CN109052583A - A kind of integrated sewage water electrodeposit device - Google Patents

Abstract

The invention discloses a kind of integrated sewage water electrodeposit devices, are made of control panel, support base, toppling over motor, electrolytic cell plus alkali pipe, sedimentation basin level sensor, sedimentation basin pH value detector, sedimentation basin, outlet pipe, water inlet pipe, acid adding pipe, intake pump；The sedimentation basin bottom side is equipped with water inlet pipe, and wherein the water inlet pipe other end is equipped with electrolytic cell；Described plus alkali pipe and outlet pipe are respectively positioned on sedimentation basin outer wall；The electrolytic cell bottom side is equipped with intake pump；The acid adding pipe is located at electrolytic cell top side；The electrolytic cell two sides are equipped with support base, and wherein support base is equipped with control panel and toppling over motor；A kind of integrated sewage water electrodeposit device of the present invention, the plant automation degree is high, and occupied area is small；Furthermore the device wastewater treatment process structure is simple and efficient, can complete independently electrolytic sewage precipitate workflow, effectively reduce labor intensity while guaranteeing treatment effect.

Description

A kind of integrated sewage water electrodeposit device

Technical field

The invention belongs to electrolysis installation fields, and in particular to a kind of integrated sewage water electrodeposit device.

Background technique

With China's industrial expansion, the discharge amount of trade effluent increasingly increases.Trade effluent is mainly derived from dyestuff, doctor The production process of the industries such as medicine, pesticide, chemical industry, ingredient is extremely complex, including salinity, organic matter, suspended matter and bacterium etc., In based on the organic matter of high concentration.The wastewater biological degradation property of many industries is poor, it is difficult to biological treatment, using traditional Biochemical Method for Treating Dyeing Industry Wastewater is often difficult to up to standard.More pay attention to the research to group technology in recent years, electrolysis method is mainly used for Processing waste water containing chrome and cyanide wastewater.In addition, being also used to remove the heavy metal ion in waste water, oil and suspended matter；It can also be with In colloidal state or the dye molecule of dissolved state in cohesion absorption waste water, and redox can destroy chromophore, take Obtain decolorizing effect.It is handled using electrolysis method containing phenol, containing cadmium, sulfur-bearing, the test containing the waste water such as organic phosphorus and food industrial wastewater Research work is also carrying out.

For existing market, sewage treatment is a major challenge, and some relevant sewage disposal device processing capacities are inadequate, Volume is big, and occupancy floor area is big, is unfavorable for preferably promoting, is multiple machine cooperatings mostly, not can solve Effluent problem, may also will cause secondary pollution, it is more existing for example handle manufacture, chemical industry, textile and paper sewage at Equipment is managed, entire workflow cannot be singly completed, and the program structure for handling water is more complicated, processing is not thorough.

Summary of the invention

In order to solve the above technical problem, the present invention provides a kind of integrated sewage water electrodeposit devices, comprising: control plane Plate 1, support base 2, toppling over motor 3, electrolytic cell 4 add alkali pipe 5, sedimentation basin level sensor 6, and sedimentation basin pH value detector 7 sinks Shallow lake pond 8, sedimentation basin outlet pipe 9, sedimentation basin water inlet pipe 10, acid adding pipe 11, intake pump 12；It is characterized in that, in the sedimentation basin 8 Wall is equipped with sedimentation basin level sensor 6 and sedimentation basin pH value detector 7；8 bottom side of sedimentation basin is equipped with sedimentation basin water inlet Pipe 10, 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 into Water pipe 10 and electrolytic cell 4 penetrate through；Described plus alkali pipe 5 and sedimentation basin outlet pipe 9 are respectively positioned on 8 outer wall of sedimentation basin, are added alkali pipe 5 and are sunk Shallow lake pond outlet pipe 9 is penetrated through with sedimentation basin 8；4 bottom side of electrolytic cell is equipped with intake pump 12, and electrolytic cell 4 passes through intake pump 12 penetrate through with sedimentation basin 8；The acid adding pipe 11 is located at 4 top side of electrolytic cell, and acid adding pipe 11 and electrolytic cell 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 2,2 cross section of support base knot 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 and control The control of panel 1 is connected.

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.

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.

A kind of integrated sewage water electrodeposit device disclosed by the invention, the advantage is that: the plant automation degree is high, Structure is simply small in size, and occupied area is small, is conducive to preferably promote；Furthermore the device wastewater treatment process structure is simple and efficient, Can complete independently electrolytic sewage precipitate workflow, effectively reduce labor intensity while guaranteeing treatment effect.

Detailed description of the invention

Fig. 1 is a kind of heretofore described integrated sewage water electrodeposit apparatus structure schematic diagram.

Fig. 2 is heretofore described 4 structural schematic diagram of electrolytic cell.

Fig. 3 is heretofore described blender 4-4 structural schematic diagram.

Fig. 4 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

A kind of integrated sewage water electrodeposit device provided by the invention is further described with reference to the accompanying drawing.

As shown in Figure 1, being a kind of heretofore described integrated sewage water electrodeposit apparatus structure schematic diagram.From Fig. 1 In find out, comprising: control panel 1, support base 2, toppling over motor 3, electrolytic cell 4 add alkali pipe 5, and sedimentation basin level sensor 6 sinks Shallow lake pond 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 described heavy 8 inner wall of shallow lake pond is equipped with sedimentation basin level sensor 6 and sedimentation basin pH value detector 7；8 bottom side of sedimentation basin is equipped with precipitating Pond water inlet pipe 10, 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, sink Shallow lake pond 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 8 outer wall of sedimentation basin, add alkali Pipe 5 and sedimentation basin outlet pipe 9 are penetrated through with sedimentation basin 8；4 bottom side of electrolytic cell be equipped with intake pump 12, intake pump 12 with Electrolytic cell 4 is fixedly connected；The acid adding pipe 11 is located at 4 top side of electrolytic cell, and acid adding pipe 11 and electrolytic cell 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 2,2 cross section of support base knot Structure 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 toppling over motor 3；It is described Toppling over motor 3, sedimentation basin level sensor 6, sedimentation basin pH value detector 7 and intake pump 12 pass through conducting wire and control panel 1 Control is connected.

As shown in Fig. 2, 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.

As shown in figure 3, 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.

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. a kind of integrated sewage water electrodeposit device, comprising: control panel (1), support base (2), toppling over motor (3), electrolysis Pond (4) adds alkali pipe (5), sedimentation basin level sensor (6), sedimentation basin pH value detector (7), sedimentation basin (8), sedimentation basin water outlet It manages (9), sedimentation basin water inlet pipe (10), acid adding pipe (11), intake pump (12)；It is characterized in that, sedimentation basin (8) inner wall is equipped with Sedimentation basin level sensor (6) and sedimentation basin pH value detector (7)；Sedimentation basin (8) bottom side is equipped with sedimentation basin water inlet It manages (10), sedimentation basin water inlet pipe (10) and sedimentation basin (8) penetrate through, and wherein sedimentation basin water inlet pipe (10) other end 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 precipitating On pond (8) outer wall, alkali pipe (5) and sedimentation basin outlet pipe (9) is added to penetrate through with sedimentation basin (8)；Electrolytic cell (4) bottom side Equipped with intake pump (12), electrolytic cell (4) is penetrated through by intake pump (12) and sedimentation basin (8)；The acid adding pipe (11) is located at electrolysis Pond (4) top side, acid adding pipe (11) and electrolytic cell (4) penetrate through, acid adding pipe (11) on electrolytic cell (4) eaves 15cm~ Between 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) with Electrolytic cell (4) is rotatablely connected by axis, and wherein support base (2) is equipped with control panel (1) and toppling over motor (3)；It is described to topple over Motor (3), sedimentation basin level sensor (6), sedimentation basin pH value detector (7) and intake pump (12) pass through conducting wire and control plane Plate (1) control is connected.

2. a kind of integrated sewage water electrodeposit device according to claim 1, which is characterized in that the electrolytic cell (4) It include: 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), cathode (4-8), rotation axis (4-9), acid adding hole (4-10)；One at the top of the bucket wall (4-3) 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 outlet pipe (4-2), Wherein electrolytic cell outlet pipe (4-2) and bucket wall (4-3) are penetrated through；The intake pump mounting base top (4-1) is equipped with acid adding hole (4- 10), acid adding hole (4-10) and bucket wall (4-3) is penetrated through；The rotation axis (4-9) is located at the two sides center bucket wall (4-3), rotation axis (4-9) quantity is 2, and two rotation axis (4-9) rotate coaxially；Bucket wall (4-3) top center is equipped with 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)；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 sliding with blender (4-4) Dynamic connection；The anode (4-5), stirring motor (4-6) and cathode (4-8) are connected by conducting wire with control panel (1) control.

3. a kind of integrated sewage water electrodeposit device according to claim 2, which is characterized in that the blender (4- It 4) include: 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 electrolytic cell level sensor (4-4- 3), electrolytic cell pH value detector (4-4-2) and electrolytic cell level sensor (4-4-3) are controlled by conducting wire and control panel (1) System 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 and agitating device (4-4-4) is fixedly connected.

4. a kind of integrated sewage water electrodeposit device according to claim 3, which is characterized in that the work side of the device Method including the following steps:

Step 1: in a kind of whole device of integrated sewage water electrodeposit device, staff connects control panel first (1) power supply, it is secondly that tape handling sewage injection electrolytic cell (4) is internal, at the same time, the electrolytic cell being located on blender (4-4) Level sensor (4-4-3) real-time monitoring electrolytic cell (4) water level inside height, when electrolytic cell level sensor (4-4-3) is monitored When value reaches its setting value, electrolytic cell level sensor (4-4-3) generates electric signal transmission to control panel (1), control panel (1) warning information is generated, staff is reminded to stop filling treatment sewage；

Step 2: 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 3: 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 4: in sedimentation basin (8) operation, after the completion for the treatment of sewage electrolysis, control panel (1) controls stirring motor (4- 6) it shuts down, while anode (4-5) and cathode (4-8) is powered off, subsequent control panel (1) control intake pump (12) is opened It is dynamic, internal sewage injection sedimentation basin (8) of electrolytic cell (4) is internal；It is located at sedimentation basin (8) internal precipitating pit level at the same time Inductor (6) real-time monitoring sedimentation basin (8) water level inside height, when sedimentation basin level sensor (6), monitor value reaches its setting When value, sedimentation basin level sensor (6) generates electric signal transmission to control panel (1), and control panel (1) intake pump (12) stops Operating；After treatment sewage injects sedimentation basin (8) inside, it is real-time to be located at sedimentation basin (8) internal sedimentation basin pH value detector (7) Monitor sedimentation basin (8) internal pH value of sewage water, when sedimentation basin pH value detector (7) monitor value is lower than its setting range value, precipitating Pond pH value detector (7) generates electric signal transmission to control panel (1), and control panel (1) control adds the electrically-controlled valve on alkali pipe (5) It opens, internal alkaline matter injection electrolytic cell (4) of alkali pipe (5) will be added internal, when sedimentation basin pH value detector (7) monitor value is at it When setting range value, sedimentation basin pH value detector (7) generates electric signal transmission to control panel (1), and control panel (1) control adds Electrically-controlled valve on alkali pipe (5) is closed；When staff needs to clean and topple over work to electrolytic cell (4) residues inside When, staff is by control panel (1) control stirring motor (4-6) starting, to cleaning inside electrolytic cell (4), clear After the completion of washing, staff drives electrolytic cell (4) by control panel (1) control toppling over motor (3) starting, toppling over motor (3) Overturning, residue is discharged by pour spout (4-7).

5. a kind of integrated sewage water electrodeposit device according to claim 4, which is characterized in that the loading plate (4- It 4-1) is formed by high molecular material pressing mold, loading plate (4-4-1) by mass percentage, is grouped as by following group:

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%.

6. a kind of integrated sewage water electrodeposit device according to claim 5, which is characterized in that the CS rush is coagulated additional Agent is the derivative of 2- [3- (2H- benzotriazole -2- base) -4- hydroxy phenyl] ethyl 2- methacrylate, molecular structure Feature are as follows:

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

7. a kind of integrated sewage water electrodeposit device according to claim 6, which is characterized in that the CSA promotees solidifying promote It is the derivative of gamma decalactone, molecular structural formula into agent 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.

8. a kind of integrated sewage water electrodeposit device according to claim 7, which is characterized in that the promotion catalyst DPG is -7 α of 17 Alpha-hydroxy -3- oxygen-(acetylthio) -17 α-pregnant steroid -4- alkene -21- carboxylic acid-gamma lactone derivative, molecule Structural formula are as follows:

Wherein, B group is macromolecule group.

9. a kind of integrated sewage water electrodeposit device according to claim 8, which is characterized in that point of the B group Subformula are as follows:

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

10. a kind of integrated sewage water electrodeposit device according to claim 9, which is characterized in that loading plate (4-4-1) Manufacturing method be:

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).