CN113003765B - Oil-water separation purifier - Google Patents

Abstract

The invention relates to a purification device, in particular to an oil-water separation purification device which comprises an oil-water separation mechanism, a disinfection stirring mechanism and a disinfectant premixing mechanism, wherein the device can be used for oil-water separation, can be used for adding a disinfectant and completing premixing, can be used for fully contacting water with the disinfectant, can be used for cleaning a blockage without stopping, and is connected with the disinfection stirring mechanism which is connected with the disinfectant premixing mechanism.

Description

Oil-water separation purifier

Technical Field

The invention relates to a purification device, in particular to an oil-water separation purification device.

Background

In the sewage treatment field, some water often contains oil, oil and water need to be separated, the traditional oil-water separation efficiency is low, in the disinfection of subsequent water, the mixing efficiency of disinfectant and water is low, and when the whole device meets resistance, the device needs to be stopped for treatment, which is very inconvenient, so the oil-water separation and purification device is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing an oil-water separation and purification device, which can separate oil from water, add disinfectant and complete premixing, fully contact water and the disinfectant, and clear up blockages without shutdown.

In order to solve the technical problems, the invention relates to a purification device, in particular to an oil-water separation purification device which comprises an oil-water separation mechanism, a disinfection stirring mechanism and a disinfectant premixing mechanism, wherein the device can be used for oil-water separation, can be used for adding a disinfectant and completing premixing, can be used for fully contacting water with the disinfectant, and can be used for cleaning blockages under the condition of no shutdown.

The oil-water separation mechanism is connected with the disinfection stirring mechanism, and the disinfection stirring mechanism is connected with the disinfectant premixing mechanism.

As a further optimization of the technical scheme, the oil-water separating and purifying device comprises a base, an oil storage tank, an oil outlet pipe, an oil outlet one-way valve, an overflow port, a fixed elbow, a coupling, a water inlet, a motor base, an oil removing tank, a tank cover, an oil removing tank outlet, a belt pulley with a shaft, a bearing seat, a connecting plate, an oil scraping blade, a hollow shaft, an opening, a blade with a shaft and a bearing seat I, wherein the base is connected with the oil storage tank, the oil outlet pipe is arranged on the oil storage tank, the oil outlet pipe is internally provided with the oil outlet one-way valve, the overflow port is connected and communicated with the oil storage tank, the fixed elbow is connected and communicated with the oil storage tank, the motor is connected with the blade with the shaft through the coupling, the motor is connected with the motor base, the motor base is connected with the oil removing tank, the water inlet is connected and communicated with the oil removing tank, the tank cover is connected with the oil removing tank, the oil removing tank outlet is arranged on the oil removing tank, the belt is in friction connection with a belt pulley with a shaft, a bearing seat is connected with an oil removal tank, the belt pulley with the shaft is in rotary connection with the bearing seat, a connecting disc is connected with an oil scraping blade, the oil scraping blade is connected with a hollow shaft, the hollow shaft is connected with the connecting disc, the hollow shaft is in rotary connection with the oil removal tank, the hollow shaft is connected with the belt pulley with the shaft, an opening is formed in the hollow shaft, the hollow shaft is in rotary connection with a fixed bent pipe, the belt blade with the shaft is in rotary connection with the fixed bent pipe, the belt blade with the shaft is in rotary connection with a bearing seat I, and the bearing seat I is connected with the fixed bent pipe.

As a further optimization of the technical scheme, the disinfection and agitation mechanism of the oil-water separation and purification device comprises a hydraulic cylinder base, a hydraulic cylinder, a hydraulic rod, a drainage channel, a drainage outlet, a reinforcing cross brace, a supporting leg, a fixed base, a downward gate with an inclined plane, a pushing base with an inclined plane, a box with a pipeline, a piston rod, a spring, a supporting leg with a base, a fixed block, a hydraulic cylinder I, a hinged base, a hinged arm, a fixed base I, a sliding rod, a reset spring, a sliding chute, an air inlet base, an air inlet pipe, a transit box, a pull pipe, an air outlet pipe, a transfer pipe, a sliding motor base, a driving motor, a coupler I, a shaft disc with a shaft, a connecting rod, a driving disk, a transfer pipe base, an air outlet pipe opening, a driven disk, an agitation box, a disinfectant inlet, a vertical base, a hydraulic cylinder with resistance, a hydraulic pressure rod with resistance, a linkage base, a step rod, a seat with a double hole, a linkage arm, a polish rod, a spring I, an inlet pipe, a belt pulley, a drainage pipe and a drainage pipe Flywheel, chute I, polish rod I, spring II, slide block with threaded rod, counterweight plate with internal thread, main gate, gate slot, limit step rod, support spring, step hole, chute II, switch closed slot, dredging piston, stirring wheel with shaft, rotary seat, gear, central gear, vertical chute, connecting shaft, matching hole, sliding bearing seat, hinged arm I, hinged arm with shaft, vertical chute I, arc friction disk, internal piston, air-intake check valve, air-outlet check valve, limit disk, connecting shaft with projection, reset spring I, drive projection, matching hole I, drive slotting, bearing seat II, bearing seat III, filter port, filter plate, hydraulic cylinder seat connected with hydraulic cylinder connected with hydraulic rod connected with main gate, main gate connected with gate slot in sliding manner, gate slot arranged on drainage channel, water outlet arranged on drainage channel, the reinforced cross brace is connected with a support leg, the support leg is connected with a fixed seat, a sliding groove II is arranged on the fixed seat, a pushing seat with an inclined surface is in sliding connection with the sliding groove II, the pushing seat with the inclined surface is in contact with a pressing gate with an inclined surface, a pipe box with a pipe is connected with and communicated with a drainage channel, a piston rod is in sliding connection with the pipe box with the pipe, a spring is sleeved on the piston rod, two ends of the spring are respectively connected with the pipe box with the pipe and a seat with double holes, the support leg with a seat is connected with a fixed seat I, the fixed block is connected with a stirring box, the fixed block is connected with a hydraulic cylinder I, the hydraulic cylinder I is connected with a hinge seat, the hinge seat is hinged with a hinge arm, the hinge arm is hinged with a sliding motor seat, the fixed seat I is provided with a sliding groove, the sliding motor seat is in sliding connection with the sliding groove, the sliding rod is connected with a sliding motor seat, a reset spring is sleeved on the sliding rod, two ends of the reset spring are respectively connected with the sliding motor seat and the fixed seat I, an air inlet seat is connected with an air inlet pipe, the air inlet pipe is connected and communicated with the transit box, the transit box is connected and communicated with the pull-out pipe, the pull-out pipe is connected and communicated with the fixed seat I, the transit box is connected and communicated with the air outlet pipe, the air outlet pipe is connected and communicated with the transfer pipe, the sliding motor seat is connected with the driving motor, the driving motor is connected with the belt shaft disk through the coupler I, the belt shaft disk is rotatably connected with the sliding motor seat, the belt shaft disk is connected with the connecting rod, the connecting rod is connected with the driving disk, the transfer pipe seat is connected with the transfer pipe, the transfer pipe seat is connected with the stirring box, the air outlet pipe orifice is arranged on the transfer pipe, the driven disk is contacted with the driving disk, the stirring box is provided with a disinfectant inlet, the vertical seat is connected with the stirring box, the through-resistance hydraulic cylinder is connected with the vertical seat, the through-resistance hydraulic cylinder is connected with the through-resistance hydraulic rod, the through-resistance hydraulic rod is connected with the linkage seat, the linkage seat is connected with the step rod, the step rod is slidably connected with the seat with the double-hole seat, and the piston rod, the linkage arm is hinged with the linkage seat, the linkage arm is hinged with the pushing seat with the inclined plane, the polished rod is connected with the fixed seat, the polished rod is connected with the pushing seat with the inclined plane in a sliding way, the spring I is sleeved on the polished rod, two ends of the spring I are respectively connected with the pushing seat with the inclined plane and the fixed seat, the inlet pipe is connected with the stirring box and communicated with the stirring box, the belt pulley is connected with the connecting shaft, the flywheel is connected with the rotating seat, the flywheel is provided with a chute I, the polished rod I is connected with the flywheel, the spring II is sleeved on the polished rod I, two ends of the spring II are respectively connected with the flywheel and the sliding block with the threaded rod, the sliding block with the threaded rod I is connected with the threaded rod I in a sliding way, the sliding block with the balance weight plate with the internal thread is connected with the threaded rod, the limiting step rod is connected with the drainage channel, the supporting spring is sleeved on the limiting step rod, two ends of the supporting spring are respectively connected with the drainage channel and the pressing gate with the inclined plane, the stepped hole is arranged on a gate with an inclined plane, a limiting stepped rod is connected with the stepped hole in a sliding way, a switching closed groove is arranged on a drainage channel, the gate with the inclined plane is connected with the switching closed groove in a sliding way, a dredging piston is connected with a piston rod, the dredging piston is connected with a pipeline box in a sliding way, a stirring wheel with a shaft is connected with a sliding bearing seat in a rotating way, a rotating seat is connected with the stirring box in a rotating way, a gear is meshed with a central gear, a vertical sliding chute is arranged on a vertical seat, the vertical sliding chute is connected with a linkage seat in a sliding way, a connecting shaft is connected with a bearing seat II in a rotating way, the rotating seat and a driven plate are both provided with bearing seats II, the central gear is connected with a connecting shaft, a matching hole is arranged on the rotating seat, the sliding bearing seat is connected with a matching hole in a sliding way, the sliding bearing seat is hinged with a hinged arm I, the hinged arm I is hinged with the hinged arm with the shaft, the shaft is connected with the gear, and the shaft is connected with a bearing seat III in a rotating way, the bearing seat III is arranged on the rotating seat, the vertical sliding groove I is arranged on the stirring box, the hinging seat is in sliding connection with the vertical sliding groove I, the arc-shaped friction disc is connected with the hinging seat, the inner piston is connected with the sliding rod, the sliding rod is in sliding connection with the fixing seat I, the inner piston is in sliding connection with the pulling pipe, the air inlet check valve is arranged in the air inlet pipe, the air outlet check valve is arranged in the air outlet pipe, the limiting disc is connected with the connecting shaft with the protrusion, the connecting shaft with the protrusion is connected with the central gear, the connecting shaft with the protrusion is in rotating connection with the bearing seat II, the reset spring I is sleeved on the connecting shaft with the protrusion, two ends of the reset spring I are respectively connected with the limiting disc and the driving disc, the driving disc is provided with a driving protrusion, the driving protrusion is in sliding connection with the matching hole I, the matching hole I is arranged on the driven disc, the driven disc is connected with the rotating seat, the driving groove is arranged on the driving disc, and the filtering port is arranged on the air inlet seat, the filter links to each other with air inlet seat sliding connection, hydraulic cylinder seat and base, and drainage channel links to each other with the base, consolidates the stull and links to each other with the base, takes the pipeline case to link to each other with the base, takes the seat landing leg to link to each other with the base, and the agitator tank links to each other with the base, and the admission pipe is linked together with the case export of deoiling, and the admission pipe links to each other with the case of deoiling, and the belt is connected with belt pulley friction, and the agitator tank links to each other and feeds through with taking the pipeline case.

As further optimization of the technical scheme, the disinfectant liquid pre-mixing mechanism of the oil-water separation and purification device comprises a stock solution tank supporting leg, a communicating pipe, a stock solution tank, a stock solution replenishing port, a secondary support, a coupler II, a servo motor, a connecting piston rod, a pre-mixing tank, a pre-mixing outlet pipe, a channel I, a liquid outlet one-way valve, a liquid inlet one-way valve, a stirring blade, a threaded disc, a driving shaft with a protrusion and a driving shaft groove with a protrusion, wherein the stock solution tank supporting leg is connected with the stock solution tank, the stock solution tank and the channel I are communicated through the communicating pipe, the stock solution tank is provided with the stock solution replenishing port, the secondary support is connected with the pre-mixing tank, the coupler II is connected with the servo motor, the servo motor is connected with the secondary support, the connecting piston rod is connected with the pre-mixing tank through threads, the pre-mixing outlet pipe is connected with the pre-mixing tank, the channel I is arranged on two sides of the pre-mixing tank, the liquid outlet one-way valve is arranged in the pre-mixing outlet pipe, the feed liquor check valve sets up in passageway I, and stirring vane links to each other with threaded disc, threaded disc and the inner wall threaded connection who mixes the case in advance, and threaded disc links to each other with connecting the piston rod, is equipped with on the connecting piston rod and takes protruding drive shaft groove, takes protruding drive shaft groove and takes protruding drive shaft sliding connection, takes protruding drive shaft to link to each other with shaft coupling II, and stoste case landing leg links to each other with the agitator tank, and the antiseptic solution entry is linked together with mixing the exit tube in advance, and mixing the exit tube in advance links to each other with the agitator tank.

As a further optimization of the technical scheme, the bearing seat I of the oil-water separation and purification device is provided with the through hole, so that oil in the fixed elbow can conveniently enter the oil storage tank.

The oil-water separation and purification device has the beneficial effects that:

the oil-water separation and purification device can separate oil from water, can add disinfectant and complete premixing, can fully contact water with the disinfectant, and can clean blockages without stopping.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first structural schematic diagram of an oil-water separation and purification device according to the present invention.

FIG. 2 is a schematic structural diagram of an oil-water separation and purification device according to the present invention.

FIG. 3 is a third schematic structural diagram of an oil-water separation and purification device according to the present invention.

FIG. 4 is a fourth schematic structural diagram of the oil-water separation and purification device of the present invention.

Fig. 5 is a first structural schematic diagram of the oil-water separation mechanism 1 of the oil-water separation and purification device of the present invention.

Fig. 6 is a second schematic structural diagram of the oil-water separation mechanism 1 of the oil-water separation purification device of the present invention.

Fig. 7 is a third schematic structural diagram of the oil-water separation mechanism 1 of the oil-water separation purification device of the present invention.

Fig. 8 is a fourth schematic structural diagram of the oil-water separation mechanism 1 of the oil-water separation purification apparatus of the present invention.

Fig. 9 is a first structural schematic diagram of the disinfecting and stirring mechanism 2 of the oil-water separating and purifying device of the present invention.

Fig. 10 is a second structural schematic diagram of the disinfecting and stirring mechanism 2 of the oil-water separating and purifying device of the present invention.

Fig. 11 is a third schematic structural view of the disinfecting and stirring mechanism 2 of the oil-water separating and purifying device of the present invention.

Fig. 12 is a fourth schematic structural view of the disinfecting and stirring mechanism 2 of the oil-water separating and purifying device of the present invention.

Fig. 13 is a fifth structural schematic view of the disinfecting and stirring mechanism 2 of the oil-water separating and purifying device of the present invention.

Fig. 14 is a sixth schematic structural view of the disinfecting and stirring mechanism 2 of the oil-water separating and purifying device of the present invention.

Fig. 15 is a first schematic structural view of a disinfectant premixing mechanism 3 of an oil-water separation and purification apparatus according to the present invention.

Fig. 16 is a second schematic structural view of a disinfectant premixing mechanism 3 of an oil-water separation and purification apparatus according to the present invention.

Fig. 17 is a third schematic structural view of a disinfectant premixing mechanism 3 of an oil-water separation and purification apparatus according to the present invention.

In the figure: an oil-water separation mechanism 1; a base 1-1; 1-2 of an oil storage tank; an oil outlet pipe 1-3; 1-4 of an oil outlet one-way valve; 1-5 of an overflow port; fixing the bent pipe 1-6; 1-7 of a coupler; 1-8 of a water inlet; 1-9 of a motor; 1-10 parts of a motor base; removing an oil tank from 1 to 11; 1-12 of a box cover; an outlet 1-13 of the oil tank; 1-14 of belts; belt pulley 1-15 with axle; bearing seats 1 to 16; connecting discs 1 to 17; 1-18 of oil scraping blades; hollow shafts 1 to 19; 1-20 of open pores; blades with shafts 1-21; bearing seats I1-22; a disinfection stirring mechanism 2; 2-1 of a hydraulic cylinder seat; 2-2 of a hydraulic cylinder; 2-3 of a hydraulic rod; 2-4 of a drainage channel; 2-5 of a water outlet; 2-6 of reinforcing cross braces; 2-7 of supporting legs; 2-8 parts of a fixed seat; pressing down the gate 2-9 with an inclined plane; 2-10 of a pushing seat with an inclined surface; 2-11 parts of a pipeline box; a piston rod 2-12; 2-13 parts of spring; 2-14 of support legs with seats; 2-15 parts of a fixed block; the hydraulic cylinder I2-16; hinge seats 2-17; articulated arms 2-18; fixing seats I2-19; 2-20 parts of a slide bar; 2-21 parts of a return spring; 2-22 of a chute; 2-23 of an air inlet seat; 2-24 parts of an air inlet pipe; 2-25 of a transfer case; 2-26 parts of a pull pipe; 2-27 parts of an air outlet pipe; transfer tubes 2-28; 2-29 of a sliding motor base; 2-30 of a driving motor; a coupler I2-31; 2-32 of a reel; 2-33 of a connecting rod; drive discs 2-34; a transfer pipe base 2-35; 2-36 parts of an air outlet pipe orifice; driven disks 2-37; 2-38 parts of a stirring box; 2-39 of a disinfectant inlet; 2-40 parts of vertical seats; resistance-opening hydraulic cylinders 2-41; a resistance hydraulic rod 2-42; linkage seats 2-43; step bars 2-44; 2-45 parts of a double-hole seat; 2-46 of linkage arm; 2-47 parts of a polished rod; springs I2-48; inlet pipes 2 to 49; 2-50 parts of belt pulley; 2-51 of a flywheel; chutes I2-52; a polish rod I2-53; springs II 2-54; 2-55 sliding blocks with threaded rods; 2-56 of internal thread counterweight plates; 2-57 of a main gate; 2-58 of a gate slot; limiting step rods 2-59; 2-60 parts of supporting springs; 2-61 of a stepped hole; a sliding groove II 2-62; switching the closed grooves 2-63; 2-64 of a dredging piston; 2-65 of a stirring wheel with a shaft; 2-66 of a rotating seat; gears 2-67; sun gears 2-68; 2-69 vertical chutes; connecting shafts 2-70; 2-71 of a matching hole; sliding bearing seats 2-72; articulated arm I2-73; articulated arms 2-74 with shafts; vertical chutes I2-75; arc friction disks 2-76; inner pistons 2-77; air inlet check valves 2-78; 2-79 parts of an air outlet one-way valve; 2-80 parts of a limiting disc; connecting shafts 2-81 with bulges; a return spring I2-82; 2-83 of a driving lug; the matching holes I2-84; driving the slot 2-85; bearing seats II 2-86; bearing seats III 2-87; 2-88 of filter openings; 2-89 of a filter plate; a disinfectant premixing mechanism 3; 3-1 of stock solution tank supporting legs; the communicating pipe 3-2; 3-3 of stock solution tank; 3-4 parts of stock solution supplementing port; 3-5 of secondary support; a coupler II 3-6; 3-7 of a servo motor; connecting a piston rod 3-8; 3-9 parts of a premixing tank; a premixed pipe 3-10; channel I3-11; liquid outlet one-way valve 3-12; 3-13 parts of a liquid inlet one-way valve; 3-14 parts of stirring blades; 3-15 of a threaded disc; a drive shaft 3-16 with a projection; with raised drive shaft slots 3-17.

Detailed Description

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and fig. 17, and the present invention relates to a purification apparatus, and more specifically to an oil-water separation purification apparatus including an oil-water separation mechanism 1, a disinfection agitation mechanism 2, and a disinfectant premixing mechanism 3, and the apparatus is capable of performing oil-water separation, adding a disinfectant and completing premixing, allowing water and a disinfectant to sufficiently contact, and cleaning up a blockage without shutdown.

The oil-water separating mechanism 1 is connected with the disinfecting and stirring mechanism 2, and the disinfecting and stirring mechanism 2 is connected with the disinfectant premixing mechanism 3.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and fig. 17, and the present embodiment further describes the first embodiment, where the oil-water separating mechanism 1 includes a base 1-1, an oil storage tank 1-2, an oil outlet pipe 1-3, an oil outlet check valve 1-4, an overflow port 1-5, a fixed bent pipe 1-6, a coupling 1-7, a water inlet 1-8, a motor 1-9, a motor base 1-10, a deoiling tank 1-11, a tank cover 1-12, a deoiling tank outlet 1-13, a belt 1-14, a belt pulley 1-15, a bearing base 1-16, a connecting disc 1-17, an oil scraping blade 1-18, a connecting disc 1-11, and a connecting disc, Hollow shaft 1-19, opening 1-20, blade with shaft 1-21, bearing seat I1-22, base 1-1 is connected with oil storage tank 1-2, oil outlet pipe 1-3 is set on oil storage tank 1-2, oil outlet one-way valve 1-4 is set in oil outlet pipe 1-3, overflow port 1-5 is connected and communicated with oil storage tank 1-2, fixed bent pipe 1-6 is connected and communicated with oil storage tank 1-2, motor 1-9 is connected with blade with shaft 1-21 through coupling 1-7, motor 1-9 is connected with motor seat 1-10, motor seat 1-10 is connected with oil removing tank 1-11, water inlet 1-8 is connected and communicated with oil removing tank 1-11, tank cover 1-12 is connected with oil removing tank 1-11, oil removing tank outlet 1-13 is set on oil removing tank 1-11, the belt 1-14 is connected with the belt pulley 1-15 by friction, the bearing seat 1-16 is connected with the oil removing box 1-11, the belt pulley 1-15 is connected with the bearing seat 1-16 by rotation, the connecting disc 1-17 is connected with the oil scraping blade 1-18, the oil scraping blade 1-18 is connected with the hollow shaft 1-19, the hollow shaft 1-19 is connected with the connecting disc 1-17, the hollow shaft 1-19 is connected with the oil removing box 1-11 by rotation, the hollow shaft 1-19 is connected with the belt pulley 1-15, the opening 1-20 is arranged on the hollow shaft 1-19, the hollow shaft 1-19 is connected with the fixed elbow 1-6 by rotation, the belt blade 1-21 is connected with the bearing seat I1-22 by rotation, the bearing seat I1-22 is connected with the fixed elbow 1-6, the waste water needing oil-water separation enters the oil removing box 1-11 from the water inlet 1-8, the driving motor 2-30 is operated to drive the coupling I2-31 to rotate, the coupling I2-31 drives the belt shaft disc 2-32 to rotate, the belt shaft disc 2-32 drives the driving disc 2-34 to rotate, the driving disc 2-34 drives the driven disc 2-37 to rotate through the driving bulge 2-83, the driven disc 2-37 drives the rotating seat 2-66 to rotate, the rotating seat 2-66 drives the belt shaft stirring wheel 2-65 to rotate, the driving disc 2-34 also drives the connecting shaft 2-81 with bulge to rotate during rotation, the connecting shaft 2-81 with bulge drives the central gear 2-68 and the rotating seat 2-66 to rotate synchronously, at the moment, the central gear 2-68 and the rotating seat 2-66 do not rotate in a differential mode, the central gear 2-68 drives the belt pulley 2-50 to rotate through the connecting shaft 2-70, the belt pulley 2-50 drives the belt pulley 1-15 to rotate through the belt 1-14, the belt pulley 1-15 drives the hollow shaft 1-19 to rotate, the hollow shaft 1-19 drives the oil scraping blade 1-18 to rotate, the rotating direction is clockwise seen from the oil outlet pipe 1-3 to the oil removing box 1-11, in the process that sewage enters from the water inlet 1-8 and flows to the outlet 1-13 of the oil removing box, oil floats on the water surface, the rotating oil scraping blade 1-18 scrapes the oil and then flows along the oil scraping blade 1-18, and after contacting the hollow shaft 1-19, the sewage flows into the hollow shaft 1-19 along the opening 1-20 The operation of the motor 1-9 is synchronous with the driving of the motor 2-30, the motor 1-9 can drive the shaft coupling 1-7 to rotate, the shaft coupling 1-7 can drive the shaft-carrying blade 1-21 to rotate, the shaft-carrying blade 1-21 can rotate to form wind power, the wind direction is from top to bottom, thus the oil flowing into the hollow shaft 1-19 is attracted in the flowing process, the oil scraping process is high-efficient, meanwhile, the oil is quickly sucked into the fixed bent pipe 1-6 and then flows into the oil storage tank 1-2 at an accelerated speed, the oil collection can be accelerated, the oil can be flushed out of the oil outlet one-way valve 1-4 to flow out after the oil is full, the oil can be collected in the external collection container of the oil outlet pipe 1-3, and the temperature in the oil storage tank 1-2 can be taken away from the overflow port 1-5 due to the action of the wind power, therefore, the risk of oil fire can be reduced, the overflow ports 1-5 can discharge excessive oil overflow when the oil outlet one-way valves 1-4 are invalid, and the safety of the device is improved.

The third concrete implementation mode:

the embodiment is described in conjunction with fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, and the embodiment further describes that the disinfecting and stirring mechanism 2 comprises a hydraulic cylinder base 2-1, a hydraulic cylinder 2-2, a hydraulic rod 2-3, a drainage channel 2-4, a drainage port 2-5, a reinforcing cross-brace 2-6, a leg 2-7, a fixed base 2-8, a downward gate with an inclined surface 2-9, a pushing base with an inclined surface 2-10, a pipe box 2-11, a piston rod 2-12, a spring 2-13, a leg with a base 2-14, a fixed block 2-15, a hydraulic cylinder I2-16, a hinged base 2-17, a hinged arm 2-18, a water tank 2-11, a water tank 2-12, a spring 2-13, a fixed block 2-15, a water tank I2-16, Fixing seat I2-19, slide bar 2-20, reset spring 2-21, slide groove 2-22, air inlet seat 2-23, air inlet pipe 2-24, transfer box 2-25, drawing pipe 2-26, air outlet pipe 2-27, transfer pipe 2-28, slide motor seat 2-29, driving motor 2-30, coupling I2-31, shaft disk 2-32, connecting rod 2-33, driving disk 2-34, transfer pipe seat 2-35, air outlet pipe opening 2-36, driven disk 2-37, stirring box 2-38, disinfectant inlet 2-39, vertical seat 2-40, through-resistance hydraulic cylinder 2-41, through-resistance hydraulic rod 2-42, linkage seat 2-43, ladder rod 2-44, seat 2-45 with double holes, linkage arm 2-46, 2-47 parts of a polish rod, 2-49 parts of a spring I2-48 parts of an inlet pipe, 2-50 parts of a belt pulley, 2-51 parts of a flywheel, I2-52 parts of a sliding chute, I2-53 parts of a polish rod, II2-54 parts of a spring, 2-55 parts of a threaded rod sliding block, 2-56 parts of a counterweight plate with internal threads, 2-57 parts of a total gate, 2-58 parts of a gate groove, 2-59 parts of a limit stepped rod, 2-60 parts of a supporting spring, 2-61 parts of a stepped hole, II2-62 parts of a sliding chute, 2-63 parts of a switching closed groove, 2-64 parts of a desilting piston, 2-65 parts of a stirring wheel with a shaft, 2-66 parts of a rotating seat, 2-67 parts of a gear, 2-68 parts of a central gear, 2-69 parts of a vertical sliding chute, 2-70 parts of a connecting shaft, 2-71 parts of a matching hole, 2-72 parts of a sliding bearing seat, I2-73 part of an articulated arm, 2-74 parts of an articulated arm with a shaft, The device comprises vertical sliding grooves I2-75, arc friction discs 2-76, inner pistons 2-77, air inlet one-way valves 2-78, air outlet one-way valves 2-79, limiting discs 2-80, connecting shafts 2-81 with protrusions, return springs I2-82, driving protrusions 2-83, matching holes I2-84, driving grooves 2-85, bearing blocks II2-86, bearing blocks III2-87, filter ports 2-88 and filter plates 2-89, a hydraulic cylinder seat 2-1 is connected with a hydraulic cylinder 2-2, the hydraulic cylinder 2-2 is connected with a hydraulic rod 2-3, the hydraulic rod 2-3 is connected with a main gate 2-57, the main gate 2-57 is connected with a gate groove 2-58 in a sliding manner, the gate groove 2-58 is arranged on a drainage channel 2-4, a drainage port 2-5 is arranged on the drainage channel 2-4, the reinforced cross brace 2-6 is connected with the supporting leg 2-7, the supporting leg 2-7 is connected with the fixed seat 2-8, the fixed seat 2-8 is provided with a sliding groove II2-62, the push seat 2-10 with the inclined surface is connected with the sliding groove II2-62 in a sliding way, the push seat 2-10 with the inclined surface is contacted with the lower pressing gate 2-9 with the inclined surface, the pipe box 2-11 with the pipe is connected and communicated with the drainage channel 2-4, the piston rod 2-12 is connected with the pipe box 2-11 with the pipe in a sliding way, the spring 2-13 is sleeved on the piston rod 2-12, two ends of the spring 2-13 are respectively connected with the pipe box 2-11 with the double-hole seat 2-45, the supporting leg 2-14 with the seat is connected with the fixed seat I2-19, the fixed block 2-15 is connected with the stirring box 2-38, the fixed block 2-15 is connected with the hydraulic cylinder I2-16, the hydraulic cylinder I2-16 is connected with a hinge base 2-17, the hinge base 2-17 is hinged with a hinge arm 2-18, the hinge arm 2-18 is hinged with a sliding motor base 2-29, a fixing base I2-19 is provided with a sliding chute 2-22, the sliding motor base 2-29 is connected with the sliding chute 2-22 in a sliding way, a sliding rod 2-20 is connected with a sliding motor base 2-29, a return spring 2-21 is sleeved on the sliding rod 2-20, two ends of the return spring 2-21 are respectively connected with the sliding motor base 2-29 and the fixing base I2-19, an air inlet base 2-23 is connected and communicated with an air inlet pipe 2-24, the air inlet pipe 2-24 is connected and communicated with a transfer case 2-25, the transfer case 2-25 is connected and communicated with a drawing pipe 2-26, the drawing pipe 2-26 is connected with the fixing base I2-19, the transfer case 2-25 is connected and communicated with the air outlet pipe 2-27, the air outlet pipe 2-27 is connected and communicated with the transfer pipe 2-28, the sliding motor base 2-29 is connected with the driving motor 2-30, the driving motor 2-30 is connected with the belt shaft disc 2-32 through the shaft coupling I2-31, the belt shaft disc 2-32 is rotationally connected with the sliding motor base 2-29, the belt shaft disc 2-32 is connected with the connecting rod 2-33, the connecting rod 2-33 is connected with the driving disc 2-34, the transfer pipe base 2-35 is connected with the transfer pipe 2-28, the transfer pipe base 2-35 is connected with the stirring case 2-38, the air outlet pipe 2-36 is arranged on the transfer pipe 2-28, the driven disc 2-37 is contacted with the driving disc 2-34, the stirring case 2-38 is provided with the disinfectant inlet 2-39, the vertical seat 2-40 is connected with the stirring box 2-38, the resistance-through hydraulic cylinder 2-41 is connected with the vertical seat 2-40, the resistance-through hydraulic cylinder 2-41 is connected with the resistance-through hydraulic rod 2-42, the resistance-through hydraulic rod 2-42 is connected with the linkage seat 2-43, the linkage seat 2-43 is connected with the step rod 2-44, the step rod 2-44 is connected with the seat 2-45 with double holes in a sliding way, the seat 2-45 with double holes is connected with the piston rod 2-12, the linkage arm 2-46 is hinged with the linkage seat 2-43, the linkage arm 2-46 is hinged with the push seat 2-10 with inclined plane, the polish rod 2-47 is connected with the fixed seat 2-8, the polish rod 2-47 is connected with the push seat 2-10 with inclined plane in a sliding way, the spring I2-48 is sleeved on the polish rod 2-47, two ends of a spring I2-48 are respectively connected with a push seat 2-10 with an inclined plane and a fixed seat 2-8, an inlet pipe 2-49 is connected and communicated with a stirring box 2-38, a belt pulley 2-50 is connected with a connecting shaft 2-70, a flywheel 2-51 is connected with a rotating seat 2-66, a sliding chute I2-52 is arranged on the flywheel 2-51, a polish rod I2-53 is connected with the flywheel 2-51, a spring II2-54 is sleeved on the polish rod I2-53, two ends of a spring II2-54 are respectively connected with the flywheel 2-51 and a slide block 2-55 with a threaded rod, a slide block 2-55 with a threaded rod is connected with the sliding chute I2-52 in a sliding manner, the slide block 2-55 with the polish rod I2-53 in a sliding manner, the slide block 2-55 with the threaded rod is connected with a balance weight piece 2-56 with an internal thread, the limiting step rod 2-59 is connected with the drainage channel 2-4, the supporting spring 2-60 is sleeved on the limiting step rod 2-59, two ends of the supporting spring 2-60 are respectively connected with the drainage channel 2-4 and the downward pressing gate with an inclined plane 2-9, the stepped hole 2-61 is arranged on the downward pressing gate with an inclined plane 2-9, the limiting step rod 2-59 is connected with the stepped hole 2-61 in a sliding way, the switching closed groove 2-63 is arranged on the drainage channel 2-4, the downward pressing gate with an inclined plane 2-9 is connected with the switching closed groove 2-63 in a sliding way, the dredging piston 2-64 is connected with the piston rod 2-12, the dredging piston 2-64 is connected with the pipeline box 2-11 in a sliding way, the stirring wheel with a shaft 2-65 is connected with the sliding bearing seat 2-72 in a rotating way, the rotary seats 2-66 are rotatably connected with the stirring boxes 2-38, the gears 2-67 are meshed with the central gears 2-68, the vertical sliding chutes 2-69 are arranged on the vertical seats 2-40, the vertical sliding chutes 2-69 are slidably connected with the linkage seats 2-43, the connecting shafts 2-70 are rotatably connected with the bearing seats II2-86, the rotary seats 2-66 and the driven discs 2-37 are respectively provided with the bearing seats II2-86, the central gears 2-68 are connected with the connecting shafts 2-70, the matching holes 2-71 are arranged on the rotary seats 2-66, the sliding bearing seats 2-72 are slidably connected with the matching holes 2-71, the sliding bearing seats 2-72 are hinged with the hinged arms I2-73, the hinged arms I2-73 are hinged with the hinged arms 2-74 with the shafts, the hinged arms 2-74 with the shafts are connected with the gears 2-67, articulated arms 2-74 with shafts are rotatably connected with bearing seats III2-87, the bearing seats III2-87 are arranged on rotating seats 2-66, vertical sliding chutes I2-75 are arranged on stirring boxes 2-38, hinged seats 2-17 are slidably connected with vertical sliding chutes I2-75, arc-shaped friction disks 2-76 are connected with hinged seats 2-17, inner pistons 2-77 are connected with sliding rods 2-20, sliding rods 2-20 are slidably connected with fixed seats I2-19, inner pistons 2-77 are slidably connected with drawing pipes 2-26, air inlet one-way valves 2-78 are arranged in air inlet pipes 2-24, air outlet one-way valves 2-79 are arranged in air outlet pipes 2-27, limiting disks 2-80 are connected with connecting shafts 2-81 with bulges, connecting shafts 2-81 with bulges are connected with central gears 2-68, the connection shaft 2-81 with the bulge is rotationally connected with the bearing seat II2-86, the return spring I2-82 is sleeved on the connection shaft 2-81 with the bulge, the two ends of the return spring I2-82 are respectively connected with the limiting disc 2-80 and the driving disc 2-34, the driving disc 2-34 is provided with the driving bulge 2-83, the driving bulge 2-83 is glidingly connected with the matching hole I2-84, the matching hole I2-84 is arranged on the driven disc 2-37, the driven disc 2-37 is connected with the rotating seat 2-66, the driving notch 2-85 is arranged on the driving disc 2-34, the filter opening 2-88 is arranged on the air inlet seat 2-23, the filter plate 2-23 is glidingly connected with the air inlet seat 2-89, the hydraulic cylinder seat 2-1 is connected with the base 1-1, the drainage channel 2-4 is connected with the base 1-1, the reinforced cross brace 2-6 is connected with the base 1-1, the pipe box 2-11 with the pipe is connected with the base 1-1, the support leg 2-14 with the seat is connected with the base 1-1, the stirring box 2-38 is connected with the base 1-1, the inlet pipe 2-49 is communicated with the oil removal box outlet 1-13, the inlet pipe 2-49 is connected with the oil removal box 1-11, the belt 1-14 is connected with the belt pulley 2-50 in a friction mode, the stirring box 2-38 is connected and communicated with the pipe box 2-11 with the pipe, the rotating seat 2-66 can drive the stirring wheel 2-65 with the shaft to carry out circular motion in the rotating process, the water after oil removal flows into the stirring box 2-38 from the inlet pipe 2-49, the pressurized disinfection mixed liquid can be flushed into the water, and the stirring wheel 2-65 with the shaft can generate self-mixed liquid when meeting the resistance of the water and the disinfection liquid in the rotating process of the rotating seat 2-66 with the shaft The rotation of the stirring wheel 2-65 with the shaft can fully stir the water and the disinfection mixed liquid, the rotation of the rotating seat 2-66 can play a role of stirring, thereby enhancing the stirring effect, ensuring that the disinfection liquid is fully contacted with the water, playing a role of disinfection, when the flywheel 2-51 rotates along with the rotating seat 2-66, the slide block 2-55 with the threaded rod can slide towards the circumferential outward direction under the action of centrifugal force, thereby further playing a role of energy storage, in the stirring process, the hydraulic cylinder I2-16 drives the hinge seat 2-17 to move upwards, the hinge seat 2-17 can push the sliding motor seat 2-29 through the hinge arm 2-18, the sliding motor seat 2-29 can drive the shaft disc 2-32 to move, the shaft disc 2-32 can drive the driving lug 2-83 to be separated from the matching hole I2-84, at the moment, the rotation of the rotating seat 2-66 loses power, but under the action of the rotational inertia of the flywheel 2-51, the rotating seat 2-66 still continues to rotate, the rotating seat 2-66 still rotates for stirring, but the speed gradually decreases, the driving disc 2-34 continues to rotate along with the driving of the driving motor 2-30, the driving disc 2-34 drives the connecting shaft 2-81 with the bulge to continue to rotate at the original speed, so that the connecting shaft 2-81 with the bulge and the rotating seat 2-66 rotate to form a speed difference, the connecting shaft 2-81 with the bulge drives the central gear 2-68 and the rotating seat 2-66 to rotate relatively, the central gear 2-68 drives the gear 2-67 to rotate, and the gear 2-67 drives the articulated arm 2-74 with the shaft to rotate, the articulated arm 2-74 with the shaft drives the sliding bearing seat 2-72 to reciprocate up and down through the articulated arm I2-73, the sliding bearing seat 2-72 can drive the rotating stirring wheel 2-65 with the shaft to keep a certain amount of reciprocating motion in the circumferential direction, thus on the basis of the original range of the rotating stirring of the stirring wheel 2-65 with the shaft, the moving range of the stirring wheel 2-65 with the shaft is increased, the stirring range and the agitation degree are enlarged, and the contact degree of disinfectant and water is improved, in the process, the sliding motor seat 2-29 can drive the inner piston 2-77 to move through the sliding rod 2-20, the inner piston 2-77 can compress the air in the pull pipe 2-26 and the middle rotating box 2-25, so that the air is pressurized and flushed out of the air outlet one-way valve 2-79, and the air is blown out of the air outlet pipe mouth 2-36 through the transfer pipe 2-28, the air can take away heat and dust between the driving disks 2-34 and the driven disks 2-37, play a role in cleaning air, and avoid scratches generated when the driving disks 2-34 and the driven disks 2-37 are contacted again, if the hinged seats 2-17 continuously move upwards, the arc friction disks 2-76 are driven to be attached to the driven disks 2-37, so that the stopping speed of the driven disks 2-37 can be increased, the rotating seats 2-66 can be stopped quickly, and in the process of emergency deceleration, the springs II2-54 can rebound to drive the sliders 2-55 with threaded rods to reset through the rapid power attenuation, so that the rotational inertia can be counteracted through fast reading, and the emergency stop is also facilitated, no matter whether the rotating seats 2-66 need to be stopped suddenly or not, the driving disks 2-34 can always drive the connecting shafts 2-81 with bulges to rotate, the connecting shaft 2-81 with the bulge can drive the connecting shaft 2-70 to rotate through the central gear 2-68, the connecting shaft 2-70 can drive the belt pulley 2-50 to rotate, the belt pulley 2-50 keeps rotating, so that the stable oil scraping process is ensured, the linkage and the independence of independent work of equipment are ensured, the switching of the working state is convenient, the convenience is improved, when the hydraulic cylinder I2-16 drives the hinged seat 2-17 to reset, the inner piston 2-77 can reset, the pressure in the pull pipe 2-26 is reduced, so that the outside air is sucked from the filtering port 2-88, the air is supplemented into the transfer box 2-25 from the air inlet one-way valve 2-78 after being filtered by the filter plate 2-89, the next spraying is convenient, and the air sprayed and cleaned each time is clean, the cleaning quality is also ensured, after disinfection is finished, the hydraulic cylinder 2-2 can drive the hydraulic rod 2-3 to pull the main gate 2-57, so that disinfected water can be drained from the drainage port 2-5, when any one of the drainage channel 2-4 and the pipeline box 2-11 is blocked, the linkage seat 2-43 can be driven by the through-resistance hydraulic cylinder 2-41 to push the through-resistance hydraulic rod 2-42 downwards under the condition of no shutdown regardless of whether the main gate 2-57 is in an open state, the linkage seat 2-43 can push the inclined plane pushing seat 2-10 through the linkage arm 2-46, the inclined plane pushing seat 2-10 slides in the chute II2-62 to push the inclined plane pressing gate 2-9 to drive the inclined plane pressing gate 2-9 to move downwards through the inclined plane pressing gate 2-9, the switching closed slot 2-63 is blocked by pressing the gate 2-9 with the inclined plane, when the switching closed slot 2-63 is blocked, the linkage seat 2-43 just contacts with the double-hole seat 2-45, so as to drive the double-hole seat 2-45 to move downwards, the double-hole seat 2-45 drives the dredging piston 2-64 to move downwards through the piston rod 2-12, the dredging piston 2-64 can wholly pressurize a communicating cavity formed by the stirring box 2-38, the pipeline box 2-11 and the drainage channel 2-4, so that the blocked place can be naturally opened by pressure, then the communicating hydraulic blocking rod 2-42 moves reversely to drive the linkage seat 2-43 to reset, the support spring 2-60 compressed in the downward movement process of the gate 2-9 with the inclined plane can drive the gate 2-9 with the inclined plane to reset, the pushing seat 2-10 with the inclined surface can also reset under the dual actions of the springs I2-48 and the linkage arms 2-46, the cleaning process is completed, and the main gate 2-57 is opened to discharge the cleaned blockage.

The fourth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and fig. 17, and the present embodiment further describes the first embodiment, where the disinfectant premixing mechanism 3 includes a stock solution tank leg 3-1, a communicating pipe 3-2, a stock solution tank 3-3, a stock solution replenishing port 3-4, a secondary support 3-5, a coupling II3-6, a servo motor 3-7, a connecting piston rod 3-8, a premixing tank 3-9, a premixing outlet pipe 3-10, a passage I3-11, a liquid outlet check valve 3-12, a liquid inlet check valve 3-13, a stirring vane 3-14, a threaded disc 3-15, a drive shaft with a protrusion 3-16, and a drive shaft groove with a protrusion 3-17, a stock solution tank supporting leg 3-1 is connected with a stock solution tank 3-3, a communicating pipe 3-2 communicates the stock solution tank 3-3 with a channel I3-11, the stock solution tank 3-3 is provided with a stock solution replenishing port 3-4, a secondary support 3-5 is connected with a premixing tank 3-9, a coupler II3-6 is connected with a servo motor 3-7, the servo motor 3-7 is connected with the secondary support 3-5, a connecting piston rod 3-8 is in threaded connection with the premixing tank 3-9, a premixing outlet pipe 3-10 is connected with the premixing tank 3-9, a channel I3-11 is arranged at two sides of the premixing tank 3-9, a liquid outlet one-way valve 3-12 is arranged in the premixing outlet pipe 3-10, a liquid inlet one-way valve 3-13 is arranged in the channel I3-11, a stirring blade 3-14 is connected with a threaded disc 3-15, the threaded disc 3-15 is connected with the inner wall of the premixing box 3-9 through threads, the threaded disc 3-15 is connected with a connecting piston rod 3-8, a driving shaft groove 3-17 with a protrusion is arranged on the connecting piston rod 3-8, the driving shaft groove 3-17 with the protrusion is connected with a driving shaft 3-16 with the protrusion in a sliding way, the driving shaft 3-16 with the protrusion is connected with a coupler II3-6, a stock solution box supporting leg 3-1 is connected with a stirring box 2-38, a disinfectant inlet 2-39 is communicated with a premixing outlet pipe 3-10, the premixing outlet pipe 3-10 is connected with the stirring box 2-38, different stock solution supplementing ports 3-4 are respectively connected with different inlet pipes capable of continuously adding disinfectant stock solution before the device is used, and the coupler II3-6 is driven to rotate when a servo motor 3-7 runs in the forward direction, the coupler II3-6 can drive the drive shaft 3-16 with the protrusion to rotate, the drive shaft 3-16 with the protrusion can drive the connecting piston rod 3-8 to rotate, the connecting piston rod 3-8 can drive the threaded disc 3-15 to rotate, the connecting piston rod 3-8 and the drive threaded disc 3-15 are both in threaded connection with the premixing tank 3-9, so that the threaded disc 3-15 can rotate downwards and the threaded disc 3-15 can rotate downwards to pressurize the inside of the premixing tank 3-9 in the rotating process, and accordingly the original air is discharged from the liquid outlet one-way valve 3-12 to be pressurized and enter the stirring tank 2-38, then the servo motor 3-7 is operated reversely, the threaded disc 3-15 can rotate upwards, the pressure in the premixing tank 3-9 is reduced, disinfectant stock solution in stock solution tanks 3-3 at two sides can rush open a liquid inlet check valve 3-13 and enter a premixing tank 3-9, and the flow directions of the disinfectant stock solution and the liquid inlet check valve are opposite to each other, so that two kinds of liquid can form convection when entering the premixing tank 3-9, thereby completing the first-step premixing, when a servo motor 3-7 rotates forward again, a threaded disc 3-15 can rotate downward, when the pressurization of mixed solution is completed, a stirring blade 3-14 can stir the liquid to a certain degree, thereby forming secondary stirring in the process of pressurizing and spraying the liquid from a liquid outlet check valve 3-12, and the pressurizing process can also intensify the liquid flow, thereby forming third-level mixing, so that the disinfectant stock solution is fully mixed and then sprayed into a stirring tank 2-38, and the disinfectant stock solution has a certain pressure when sprayed out, thereby the disinfection mixed liquid and the water after deoiling form certain impact, and the disinfectant is convenient to be rapidly blended into the water for disinfection.

The fifth concrete implementation mode:

the first embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and fig. 17, in which through holes are provided in the bearing seats I1-22 to facilitate the oil in the fixed elbow pipes 1-6 to enter the oil storage tanks 1-2.

The working principle of the device is as follows: the device can separate oil from water, wastewater needing oil-water separation enters the oil removing box 1-11 from the water inlet 1-8, the driving motor 2-30 is operated to drive the coupler I2-31 to rotate, the coupler I2-31 can drive the belt shaft disc 2-32 to rotate, the belt shaft disc 2-32 can drive the driving disc 2-34 to rotate, the driving disc 2-34 can drive the driven disc 2-37 to rotate through the driving bulge 2-83, the driven disc 2-37 can drive the rotating seat 2-66 to rotate, the rotating seat 2-66 can drive the belt shaft stirring wheel 2-65 to rotate, the driving disc 2-34 can also drive the connecting shaft 2-81 with the bulge to rotate during rotation, the connecting shaft 2-81 with the bulge can drive the central gear 2-68 and the rotating seat 2-66 to rotate synchronously, at the moment, the central gear 2-68 and the rotating seat 2-66 do not rotate in a differential mode, the central gear 2-68 drives the belt pulley 2-50 to rotate through the connecting shaft 2-70, the belt pulley 2-50 drives the belt pulley 1-15 to rotate through the belt 1-14, the belt pulley 1-15 drives the hollow shaft 1-19 to rotate, the hollow shaft 1-19 drives the oil scraping blade 1-18 to rotate, the rotating direction is clockwise seen from the oil outlet pipe 1-3 to the oil removing box 1-11, in the process that sewage enters from the water inlet 1-8 and flows to the outlet 1-13 of the oil removing box, oil floats on the water surface, the rotating oil scraping blade 1-18 scrapes the oil and then flows along the oil scraping blade 1-18, and after contacting the hollow shaft 1-19, the sewage flows into the hollow shaft 1-19 along the opening 1-20 The operation of the motors 1-9 is synchronous with the driving of the motors 2-30, the motors 1-9 can drive the couplers 1-7 to rotate, the couplers 1-7 can drive the blades 1-21 with shafts to rotate, the blades 1-21 with shafts can rotate to form wind power, the wind direction is from top to bottom, so that the oil flowing into the hollow shafts 1-19 is attracted in the flowing process, the oil scraping process is efficient, meanwhile, the oil is attracted by the attraction, can be quickly sucked into the fixed bent pipes 1-6 and then quickly flows into the oil storage tanks 1-2, the oil collection can be accelerated, the oil can be flushed out of the oil outlet check valves 1-4 to flow out after the oil is full, the oil can be collected by an external collection container of the oil outlet pipes 1-3, and the temperature in the oil storage tanks 1-2 can be taken away from the overflow ports 1-5 due to the action of the wind power, therefore, the risk of oil fire can be reduced, the overflow ports 1-5 can discharge excessive oil overflow when the oil outlet one-way valves 1-4 fail, and the safety of the device is improved; the device can add disinfectant and complete premixing, different stock solution supplementing ports 3-4 are respectively connected with different inlet pipes which can continuously add disinfectant stock solution before the device is used, when a servo motor 3-7 runs in the forward direction, a coupler II3-6 is driven to rotate, a coupler II3-6 drives a drive shaft 3-16 with a protrusion to rotate, a drive shaft 3-16 with the protrusion drives a connecting piston rod 3-8 to rotate, the connecting piston rod 3-8 drives a threaded disc 3-15 to rotate, and the connecting piston rod 3-8 and the drive threaded disc 3-15 are both in threaded connection with a premixing box 3-9, so that the threaded disc 3-15 rotates downwards and the threaded disc 3-15 rotates downwards to pressurize the inside of the premixing box 3-9 in the rotating process, so that the original air is pressurized and discharged from the liquid outlet one-way valve 3-12 to enter the stirring tank 2-38, then the servo motor 3-7 is operated in reverse direction, the threaded disc 3-15 rotates upwards, the pressure in the premixing tank 3-9 is reduced, the disinfectant stock solution in the stock solution tanks 3-3 at two sides can rush the liquid inlet one-way valve 3-13 to enter the premixing tank 3-9, and the flow directions of the two are opposite flow, thus leading the two liquids to form convection when entering the premixing tank 3-9, thereby completing the first-step premixing, when the servo motor 3-7 rotates in forward direction again, the threaded disc 3-15 rotates downwards, and when the mixed liquid is pressurized, the stirring blades 3-14 can stir the liquid to a certain degree, thereby in the process of pressurizing and spraying the liquid from the liquid outlet one-way valve 3-12, the second-level stirring can be formed, the liquid flow can be aggravated in the pressurizing process, so that the third-level mixing is formed, the disinfectant stock solution is fully mixed and then sprayed into the stirring boxes 2-38, and certain pressure is provided during spraying, so that the disinfectant mixed solution and the deoiled water form certain impact, and the disinfectant can be conveniently and quickly blended into the water for disinfection; the device can make water and disinfectant fully contact, the rotating seat 2-66 can drive the shaft stirring wheel 2-65 to make circular motion in the rotating process, the deoiled water flows into the stirring box 2-38 from the inlet pipe 2-49, the pressurized disinfection mixed liquid can be flushed into the water, the shaft stirring wheel 2-65 can encounter the liquid resistance of the water and the disinfection mixed liquid to generate autorotation in the rotating process along with the rotating seat 2-66, the autorotation of the shaft stirring wheel 2-65 can fully stir the water and the disinfection mixed liquid, meanwhile, the rotating seat 2-66 can also play a role in stirring, so that the stirring effect is enhanced, the disinfectant and the water are fully contacted, the disinfection effect is achieved, when the flywheel 2-51 rotates along with the rotating seat 2-66, the threaded rod sliding block 2-55 can slide in the outward direction of the circumference under the action of centrifugal force, therefore, the energy storage function is further achieved, in the stirring process, the hydraulic cylinders I2-16 drive the hinge bases 2-17 to move upwards, the hinge bases 2-17 push the sliding motor bases 2-29 through the hinge arms 2-18, the sliding motor bases 2-29 drive the belt shaft discs 2-32 to move, the belt shaft discs 2-32 drive the driving protrusions 2-83 to be separated from the matching holes I2-84, at the moment, the rotation of the rotating bases 2-66 loses power, under the action of the rotation inertia of the flywheels 2-51, the rotating bases 2-66 still continue to rotate, the rotating bases 2-66 still rotate to stir, but the speed gradually decreases, the driving discs 2-34 continue to rotate along with the driving of the driving motors 2-30, the driving discs 2-34 drive the belt protrusions 2-81 to continue to rotate at the original speed, thus, the speed difference is formed between the connection shaft 2-81 with the bulge and the rotation of the rotating seat 2-66, the connection shaft 2-81 with the bulge can drive the central gear 2-68 and the rotating seat 2-66 to rotate relatively, the central gear 2-68 can drive the gear 2-67 to rotate, the gear 2-67 can drive the articulated arm 2-74 with the shaft to rotate, the articulated arm 2-74 with the shaft can drive the sliding bearing seat 2-72 to reciprocate up and down through the articulated arm I2-73, the sliding bearing seat 2-72 can drive the rotating stirring wheel 2-65 with the shaft to keep a certain amount of reciprocating motion in the circumferential direction, thus on the basis of the original rotating and stirring range of the stirring wheel 2-65 with the shaft, the movable range of the stirring wheel 2-65 with the shaft is increased, and the stirring range and the agitation degree are expanded, therefore, the contact degree of the disinfectant and water is improved, in the process, the sliding motor base 2-29 drives the inner piston 2-77 to move through the sliding rod 2-20, the inner piston 2-77 compresses air in the pull pipe 2-26 and the middle rotating box 2-25, so that the air is pressurized and flushed out of the air outlet one-way valve 2-79, the air is blown out from the air outlet pipe opening 2-36 through the transmission pipe 2-28, the part of air can take away heat and dust between the driving disk 2-34 and the driven disk 2-37, the air cleaning effect is achieved, scratches generated when the driving disk 2-34 and the driven disk 2-37 are contacted again are avoided, if the hinged base 2-17 continues to move upwards, the arc friction disk 2-76 is driven to be attached to the driven disk 2-37, and the stop speed of the driven disk 2-37 can be accelerated, thereby enabling the rotating seat 2-66 to stop rapidly, in the process of emergency deceleration, the rapid attenuation of power can enable the spring II2-54 to rebound to drive the slider 2-55 with the threaded rod to reset, thereby rapidly reading and offsetting the rotary inertia, and being also beneficial to emergency stop, no matter whether the rotating seat 2-66 needs to stop urgently, the driving disc 2-34 can always drive the connecting shaft 2-81 with the bulge to rotate, the connecting shaft 2-81 with the bulge can drive the connecting shaft 2-70 to rotate through the central gear 2-68, the connecting shaft 2-70 can drive the belt pulley 2-50 to rotate, the belt pulley 2-50 keeps rotating, thereby ensuring the stable oil scraping process, further ensuring the linkage of the equipment and the independence of independent work, being convenient for the switching of working states, and improving the convenience, when the hydraulic cylinder I2-16 drives the hinged seat 2-17 to reset, the inner piston 2-77 also resets, the pressure in the pull pipe 2-26 is reduced, so that outside air is sucked from the filter port 2-88, the outside air is supplemented into the transfer box 2-25 from the air inlet one-way valve 2-78 after being filtered by the filter plate 2-89, the next ejection is facilitated, the ejected and cleaned air is clean, the cleaning quality is ensured, after the disinfection is finished, the hydraulic cylinder 2-2 can drive the hydraulic rod 2-3 to pull the main gate 2-57, and the disinfected water can be discharged from the water outlet 2-5; the device can clear the blockage without stopping the machine, when any one of the drainage channel 2-4 and the pipeline box 2-11 is blocked, under the condition of no stopping the machine, no matter whether the main gate 2-57 is in the open state, the hydraulic cylinder 2-41 can drive the hydraulic rod 2-42 to push the linkage seat 2-43 downwards, the linkage seat 2-43 can push the inclined plane pushing seat 2-10 through the linkage arm 2-46, the inclined plane pushing seat 2-10 can push the inclined plane downwards through the inclined plane pressing gate 2-9 to drive the inclined plane downwards pressing gate 2-9 to move downwards through the inclined plane pressing gate 2-9 sliding in the chute II2-62, the inclined plane downwards pressing gate 2-9 can block the switching closed slot 2-63, when the switching closed slot 2-63 is blocked, the linkage seat 2-43 is just contacted with the seat 2-45 with double holes, so as to drive the seat 2-45 with double holes to move downwards, the seat 2-45 with double holes can drive the dredging piston 2-64 to move downwards through the piston rod 2-12, the dredging piston 2-64 can integrally pressurize a communicating cavity formed by the stirring box 2-38, the box 2-11 with pipeline and the drainage channel 2-4, so that the blocked place is naturally opened by pressure, then the hydraulic pressure rod 2-42 is blocked to move reversely to drive the linkage seat 2-43 to reset, the support spring 2-60 compressed in the downward movement process of the gate 2-9 with inclined plane can drive the gate 2-9 with inclined plane to reset, the push seat 2-10 with inclined plane can also reset under the dual actions of the spring I2-48 and the linkage arm 2-46, after the cleaning process is finished, the main gate 2-57 is opened to discharge the cleaned blockage.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (3)

1. The utility model provides an oil-water separation purifier, includes that oil-water separation mechanism (1), disinfection rabbling mechanism (2), antiseptic solution premix mechanism (3), its characterized in that: the oil-water separation mechanism (1) is connected with the disinfection stirring mechanism (2), and the disinfection stirring mechanism (2) is connected with the disinfectant premixing mechanism (3);

the oil-water separation mechanism (1) comprises a base (1-1), an oil storage tank (1-2), an oil outlet pipe (1-3), an oil outlet one-way valve (1-4), an overflow port (1-5), a fixed bent pipe (1-6), a coupler (1-7), a water inlet (1-8), a motor (1-9), a motor base (1-10), an oil removal tank (1-11), a tank cover (1-12), an oil removal tank outlet (1-13), a belt (1-14), a belt pulley with a shaft (1-15), a bearing base (1-16), a connecting disc (1-17), an oil scraping blade (1-18), a hollow shaft (1-19), an opening (1-20), a blade with a shaft (1-21) and a bearing base I (1-22), the base (1-1) is connected with an oil storage tank (1-2), an oil outlet pipe (1-3) is arranged on the oil storage tank (1-2), an oil outlet one-way valve (1-4) is arranged in the oil outlet pipe (1-3), an overflow port (1-5) is connected and communicated with the oil storage tank (1-2), a fixed bent pipe (1-6) is connected and communicated with the oil storage tank (1-2), a motor (1-9) is connected with a shaft blade (1-21) through a shaft coupling (1-7), the motor (1-9) is connected with a motor base (1-10), the motor base (1-10) is connected with an oil removal tank (1-11), a water inlet (1-8) is connected and communicated with the oil removal tank (1-11), and a tank cover (1-12) is connected with the oil removal tank (1-11), the deoiling box outlet (1-13) is arranged on the deoiling box (1-11), the belt (1-14) is in friction connection with the belt pulley (1-15) with a shaft, the bearing seat (1-16) is connected with the deoiling box (1-11), the belt pulley (1-15) with a shaft is in rotary connection with the bearing seat (1-16), the connecting disc (1-17) is connected with the oil scraping blade (1-18), the oil scraping blade (1-18) is connected with the hollow shaft (1-19), the hollow shaft (1-19) is connected with the connecting disc (1-17), the hollow shaft (1-19) is in rotary connection with the deoiling box (1-11), the hollow shaft (1-19) is connected with the belt pulley (1-15) with a shaft, the opening (1-20) is arranged on the hollow shaft (1-19), the hollow shaft (1-19) is in rotary connection with the fixed elbow (1-6), the blades (1-21) with shafts are rotatably connected with the fixed elbow pipes (1-6), the blades (1-21) with shafts are rotatably connected with the bearing seats I (1-22), and the bearing seats I (1-22) are connected with the fixed elbow pipes (1-6);

the disinfection stirring mechanism (2) comprises a hydraulic cylinder base (2-1), a hydraulic cylinder (2-2), a hydraulic rod (2-3), a drainage channel (2-4), a drainage outlet (2-5), a reinforcing cross brace (2-6), a supporting leg (2-7), a fixed seat (2-8), a downward pressing gate (2-9) with an inclined plane, a pushing base (2-10) with an inclined plane, a pipeline box (2-11), a piston rod (2-12), a spring (2-13), a supporting leg (2-14) with a base, a fixed block (2-15), a hydraulic cylinder I (2-16), a hinged base (2-17), a hinged arm (2-18), a fixed seat I (2-19), a sliding rod (2-20), a reset spring (2-21), The device comprises a sliding chute (2-22), an air inlet seat (2-23), an air inlet pipe (2-24), a transfer box (2-25), a pull pipe (2-26), an air outlet pipe (2-27), a transfer pipe (2-28), a sliding motor seat (2-29), a driving motor (2-30), a coupler I (2-31), a disk with a shaft (2-32), a connecting rod (2-33), a driving disk (2-34), a transfer pipe seat (2-35), an air outlet pipe orifice (2-36), a driven disk (2-37), a stirring box (2-38), a disinfectant inlet (2-39), a vertical seat (2-40), a through-resistance hydraulic cylinder (2-41), a through-resistance hydraulic rod (2-42), a linkage seat (2-43), a step rod (2-44), The device comprises a seat (2-45) with double holes, a linkage arm (2-46), a polish rod (2-47), a spring I (2-48), an inlet pipe (2-49), a belt pulley (2-50), a flywheel (2-51), a sliding chute I (2-52), a polish rod I (2-53), a spring II (2-54), a threaded rod slider (2-55), an internal thread counterweight sheet (2-56), a general gate (2-57), a gate groove (2-58), a limit stepped rod (2-59), a support spring (2-60), a stepped hole (2-61), a sliding chute II (2-62), a switch sealing groove (2-63), a desilting piston (2-64), a stirring wheel (2-65) with a shaft, a rotating seat (2-66), a gear (2-67), Central gear (2-68), vertical sliding chute (2-69), connecting shaft (2-70), matching hole (2-71), sliding bearing seat (2-72), hinged arm I (2-73), hinged arm with shaft (2-74), vertical sliding chute I (2-75), arc friction disk (2-76), inner piston (2-77), air inlet one-way valve (2-78), air outlet one-way valve (2-79), spacing disk (2-80), connecting shaft with projection (2-81), reset spring I (2-82), driving projection (2-83), matching hole I (2-84), driving slot (2-85), bearing seat II (2-86), bearing seat III (2-87), filtering port (2-88) and filtering plate (2-89), the hydraulic cylinder base (2-1) is connected with the hydraulic cylinder (2-2), the hydraulic cylinder (2-2) is connected with the hydraulic rod (2-3), the hydraulic rod (2-3) is connected with the main gate (2-57), the main gate (2-57) is connected with the gate slot (2-58) in a sliding way, the gate slot (2-58) is arranged on the drainage channel (2-4), the drainage port (2-5) is arranged on the drainage channel (2-4), the reinforcing cross brace (2-6) is connected with the landing leg (2-7), the landing leg (2-7) is connected with the fixed base (2-8), the fixed base (2-8) is provided with the sliding chute II (2-62), the pushing base (2-10) with the inclined plane is connected with the sliding chute II (2-62) in a sliding way, the pushing base (2-10) with the inclined plane is contacted with the pressing gate (2-9) with the inclined plane, a pipeline box (2-11) is connected and communicated with a drainage channel (2-4), a piston rod (2-12) is connected with the pipeline box (2-11) in a sliding way, a spring (2-13) is sleeved on the piston rod (2-12), two ends of the spring (2-13) are respectively connected with the pipeline box (2-11) and a seat (2-45) with double holes, supporting legs (2-14) with seats are connected with fixed seats I (2-19), fixed blocks (2-15) are connected with a stirring box (2-38), the fixed blocks (2-15) are connected with hydraulic cylinders I (2-16), the hydraulic cylinders I (2-16) are connected with hinged seats (2-17), the hinged seats (2-17) are hinged with hinged arms (2-18), the hinged arms (2-18) are hinged with sliding motor seats (2-29), the fixed seat I (2-19) is provided with a sliding chute (2-22), the sliding motor seat (2-29) is connected with the sliding chute (2-22) in a sliding way, the sliding rod (2-20) is connected with the sliding motor seat (2-29), the reset spring (2-21) is sleeved on the sliding rod (2-20), two ends of the reset spring (2-21) are respectively connected with the sliding motor seat (2-29) and the fixed seat I (2-19), the air inlet seat (2-23) is connected and communicated with the air inlet pipe (2-24), the air inlet pipe (2-24) is connected and communicated with the transfer box (2-25), the transfer box (2-25) is connected and communicated with the pull pipe (2-26), the pull pipe (2-26) is connected with the fixed seat I (2-19), the transfer box (2-25) is connected and communicated with the air outlet pipe (2-27), the air outlet pipe (2-27) is connected and communicated with the transfer pipe (2-28), the sliding motor base (2-29) is connected with the driving motor (2-30), the driving motor (2-30) is connected with the reel with shaft (2-32) through the coupler I (2-31), the reel with shaft (2-32) is rotationally connected with the sliding motor base (2-29), the reel with shaft (2-32) is connected with the connecting rod (2-33), the connecting rod (2-33) is connected with the driving disc (2-34), the transfer pipe base (2-35) is connected with the transfer pipe (2-28), the transfer pipe base (2-35) is connected with the stirring box (2-38), the air outlet pipe mouth (2-36) is arranged on the transfer pipe (2-28), the driven disc (2-37) is contacted with the driving disc (2-34), disinfectant inlets (2-39) are arranged on the stirring box (2-38), vertical seats (2-40) are connected with the stirring box (2-38), resistance-through hydraulic cylinders (2-41) are connected with the vertical seats (2-40), the resistance-through hydraulic cylinders (2-41) are connected with resistance-through hydraulic rods (2-42), the resistance-through hydraulic rods (2-42) are connected with linkage seats (2-43), the linkage seats (2-43) are connected with stepped rods (2-44), the stepped rods (2-44) are in sliding connection with double-hole seats (2-45), the double-hole seats (2-45) are connected with piston rods (2-12), linkage arms (2-46) are hinged with the linkage seats (2-43), the linkage arms (2-46) are hinged with inclined plane pushing seats (2-10), a polish rod (2-47) is connected with a fixed seat (2-8), the polish rod (2-47) is connected with a pushing seat (2-10) with an inclined surface in a sliding way, a spring I (2-48) is sleeved on the polish rod (2-47), two ends of the spring I (2-48) are respectively connected with the pushing seat (2-10) with the inclined surface and the fixed seat (2-8), an inlet pipe (2-49) is connected and communicated with a stirring box (2-38), a belt pulley (2-50) is connected with a connecting shaft (2-70), a flywheel (2-51) is connected with a rotating seat (2-66), a chute I (2-52) is arranged on the flywheel (2-51), the polish rod I (2-53) is connected with the flywheel (2-51), a spring II (2-54) is sleeved on the polish rod I (2-53), two ends of a spring II (2-54) are respectively connected to a flywheel (2-51) and a threaded rod sliding block (2-55), the threaded rod sliding block (2-55) is connected with a sliding chute I (2-52) in a sliding manner, the threaded rod sliding block (2-55) is connected with a polished rod I (2-53) in a sliding manner, the threaded rod sliding block (2-55) is connected with an internal thread counterweight sheet (2-56) in a threaded manner, a limiting step rod (2-59) is connected with a drainage channel (2-4), a supporting spring (2-60) is sleeved on the limiting step rod (2-59), two ends of the supporting spring (2-60) are respectively connected to the drainage channel (2-4) and a down-pressing gate (2-9) with an inclined plane, a stepped hole (2-61) is arranged on the down-pressing gate (2-9) with the inclined plane, the limiting step rods (2-59) are in sliding connection with the step holes (2-61), the switching closed grooves (2-63) are arranged on the drainage channels (2-4), the downward pressing gates (2-9) with slopes are in sliding connection with the switching closed grooves (2-63), the dredging pistons (2-64) are connected with the piston rods (2-12), the dredging pistons (2-64) are in sliding connection with the pipeline boxes (2-11), the stirring wheels (2-65) with shafts are in rotating connection with the sliding bearing seats (2-72), the rotating seats (2-66) are in rotating connection with the stirring boxes (2-38), the gears (2-67) are meshed with the central gears (2-68), the vertical sliding chutes (2-69) are arranged on the vertical seats (2-40), and the vertical sliding chutes (2-69) are in sliding connection with the linkage seats (2-43), the connecting shaft (2-70) is rotationally connected with a bearing seat II (2-86), the rotating seat (2-66) and the driven disc (2-37) are respectively provided with a bearing seat II (2-86), the central gear (2-68) is connected with the connecting shaft (2-70), a matching hole (2-71) is arranged on the rotating seat (2-66), a sliding bearing seat (2-72) is slidably connected with the matching hole (2-71), the sliding bearing seat (2-72) is hinged with a hinged arm I (2-73), the hinged arm I (2-73) is hinged with a hinged arm (2-74) with a shaft, the hinged arm (2-74) with the shaft is connected with a gear (2-67), the hinged arm (2-74) with the shaft is rotationally connected with a bearing seat III (2-87), the bearing seat III (2-87) is arranged on the rotating seat (2-66), the vertical sliding groove I (2-75) is arranged on the stirring box (2-38), the hinged seat (2-17) is connected with the vertical sliding groove I (2-75) in a sliding way, the arc friction disc (2-76) is connected with the hinged seat (2-17), the inner piston (2-77) is connected with the sliding rod (2-20), the sliding rod (2-20) is connected with the fixed seat I (2-19) in a sliding way, the inner piston (2-77) is connected with the drawing pipe (2-26) in a sliding way, the air inlet one-way valve (2-78) is arranged in the air inlet pipe (2-24), the air outlet one-way valve (2-79) is arranged in the air outlet pipe (2-27), the limiting disc (2-80) is connected with the connecting shaft (2-81) with the bulge, the connecting shaft (2-81) with the bulge is connected with the central gear (2-68), a connecting shaft (2-81) with a bulge is rotationally connected with a bearing seat II (2-86), a return spring I (2-82) is sleeved on the connecting shaft (2-81) with the bulge, two ends of the return spring I (2-82) are respectively connected with a limiting disc (2-80) and a driving disc (2-34), the driving disc (2-34) is provided with a driving bulge (2-83), the driving bulge (2-83) is in sliding connection with a matching hole I (2-84), the matching hole I (2-84) is arranged on a driven disc (2-37), the driven disc (2-37) is connected with a rotating seat (2-66), a driving groove (2-85) is arranged on the driving disc (2-34), a filter opening (2-88) is arranged on an air inlet seat (2-23), a filter plate (2-89) is in sliding connection with the air inlet seat (2-23), a hydraulic cylinder base (2-1) is connected with a base (1-1), a drainage channel (2-4) is connected with the base (1-1), a reinforcing cross brace (2-6) is connected with the base (1-1), a box with a pipeline (2-11) is connected with the base (1-1), a supporting leg with a base (2-14) is connected with the base (1-1), a stirring box (2-38) is connected with the base (1-1), an inlet pipe (2-49) is communicated with an outlet (1-13) of a deoiling box, an inlet pipe (2-49) is connected with the deoiling box (1-11), a belt (1-14) is in friction connection with a belt pulley (2-50), and the stirring box (2-38) is connected and communicated with the box with the pipeline (2-11).

2. The oil-water separation purification device according to claim 1, wherein: the disinfectant premixing mechanism (3) comprises stock solution tank supporting legs (3-1), communicating pipes (3-2), stock solution tanks (3-3), stock solution supplementing ports (3-4), secondary supports (3-5), a coupler II (3-6), a servo motor (3-7), connecting piston rods (3-8), premixing tanks (3-9), premixing outlet pipes (3-10), channels I (3-11), liquid outlet one-way valves (3-12), liquid inlet one-way valves (3-13), stirring blades (3-14), threaded discs (3-15), driving shafts (3-16) with protrusions and driving shaft grooves (3-17) with protrusions, the stock solution tank supporting legs (3-1) are connected with the stock solution tanks (3-3), and the stock solution tanks (3-3) and the channels I (3-11) are communicated through the communicating pipes (3-2), a stock solution supplementing port (3-4) is arranged on the stock solution tank (3-3), a secondary support (3-5) is connected with a premixing tank (3-9), a coupler II (3-6) is connected with a servo motor (3-7), the servo motor (3-7) is connected with the secondary support (3-5), a connecting piston rod (3-8) is in threaded connection with the premixing tank (3-9), a premixing outlet pipe (3-10) is connected with the premixing tank (3-9), a channel I (3-11) is arranged at two sides of the premixing tank (3-9), a liquid outlet one-way valve (3-12) is arranged in the premixing outlet pipe (3-10), a liquid inlet one-way valve (3-13) is arranged in the channel I (3-11), and a stirring blade (3-14) is connected with a threaded disc (3-15), the threaded disc (3-15) is in threaded connection with the inner wall of the premixing box (3-9), the threaded disc (3-15) is connected with the connecting piston rod (3-8), the connecting piston rod (3-8) is provided with a driving shaft groove (3-17) with a protrusion, the driving shaft groove (3-17) with the protrusion is in sliding connection with the driving shaft (3-16) with the protrusion, the driving shaft (3-16) with the protrusion is connected with the coupler II (3-6), the stock solution box supporting leg (3-1) is connected with the stirring box (2-38), the disinfectant inlet (2-39) is communicated with the premixing outlet pipe (3-10), and the premixing outlet pipe (3-10) is connected with the stirring box (2-38).

3. The oil-water separation purification device according to claim 1, wherein: the bearing seats I (1-22) are provided with through holes, so that oil in the fixed bent pipes (1-6) can conveniently enter the oil storage tanks (1-2).

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