CN117443258B

CN117443258B - Raw material proportioning device and method for producing water quality improver

Info

Publication number: CN117443258B
Application number: CN202311748888.2A
Authority: CN
Inventors: 钱红; 丁润锁; 邢志卿
Original assignee: Bcm Tianjin Biotechnology Research And Development Co ltd
Current assignee: Bcm Tianjin Biotechnology Research And Development Co ltd
Priority date: 2023-12-19
Filing date: 2023-12-19
Publication date: 2024-03-12
Anticipated expiration: 2043-12-19
Also published as: CN117443258A

Abstract

The utility model discloses a raw material proportioning device and a method for producing a water quality improver, which belong to the technical field of production proportioning of water quality improvers, and comprise a mixing container and a feeding port for feeding raw materials into the mixing container, wherein a discharge pipe is communicated with the bottom of the mixing container; according to the utility model, the vertical raw material discharging pipe is adopted, so that the raw material directly flows downwards with high efficiency by utilizing gravity, the raw material discharging efficiency is stable, and the finally produced water quality modifier has accurate proportion and good quality; according to the utility model, the water quality improver filling container can be directly adopted to fill the material at the bottom end of the material discharging pipe, or the truck can be directly driven into the bottommost layer of the frame body building, and the container is used for filling, so that the method is convenient and efficient.

Description

Raw material proportioning device and method for producing water quality improver

Technical Field

The utility model relates to the technical field of water quality modifier production proportioning, in particular to a raw material proportioning device and a raw material proportioning method for water quality modifier production.

Background

When the water quality improver is produced and mixed, the optimal proportion of each raw material is required to be controlled, so that the produced water quality improver has optimal effect, the proportion of different raw materials is controlled by firstly weighing and then feeding and mixing the raw materials into a mixing container, and after the production is finished, the raw materials with proper proportion are added again for repeated mixed production, and a production vacuum period exists between the two production gaps, so that the production efficiency is low, and the utility model patent with publication number of CN 206229264U: the utility model provides a water quality improver raw materials ratio controllable blendor, with the mode that sets up adjusting device on the elastic tube, the flow of every raw materials pipeline is controlled, reach the effect that can continue the production, but the raw materials pipeline of slope easily produces raw materials and piles up the jam in the pipeline, and install the adjusting device who is used for limiting the pipeline internal diameter additional, make the probability of producing the jam in the pipeline further increase, in the in-process of continuing the production, once produce the jam of arbitrary time, can all cause the quality problem of water quality improver finished product because of raw materials proportion problem, even adopt vertical raw materials pipeline, can also have the phenomenon that the material blocks up the pipeline inside, and raw materials granule is the smaller, the more easily produces the mutual transverse extrusion of raw materials, and then the problem of jam raw materials pipeline;

patent publication number CN 213193391U: the utility model provides a controllable compounding device of quality of water modifier raw materials ratio, discloses the technical scheme that is provided with clean mechanism, can avoid the dust to mix in the raw materials, and this scheme also can not make the raw materials pipeline unblocked all the time, can not ensure that quality of water modifier can continuous production.

Disclosure of Invention

The utility model aims to provide a raw material proportioning device and method for producing a water quality improver, which are used for solving the problem that the water quality improver cannot be continuously produced in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the raw material proportioning device for producing the water quality improver comprises a mixing container, a charging hole for adding raw materials into the mixing container, a discharging pipe communicated with the bottom of the mixing container, a frame body building, a raw material storage tank and a raw material discharging pipe, wherein the frame body building is a multi-layer frame body built by adopting a steel frame, the raw material storage tank is provided with a plurality of raw material storage requirements for the water quality improver with different components, the raw material storage tanks are separately arranged on the frame bodies with different heights of the frame body building, the transverse occupied area for arranging the raw material storage tanks can be reduced, the raw materials in the raw material storage tanks can flow downwards efficiently by using the vertical raw material discharging pipe, and the production efficiency is improved; on the basis of meeting the vertical arrangement of the raw material discharging pipes, the raw material storage tank can be ensured to have large volume, and the high-efficiency continuous production of the water quality improver can be carried out; the bottom ends of the raw material storage tanks are fixedly communicated with vertical raw material discharging pipes, raw materials in different raw material storage tanks can flow into the mixing hopper from the raw material discharging pipes after flowing through the raw material discharging pipes which are respectively communicated, different raw materials are gathered and mixed in the mixing hopper and then flow out from the bottom ends of the material discharging pipes, a water quality improver filling container is adopted to fill the materials at the bottom ends of the material discharging pipes, or a truck is directly driven into the bottommost layer of a frame body building, and the container is used for filling, so that the method is convenient and efficient; a valve is arranged at the opening at the bottom end of the raw material storage tank, and the inner diameter of the raw material discharging pipe is selected according to the raw material proportion requirement;

the raw material proportioning device further comprises a stacking disturbance component, the stacking disturbance component comprises a disturbance supporting rod, a first disturbance rod, a second disturbance rod, a third disturbance rod and a fourth disturbance rod, the disturbance supporting rod penetrates through the raw material discharging pipe, the axis of the disturbance supporting rod coincides with the axis of the raw material discharging pipe, the first disturbance rod, the second disturbance rod, the third disturbance rod and the fourth disturbance rod are fixedly arranged on the side wall of the disturbance supporting rod from top to bottom, the second first disturbance rod is arranged on the side wall of the disturbance supporting rod below the fourth disturbance rod, and a plurality of first disturbance rods, second disturbance rods, third disturbance rods and fourth disturbance rods are arranged on the side wall of the disturbance supporting rod in this sequence; the free end of the second disturbance rod faces obliquely upwards, the free end of the fourth disturbance rod faces obliquely upwards, the free end of the first disturbance rod faces obliquely downwards, and the free end of the third disturbance rod faces obliquely downwards; the first disturbance rod, the second disturbance rod, the third disturbance rod and the fourth disturbance rod rotate along with the disturbance supporting rod, so that the stirring disturbance can be carried out on raw material particles in the raw material discharging pipe, the phenomenon that the raw material particles cannot fall down is avoided due to the fact that the raw material particles are transversely extruded with each other is avoided, the installation positions and directions of the first disturbance rod, the second disturbance rod, the third disturbance rod and the fourth disturbance rod can ensure that the raw material is blocked at any height in the raw material discharging pipe and can be disturbed by stirring, the balance of transverse extrusion force among the raw materials is destroyed, the raw materials fall smoothly, meanwhile, the distance between the disturbance rods is ensured to be loose, and the phenomenon that the raw material falling efficiency is low due to the blocking of the dense disturbance rods is avoided; in the vertical direction, the third disturbance rod and the fourth disturbance rod have a common stirring height range, and are a first disturbance zone; the first disturbance rod and the second disturbance rod have a common stirring height range and are a second common disturbance zone; because the end parts of the first disturbance rod, the second disturbance rod, the third disturbance rod and the fourth disturbance rod can only stir and disturb the edges of the piled raw materials, the disturbance effect is poor, and the design of the first disturbance zone and the second disturbance zone can ensure the disturbance effect on the piled raw materials; the bottom end transmission of the disturbance supporting rod is connected with a transmission assembly, and the transmission assembly can drive the disturbance supporting rod to rotate.

The transmission assembly comprises an arc connecting pipe, a transmission connecting rod, a motor and a motor fixing frame, wherein the arc connecting pipe is fixedly communicated with the bottom end of the raw material discharging pipe, the motor is fixedly arranged on the outer side wall of the mixing hopper by utilizing the motor fixing frame, a transmission shaft of the motor faces upwards, the transmission connecting rod is fixedly arranged on the transmission shaft of the motor, and the top end of the transmission connecting rod is fixedly connected with the bottom end of the disturbance supporting rod after the transmission connecting rod vertically upwards penetrates through the side wall of the arc connecting pipe.

The horizontal cross sections of the first disturbance rod, the second disturbance rod, the third disturbance rod and the fourth disturbance rod are circular with the diameter smaller than 5 mm, so that the blocking effect on the falling of raw materials is reduced.

The inner diameter of the arc connecting pipe is larger than that of the raw material discharging pipe, and the blocking of the transmission connecting rod to the materials is avoided, so that the raw materials can easily flow through the arc connecting pipe and then enter the mixing hopper.

The dense hemispherical convex points are arranged on the inner side wall of the mixing hopper, raw material particles falling into the mixing hopper from the arc connecting pipe can be blocked and dispersed firstly and then fall continuously under the blocking of the hemispherical convex points, and the mixing effect is good when various raw materials fall to the bottom end of the mixing hopper.

The top end of the inner side wall of the mixing hopper is fixedly provided with a plurality of small discharging hoppers, the bottom of each small discharging hopper is provided with a strip-shaped discharging opening, the bottom end of each arc-shaped connecting pipe is positioned in the small discharging hopper, raw materials discharged from the arc-shaped connecting pipes enter the small discharging hopper, the raw materials discharged from the strip-shaped blanking opening can directly fall on the top area of the inner side wall of the mixing hopper, so that the raw materials which continuously fall can be fully dispersed by the hemispherical protruding points.

The motor is operated at a power of 2-6 seconds per revolution to avoid the accumulation disturbance assembly from impeding the falling of the raw materials due to high-speed rotation.

The proportioning method of the raw material proportioning device for producing the water quality improver comprises the following steps:

step one, a raw material storage step: the plurality of raw material storage tanks are separately arranged on the frame bodies with different heights of the frame body building, so that the transverse occupied area for arranging the raw material storage tanks can be reduced;

step two, blanking: the bottom end of the raw material storage tank is fixedly communicated with a vertical raw material discharging pipe, raw materials in the raw material storage tank can flow downwards efficiently by utilizing the vertical raw material discharging pipe, and raw materials in different raw material storage tanks can flow into the mixing hopper from the raw material discharging pipe after flowing through the raw material discharging pipes which are respectively communicated;

step three, mixing and filling steps: different raw materials are gathered and mixed in a mixing hopper to generate a finished product water quality improver, and the water quality improver flows out from the bottom end of a discharge pipe; and (3) collecting and filling the water quality improver at the bottom end of the discharge pipe by adopting a water quality improver filling container.

In link two, when the raw materials flows through the raw materials unloading intraduct downwards, first disturbance pole, second disturbance pole, third disturbance pole, fourth disturbance pole follow the disturbance bracing piece and rotate, can stir the interference to the inside raw materials granule of raw materials unloading intraduct, avoid raw materials granule because transversely extrudeed each other, cause the raw materials granule to block up the phenomenon that can't whereabouts in the raw materials unloading intraduct.

Compared with the prior art, the utility model has the beneficial effects that:

in the utility model, the raw material storage tank is arranged in a limited transverse space in a multi-layer structure mode, has a large enough volume and a raw material reserve amount enough to support long-time production, and improves the production efficiency;

according to the utility model, the vertical raw material discharging pipe is adopted, so that the raw material directly flows downwards with high efficiency by utilizing gravity, the raw material discharging efficiency is stable, and the finally produced water quality modifier has accurate proportion and good quality;

according to the utility model, the water quality improver filling container can be directly adopted to fill the material at the bottom end of the material discharging pipe, or a truck can be directly driven into the bottommost layer of the frame body building, and the container is used for filling, so that the method is convenient and efficient;

the stacking disturbance assembly is designed, and the unique structure of the stacking disturbance assembly is utilized, so that stirring interference can be carried out on raw material particles in the raw material discharging pipe, the raw material particles are prevented from being mutually extruded transversely, and the phenomenon that the raw material particles are blocked and cannot fall down is avoided;

according to the utility model, the raw materials can be dispersed and then mixed in the mixing hopper, and the stirring structure is not needed, so that the raw materials can be fully mixed with high efficiency.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a raw material proportioning device for producing a water quality improver of the utility model;

FIG. 2 is a schematic diagram showing the overall front view of a raw material proportioning device for producing the water quality improver of the utility model;

FIG. 3 is a schematic view of the construction of the raw material proportioning device for producing the water quality improver of the utility model in a frame-free construction state;

FIG. 4 is a schematic diagram showing the disassembly of the structure of FIG. 3 of the raw material proportioning device for producing the water quality improver of the utility model;

FIG. 5 is a detailed schematic diagram of the raw material discharging pipe of the raw material proportioning device for producing the water quality improver of the utility model;

FIG. 6 is a schematic diagram showing the detailed structure of a disturbance support rod of a raw material proportioning device for producing the water quality improver;

FIG. 7 is a front view of the top area of the disturbance support rod of the raw material proportioning device for producing the water quality improver according to the utility model;

FIG. 8 is a left side view of the top area of the disturbance support rod of the raw material proportioning device for producing the water quality improver of the utility model;

FIG. 9 is a top view of a disturbance support rod of a raw material proportioning device for producing a water quality improver according to the utility model;

FIG. 10 is a detailed schematic diagram of the mixing hopper area of the raw material proportioning device for producing the water quality improver.

Reference numerals in the drawings: 101. a frame body building; 102. a raw material storage tank; 103. a raw material blanking pipe; 104. a mixing hopper; 105. a discharge pipe; 201. a disturbance support rod; 202. a first disturbance rod; 203. a second disturbance rod; 204. a third disturbance rod; 205. a fourth disturbance rod; 206. a first common interference region; 207. a second common-interference region; 301. an arc-shaped connecting pipe; 302. driving the connecting rod; 303. a motor; 304. a motor fixing frame; 401. hemispherical bumps; 501. a small blanking hopper; 502. and a strip-shaped blanking opening.

Detailed Description

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

Examples: as shown in fig. 1-10, the raw material proportioning device for producing the water quality improver comprises a mixing container, and a feeding port for adding raw materials into the mixing container, wherein a discharge pipe 105 is communicated with the bottom of the mixing container, the mixing container is a mixing hopper 104, the raw material proportioning device further comprises a frame building 101, a raw material storage tank 102 and a raw material discharging pipe 103, the frame building 101 is a multi-layer frame body built by adopting a steel frame, the raw material storage tank 102 is provided with a plurality of raw material storage tanks which can adapt to the raw material storage requirements of the water quality improver with different components, the raw material storage tanks 102 are separately arranged on the frame bodies with different heights of the frame building 101, the transverse occupied area of the raw material storage tank 102 is reduced, the raw materials in the raw material storage tank 102 can flow downwards efficiently by using the vertical raw material discharging pipe 103, and the production efficiency is improved; on the basis of meeting the vertical arrangement of the raw material discharging pipe 103, the raw material storage tank 102 can be ensured to have large volume, and the high-efficiency continuous production of the water quality improver can be carried out; the bottom end of the raw material storage tank 102 is fixedly communicated with a vertical raw material discharging pipe 103, after raw materials in different raw material storage tanks 102 flow through the raw material discharging pipes 103 which are respectively communicated, the raw materials can flow into a mixing hopper 104 from the raw material discharging pipes 103, different raw materials flow out from the bottom end of a material discharging pipe 105 after being cohered and mixed in the material mixing hopper 104, a water quality improver filling container is adopted to fill the material at the bottom end of the material discharging pipe 105, or a truck is directly driven into the bottommost layer of a frame body building 101, and the container is utilized for filling, so that the method is convenient and efficient; a valve is arranged at the opening of the bottom end of the raw material storage tank 102, and the inner diameter of the raw material discharging pipe 103 is selected according to the raw material proportion requirement;

the raw material proportioning device further comprises a stacking disturbance component, the stacking disturbance component comprises a disturbance supporting rod 201, a first disturbance rod 202, a second disturbance rod 203, a third disturbance rod 204 and a fourth disturbance rod 205, the disturbance supporting rod 201 is arranged inside the raw material discharging pipe 103 in a penetrating mode, the axis of the disturbance supporting rod 201 coincides with the axis of the raw material discharging pipe 103, the first disturbance rod 202, the second disturbance rod 203, the third disturbance rod 204 and the fourth disturbance rod 205 are fixedly arranged on the side wall of the disturbance supporting rod 201 from top to bottom, a second first disturbance rod 202 arranged on the side wall of the disturbance supporting rod 201 is arranged below the fourth disturbance rod 205, and a plurality of first disturbance rods 202, second disturbance rods 203, third disturbance rods 204 and fourth disturbance rods 205 are arranged on the side wall of the disturbance supporting rod 201 in this sequence; the free end of the second disturbance rod 203 faces obliquely upwards, the free end of the fourth disturbance rod 205 faces obliquely upwards, the free end of the first disturbance rod 202 faces obliquely downwards, and the free end of the third disturbance rod 204 faces obliquely downwards; the first disturbance rod 202, the second disturbance rod 203, the third disturbance rod 204 and the fourth disturbance rod 205 rotate along with the disturbance supporting rod 201, so that stirring interference can be carried out on raw material particles in the raw material discharging pipe 103, the phenomenon that the raw material particles transversely squeeze each other and cannot fall is avoided, the installation positions and directions of the first disturbance rod 202, the second disturbance rod 203, the third disturbance rod 204 and the fourth disturbance rod 205 can ensure that the raw materials at any height in the raw material discharging pipe 103 are blocked, the stirring interference can be carried out, the balance of transverse extrusion force among the raw materials is destroyed, the raw materials fall smoothly, meanwhile, the distance between the disturbance rods is ensured to be loose, and the phenomenon that the raw material falling efficiency is low due to blocking of dense disturbance rods is avoided; in the vertical direction, the third disturbing lever 204 and the fourth disturbing lever 205 have a common stirring height range, which is a first common disturbing region 206; first perturbation bar 202 and second perturbation bar 203 have a common agitating height range, which is second common perturbation zone 207; because the ends of the first disturbance rod 202, the second disturbance rod 203, the third disturbance rod 204 and the fourth disturbance rod 205 can only stir and disturb the edges of the piled-up raw materials, the disturbance effect is poor, and the design of the first disturbance zone 206 and the second disturbance zone 207 can ensure the disturbance effect on the piled-up raw materials; the bottom end transmission of the disturbance bracing piece 201 is connected with a transmission component, and the transmission component can drive the disturbance bracing piece 201 to rotate.

The transmission assembly comprises an arc-shaped connecting pipe 301, a transmission connecting rod 302, a motor 303 and a motor fixing frame 304, wherein the bottom end of the raw material discharging pipe 103 is fixedly communicated with the arc-shaped connecting pipe 301, the motor 303 is fixedly arranged on the outer side wall of the mixing hopper 104 by utilizing the motor fixing frame 304, a transmission shaft of the motor 303 faces upwards, the transmission connecting rod 302 is fixedly arranged on the transmission shaft of the motor 303, and after the transmission connecting rod 302 vertically upwards penetrates through the side wall of the arc-shaped connecting pipe 301, the top end of the transmission connecting rod 302 is fixedly connected with the bottom end of the disturbance supporting rod 201.

The horizontal cross sections of first disturbing lever 202, second disturbing lever 203, third disturbing lever 204, fourth disturbing lever 205 are circular with a diameter of 3 mm, and the blocking effect on the falling of the raw material is reduced in a small volume.

The inner diameter of the arc-shaped connecting pipe 301 is larger than that of the raw material discharging pipe 103, so that the blocking of the raw material caused by the transmission connecting pipe 302 is avoided, and the raw material is easy to flow through the arc-shaped connecting pipe 301 and then enter the mixing hopper 104.

The dense hemispherical protruding points 401 are arranged on the inner side wall of the mixing hopper 104, raw material particles falling into the mixing hopper 104 from the arc connecting pipe 301 can be blocked and dispersed firstly and then continuously fall under the blocking of the hemispherical protruding points 401, and the mixing effect is good when various raw materials fall to the bottom end of the mixing hopper 104.

The top end of the inner side wall of the mixing hopper 104 is fixedly provided with a plurality of small discharging hoppers 501, the bottom of each small discharging hopper 501 is provided with a strip-shaped discharging opening 502, the bottom end of each arc-shaped connecting pipe 301 is positioned inside each small discharging hopper 501, after raw materials discharged from each arc-shaped connecting pipe 301 enter each small discharging hopper 501, the raw materials discharged from each strip-shaped discharging opening 502 can directly fall into the top area of the inner side wall of the mixing hopper 104, and the raw materials which continue to fall can be fully dispersed by the hemispherical convex points 401.

The motor is operated at a power of 5 seconds per revolution to avoid the build-up disturbance assembly from impeding the drop of material due to high speed rotation.

step one, a raw material storage step: the plurality of raw material storage tanks 102 are separately arranged on the frame bodies of different heights of the frame body building 101, so that the transverse occupied area for arranging the raw material storage tanks 102 can be reduced, the raw material storage tanks 102 can be ensured to have large volume on the basis of meeting the vertical arrangement of the raw material blanking pipes 103, and the high-efficiency continuous production of the water quality improver can be carried out;

step two, blanking: the bottom end of the raw material storage tank 102 is fixedly communicated with a vertical raw material blanking pipe 103, raw materials in the raw material storage tank 102 can efficiently flow downwards by utilizing the vertical raw material blanking pipe 103, and raw materials in different raw material storage tanks 102 can flow into a mixing hopper 104 from the raw material blanking pipes 103 after flowing through the raw material blanking pipes 103 which are respectively communicated;

step three, mixing and filling steps: different raw materials are aggregated and mixed in a mixing hopper 104 to generate a finished product water quality improver, and the water quality improver flows out from the bottom end of a discharge pipe 105; the water quality improver filling container is adopted to collect and fill at the bottom end of the discharge pipe 105.

In the second link, when the raw material flows down through the raw material discharging pipe 103, the first disturbing rod 202, the second disturbing rod 203, the third disturbing rod 204 and the fourth disturbing rod 205 rotate along with the disturbing supporting rod 201, so that the raw material particles in the raw material discharging pipe 103 can be disturbed and stirred, and the phenomenon that the raw material particles cannot fall down due to the blockage of the raw material particles in the raw material discharging pipe 103 caused by the transverse mutual extrusion is avoided.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a raw materials proportioning device of quality of water modifier production, includes the compounding container to and be used for adding the charge door of raw materials in the compounding container, compounding container bottom intercommunication has row material pipe (105), its characterized in that: the material mixing container is a material mixing hopper (104), and further comprises a frame body building (101), a material storage tank (102) and a material discharging pipe (103), wherein the frame body building (101) is a multi-layer frame body built by a steel frame, the material storage tanks (102) are provided with a plurality of material storage tanks, the material storage tanks (102) are separately arranged on the frame bodies of different heights of the frame body building (101), the transverse occupied area for arranging the material storage tanks (102) can be reduced, the bottom ends of the material storage tanks (102) are fixedly communicated with the vertical material discharging pipe (103), and a valve is arranged at the opening of the bottom ends of the material storage tanks (102); the raw material proportioning device further comprises a piling disturbance component, the piling disturbance component comprises a disturbance supporting rod (201), a first disturbance rod (202), a second disturbance rod (203), a third disturbance rod (204) and a fourth disturbance rod (205), the disturbance supporting rod (201) is arranged inside the raw material discharging pipe (103) in a penetrating mode, the axis of the disturbance supporting rod (201) coincides with the axis of the raw material discharging pipe (103), the first disturbance rod (202), the second disturbance rod (203), the third disturbance rod (204) and the fourth disturbance rod (205) are fixedly arranged on the side wall of the disturbance supporting rod (201) from top to bottom, the first disturbance rod (202), the second disturbance rod (203), the third disturbance rod (204) and the fourth disturbance rod (205) are arranged below the fourth disturbance rod (205) on the side wall of the disturbance supporting rod (201) in sequence; the free end of the second disturbance rod (203) faces obliquely upwards, the free end of the fourth disturbance rod (205) faces obliquely upwards, the free end of the first disturbance rod (202) faces obliquely downwards, and the free end of the third disturbance rod (204) faces obliquely downwards; the third stirring rod (204) and the fourth stirring rod (205) have a common stirring height range and are a first common stirring zone (206); the first disturbance rod (202) and the second disturbance rod (203) have a common stirring height range and are a second common disturbance zone (207); the bottom end of the disturbance supporting rod (201) is in transmission connection with a transmission assembly, and the transmission assembly can drive the disturbance supporting rod (201) to rotate;

the horizontal sections of the first disturbing rod (202), the second disturbing rod (203), the third disturbing rod (204) and the fourth disturbing rod (205) are circular with the diameter smaller than 5 mm;

the transmission assembly comprises an arc-shaped connecting pipe (301), a transmission connecting rod (302), a motor (303) and a motor fixing frame (304), wherein the arc-shaped connecting pipe (301) is fixedly communicated with the bottom end of the raw material discharging pipe (103), the motor (303) is fixedly installed on the outer side wall of the mixing hopper (104) through the motor fixing frame (304), a transmission shaft of the motor (303) faces upwards, the transmission connecting rod (302) is fixedly installed on the transmission shaft of the motor (303), and after the transmission connecting rod (302) vertically penetrates through the side wall of the arc-shaped connecting pipe (301), the top end of the transmission connecting rod (302) is fixedly connected with the bottom end of the disturbance supporting rod (201);

the inner diameter of the arc-shaped connecting pipe (301) is larger than the inner diameter of the raw material discharging pipe (103).

2. The raw material proportioning device for producing a water quality improver according to claim 1, which is characterized in that: the dense hemispherical protruding points (401) are arranged on the inner side wall of the mixing hopper (104), raw material particles falling into the mixing hopper (104) from the arc connecting pipe (301) can be firstly blocked and dispersed and then continuously fall under the blockage of the hemispherical protruding points (401), and the mixing effect is good when various raw materials fall to the bottom end of the mixing hopper (104).

3. The raw material proportioning device for producing a water quality improver according to claim 2, which is characterized in that: the novel material mixing hopper is characterized in that a plurality of small discharging hoppers (501) are fixedly arranged at the top ends of the inner side walls of the material mixing hoppers (104), strip-shaped discharging openings (502) are formed in the bottoms of the small discharging hoppers (501), and the bottom ends of the arc-shaped connecting pipes (301) are located inside the small discharging hoppers (501).

4. The proportioning method of a raw material proportioning device for producing a water quality improver according to claim 1, which is characterized by comprising the following steps: the method comprises the following steps:

step one, a raw material storage step: the plurality of raw material storage tanks (102) are separately arranged on the frame bodies of different heights of the frame body building (101), so that the transverse occupied area for arranging the raw material storage tanks (102) can be reduced, the raw material storage tanks (102) can be ensured to have large volume on the basis of meeting the vertical arrangement of the raw material discharging pipes (103), and the continuous production of the water quality improver can be carried out;

step two, blanking: the bottom end of the raw material storage tank (102) is fixedly communicated with a vertical raw material discharging pipe (103), raw materials in the raw material storage tank (102) can flow downwards efficiently by using the vertical raw material discharging pipe (103), and after raw materials in different raw material storage tanks (102) flow through the raw material discharging pipes (103) which are respectively communicated, the raw materials can flow into the mixing hopper (104) from the raw material discharging pipe (103);

step three, mixing and filling steps: different raw materials are aggregated and mixed in a mixing hopper (104) to generate a finished product water quality improver, and the water quality improver flows out from the bottom end of a discharge pipe (105); and (3) collecting and filling the water quality improver at the bottom end of the discharge pipe (105) by adopting a water quality improver filling container.

5. The proportioning method of a raw material proportioning device for producing a water quality improver according to claim 4, which is characterized in that: in the second link, when raw materials downwardly flow through inside raw materials unloading pipe (103), first disturbance pole (202), second disturbance pole (203), third disturbance pole (204), fourth disturbance pole (205) follow disturbance bracing piece (201) and rotate, can stir the interference to the inside raw materials granule of raw materials unloading pipe (103), avoid raw materials granule because transversely extrudeed each other, cause the unable whereabouts phenomenon of raw materials granule jam in raw materials unloading pipe (103).