CN117839509B - Microorganism water quality modifier preparation facilities - Google Patents

Abstract

The invention discloses a preparation device of a microbial water quality improver, which comprises a bacterial liquid quantifying component, an organic matter quantifying component, an improver mixing component and a discharging, drying and crushing component. The invention belongs to the field of modifier preparation, and particularly relates to a microbial water quality modifier preparation device; according to the invention, the wire rope for the pushing cover of the mixing tank is used for pulling the bacteria liquid feeding cover plate and the organic matter feeding cover plate, so that bacteria liquid and organic matters quantitatively enter the modifier mixing tank, and the problems of waste of bacteria liquid or organic matters or poor modifier effect are solved; through the threaded connection of the mixing tank pushing cover and the tank body center rotating shaft, the mixing stirring blade automatically rotates in the process of the up-and-down movement of the mixing tank pushing cover, the stirring of bacterial liquid and organic matter mixture is completed, and in the process of the rotation of the tank body center rotating shaft, the opening and closing of the modifier discharging baffle assembly are controlled, and the functions of closing when the modifier is stirred and mixed and opening when the modifier is mixed are realized.

Description

Microorganism water quality modifier preparation facilities

Technical Field

The invention belongs to the technical field of modifier preparation, and particularly relates to a device for preparing a microbial water quality modifier.

Background

The microbial water quality improver is an improver for improving water quality by utilizing extremely efficient biochemical conversion capability and reproductive capacity of microorganisms, is generally used for solving the problem of overnutrition of water in a pond, and the conventional microbial water quality improver is prepared by simply mixing bacterial liquid and organic matters together, has no good proportion on the bacterial liquid and the organic matters, and is easy to cause the problem of overmuch or overlittle bacterial liquid in the preparation process, so that the improver is poor in effect or waste of the bacterial liquid.

Disclosure of Invention

Aiming at the situation, the invention provides a preparation device of a microbial water quality improver and a use method thereof, which aims to overcome the defects of the prior art and effectively solve the problems.

The technical scheme adopted by the invention is as follows: the invention provides a microbial water quality modifier preparation device which comprises a bacterial liquid quantitative assembly, an organic matter quantitative assembly, a modifier mixing assembly and a discharging, drying and crushing assembly, wherein the bacterial liquid quantitative assembly is connected with the modifier mixing assembly, the organic matter quantitative assembly is connected with the modifier mixing assembly, and the modifier mixing assembly is connected with the discharging, drying and crushing assembly.

Further, fungus liquid ration subassembly includes fungus liquid ration jar, fungus liquid pan feeding pipeline, fungus liquid pan feeding mouth fender piece groove, fungus liquid pan feeding mouth fender piece reset spring, fungus liquid apron, wire rope one, fungus liquid feed opening and fungus liquid pan feeding mouth, organic matter ration subassembly includes organic matter ration jar, organic matter pan feeding pipeline, organic matter pan feeding mouth fender piece groove, organic matter pan feeding mouth fender piece reset spring, organic matter apron, wire rope two, organic matter feed opening and organic matter pan feeding mouth.

Through the volume of fungus liquid ration subassembly and organic matter ration subassembly, the concentration of fungus liquid and the how much of organic matter that can be fine control realizes that fungus liquid and organic matter produce the modifier under certain cooperation proportion, can not cause extravagant or the not good condition of modifier effect.

Further, the bacterial liquid ration jar is connected modifier and is mixed subassembly, bacterial liquid pan feeding pipeline is located on the bacterial liquid ration jar, bacterial liquid pan feeding pipeline is equipped with bacterial liquid pan feeding mouth, bacterial liquid pan feeding mouth keeps off the piece groove and establishes on the bacterial liquid ration jar, bacterial liquid pan feeding mouth keeps off the piece groove and locates bacterial liquid pan feeding mouth top, bacterial liquid pan feeding mouth keeps off the piece and slides in bacterial liquid pan feeding mouth keeps off the piece inslot, bacterial liquid pan feeding mouth keeps off piece reset spring one end and connects bacterial liquid pan feeding mouth and keep off the piece, bacterial liquid pan feeding mouth keeps off the piece reset spring other end and connects the bacterial liquid apron, bacterial liquid apron is located in the bacterial liquid ration jar, a wire rope connection bacterial liquid apron.

Through the pulling force of wire rope one and the self gravity of fungus liquid apron, make fungus liquid apron up-and-down motion in fungus liquid ration jar, wire rope one can provide the pulling force, fungus liquid pan feeding mouth keeps off the distance that the piece groove can restrict fungus liquid apron downwardly moving, fungus liquid pan feeding mouth keeps off piece reset spring one end and connects at the fungus liquid apron, fungus liquid pan feeding mouth keeps off piece reset spring other end connection fungus liquid pan feeding mouth keeps off piece, fungus liquid pan feeding mouth keeps off piece reset spring and follows fungus liquid apron and reciprocate, makes fungus liquid pan feeding mouth keep off piece reciprocate, realizes the closure and the opening of fungus liquid pan feeding mouth.

Further, the organic matter ration jar is connected modifier and is mixed subassembly, organic matter pan feeding pipeline is located on the organic matter ration jar, organic matter pan feeding pipeline is equipped with the organic matter pan feeding mouth, organic matter pan feeding mouth keeps off the piece groove and establishes on the organic matter ration jar, organic matter pan feeding mouth keeps off the piece groove and locates organic matter pan feeding mouth top, organic matter pan feeding mouth keeps off the piece and slides in organic matter pan feeding mouth keeps off the piece inslot, organic matter pan feeding mouth keeps off piece reset spring one end and is connected with organic matter pan feeding mouth and keeps off the piece, organic matter pan feeding mouth keeps off the piece reset spring other end and is connected with the organic matter apron, the organic matter apron is located in the organic matter ration jar, wire rope two are connected with the organic matter apron.

Through the pulling force of wire rope two and the self gravity of organic matter apron, make organic matter apron up-and-down motion in organic matter ration jar, wire rope two can provide the pulling force, organic matter pan feeding mouth keeps off the distance that the piece groove can restrict organic matter apron to move down, organic matter pan feeding mouth keeps off piece reset spring one end and is connected organic matter apron, organic matter pan feeding mouth keeps off the piece reset spring other end and is connected organic matter pan feeding mouth keeps off the piece, organic matter pan feeding mouth keeps off piece reset spring to follow organic matter apron and reciprocate, make organic matter pan feeding mouth keep off the piece reciprocate, realize the closure and the opening of organic matter pan feeding mouth.

Further, modifier mixing assembly includes fixed pulley, modifier mixing tank body, modifier ejection of compact base, modifier ejection of compact baffle subassembly, tank body center pivot, mixing stirring vane, mixing tank impels lid and pull rod, modifier ejection of compact base is equipped with boss fender piece, steel wire rope one is connected to the fixed pulley, steel wire rope two is connected to the fixed pulley, the fixed pulley is located modifier mixing tank body top, modifier mixing tank body connects fungus liquid ration subassembly, modifier mixing tank body connects organic matter ration subassembly, modifier ejection of compact base is established in modifier mixing tank body lower part, modifier ejection of compact baffle subassembly connects tank body center pivot, tank body center pivot connection modifier ejection of compact base, mixing stirring vane connects tank body center pivot, mixing tank impels the lid and slides in modifier mixing tank body, the pull rod is connected to mixing tank impels the lid.

The first and second wire ropes are used for connecting the bacterial liquid cover plate and the organic matter cover plate with the mixing tank propelling cover, when the pull rod drives the mixing tank propelling cover to move to the lowest end in the modifier mixing tank, the first wire rope and the second wire rope connected to the mixing tank propelling cover can close the bacterial liquid discharging opening and the organic matter discharging opening, the first wire rope is used for pulling the bacterial liquid cover plate, the second wire rope is used for pulling the organic matter cover plate, the bacterial liquid feeding opening and the organic matter feeding opening are respectively opened, bacterial liquid enters and fills the bacterial liquid quantitative tank, organic matters enter and fill the organic matter quantitative tank, and when the pull rod drives the mixing tank propelling cover to move upwards from the lowest end in the modifier mixing tank, the first wire rope and the second wire rope lose tension, so that the bacterial liquid feeding opening and the organic matter feeding opening are closed, the first wire rope and the second wire rope are continuously moved upwards, and the bacterial liquid and the organic matter discharging opening in the bacterial liquid quantitative tank enter the modifier mixing tank.

Further, jar body center pivot includes blade fixed axle, axle head unable adjustment base, half screw thread center pivot and top fender piece, half section in half screw thread center pivot is equipped with the screw thread, the mixed stirring vane is connected to the blade fixed axle, half screw thread center pivot is connected to the axle head unable adjustment base below is located to modifier ejection of compact base, half screw thread center pivot is connected to the top fender piece, mix jar propulsion lid includes propulsion board, propulsion sleeve and screw thread pull rod mounting, propulsion sleeve connects propulsion sleeve, propulsion sleeve connects modifier and mixes jar body, screw thread pull rod mounting is located on the propulsion sleeve, it connects half screw thread center pivot to impel the axle sleeve, screw thread pull rod mounting internal surface is equipped with the screw thread, screw thread pull rod mounting threaded connection half screw thread center pivot.

Through the advancing lid of blending tank reciprocating, the screw thread pull rod mounting can follow the removal, and the screw thread pull rod mounting passes through half screw thread center pivot of threaded connection, and at the in-process that the screw thread pull rod mounting reciprocated, can drive half screw thread center pivot rotation, and the blade fixed axle can drive and mix stirring vane rotation, and the fungus liquid and the organic matter in the blending tank body of stirring modifier make it intensive mixing.

Further, modifier ejection of compact baffle subassembly includes rotatory recess, modifier ejection of compact baffle and positioning sleeve rotatory recess connection boss fender piece, modifier ejection of compact baffle connects modifier ejection of compact base, positioning sleeve connects axle head unable adjustment base.

Through the frictional force between the locating sleeve and the jar body center pivot, make modifier ejection of compact baffle subassembly follow rotatory, rotatory recess connection boss fender spare can influence the radius of rotation of modifier ejection of compact baffle subassembly, advance the lid and move down when the blending tank, jar body center pivot rotates, drive modifier ejection of compact baffle subassembly and open modifier ejection of compact base, boss fender spare stops modifier ejection of compact baffle subassembly and continue to rotate, the modifier that mixes can flow modifier blending tank under self gravity, the process that the blending tank advances the lid and moves down, the propulsion board can push the modifier to modifier ejection of compact base with a small amount of residual modifier of the internal wall of modifier blending tank, advance the lid when the blending tank and move up, modifier ejection of compact baffle subassembly can rotate and close modifier ejection of compact base, later fungus liquid and organic matter enter into the interior stirring of modifier blending tank.

Further, ejection of compact stoving crushing subassembly includes modifier discharging device, modifier flat deck, modifier drying device, transport assembly, first reducing mechanism, secondary reducing mechanism and axle bed, modifier discharging device connects modifier blending tank, modifier flat deck connects modifier discharging device, transport assembly locates modifier flat deck below, modifier drying device locates transport assembly top, first reducing mechanism establishes on transport assembly, secondary reducing mechanism connects transport assembly, transport assembly is connected to the axle bed, primary reducing mechanism is connected to the axle bed, secondary reducing mechanism is connected to the axle bed, transport assembly includes conveyer belt, conveyer belt pulley baffle, transfer pulley one, transfer pulley two, drive spindle shaft lever, motor, spindle pulley two, spindle pulley three, transfer pulley two axostylus axostyles and belt pulley one, the conveyer belt baffle is established in the conveyer belt both sides, a transfer pulley connection conveyer belt, the drive spindle is connected to the transport pulley one, the drive spindle is connected to the motor, the spindle pulley one is established on the spindle pulley one, the drive spindle pulley two is established on the drive spindle pulley two, the drive spindle pulley two is established on the spindle pulley two, the drive spindle pulley two is connected to the drive spindle pulley two, the drive spindle pulley two is established on the spindle pulley two.

The modifier is dropped onto the conveyor belt through the modifier discharging device, the conveyor belt baffle can prevent the modifier from falling out of the conveyor belt, the modifier tiling plate can tile the modifier on the conveyor belt into a sheet shape along with the movement of the modifier driven by the conveyor belt, and the modifier drying device can dry the modifier tiled into the sheet shape.

Further, the primary crushing device comprises a main wheel, a main wheel shaft lever, a belt pulley II, an auxiliary wheel I shaft lever, a belt pulley III, a belt pulley IV, an auxiliary wheel II shaft lever and a belt pulley V, wherein the main wheel is arranged above the conveyor belt, the main wheel shaft lever is connected with the main wheel, the belt pulley II is arranged on the main wheel shaft lever, the auxiliary wheel I shaft lever is connected with the auxiliary wheel I, the belt pulley III is arranged on the auxiliary wheel I shaft lever, the belt pulley IV is arranged on the auxiliary wheel I shaft lever, the auxiliary wheel II is arranged below the conveyor belt, the secondary grinding device comprises an arc grinding slide way, an ellipsoid grinding wheel, a grinding wheel shaft and a belt pulley III, wherein the arc grinding slide way comprises a locating hole, the ellipsoid grinding wheel is used for grinding the wheel shaft, the grinding wheel shaft is connected with the locating hole, the belt pulley III is arranged on the grinding wheel shaft, the belt pulley III is connected with the main shaft belt pulley II, the belt pulley IV is connected with the belt pulley V, the secondary grinding device comprises an arc grinding slide way, an ellipsoid grinding wheel, a grinding wheel shaft and the belt pulley III, and the arc grinding slide way comprises a locating hole, the ellipsoid grinding wheel shaft is connected with the grinding wheel shaft.

The modifier dried on the conveyor belt is bent and rolled through the primary crushing device to form a strip modifier, then the strip modifier is continuously conveyed to the secondary crushing device along with the conveyor belt, falls along an arc-shaped crushing slideway along with the dead weight, is rolled through an ellipsoid grinding wheel and can be rolled into small-particle finished product modifier, and the finished product modifier is crushed through the primary crushing device and the secondary crushing device, so that the processing of the finished product modifier is completed, and the conveying assembly, the primary crushing device and the secondary crushing device are driven by a motor.

The beneficial effects obtained by the invention by adopting the structure are as follows:

1. The fungus liquid quantitative assembly and the organic matter quantitative assembly that this scheme provided, the concentration and the organic matter of control fungus liquid that can be fine how much realize fungus liquid and organic matter production modifier under certain cooperation proportion, can not cause extravagant or the not good condition of modifier effect.

2. According to the scheme, the first wire rope and the second wire rope are used for connecting the bacterial liquid cover plate and the organic matter cover plate with the mixing tank propelling cover, when the pull rod drives the mixing tank propelling cover to move to the lowest end in the modifier mixing tank, the first wire rope and the second wire rope connected to the mixing tank propelling cover can be pulled, the first wire rope pulls the bacterial liquid cover plate, the second wire rope pulls the organic matter cover plate, the bacterial liquid inlet and the organic matter inlet are respectively opened, bacterial liquid enters and fills the bacterial liquid quantitative tank, organic matters enter and fill the organic matter quantitative tank, when the pull rod drives the mixing tank propelling cover to move upwards from the lowest end in the modifier mixing tank, the first wire rope and the second wire rope lose pulling force, the bacterial liquid cover plate and the organic matter cover plate are closed, the bacterial liquid inlet and the organic matter inlet are continuously moved upwards, and the bacterial liquid inlet and the organic matter inlet are opened, and bacterial liquid and the organic matter quantitative tank in the bacterial liquid quantitative tank enter the modifier mixing tank.

3. Through the advancing lid of blending tank reciprocating, the screw thread pull rod mounting can follow the removal, and the screw thread pull rod mounting passes through half screw thread center pivot of threaded connection, and at the in-process that the screw thread pull rod mounting reciprocated, can drive half screw thread center pivot rotation, and the blade fixed axle can drive and mix stirring vane rotation, and the fungus liquid and the organic matter in the blending tank body of stirring modifier make it intensive mixing.

4. Through the frictional force between the locating sleeve and the jar body center pivot, make modifier ejection of compact baffle subassembly follow rotatory, rotatory recess connection boss fender spare can influence the radius of rotation of modifier ejection of compact baffle subassembly, advance the lid and move down when the blending tank, jar body center pivot rotates, drive modifier ejection of compact baffle subassembly and open modifier ejection of compact base, boss fender spare stops modifier ejection of compact baffle subassembly and continue to rotate, the modifier that mixes can flow modifier blending tank under self gravity, the process that the blending tank advances the lid and moves down, the propulsion board can push the modifier to modifier ejection of compact base with a small amount of residual modifier of the internal wall of modifier blending tank, advance the lid when the blending tank and move up, modifier ejection of compact baffle subassembly can rotate and close modifier ejection of compact base, later fungus liquid and organic matter enter into the interior stirring of modifier blending tank.

5. The modifier dried on the conveyor belt is bent and rolled through the primary crushing device to form a strip modifier, then the strip modifier is continuously conveyed to the secondary crushing device along with the conveyor belt, the strip modifier falls along an arc-shaped crushing slideway along with the dead weight, is rolled through an ellipsoid grinding wheel, and can be rolled into small-particle finished product modifier, and the finished product modifier is processed through the primary crushing device and the secondary crushing device.

Drawings

FIG. 1 is a perspective view of a device for preparing a microbial water conditioner according to the present invention;

FIG. 2 is a rear view of a device for preparing a microbial water conditioner according to the present invention;

FIG. 3 is a cross-sectional view taken along section line A-A of FIG. 2;

FIG. 4 is a cross-sectional view taken along section line B-B in FIG. 2;

FIG. 5 is a cross-sectional view taken along section line C-C in FIG. 2;

FIG. 6 is a cross-sectional view taken along section line D-D in FIG. 3;

FIG. 7 is a schematic diagram of a discharging, drying and pulverizing assembly of a device for preparing a microbial water conditioner according to the present invention;

FIG. 8 is a schematic structural view of a mixing blade of a device for preparing a microbial water conditioner according to the present invention;

FIG. 9 is an enlarged view of a portion of the portion I of FIG. 3;

fig. 10 is an enlarged view of a portion at ii in fig. 4.

Wherein, 1, a bacterial liquid quantifying component, 2, an organic matter quantifying component, 3, a modifier mixing component, 4, a discharging, drying and smashing component, 11, a bacterial liquid quantifying tank, 12, a bacterial liquid feeding pipeline, 13, a bacterial liquid feeding port blocking piece, 14, a bacterial liquid feeding port blocking piece groove, 15, a bacterial liquid feeding port blocking piece reset spring, 16, a bacterial liquid cover plate, 17, a first steel wire rope, 18, a bacterial liquid discharging port, 19, a bacterial liquid feeding port, 21, an organic matter quantifying tank, 22, an organic matter feeding pipeline, 23, an organic matter feeding port blocking piece, 24, an organic matter feeding port blocking piece groove, 25, an organic matter feeding port blocking piece reset spring, 26, an organic matter cover plate, 27, a second steel wire rope, 28, an organic matter discharging port, 29, an organic matter feeding port, 31, a fixed pulley, 32, a modifier mixing tank body, 33, a modifier discharging base, 331, a boss blocking piece, 34, and a modifier discharging baffle component, 341, rotating grooves, 342, modifier discharge baffles, 343, positioning sleeves, 35, tank center shafts, 351, blade fixing shafts, 352, shaft end fixing bases, 353, half-thread center shafts, 354, top end stoppers, 36, mixing stirring blades, 37, mixing tank pushing covers, 371, pushing plates, 372, pushing sleeves, 373, pushing shaft sleeves, 374, thread pull rod fixing members, 38, pull rods, 41, modifier discharge devices, 42, modifier flat plates, 43, modifier drying devices, 44, conveying assemblies, 441, conveyor belts, 442, conveyor belt baffles, 443, first conveying wheels, 444, second conveying wheels, 445, driving main shafts, 4451, first main shaft pulleys, 4452, second main shaft pulleys, 4453, third main shaft pulleys, 446, motors, 447, second conveying wheels shafts, 4471, first belt pulleys, 45, primary crushing devices, 451, main wheels, 452. primary axle rod, 4521, pulley two, 453, secondary wheel one, 454, secondary wheel one axle rod, 4541, pulley three, 4542, pulley four, 455, secondary wheel two, 456, secondary wheel two axle rod, 4561, pulley five, 46, secondary crushing device 461, arc crushing slideway, 4611, locating hole, 462, ellipsoid crushing wheel, 463, crushing wheel axle, 4631, pulley six, 47, axle seat.

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention; all other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be understood that the terms "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "inner," "outer," and the like indicate orientation or positional relationships based on those shown in the drawings, merely to facilitate description of the invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the invention.

As shown in fig. 1-10, the invention provides a microbial water quality modifier preparation device and a use method thereof, wherein the microbial water quality modifier preparation device comprises a bacterial liquid quantifying component 1, an organic matter quantifying component 2, a modifier mixing component 3 and a discharging, drying and crushing component 4, the bacterial liquid quantifying component 1 is connected with the modifier mixing component 3, the organic matter quantifying component 2 is connected with the modifier mixing component 3, the modifier mixing component 3 is connected with the discharging, drying and crushing component 4, the bacterial liquid quantifying component 1 comprises a bacterial liquid quantifying tank 11, a bacterial liquid feeding pipeline 12, a bacterial liquid feeding port baffle 13, a bacterial liquid feeding port baffle groove 14, a bacterial liquid feeding port baffle return spring 15, a bacterial liquid cover plate 16, a first steel wire rope 17, a bacterial liquid discharging port 18 and a bacterial liquid feeding port 19, and the organic matter quantifying component 2 comprises an organic matter feeding pipeline 21, an organic matter feeding port baffle 23, an organic matter feeding port baffle groove 24, an organic matter feeding port baffle return spring 25, an organic matter cover plate 26, a second steel wire rope 27 and an organic matter discharging port 29.

The volumes of the bacterial liquid quantifying component 1 and the organic matter quantifying component 2 can well control the concentration of bacterial liquid and the quantity of organic matters, so that the bacterial liquid and the organic matters can be used for producing the modifier in a certain mixing proportion, and the waste or poor modifier effect can not be caused.

The bacterial liquid ration jar 11 is connected modifier and is mixed subassembly 3, bacterial liquid pan feeding pipeline 12 is located on the bacterial liquid ration jar 11, bacterial liquid pan feeding pipeline 12 is equipped with bacterial liquid pan feeding mouth 19, bacterial liquid pan feeding mouth keeps off piece groove 14 and establishes on bacterial liquid ration jar 11, bacterial liquid pan feeding mouth keeps off piece groove 14 locates bacterial liquid pan feeding mouth 19 top, bacterial liquid pan feeding mouth keeps off piece 13 slides in bacterial liquid pan feeding mouth keeps off piece groove 14, bacterial liquid pan feeding mouth keeps off piece return spring 15 one end and connects bacterial liquid pan feeding mouth fender 13, bacterial liquid pan feeding mouth fender return spring 15 other end connects bacterial liquid apron 16, bacterial liquid apron 16 is located in the bacterial liquid ration jar 11, bacterial liquid apron 16 is connected to wire rope one 17.

The tension of the first steel wire rope 17 and the gravity of the bacteria liquid cover plate 16 enable the bacteria liquid cover plate 16 to move up and down in the bacteria liquid quantifying tank 11, the first steel wire rope 17 only provides tension, the bacteria liquid feed port baffle groove 14 can limit the downward moving distance of the bacteria liquid cover plate 16, one end of the bacteria liquid feed port baffle return spring 15 is connected with the bacteria liquid cover plate 16, the other end of the bacteria liquid feed port baffle return spring 15 is connected with the bacteria liquid feed port baffle 13, the bacteria liquid feed port baffle return spring 15 moves up and down along with the bacteria liquid cover plate 16, the bacteria liquid feed port baffle 13 moves up and down, and closing and opening of the bacteria liquid feed port 19 are achieved.

The organic matter ration jar 21 is connected modifier mixing element 3, organic matter pan feeding pipeline 22 is located on the organic matter ration jar 21, organic matter pan feeding pipeline 22 is equipped with organic matter pan feeding mouth 29, organic matter pan feeding mouth keeps off piece groove 24 and establishes on the organic matter ration jar 21, organic matter pan feeding mouth keeps off piece groove 24 locates organic matter pan feeding mouth 29 top, organic matter pan feeding mouth keeps off piece 23 slides in organic matter pan feeding mouth keeps off piece groove 24, organic matter pan feeding mouth keeps off piece return spring 25 one end and is connected organic matter pan feeding mouth fender 23, organic matter pan feeding mouth keeps off piece return spring 25 other end and is connected organic matter apron 26, organic matter apron 26 is located in the organic matter ration jar 21, wire rope two 27 are connected organic matter apron 26.

The second wire rope 27 has a pulling force and self gravity of the organic cover 26, so that the organic cover 26 moves up and down in the organic quantitative tank 21, the second wire rope 27 only provides a pulling force, the organic feed port stopper groove 24 can limit the downward moving distance of the organic cover 26, one end of the organic feed port stopper return spring 25 is connected with the organic cover 26, the other end of the organic feed port stopper return spring 25 is connected with the organic feed port stopper 23, the organic feed port stopper return spring 25 moves up and down along with the organic cover 26, so that the organic feed port stopper 23 moves up and down, and the organic feed port 29 is closed and opened.

The modifier mixing assembly 3 comprises a fixed pulley 31, a modifier mixing tank 32, a modifier discharging base 33, a modifier discharging baffle assembly 34, a tank center rotating shaft 35, a mixing stirring blade 36, a mixing tank pushing cover 37 and a pull rod 38, wherein the modifier discharging base 33 is provided with a boss baffle 331, the fixed pulley 31 is connected with a first steel wire rope 17, the fixed pulley 31 is connected with a second steel wire rope 27, the fixed pulley 31 is arranged above the modifier mixing tank 32, the modifier mixing tank 32 is connected with a bacterial liquid quantifying assembly 1, the modifier mixing tank 32 is connected with an organic matter quantifying assembly 2, the modifier discharging base 33 is arranged at the lower part of the modifier mixing tank 32, the modifier discharging baffle assembly 34 is connected with the tank center rotating shaft 35, the tank center rotating shaft 35 is connected with the modifier discharging base 33, the mixing stirring blade 36 is connected with the tank center rotating shaft 35, the mixing tank pushing cover 37 slides in the modifier mixing tank 32, and the pull rod 38 is connected with the mixing tank pushing cover 37.

The first wire rope 17 and the second wire rope 27 connect the bacteria liquid cover plate 16 and the organic matter cover plate 26 with the mixing tank propulsion cover 37, when the pull rod 38 drives the mixing tank propulsion cover 37 to move to the lowest end in the modifier mixing tank 32, the mixing tank propulsion cover 37 can close the bacteria liquid feed opening 18 and the organic matter feed opening 28, the first wire rope 17 and the second wire rope 27 connected to the mixing tank propulsion cover 37 are pulled, the first wire rope 17 pulls the bacteria liquid cover plate 16, the second wire rope 27 pulls the organic matter cover plate 26, the bacteria liquid feed opening 19 and the organic matter feed opening 29 are respectively opened, bacteria liquid enters and fills the bacteria liquid quantitative tank 11, the organic matter enters and fills the organic matter quantitative tank 21, when the pull rod 38 drives the mixing tank propulsion cover 37 to move upwards from the lowest end in the modifier mixing tank 32, the first wire rope 17 and the second wire rope 27 lose tension to enable the bacteria liquid cover plate 16 and the organic matter cover plate 26, the bacteria liquid feed opening 19 and the organic matter feed opening 29 are closed, the mixing tank propulsion cover 37 moves up, the bacteria liquid feed opening 18 and the organic matter feed opening 28 continues to be opened, and the bacteria liquid feed opening 21 is filled into the organic matter quantitative tank 11.

The tank body center rotating shaft 35 comprises a blade fixing shaft 351, a shaft end fixing base 352, a half-thread center rotating shaft 353 and a top end blocking piece 354, threads are arranged on the upper half section of the half-thread center rotating shaft 353, the blade fixing shaft 351 is connected with the mixing stirring blade 36, the blade fixing shaft 351 is connected with the half-thread center rotating shaft 353, the shaft end fixing base 352 is arranged below the modifier discharging base 33, the top end blocking piece 354 is connected with the half-thread center rotating shaft 353, the mixing tank propelling cover 37 comprises a propelling plate 371, a propelling sleeve 372, a propelling shaft sleeve 373 and a thread pull rod fixing piece 374, the propelling plate 371 is connected with the propelling sleeve 372, the propelling sleeve 372 is connected with the modifier mixing tank body 32, the thread pull rod fixing piece 374 is arranged on the propelling shaft sleeve 373, the propelling shaft sleeve 373 is connected with the half-thread center rotating shaft 353, threads are arranged on the inner surface of the thread pull rod fixing piece 374, and the thread pull rod fixing piece 374 is in threaded connection with the half-thread center rotating shaft 353.

Wherein the mixing tank pushes the cap 37 up and down, so that the screw pull rod fixing member 374 moves, the screw pull rod fixing member 374 is connected with the half screw center rotating shaft 353 through screw threads, and in the process of moving the screw pull rod fixing member 374 up and down, the half screw center rotating shaft 353 is driven to rotate, and the blade fixing shaft 351 can drive the mixing stirring blade 36 to rotate, so that the bacterial liquid and the organic matters in the mixing tank 32 are fully mixed by the stirring modifier.

The modifier discharge baffle assembly 34 comprises a rotary groove 341, a modifier discharge baffle 342 and a positioning sleeve 343, wherein the rotary groove 341 is connected with the boss baffle 331, the modifier discharge baffle 342 is connected with the modifier discharge base 33, and the positioning sleeve 343 is connected with the shaft end fixing base 352.

The friction force between the positioning sleeve 343 and the tank center rotating shaft 35 causes the modifier discharging baffle assembly 34 to rotate, the rotating groove 341 is connected with the boss baffle 331, which affects the rotating radius of the modifier discharging baffle assembly 34, when the mixing tank pushing cover 37 moves down, the tank center rotating shaft 35 rotates to drive the modifier discharging baffle assembly 34 to open the modifier discharging base 33, the boss baffle 331 blocks the modifier discharging baffle assembly 34 from rotating continuously, the mixed modifier flows out of the modifier mixing tank 32 under the self gravity, the pushing plate 371 pushes a small amount of residual modifier on the inner wall of the modifier mixing tank 32 to the modifier discharging base 33, when the mixing tank pushing cover 37 moves up, the modifier discharging baffle assembly 34 rotates and closes the modifier discharging base 33, and then bacterial liquid and organic matters enter the modifier mixing tank 32 to be stirred.

The discharging, drying and pulverizing assembly 4 comprises a modifier discharging device 41, a modifier flat plate 42, a modifier drying device 43, a conveying assembly 44, a primary pulverizing device 45, a secondary pulverizing device 46 and a shaft seat 47, wherein the modifier discharging device 41 is connected with a modifier mixing tank 32, the modifier flat plate 42 is connected with the modifier discharging device 41, the conveying assembly 44 is arranged below the modifier flat plate 42, the modifier drying device 43 is arranged above the conveying assembly 44, the primary pulverizing device 45 is arranged on the conveying assembly 44, the secondary pulverizing device 46 is connected with the conveying assembly 44, the shaft seat 47 is connected with the primary pulverizing device 45, the shaft seat 47 is connected with the secondary pulverizing device 46, the conveying assembly 44 comprises a conveying belt 441, a conveying belt baffle 442, a conveying wheel 443, a conveying wheel two 444, a driving main shaft 445, a motor 446, a main shaft 4451, a main shaft two 4452, a main shaft three 4453, a main shaft 442 and a belt pulley one 447, conveying belt 441 are arranged on two sides of the conveying belt 441, a conveying wheel two conveying belt 441 is connected with the conveying belt 445, the main shaft 445 is connected with the driving shaft 445, the driving shaft 445 is connected with the main shaft 4451, the main shaft 4451 is connected with the main shaft 4451, and the main shaft 4451 is connected with the main shaft 4451 is arranged on the driving shaft 4451.

The modifier discharging device 41 drops the modifier onto the conveyor belt 441, the conveyor belt baffle 442 can prevent the modifier from falling out of the conveyor belt 441, and the modifier tiling plate 42 tiling the modifier on the conveyor belt 441 into a sheet shape along with the movement of the modifier driven by the conveyor belt 441, and the modifier drying device 43 dries the modifier tiling into a sheet shape.

The primary grinding apparatus 45 includes a primary wheel 451, a primary wheel shaft 452, a secondary wheel 4521, a secondary wheel first 453, a secondary wheel first shaft 454, a tertiary wheel third 4541, a fourth 4542, a secondary wheel second 455, a secondary wheel second shaft 456, and a fifth 4561, the primary wheel 451 being disposed above the conveyor belt 441, the primary wheel shaft 452 being connected to the primary wheel 451, the secondary wheel second being disposed on the primary wheel shaft 452, the secondary wheel first shaft 454 being connected to the secondary wheel first 453, the third 4541 being disposed on the secondary wheel first shaft 454, the fourth 4542 being disposed on the secondary wheel first shaft 454, the second 455 being disposed below the conveyor belt 441, the secondary wheel second 455 being connected to the secondary wheel second 455, the fifth 4561 being disposed on the secondary wheel second shaft 456, the fourth 4542 being connected to the fourth 4521, the fourth 4542 being connected to the fifth 4561, the secondary grinding apparatus 46 including an arc grinding chute 461, an ellipse body grinding wheel 462, an axle 463, and a sixth 463, the arc grinding chute 461 including a positioning hole 4611, a body grinding chute 463, a sixth 463, and a 463 connecting to the sixth wheel axle 463 are disposed on the third axle 463.

The primary crushing device 45 bends and rolls the dried modifier on the conveyor belt 441 to form a strip modifier, the strip modifier is continuously transported to the secondary crushing device 46 along the conveyor belt 441, the strip modifier falls along the arc-shaped crushing slideway 461 along with the dead weight, rolls by the ellipsoid crushing wheel 462, rolls the modifier into small-particle finished modifier, and is crushed by the primary crushing device 45 and the secondary crushing device 46, the finished modifier is processed, and the conveying assembly 44, the primary crushing device 45 and the secondary crushing device 46 are driven by the motor 446.

When the device is specifically used, in the process of driving the mixing tank pushing cover 37 to move to the lowest end in the modifier mixing tank body 32, the pushing sleeve 372 of the mixing tank pushing cover 37 can close the bacteria liquid discharging opening 18 and the organic matter discharging opening 28, the first steel wire rope 17 and the second steel wire rope 27 connected to the mixing tank pushing cover 37 are pulled, the first steel wire rope 17 pulls the bacteria liquid cover plate 16, the second steel wire rope 27 pulls the organic matter cover plate 26, the bacteria liquid cover plate 16 is connected with the bacteria liquid feeding opening baffle return spring 15, the other end of the bacteria liquid feeding opening baffle return spring 15 is connected with the bacteria liquid feeding opening baffle 13, the same organic matter cover plate 26 is connected with the bacteria liquid feeding opening baffle return spring 15, the other end of the organic matter feed port baffle member reset spring 25 is connected with the organic matter feed port baffle member 23, along with the pulling of the bacteria liquid cover plate 16 and the organic matter cover plate 26, the bacteria liquid feed port baffle member 13 and the organic matter feed port baffle member 23 move upwards to open the bacteria liquid feed port 19 and the organic matter feed port 29 respectively, bacteria liquid enters and fills the bacteria liquid quantifying tank 11, organic matter enters and fills the organic matter quantifying tank 21, the pull rod 38 drives the mixing tank pushing cover 37 to move upwards from the lowest end in the modifier mixing tank 32, the first steel wire rope 17 and the second steel wire rope 27 lose pulling force, the bacteria liquid cover plate 16 and the organic matter cover plate 26 move downwards due to self gravity, the bacteria liquid inlet baffle 13 and the organic matter inlet baffle 23 move downwards, so that the bacteria liquid inlet 19 and the organic matter inlet 29 are closed, the bacteria liquid inlet baffle groove 14 can limit the downward moving distance of the bacteria liquid cover plate 16, the same organic matter inlet baffle groove 24 can limit the downward moving distance of the organic matter cover plate 26, the mixing tank pushing cover 37 continues to move upwards, the bacteria liquid discharging opening 18 and the organic matter discharging opening 28 are opened, bacteria liquid in the bacteria liquid quantifying tank 11 and organic matter in the organic matter quantifying tank 21 enter the modifier mixing tank body 32, the threaded pull rod fixing part 374 of the mixing tank pushing cover 37 moves upwards in the upward moving process of the mixing tank pushing cover 37, because the screw-thread draw bar fixing member 374 is screwed with the half-thread center rotating shaft 353, the half-thread center rotating shaft 353 is driven to rotate forward in the process of moving up the screw-thread draw bar fixing member 374, the whole tank body center rotating shaft 35 rotates forward along with the half-thread center rotating shaft 353, the blade fixing shaft 351 of the tank body center rotating shaft 35 drives the mixing stirring blade 36 to rotate forward, the modifier discharge baffle assembly 34 rotates forward along with the friction force between the positioning sleeve 343 and the tank body center rotating shaft 35, the rotating groove 341 of the modifier discharge baffle assembly 34 is connected with the boss baffle 331 of the modifier discharge base 33, the rotating radius of the modifier discharge baffle assembly 34 is affected, so that the modifier discharge base 33 is just closed by the forward rotation of the modifier discharge baffle assembly 34, the pull rod 38 starts to drive the mixing tank pushing cover 37 to move downwards along with the pull rod 38 driving the mixing tank pushing cover 37 to the position of the top end baffle member 354, at this time, bacterial liquid and organic matters are mixed and stirred to form modifier, the threaded pull rod fixing member 374 drives the half-threaded central rotating shaft 353 to rotate reversely along with the downwards movement of the mixing tank pushing cover 37, the tank central rotating shaft 35 rotates reversely to drive the modifier discharge baffle assembly 34 to open the modifier discharge base 33, the boss baffle member 331 stops the modifier discharge baffle assembly 34 from rotating continuously, the mixed modifier flows under the self gravity, such as the process of pushing down the mixing tank pushing cover 37 of the modifier discharging device 41, the pushing plate 371 pushes a small amount of residual modifier on the inner wall of the modifier mixing tank 32 into the modifier discharging device 41, the pushing sleeve 372 closes the bacterial liquid discharging opening 18 and the organic matter discharging opening 28 along with the pushing down of the mixing tank pushing down cover 37 along with the pushing sleeve 372, the bacterial liquid and organic matters are filled into the bacterial liquid quantifying tank 11 and the organic matter quantifying tank 21 again, the bacterial liquid discharging opening 18 and the organic matter discharging opening 28 are waited for being opened, the modifier discharging device 41 conveys the modifier onto the conveyor belt 441, the conveyor belt 441 is provided with a conveyor belt baffle 442, the conveyor belt baffle 442 can prevent the modifier from falling out of the conveyor belt 441, the modifier tile plate 42 will tile the modifier into a sheet shape on the conveyor belt 441, the modifier drying device 43 will dry the modifier which is tiled into a sheet shape, the dried sheet-shaped modifier moves to the primary crushing device 45 along with the conveyor belt 441, the primary crushing device 45 bends and rolls the modifier dried on the conveyor belt 441 to form a strip-shaped modifier, then the strip-shaped modifier continues to follow the conveyor belt 441 to be conveyed to the secondary crushing device 46, the strip-shaped modifier falls along the arc-shaped crushing slide 461 along with the dead weight, rolls through the ellipsoid crushing wheel 462, the conditioner is crushed into small particles of finished conditioner and the conveyor assembly 44, primary crushing device 45 and secondary crushing device 46 are driven by motor 446.

The whole working flow of the invention is the above, and the actual operation process is very simple and easy to implement.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The invention and its embodiments have been described above with no limitation, and the actual construction is not limited to the embodiments of the invention as shown in the drawings. In summary, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution should not be creatively devised without departing from the gist of the present invention.

Claims (5)

1. A preparation device of a microbial water quality improver is characterized in that: the microbial inoculum quantitative device comprises a microbial inoculum quantitative assembly (1), an organic matter quantitative assembly (2), a modifier mixing assembly (3) and a discharging, drying and crushing assembly (4), wherein the microbial inoculum quantitative assembly (1) is connected with the modifier mixing assembly (3), the organic matter quantitative assembly (2) is connected with the modifier mixing assembly (3), and the modifier mixing assembly (3) is connected with the discharging, drying and crushing assembly (4);

The bacteria liquid quantifying component (1) comprises a bacteria liquid quantifying tank (11), a bacteria liquid feeding pipeline (12), a bacteria liquid feeding port blocking piece (13), a bacteria liquid feeding port blocking piece groove (14), a bacteria liquid feeding port blocking piece reset spring (15), a bacteria liquid cover plate (16), a first steel wire rope (17), a bacteria liquid discharging port (18) and a bacteria liquid feeding port (19), the bacteria liquid quantifying tank (11) is connected with the modifier mixing component (3), the bacteria liquid feeding pipeline (12) is arranged on the bacteria liquid quantifying tank (11), the bacteria liquid feeding pipeline (12) is provided with a bacteria liquid feeding port (19), the bacteria liquid feeding port blocking piece groove (14) is arranged on the bacteria liquid quantifying tank (11), the bacteria liquid feeding port blocking piece groove (14) is arranged above the bacteria liquid feeding port (19), the bacteria liquid feeding port blocking piece (13) slides in the bacteria liquid feeding port blocking piece groove (14), the bacteria liquid feeding piece reset spring (15) is connected with the bacteria liquid feeding port (16), and the bacteria liquid feeding port (16) is connected with the bacteria liquid feeding port (16) through the bacteria liquid feeding port blocking piece groove (14), and the bacteria liquid feeding port blocking piece (16) is connected with the bacteria liquid feeding piece (16) through the bacteria liquid feeding port;

The organic matter quantifying component (2) comprises an organic matter quantifying tank (21), an organic matter feeding pipeline (22), an organic matter feeding port blocking piece (23), an organic matter feeding port blocking piece groove (24), an organic matter feeding port blocking piece reset spring (25), an organic matter cover plate (26), a steel wire rope II (27), an organic matter discharging port (28) and an organic matter feeding port (29);

The organic matter quantitative tank (21) is connected with the modifier mixing component (3), the organic matter feeding pipeline (22) is arranged on the organic matter quantitative tank (21), the organic matter feeding pipeline (22) is provided with an organic matter feeding port (29), the organic matter feeding port blocking piece groove (24) is arranged on the organic matter quantitative tank (21), the organic matter feeding port blocking piece groove (24) is arranged above the organic matter feeding port (29), the organic matter feeding port blocking piece (23) slides in the organic matter feeding port blocking piece groove (24), one end of the organic matter feeding port blocking piece reset spring (25) is connected with the organic matter feeding port blocking piece (23), the other end of the organic matter feeding port blocking piece reset spring (25) is connected with the organic matter cover plate (26), the organic matter cover plate (26) is arranged in the organic matter quantitative tank (21), and the two steel wire ropes (27) are connected with the organic matter cover plate (26);

The modifier mixing assembly (3) comprises a fixed pulley (31), a modifier mixing tank body (32), a modifier discharging base (33), a modifier discharging baffle assembly (34), a tank body center rotating shaft (35), mixing stirring blades (36), a mixing tank pushing cover (37) and a pull rod (38), wherein the modifier discharging base (33) is provided with a boss baffle (331);

The fixed pulley (31) is connected with the first steel wire rope (17), the fixed pulley (31) is connected with the second steel wire rope (27), the fixed pulley (31) is arranged above the modifier mixing tank body (32), the modifier mixing tank body (32) is connected with the bacterial liquid quantifying component (1), the modifier mixing tank body (32) is connected with the organic matter quantifying component (2), the modifier discharging base (33) is arranged at the lower part of the modifier mixing tank body (32), the modifier discharging baffle component (34) is connected with the tank body center rotating shaft (35), the tank body center rotating shaft (35) is connected with the modifier discharging base (33), the mixing stirring blade (36) is connected with the tank body center rotating shaft (35), the mixing tank pushing cover (37) slides in the modifier mixing tank body (32), and the pull rod (38) is connected with the mixing tank pushing cover (37);

the tank body center rotating shaft (35) comprises a blade fixing shaft (351), a shaft end fixing base (352), a half-thread center rotating shaft (353) and a top end blocking piece (354);

The upper half section of the half-thread center rotating shaft (353) is provided with threads, the blade fixing shaft (351) is connected with the mixing stirring blade (36), the blade fixing shaft (351) is connected with the half-thread center rotating shaft (353), the shaft end fixing base (352) is arranged below the modifier discharging base (33), and the top end blocking piece (354) is connected with the half-thread center rotating shaft (353);

The modifier discharging baffle assembly (34) comprises a rotary groove (341), a modifier discharging baffle (342) and a positioning sleeve (343), wherein the rotary groove (341) is connected with the boss baffle (331), the modifier discharging baffle (342) is connected with the modifier discharging base (33), and the positioning sleeve (343) is connected with the shaft end fixing base (352);

The mixing tank propulsion cover (37) comprises a propulsion plate (371), a propulsion sleeve (372), a propulsion shaft sleeve (373) and a threaded pull rod fixing part (374), wherein the propulsion plate (371) is connected with the propulsion sleeve (372), the propulsion sleeve (372) is connected with the modifier mixing tank body (32), the threaded pull rod fixing part (374) is arranged on the propulsion shaft sleeve (373), the propulsion shaft sleeve (373) is connected with a half-threaded central rotating shaft (353), threads are arranged on the inner surface of the threaded pull rod fixing part (374), and the threaded pull rod fixing part (374) is connected with the half-threaded central rotating shaft (353) in a threaded mode.

2. The apparatus for preparing a microbial water conditioner according to claim 1, wherein: the utility model provides a drying and smashing subassembly (4) is dried in ejection of compact includes modifier discharging device (41), modifier tiling board (42), modifier drying device (43), conveying subassembly (44), first reducing mechanism (45), secondary reducing mechanism (46) and axle bed (47), modifier mixing tank body (32) are connected to modifier discharging device (41), modifier tiling board (42) are connected modifier discharging device (41), conveying subassembly (44) are located modifier tiling board (42) below, conveying subassembly (44) top is located in modifier drying device (43), conveying subassembly (44) are established in first reducing mechanism (45), conveying subassembly (44) are connected in secondary reducing mechanism (46), conveying subassembly (44) are connected in axle bed (47), primary reducing mechanism (45) are connected in axle bed (47), secondary reducing mechanism (46) are connected in axle bed (47).

3. The apparatus for preparing a microbial water conditioner according to claim 2, wherein the conveyor assembly (44) comprises a conveyor belt (441), a conveyor belt baffle (442), a first conveyor wheel (443), a second conveyor wheel (444), a driving main shaft (445), a motor (446), a first main shaft pulley (4451), a second main shaft pulley (4452), a third main shaft pulley (4453), a second conveyor wheel (447) and a first conveyor pulley (4471), the conveyor belt baffle (442) is arranged on both sides of the conveyor belt (441), the first conveyor wheel (443) is connected with the conveyor belt (441), the second conveyor wheel (444) is connected with the conveyor belt (441), the driving main shaft (445) is connected with the first conveyor wheel (443), the driving main shaft (445) is connected with the motor (446), the first main shaft pulley (4451) is arranged on the driving main shaft (445), the second main shaft pulley (4452) is arranged on the driving main shaft (445), the third main shaft pulley (4473) is arranged on the driving main shaft (445), and the second conveyor wheel (4474) is connected with the first conveyor belt pulley (4471).

4. A microbial water conditioner preparation device according to claim 3, wherein: the primary crushing device (45) comprises a main wheel (451), a main wheel shaft lever (452), a belt pulley II (4521), an auxiliary wheel I (453), an auxiliary wheel I shaft lever (454), a belt pulley III (4541), a belt pulley IV (4542), an auxiliary wheel II (455), an auxiliary wheel II shaft lever (456) and a belt pulley V (4561), wherein the main wheel (451) is arranged above a conveying belt (441), the main wheel (451) is connected with the main wheel shaft lever (452), the belt pulley II is arranged on the main wheel shaft lever (452), the auxiliary wheel I shaft lever (454) is connected with the auxiliary wheel I (453), the belt pulley III (4541) is arranged on the auxiliary wheel I shaft lever (454), the belt pulley IV (4542) is arranged on the auxiliary wheel I shaft lever (454), the auxiliary wheel II (455) is arranged below the conveying belt (441), the auxiliary wheel II (456) is connected with the belt pulley V (4561), the belt pulley III (4541) is connected with the belt pulley II (4552), and the belt pulley IV (4561) is connected with the belt pulley IV (4542).

5. The apparatus for preparing a microbial water conditioner according to claim 4, wherein: the secondary smashing device (46) comprises an arc smashing slide way (461), an ellipsoid grinding wheel (462), a grinding wheel shaft (463) and a belt pulley six (4631), the arc smashing slide way (461) comprises a positioning hole (4611), the ellipsoid grinding wheel (462) grinds the wheel shaft (463), the grinding wheel shaft (463) is connected with the positioning hole (4611), the belt pulley six (4631) is arranged on the grinding wheel shaft (463), and the belt pulley six (4631) is connected with a main shaft belt pulley three (4453).