CN113069980A - Liquid suspension mixing arrangement - Google Patents

Abstract

The invention relates to a mixing device, in particular to a liquid suspension mixing device which comprises a suspension mixing mechanism and a filtering and sewage discharging mechanism, wherein two kinds of stock solutions can be added into the device at high pressure, the device can accelerate liquid conveying while performing suspension stirring, the device can ensure the temperature of the stock solutions and the mixed liquid, the device can complete secondary filtering and complete cleaning and sewage discharging of a filtering wheel, and the suspension mixing mechanism is connected with the filtering and sewage discharging mechanism.

Description

Liquid suspension mixing arrangement

Technical Field

The invention relates to a mixing device, in particular to a liquid suspension mixing device.

Background

In the industrial manufacturing, often need mix two kinds of liquid, mix the raw materials because the device operation takes place rotten tendency easily in mixing process, and the stirring mode is mostly the fixed container stirring, carry after the stirring, the whole inefficiency that can make stirring and carry like this, the mixed liquid does not have fine in transportation process yet and controls the temperature, some processing technology can guarantee liquid low temperature through independent air-cooled system, but need be equipped with unnecessary fan and realize, so a liquid suspension mixing arrangement has been designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing a liquid suspension mixing device, which can add two kinds of stock solutions under high pressure, accelerate liquid conveying while performing suspension stirring, ensure the temperature of the stock solutions and mixed liquid, and perform secondary filtration while cleaning and discharging sewage to a filtering wheel.

In order to solve the technical problem, the invention relates to a mixing device, in particular to a liquid suspension mixing device which comprises a suspension mixing mechanism and a filtering and sewage discharging mechanism, wherein two kinds of stock solutions can be added into the device at high pressure, the device can accelerate liquid conveying while performing suspension stirring, the device can ensure the temperature of the stock solutions and the mixed liquid, and the device can complete secondary filtering and complete cleaning and sewage discharging of a filtering wheel.

The suspension mixing mechanism is connected with the filtering and sewage draining mechanism.

As a further optimization of the technical scheme, the suspension mixing mechanism of the liquid suspension mixing device comprises an air cooling box, an opening, a raw liquid box, a flanged supplementary pipe, a connecting pipe, a pressure change box, a piston rod, a spring, a pulley with a seat, a motor, a coupling, a double-sided cam, a pulley with a seat I, a piston rod I, a spring I, a piston box I, a pressure change box I, a support frame, a spraying connecting pipe, a buoyancy box, an output pipe, a wind wheel, an acceleration box with supporting legs, a heat dissipation wind box, a wind box inlet port, a conveying pipe, a hollow shaft, a hollow belt pulley, a belt pulley I, a rotating shaft, a coupling I, a motor I, a fixed gas pipe, a gas pump, a communicating pipe, a friction strip, an inner stirring wheel, a roller with a shaft, an inner piston, an acceleration wheel with a shaft, an inner heat dissipation wind wheel, a gas outlet one-, The liquid outlet one-way valve, the liquid inlet one-way valve I, the inner piston I, the accelerating wheel I with a shaft, the inner stirring wheel I, the friction strip I, the liquid outlet one-way valve I, the elbow and the side outlet pipe, wherein openings are symmetrically arranged on two sides of the air cooling box, a flanged supplementing pipe is arranged on the stock solution box, the stock solution box is communicated with a pressure change box through a connecting pipe, the pressure change box is connected and communicated with the piston box, the piston rod is connected with the piston box in a sliding way, a spring is sleeved on the piston rod, two ends of the spring are respectively connected on the piston box and a pulley with a seat, the pulley with a seat is contacted with a bilateral cam, a motor is connected with a coupler, the coupler is connected with the accelerating wheel with the shaft, the two bilateral cams are symmetrically arranged on the accelerating wheel with the shaft, the pulley with a seat is contacted with the bilateral cam, the pulley I with the piston rod is connected with the piston, the piston box I is connected and communicated with the pressure change box I, the piston box I is connected with the support frame, the elbow connects the pressure change box and the pressure change box I, the pressure change box I is connected and communicated with the ejection connecting pipe, the ejection connecting pipe is connected and communicated with the buoyancy box, the ejection connecting pipe is symmetrically arranged on two sides of the buoyancy box, the buoyancy box is connected and communicated with the output pipe, the output pipe is connected and communicated with the accelerating box with the support legs, the wind wheel and the inner heat dissipation wind wheel are symmetrically connected on the accelerating wheel with the shaft, the accelerating box with the support legs is connected with the heat dissipation wind box, the wind box with the support legs is provided with a wind box inlet, the accelerating box with the support legs is connected and communicated with the conveying pipe, the hollow shaft is rotationally connected with the buoyancy box, the hollow shaft is connected and communicated with the hollow belt pulley, the belt is frictionally connected with, the rotating shaft is connected with a coupling I, the coupling I is connected with a motor I, the motor I is connected with a support frame, the fixed gas pipe is rotationally connected with a hollow belt pulley, the fixed gas pipe is connected with the support frame, the fixed gas pipe is connected with an air pump, a communicating pipe is connected with and communicated with a heat dissipation air box, friction strips are symmetrically arranged in a piston box, an inner stirring wheel is connected with a roller with a shaft, the roller with the shaft is frictionally connected with the friction strips, the roller with the shaft is rotationally connected with an inner piston, the inner piston is slidably connected with the piston box, the inner piston is slidably connected with the friction strips, the inner piston is connected with a piston rod, the accelerating wheel with the shaft is rotationally connected with an accelerating box with supporting legs, the accelerating wheel with the shaft is rotationally connected with the heat dissipation air box, an inner heat dissipation wind wheel is arranged in the heat dissipation air box, four air outlet one-way valves are arranged, the liquid inlet one-way valve is arranged in the connecting pipe, the liquid outlet one-way valve is arranged in the bent pipe, the liquid inlet one-way valve I is arranged in the bent pipe, the inner piston I is rotatably connected with the belt shaft accelerating pulley I, the belt shaft accelerating pulley I is connected with the inner stirring pulley I, the belt shaft accelerating pulley I is in friction connection with the friction strip I, the friction strip I is symmetrically arranged in the piston box I, the inner piston I is in sliding connection with the friction strip I, the inner piston I is in sliding connection with the piston box I, the inner piston I is connected with the piston rod I, the liquid outlet one-way valve I is arranged in the spraying connecting pipe, and the side outlet pipe is connected and communicated with the air cooling.

As a further optimization of the technical scheme, the filtering and sewage discharging mechanism of the liquid suspension mixing device comprises a base, an auxiliary supporting leg, a motor base, a secondary platform with holes, a communicating inlet, a filtering box, a bevel gear with a shaft, a bevel gear I, a sewage discharging box, a belt pulley II, a belt I, a scraping base, a belt pulley III, a coupling II, a sewage discharging driving motor, the motor base I, a mixed liquid output pipe, a filtering wheel with a shaft, a filtering hole, a driving wheel with a bulge, a spiral shaft, a sewage discharging port and a secondary shaft, wherein the base is connected with the auxiliary supporting leg, the motor base is connected with the secondary platform with holes, the secondary platform with holes is connected with the base, an air cooling box is connected with the base, a stock solution box is connected with the secondary platform with holes, a pressure change box is connected with the secondary platform with holes, a supporting frame is connected with the secondary platform with holes, an accelerating, the communicating pipe passes through the secondary platform with the hole, the conveying pipe is communicated with the communicating inlet, the conveying pipe is connected with the filter box, the filter box is connected with the base, the communicating inlet is arranged on the filter box, the shaft bevel gear is rotationally connected with the filter box, the shaft bevel gear is meshed with the bevel gear I, the bevel gear I is connected with the screw shaft, the screw shaft is rotationally connected with the blow-off box, the blow-off box is connected with the filter box, the shaft bevel gear is connected with the belt pulley II, the belt pulley II is frictionally connected with the belt I, the belt I is frictionally connected with the belt pulley III, the scraping seat is arranged on the blow-off box, the belt pulley III is connected with the driving wheel with the bulge, the secondary shaft is connected with the filter wheel with the shaft, the shaft filter wheel is rotationally connected with the filter box, the secondary shaft is rotationally connected with the filter box, the shaft II is, motor cabinet I links to each other with the rose box, mixes liquid output tube and rose box and links to each other and communicate, mixes liquid output tube and passes foraminiferous second grade platform, is equipped with the filtration pore on the band axle filter wheel, takes protruding drive wheel and filters the pore phase meshing, and the band axle filters the wheel and contacts with scraping the seat, and the drain setting is on the blow off box, mixes liquid output tube and passes into the forced air cooling incasement and then wear out from the opposite side opening from one side opening, and the motor links to each other with the motor cabinet.

As a further optimization of the technical scheme, the scraping seat and the filtering wheel with the shaft of the liquid suspension mixing device are both made of high manganese steel.

The liquid suspension mixing device has the beneficial effects that:

according to the liquid suspension mixing device, two kinds of stock solutions can be added at high pressure, the liquid conveying is accelerated while suspension stirring is carried out, the temperature of the stock solutions and the temperature of the mixed liquid can be guaranteed, and the cleaning and pollution discharge of the filtering wheel can be completed while secondary filtering is completed.

Drawings

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

Fig. 1 is a schematic structural diagram of a liquid suspension mixing device according to the present invention.

Fig. 2 is a schematic structural diagram of a liquid suspension mixing device according to the present invention.

Fig. 3 is a schematic structural diagram of a liquid suspension mixing device according to the present invention.

Fig. 4 is a first structural schematic diagram of a suspension mixing mechanism 1 of a liquid suspension mixing device according to the present invention.

Fig. 5 is a second schematic structural diagram of a suspension mixing mechanism 1 of a liquid suspension mixing device according to the present invention.

Fig. 6 is a third schematic structural diagram of a suspension mixing mechanism 1 of a liquid suspension mixing device according to the present invention.

Fig. 7 is a fourth schematic structural diagram of the suspension mixing mechanism 1 of the liquid suspension mixing device of the present invention.

Fig. 8 is a fifth schematic structural diagram of the suspension mixing mechanism 1 of the liquid suspension mixing device of the present invention.

Fig. 9 is a sixth schematic structural diagram of a suspension mixing mechanism 1 of a liquid suspension mixing device according to the present invention.

Fig. 10 is a first structural schematic diagram of a filtering and dirt discharging mechanism 2 of a liquid suspension mixing device of the invention.

Fig. 11 is a second structural schematic diagram of the filtering and dirt discharging mechanism 2 of the liquid suspension mixing device of the invention.

Fig. 12 is a third structural schematic diagram of the filtering and dirt discharging mechanism 2 of the liquid suspension mixing device of the invention.

Fig. 13 is a fourth structural schematic diagram of the filtering and dirt discharging mechanism 2 of the liquid suspension mixing device of the invention.

In the figure: a suspension mixing mechanism 1; 1-1 of an air cooling box; an opening 1-2; 1-3 of stock solution tank; 1-4 of a supplementary pipe with a flange; connecting pipes 1-5; 1-6 of a pressure change box; 1-7 of a piston box; 1-8 parts of a piston rod; 1-9 parts of a spring; 1-10 of pulleys with seats; motors 1-11; 1-12 of a coupler; 1-13 of bilateral cam; a pulley I1-14 with a seat; a piston rod I1-15; spring I1-16; piston case I1-17; pressure change tank I1-18; 1-19 of a support frame; spraying out the connecting pipe 1-20; 1-21 of buoyancy tanks; an output pipe 1-22; 1-23 of wind wheel; 1-24 of an acceleration box with supporting legs; 1-25 of radiating air boxes; an air box inlet 1-26; delivery pipes 1-27; hollow shafts 1 to 28; hollow belt pulleys 1-29; 1-30 parts of a belt; pulley I1-31; 1-32 of a rotating shaft; couplings I1-33; motors I1-34; fixed air delivery pipes 1-35; an air pump 1-36; communication tubes 1-37; 1-38 of rubbing strips; 1-39 parts of an inner stirring wheel; 1-40 of roller with shaft; inner pistons 1-41; accelerating wheels 1-42 with shafts; 1-43 of inner heat-dissipating wind wheel; air outlet one-way valves 1-44; four-head ejection pipe 1-45; side accelerator wheels 1-46; liquid inlet one-way valve 1-47; liquid outlet one-way valve 1-48; liquid inlet one-way valve I1-49; inner pistons I1-50; an accelerator wheel I1-51 with an axle; an inner stirring wheel I1-52; rubbing strips I1-53; liquid outlet one-way valve I1-54; 1-55 parts of bent pipe; side exit tubes 1-56; a filtering and sewage draining mechanism 2; a base 2-1; auxiliary support legs 2-2; 2-3 of a motor base; 2-4 of a secondary platform with holes; the inlet port 2-5 is communicated; 2-6 of a filter box; bevel gears 2-7 with shafts; bevel gear I2-8; 2-9 parts of a sewage draining tank; pulley II 2-10; belt I2-11; 2-12 of a scraping seat; pulley III 2-13; a coupler II 2-14; 2-15 parts of a pollution discharge driving motor; motor base I2-16; 2-17 parts of a mixed liquid output pipe; 2-18 of filter wheel with shaft; 2-19 parts of filtering holes; 2-20 parts of driving wheel with protrusions; 2-21 parts of screw shaft; 2-22 parts of a sewage draining outlet; secondary axis 2-23.

Detailed Description

The first embodiment is as follows:

the 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, and fig. 13, and the invention relates to a mixing device, more specifically, a liquid suspension mixing device, which includes a suspension mixing mechanism 1 and a filtration and drainage mechanism 2, and the device can add two kinds of stock solutions under high pressure, accelerate liquid transportation while performing suspension stirring, ensure the temperature of the stock solutions and the mixed solution, and complete cleaning and drainage of a filter wheel while performing secondary filtration.

The suspension mixing mechanism 1 is connected with the filtering and sewage discharging mechanism 2.

The second embodiment is as follows:

the 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, and the embodiment further describes the embodiment, where the suspension mixing mechanism 1 includes an air-cooling tank 1-1, an opening 1-2, a raw liquid tank 1-3, a flanged supplementary pipe 1-4, a connecting pipe 1-5, a pressure change tank 1-6, a piston tank 1-7, a piston rod 1-8, a spring 1-9, a pulley with a seat 1-10, a motor 1-11, a coupling 1-12, a double-sided cam 1-13, a pulley with a seat I1-14, a piston rod I1-15, a spring I1-16, a piston tank I1-17, a pressure change tank I1-18, a support frame 1-19, a supporting frame, 1-20 parts of ejection connecting pipe, 1-21 parts of buoyancy tank, 1-22 parts of output pipe, 1-23 parts of wind wheel, 1-24 parts of acceleration box with support legs, 1-25 parts of heat dissipation wind box, 1-26 parts of wind box inlet, 1-27 parts of delivery pipe, 1-28 parts of hollow shaft, 1-29 parts of hollow belt pulley, 1-30 parts of belt, 1-31 parts of belt pulley I1, 1-32 parts of rotating shaft, I1-33 parts of coupling, I1-34 parts of motor, 1-35 parts of fixed gas delivery pipe, 1-36 parts of air pump, 1-37 parts of communicating pipe, 1-38 parts of friction strip, 1-39 parts of inner stirring wheel, 1-40 parts of roller with shaft, 1-41 parts of inner piston, 1-42 parts of acceleration wheel with shaft, 1-43 parts of inner heat dissipation wind wheel, 1-44 parts of air outlet, Liquid inlet one-way valve 1-47, liquid outlet one-way valve 1-48, liquid inlet one-way valve I1-49, inner piston I1-50, accelerating wheel with shaft I1-51, inner stirring wheel I1-52, friction strip I1-53, liquid outlet one-way valve I1-54, elbow 1-55, side outlet pipe 1-56, air cooling box 1-1 with openings 1-2 on two sides symmetrically, raw liquid box 1-3 with flange supplement pipe 1-4, connecting pipe 1-5 connecting raw liquid box 1-3 and pressure change box 1-6, pressure change box 1-6 with piston box 1-7 and piston rod 1-7 connected, piston rod 1-8 with piston box 1-7 sliding connection, spring 1-9 on piston rod 1-8, spring 1-9 with two ends connected to piston box 1-7 and pulley with seat 1-10, pulley 1-10 with seat contacts with bilateral cam 1-13, motor 1-11 connects with coupling 1-12, coupling 1-12 connects with accelerating pulley 1-42 with axle, two bilateral cams 1-13 are symmetrically set on accelerating pulley 1-42 with axle, pulley I1-14 with seat contacts with bilateral cam 1-13, pulley I1-14 with seat connects with piston rod I1-15, spring I1-16 is covered on piston rod I1-15, two ends of spring I1-16 connect with pulley I1-14 with seat and piston box I1-17, piston box I1-17 connects with pressure change box I1-18 and communicates, piston box I1-17 connects with supporting frame 1-19, elbow 1-55 connects pressure change box 1-6 with pressure change box I1-18, the pressure change box I1-18 is connected and communicated with an ejection connecting pipe 1-20, the ejection connecting pipe 1-20 is connected and communicated with a buoyancy box 1-21, the ejection connecting pipe 1-20 is symmetrically arranged at two sides of the buoyancy box 1-21, the buoyancy box 1-21 is connected and communicated with an output pipe 1-22, the output pipe 1-22 is connected and communicated with an acceleration box 1-24 with support legs, a wind wheel 1-23 and an inner heat dissipation wind wheel 1-43 are symmetrically connected on an acceleration wheel 1-42 with a shaft, the acceleration box 1-24 with support legs is connected with a heat dissipation wind box 1-25, a wind box inlet 1-26 is arranged on the heat dissipation wind box 1-25, the acceleration box 1-24 with support legs is connected and communicated with a conveying pipe 1-27, and a hollow shaft 1-28 is rotationally connected with the buoyancy box 1, hollow shafts 1-28 are connected and communicated with hollow belt pulleys 1-29, belts 1-30 are connected with the hollow belt pulleys 1-29 in a friction mode, the belts 1-30 are connected with belt pulleys I1-31 in a friction mode, the belt pulleys I1-31 are connected with rotating shafts 1-32, the rotating shafts 1-32 are connected with supporting frames 1-19 in a rotation mode, the rotating shafts 1-32 are connected with couplings I1-33, the couplings I1-33 are connected with motors I1-34, the motors I1-34 are connected with the supporting frames 1-19, fixed air pipes 1-35 are connected with the hollow belt pulleys 1-29 in a rotation mode, the fixed air pipes 1-35 are connected with the supporting frames 1-19, the fixed air pipes 1-35 are connected with air pumps 1-36, and communicating pipes 1-37 are connected and communicated with heat dissipation air boxes 1-25, the friction strips 1-38 are symmetrically arranged in the piston box 1-7, the inner stirring wheel 1-39 is connected with the roller 1-40 with the shaft, the roller 1-40 with the shaft is connected with the friction strips 1-38 in a friction way, the roller 1-40 with the shaft is connected with the inner piston 1-41 in a rotating way, the inner piston 1-41 is connected with the piston box 1-7 in a sliding way, the inner piston 1-41 is connected with the friction strips 1-38 in a sliding way, the inner piston 1-41 is connected with the piston rod 1-8, the accelerating wheel 1-42 with the shaft is connected with the accelerating box 1-24 with the supporting legs in a rotating way, the accelerating wheel 1-42 with the shaft is connected with the heat dissipation air box 1-25 in a rotating way, the inner heat dissipation air wheel 1-43 is arranged in the heat dissipation air box 1-25, the four air outlet one-way valves 1, four-head ejection pipes 1-45 are connected and communicated with hollow shafts 1-28, the hollow shafts 1-28 are connected with side accelerating wheels 1-46, liquid inlet one-way valves 1-47 are arranged in connecting pipes 1-5, liquid outlet one-way valves 1-48 are arranged in bent pipes 1-55, liquid inlet one-way valves I1-49 are arranged in bent pipes 1-55, inner pistons I1-50 are rotatably connected with accelerating wheels I1-51 with shafts, accelerating wheels I1-51 with shafts are connected with inner stirring wheels I1-52, accelerating wheels I1-51 with shafts are in friction connection with friction strips I1-53, friction strips I1-53 are symmetrically arranged in piston boxes I1-17, inner pistons I1-50 are in sliding connection with friction strips I1-53, inner pistons I1-50 are in sliding connection with piston boxes I1-17, inner pistons I1-50 are connected with piston rods I1-15, the liquid outlet one-way valve I1-54 is arranged in the ejection connecting pipe 1-20, the side outlet pipe 1-56 is connected and communicated with the air cooling box 1-1, the two flanged supplementary pipes 1-4 are respectively connected with different stock solution inlet pipes, the motor 1-11 operates to drive the shaft coupling 1-12 to rotate, the shaft coupling 1-12 drives the accelerating pulley 1-42 with shaft to rotate, the accelerating pulley 1-42 with shaft drives the two double-sided cams 1-13 to synchronously rotate, the rotating double-sided cams 1-13 drive the pulley 1-10 with seat to reciprocate up and down by matching with the spring 1-9, the pulley 1-10 with seat drives the inner piston 1-41 to reciprocate up and down by the piston rod 1-8, thereby causing the pressure difference change in the pressure change box 1-6, when the pressure in the pressure change box 1-6 is reduced, the stock solution in the stock solution box 1-3 can rush open the liquid inlet one-way valve 1-47 to enter the pressure change box 1-6, when the pressure in the pressure change box 1-6 is increased, the liquid can rush open the liquid outlet one-way valve 1-48 to enter the bent pipe 1-55, the inner piston 1-41 can drive the roller 1-40 with the shaft to reciprocate up and down, the roller 1-40 with the shaft can drive the roller 1-40 with the shaft to reciprocate up and down due to the relative motion between the roller 1-40 with the shaft and the friction strip 1-38, the roller 1-40 with the shaft can drive the inner stirring wheel 1-39 to reciprocate up and down, so as to stir the sucked stock solution, thereby ensuring the stock solution to be uniform, and the double-side cam 1-13 can drive the pulley I1-14 with the seat to reciprocate in the horizontal direction through the cooperation with the spring I1-16 when rotating When the pressure in the pressure change tank I1-18 is reduced, the liquid in the elbow pipe 1-55 is sucked into the pressure change tank I1-18 through the liquid inlet one-way valve I1-49 and then is sprayed into the buoyancy tank 1-21 from the liquid outlet one-way valve I1-54 after being pressurized, the liquid in the elbow pipe 1-55 is driven to reciprocate by the inner piston I1-50, the belt shaft accelerating wheel I1-51 is driven to reciprocate by the belt shaft accelerating wheel I1-51, and the belt shaft accelerating wheel I1-51 is driven to rotate by the relative motion with the friction strip I1-53, so that the inner stirring wheel I1-52 is driven to rotate, and the sucked liquid is stirred, the uniformity of the stock solution in the conveying process is ensured, when the double-sided cam 1-13 rotates, the movement steps of the pulley 1-10 with the seat and the pulley I1-14 with the seat are opposite, so that the movement steps of the inner piston 1-41 and the inner piston I1-50 are opposite, namely when the inner piston 1-41 pressurizes the pressure change box 1-6, the pressure in the pressure change box 1-6 is received in the elbow pipe 1-55, at the moment, the pressure in the pressure change box I1-18 is reduced, the suction force in the pressure change box I1-18 is received in the pressure change box 1-6, so that double pressure is formed to bring the liquid in the elbow pipe 1-55 into the pressure change box I1-18, thereby forming an effect that a driving force forms double liquid driving force, and the stock solution is continuously conveyed into the buoyancy box 1-21, and ensures larger pressure, when two kinds of liquid enter the buoyancy tank 1-21, the liquid can be conveniently fused by pressure hedging, the motor I1-34 operates to drive the coupler I1-33 to rotate, the coupler I1-33 drives the rotating shaft 1-32 to rotate, the rotating shaft 1-32 drives the belt pulley I1-31 to rotate, the belt pulley I1-31 drives the hollow belt pulley 1-29 to rotate through the belt 1-30, the hollow belt pulley 1-29 drives the hollow shaft 1-28 to rotate, the hollow shaft 1-28 drives the four-head ejection pipe 1-45 and the side acceleration wheel 1-46 to synchronously rotate, meanwhile, the air is conveyed into the fixed air conveying pipe 1-35 through the air pump 1-36, the air can rush out the air outlet one-way valve 1-44 to eject out from the four-head ejection pipe 1-45 by rotation, the air outlet one-way valve 1-44 can prevent liquid from flowing backwards, high-pressure air flows backwards and upwards after flowing downwards and interacts with two high-pressure liquids to form certain suspension, so that the high-pressure liquids are mixed more fully and then are thrown towards the output pipe 1-22 to enter the acceleration box 1-24 with the supporting legs under the rotating action of the side acceleration wheel 1-46, when the acceleration wheel 1-42 with the shaft rotates, the rotating direction is clockwise when the motor 1-11 looks at the acceleration box 1-24 with the supporting legs, so that the mixed liquid is accelerated to form, the liquid flow can be accelerated, the liquid flow speed is prevented from being reduced in the mixing process, the overall efficiency is influenced, the mixed liquid enters the filter box 2-6 from the conveying pipe 1-27 through inlet 2-5, and when the acceleration wheel 1-42 with the shaft rotates, the acceleration wheel 1-42 with the shaft can drive the wind wheel 1-23 and the internal heat dissipation wind wheel 1-43 to synchronously perform synchronous The wind wheels 1-23 rotate to form external air flow, so that the temperature near the stock solution box 1-3 is conveniently reduced, deterioration is prevented, meanwhile, the inner heat dissipation wind wheels 1-43 rotate to form airflow from top to bottom, gas enters the heat dissipation wind boxes 1-25 from the wind box inlet ports 1-26 and then enters the wind cooling boxes 1-1 from the communicating pipes 1-37 downwards, and is discharged from the side outlet pipes 1-56 after exchanging heat with the mixed solution output pipes 2-17, and the final mixed solution is conveyed away from the mixed solution output pipes 2-17, so that the mixed solution can be cooled, and the quality of the mixed solution is ensured.

The third concrete implementation mode:

the 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, and the embodiment further describes the embodiment, wherein the filtering and sewage discharging mechanism 2 comprises a base 2-1, an auxiliary leg 2-2, a motor base 2-3, a perforated secondary platform 2-4, a communication inlet 2-5, a filter box 2-6, a shaft bevel gear 2-7, a bevel gear I2-8, a sewage discharging box 2-9, a belt pulley II2-10, a belt I2-11, a scraping base 2-12, a belt pulley III2-13, a coupling II2-14, a sewage discharging driving motor 2-15, a motor base I2-16, a mixed liquid output pipe 2-17, a shaft filtering wheel 2-18, a filtering hole 2-19, a mixed liquid output pipe 2-17, a shaft filtering wheel, 2-20 parts of driving wheel with bulges, 2-21 parts of screw shaft, 2-22 parts of sewage discharge port and 2-23 parts of secondary shaft, wherein a base 2-1 is connected with an auxiliary supporting leg 2-2, a motor seat 2-3 is connected with a secondary platform 2-4 with holes, a secondary platform 2-4 with holes is connected with the base 2-1, an air cooling box 1-1 is connected with the base 2-1, a stock solution box 1-3 is connected with the secondary platform 2-4 with holes, a pressure change box 1-6 is connected with the secondary platform 2-4 with holes, a support frame 1-19 is connected with the secondary platform 2-4 with holes, an acceleration box 1-24 with supporting legs is connected with the secondary platform 2-4 with holes, an air pump 1-36 is connected with the secondary platform 2-4 with holes, a communicating pipe 1-37 penetrates through the secondary platform 2-4, the conveying pipe 1-27 is communicated with a communicating inlet 2-5, the conveying pipe 1-27 is connected with a filtering box 2-6, the filtering box 2-6 is connected with a base 2-1, the filtering box 2-6 is provided with a communicating inlet 2-5, a shaft bevel gear 2-7 is rotationally connected with the filtering box 2-6, the shaft bevel gear 2-7 is meshed with a bevel gear I2-8, the bevel gear I2-8 is connected with a spiral shaft 2-21, the spiral shaft 2-21 is rotationally connected with a sewage discharge box 2-9, the sewage discharge box 2-9 is connected with the filtering box 2-6, the shaft bevel gear 2-7 is connected with a belt pulley II2-10, the belt pulley II2-10 is frictionally connected with a belt I2-11, the belt I2-11 is frictionally connected with a belt pulley III2-13, the scraping seat 2-12 is arranged on the blow-off box 2-9, the belt pulley III2-13 is connected with the driving wheel 2-20 with the bulge, the secondary shaft 2-23 is connected with the filtering wheel 2-18 with the shaft, the filtering wheel 2-18 with the shaft is rotationally connected with the filtering box 2-6, the secondary shaft 2-23 is rotationally connected with the filtering box 2-6, the coupling II2-14 is connected with the driving wheel 2-20 with the bulge, the coupling II2-14 is connected with the pollution discharge driving motor 2-15, the pollution discharge driving motor 2-15 is connected with the motor base I2-16, the motor base I2-16 is connected with the filtering box 2-6, the mixed liquid output pipe 2-17 is connected and communicated with the filtering box 2-6, the mixed liquid output pipe 2-17 passes through the secondary platform 2-4 with the hole, the filtering wheel 2-18 with the shaft is provided with the filtering hole 2-, the belt-protrusion driving wheel 2-20 is meshed with the filtering hole 2-19, the belt-shaft filtering wheel 2-18 is contacted with the scraping seat 2-12, the sewage discharge outlet 2-22 is arranged on the sewage discharge box 2-9, the mixed liquid output pipe 2-17 penetrates into the air cooling box 1-1 from the opening 1-2 at one side and then penetrates out from the opening 1-2 at the other side, the motor 1-11 is connected with the motor seat 2-3, the sewage discharge driving motor 2-15 operates to drive the coupler II2-14 to rotate, the coupler II2-14 drives the belt-protrusion driving wheel 2-20 to rotate, the belt-protrusion driving wheel 2-20 rotates to drive the belt-shaft filtering wheel 2-18 to rotate through the meshing with the filtering hole 2-19, the rotating direction is clockwise seen from the driving motor 2-15 to the belt pulley III2-13, thus, the mixed liquid entering the filter box 2-6 is continuously filtered by the filter holes 2-19 on the belt shaft filter wheel 2-18 which intermittently rotates, the same liquid is discharged from the mixed liquid output pipe 2-17 after being filtered twice, the dirt filtered in the filter holes 2-19 is directly ejected out in the process that the belt shaft filter wheel 2-20 is meshed with the filter holes 2-19, then the dirt is scraped by the scraping seat 2-12 to slide into the sewage discharge box 2-9 along with the rotation of the belt shaft filter wheel 2-18, the belt pulley III2-13 is driven to rotate when the belt shaft filter wheel 2-20 rotates, the belt pulley III2-13 drives the belt I2-11 to drive the belt pulley II2-10 to rotate, the belt pulley II2-10 drives the belt shaft bevel gear 2-7 to rotate, the bevel gear 2-7 with the shaft can drive the bevel gear I2-8 to rotate, the bevel gear I2-8 can drive the screw shaft 2-21 to rotate, the screw shaft 2-21 can drive the dirt to move downwards, so that the dirt is discharged from the sewage discharge outlet 2-22, and a collecting container can be arranged below the sewage discharge outlet 2-22.

The fourth concrete implementation mode:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12 and 13, and the present embodiment further describes the present embodiment in that the scraping base 2-12 and the axial filter wheel 2-18 are made of high manganese steel.

The working principle of the device is as follows: the device can add two stock solutions under high pressure, two flanged supplementary pipes 1-4 are respectively connected with different stock solution inlet pipes, a motor 1-11 operates to drive a coupler 1-12 to rotate, the coupler 1-12 drives an accelerating pulley 1-42 with a shaft to rotate, the accelerating pulley 1-42 with the shaft drives two double cams 1-13 to synchronously rotate, the double cams 1-13 rotate to drive a pulley 1-10 with a seat to do reciprocating motion in the up-and-down direction through the cooperation with a spring 1-9, the pulley 1-10 with the seat drives an inner piston 1-41 to do reciprocating motion up and down through a piston rod 1-8, thereby causing the pressure difference change in a pressure change box 1-6, when the pressure in the pressure change box 1-6 is reduced, the stock solution in the stock solution box 1-3 can break a liquid inlet one-way valve 1-47 to enter the pressure change box 1-6, when the pressure in the pressure change box 1-6 is increased, liquid can rush out the liquid one-way valve 1-48 to enter the elbow pipe 1-55, the belt shaft roller 1-40 can be driven to reciprocate up and down when the inner piston 1-41 reciprocates up and down, the belt shaft roller 1-40 can drive the belt shaft roller 1-40 to reciprocate up and down due to the relative motion between the belt shaft roller 1-40 and the friction strip 1-38, the belt shaft roller 1-40 can drive the inner stirring wheel 1-39 to reciprocate, so that the sucked stock solution is stirred, so that the stock solution is ensured to be uniform, the double-side cam 1-13 can drive the belt seat pulley I1-14 to reciprocate horizontally through the cooperation with the spring I1-16 when rotating, the belt seat pulley I1-14 can drive the inner piston I1-50 to reciprocate horizontally through the piston rod I1-15, the inner piston I1-50 can cause the pressure change in the pressure change box I1-18, when the pressure in the pressure change box I1-18 is reduced, the liquid in the elbow 1-55 can be sucked into the pressure change box I1-18 through the liquid inlet one-way valve I1-49 and then is sprayed into the buoyancy box 1-21 from the liquid outlet one-way valve I1-54 after being pressurized, the inner piston I1-50 can drive the belt shaft accelerating wheels I1-51 to reciprocate when reciprocating, the belt shaft accelerating wheels I1-51 can drive the inner stirring wheels I1-52 to rotate through the relative motion with the friction strips I1-53, thereby stirring the sucked liquid, ensuring the uniformity of the original liquid in the conveying process, when the double-sided cam 1-13 rotates, the motion of the belt seat pulley 1-10 and the belt seat pulley I1-14 is opposite, therefore, the movement of the inner pistons 1-41 and the movement of the inner pistons I1-50 are opposite in step, namely when the inner pistons 1-41 pressurize the pressure change boxes 1-6, the pressure in the pressure change boxes 1-6 is applied to the elbows 1-55, at the moment, the pressure in the pressure change boxes I1-18 is reduced, the suction force in the pressure change boxes I1-18 is applied to the pressure change boxes 1-6, so that double pressure is formed to bring the liquid in the elbows 1-55 into the pressure change boxes I1-18, and a driving force is formed to form the effect of double liquid driving force, so that the stock solution is continuously conveyed into the buoyancy boxes 1-21, and larger pressure is ensured, and when the two liquids enter the buoyancy boxes 1-21, the liquid fusion can be facilitated by the opposite impact of the pressure; the device can accelerate liquid delivery while performing suspension stirring, the motor I1-34 operates to drive the coupling I1-33 to rotate, the coupling I1-33 drives the rotating shaft 1-32 to rotate, the rotating shaft 1-32 drives the belt pulley I1-31 to rotate, the belt pulley I1-31 drives the hollow belt pulley 1-29 to rotate through the belt 1-30, the hollow belt pulley 1-29 drives the hollow shaft 1-28 to rotate, the hollow shaft 1-28 drives the four-head ejection pipe 1-45 and the side acceleration wheel 1-46 to synchronously rotate, simultaneously, the air pump 1-36 delivers air into the fixed air pipe 1-35, the air can flush the air outlet one-way valve 1-44 to eject downwards from the four-head ejection pipe 1-45, and the air outlet one-way valve 1-44 can prevent liquid backflow, the high-pressure gas flows backwards and upwards after flowing downwards and interacts with the two high-pressure liquids to form certain suspension, so that the high-pressure liquids are mixed more fully and then are thrown towards an output pipe 1-22 under the rotating action of a side accelerating pulley 1-46 to enter an accelerating box 1-24 with supporting legs, when the accelerating pulley 1-42 with a shaft rotates, the rotating direction is clockwise when the motor 1-11 looks towards the accelerating box 1-24 with the supporting legs, so that the mixed liquid body is accelerated, the liquid flow can be accelerated, the liquid flow rate is prevented from being reduced in the mixing process, the overall efficiency is prevented from being influenced, and the mixed liquid enters a filter box 2-6 from a conveying pipe 1-27 communication inlet 2-5; the device can ensure the temperature of the stock solution and the mixed solution, when the accelerating wheels 1-42 with the shafts rotate, the accelerating wheels 1-42 with shafts can drive the wind wheels 1-23 and the internal heat-dissipating wind wheels 1-43 to synchronously rotate, the wind wheels 1-23 rotate to form external air flow, so that the temperature near the stock solution tank 1-3 can be conveniently reduced, thereby preventing deterioration, simultaneously, the rotation of the inner heat dissipation wind wheels 1-43 can form airflow from top to bottom, the air enters the heat dissipation wind boxes 1-25 from the wind box inlet ports 1-26 and then enters the air cooling boxes 1-1 from the communicating pipes 1-37 downwards, and is discharged from the side outlet pipes 1-56 after exchanging heat with the mixed liquid output pipes 2-17, because the last mixed liquor is conveyed away from the mixed liquor output pipe 2-17, the mixed liquor can be cooled, and the quality of the mixed liquor is ensured; the device can complete secondary filtration and cleaning and pollution discharge of the filter wheel, the pollution discharge driving motor 2-15 operates to drive the coupler II2-14 to rotate, the coupler II2-14 drives the belt protrusion driving wheel 2-20 to rotate, the belt protrusion driving wheel 2-20 rotates to drive the belt shaft filter wheel 2-18 to rotate through meshing with the filter holes 2-19, the rotation direction is clockwise when viewed from the pollution discharge driving motor 2-15 to the belt pulley III2-13, thus mixed liquid entering the filter box 2-6 can be continuously filtered by the filter holes 2-19 on the belt shaft filter wheel 2-18 which rotates intermittently, the same liquid is discharged from the mixed liquid output pipe 2-17 after being filtered for two times, and the belt protrusion driving wheel 2-20 is meshed with the filter holes 2-19, the dirt filtered from the filter holes 2-19 can be directly ejected out, then along with the rotation of the shaft-provided filter wheel 2-18, the dirt is scraped off by the scraping seat 2-12 and slides into the sewage discharge tank 2-9, the belt pulley III2-13 can be driven to rotate when the shaft-provided drive wheel 2-20 rotates, the belt pulley III2-13 can drive the belt I2-11 to drive the belt pulley II2-10 to rotate, the belt pulley II2-10 can drive the shaft-provided bevel gear 2-7 to rotate, the shaft-provided bevel gear 2-7 can drive the bevel gear I2-8 to rotate, the bevel gear I2-8 can drive the spiral shaft 2-21 to rotate, and the spiral shaft 2-21 can drive the dirt to move downwards, thereby the dirt is discharged from the sewage discharge outlet 2-22, and a collecting container can be arranged below the sewage discharge outlet 2-22.

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 (4)

1. The utility model provides a liquid suspension mixing arrangement, includes suspension mixing mechanism (1), filtration blowdown mechanism (2), its characterized in that: the suspension mixing mechanism (1) is connected with the filtering and sewage discharging mechanism (2).

2. A liquid suspension mixing apparatus as claimed in claim 1, wherein: the suspension mixing mechanism (1) comprises an air cooling box (1-1), an opening (1-2), a stock solution box (1-3), a supplementary pipe (1-4) with a flange, a connecting pipe (1-5), a pressure change box (1-6), a piston box (1-7), a piston rod (1-8), a spring (1-9), a pulley (1-10) with a seat, a motor (1-11), a coupler (1-12), a double-sided cam (1-13), a pulley I (1-14) with a seat, a piston rod I (1-15), a spring I (1-16), a piston box I (1-17), a pressure change box I (1-18), a support frame (1-19), a spraying connecting pipe (1-20), a buoyancy box (1-21), An output pipe (1-22), a wind wheel (1-23), an accelerating box (1-24) with supporting legs, a heat dissipation wind box (1-25), a wind box inlet (1-26), a conveying pipe (1-27), a hollow shaft (1-28), a hollow belt pulley (1-29), a belt (1-30), a belt pulley I (1-31), a rotating shaft (1-32), a coupling I (1-33), a motor I (1-34), a fixed gas conveying pipe (1-35), a gas pump (1-36), a communicating pipe (1-37), a friction strip (1-38), an inner stirring wheel (1-39), a roller (1-40) with a shaft, an inner piston (1-41), an accelerating wheel (1-42) with a shaft, an inner heat dissipation wind wheel (1-43), an air outlet one-way valve (1-44), Four-head ejection pipe (1-45), side accelerating pulley (1-46), liquid inlet one-way valve (1-47), liquid outlet one-way valve (1-48), liquid inlet one-way valve I (1-49), inner piston I (1-50), accelerating pulley I (1-51) with shaft, inner stirring pulley I (1-52), friction strip I (1-53), liquid outlet one-way valve I (1-54), elbow pipe (1-55), side outlet pipe (1-56), opening (1-2) symmetrically arranged on two sides of air cooling box (1-1), flange supplementary pipe (1-4) arranged on raw liquid box (1-3), connecting pipe (1-5) connecting raw liquid box (1-3) and pressure change box (1-6), pressure change box (1-6) connecting and piston box (1-7) and communicating, the piston rod (1-8) is connected with the piston box (1-7) in a sliding way, the spring (1-9) is sleeved on the piston rod (1-8), two ends of the spring (1-9) are respectively connected with the piston box (1-7) and the pulley (1-10) with the seat, the pulley (1-10) with the seat is contacted with the bilateral cam (1-13), the motor (1-11) is connected with the coupler (1-12), the coupler (1-12) is connected with the accelerating pulley (1-42) with the shaft, the two bilateral cams (1-13) are symmetrically arranged on the accelerating pulley (1-42) with the shaft, the pulley I (1-14) with the seat is contacted with the bilateral cam (1-13), the pulley I (1-14) with the seat is connected with the piston rod I (1-15), the spring I (1-16) is sleeved on the piston rod I (1-15), two ends of a spring I (1-16) are respectively connected to a pulley I (1-14) with a seat and a piston box I (1-17), the piston box I (1-17) is connected and communicated with a pressure change box I (1-18), the piston box I (1-17) is connected with a support frame (1-19), a bent pipe (1-55) is used for communicating the pressure change box (1-6) with the pressure change box I (1-18), the pressure change box I (1-18) is connected and communicated with a spraying connecting pipe (1-20), the spraying connecting pipe (1-20) is connected and communicated with a buoyancy box (1-21), the spraying connecting pipes (1-20) are symmetrically arranged at two sides of the buoyancy box (1-21), the buoyancy box (1-21) is connected and communicated with an output pipe (1-22), the output pipe (1-22) is connected and communicated with an accelerating box (1-24) with supporting legs, the wind wheel (1-23) and an inner heat-dissipating wind wheel (1-43) are symmetrically connected on the accelerating wheel (1-42) with a shaft, the accelerating box (1-24) with supporting legs is connected with a heat-dissipating wind box (1-25), a wind box inlet (1-26) is arranged on the heat-dissipating wind box (1-25), the accelerating box (1-24) with supporting legs is connected and communicated with a conveying pipe (1-27), a hollow shaft (1-28) is rotationally connected with a buoyancy box (1-21), the hollow shaft (1-28) is connected and communicated with a hollow belt pulley (1-29), a belt (1-30) is frictionally connected with the hollow belt pulley (1-29), and the belt (1-30) is frictionally connected with a belt pulley I (1-31), the belt pulleys I (1-31) are connected with the rotating shafts (1-32), the rotating shafts (1-32) are rotatably connected with the supporting frames (1-19), the rotating shafts (1-32) are connected with the couplers I (1-33), the couplers I (1-33) are connected with the motors I (1-34), the motors I (1-34) are connected with the supporting frames (1-19), the fixed air pipes (1-35) are rotatably connected with the hollow belt pulleys (1-29), the fixed air pipes (1-35) are connected with the supporting frames (1-19), the fixed air pipes (1-35) are connected with the air pumps (1-36), the communicating pipes (1-37) are connected and communicated with the heat dissipation air boxes (1-25), the friction strips (1-38) are symmetrically arranged in the piston boxes (1-7), the inner stirring wheel (1-39) is connected with the roller (1-40) with the shaft, the roller (1-40) with the shaft is connected with the friction strip (1-38) in a friction way, the roller (1-40) with the shaft is connected with the inner piston (1-41) in a rotating way, the inner piston (1-41) is connected with the piston box (1-7) in a sliding way, the inner piston (1-41) is connected with the friction strip (1-38) in a sliding way, the inner piston (1-41) is connected with the piston rod (1-8), the accelerating wheel (1-42) with the shaft is connected with the accelerating box (1-24) with the supporting legs in a rotating way, the accelerating wheel (1-42) with the shaft is connected with the radiating air box (1-25) in a rotating way, the inner radiating air wheel (1-43) is arranged in the radiating air box (1-25), and the four air outlet one-way valves (1-44) are arranged in the four-, four-head ejection pipes (1-45) are connected and communicated with hollow shafts (1-28), the hollow shafts (1-28) are connected with side accelerating wheels (1-46), liquid inlet one-way valves (1-47) are arranged in connecting pipes (1-5), liquid outlet one-way valves (1-48) are arranged in bent pipes (1-55), liquid inlet one-way valves I (1-49) are arranged in bent pipes (1-55), inner pistons I (1-50) are rotationally connected with accelerating wheels I (1-51) with shafts, the accelerating wheels I (1-51) with shafts are connected with inner stirring wheels I (1-52), the accelerating wheels I (1-51) with shafts are in friction connection with friction strips I (1-53), the friction strips I (1-53) are symmetrically arranged in piston boxes I (1-17), the inner pistons I (1-50) are in sliding connection with the friction strips I (1-53), the inner piston I (1-50) is connected with the piston box I (1-17) in a sliding mode, the inner piston I (1-50) is connected with the piston rod I (1-15), the liquid outlet one-way valve I (1-54) is arranged in the spraying connecting pipe (1-20), and the side outlet pipe (1-56) is connected and communicated with the air cooling box (1-1).

3. A liquid suspension mixing apparatus as claimed in claim 1, wherein: the filtering and sewage draining mechanism (2) comprises a base (2-1), auxiliary supporting legs (2-2), a motor base (2-3), a secondary platform (2-4) with holes, a communicating inlet (2-5), a filter box (2-6), a bevel gear with a shaft (2-7), a bevel gear I (2-8), a sewage draining box (2-9), a belt pulley II (2-10), a belt I (2-11), a scraping base (2-12), a belt pulley III (2-13), a coupling II (2-14), a sewage draining driving motor (2-15), a motor base I (2-16), a mixed liquid output pipe (2-17), a filtering wheel with a shaft (2-18), filter holes (2-19), a driving wheel with protrusions (2-20), A screw shaft (2-21), a sewage draining outlet (2-22) and a secondary shaft (2-23), wherein a base (2-1) is connected with an auxiliary supporting leg (2-2), a motor base (2-3) is connected with a secondary platform (2-4) with holes, the secondary platform (2-4) with holes is connected with the base (2-1), an air cooling box (1-1) is connected with the base (2-1), a raw liquid box (1-3) is connected with the secondary platform (2-4) with holes, a pressure change box (1-6) is connected with the secondary platform (2-4) with holes, a support frame (1-19) is connected with the secondary platform (2-4) with holes, an acceleration box (1-24) with supporting legs is connected with the secondary platform (2-4) with holes, an air pump (1-36) is connected with the secondary platform (2-4) with holes, the communicating pipe (1-37) penetrates through the secondary platform (2-4) with the hole, the conveying pipe (1-27) is communicated with the communicating inlet (2-5), the conveying pipe (1-27) is connected with the filtering box (2-6), the filtering box (2-6) is connected with the base (2-1), the filtering box (2-6) is provided with the communicating inlet (2-5), the bevel gear (2-7) with the shaft is rotatably connected with the filtering box (2-6), the bevel gear (2-7) with the shaft is meshed with the bevel gear I (2-8), the bevel gear I (2-8) is connected with the spiral shaft (2-21), the spiral shaft (2-21) is rotatably connected with the sewage discharge box (2-9), the sewage discharge box (2-9) is connected with the filtering box (2-6), a bevel gear (2-7) with a shaft is connected with a belt pulley II (2-10), the belt pulley II (2-10) is connected with a belt I (2-11) in a friction way, the belt I (2-11) is connected with a belt pulley III (2-13) in a friction way, a scraping seat (2-12) is arranged on a sewage draining box (2-9), the belt pulley III (2-13) is connected with a driving wheel (2-20) with a bulge, a secondary shaft (2-23) is connected with a filtering wheel (2-18) with a shaft, the filtering wheel (2-18) with a shaft is connected with a filtering box (2-6) in a rotation way, the secondary shaft (2-23) is connected with the filtering box (2-6) in a rotation way, a coupler II (2-14) is connected with the driving wheel (2-20) with a bulge, the coupler II (2-14) is connected with a sewage draining driving motor (2-15), the sewage discharge driving motor (2-15) is connected with the motor base I (2-16), the motor base I (2-16) is connected with the filter box (2-6), the mixed liquid output pipe (2-17) is connected and communicated with the filter box (2-6), the mixed liquid output pipe (2-17) passes through the secondary platform (2-4) with a hole, the filtering wheel (2-18) with a shaft is provided with a filtering hole (2-19), the driving wheel (2-20) with a bulge is meshed with the filtering hole (2-19), the filtering wheel (2-18) with a shaft is contacted with the scraping base (2-12), the sewage discharge outlet (2-22) is arranged on the sewage discharge box (2-9), the mixed liquid output pipe (2-17) passes through the air cooling box (1-1) from the opening (1-2) at one side and then passes out from the opening (1-2) at the other side, the motors (1-11) are connected with the motor bases (2-3).

4. A liquid suspension mixing apparatus as claimed in claim 3, wherein: the scraping seat (2-12) and the filtering wheel with the shaft (2-18) are made of high manganese steel.

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