CN217248584U - Quick dissolving device of flocculating agent - Google Patents

Abstract

The utility model discloses a quick dissolving device of flocculating agent, include: the device comprises a grinding and crushing vibrating screen, a discharge classifying stirrer, a feed discharge circulating conveyor and a flocculant configuration chamber, wherein the grinding and crushing vibrating screen plays a role in crushing and refining coarse flocculation solute particles in a flocculant configuration stage and screens the crushed and refined particles; the discharge classifying stirrer plays a role in classifying coarse flocculation solute particles and fine flocculation solute particles in a flocculant preparation stage; the feeding and discharging circulating conveyor returns coarse flocculation solute particles which are not sieved from the flocculant preparation stage to be used as a flocculant solute raw material for processing; the flocculant preparation chamber plays a role in regulating and controlling the proportioning of the flocculant and processing a finished flocculant product in a flocculant preparation stage, and accelerating the dissolution and transportation of the flocculant. The utility model has the advantages of the flocculating agent ratio of regulation and control and processing flocculating agent finished product for the flocculating agent dissolves the transportation.

Description

Quick dissolving device of flocculating agent

Technical Field

The utility model belongs to the technical field of silt resourceful dehydration concreties, in particular to quick dissolving device of flocculating agent.

Background

Flocculation refers to the process of making suspended particles in water or liquid agglomerate or form flocs, thereby accelerating the coagulation of particles and achieving the purpose of solid-liquid separation, and this phenomenon or operation is called flocculation.

Flocculation is generally carried out by adding a suitable flocculating agent, the effect of which is to adsorb the particles, to "bridge" the particles, and thus to promote agglomeration. The flocculant is added manually and is usually prepared in a buffer tank according to the experience of workers, and the flocculant adding method has the defects that the labor of the workers is high in difficulty, and the addition amount is not easy to control and cannot meet the process requirement of flocculant preparation. The above-mentioned form of flocculating agent addition method, because its shortcoming is more obvious, in practical application, has caused the influence of different degrees for production, for this reason the utility model provides a flocculating agent quick dissolving device and its method are used for solving above-mentioned problem.

Disclosure of Invention

The utility model aims to overcome workman's work, artificial configuration flocculating agent lead to the flocculating agent not to reach the technological requirement to and the wayward problem of flocculating agent addition, for this reason the utility model provides a quick dissolving device of flocculating agent includes: a grinding and crushing shaker, a discharge classification stirrer, a feeding and discharging circular conveyor and a flocculant configuration chamber;

the grinding, crushing and vibrating screen device is used for crushing and refining coarse flocculation solute particles and sieving the crushed and refined particles at the same time; the grinding, crushing and vibrating screen is connected with the discharging classification stirrer, and the discharging classification stirrer is used for classifying coarse flocculation solute particles and fine flocculation solute particles;

the coarse flocculation solute particle outlet of the discharge classification stirrer is connected with the feed discharge circulation conveyor, and the feed discharge circulation conveyor is used for conveying coarse flocculation solute particles to the inlet of the grinding crushing vibrating screen again; a fine flocculation solute particle outlet of the discharge classifying stirrer is connected with a flocculant configuration chamber, and the flocculant configuration chamber is used for regulating and controlling the flocculant proportion and processing a flocculant finished product;

the discharge classification stirrer comprises a discharge stirring motor, a discharge supporting tube, a classification shell, an aggregate shell, a stirrer, an arc-shaped bottom support, a discharge supporting upright post, a discharge pressure conveying belt, a discharge partition plate and a flash separation shell, and the discharge stirring motor is connected with and used for driving the stirrer; the two ends of the discharge supporting tube are respectively welded with the grinding and crushing vibrating screen and the classifying shell, the classifying shell is internally hollow, the periphery of the classifying shell is externally provided with a baffle plate inclining outwards, the classifying shell is positioned below a screen of the grinding and crushing vibrating screen, coarse flocculant solute particles blocked by the screen are shaken from the periphery of the screen along with the vibration of the screen and enter a feeding discharge circulation conveyer, the baffle plate of the classifying shell can play a role in guiding the coarse flocculant solute particles, fine flocculant solute particle materials passing through the screen flow into the aggregate shell after passing through the internal hollow area of the classifying shell, the aggregate shell is positioned below the internal hollow area of the classifying shell, the aggregate shell collects fine flocculant solute particle materials separated by the screen and the classifying shell, the stirrer and the arc-shaped bottom support are both positioned below the aggregate shell, and the stirrer is used for stirring the fine flocculant solute particle materials in the aggregate shell, prevent flocculating agent solute particulate material accumulation, the arc collet is used for settling the agitator, and the arc collet transmits tiny flocculating agent solute particulate material with curved route, ejection of compact support post supports discharge pressure conveyer belt, discharge pressure conveyer belt is located the low reaches of arc collet for conveying tiny flocculating agent solute particulate material to flocculating agent configuration room, ejection of compact baffle is located discharge pressure conveyer belt both sides, prevents that tiny flocculating agent solute particulate material from spilling over from the conveyer belt edge, the arc collet is installed on discharge baffle, the flash is separated the shell and is located discharge pressure conveyer belt top, and the shell face has certain inclination, hinders thick flocculating agent solute particulate material that does not pass through the screen cloth and gets into discharge pressure conveyer belt to carry thick flocculating agent solute particulate material to pan feeding discharge circulation conveyer.

Further, the grinding, crushing and vibrating screen comprises a motor case, a grinding motor, a vibrating motor, a screen, a protective cover supporting tube, a protective cover partition plate, a circular grinder, a fixed grinding wall, a protective cover outer plate and a feeding port dust cover, wherein the grinding motor and the vibrating motor are arranged in the motor case, the vibrating motor is welded with the screen, the screen can axially vibrate back and forth along the vibrating motor, and the screen is positioned below the protective cover outer plate; the grinding motor is connected with and drives the circular grinder, a fine seam is reserved between the grinding motor and the fixed grinding wall, the outer plate of the protective cover is welded with the dustproof cover, the outer plate of the protective cover and the dustproof cover are located on the outermost side of the grinding crushing vibrating screen device to play a role in protection and dust prevention, the fixed grinding wall is welded on the outer plate of the protective cover, and two ends of the connecting pipe of the protective cover are respectively welded with the chassis of the motor and the partition plate of the protective cover.

The feeding and discharging circulating conveyor comprises a feeding port, a feeding conveyor belt, a supporting long column, a conveyor belt supporting plate and a supporting short column, wherein the feeding port is welded with the outer plate of the protective cover of the grinding and crushing vibrating screen device, the feeding port is used for feeding materials into the grinding and crushing vibrating screen device, the upstream end of the feeding conveyor belt is positioned below the discharging classifying stirrer, the downstream end of the feeding conveyor belt is connected with the feeding port and used for conveying coarse flocculant solute particle materials into the grinding and crushing vibrating screen device, and the supporting long column is used for raising the height of the feeding port to be matched with the height of the grinding and crushing vibrating screen device; the conveyer belt backup pad is located the below that supports the pan feeding conveyer belt and plays the supporting role, and the support stub is located conveyer belt backup pad below and plays the supporting role.

Further, the flocculant configuration chamber comprises a central control console, a motor control line, a configuration pool control line, a heating plate, a solvent pool, a flocculant outflow pipe, a flocculant outflow control valve, a tap water inflow control valve and a tap water inflow pipe, wherein the central control console controls a discharge pressure conveyor belt to convey a flocculant through the motor control line, the central control console controls the flocculant outflow control valve, the tap water inflow control valve and the heating plate respectively through the configuration pool control line, the heating plate is arranged at the bottom of the heating solvent pool and is used for heating the configured flocculant in the solvent pool, a hole for installing the flocculant outflow control valve is formed in one side surface of the solvent pool, a hole for installing the tap water inflow control valve is formed in the other side surface of the solvent pool, the solvent pool is used for configuring the flocculant, and the flocculant outflow control valve is connected with the flocculant outflow pipe, and the flocculant outflow control valve controls the outflow of the flocculant in the solvent pool, the tap water inflow control valve is connected with a tap water inflow pipe, and the tap water inflow control valve controls the inflow of tap water in the solvent pool.

Furthermore, a grinding motor in the grinding, crushing and vibrating screen device is welded with the circular grinder, and a fine gap is reserved between the grinding motor and the fixed grinding wall to play a role in sorting fine flocculant solute particle materials.

Further, the screen is arranged between the outer plate of the protective cover and the classifying shell and is not in contact with the outer plate of the protective cover, and the non-contact gap is used as a channel for shaking coarse flocculant solute particle materials from the screen.

Furthermore, the pan feeding conveyer belt be used for leading thick flocculating agent solute granule to get into grinding crushing sieving machine from pan feeding ejection of compact circulation conveyer, play the effect that the raw materials circulates and carries.

Furthermore, the central control console is connected with the discharge pressure conveyor belt, and the discharge weight of fine flocculation solute particles is controlled by controlling the discharge pressure conveyor belt, so that the weight of the solute in the flocculant is controlled.

Furthermore, the central console controls the rotating speed of the grinding motor and the vibrating motor.

The utility model has the advantages that:

1. the utility model provides a slit is left between the grinding motor and the fixed grinding wall, which is convenient for sorting fine flocculant solute granular materials; producing fine flocculant solute particulate material; provides the condition for accelerating the dissolution of the flocculating agent.

2. The utility model provides a screen cloth which is arranged between the outer plate of the protective cover and the classifying shell and is not in contact with the gap, and the screen cloth is arranged between the outer plate of the protective cover and the classifying shell and is not in contact with the gap, so that the coarse flocculating agent solute particle material flows into the feeding conveyor belt to be used as a new raw material; providing precondition for the circular processing of the coarse flocculant solute particle material; sorting out fine flocculant solute particle materials; the loss of raw materials is reduced.

3. The utility model provides a stirrer stirring fine flocculant solute granular material prevents to gather the effect that fine flocculant solute granular material gathers and blocks the discharge gate in the shell, and the arc collet plays and guides fine flocculant solute granular material to flow into ejection of compact pressure conveyer belt, provides the condition for the smooth transportation of fine flocculant solute granule.

4. The utility model provides a pan feeding conveyer belt, guide coarse flocculant solute granule in proper order from pan feeding ejection of compact circulation sender, grind broken sieving machine and the categorised agitator of the ejection of compact, play the effect of raw materials circulation processing, provide the condition for the circulation transportation of raw materials.

5. The utility model provides a discharge pressure conveyer belt, running water inflow control valve, hot plate and flocculating agent outflow control valve are controlled respectively to the central control platform, and then control the weight of solute in the configuration solvent in proper order, flow in the weight of solvent running water, the temperature of solvent pond internal solvent and the weight that the outflow flocculating agent dissolves to refine flocculating agent ratio and improve the dissolving speed.

Drawings

The accompanying drawings, which form a part of the specification, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention without unduly limiting the scope of the invention. In the drawings:

fig. 1 is a schematic view of a flocculant rapid dissolving apparatus provided by an embodiment of the present invention;

fig. 2 is a schematic structural decomposition view of a grinding, crushing and sieving device in a rapid flocculant dissolving device according to an embodiment of the present invention;

fig. 3 is a schematic view showing the structural decomposition of a discharge classifying stirrer in the flocculant rapid dissolving apparatus provided by the embodiment of the present invention;

fig. 4 is a schematic view of a feeding and discharging circulation conveyor in a flocculant rapid dissolving device according to an embodiment of the present invention;

fig. 5 is a schematic view of a flocculant preparation chamber in a rapid flocculant dissolving device according to an embodiment of the present invention;

description of reference numerals: a grinding crushing vibrating screen device 1; a motor case 1-1; grinding the motor 1-2; 1-3 of a vibration motor; 1-4 of a screen mesh; the protective cover supports pipes 1-5; 1-6 parts of a protective cover clapboard; a circular grinder 1-7; fixing the grinding wall 1-8; outer plates 1-9 of the protective cover; 1-10 parts of a dust cover at a feeding port; a discharge classification stirrer 2; discharging and stirring a motor 2-1; a discharge support tube 2-2; 2-3 of a classification shell; 2-4 of aggregate shells; 2-5 of a stirrer; 2-6 of an arc-shaped bottom support; discharging support columns 2-7; 2-8 of a discharge pressure conveyor belt; 2-9 parts of a discharge clapboard; 2-10 parts of flash separating shell; a feeding and discharging circulating conveyor 3; a feeding port 3-1; a feeding conveyor belt 3-2; 3-3 of a support long column; 3-4 of a conveyor belt supporting plate; 3-5 of supporting short columns; a flocculant preparation chamber 4; a center console 4-1; a motor control line 4-2; configuring a pool control line 4-3; 4-4 of a heating plate; 4-5 of a solvent pool; 4-6 of flocculant outflow pipes; the flocculant flows out of a control valve 4-7; tap water inflow control valves 4-8; tap water flows into pipes 4-9.

Detailed Description

The present invention will be further described with reference to the following examples. The following description of the embodiments is merely provided to aid in understanding the invention. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the protection scope of the appended claims.

As shown in fig. 1, the present embodiment provides a device for rapidly dissolving a flocculant, which is used for resource-based dewatering and consolidation of sludge, and is particularly suitable for preparing a flocculation solute and simultaneously preparing a flocculant, and the device includes a grinding, crushing and sieving device 1, a discharge sorting and stirring device 2, a feeding and discharge circulating conveyor 3, and a flocculant preparation chamber 4. The grinding, crushing and vibrating screen device 1 plays a role in crushing and refining coarse flocculation solute particles in a flocculant preparation stage, and simultaneously screens the crushed and refined particles; the discharging classification stirrer 2 plays a role in classifying coarse flocculation solute particles and fine flocculation solute particles in a flocculant preparation stage; the feeding and discharging circulating conveyor 3 returns coarse and large flocculated solute particles which are not sieved to be used as a flocculant solute raw material for processing in a flocculant configuration stage; the flocculant preparation chamber 4 plays a role in regulating and controlling the flocculant proportion, processing a finished flocculant product and accelerating the dissolution and transportation of the flocculant in a flocculant preparation stage.

In this embodiment, as shown in fig. 2, the motor case 1-1 is made of a stainless steel material with a specification of 495mm × 220mm × 1350mm and a thickness of 5mm, and is used for supporting and storing the grinding motor 1-2 and the vibration motor 1-3; the grinding motor 1-2 adopts a three-phase asynchronous motor with the model of MV40/3, and the grinding motor 1-2 is connected with and drives the circular grinder 1-7; the vibration motors 1-3 are Pota PUTA three-phase alternating current asynchronous vibration motors and are welded with the screens 1-4, and the screens 1-4 can vibrate back and forth along the axial direction of the vibration motors 1-3; the screens 1 to 4 are made of stainless steel screens with the specification of 0.85mm multiplied by 0.85mm mesh size and are used for filtering fine particles from coarse particles; the protective cover supporting tube 1-5 is made of a stainless steel material with the specification of radius of 10mm, length of 160mm and thickness of 5mm, and two ends of the protective cover supporting tube are respectively welded with the motor case 1-1 and the protective cover partition plate 1-6 for supporting; the protective cover partition plates 1-6 are made of stainless steel materials with the specification of 295mm multiplied by 10mm multiplied by 700 mm; the grinder 1-7 is preferably made of stainless steel materials; the fixed grinding wall 1-8 is preferably made of stainless steel materials and is welded on the outer plate 1-9 of the protective cover; the protective cover outer plates 1-9 are made of stainless steel materials with specifications of 295mm multiplied by 420mm multiplied by 700mm and thickness of 10mm and are made into C-shaped shapes; the feed inlet dust cover 1-10 is made of a C-shaped stainless steel material with the specification of 285mm multiplied by 420mm multiplied by 50mm and the thickness of 10mm, and the outer plate 1-9 of the protective cover and the feed inlet dust cover 1-10 are positioned at the outermost side of the grinding, crushing and sieving device 1 to play a role in protection and dust prevention.

In this embodiment, as shown in fig. 3, the discharging stirring motor 2-1 is a three-phase asynchronous motor with a model number of MV40/3, the discharging stirring motor 2-1 is stored in the motor cabinet 1-1, and the discharging stirring motor 2-1 is connected and used for driving the stirrer 2-5; the discharging support tube 2-2 is made of stainless steel materials with the specification of radius of 10mm, length of 150mm and thickness of 5mm, and two ends of the discharging support tube 2-2 are respectively welded with the motor case 1-1 and the classifying shell 2-3 for supporting; the classifying shell 2-3 is made of a stainless steel material with the specification of 185mm x 1000mm and the thickness of 5mm, the classifying shell 2-3 is hollow, outward-inclined downward baffles are arranged on the outer edges of the periphery of the classifying shell 2-3, the classifying shell 2-3 is positioned below the screen mesh 1-4, coarse flocculant solute particles blocked by the screen mesh 1-4 are shaken from the periphery of the screen mesh along with the vibration of the screen mesh and enter a feeding conveyor belt 3-2 of a feeding and discharging circulating conveyor 3, the baffles of the classifying shell 2-3 can play a role in guiding the coarse flocculant solute particles, and fine flocculant solute particle materials passing through the screen mesh 1-4 flow into the classifying shell 2-4 after passing through an inner hollow area of the classifying shell 2-3; the aggregate shell 2-4 is preferably made of stainless steel material, the aggregate shell 2-4 is positioned below the hollow area in the classifying shell 2-3, and the aggregate shell 2-4 collects fine flocculant solute particle materials sorted by the screen mesh 1-4 and the classifying shell 2-3; 2-5 of a stirrer; preferably stainless steel materials; the arc-shaped bottom support 2-6 is made of stainless steel with specification length of 240mm, radius of 37.5mm and thickness of 5 mm; the stirrer 2-5 and the arc-shaped bottom support 2-6 are both positioned below the aggregate shell 2-4, the stirrer 2-5 is used for stirring fine flocculant solute particle materials in the aggregate shell 2-4 to prevent the accumulation of the flocculant solute particle materials, the arc-shaped bottom support 2-6 is used for arranging the stirrer 2-5, and the arc-shaped bottom support 2-6 transmits the fine flocculant solute particle materials in an arc-shaped path; discharging and supporting the upright columns 2-7; the discharging pressure conveyor belt is made of stainless steel with the diameter of 100mm, the height of 360mm, the specification of thickness of 10mm, and the discharging support upright posts 2-7 support the discharging pressure conveyor belt 2-8; the discharge pressure conveyor belt 2-8 is positioned at the downstream of the arc-shaped bottom support 2-6 and is used for conveying fine flocculant solute granular materials to the flocculant preparation chamber 4, and the discharge pressure conveyor belt 2-8 is a PVC conveyor belt; the discharging partition plates 2-9 are positioned on two sides of the discharging pressure conveying belt 2-8 to prevent fine flocculant solute particle materials from overflowing from the edge of the conveying belt, and the discharging partition plates 2-9 are made of stainless steel materials with the thickness of 5 mm; the flash separating shell 2-10 is made of stainless steel with the specification thickness of 10mm, the flash separating shell 2-10 is located above the discharging pressure conveyor belt 2-8, a certain inclination angle is formed in the shell surface, so that thick and thick flocculant solute particle materials which do not pass through the screen meshes 1-4 are prevented from entering the discharging pressure conveyor belt 2-8, and the thick and thick flocculant solute particle materials are conveyed to a feeding conveyor belt 3-2 of a feeding and discharging circulating conveyor 3.

In the embodiment, as shown in fig. 4, the feeding port 3-1 and the outer plate 1-9 of the protective cover of the grinding, crushing and vibrating screen device 1 are welded to each other, the feeding port 3-1 is used for feeding materials into the grinding, crushing and vibrating screen device 1, and the feeding port 3-1 is made of stainless steel with the specification thickness of 10 mm; the upstream end of the feeding conveyor belt 3-2 is positioned below the discharging classification stirrer 2, the downstream end of the feeding conveyor belt is connected with the feeding port 3-1 and used for conveying coarse flocculant solute particle materials into the grinding crushing vibrating screen device 1, and the feeding conveyor belt 3-2 adopts an acid and alkali resistant conveyor belt with the model B1000; the supporting long column 3-3 is used for raising the height of the feeding port 3-1 to match the height of the grinding, crushing and vibrating screen 1, and the supporting long column 3-3 is made of stainless steel with the diameter of 100mm, the height of 1700mm and the specification thickness of 10 mm; the conveyor belt supporting plate 3-4 is positioned below the supporting feeding conveyor belt 3-2 to play a supporting role, and the conveyor belt supporting plate 3-4 is made of stainless steel with the specification thickness of 10 mm; the support short columns 3-5 are positioned below the conveyor belt support plates 3-4 for supporting, and the support short columns 3-5 are made of stainless steel with the diameter of 100mm, the height of 240mm and the specification thickness of 10 mm.

In this embodiment, as shown in fig. 5, the central console 4-1 controls the discharge pressure conveyor 2-8 of the discharge classifying mixer 2 to convey flocculation through a motor control line 4-2, and the central console 4-1 controls a flocculant outflow control valve 4-7, a tap water inflow control valve 4-8 and a heating plate 4-4 through a configured tank control line 4-3, respectively; the central console 4-1 consists of a touch screen computer and a wooden desk with the specification of 200mm multiplied by 340mm multiplied by 380 mm; the motor control line 4-2 adopts a model ZR-RVVP shielding line; the configuration pool control line 4-3; adopting a model ZR-RVVP shielding wire; the heating plate 4-4 is arranged at the bottom of the solvent heating pool 4-5, the heating plate 4-4 is used for heating the prepared solvent in the solvent heating pool 4-5, and the heating plate 4-4 adopts a mica heating plate of a stainless steel electric heating plate with the specification of 990mm multiplied by 10 mm; a hole for installing a flocculant outflow control valve 4-7 is formed in the lower position of one side face of the solvent pool 4-5, a hole for installing a tap water inflow control valve 4-8 is formed in the upper position of the other side face of the solvent pool 4-5, the solvent pool 4-5 is used for configuring a flocculant, and the solvent pool 4-5 is made of a stainless steel material with the specification of 1000mm multiplied by 370mm and the thickness of 50 mm; the flocculant outflow control valve 4-7 is connected with a flocculant outflow pipe 4-6, the flocculant outflow control valve 4-7 controls the outflow of the flocculant in the solvent pool 4-5, and the flocculant outflow control valve 4-7 adopts an electric control hydraulic control valve with the model number of 600X; the flocculant outflow pipe 4-6 is composed of a PVC water pipe with the specification diameter of 100 mm; the tap water inflow control valve 4-8 is connected with a tap water inflow pipe 4-9, the tap water inflow control valve 4-8 controls the inflow of tap water in the solvent pool 4-5, and the tap water inflow control valve 4-8 adopts an electric control hydraulic control valve with the model number of 600X; the tap water inflow pipe 4-9 is composed of a PVC water pipe with the specification diameter of 100 mm.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. For those skilled in the art, without departing from the spirit of the present invention, several modifications and improvements can be made without departing from the scope of the present invention.

Claims (9)

1. A quick flocculant dissolving device is characterized by comprising: the device comprises a grinding, crushing and vibrating screen (1), a discharge classifying stirrer (2), a feeding and discharging circulating conveyor (3) and a flocculating agent configuration chamber (4);

the grinding, crushing and vibrating screen device (1) is used for crushing and refining coarse flocculation solute particles and sieving the crushed and refined particles at the same time; the grinding, crushing and vibrating screen device (1) is connected with the discharging and classifying stirrer (2), and the discharging and classifying stirrer (2) is used for classifying coarse flocculation solute particles and fine flocculation solute particles;

the outlet of the coarse flocculation solute particles of the discharge classification stirrer (2) is connected with the feed discharge circulation conveyor (3), and the feed discharge circulation conveyor (3) is used for conveying the coarse flocculation solute particles to the inlet of the grinding and crushing vibrating screen device (1) again; a fine flocculation solute particle outlet of the discharge classifying stirrer (2) is connected with a flocculant configuration chamber (4), and the flocculant configuration chamber (4) is used for regulating and controlling the flocculant proportion and processing a flocculant finished product;

the discharge classification stirrer (2) comprises a discharge stirring motor (2-1), a discharge supporting tube (2-2), a classification shell (2-3), an aggregate shell (2-4), a stirrer (2-5), an arc-shaped bottom support (2-6), a discharge supporting upright post (2-7), a discharge pressure conveying belt (2-8), a discharge partition plate (2-9) and a flash separation shell (2-10), wherein the discharge stirring motor (2-1) is connected and used for driving the stirrer (2-5); the discharge support tube (2-2) is welded with the grinding crushing vibrating screen device (1) and the classification shell (2-3) at two ends respectively, the classification shell (2-3) is hollow inside, outward-inclined downward baffles are arranged at the periphery of the classification shell (2-3), the classification shell (2-3) is positioned below the screen (1-4) of the grinding crushing vibrating screen device (1), coarse flocculant solute particles blocked by the screen (1-4) are shaken from the periphery of the screen along with the vibration of the screen and enter the feeding discharge circulating conveyor (3), the baffle of the classification shell (2-3) can play a role of guiding the coarse flocculant solute particles, fine flocculant solute particle materials passing through the screen (1-4) flow into the aggregate shell (2-4) after passing through the hollow area inside the classification shell (2-3), and the shell (2-4) is positioned below the hollow area inside the classification shell (2-3), the fine flocculant solute particle materials sorted by the screen (1-4) and the classifying shells (2-3) are collected by the aggregate shell (2-4), the stirrer (2-5) and the arc-shaped bottom support (2-6) are both positioned below the aggregate shell (2-4), the stirrer (2-5) is used for stirring the fine flocculant solute particle materials in the aggregate shell (2-4) to prevent the accumulation of the flocculant solute particle materials, the arc-shaped bottom support (2-6) is used for arranging the stirrer (2-5), the arc-shaped bottom support (2-6) transmits the fine flocculant solute particle materials in an arc-shaped path, the discharging supporting upright post (2-7) supports the discharging pressure conveying belt (2-8), and the discharging pressure conveying belt (2-8) is positioned at the downstream of the arc-shaped bottom support (2-6), used for conveying tiny flocculating agent solute granular material to flocculating agent configuration room (4), ejection of compact baffle (2-9) are located ejection of compact pressure conveyer belt (2-8) both sides, prevent that tiny flocculating agent solute granular material from overflowing from the conveyer belt edge, install on ejection of compact baffle (2-9) arc collet (2-6), overflow partition shell (2-10) are located ejection of compact pressure conveyer belt (2-8) top, and the shell face has certain inclination, hinders thick solute flocculating agent granular material that does not pass through screen cloth (1-4) and gets into ejection of compact pressure conveyer belt (2-8) to carry thick flocculant solute granular material to pan feeding ejection of compact circulation conveyer (3).

2. The rapid flocculant dissolving device according to claim 1, wherein the grinding, crushing and sieving device (1) comprises a motor case (1-1), a grinding motor (1-2), a vibrating motor (1-3), a screen (1-4), a protective cover support tube (1-5), a protective cover partition plate (1-6), a circular grinder (1-7), a fixed grinding wall (1-8), a protective cover outer plate (1-9) and a feeding port dust cover (1-10), the grinding motor (1-2) and the vibrating motor (1-3) are arranged in the motor case (1-1), the vibrating motor (1-3) is welded with the screen (1-4), and the screen (1-4) can vibrate back and forth along the axial direction of the vibrating motor (1-3), the screen (1-4) is positioned below the outer plate (1-9) of the protective cover; the grinding motor (1-2) is connected with and drives the circular grinder (1-7), a slit is reserved between the grinding motor (1-2) and the fixed grinding wall (1-8), the outer plate (1-9) of the protective cover is welded with the dust cover (1-10), the grinding motor and the fixed grinding wall are located on the outermost side of the grinding crushing vibrating screen device (1) to play a role in protection and dust prevention, the fixed grinding wall (1-8) is welded on the outer plate (1-9) of the protective cover, and two ends of the supporting tube (1-5) of the protective cover are respectively welded with the motor case (1-1) and the partition plate (1-6) of the protective cover.

3. The flocculant fast dissolving device according to claim 1, characterized in that the feeding and discharging circulating conveyor (3) comprises a feeding port (3-1), a feeding conveyor belt (3-2), a supporting long column (3-3), a conveyor belt supporting plate (3-4) and a supporting short column (3-5), the feeding port (3-1) and a protective cover outer plate (1-9) of the grinding and crushing vibrating screen device (1) are welded with each other, the feeding port (3-1) is used for feeding materials into the grinding and crushing vibrating screen device (1), the upstream end of the feeding conveyor belt (3-2) is positioned below the discharging classification stirrer (2), the downstream end is connected with the feeding port (3-1) and is used for conveying coarse flocculant solute particle materials into the grinding and crushing vibrating screen device (1), and the supporting long column (3-3) is used for raising the height of the feeding port (3-1), the height of the grinding, crushing and vibrating screen (1) is matched with that of the grinding, crushing and vibrating screen; the conveyor belt supporting plate (3-4) is positioned below the support feeding conveyor belt (3-2) to play a supporting role, and the supporting short column (3-5) is positioned below the conveyor belt supporting plate (3-4) to play a supporting role.

4. The device for quickly dissolving the flocculant according to claim 1, wherein the flocculant preparation chamber (4) comprises a central control console (4-1), a motor control line (4-2), a preparation pool control line (4-3), a heating plate (4-4), a solvent pool (4-5), a flocculant outflow pipe (4-6), a flocculant outflow control valve (4-7), a tap water inflow control valve (4-8) and a tap water inflow pipe (4-9), wherein the central control console (4-1) controls a discharge pressure conveyor belt (2-8) to convey the flocculant through the motor control line (4-2), and the central control console (4-1) respectively controls the flocculant outflow control valve (4-7) through the preparation pool control line (4-3), Tap water inflow control valves (4-8) and heating plates (4-4), wherein the heating plates (4-4) are arranged at the bottoms of the heating solvent pools (4-5), the heating plates (4-4) are used for heating flocculating agents in the heating solvent pools (4-5), one side surfaces of the solvent pools (4-5) are provided with holes for installing flocculating agent outflow control valves (4-7), the other side surfaces of the solvent pools (4-5) are provided with holes for installing tap water inflow control valves (4-8), the solvent pools (4-5) are used for configuring flocculating agents, the flocculating agent outflow control valves (4-7) are connected with flocculating agent outflow pipes (4-6), and the flocculating agent outflow control valves (4-7) control the outflow of the flocculating agents in the solvent pools (4-5), the tap water inflow control valve (4-8) is connected with a tap water inflow pipe (4-9), and the tap water inflow control valve (4-8) controls the inflow of tap water of the solvent pool (4-5).

5. The device for rapidly dissolving the flocculant according to claim 2, wherein a grinding motor (1-2) in the grinding, crushing and sieving device (1) is welded with a circular grinder (1-7), and a fine gap is reserved between the grinding motor (1-2) and a fixed grinding wall (1-8) to play a role in sorting fine flocculant solute particle materials.

6. A flocculant fast dissolving device according to claim 1, characterized in that the screen (1-4) is located between the outer plate (1-9) of the protective cover and the classifying shell (2-3) and does not contact with the outer plate (1-9) of the protective cover, and the non-contact gap serves as a passage for coarse flocculant solute particle material to shake off the screen (1-4).

7. A flocculant fast dissolving device according to claim 3, characterized in that the feed conveyor belt (3-2) is used for guiding coarse flocculant solute particles from the feed discharge circulation conveyor (3) to the grinding and crushing shaker (1) for circulation and transportation of raw materials.

8. The device for rapidly dissolving the flocculating agent as claimed in claim 4, wherein the central control console (4-1) is connected with the discharge pressure conveyor belt (2-8), and the discharge weight of the fine flocculating solute particles is controlled by controlling the discharge pressure conveyor belt (2-8), so as to control the weight of the solute in the flocculating agent.

9. The device for rapidly dissolving the flocculating agent according to the claim 4, characterized in that the central console (4-1) controls the rotation speed of the grinding motor (1-2) and the vibration motor (1-3).

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