阅读说明：本技术 一种珍珠粉生产工艺 (Pearl powder production process ) 是由 马宪东 穆凤扬 穆凤文 穆凤鸣 马凯 张守良 于 2021-08-23 设计创作，主要内容包括：本发明涉及一种珍珠粉生产工艺,该珍珠粉生产工艺采用如下加工设备,该加工设备包括底板架、承托架和提纯装置,所述的底板架上端均匀安装有承托架,承托架上端之间安装有提纯装置。本发明可以解决现有的设备在对珍珠粉原料进行混料时,不能够有效地将原料进行充分混合,混合效果差、混合效率低,不能够完全地将原料内部的有害物质与水混合,导致有害物质影响珍珠粉使用的安全性,同时现有的设备在对珍珠粉原料进行提纯时,不能够有效地对原料内部的大颗粒杂质进行过滤去除,影响珍珠粉的后续使用效果等难题。(The invention relates to a pearl powder production process, which adopts the following processing equipment, wherein the processing equipment comprises a base plate frame, supporting brackets and a purification device, the supporting brackets are uniformly arranged at the upper ends of the base plate frame, and the purification device is arranged between the upper ends of the supporting brackets. The pearl powder mixing device can solve the problems that when the existing equipment is used for mixing pearl powder raw materials, the raw materials cannot be effectively and fully mixed, the mixing effect is poor, the mixing efficiency is low, harmful substances in the raw materials cannot be completely mixed with water, the use safety of the pearl powder is influenced by the harmful substances, and meanwhile, when the existing equipment is used for purifying the pearl powder raw materials, large-particle impurities in the raw materials cannot be effectively filtered and removed, the subsequent use effect of the pearl powder is influenced, and the like.)

1. The pearl powder production process adopts the following processing equipment, and the processing equipment comprises a base plate frame (1), a bearing bracket (2) and a purification device (3), and is characterized in that: the upper end of the bottom plate frame (1) is uniformly provided with supporting brackets (2), and a purification device (3) is arranged between the upper ends of the supporting brackets (2); wherein:

the purification device (3) comprises a collecting barrel (31), a mixing barrel (32), an adjusting mechanism (33), a stirring mechanism (34), a filtering mechanism (35) and a collecting mechanism (36), wherein the collecting barrel (31) is installed between the upper ends of the supporting brackets (2), the collecting barrel (31) is of a cylindrical structure, open slots are uniformly formed in the upper end of the collecting barrel (31), the mixing barrel (32) is installed on each open slot through a pin shaft, the adjusting mechanism (33) is installed at the upper end of the collecting barrel (31), the outer side of the adjusting mechanism (33) is connected with the mixing barrel (32), the stirring mechanism (34) is installed in the middle of the adjusting mechanism (33), the lower end of the stirring mechanism (34) is located inside the collecting barrel (31), and the collecting mechanism (36) is installed at the lower end inside the collecting barrel (31);

the adjusting mechanism (33) comprises a fixed frame (331), a moving frame (332), a connecting frame (333), a guide rod (334), a limiting plate (335) and a sliding frame (336), the collecting barrel (31) is symmetrically provided with fixed frames (331), electric sliders are arranged inside the fixed frames (331), moving frames (332) are arranged between the fixed frames (331), the moving frames (332) are of a cross structure, the outer sides of the moving frames (332) are connected with the electric sliders, connecting frames (333) are arranged on the moving frames (332), the middle of the upper end of the mixing barrel (32) is provided with a limiting plate (335), the middle of the limiting plate (335) is connected with a guide rod (334) in a sliding fit mode, the upper end of the guide rod (334) is connected with the connecting frames (333) through a bearing, the lower end of the guide rod (334) is provided with a sliding frame (336), and a sliding chute matched with the sliding frame (336) is arranged inside the mixing barrel (32);

the pearl powder production process comprises the following steps:

s1, cleaning and removing impurities: spreading Margarita materials on a sorting table or mechanical sorting unit or stainless steel ground in several times, and removing impurities and non-medicinal parts;

s2, elutriation processing: putting the pearl medicinal material in the step S1 into a medicine washing tank, washing the pearl medicinal material with flowing drinking water to clean the surface of the pearl medicinal material without silt, and drying the washed pearl material;

s3, crushing and flattening: pouring the pearl material obtained in the step S2 into a crusher for crushing, and pouring the crushed raw material into a 120-mesh screen for screening;

s4, water flight purification: the crushed raw materials in the step S3 are filled into a mixing barrel (32), water is added into the mixing barrel (32), the crushed raw materials and the water are mixed to form a suspension, an adjusting mechanism (33) drives the mixing barrel (32) to rotate inwards synchronously, the suspension on the upper layer of the mixing barrel (32) is injected into a collecting barrel (31), the operation is repeated, the crushed raw materials are fully mixed, a filtering mechanism (35) can remove large-particle impurities in the raw materials, the suspension is kept stand for a period of time, the supernatant is extracted, and a collecting mechanism (36) can collect precipitates;

s5, heating and drying: pouring the precipitate collected in the step S4 into a stainless steel tray, uniformly spreading, and drying at 70-80 ℃ until the precipitate is in a loose state by hand;

s6, secondary crushing: crushing the dried and agglomerated raw material in the step S5, and screening the crushed raw material through a 120-mesh screen;

s7, packaging and warehousing: and D, quantitatively packaging the crushed and sieved raw materials in the step S6, and conveying the packaged raw materials into a warehouse for stacking and storing.

2. The pearl powder production process according to claim 1, wherein: compounding bucket (32) be the rectangle structure, compounding bucket (32) inside is provided with circular logical groove, compounding unit is installed to compounding bucket (32) lower extreme, the compounding unit includes connecting pipe (321), leading truck (322), rotates turbine (323), connecting rod (324) and compounding frame (325), compounding bucket (32) lower extreme mid-mounting have connecting pipe (321), connecting pipe (321) are linked together with external water pump, leading truck (322) are installed to the inside lower extreme of connecting pipe (321), the inside through-hole that is equipped with the slope of leading truck (322), connecting rod (324) are installed through the bearing in connecting pipe (321) inside upper end, rotating turbine (323) are installed to connecting rod (324) lower extreme, compounding frame (325) are installed to connecting rod (324) upper end.

3. The pearl powder production process according to claim 1, wherein: the stirring mechanism (34) comprises a driving motor (341), a stirring rod (342) and a stirring frame (343), the driving motor (341) is installed in the middle of the upper end of the adjusting mechanism (33), the stirring rod (342) is installed on an output shaft of the driving motor (341), and the stirring frame (343) is installed at the lower end of the stirring rod (342).

4. The pearl powder production process according to claim 1, wherein: filtering mechanism (35) include locating rack (351), annular frame (352) and filter screen (353), collecting vessel (31) inside evenly install locating rack (351), locating rack (351) are V style of calligraphy structure, annular frame (352) are installed to locating rack (351) upper end, annular frame (352) inside is provided with filter screen (353).

5. The pearl powder production process according to claim 1, wherein: collecting mechanism (36) including cross frame (361), electro-magnet (362) and collection frame (363), collecting vessel (31) internally mounted have cross frame (361), collecting vessel (31) lower extreme evenly is provided with the discharge gate, is provided with on the discharge gate and collects frame (363), evenly installs electro-magnet (362) on cross frame (361), is provided with on collection frame (363) with electro-magnet (362) complex iron plate.

6. A pearl powder production process according to claim 4, wherein: the positioning frame (351) is uniformly provided with positioning grooves, the annular frame (352) is uniformly provided with clamping plates matched with the positioning grooves, and the clamping plates are made of elastic metal materials.

7. A pearl powder production process according to claim 4, wherein: the annular frame (352) is made of stainless steel metal mesh surface materials, the annular frame (352) is of an annular structure with a V-shaped section, and the inner side of the annular frame (352) is bent upwards.

8. A pearl powder production process according to claim 5, wherein: the collecting frame (363) is of a fan-shaped structure, a sealing gasket is arranged at the joint of the outer side of the collecting frame (363) and the collecting frame (363), and the sealing gasket is made of rubber.

Technical Field

The invention relates to the field of pearl powder processing, in particular to a pearl powder production process.

Background

The pearl is a famous and precious traditional Chinese medicine, contains various amino acids and trace elements required by a human body, has various effects of improving eyesight, removing nebula, nourishing blood, calming nerves, relieving heart, arresting convulsion, moistening skin, beautifying and the like, is generally crushed by people during health care and treatment by using the pearl so as to be beneficial to the absorption of the effective components of the pearl by the human body, and has the advantages that the absorption rate of the effective components of the pearl by the human body depends on the particle size of the crushed pearl, and the smaller the particle size of the pearl powder is, the higher the absorption rate of the human body is.

At present, the prior pearl powder has the following defects in the purification processing process: 1. when the existing equipment is used for mixing the pearl powder raw materials, the raw materials cannot be effectively and fully mixed, the mixing effect is poor, the mixing efficiency is low, and harmful substances in the raw materials cannot be completely mixed with water, so that the harmful substances influence the use safety of the pearl powder; 2. when the existing equipment is used for purifying pearl powder raw materials, large-particle impurities in the raw materials cannot be effectively filtered and removed, so that the subsequent using effect of the pearl powder is influenced.

Disclosure of Invention

Technical problem to be solved

The pearl powder mixing device can solve the problems that when the existing equipment is used for mixing pearl powder raw materials, the raw materials cannot be effectively and fully mixed, the mixing effect is poor, the mixing efficiency is low, harmful substances in the raw materials cannot be completely mixed with water, the use safety of the pearl powder is influenced by the harmful substances, and meanwhile, when the existing equipment is used for purifying the pearl powder raw materials, large-particle impurities in the raw materials cannot be effectively filtered and removed, the subsequent use effect of the pearl powder is influenced, and the like.

(II) technical scheme

In order to achieve the purpose, the technical scheme is that the pearl powder production process adopts the following processing equipment, the processing equipment comprises a bottom plate frame, supporting brackets and a purification device, the supporting brackets are uniformly arranged at the upper ends of the bottom plate frame, and the purification device is arranged between the upper ends of the supporting brackets.

The purification device include collecting vessel, compounding bucket, adjustment mechanism, rabbling mechanism, filtering mechanism and collecting mechanism, the support bracket upper end between install the collecting vessel, the collecting vessel is cylindrical structure, the collecting vessel upper end evenly is provided with the open slot, install the compounding bucket through the round pin axle on the open slot, adjustment mechanism is installed to the collecting vessel upper end, the adjustment mechanism outside is connected with the compounding bucket, the adjustment mechanism mid-mounting has the rabbling mechanism, the rabbling mechanism lower extreme is located inside the collecting vessel, collecting mechanism is installed to the inside lower extreme of collecting vessel.

Adjustment mechanism include the mount, remove the frame, the link, the guide bar, limiting plate and carriage, the collecting vessel on the symmetry install the mount, mount internally mounted has electronic slider, be provided with between the mount and remove the frame, it is the cruciform structure to remove the frame, it is connected with electronic slider to remove the frame outside, remove and install the link on the frame, compounding bucket upper end mid-mounting has the limiting plate, the limiting plate middle part is connected with the guide bar through sliding fit's mode, the guide bar upper end is connected with the link through the bearing, the carriage is installed to the guide bar lower extreme, compounding bucket inside be provided with carriage complex spout.

The pearl powder production process comprises the following steps:

s1, cleaning and removing impurities: spreading Margarita materials on a sorting table or mechanical sorting unit or stainless steel ground in several times, and removing impurities and non-medicinal parts;

s2, elutriation processing: putting the pearl medicinal material in the step S1 into a medicine washing tank, washing the pearl medicinal material with flowing drinking water to clean the surface of the pearl medicinal material without silt, and drying the washed pearl material;

s3, crushing and flattening: pouring the pearl material obtained in the step S2 into a crusher for crushing, and pouring the crushed raw material into a 120-mesh screen for screening;

s4, water flight purification: loading the crushed raw materials in the step S3 into a mixing barrel, adding water into the mixing barrel to mix the crushed raw materials with the water to form a suspension, driving the mixing barrel to rotate inwards synchronously by an adjusting mechanism to inject the suspension on the upper layer of the mixing barrel into a collecting barrel, repeating the operation to fully mix the crushed raw materials, removing large-particle impurities in the raw materials by a filtering mechanism, standing the suspension for a period of time, extracting supernatant, and collecting precipitates by the collecting mechanism;

s5, heating and drying: pouring the precipitate collected in the step S4 into a stainless steel tray, uniformly spreading, and drying at 70-80 ℃ until the precipitate is in a loose state by hand;

s6, secondary crushing: crushing the dried and agglomerated raw material in the step S5, and screening the crushed raw material through a 120-mesh screen;

s7, packaging and warehousing: and D, quantitatively packaging the crushed and sieved raw materials in the step S6, and conveying the packaged raw materials into a warehouse for stacking and storing.

Preferably, the compounding bucket be the rectangle structure, the inside circular logical groove that is provided with of compounding bucket, the compounding unit is installed to compounding bucket lower extreme, the compounding unit includes connecting pipe, leading truck, rotation turbine, connecting rod and compounding frame, compounding bucket lower extreme mid-mounting have the connecting pipe, the connecting pipe is linked together with external water pump, the leading truck is installed to the inside lower extreme of connecting pipe, the inside through-hole that is equipped with the slope of leading truck, the connecting rod is installed through the bearing in the inside upper end of connecting pipe, the rotation turbine is installed to the connecting rod lower extreme, the compounding frame is installed to the connecting rod upper end.

Preferably, the stirring mechanism comprises a driving motor, a stirring rod and a stirring frame, the middle part of the upper end of the adjusting mechanism is provided with the driving motor, the output shaft of the driving motor is provided with the stirring rod, and the lower end of the stirring rod is provided with the stirring frame.

Preferably, filtering mechanism include locating rack, annular frame and filter screen, the collecting vessel inside evenly install the locating rack, the locating rack is V style of calligraphy structure, the annular frame is installed to the locating rack upper end, the inside filter screen that is provided with of annular frame.

Preferably, the collection mechanism include cross frame, electro-magnet and collect the frame, collecting vessel internally mounted have the cross frame, the collecting vessel lower extreme evenly is provided with the discharge gate, is provided with on the discharge gate and collects the frame, evenly installs the electro-magnet on the cross frame, collect and be provided with on the frame with electro-magnet complex iron plate.

Preferably, the locating rack is evenly provided with a locating slot, the annular rack is evenly provided with a clamping plate matched with the locating slot, and the clamping plate is made of elastic metal materials.

Preferably, the annular frame is made of stainless steel metal mesh surface materials, the section of the annular frame is of a V-shaped annular structure, and the inner side of the annular frame is bent upwards.

Preferably, the collection frame is of a fan-shaped structure, and a sealing gasket is arranged at the joint of the outer side of the collection frame and the collection frame.

(III) advantageous effects

1. According to the pearl powder production process provided by the invention, the purification device adopts a water-jet method design idea, and a design mode of mixing and precipitating is adopted, so that harmful impurities in the pearl powder can be effectively removed, and the safety of the pearl powder use is prevented from being influenced by the harmful impurities;

2. according to the pearl powder production process provided by the invention, the adjusting mechanism is in a linkage design, so that the mixing barrel can realize the function of simultaneously injecting materials, the raw materials can be effectively mixed, the mixing effect is good, the subsequent purification and processing of the raw materials are facilitated, and the production efficiency of an enterprise is improved;

3. according to the pearl powder production process provided by the invention, the filtering mechanism can effectively remove large-particle impurities and light non-medicinal parts in the raw materials, and the impurities are prevented from influencing the using effect of the pearl powder;

4. according to the pearl powder production process provided by the invention, the collection mechanism can collect the raw materials which are statically precipitated, so that the subsequent processing of the raw materials is facilitated, and meanwhile, the collection mechanism has a good sealing effect, so that the collection mechanism is free from leakage, and the collection mechanism is beneficial to being used for a long time.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a process flow diagram of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a schematic plan view of the present invention;

FIG. 4 is a schematic cross-sectional view taken along line A-A of FIG. 3 in accordance with the present invention;

FIG. 5 is a schematic cross-sectional view taken along line B-B of FIG. 3 in accordance with the present invention;

FIG. 6 is a schematic cross-sectional view of the mixing barrel, guide rods, limiting plates and sliding rack of the present invention;

FIG. 7 is an enlarged schematic view of the invention at A in FIG. 6;

FIG. 8 is a schematic cross-sectional view of the collection vessel, adjustment mechanism, agitation mechanism and filtration mechanism of the present invention;

fig. 9 is a schematic cross-sectional view of the collector can and the filter mechanism of the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 9, the pearl powder production process adopts the following processing equipment, the processing equipment comprises a bottom plate frame 1, a support bracket 2 and a purification device 3, the support bracket 2 is uniformly arranged at the upper end of the bottom plate frame 1, and the purification device 3 is arranged between the upper ends of the support bracket 2.

The purification device 3 comprises a collecting barrel 31, a mixing barrel 32, an adjusting mechanism 33, a stirring mechanism 34, a filtering mechanism 35 and a collecting mechanism 36, wherein the collecting barrel 31 is arranged between the upper ends of the supporting brackets 2, the collecting barrel 31 is of a cylindrical structure, open slots are uniformly formed in the upper end of the collecting barrel 31, the mixing barrel 32 is arranged on the open slots through pin shafts, the adjusting mechanism 33 is arranged at the upper end of the collecting barrel 31, the outer side of the adjusting mechanism 33 is connected with the mixing barrel 32, the stirring mechanism 34 is arranged in the middle of the adjusting mechanism 33, the lower end of the stirring mechanism 34 is positioned in the collecting barrel 31, the collecting mechanism 36 is arranged at the lower end in the collecting barrel 31, when the purification device works specifically, crushed raw materials are manually placed in the mixing barrel 32 respectively, water is added into the mixing barrel 32, so that the crushed raw materials are mixed with the water to form a mixed suspension, the adjusting mechanism 33 drives the mixing barrel 32 to rotate inwards synchronously, and the mixed suspension on the upper layer of the mixing barrel 32 is injected into the collecting barrel 31, repeating the above operation makes broken raw materials intensive mixing, filtering mechanism 35 can get rid of the large granule impurity in the raw materials, waits that the suspension stews for a period of time to take out the supernatant, borrows the suspension effect of water to the medicine, can get rid of light non-medicinal part, can get rid of the water-soluble toxic substance in the raw materials simultaneously, collecting mechanism 36 can collect the precipitate.

The adjusting mechanism 33 comprises a fixed frame 331, a movable frame 332, a connecting frame 333, a guide rod 334, a limiting plate 335 and a sliding frame 336, the fixed frame 331 is symmetrically installed on the collecting barrel 31, an electric slider is installed inside the fixed frame 331, the movable frame 332 is arranged between the fixed frames 331 and is in a cross structure, the outer side of the movable frame 332 is connected with the electric slider, the connecting frame 333 is installed on the movable frame 332, the limiting plate 335 is installed at the middle part of the upper end of the mixing barrel 32, the guide rod 334 is connected with the middle part of the limiting plate 335 in a sliding fit manner, the upper end of the guide rod 334 is connected with the connecting frame 333 through a bearing, the sliding frame 336 is installed at the lower end of the guide rod 334, a sliding groove matched with the sliding frame 336 is arranged inside the mixing barrel 32, during specific work, when the electric slider drives the movable frame 332 to move downwards, the movable frame 332 drives the mixing barrel 32 to turn inwards through the guide rod 334, the suspension in the mixing barrel 32 can be poured into the collecting barrel 31, the electric sliding block drives the moving frame 332 to repeat the steps, and the suspension in the mixing barrel 32 can be completely injected into the collecting barrel 31, so that the raw materials can be purified conveniently.

The mixing barrel 32 is of a rectangular structure, a circular through groove is arranged in the mixing barrel 32, a mixing unit is arranged at the lower end of the mixing barrel 32 and comprises a connecting pipe 321, a guide frame 322, a rotating turbine 323, a connecting rod 324 and a mixing frame 325, the middle part of the lower end of the mixing barrel 32 is provided with a connecting pipe 321, the connecting pipe 321 is communicated with an external water pump, the lower end of the inside of the connecting pipe 321 is provided with a guide frame 322, the inside of the guide frame 322 is provided with an inclined through hole, the upper end of the inside of the connecting pipe 321 is provided with a connecting rod 324 through a bearing, the lower end of the connecting rod 324 is provided with a rotating turbine 323, the upper end of the connecting rod 324 is provided with a mixing frame 325, when in specific work, when high-pressure water enters the mixing barrel 32 through the connecting pipe 321, the high-pressure water is ejected through the guide frame 322, the inclined through hole can drive the rotating turbine 323 to rotate through the high-pressure water, and the rotating turbine 323 drives the mixing frame 325 to stir raw materials through the connecting rod 324.

Stirring mechanism 34 include driving motor 341, stirring rod 342 and stirring frame 343, adjustment mechanism 33 upper end mid-mounting have driving motor 341, install stirring rod 342 on driving motor 341's the output shaft, stirring frame 343 is installed to stirring rod 342 lower extreme, during specific work, driving motor 341 can drive stirring frame 343 through stirring rod 342 and rotate for raw materials and water intensive mixing, guarantee that the inside harmful substance of raw materials leaches completely, prevent that the toxic substance who dissolves in water from sneaking into inside the pearl powder, prevent that the pearl powder from producing the side effect.

Filter mechanism 35 include locating rack 351, annular frame 352 and filter screen 353, collecting vessel 31 inside evenly install locating rack 351, locating rack 351 is V style of calligraphy structure, annular frame 352 is installed to locating rack 351 upper end, the inside filter screen 353 that is provided with of annular frame 352, during concrete work, when the suspension inside mixing barrel 32 poured into filter screen 353 upper end, filter screen 353 can get rid of the inside large granule impurity of suspension, does benefit to the purification processing of pearl powder.

Locating rack 351 on evenly be provided with the constant head tank, evenly be provided with on annular frame 352 with constant head tank complex chucking board, the chucking board is made for elastic metal material, the chucking board passes through the constant head tank and installs on locating rack 351 for annular frame 352 can be dismantled, remaining impurity is cleared up on the annular frame 352 of being convenient for, can conveniently change filter screen 353 simultaneously.

The annular frame 352 is made of stainless steel metal mesh surface materials, the annular frame 352 is of an annular structure with a V-shaped section, the inner side of the annular frame 352 is bent upwards, the rigidity and the strength of the annular frame 352 are high, the phenomenon that the annular frame 352 is deformed and damaged due to stress is avoided, the inner side of the annular frame 352 is bent upwards, suspension can be prevented from overflowing, and the suspension is guaranteed to be filtered sufficiently.

Collecting mechanism 36 include cross 361, electro-magnet 362 and collection frame 363, collecting vessel 31 internally mounted have cross 361, collecting vessel 31 lower extreme evenly is provided with the discharge gate, be provided with on the discharge gate and collect frame 363, evenly install electro-magnet 362 on the cross 361, be provided with on the collection frame 363 with electro-magnet 362 complex iron plate, during specific work, when collecting frame 363 inserts inside the discharge gate, electro-magnet 362 can adsorb fixedly collecting frame 363, guarantee the leakproofness that collects frame 363 connects, prevent to produce the gap between collection frame 363 and the collecting vessel 31.

The collecting frame 363 is of a fan-shaped structure, a sealing gasket is arranged at the joint of the outer side of the collecting frame 363 and the collecting frame 363, the sealing gasket is made of rubber, and the sealing performance of connection can be effectively guaranteed through the sealing gasket.

The pearl powder production process comprises the following steps:

s1, cleaning and removing impurities: spreading Margarita materials on a sorting table or mechanical sorting unit or stainless steel ground in several times, and removing impurities and non-medicinal parts;

s2, elutriation processing: putting the pearl medicinal material in the step S1 into a medicine washing tank, washing the pearl medicinal material with flowing drinking water to clean the surface of the pearl medicinal material without silt, and drying the washed pearl material;

s3, crushing and flattening: pouring the pearl material obtained in the step S2 into a crusher for crushing, and pouring the crushed raw material into a 120-mesh screen for screening;

s4, water flight purification: loading the crushed raw materials in the step S3 into the mixing barrel 32, adding water into the mixing barrel 32 to mix the crushed raw materials with the water to form a suspension, driving the mixing barrel 32 to rotate synchronously inwards by the adjusting mechanism 33 to inject the suspension on the upper layer of the mixing barrel 32 into the collecting barrel 31, repeating the above operations to fully mix the crushed raw materials, removing large-particle impurities in the raw materials by the filtering mechanism 35, standing the suspension for a period of time, extracting the supernatant, and collecting the precipitate by the collecting mechanism 36;

s5, heating and drying: pouring the precipitate collected in the step S4 into a stainless steel tray, uniformly spreading, and drying at 70-80 ℃ until the precipitate is in a loose state by hand;

s6, secondary crushing: crushing the dried and agglomerated raw material in the step S5, and screening the crushed raw material through a 120-mesh screen;

s7, packaging and warehousing: and D, quantitatively packaging the crushed and sieved raw materials in the step S6, and conveying the packaged raw materials into a warehouse for stacking and storing.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.