperature sensor 4-9-9-1-4 and control Panel 1 is connected by polygon control survey；The cooling water goes flow tube 4-9-9-1-7 to be located on the outside of water tank upper chamber 4-9-9-1-5, cold But water goes to one end of flow tube 4-9-9-1-7 to be inserted into inside water tank upper chamber 4-9-9-1-5, and cooling water goes flow tube 4-9-9-1-7's The other end is penetrated through by one end of cooling water reflux pump 4-9-9-1-8 and cooling water return pipe 4-9-9-1-1 and is connected；The cooling Water return pipe 4-9-9-1-1 is located on the outside of water tank lower chambers 4-9-9-1-9, and the other end of cooling water return pipe 4-9-9-1-1 is inserted Enter inside water tank lower chambers 4-9-9-1-9；The cooling water reflux pump 4-9-9-1-8 is arranged in entire brake cooling water tank 4- The side 9-9-1, cooling water reflux pump 4-9-9-1-8 are connected by conducting wire with control.

It as shown in Figure 10, is heretofore described plus 5 structural schematic diagram of alkali pipe.As seen from the figure, the alkali pipe 5 is added to include: Lye paddle 5-1 manages interior motor 5-2, adds alkali pipe fixed ring 5-3, lye outflux 5-4, lye buffer unit 5-5, lye Inlet port 5-6；The lye inlet port 5-6, lye outflux 5-4 are respectively arranged on plus 5 left and right ends of alkali pipe；Described plus alkali Guan Gu Determine ring 5-3 to be fixedly attached to plus the middle part of alkali pipe 5, adding the quantity of alkali pipe fixed ring 5-3 is 3, and adjacent plus alkali pipe fixed ring 5-3 is in It is equally spaced；Motor 5-2, which is located at, in the pipe adds inside alkali pipe 5, and the both ends for managing interior motor 5-2 are equipped with lye paddle 5-1, pipe The waist of interior motor 5-2 is equipped with lye buffer unit 5-5, manages interior motor 5-2 and is connected by conducting wire and the control of control panel 1；Institute It states lye paddle 5-1 and lye buffer unit 5-5 is fixedly connected with motor 5-2 in pipe.

It as shown in figure 11, is heretofore described 9 structural schematic diagram of sedimentation basin outlet pipe.As seen from the figure, sedimentation basin Outlet pipe 9 includes: dredger pushing tow controller 9-1, secondary sediment pot 9-2, U-tube water outlet 9-3, U-tube 9-4, precipitating Object outlet 9-5, dredger 9-6, sewage inlet pipe 9-7；The both ends of the dredger 9-6 are respectively equipped with dredger top The upside of push controller 9-1 and sediment outlet 9-5, dredger 9-6 are equipped with sewage inlet pipe 9-7；The sediment row It exports 9-5 and sewage inlet pipe 9-7 and penetrates through connection with dredger 9-6；The U-tube 9-4 is located under dredger 9-6 Side, one end of U-tube 9-4 and dredger 9-6 perforation connect, and the other end of U-tube 9-4 is equipped with U-tube water outlet 9-3；Institute Secondary sediment pot 9-2 is stated set on the bottom U-tube 9-4, the two perforation connection；The dredger pusher 9-1 by conducting wire with The control of control panel 1 is connected.

It as shown in figure 12, is heretofore described dredger pushing tow controller 9-1 structural schematic diagram.From figure Out, dredger pushing tow controller 9-1 includes: controller housing 9-1-1, spill fixture block 9-1-2, fixture block spacing regulation cock 9-1- 3, built-in gear 9-1-4, gearing shaft 9-1-5, side pressure spring 9-1-6；The concave fixture block 9-1-2 is located at controller housing Inside 9-1-1, the quantity of concave fixture block 9-1-2 is 2, passes through fixture block spacing regulation cock 9-1-3 connection between adjacent fixture block；Institute The quantity for stating fixture block spacing regulation cock 9-1-3 is 4；The built-in gear 9-1-4 is set on the inside of spill fixture block 9-1-2, built-in Gear 9-1-4 is connect with gearing shaft 9-1-5 coaxial transmission, and the quantity of built-in gear 9-1-4 is 2, adjacent built-in gear 9-1-4 engages connection with sediment propulsion arm 9-6-4；The side pressure spring 9-1-6 is fixedly connected on spill fixture block 9-1-2 mono- Side, the quantity of side pressure spring 9-1-6 are 2；The gearing shaft 9-1-5 and external motor are drivingly connected, external motor with The connection of 1 conducting wire of control panel.

It as shown in figure 13, is heretofore described dredger 9-6 structural schematic diagram.As seen from the figure, dredger 9-6 includes: dredge outlet pipe 9-6-1, dredge cavity 9-6-2, ejector piston 9-6-3, sediment propulsion arm 9-6-4；Institute It states sediment propulsion arm 9-6-4 to be located inside dredge cavity 9-6-2, one end of sediment propulsion arm 9-6-4 and dredger Pushing tow controller 9-1 transmission connection, the other end of sediment propulsion arm 9-6-4 are fixedly connected with ejector piston 9-6-3；It is described to dredge Logical device outlet pipe 9-6-1 is located at the side dredger 9-6 lower end, and dredge outlet pipe 9-6-1 and dredge cavity 9-6-2 are penetrated through Connection.

Following embodiment further illustrates the contents of the present invention, and as loading plate 4-4-1, 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 loading plate 4-4-1 of the present invention, what is shown is higher than The physical characteristic of other related patents.

Embodiment 1

Loading plate 4-4-1 of the present invention is manufactured according to the following steps, and by mass percentage:

Step 1: 3- (bicyclic (2.2.1) the hept- 2- yl of 5,5,6- trimethyl) hexamethylene-in component will be matched according to mass percent 1- alcohol 3% is added in band stirring heated type reactor tank, while ultrasonic purification water 1% is added, starting band stirring heated type reaction Blender in tank, setting speed 3rpm；

Step 2: after band stirring heated type reactor tank operates 1 minute, CS set-accelerating admixture 3% and α-hydrogen-ω-[(1- oxygen is added Generation -2- acrylic) oxygroup]-poly- [oxygroup (methyl-1,2- ethylidene)] 6%, the vapour biography in starting band stirring heated type reactor tank Heater is led, temperature is made to rise to 3 DEG C, CSA is added and promotees solidifying promotor 8% and Tin Nanoparticle 4%, in band stirring heated type reaction It is stirred evenly in tank, obtains the homogenate of J component；

Step 3: weighing the promotion catalyst DPG4% in proportion component according to mass percent, be homogenized and be mixed with J component, It is again started up with the vapour conduction heaters in stirring heated type reactor tank, controlled at 6 DEG C, keeps the temperature 8 minutes, discharge into pressing mold Machine to get arrive loading plate 4-4-1.

Embodiment 2

Loading plate 4-4-1 of the present invention is manufactured according to the following steps, and by mass percentage:

Step 1: 3- (bicyclic (2.2.1) the hept- 2- yl of 5,5,6- trimethyl) hexamethylene-in component will be matched according to mass percent 1- alcohol 13% is added in band stirring heated type reactor tank, while ultrasonic purification water 85% is added, and starting band stirring heated type is anti- Answer the blender in tank, setting speed 13rpm；

Step 2: after band stirring heated type reactor tank operates 85 minutes, CS set-accelerating admixture 95% and α-hydrogen-ω-[(1- oxygen is added Generation -2- acrylic) oxygroup]-poly- [oxygroup (methyl-1,2- ethylidene)] 39%, starting band stirs the vapour in heated type reactor tank Conduction heaters make temperature rise to 95 DEG C, and CSA is added and promotees solidifying promotor 19% and Tin Nanoparticle 68%, heated in band stirring It is stirred evenly in formula reactor tank, obtains the homogenate of J component；

Step 3: the promotion catalyst DPG44% in proportion component is weighed according to mass percent, mixes and stirs with the homogenate of J component It mixes, is again started up with the vapour conduction heaters in stirring heated type reactor tank, controlled at 39 DEG C, keeps the temperature 19 minutes, discharging Enter molding press to get loading plate 4-4-1 is arrived.

Reference examples

Reference examples are certain commercially available brand component same as the application loading plate 4-4-1, to be tested for the property test.

Embodiment 3

The loading plate 4-4-1 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, impact strength, corrosion rate are counted, the results are shown in Table 1.

As seen from Table 1, loading plate 4-4-1 of the present invention, above-mentioned performance indicator are superior to prior art production Product.

Embodiment 4

3- (bicyclic (2.2.1) the hept- 2- yl of 5,5,6- trimethyl) hexamethylene -1- alcohol component accounting is studied to loading plate 4-4-1 performance Influence.Change 3- (bicyclic (2.2.1) the hept- 2- yl of 5,5,6- trimethyl) hexamethylene -1- alcohol volume be total amount 10%, 20%, 30%, 40%, using loading plate 4-4-1 fatigue resistance gaining rate as evaluation index.Resist from heretofore described loading plate 4-4-1 tired Find out in labor intensity gaining rate and 3- (bicyclic (2.2.1) the hept- 2- yl of 5,5,6- trimethyls) hexamethylene -1- alcohol volume relational graph, 3- (5, Bicyclic (2.2.1) the hept- 2- yl of 5,6- trimethyls) hexamethylene -1- alcohol content, have to its material fatigue resistance gaining rate important It influences, the variation of content directly affects properties of product.

Claims (10)

1. one kind is used for high concentrated organic wastewater dephosphorization denitrogenation processing system, comprising: control panel (1), support base (2) are toppled over Motor (3), electrolytic cell (4) add alkali pipe (5), sedimentation basin level sensor (6), sedimentation basin pH value detector (7), sedimentation basin (8), sedimentation basin outlet pipe (9), sedimentation basin water inlet pipe (10), acid adding pipe (11), intake pump (12)；It is characterized in that, described heavy Shallow lake pond (8) inner wall is equipped with sedimentation basin level sensor (6) and sedimentation basin pH value detector (7)；Sedimentation basin (8) bottom side It is equipped with sedimentation basin water inlet pipe (10), sedimentation basin water inlet pipe (10) and sedimentation basin (8) penetrate through, and wherein sedimentation basin water inlet pipe (10) is another End is equipped with electrolytic cell (4), and sedimentation basin water inlet pipe (10) and electrolytic cell (4) penetrate through；Described plus alkali pipe (5) and sedimentation basin outlet pipe (9) it is respectively positioned on sedimentation basin (8) outer wall, alkali pipe (5) and sedimentation basin outlet pipe (9) is added to penetrate through with sedimentation basin (8)；The electrolysis Pond (4) bottom side is equipped with intake pump (12), and electrolytic cell (4) is penetrated through by intake pump (12) and sedimentation basin (8)；The acid adding pipe (11) it is located at electrolytic cell (4) top side, acid adding pipe (11) and electrolytic cell (4) penetrate through, and acid adding pipe (11) is on electrolytic cell (4) Eaves is between 15cm~20cm；Electrolytic cell (4) two sides be equipped with support base (2), support base (2) cross-sectional structure be it is trapezoidal, Support base (2) and electrolytic cell (4) are rotatablely connected by axis, and wherein support base (2) is equipped with control panel (1) and toppling over motor (3)；The toppling over motor (3), sedimentation basin level sensor (6), sedimentation basin pH value detector (7) and intake pump (12) pass through Conducting wire is connected with control panel (1) control.

2. according to claim 1 a kind of for high concentrated organic wastewater dephosphorization denitrogenation processing system, which is characterized in that institute Stating support base (2) includes: connecting bracket slideway base (2-1), connecting bracket pulley (2-2), connecting bracket motor (2-3), branch Frame transmission system (2-4), bracket transmission system connecting rod (2-5), support base panel connecting bracket (2-6), connecting bracket slideway (2-7), support base panel (2-8)；The connecting bracket slideway base (2-1) is set to below connecting bracket slideway (2-7), the two It vertically and is fixedly connected, the quantity of connecting bracket slideway base (2-1) is 2, on each connecting bracket slideway base (2-1) Equipped with the 2 connecting bracket slideways (2-7) in left and right；The support base panel connecting bracket (2-6) and connecting bracket slideway base (2- 1) left side connecting bracket slideway (2-7) on is slidably connected, the end of support base panel connecting bracket (2-6) and support base panel (2-8) is fixedly connected, and the quantity of support base panel connecting bracket (2-6) is two；The connecting bracket pulley (2-2) is connected to The side support base panel connecting bracket (2-6), connecting bracket pulley (2-2) and the right side on connecting bracket slideway base (2-1) Connecting bracket slideway (2-7) rolls connection, and the quantity of every side connecting bracket pulley (2-2) is 2；The bracket transmission system (2-4) is located at each support base panel connecting bracket (2-6) other side, bracket transmission system (2-4) upper and lower ends with connect branch Frame pulley (2-2) transmission connection；The connecting bracket motor (2-3) is arranged in bracket transmission system (2-4) side lower part, connection Carriage motor (2-3) is connected by conducting wire with control panel (1) control；The bracket transmission system connecting rod (2-5) is two sides Attachment device between bracket transmission system (2-4), the quantity of bracket transmission system connecting rod (2-5) are 2.

3. according to claim 2 a kind of for high concentrated organic wastewater dephosphorization denitrogenation processing system, which is characterized in that institute Stating electrolytic cell (4) includes: intake pump mounting base (4-1), electrolytic cell outlet pipe (4-2), bucket wall (4-3), blender (4-4), sun Pole (4-5), stirring motor (4-6), pour spout (4-7), cathode (4-8), rotation axis (4-9), acid adding hole (4-10)；The bucket wall (4-3) top side is equipped with pour spout (4-7), and bucket wall (4-3) bottom side is equipped with intake pump mounting base (4-1) and electrolytic cell goes out Water pipe (4-2), wherein electrolytic cell outlet pipe (4-2) and bucket wall (4-3) are penetrated through；Intake pump mounting base (4-1) top is equipped with Acid adding hole (4-10), acid adding hole (4-10) and bucket wall (4-3) are penetrated through；The rotation axis (4-9) is located in the two sides bucket wall (4-3) The heart, rotation axis (4-9) quantity are 2, and two rotation axis (4-9) rotate coaxially；Bucket wall (4-3) top center is equipped with stirring Device (4-4), the center blender (4-4) are equipped with stirring motor (4-6), and stirring motor (4-6) is threadedly coupled with blender (4-4)； Blender (4-4) two sides are respectively equipped with anode (4-5) and cathode (4-8), anode (4-5) and cathode (4-8) with stirring Device (4-4) is slidably connected；The anode (4-5), stirring motor (4-6) and cathode (4-8) pass through conducting wire and control panel (1) Control is connected；The anode (4-5) is iron material matter, and cathode (4-8) is carbon materials matter.

4. according to claim 3 a kind of for high concentrated organic wastewater dephosphorization denitrogenation processing system, which is characterized in that institute Stating intake pump mounting base (4-1) includes: mounting base panel (4-1-1), mounting base fixed block (4-1-2), fixed block connecting rod (4- 1-3), water pump stabilizer blade (4-1-4), hold-down bolt (4-1-5), bolt sleeve (4-1-6), bolt adjusting knob (4-1-7), stabilizer blade Fixed ring (4-1-8)；The mounting base fixed block (4-1-2) is located at the lower right mounting base panel (4-1-1), and the two is fixed to be connected It connects, the quantity of mounting base fixed block (4-1-2) is 3, and adjacent mounting base fixed block (4-1-2) is with water pump stabilizer blade (4-1-4) Center is angularly distributed；The stabilizer blade fixed ring (4-1-8) is located on the inside of mounting base fixed block (4-1-2), stabilizer blade fixed ring (4- It 1-8) is fixedly connected by fixed block connecting rod (4-1-3) with mounting base fixed block (4-1-2), in stabilizer blade fixed ring (4-1-8) Equipped with bolt sleeve (4-1-6)；The top of the bolt sleeve (4-1-6) is equipped with bolt adjusting knob (4-1-7), bolt sleeve The bottom of (4-1-6) is equipped with hold-down bolt (4-1-5), and the quantity of bolt sleeve (4-1-6) is 3；Water pump stabilizer blade (the 4-1- 4) it is located at the inside stabilizer blade fixed ring (4-1-8), the diameter of water pump stabilizer blade (4-1-4) is less than the diameter of stabilizer blade fixed ring (4-1-8), Water pump stabilizer blade (4-1-4) is fixed on mounting base panel (4-1-1) by the effect of hold-down bolt (4-1-5).

5. according to claim 4 a kind of for high concentrated organic wastewater dephosphorization denitrogenation processing system, which is characterized in that institute Stating blender (4-4) includes: loading plate (4-4-1), electrolytic cell pH value detector (4-4-2), electrolytic cell level sensor (4-4- 3), agitating device (4-4-4)；The loading plate (4-4-1) is equipped with electrolytic cell pH value detector (4-4-2) and electrolysis pit level Inductor (4-4-3), electrolytic cell pH value detector (4-4-2) and electrolytic cell level sensor (4-4-3) pass through conducting wire and control Panel (1) control processed is connected；The agitating device (4-4-4) is located at the lower part loading plate (4-4-1), and stirring motor (4-6) passes through Axis is fixedly connected with agitating device (4-4-4).

6. according to claim 5 a kind of for high concentrated organic wastewater dephosphorization denitrogenation processing system, which is characterized in that institute Stating agitating device (4-4-4) includes: aerofoil profile paddle (4-4-4-1), and agitating device connector (4-4-4-2) stirs axis (4- 4-4-3), fixed impeller (4-4-4-4), paddle support frame (4-4-4-5)；It is equipped in the middle part of the stirring axis (4-4-4-3) Fixed impeller (4-4-4-4), the stirring axis bottom (4-4-4-3) are equipped with agitating device connector (4-4-4-2)；The stirring dress It sets connector (4-4-4-2) to be fixedly connected with stirring axis (4-4-4-3), the agitating device connector bottom (4-4-4-2) and the wing Type paddle (4-4-4-1) is fixedly connected；The both ends of the paddle support frame (4-4-4-5) respectively with agitating device connector (4-4-4-2) is fixedly connected with aerofoil profile paddle (4-4-4-1), and the quantity of paddle support frame (4-4-4-5) is 2.

7. according to claim 6 a kind of for high concentrated organic wastewater dephosphorization denitrogenation processing system, which is characterized in that institute Stating rotation axis (4-9) includes: briquetting fixed plate (4-9-1), rate of tension regulation cock (4-9-2), gear assembly (4-9-3), Axis briquetting (4-9-4), holddown spring (4-9-5) rotate shaft housing (4-9-6), axis drive gear (4-9-7), in rotation Axis (4-9-8) rotates shaft brake (4-9-9)；The rotating middle shaft (4-9-8) is set in rotation inside shaft housing (4-9-6) At the heart, rotating middle shaft (4-9-8) outer wall is helicitic texture；The axis briquetting (4-9-4) is arranged on rotating middle shaft (4-9-8) Lower both ends, axis briquetting (4-9-4) concave side are equipped with briquetting fixed plate (4-9-1)；The number of the briquetting fixed plate (4-9-1) Amount is 2；The rate of tension regulation cock (4-9-2) is perpendicular between briquetting fixed plate (4-9-1), and rate of tension regulation cock (4- It 9-2) passes through briquetting fixed plate (4-9-1) to be fixedly connected with axis briquetting (4-9-4), the quantity of rate of tension regulation cock (4-9-2) It is 4；It is internal that the axis drive gear (4-9-7) is arranged in axis briquetting (4-9-4), axis drive gear (4-9-7) with Rotating middle shaft (4-9-8) engagement connection, axis drive gear (4-9-7) outside are equipped with gear assembly (4-9-3)；The tooth Wheel transmission device (4-9-3) is connected by conducting wire with control panel (1) control；The holddown spring (4-9-5) is fixedly connected At the side center axis briquetting (4-9-4)；The rotation shaft brake (4-9-9) is located at the other side rotating middle shaft (4-9-8), Rotating middle shaft (4-9-8) passes through in the middle part of rotation shaft brake (4-9-9).

8. according to claim 7 a kind of for high concentrated organic wastewater dephosphorization denitrogenation processing system, which is characterized in that institute Stating rotation shaft brake (4-9-9) includes: brake cooling water tank (4-9-9-1), belt controller (4-9-9-2), deceleration skin Band (4-9-9-3), brake rotor (4-9-9-4), belt tightening regulating device (4-9-9-5)；Brake rotor (the 4-9-9- 4) centered on rotating middle shaft (4-9-8) and the two is fixed by the bracket connection, the periphery brake rotor (4-9-9-4), which is wound with, to be subtracted Fast belt (4-9-9-3)；The port of the deceleration belt (4-9-9-3) is connect with belt controller (4-9-9-2), deceleration belt The upside of (4-9-9-3) is connect with the one end of belt tightening regulating device (4-9-9-5)；Belt controller (the 4-9-9- 2) it is located on the downside of belt tightening regulating device (4-9-9-5), belt controller (4-9-9-2) and belt tightening regulating device The other end of (4-9-9-5) connects, and belt controller (4-9-9-2) is connected by conducting wire with control panel (1) control；It is described Brake cooling water tank (4-9-9-1) is connected on rotating middle shaft (4-9-8), and is located at the side brake rotor (4-9-9-4).

9. according to claim 8 a kind of for high concentrated organic wastewater dephosphorization denitrogenation processing system, which is characterized in that institute Stating brake cooling water tank (4-9-9-1) includes: cooling water return pipe (4-9-9-1-1), rectangle buffer board (4-9-9-1-2), Cooling water buffer net (4-9-9-1-3), water temperature sensor (4-9-9-1-4), water tank upper chamber (4-9-9-1-5), cooling water are heavy It drops plate (4-9-9-1-6), cooling water is gone flow tube (4-9-9-1-7), cooling water reflux pump (4-9-9-1-8), water tank lower chambers (4- 9-9-1-9)；The water tank upper chamber (4-9-9-1-5) and water tank lower chambers (4-9-9-1-9) are respectively provided at brake cooling water The internal two sides up and down of case (4-9-9-1), and the two perforation connection；Cooling water sedimentation plate (4-9-9-1-6) is fixedly connected on Water tank upper chamber (4-9-9-1-5) and water tank lower chambers (4-9-9-1-9) are internal, and cooling water settles plate (4-9-9- in each chamber Quantity 1-6) is 3, is equidistantly distributed between adjacent cooling water sedimentation plate (4-9-9-1-6)；Rectangle buffer board (the 4- 9-9-1-2) it is located on the downside of cooling water sedimentation plate (4-9-9-1-6) in water tank lower chambers (4-9-9-1-9), rectangle buffer board The quantity of (4-9-9-1-2) is 4, is equidistantly distributed between adjacent rectangle buffer board (4-9-9-1-2), rectangle buffer board (4- Lower part 9-9-1-2) is equipped with cooling water buffer net (4-9-9-1-3)；The water temperature sensor (4-9-9-1-4) is fixedly connected on On the downside of water tank lower chambers (4-9-9-1-9) inner wall, water temperature sensor (4-9-9-1-4) and control panel (1) pass through polygon control survey Connection；The cooling water goes flow tube (4-9-9-1-7) to be located on the outside of water tank upper chamber (4-9-9-1-5), and cooling water removes flow tube (4- One end insertion water tank upper chamber (4-9-9-1-5) 9-9-1-7) is internal, and cooling water goes the other end of flow tube (4-9-9-1-7) logical One end of supercooled water reflux pump (4-9-9-1-8) and cooling water return pipe (4-9-9-1-1), which penetrate through, to be connected；The cooling water returns Flow tube (4-9-9-1-1) is located on the outside of water tank lower chambers (4-9-9-1-9), the other end of cooling water return pipe (4-9-9-1-1) It is internal to be inserted into water tank lower chambers (4-9-9-1-9)；It is cooling that the cooling water reflux pump (4-9-9-1-8) is arranged in entire brake The side water tank (4-9-9-1), cooling water reflux pump (4-9-9-1-8) are connected by conducting wire with control；

Described plus alkali pipe (5) include: lye paddle (5-1), manage interior motor (5-2), add alkali pipe fixed ring (5-3), alkaline stream It exports (5-4), lye buffer unit (5-5), lye inlet port (5-6)；The lye inlet port (5-6), lye outflux (5- 4) it is respectively arranged on and adds alkali pipe (5) left and right ends；Described plus alkali pipe fixed ring (5-3) is fixedly attached to plus alkali pipe (5) middle part, adds alkali The quantity of pipe fixed ring (5-3) is 3, and adjacent plus alkali pipe fixed ring (5-3) is in be equally spaced；The position motor (5-2) in the pipe The both ends of motor (5-2) are equipped with lye paddle (5-1) within adding alkali pipe (5) internal, managing, and the waist of motor (5-2) is set in pipe Have lye buffer unit (5-5), manages interior motor (5-2) and connected by conducting wire and control panel (1) control；The lye paddle (5-1) and lye buffer unit (5-5) are fixedly connected with motor in pipe (5-2)；

The sedimentation basin outlet pipe (9) includes: dredger pushing tow controller (9-1), secondary sediment pot (9-2), U-tube water outlet Mouth (9-3), U-tube (9-4), sediment outlet (9-5), dredger (9-6), sewage inlet pipe (9-7)；The dredging dress The both ends for setting (9-6) are respectively equipped with dredger pushing tow controller (9-1) and sediment outlet (9-5), dredger (9-6) Upside be equipped with sewage inlet pipe (9-7)；The sediment outlet (9-5) and sewage inlet pipe (9-7) are and dredger (9-6) perforation connection；The U-tube (9-4) is located on the downside of dredger (9-6), one end of U-tube (9-4) and dredger (9-6) perforation connection, the other end of U-tube (9-4) are equipped with U-tube water outlet (9-3)；The secondary sediment pot (9-2) is set to U The bottom type pipe (9-4), the two perforation connection；The dredger pusher (9-1) controls phase by conducting wire and control panel (1) Even；

The dredger pushing tow controller (9-1) includes: controller housing (9-1-1), spill fixture block (9-1-2), between fixture block Away from regulation cock (9-1-3), built-in gear (9-1-4), gearing shaft (9-1-5), side pressure spring (9-1-6)；The concave folder Block (9-1-2) is located at controller housing (9-1-1) inside, and the quantity of concave fixture block (9-1-2) is 2, leads between adjacent fixture block Cross fixture block spacing regulation cock (9-1-3) connection；The quantity of the fixture block spacing regulation cock (9-1-3) is 4；The built-in gear (9-1-4) is set on the inside of spill fixture block (9-1-2), and built-in gear (9-1-4) and gearing shaft (9-1-5) coaxial transmission connect It connects, the quantity of built-in gear (9-1-4) is 2, and adjacent built-in gear (9-1-4) is engaged with sediment propulsion arm (9-6-4) Connection；The side pressure spring (9-1-6) is fixedly connected on the side spill fixture block (9-1-2), and the quantity of side pressure spring (9-1-6) is 2；The gearing shaft (9-1-5) and external motor are drivingly connected, and external motor is connect with control panel (1) conducting wire；

The dredger (9-6) includes: dredge outlet pipe (9-6-1), dredge cavity (9-6-2), ejector piston (9-6- 3), sediment propulsion arm (9-6-4)；The sediment propulsion arm (9-6-4) is located at dredge cavity (9-6-2) inside, precipitating One end of object propulsion arm (9-6-4) and dredger pushing tow controller (9-1) are sequentially connected, sediment propulsion arm (9-6-4) The other end is fixedly connected with ejector piston (9-6-3)；The dredge outlet pipe (9-6-1) is located at the side dredger (9-6) Lower end, dredge outlet pipe (9-6-1) and dredge cavity (9-6-2) perforation connect；

One kind being used for high concentrated organic wastewater dephosphorization denitrogenation processing system, the working method of the device including the following steps:

Step 1: in a kind of whole device for high concentrated organic wastewater dephosphorization denitrogenation processing system, staff connects first Logical control panel (1) power supply, it is secondly that tape handling sewage injection electrolytic cell (4) is internal, at the same time, it is located at blender (4-4) On electrolytic cell level sensor (4-4-3) real-time monitoring electrolytic cell (4) water level inside height, when electrolytic cell level sensor When (4-4-3) monitor value reaches its setting value, electrolytic cell level sensor (4-4-3) generates electric signal transmission to control panel (1), control panel (1) generates warning information, and staff is reminded to stop filling treatment sewage；

Step 2: in support base (2) operation process, connecting bracket motor (2-3) is transported under the control of control panel (1) Turn, and drives the running of bracket transmission system (2-4), and then promote connecting bracket pulley (2-2) at connecting bracket slideway (2-7) On scroll up and down；Connecting bracket pulley (2-2) scrolls up and down and promotes support base panel connecting bracket (2-6) in connecting bracket It is slided up and down on slideway (2-7), to realize the rising and decline of support base panel (2-8)；Since bracket transmission system connects The presence of bar (2-5) promotes the two sets of upgrade-systems in left and right to synchronize and moves down under the driving effect of connecting bracket motor (2-3) It is dynamic；

Step 3: in electrolytic cell (4) operation, when electrolytic cell (4) complete treatment sewage filling work, staff passes through Control panel (1) controls stirring motor (4-6) starting, while being powered to anode (4-5) and cathode (4-8), carries out wait locate Manage electrolytic sewage work；Electrolytic cell pH value detector during treatment sewage electrolysis, on blender (4-4) The internal pH value of sewage water of (4-4-2) real-time monitoring electrolytic cell (4), when electrolytic cell pH value detector (4-4-2) monitor value is set beyond it When determining value range, electrolytic cell pH value detector (4-4-2) generates electric signal transmission to control panel (1), control panel (1) control Electrically-controlled valve on acid adding pipe (11) is opened, and internal acidic materials injection electrolytic cell (4) of acid adding pipe (11) is internal；As electrolytic cell pH It is worth detector (4-4-2) monitor value in its setting range value, electrolytic cell pH value detector (4-4-2) generates electric signal transmission extremely Control panel (1), control panel (1) control the electrically-controlled valve on acid adding pipe (11) and close；

Step 4: in intake pump mounting base (4-1) course of work, compression is realized by tightening bolt adjusting knob (4-1-7) Fixation of the bolt (4-1-5) to water pump stabilizer blade (4-1-4)；

Step 5: in blender (4-4) operation, electrolytic cell pH value detector (4-4-2) carries out the sewage in electrolytic cell (4) Real-time pH value detection；The position that electrolytic cell level sensor (4-4-3) reaches the interior sewage of electrolytic cell (4) is monitored, with Prevent sewage overflows；Meanwhile agitating device (4-4-4) is stirred sewage in pond；

Step 6: in agitating device (4-4-4) operation process, the operating of stirring axis (4-4-4-3) drives fixed impeller (4- Rotation 4-4-4) promotes sludge to be pressed into bottom；Meanwhile the rotation of aerofoil profile paddle (4-4-4-1) is realized to electrolytic cell (4) The stirring of interior sewage；

Step 7: in rotation axis (4-9) operation process, gear assembly (4-9-3) under the control of control panel (1) into Row running, and the operating of axis drive gear (4-9-7) is driven, and then promote rotating middle shaft (4-9-8) left or right rotation, it drives Electrolytic cell (4) overturning resets；Meanwhile axis briquetting is realized using rate of tension regulation cock (4-9-2) and holddown spring (4-9-5) (4-9-4) is tightly engaged with rotating middle shaft (4-9-8's)；

Step 8: in rotation shaft brake (4-9-9) operation process, belt controller (4-9-9-2) is in control panel (1) Deceleration belt (4-9-9-3) is pulled down under control, promotes deceleration belt (4-9-9-3) to the brake rotor (4-9- of operating Tight 9-4) is carried out, to realize deceleration；

Step 9: in brake cooling water tank (4-9-9-1) operation process, cooling water removes flow tube (4-9-9-1-7) from cooling water Water tank lower chambers (4-9- is flowed into water tank upper chamber (4-9-9-1-5), and after supercooled water settles plate (4-9-9-1-6) 9-1-9)；Water in water tank lower chambers (4-9-9-1-9) is settling plate (4-9-9-1-6), rectangle buffer board (4- through supercooled water 9-9-1-2) and after cooling water buffer net (4-9-9-1-3), flow into cooling water return pipe (4-9-9-1-1)；At the same time, water temperature Sensor (4-9-9-1-4) carries out real time temperature detection, and the letter that will test to the water in water tank lower chambers (4-9-9-1-9) Breath is sent to control panel (1)；Cooling water reflux pump (4-9-9-1-8) is operated under the control of control panel (1), will be cold But the water in water return pipe (4-9-9-1-1) is delivered to cooling water and goes flow tube (4-9-9-1-7), completes to rotating middle shaft (4-9- 8) circulation cooling；

Step 10: in adding alkali pipe (5) operation process, lye is flowed into from lye inlet port (5-6) plus alkali pipe (5) are interior；Meanwhile it managing Interior motor (5-2) drives lye paddle (5-1) to be rotated under the control of control panel (1), realizes interior to alkali pipe (5) is added The stirring of lye；Then, liquid outflow from lye outflux (5-4)；

Step 11: in sedimentation basin outlet pipe (9) operation, sewage flows into dredger (9- from sewage inlet pipe (9-7) 6)；Under the control of control panel (1), dredger pushing tow controller (9-1) promotes dredger (9-6) to be operated, into And the sediment in sewage is pushed into sediment outlet (9-5) and is discharged afterwards, remaining sewage then flows into U-tube (9-4)；Through The precipitation of U-tube (9-4) is crossed, the sediment in sewage enters secondary sediment pot (9-2)；Meanwhile the water of sediment is removed from U-shaped Pipe water outlet (9-3) discharge；

Step 12: in dredger pushing tow controller (9-1) operation, external motor is under the control of control panel (1) It is operated, and drives gearing shaft (9-1-5) and built-in gear (9-1-4) to rotate, and then pass through built-in gear (9-1-4) The sediment propulsion arm (9-6-4) realized with the engagement of sediment propulsion arm (9-6-4) is flexible；

Step 13: in dredger (9-6) operation, sewage enters dredge cavity (9-6- from sewage inlet pipe (9-7) 2) in；Sediment propulsion arm (9-6-4) and ejector piston (9-6-3), will under the action of dredger pushing tow controller (9-1) Sediment in sewage is squeezed to sediment outlet (9-5) and is discharged afterwards, remaining water is then flowed from dredge outlet pipe (9-6-1) Out；

Step 14: in sedimentation basin (8) operation, after the completion for the treatment of sewage electrolysis, control panel (1) controls stirring motor (4-6) shuts down, while powering off to anode (4-5) and cathode (4-8), and subsequent control panel (1) controls intake pump (12) start, internal sewage injection sedimentation basin (8) of electrolytic cell (4) is internal；It is located at sedimentation basin (8) internal precipitating at the same time Pit level inductor (6) real-time monitoring sedimentation basin (8) water level inside height, when sedimentation basin level sensor (6), monitor value reaches When its setting value, sedimentation basin level sensor (6) generates electric signal transmission to control panel (1), control panel (1) intake pump (12) it shuts down；After treatment sewage injects sedimentation basin (8) inside, it is located at sedimentation basin (8) internal sedimentation basin pH value detection The internal pH value of sewage water of device (7) real-time monitoring sedimentation basin (8), when sedimentation basin pH value detector (7) monitor value is lower than its setting range When value, sedimentation basin pH value detector (7) generates electric signal transmission to control panel (1), and control panel (1) control adds alkali pipe (5) On electrically-controlled valve open, internal alkaline matter injection electrolytic cell (4) of alkali pipe (5) will be added internal, when sedimentation basin pH value detector (7) For monitor value in its setting range value, sedimentation basin pH value detector (7) generates electric signal transmission to control panel (1), control plane Electrically-controlled valve in plate (1) control plus alkali pipe (5) is closed；When staff needs to clean electrolytic cell (4) residues inside When with toppling over work, staff is carried out by control panel (1) control stirring motor (4-6) starting to inside electrolytic cell (4) Cleaning, after the completion of cleaning, staff is driven by control panel (1) control toppling over motor (3) starting, toppling over motor (3) Electrolytic cell (4) overturning, residue is discharged by pour spout (4-7).

10. according to claim 9 a kind of for high concentrated organic wastewater dephosphorization denitrogenation processing system, which is characterized in that The loading plate (4-4-1) is formed by high molecular material pressing mold, loading plate (4-4-1) by mass percentage, by organizing grouping as follows At:

3- (bicyclic (2.2.1) the hept- 2- yl of 5,5,6- trimethyl) hexamethylene -1- alcohol 3~13%；

Ultrasonic purification water 1~85%；

CS set-accelerating admixture 3~95%；

α-hydrogen-ω-[(1- oxo -2- acrylic) oxygroup]-poly- [oxygroup (methyl-1,2- ethylidene)] 6~39%；

CSA promotees solidifying promotor 8~19%；

Tin Nanoparticle 4~68%；

Promote catalyst DPG4~44%；

The CS set-accelerating admixture is 2- [3- (2H- benzotriazole -2- base) -4- hydroxy phenyl] ethyl 2- methacrylate Derivative, molecular characterization are as follows:

Wherein, R is alkyl, is 7~10 carbon atoms；

The CSA promotees the derivative that solidifying promotor is gamma decalactone, molecular structural formula are as follows:

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

The water-oil separating coefficient of the group are as follows: 2.8809；

The promotion catalyst DPG is -7 α of 17 Alpha-hydroxy -3- oxygen-(acetylthio) -17 α-pregnant steroid -4- alkene -21- carboxylic acid-γ - The derivative of lactone, molecular structural formula are as follows:

Wherein, B group is macromolecule group；

The molecular structural formula of the B group are as follows:

Its molecular formula are as follows: C12H16ClNO3；Molecular weight: 257.71；

The manufacturing method of loading plate (4-4-1) is:

Step 1: 3- (bicyclic (2.2.1) the hept- 2- yl of 5,5,6- trimethyl) hexamethylene-in component will be matched according to mass percent 1- alcohol is added in band stirring heated type reactor tank, while ultrasonic purification water is added, and starting is in stirring heated type reactor tank Blender, setting speed are 3rpm~13rpm；

Step 2: after band stirring heated type reactor tank operates 1~85 minute, CS set-accelerating admixture and α-hydrogen-ω-[(1- oxygen is added Generation -2- acrylic) oxygroup]-poly- [oxygroup (methyl-1,2- ethylidene)], start with the vapour conduction in stirring heated type reactor tank Heater makes temperature rise to 3 DEG C~95 DEG C, and CSA is added and promotees solidifying promotor and Tin Nanoparticle, stirs heated type reactor tank in band In stir evenly, obtain J component homogenate；

Step 3: weighing the promotion catalyst DPG in proportion component according to mass percent, be homogenized and be mixed with J component, then Secondary starting is with the vapour conduction heaters in stirring heated type reactor tank, controlled at 6 DEG C~39 DEG C, keeps the temperature 8~19 minutes, out Expect into molding press to get to loading plate (4-4-1).