CN110563114A - A even adjusting device of water quality treatment for papermaking sewage - Google Patents

Abstract

The invention relates to a regulating device for papermaking sewage, in particular to a water quality treatment uniform regulating device for papermaking sewage. The invention aims to provide a water quality treatment uniformity adjusting device for papermaking sewage, which can perform uniform stirring and is convenient to use. The technical scheme is as follows: a water quality treatment uniform adjusting device for papermaking sewage comprises a base, a cylinder, a drain pipe, a first valve, a first bracket, a second bracket and the like; the barrel is positioned above the base. The water quality treatment uniform adjusting device for the papermaking sewage, provided by the invention, is novel and unique in stirring device and stirring mode, can uniformly add the acidic reagent or the alkaline reagent into the papermaking sewage, can promote the acidic reagent or the alkaline reagent to uniformly react with the papermaking sewage, can avoid errors in adjusting the pH value of the papermaking sewage, is beneficial to uniformly adjusting the water quality of the papermaking sewage, is convenient to use, has a simple structure, and is easy to produce and manufacture.

Description

A even adjusting device of water quality treatment for papermaking sewage

Technical Field

The invention relates to a regulating device for papermaking sewage, in particular to a water quality treatment uniform regulating device for papermaking sewage.

Background

The papermaking sewage treatment refers to a treatment method for sewage generated in the papermaking industry, the papermaking wastewater mainly comes from two production processes of pulping and papermaking in the production of the papermaking industry, the pulping is to separate fibers in plant raw materials to prepare pulp, the pulp is bleached to prepare the pulp, the papermaking is to dilute, form, squeeze, dry, make and process the pulp into paper, a large amount of wastewater is discharged from both the pulping and the papermaking, the wastewater generated by the pulping is most polluted, the wastewater discharged during the pulp washing is black brown, the black water is called as black water, the pollutant concentration in the black water is high, the wastewater discharged from the bleaching process also contains a large amount of acid and alkali substances, the wastewater discharged from the papermaking machine is called as white water, the white water contains a large amount of fibers and fillers and sizing materials added in the production process, when the pH value of the papermaking wastewater is adjusted, an acidic medicament or an alkaline medicament is often required to be scattered into the papermaking wastewater, the existing workers directly sprinkle the acidic medicament or the alkaline medicament into the papermaking sewage and stir the acidic medicament or the alkaline medicament by adopting the traditional mode, so that the acidic medicament or the alkaline medicament is difficult to be uniformly added into the papermaking sewage, and the acidic medicament or the alkaline medicament is difficult to uniformly react with the papermaking sewage, so that the pH value of the papermaking sewage is adjusted to have errors, the water quality of the papermaking sewage cannot be uniformly adjusted, and the subsequent treatment of the papermaking sewage is seriously influenced.

Disclosure of Invention

The invention aims to overcome the defects that the acid medicament or the alkaline medicament is difficult to be uniformly added into papermaking sewage and the acid medicament or the alkaline medicament is difficult to uniformly react with the papermaking sewage to cause the adjustment of the pH value of the papermaking sewage to generate errors and the water quality of the papermaking sewage cannot be uniformly adjusted by directly scattering the acid medicament or the alkaline medicament into the papermaking sewage by the conventional workers and stirring the acid medicament or the alkaline medicament by adopting the conventional mode.

The technical scheme is as follows: a water quality treatment uniform adjusting device for papermaking sewage comprises a base, a cylinder, a liquid discharge pipe, a first valve, a first support, a second support, a liquid inlet pipe, a second valve, a large bearing, a large rotating shaft, a large stirring plate, a crescent cutter, a feeding hopper, a large clapboard, a large baffle plate, a triangular guide block, a small clapboard, a first small baffle block, a second small baffle block, a first spring, a second spring, a first extrusion block, a first connecting rod, a first pull ring, a second extrusion block, a second connecting rod and a second pull ring, wherein the cylinder is positioned above the base, the middle position of the bottom of the cylinder is connected with the liquid discharge pipe, the liquid discharge pipe is provided with the first valve, the left side of the bottom of the cylinder is connected with the first support, the lower end of the first support is connected with the left end of the top of the base, the right side of the bottom of the cylinder is connected with the second support, the lower end of the second support is, the upper end of the left side of the cylinder is connected with a liquid inlet pipe, a second valve is arranged on the liquid inlet pipe, large bearings are embedded in the middle of the front side wall and the middle of the rear side wall of the cylinder, a large rotating shaft is in interference fit connection with the large bearings, the circumferential wall of the large rotating shaft is uniformly connected with a plurality of large stirring plates, the large stirring plates are positioned in the cylinder, a crescent-shaped cutter is connected onto the large stirring plates, the middle position of the top of the cylinder is connected with a feed hopper, the large partition plate is positioned at the upper part in the feed hopper, the front side wall and the rear side wall of the large partition plate are both connected with the feed hopper, the bottom of the large partition plate is provided with a large groove, the large partition plate is vertically provided with a first long guide hole and a second long guide hole, the first long guide hole and the second long guide hole are both positioned above the large groove, the first long guide hole and the second long guide hole are both communicated with the large, the large baffle is connected with the inner side wall of the feed hopper, the large baffle is horizontally provided with a long groove, the large baffle is provided with a first discharge port and a second discharge port which are vertically penetrated, the first discharge port and the second discharge port are communicated with the long groove, the first discharge port is positioned on the left side of the large baffle, the second discharge port is positioned on the right side of the large baffle, the top of the large baffle is provided with a trapezoidal port which is positioned under the large groove and communicated with the large groove, the trapezoidal port is positioned over the long groove and communicated with the long groove, a triangular guide block is positioned in the middle of the long groove, the bottom of the triangular guide block is connected with the large baffle, the top of the triangular guide block is connected with a small baffle, the middle and the upper part of the small baffle are positioned in the large groove, the upper end of the small baffle is connected with the large baffle, the small baffle is positioned between the first long guide hole and the second long guide hole, the first small baffle is positioned at the left part of the, the first small block is matched with the long groove in a sliding way, the first small block is provided with a first through hole which penetrates through the first small block up and down, the first through hole corresponds to the first discharging port, the first small block is positioned on the left side of the triangular guide block, the second small block is positioned on the right part in the long groove, the second small block is matched with the long groove in a sliding way, the second small block is provided with a second through hole which penetrates through the second small block up and down, the second through hole corresponds to the second discharging port, the second small block is positioned on the right side of the triangular guide block, the left end of the first small block is connected with a first spring, the left end of the first spring is connected with the inner side wall of the feeding hopper, the right end of the second small block is connected with a second spring, the right end of the second spring is connected with the inner side wall of the feeding hopper, the first extrusion block is positioned in the long groove, the first extrusion block is contacted with the large baffle, the first extrusion block is positioned between the triangular guide block and the first, the first connecting rod is positioned in the large groove, the first long guide hole, the long groove and the trapezoid port, the first connecting rod is in sliding fit with the first long guide hole, the lower end of the first connecting rod is hinged with the right end of the top of the first extrusion block, the upper end of the first connecting rod is connected with a first pull ring, the first pull ring is positioned above the large partition plate, the second extrusion block is positioned in the long groove, the second extrusion block is contacted with the large baffle plate, the second extrusion block is positioned between the triangular guide block and the second small baffle plate, the triangular guide block and the second small baffle plate are both contacted with the second extrusion block, the second connecting rod is positioned in the large groove, in the long guiding hole of second, long recess and the trapezoidal mouth, the long guiding hole sliding fit of second connecting rod and second, the lower extreme of second connecting rod is connected with the left end hinge at second extrusion piece top, and the upper end of second connecting rod is connected with the second pull ring, and the second pull ring is located the top of big baffle.

As the improvement of above-mentioned scheme, still including little bearing, little rotation axis, little stirring board, long cutter, belt lace wheel, big belt pulley and circulating belt, the preceding lateral wall and the rear wall of feeder hopper all inlay and are equipped with little bearing, little rotation axis is connected with little bearing interference, the circumference wall of little rotation axis evenly is connected with a plurality of little stirring boards, little stirring board is located the feeder hopper, be connected with long cutter on the little stirring board, little stirring board and long cutter all are located the below of big baffle, the rear end of little rotation axis is connected with belt lace wheel, belt lace wheel is located the rear of feeder hopper, the rear end of big rotation axis is connected with big belt pulley, big belt pulley is located the rear of barrel, belt lace wheel passes through circulating belt with big belt pulley and is connected.

As the improvement of above-mentioned scheme, still including little support, the adjustable fender, supplementary bearing, rotor plate and inserted bar, the intermediate position at big baffle top is connected with little support, little support is located between first pull ring and the second pull ring, the activity hole that runs through about the lower part of little support is opened, the adjustable fender is located the activity hole, adjustable fender and activity hole sliding fit, the adjustable fender is located the top of first pull ring and second pull ring, first pull ring and second pull ring all contact with the adjustable fender, the upper end and the supplementary bearing interference of little support are connected, supplementary bearing inlays and establishes in the right part of rotor plate, the left end of rotor plate front side is connected with the inserted bar, first pull ring and second pull ring all correspond with the inserted bar.

As the improvement of the scheme, the device further comprises a first bevel gear, a second bevel gear and a rotating motor, wherein the first bevel gear is connected to the rear side of the small belt pulley, the first bevel gear and the small belt pulley are arranged coaxially, the second bevel gear is positioned above the rear portion of the first bevel gear and meshed with the first bevel gear, the rotating motor is connected to the rear side of the feeding hopper, and the lower end of an output shaft of the rotating motor is connected with the second bevel gear.

The water quality treatment uniform adjusting device for the papermaking sewage, provided by the invention, is novel and unique in stirring device and stirring mode, can uniformly add the acidic reagent or the alkaline reagent into the papermaking sewage, can promote the acidic reagent or the alkaline reagent to uniformly react with the papermaking sewage, can avoid errors in adjusting the pH value of the papermaking sewage, is beneficial to uniformly adjusting the water quality of the papermaking sewage, is convenient to use, has a simple structure, and is easy to produce and manufacture.

Drawings

Fig. 1 is a schematic front view of the present invention.

Fig. 2 is a schematic perspective view of a large rotating shaft according to the present invention.

Fig. 3 is an enlarged schematic view of part a of the present invention.

Fig. 4 is an enlarged schematic view of part B of the present invention.

Fig. 5 is a rear view of the rotating electric machine of the present invention.

Number designation in the figures: 1. a base, 2, a cylinder, 3, a liquid discharge pipe, 4, a first valve, 5, a first bracket, 6, a second bracket, 7, a liquid inlet pipe, 8, a second valve, 9, a large bearing, 10, a large rotating shaft, 11, a large stirring plate, 12, a crescent cutter, 13, a feed hopper, 14, a large partition plate, 15, a large baffle plate, 16, a triangular guide block, 17, a small partition plate, 18, a first small baffle block, 19, a second small baffle block, 20, a first spring, 21, a second spring, 22, a first extrusion block, 23, a first connecting rod, 24, a first pull ring, 25, a second extrusion block, 26, a second connecting rod, 27, a second pull ring, 31, a small bearing, 32, a small rotating shaft, 33, a small stirring plate, 34, a long cutter, 35, a small belt pulley, 36, a large belt pulley, 37, a circulating belt 41, a small bracket, 42, a movable baffle plate, 43, an auxiliary bearing, 44, a rotating plate, 45. the automatic discharging device comprises an insertion rod, 51, a first bevel gear, 52, a second bevel gear, 53, a rotating motor, 141, a large groove, 142, a first long guide hole, 143, a second long guide hole, 151, a long groove, 152, a first discharging hole, 153, a second discharging hole, 154, a trapezoidal opening, 181, a first through hole, 191, a second through hole and 411, a movable hole.

Detailed Description

The above-described scheme is further illustrated below with reference to specific examples. It should be understood that these examples are for illustrative purposes and are not intended to limit the scope of the present application. The conditions used in the examples may be further adjusted according to the conditions of the particular manufacturer, and the conditions not specified are generally the conditions in routine experiments.

Example 1

A water quality treatment uniform adjusting device for papermaking sewage is disclosed, as shown in figure 1-3, and comprises a base 1, a cylinder 2, a drain pipe 3, a first valve 4, a first support 5, a second support 6, a liquid inlet pipe 7, a second valve 8, a large bearing 9, a large rotating shaft 10, a large stirring plate 11, a crescent cutter 12, a feed hopper 13, a large partition plate 14, a large baffle plate 15, a triangular guide block 16, a small partition plate 17, a first small stop block 18, a second small stop block 19, a first spring 20, a second spring 21, a first extrusion block 22, a first connecting rod 23, a first pull ring 24, a second extrusion block 25, a second connecting rod 26 and a second pull ring 27, wherein the cylinder 2 is positioned above the base 1, the drain pipe 3 is connected to the middle position of the bottom of the cylinder 2, the first valve 4 is installed on the drain pipe 3, the left side of the bottom of the cylinder 2 is connected with the first support 5, and the cylinder 2 is connected with the first support 5 in a welding connection manner, the lower end of the first bracket 5 is connected with the left end of the top of the base 1, the right side of the bottom of the cylinder 2 is connected with a second bracket 6, the lower end of the second bracket 6 is connected with the right end of the top of the base 1, the upper end of the left side of the cylinder 2 is connected with a liquid inlet pipe 7, a second valve 8 is arranged on the liquid inlet pipe 7, large bearings 9 are embedded in the middle of the front side wall and the middle of the rear side wall of the cylinder 2, a large rotating shaft 10 is in interference connection with the large bearings 9, the circumferential wall of the large rotating shaft 10 is uniformly connected with a plurality of large stirring plates 11, the large rotating shaft 10 is connected with the large stirring plates 11 in a welding connection mode, the large stirring plates 11 are positioned in the cylinder 2, the large stirring plates 11 are connected with crescent-shaped cutters 12, the middle position of the top of the cylinder 2 is connected with a feed hopper 13, the large partition plate, the bottom of the large partition 14 is provided with a large groove 141, the large partition 14 is vertically provided with a first long guide hole 142 and a second long guide hole 143, the first long guide hole 142 and the second long guide hole 143 are both positioned above the large groove 141, the first long guide hole 142 and the second long guide hole 143 are both communicated with the large groove 141, the large baffle 15 is positioned in the middle of the feed hopper 13, the middle position of the top of the large baffle 15 is connected with the bottom of the large partition 14, the large baffle 15 is connected with the large partition 14 by welding, the large baffle 15 is connected with the inner side wall of the feed hopper 13, the large baffle 15 is horizontally provided with a long groove 151, the large baffle 15 is provided with a first discharge port 152 and a second discharge port 153 which penetrate through the large baffle up and down, the first discharge port 152 and the second discharge port 153 are both communicated with the long groove 151, the first discharge port 152 is positioned on the left side of the large partition 14, the second discharge port 153 is positioned on the right side of the large partition 14, the top of the big baffle 15 is provided with a trapezoid port 154, the trapezoid port 154 is positioned under the big groove 141, the trapezoid port 154 is communicated with the big groove 141, the trapezoid port 154 is positioned over the long groove 151, the trapezoid port 154 is communicated with the long groove 151, the triangular guide block 16 is positioned in the middle of the long groove 151, the bottom of the triangular guide block 16 is connected with the big baffle 15, the top of the triangular guide block 16 is connected with the small partition 17, the triangular guide block 16 is connected with the small partition 17 by welding, the middle and the upper part of the small partition 17 are both positioned in the big groove 141, the upper end of the small partition 17 is connected with the big partition 14, the small partition 17 is positioned between the first long guide hole 142 and the second long guide hole 143, the first small block 18 is positioned at the left part of the long groove 151, the first small block 18 is in sliding fit with the long groove 151, the first small block 18 is provided with a first through hole 181 which penetrates up and down, and the first through hole 181 corresponds to the first discharge port 152, the first small block 18 is positioned at the left side of the triangular guide block 16, the second small block 19 is positioned at the right part in the long groove 151, the second small block 19 is in sliding fit with the long groove 151, the second small block 19 is provided with a second through hole 191 which penetrates through the second small block up and down, the second through hole 191 corresponds to the second discharge port 153, the second small block 19 is positioned at the right side of the triangular guide block 16, the left end of the first small block 18 is connected with a first spring 20, the left end of the first spring 20 is connected with the inner side wall of the feed hopper 13, the right end of the second small block 19 is connected with a second spring 21, the right end of the second spring 21 is connected with the inner side wall of the feed hopper 13, the first extrusion block 22 is positioned in the long groove 151, the first extrusion block 22 is contacted with the large baffle 15, the first extrusion block 22 is positioned between the triangular guide block 16 and the first small block 18, the triangular guide block 16 and the first small block 18 are both contacted with the, the first connecting rod 23 is positioned in the large groove 141, the first long guide hole 142, the long groove 151 and the trapezoidal opening 154, the first connecting rod 23 is in sliding fit with the first long guide hole 142, the lower end of the first connecting rod 23 is hinged with the right end of the top of the first extrusion block 22, the upper end of the first connecting rod 23 is connected with the first pull ring 24, the first connecting rod 23 is connected with the first pull ring 24 in a welding connection mode, the first pull ring 24 is positioned above the large partition plate 14, the second extrusion block 25 is positioned in the long groove 151, the second extrusion block 25 is contacted with the large baffle plate 15, the second extrusion block 25 is positioned between the triangular guide block 16 and the second small stop 19, the triangular guide block 16 and the second small stop 19 are both contacted with the second extrusion block 25, the second connecting rod 26 is positioned in the large groove 141, the second long guide hole 143, the long groove 151 and the trapezoidal opening 154, the second connecting rod 26 is in sliding fit with the second long guide hole 143, the lower end of the second connecting rod 26 is hinged with the left end of the top of the second extrusion block 25, the upper end of the second connecting rod 26 is connected with a second pull ring 27, and the second pull ring 27 is positioned above the large partition plate 14.

Example 2

A water quality treatment uniform adjusting device for papermaking sewage is disclosed, as shown in figure 1-3, comprising a base 1, a cylinder 2, a drain pipe 3, a first valve 4, a first bracket 5, a second bracket 6, a liquid inlet pipe 7, a second valve 8, a large bearing 9, a large rotating shaft 10, a large stirring plate 11, a crescent cutter 12, a feed hopper 13, a large partition plate 14, a large baffle plate 15, a triangular guide block 16, a small partition plate 17, a first small stop block 18, a second small stop block 19, a first spring 20, a second spring 21, a first extrusion block 22, a first connecting rod 23, a first pull ring 24, a second extrusion block 25, a second connecting rod 26 and a second pull ring 27, wherein the cylinder 2 is positioned above the base 1, the drain pipe 3 is connected at the middle position of the bottom of the cylinder 2, the first valve 4 is installed on the drain pipe 3, the left side of the bottom of the cylinder 2 is connected with the first bracket 5, the lower end of the first bracket 5 is connected with the left end of the top of the base 1, the right side of the bottom of the cylinder 2 is connected with a second bracket 6, the lower end of the second bracket 6 is connected with the right end of the top of the base 1, the upper end of the left side of the cylinder 2 is connected with a liquid inlet pipe 7, a second valve 8 is installed on the liquid inlet pipe 7, large bearings 9 are embedded in the middle of the front side wall and the middle of the rear side wall of the cylinder 2, a large rotating shaft 10 is in interference connection with the large bearings 9, the circumferential wall of the large rotating shaft 10 is uniformly connected with a plurality of large stirring plates 11, the large stirring plates 11 are positioned in the cylinder 2, the large stirring plates 11 are connected with a crescent-shaped cutter 12, the middle of the top of the cylinder 2 is connected with a feed hopper 13, a large partition plate 14 is positioned at the upper part of the feed hopper 13, the front side wall and the rear side wall of the large partition plate 14 are both connected with the feed hopper 13, the bottom of the large partition plate 14 is provided with a large groove 141, the large partition plate 14 is vertically provided with a, the first long guide hole 142 and the second long guide hole 143 are both communicated with the large groove 141, the large baffle 15 is positioned in the middle of the feed hopper 13, the middle position of the top of the large baffle 15 is connected with the bottom of the large partition 14, the large baffle 15 is connected with the inner side wall of the feed hopper 13, the large baffle 15 is horizontally provided with a long groove 151, the large baffle 15 is provided with a first discharge port 152 and a second discharge port 153 which penetrate up and down, the first discharge port 152 and the second discharge port 153 are both communicated with the long groove 151, the first discharge port 152 is positioned on the left side of the large partition 14, the second discharge port 153 is positioned on the right side of the large partition 14, the top of the large baffle 15 is provided with a trapezoidal opening 154, the trapezoidal opening 154 is positioned under the large groove 141, the trapezoidal opening 154 is communicated with the large groove 141, the trapezoidal opening 154 is positioned right above the long groove 151, the trapezoidal opening 154 is communicated with the long groove 151, the triangular guide block 16 is positioned in, the bottom of the triangular guide block 16 is connected with the large baffle 15, the top of the triangular guide block 16 is connected with the small partition 17, the middle part and the upper part of the small partition 17 are both positioned in the large groove 141, the upper end of the small partition 17 is connected with the large partition 14, the small partition 17 is positioned between the first long guide hole 142 and the second long guide hole 143, the first small stopper 18 is positioned at the left part in the long groove 151, the first small stopper 18 is in sliding fit with the long groove 151, the first small stopper 18 is provided with a first through hole 181 which penetrates up and down, the first through hole 181 corresponds to the first discharge port 152, the first small stopper 18 is positioned at the left side of the triangular guide block 16, the second small stopper 19 is positioned at the right part in the long groove 151, the second small stopper 19 is in sliding fit with the long groove 151, the second small stopper 19 is provided with a second through hole 191 which penetrates up and down, the second through hole 191 corresponds to the second discharge port 153, the second small stopper 19 is positioned at the right side of the triangular guide block 16, the left end of the first small block 18 is connected with a first spring 20, the left end of the first spring 20 is connected with the inner side wall of the feed hopper 13, the right end of the second small block 19 is connected with a second spring 21, the right end of the second spring 21 is connected with the inner side wall of the feed hopper 13, the first extrusion block 22 is positioned in the long groove 151, the first extrusion block 22 is contacted with the large baffle 15, the first extrusion block 22 is positioned between the triangular guide block 16 and the first small block 18, the triangular guide block 16 and the first small block 18 are both contacted with the first extrusion block 22, the first connection rod 23 is positioned in the large groove 141, the first long guide hole 142, the long groove 151 and the trapezoidal opening 154, the first connection rod 23 is in sliding fit with the first long guide hole 142, the lower end of the first connection rod 23 is hinged with the right end of the top of the first extrusion block 22, the upper end of the first connection rod 23 is connected with a first pull ring 24, the first pull ring 24 is positioned above the large partition plate, the second extrusion block 25 is located in the long groove 151, the second extrusion block 25 is in contact with the large baffle 15, the second extrusion block 25 is located between the triangular guide block 16 and the second small stop block 19, the triangular guide block 16 and the second small stop block 19 are in contact with the second extrusion block 25, the second connecting rod 26 is located in the large groove 141, the second long guide hole 143, the long groove 151 and the trapezoid opening 154, the second connecting rod 26 is in sliding fit with the second long guide hole 143, the lower end of the second connecting rod 26 is hinged to the left end of the top of the second extrusion block 25, the upper end of the second connecting rod 26 is connected with a second pull ring 27, and the second pull ring 27 is located above the large partition plate 14.

The device also comprises a small bearing 31, a small rotating shaft 32, a small stirring plate 33, a long cutter 34, a small belt pulley 35, a large belt pulley 36 and a circulating belt 37, wherein the small bearing 31 is embedded in the front side wall and the rear side wall of the feed hopper 13, the small rotating shaft 32 is in interference connection with the small bearing 31, the circumferential wall of the small rotating shaft 32 is uniformly connected with a plurality of small stirring plates 33, the small rotating shaft 32 is connected with the small stirring plates 33 in a welding connection mode, the small stirring plates 33 are positioned in the feed hopper 13, the long cutter 34 is connected on the small stirring plates 33, the small stirring plates 33 and the long cutter 34 are both positioned below the large baffle 15, the rear end of the small rotating shaft 32 is connected with the small belt pulley 35, the small rotating shaft 32 is connected with the small belt pulley 35 in a welding connection mode, the small belt pulley 35 is positioned behind the feed hopper 13, the rear end of the large rotating shaft 10 is connected, the small pulley 35 and the large pulley 36 are connected by an endless belt 37.

Example 3

A water quality treatment uniform adjusting device for papermaking sewage is disclosed, as shown in figure 1-4, comprising a base 1, a cylinder 2, a drain pipe 3, a first valve 4, a first bracket 5, a second bracket 6, a liquid inlet pipe 7, a second valve 8, a large bearing 9, a large rotating shaft 10, a large stirring plate 11, a crescent cutter 12, a feed hopper 13, a large partition plate 14, a large baffle plate 15, a triangular guide block 16, a small partition plate 17, a first small stop block 18, a second small stop block 19, a first spring 20, a second spring 21, a first extrusion block 22, a first connecting rod 23, a first pull ring 24, a second extrusion block 25, a second connecting rod 26 and a second pull ring 27, wherein the cylinder 2 is positioned above the base 1, the drain pipe 3 is connected at the middle position of the bottom of the cylinder 2, the first valve 4 is installed on the drain pipe 3, the left side of the bottom of the cylinder 2 is connected with the first bracket 5, the lower end of the first bracket 5 is connected with the left end of the top of the base 1, the right side of the bottom of the cylinder 2 is connected with a second bracket 6, the lower end of the second bracket 6 is connected with the right end of the top of the base 1, the upper end of the left side of the cylinder 2 is connected with a liquid inlet pipe 7, a second valve 8 is installed on the liquid inlet pipe 7, large bearings 9 are embedded in the middle of the front side wall and the middle of the rear side wall of the cylinder 2, a large rotating shaft 10 is in interference connection with the large bearings 9, the circumferential wall of the large rotating shaft 10 is uniformly connected with a plurality of large stirring plates 11, the large stirring plates 11 are positioned in the cylinder 2, the large stirring plates 11 are connected with a crescent-shaped cutter 12, the middle of the top of the cylinder 2 is connected with a feed hopper 13, a large partition plate 14 is positioned at the upper part of the feed hopper 13, the front side wall and the rear side wall of the large partition plate 14 are both connected with the feed hopper 13, the bottom of the large partition plate 14 is provided with a large groove 141, the large partition plate 14 is vertically provided with a, the first long guide hole 142 and the second long guide hole 143 are both communicated with the large groove 141, the large baffle 15 is positioned in the middle of the feed hopper 13, the middle position of the top of the large baffle 15 is connected with the bottom of the large partition 14, the large baffle 15 is connected with the inner side wall of the feed hopper 13, the large baffle 15 is horizontally provided with a long groove 151, the large baffle 15 is provided with a first discharge port 152 and a second discharge port 153 which penetrate up and down, the first discharge port 152 and the second discharge port 153 are both communicated with the long groove 151, the first discharge port 152 is positioned on the left side of the large partition 14, the second discharge port 153 is positioned on the right side of the large partition 14, the top of the large baffle 15 is provided with a trapezoidal opening 154, the trapezoidal opening 154 is positioned under the large groove 141, the trapezoidal opening 154 is communicated with the large groove 141, the trapezoidal opening 154 is positioned right above the long groove 151, the trapezoidal opening 154 is communicated with the long groove 151, the triangular guide block 16 is positioned in, the bottom of the triangular guide block 16 is connected with the large baffle 15, the top of the triangular guide block 16 is connected with the small partition 17, the middle part and the upper part of the small partition 17 are both positioned in the large groove 141, the upper end of the small partition 17 is connected with the large partition 14, the small partition 17 is positioned between the first long guide hole 142 and the second long guide hole 143, the first small stopper 18 is positioned at the left part in the long groove 151, the first small stopper 18 is in sliding fit with the long groove 151, the first small stopper 18 is provided with a first through hole 181 which penetrates up and down, the first through hole 181 corresponds to the first discharge port 152, the first small stopper 18 is positioned at the left side of the triangular guide block 16, the second small stopper 19 is positioned at the right part in the long groove 151, the second small stopper 19 is in sliding fit with the long groove 151, the second small stopper 19 is provided with a second through hole 191 which penetrates up and down, the second through hole 191 corresponds to the second discharge port 153, the second small stopper 19 is positioned at the right side of the triangular guide block 16, the left end of the first small block 18 is connected with a first spring 20, the left end of the first spring 20 is connected with the inner side wall of the feed hopper 13, the right end of the second small block 19 is connected with a second spring 21, the right end of the second spring 21 is connected with the inner side wall of the feed hopper 13, the first extrusion block 22 is positioned in the long groove 151, the first extrusion block 22 is contacted with the large baffle 15, the first extrusion block 22 is positioned between the triangular guide block 16 and the first small block 18, the triangular guide block 16 and the first small block 18 are both contacted with the first extrusion block 22, the first connection rod 23 is positioned in the large groove 141, the first long guide hole 142, the long groove 151 and the trapezoidal opening 154, the first connection rod 23 is in sliding fit with the first long guide hole 142, the lower end of the first connection rod 23 is hinged with the right end of the top of the first extrusion block 22, the upper end of the first connection rod 23 is connected with a first pull ring 24, the first pull ring 24 is positioned above the large partition plate, the second extrusion block 25 is located in the long groove 151, the second extrusion block 25 is in contact with the large baffle 15, the second extrusion block 25 is located between the triangular guide block 16 and the second small stop block 19, the triangular guide block 16 and the second small stop block 19 are in contact with the second extrusion block 25, the second connecting rod 26 is located in the large groove 141, the second long guide hole 143, the long groove 151 and the trapezoid opening 154, the second connecting rod 26 is in sliding fit with the second long guide hole 143, the lower end of the second connecting rod 26 is hinged to the left end of the top of the second extrusion block 25, the upper end of the second connecting rod 26 is connected with a second pull ring 27, and the second pull ring 27 is located above the large partition plate 14.

Still including little bearing 31, little rotation axis 32, little stirring board 33, long cutter 34, little belt pulley 35, big belt pulley 36 and circulating belt 37, little bearing 31 has all been inlayed to the preceding lateral wall and the rear wall of feeder hopper 13, little rotation axis 32 and little bearing 31 interference are connected, the circumference wall of little rotation axis 32 evenly is connected with a plurality of little stirring boards 33, little stirring board 33 is located feeder hopper 13, be connected with long cutter 34 on the little stirring board 33, little stirring board 33 and long cutter 34 all are located the below of big baffle 15, the rear end of little rotation axis 32 is connected with little belt pulley 35, little belt pulley 35 is located the rear of feeder hopper 13, the rear end of big rotation axis 10 is connected with big belt pulley 36, big belt pulley 36 is located the rear of barrel 2, little belt pulley 35 is connected through circulating belt 37 with big belt 36.

Also comprises a small bracket 41 and a movable baffle 42, the auxiliary bearing 43, the rotating plate 44 and the inserting rod 45, the small support 41 is connected to the middle position of the top of the large partition plate 14, the large partition plate 14 is connected with the small support 41 in a welding connection mode, the small support 41 is located between the first pull ring 24 and the second pull ring 27, the lower portion of the small support 41 is provided with a movable hole 411 which penetrates through the small support from left to right, the movable baffle 42 is located in the movable hole 411, the movable baffle 42 is in sliding fit with the movable hole 411, the movable baffle 42 is located above the first pull ring 24 and the second pull ring 27, both the first pull ring 24 and the second pull ring 27 are in contact with the movable baffle 42, the upper end of the small support 41 is in interference connection with the auxiliary bearing 43, the auxiliary bearing 43 is embedded in the right portion of the rotating plate 44, the left end of the front side of the rotating plate 44 is connected with the inserting rod 45, the rotating plate 44 is connected with the inserting rod 45 in a welding connection mode, and both the.

Example 4

A water quality treatment uniform adjusting device for papermaking sewage is disclosed, as shown in figure 1-5, comprising a base 1, a cylinder 2, a drain pipe 3, a first valve 4, a first bracket 5, a second bracket 6, a liquid inlet pipe 7, a second valve 8, a large bearing 9, a large rotating shaft 10, a large stirring plate 11, a crescent cutter 12, a feed hopper 13, a large partition plate 14, a large baffle plate 15, a triangular guide block 16, a small partition plate 17, a first small stop block 18, a second small stop block 19, a first spring 20, a second spring 21, a first extrusion block 22, a first connecting rod 23, a first pull ring 24, a second extrusion block 25, a second connecting rod 26 and a second pull ring 27, wherein the cylinder 2 is positioned above the base 1, the drain pipe 3 is connected at the middle position of the bottom of the cylinder 2, the first valve 4 is installed on the drain pipe 3, the left side of the bottom of the cylinder 2 is connected with the first bracket 5, the lower end of the first bracket 5 is connected with the left end of the top of the base 1, the right side of the bottom of the cylinder 2 is connected with a second bracket 6, the lower end of the second bracket 6 is connected with the right end of the top of the base 1, the upper end of the left side of the cylinder 2 is connected with a liquid inlet pipe 7, a second valve 8 is installed on the liquid inlet pipe 7, large bearings 9 are embedded in the middle of the front side wall and the middle of the rear side wall of the cylinder 2, a large rotating shaft 10 is in interference connection with the large bearings 9, the circumferential wall of the large rotating shaft 10 is uniformly connected with a plurality of large stirring plates 11, the large stirring plates 11 are positioned in the cylinder 2, the large stirring plates 11 are connected with a crescent-shaped cutter 12, the middle of the top of the cylinder 2 is connected with a feed hopper 13, a large partition plate 14 is positioned at the upper part of the feed hopper 13, the front side wall and the rear side wall of the large partition plate 14 are both connected with the feed hopper 13, the bottom of the large partition plate 14 is provided with a large groove 141, the large partition plate 14 is vertically provided with a, the first long guide hole 142 and the second long guide hole 143 are both communicated with the large groove 141, the large baffle 15 is positioned in the middle of the feed hopper 13, the middle position of the top of the large baffle 15 is connected with the bottom of the large partition 14, the large baffle 15 is connected with the inner side wall of the feed hopper 13, the large baffle 15 is horizontally provided with a long groove 151, the large baffle 15 is provided with a first discharge port 152 and a second discharge port 153 which penetrate up and down, the first discharge port 152 and the second discharge port 153 are both communicated with the long groove 151, the first discharge port 152 is positioned on the left side of the large partition 14, the second discharge port 153 is positioned on the right side of the large partition 14, the top of the large baffle 15 is provided with a trapezoidal opening 154, the trapezoidal opening 154 is positioned under the large groove 141, the trapezoidal opening 154 is communicated with the large groove 141, the trapezoidal opening 154 is positioned right above the long groove 151, the trapezoidal opening 154 is communicated with the long groove 151, the triangular guide block 16 is positioned in, the bottom of the triangular guide block 16 is connected with the large baffle 15, the top of the triangular guide block 16 is connected with the small partition 17, the middle part and the upper part of the small partition 17 are both positioned in the large groove 141, the upper end of the small partition 17 is connected with the large partition 14, the small partition 17 is positioned between the first long guide hole 142 and the second long guide hole 143, the first small stopper 18 is positioned at the left part in the long groove 151, the first small stopper 18 is in sliding fit with the long groove 151, the first small stopper 18 is provided with a first through hole 181 which penetrates up and down, the first through hole 181 corresponds to the first discharge port 152, the first small stopper 18 is positioned at the left side of the triangular guide block 16, the second small stopper 19 is positioned at the right part in the long groove 151, the second small stopper 19 is in sliding fit with the long groove 151, the second small stopper 19 is provided with a second through hole 191 which penetrates up and down, the second through hole 191 corresponds to the second discharge port 153, the second small stopper 19 is positioned at the right side of the triangular guide block 16, the left end of the first small block 18 is connected with a first spring 20, the left end of the first spring 20 is connected with the inner side wall of the feed hopper 13, the right end of the second small block 19 is connected with a second spring 21, the right end of the second spring 21 is connected with the inner side wall of the feed hopper 13, the first extrusion block 22 is positioned in the long groove 151, the first extrusion block 22 is contacted with the large baffle 15, the first extrusion block 22 is positioned between the triangular guide block 16 and the first small block 18, the triangular guide block 16 and the first small block 18 are both contacted with the first extrusion block 22, the first connection rod 23 is positioned in the large groove 141, the first long guide hole 142, the long groove 151 and the trapezoidal opening 154, the first connection rod 23 is in sliding fit with the first long guide hole 142, the lower end of the first connection rod 23 is hinged with the right end of the top of the first extrusion block 22, the upper end of the first connection rod 23 is connected with a first pull ring 24, the first pull ring 24 is positioned above the large partition plate, the second extrusion block 25 is located in the long groove 151, the second extrusion block 25 is in contact with the large baffle 15, the second extrusion block 25 is located between the triangular guide block 16 and the second small stop block 19, the triangular guide block 16 and the second small stop block 19 are in contact with the second extrusion block 25, the second connecting rod 26 is located in the large groove 141, the second long guide hole 143, the long groove 151 and the trapezoid opening 154, the second connecting rod 26 is in sliding fit with the second long guide hole 143, the lower end of the second connecting rod 26 is hinged to the left end of the top of the second extrusion block 25, the upper end of the second connecting rod 26 is connected with a second pull ring 27, and the second pull ring 27 is located above the large partition plate 14.

Still including little bearing 31, little rotation axis 32, little stirring board 33, long cutter 34, little belt pulley 35, big belt pulley 36 and circulating belt 37, little bearing 31 has all been inlayed to the preceding lateral wall and the rear wall of feeder hopper 13, little rotation axis 32 and little bearing 31 interference are connected, the circumference wall of little rotation axis 32 evenly is connected with a plurality of little stirring boards 33, little stirring board 33 is located feeder hopper 13, be connected with long cutter 34 on the little stirring board 33, little stirring board 33 and long cutter 34 all are located the below of big baffle 15, the rear end of little rotation axis 32 is connected with little belt pulley 35, little belt pulley 35 is located the rear of feeder hopper 13, the rear end of big rotation axis 10 is connected with big belt pulley 36, big belt pulley 36 is located the rear of barrel 2, little belt pulley 35 is connected through circulating belt 37 with big belt 36.

The middle position of the top of the large partition plate 14 is connected with the small support 41, the small support 41 is positioned between the first pull ring 24 and the second pull ring 27, the lower part of the small support 41 is provided with a movable hole 411 which penetrates left and right, the movable baffle 42 is positioned in the movable hole 411, the movable baffle 42 is in sliding fit with the movable hole 411, the movable baffle 42 is positioned above the first pull ring 24 and the second pull ring 27, the first pull ring 24 and the second pull ring 27 are both contacted with the movable baffle 42, the upper end of the small support 41 is in interference connection with the auxiliary bearing 43, the auxiliary bearing 43 is embedded in the right part of the rotating plate 44, the left end of the front side of the rotating plate 44 is connected with the inserted rod 45, and the first pull ring 24 and the second pull ring 27 are both corresponding to the inserted rod 45.

The feeding hopper further comprises a first bevel gear 51, a second bevel gear 52 and a rotating motor 53, the first bevel gear 51 is connected to the rear side of the small belt pulley 35, the small belt pulley 35 is connected with the first bevel gear 51 in a welding connection mode, the first bevel gear 51 and the small belt pulley 35 are arranged in a coaxial mode, the second bevel gear 52 is located above the rear portion of the first bevel gear 51, the second bevel gear 52 is meshed with the first bevel gear 51, the rotating motor 53 is connected to the rear side of the feeding hopper 13, and the lower end of an output shaft of the rotating motor 53 is connected with the second bevel gear 52.

When the invention is used, firstly the second valve 8 is opened, the papermaking sewage with the detected pH value is added into the cylinder body 2 through the liquid inlet pipe 7, then the second valve 8 is closed, then the acid medicament and the alkaline medicament with the set quantity are added into the feed hopper 13 and accumulated on the large baffle 15, at the moment, the acid medicament is positioned on the left side of the large baffle 14, the alkaline medicament is positioned on the right side of the large baffle 14, when the acid medicament or the alkaline medicament is required to be added into the papermaking sewage in the cylinder body 2 downwards, the first pull ring 24 and the second pull ring 27 can be respectively lifted upwards, the first pull ring 24 drives the first extrusion block 22 to move through the first connecting rod 23, at the moment, the triangular guide block 16 provides the upwards movement guide for the first extrusion block 22, at the same time, under the elastic force of the first spring 20, the first small stop block 18 moves rightwards, and the first through hole 181 moves to the position of the first discharge port 152, meanwhile, the first discharge port 152 and the first through hole 181 form a passage, the acidic medicament falls into the papermaking wastewater in the cylinder body 2 through the first discharge port 152 and the first through hole 181, the radian of the top of the large baffle 15 is convenient for the acidic medicament to fall downwards, the second pull ring 27 can drive the second extrusion block 25 to move through the second connecting rod 26, the triangular guide block 16 provides upward movement guide for the second extrusion block 25, the second small stopper 19 moves leftwards under the elastic force of the second spring 21 and moves the second through hole 191 to the position of the second discharge port 153, at this time, the second through hole 191 and the second discharge port 153 form a passage, the alkaline medicament falls into the papermaking wastewater in the cylinder body 2 through the second discharge port 153 and the second through hole 191, the radian of the top of the large baffle 15 is convenient for the alkaline medicament to fall downwards, and the large rotating shaft 10 can also rotate, big rotation axis 10 drives big stirring board 11 and crescent cutter 12 and rotates to stir papermaking sewage, thereby can use acid medicament or alkaline medicament and the even mixing of papermaking sewage, thereby evenly adjust papermaking sewage, adjust effectually, the back that finishes is adjusted to quality of water, can open first valve 4, through the fluid-discharge tube 3 discharge can.

When rotating big rotation axis 10, big rotation axis 10 can drive big stirring board 11 and big belt pulley 36 simultaneously and rotate together, big belt pulley 36 makes belt lace wheel 35 rotate through circulating belt 37, thereby belt lace wheel 35 drives little rotation axis 32 and rotates, little rotation axis 32 drives little stirring board 33 and long cutter 34 and rotates, thereby can be when stirring papermaking sewage, stir the crushing to the acid medicament or the alkaline medicament that drop, make its entering into papermaking sewage that can be even, be favorable to papermaking sewage's even regulation.

At this time, the movable baffle 42 can press the first pull ring 24 and the second pull ring 27, so as to prevent the first spring 20 and the second spring 21 from pushing the first small block 18 and the second small block 19 to move, thereby preventing the acid medicament and the alkaline medicament from falling accidentally, and the worker does not need to press the first pull ring 24 and the second pull ring 27 by hand again, and when the first pull ring 24 and the second pull ring 27 need to be lifted upwards, the movable baffle 42 can be pulled out from the movable hole 411, and the movable baffle 42 can be removed from the upper side of the first pull ring 24 and the second pull ring 27, at this time, the first pull ring 24 or the second pull ring 27 can be pulled upwards to the height of the inserted rod 45, and the rotating plate 44 can be rotated, so that the inserted rod 45 can be inserted into the first pull ring 24 or the second pull ring 27, that the first squeeze block 22 or the second squeeze block 25 can be fixed, the staff can conveniently vacate hands to carry out other works, and the staff can conveniently use the tool.

Can replace artifical the rotating through rotating electrical machines 53 this moment, rotating electrical machines 53 can drive second bevel gear 52 and rotate, and second bevel gear 52 can drive first bevel gear 51 and rotate, thereby first bevel gear 51 drives little rotation axis 32 and rotates, can drive belt lace wheel 35 and big belt pulley 36 and rotate, operates labour saving and time saving more.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (4)

1. A water quality treatment uniform adjusting device for papermaking sewage comprises a base (1), a barrel (2), a liquid discharge pipe (3), a first valve (4), a first support (5), a second support (6), a liquid inlet pipe (7) and a second valve (8), wherein the barrel (2) is positioned above the base (1), the liquid discharge pipe (3) is connected at the middle position of the bottom of the barrel (2), the first valve (4) is installed on the liquid discharge pipe (3), the first support (5) is connected at the left side of the bottom of the barrel (2), the lower end of the first support (5) is connected with the left end of the top of the base (1), the second support (6) is connected at the right side of the bottom of the barrel (2), the lower end of the second support (6) is connected with the right end of the top of the base (1), the liquid inlet pipe (7) is connected at the upper end of the left side of the barrel (2), the second valve (8) is installed on the, the device is characterized by further comprising a large bearing (9), a large rotating shaft (10), a large stirring plate (11), a crescent cutter (12), a feed hopper (13), a large partition plate (14), a large baffle plate (15), a triangular guide block (16), a small partition plate (17), a first small stop block (18), a second small stop block (19), a first spring (20), a second spring (21), a first extrusion block (22), a first connecting rod (23), a first pull ring (24), a second extrusion block (25), a second connecting rod (26) and a second pull ring (27), wherein the large bearing (9) is embedded in the middle of the front side wall and the middle of the rear side wall of the barrel body (2), the large rotating shaft (10) is in interference connection with the large bearing (9), the circumferential wall of the large rotating shaft (10) is uniformly connected with the large stirring plate (11), the large stirring plate (11) is positioned in the barrel body (2), the crescent cutter (12) is connected with the large stirring plate (11), the middle position of the top of the cylinder body (2) is connected with a feed hopper (13), a large clapboard (14) is positioned at the upper part in the feed hopper (13), the front side wall and the rear side wall of the large clapboard (14) are both connected with the feed hopper (13), the bottom of the large clapboard (14) is provided with a large groove (141), the large clapboard (14) is vertically provided with a first long guide hole (142) and a second long guide hole (143), the first long guide hole (142) and the second long guide hole (143) are both positioned above the large groove (141), the first long guide hole (142) and the second long guide hole (143) are both communicated with the large groove (141), the large baffle (15) is positioned at the middle part in the feed hopper (13), the middle position of the top of the large baffle (15) is connected with the bottom of the large clapboard (14), the large baffle (15) is connected with the inner side wall of the feed hopper (13), and the large baffle (15) is horizontally provided with a long groove (151), the large baffle (15) is provided with a first discharge port (152) and a second discharge port (153) which penetrate through up and down, the first discharge port (152) and the second discharge port (153) are communicated with the long groove (151), the first discharge port (152) is positioned on the left side of the large baffle (14), the second discharge port (153) is positioned on the right side of the large baffle (14), the top of the large baffle (15) is provided with a trapezoid port (154), the trapezoid port (154) is positioned under the large groove (141), the trapezoid port (154) is communicated with the large groove (141), the trapezoid port (154) is positioned over the long groove (151), the trapezoid port (154) is communicated with the long groove (151), the triangular guide block (16) is positioned in the middle of the long groove (151), the bottom of the triangular guide block (16) is connected with the large baffle (15), the top of the triangular guide block (16) is connected with a small baffle (17), the middle part and the upper part of the small baffle (17) are positioned in the large groove (141), the upper end of a small baffle plate (17) is connected with a large baffle plate (14), the small baffle plate (17) is positioned between a first long guide hole (142) and a second long guide hole (143), a first small baffle block (18) is positioned at the left part in a long groove (151), the first small baffle block (18) is in sliding fit with the long groove (151), the first small baffle block (18) is provided with a first through hole (181) which penetrates up and down, the first through hole (181) corresponds to a first discharging port (152), the first small baffle block (18) is positioned at the left side of a triangular guide block (16), the second small baffle block (19) is positioned at the right part in the long groove (151), the second small baffle block (19) is in sliding fit with the long groove (151), the second small baffle block (19) is provided with a second through hole (191) which penetrates up and down, the second through hole (191) corresponds to a second discharging port (153), and the second small baffle block (19) is positioned at the right side of the triangular guide block (16), the left end of the first small stop block (18) is connected with a first spring (20), the left end of the first spring (20) is connected with the inner side wall of the feed hopper (13), the right end of the second small stop block (19) is connected with a second spring (21), the right end of the second spring (21) is connected with the inner side wall of the feed hopper (13), a first extrusion block (22) is positioned in the long groove (151), the first extrusion block (22) is contacted with the large baffle (15), the first extrusion block (22) is positioned between the triangular guide block (16) and the first small stop block (18), the triangular guide block (16) and the first small stop block (18) are both contacted with the first extrusion block (22), a first connecting rod (23) is positioned in the large groove (141), the first long guide hole (142), the long groove (151) and the trapezoidal opening (154), and the first connecting rod (23) is in sliding fit with the first long guide hole (142), the lower end of a first connecting rod (23) is hinged with the right end of the top of a first extrusion block (22), the upper end of the first connecting rod (23) is connected with a first pull ring (24), the first pull ring (24) is positioned above a large partition plate (14), a second extrusion block (25) is positioned in a long groove (151), the second extrusion block (25) is contacted with a large baffle plate (15), the second extrusion block (25) is positioned between a triangular guide block (16) and a second small stop block (19), the triangular guide block (16) and the second small stop block (19) are both contacted with the second extrusion block (25), a second connecting rod (26) is positioned in the large groove (141), a second long guide hole (143), the long groove (151) and a trapezoidal opening (154), the second connecting rod (26) is in sliding fit with the second long guide hole (143), the lower end of the second connecting rod (26) is hinged with the left end of the top of the second extrusion block (25), the upper end of the second connecting rod (26) is connected with a second pull ring (27), and the second pull ring (27) is positioned above the large partition plate (14).

2. The water quality treatment uniform adjusting device for papermaking wastewater as claimed in claim 1, characterized by further comprising a small bearing (31), a small rotating shaft (32), a small stirring plate (33), a long cutter (34), a small belt pulley (35), a large belt pulley (36) and a circulating belt (37), wherein the small bearing (31) is embedded in the front side wall and the rear side wall of the feed hopper (13), the small rotating shaft (32) is in interference connection with the small bearing (31), the circumferential wall of the small rotating shaft (32) is uniformly connected with a plurality of small stirring plates (33), the small stirring plates (33) are positioned in the feed hopper (13), the long cutter (34) is connected to the small stirring plate (33), the small stirring plates (33) and the long cutter (34) are both positioned below the large baffle (15), the small belt pulley (35) is connected to the rear end of the small rotating shaft (32), and the small belt pulley (35) is positioned behind the feed hopper (13), the rear end of the large rotating shaft (10) is connected with a large belt pulley (36), the large belt pulley (36) is positioned behind the cylinder body (2), and the small belt pulley (35) is connected with the large belt pulley (36) through a circulating belt (37).

3. The water quality treatment uniform adjusting device for papermaking wastewater as claimed in claim 2, further comprising a small bracket (41), a movable baffle (42), an auxiliary bearing (43), a rotating plate (44) and an inserting rod (45), wherein the small bracket (41) is connected to the middle position of the top of the large partition plate (14), the small bracket (41) is positioned between the first pull ring (24) and the second pull ring (27), a movable hole (411) which penetrates through the small bracket (41) from left to right is formed in the lower part of the small bracket (41), the movable baffle (42) is positioned in the movable hole (411), the movable baffle (42) is in sliding fit with the movable hole (411), the movable baffle (42) is positioned above the first pull ring (24) and the second pull ring (27), the first pull ring (24) and the second pull ring (27) are both contacted with the movable baffle (42), and the upper end of the small bracket (41) is in interference connection with the auxiliary bearing (43), the auxiliary bearing (43) is embedded in the right part of the rotating plate (44), the left end of the front side of the rotating plate (44) is connected with an inserted bar (45), and the first pull ring (24) and the second pull ring (27) correspond to the inserted bar (45).

4. The water quality treatment uniform adjusting device for papermaking wastewater as defined in claim 3, further comprising a first bevel gear (51), a second bevel gear (52) and a rotating motor (53), wherein the first bevel gear (51) is connected to the rear side of the small belt pulley (35), the first bevel gear (51) and the small belt pulley (35) are coaxially arranged, the second bevel gear (52) is located at the rear upper part of the first bevel gear (51), the second bevel gear (52) is engaged with the first bevel gear (51), the rotating motor (53) is connected to the rear side of the feed hopper (13), and the lower end of the output shaft of the rotating motor (53) is connected with the second bevel gear (52).