CN112915911B

CN112915911B - Brightener processing method

Info

Publication number: CN112915911B
Application number: CN202110100466.9A
Authority: CN
Inventors: 袁明星
Original assignee: Zhejiang Kebao New Material Technology Co ltd
Current assignee: Zhejiang Kebao New Material Technology Co ltd
Priority date: 2021-01-26
Filing date: 2021-01-26
Publication date: 2022-02-22
Anticipated expiration: 2041-01-26
Also published as: CN112915911A

Abstract

The invention discloses a brightener processing method, which comprises the following steps: a. adding water into stirring equipment, heating, stirring, and starting ventilation equipment; b. adding the pearl alkali and the ethylene diamine tetraacetic acid into stirring equipment under stirring, and stirring until the pearl alkali and the ethylene diamine tetraacetic acid are completely dissolved; c. adding water to cool under stirring; d. adding MOMC and IZE under stirring, and stirring; e. adjusting the solution to a specified volume and uniformly stirring; f. adding the first-grade uracil under the stirring condition, and uniformly stirring; g. filtering with a filter to obtain the product.

Description

Brightener processing method

Technical Field

The invention belongs to the technical field of brightener preparation, and particularly relates to a brightener processing method.

Background

The main function of the brightener is to remove oil stains, oxidized and unoxidized surface impurities remained on the metal surface through an active surface, and maintain the cleanness, glossiness and color fastness of the exterior of an object. Various agents need to be added to the brightener in the production process, the final product is obtained after the various agents are mixed and stirred, due to the fact that the additives are various, the agents need to be continuously added into the solution in the brightener production process, the adding time and the adding amount of the agents need to be manually controlled, the automation degree of the brightener production process is reduced, and meanwhile the production efficiency of the brightener is also reduced.

Disclosure of Invention

The invention provides a brightener processing method for overcoming the defects of the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: a brightener processing method comprises the following steps:

a. adding water into stirring equipment, heating, stirring, and starting ventilation equipment;

b. adding the pearl alkali and the ethylene diamine tetraacetic acid into stirring equipment under stirring, and stirring until the pearl alkali and the ethylene diamine tetraacetic acid are completely dissolved;

c. adding water to cool under stirring;

d. adding MOMC and IZE under stirring, and stirring;

e. adding the first-grade uracil and the BPC-48 under the stirring condition, and uniformly stirring;

f. adjusting the solution to a specified volume and uniformly stirring;

g. filtering with a filter to obtain a product;

the stirring device in the step a comprises a stirring box and a guide rail matched with the stirring box, wherein a first through groove matched with the guide rail is formed in the side wall of the stirring box; the top of the guide rail is provided with a water storage tank and a material storage tank, the guide rail is provided with a movable block, the bottom of the movable block is provided with a material carrying box, the bottom of the material storage tank is provided with a discharge port, the guide rail is provided with a first through hole corresponding to the discharge port, the water storage tank is internally provided with a drying assembly, and when the movable block moves in the stirring tank, the bottom of the material carrying box is opened; the water flow enters the stirring box through the water inlet pipe, the heating block heats the water flow in the stirring box, the stirring shaft rotates to stir the water flow, the movable block moves in the guide rail, the movable block moves to the bottom of the storage box, the medicine in the storage box enters the material carrying box through the first through hole, the movable block drives the material carrying box filled with the medicine to continuously move along the guide rail, the movable block enters the stirring box, the bottom of the material carrying box is opened, the medicine in the material carrying box falls into the stirring box, and the medicine is added; when the material carrying box needs to be filled with powdery medicinal materials, the material carrying box moves to the position below the water storage tank, water flow in the water storage tank enters the material carrying box to clean the inner wall of the material carrying box, the drying component wipes water drops on the inner wall of the material carrying box to dry, the movable block drives the material carrying box to move into the storage box filled with the powdery medicinal materials, the medicinal materials are added into the material carrying box and then continue to move along the guide rail, after the material carrying box enters the stirring box, the powdery medicinal materials fall out of the material carrying box until all the raw materials are added into the stirring box, and the preparation of a crude brightener is completed;

the movable block drives the material carrying box to move, so that the material carrying box stays in the material storing box filled with specified medicines as required when moving on the guide rail, the medicines in the material storing box are transported, and the medicines are automatically conveyed into the stirring box, so that the medicine is added more intelligently, and the automation degree in the production process of the brightener is increased; after the movable block moves into the stirring box, the bottom of the material carrying box is opened, the movable block is still in an open state at the moment, and medicines in the material carrying box fall down when moving along with the material carrying box, so that the medicines are added into the solution from multiple positions in the stirring box and are matched with the stirring shaft, and the mixing effect of the solution is improved; through the setting of drying assembly, do drying process to carrying the magazine inside, avoid likepowder medicine adhesion on carrying the magazine inner wall, make the medicine in carrying the magazine add the agitator tank to the greatest extent, guarantee the medicine capacity that adds to guarantee the finished product quality of brightener.

And b, heating the water in the step a to 40-50 ℃, and then starting stirring.

Cooling the solution in the step c to be below 30 ℃.

The side walls of two sides of the stirring box are respectively provided with a first connecting plate, the stirring box is provided with two groups of cover plates, the side walls of the cover plates are provided with first grooves, and the first grooves on the two groups of cover plates are matched with each other to form guide grooves corresponding to the guide rails; a first support spring is arranged on the movable block, a second connecting plate is arranged at the top of the first support spring, a first connecting pipe is arranged at the bottom of the second connecting plate, and the material loading box is connected to the bottom of the first connecting pipe through threads; the movable block is rotatably connected with a first push plate, and a torsional spring is arranged at the joint of the first push plate and the movable block; a plurality of convex blocks are arranged on the inner wall of the first groove, first guide grooves are arranged on the convex blocks, and the positions of the convex blocks on the two groups of cover plates are staggered; the cover plate can move on the first connecting plate to complete the opening and closing actions of the stirring box; after the movable block moves to the stirring box, the movable block moves in the guide groove, when the movable block moves, the first push plate contacts with the lug, the lug pushes the first push plate to rotate around the connecting point, the second connecting plate is pushed to move when the first push plate rotates, after the first push plate is moved away from one side of the lug, the first supporting spring pushes the second connecting plate to move back, the second connecting plate drives the material carrying box to vibrate, and medicines in the material carrying box shake off to the stirring box to finish the addition of the medicines.

A first movable cavity is arranged on the inner wall of the first through hole, a first sealing plate matched with the first through hole is arranged in the first movable cavity, a first sealing spring is arranged on the side wall of the first sealing plate, a first movable groove is arranged on the first sealing plate, a second sealing plate matched with the first through hole is arranged in the first movable groove, a second sealing spring is arranged on the second sealing plate, and a first limiting block used for fixing the second sealing plate is arranged in the first movable groove; a second movable groove is formed in the bottom of the first movable cavity, a first push block matched with the second movable groove is arranged on the first sealing plate, and when a preset amount of medicine is filled in the material loading box, the second sealing plate moves to the bottom of the first through hole to seal the first through hole; when the movable block moves in the guide rail, the first sealing plate is positioned at the first through hole, the first through hole is sealed by the first sealing plate, and the second sealing plate is fixed in the first movable groove; after the movable block moves to one side of the first push block, the movable block moves to push the first push block to move, the first push block drives the first sealing plate to move, the first through hole is opened after the first sealing plate moves to one side of the first movable cavity, medicines in the storage box enter the material loading box through the first through hole, after a specified amount of medicines are loaded on the material loading box, the second sealing plate extends out of the first movable groove, the second sealing plate moves to the bottom of the first through hole to seal the first through hole, the medicines in the storage box do not fall out, the movable block continues to move along the guide rail, and the medicines are sent into the stirring box.

A second groove is formed in the bottom of the second sealing plate, a third movable groove is formed in the bottom of the first movable groove, the first limiting block is arranged in the third movable groove in a penetrating mode, a second guide groove is formed in the first limiting block, a limiting spring is arranged at the bottom of the first limiting block, a fourth movable groove is formed in one side of the third movable groove, a first push rod is arranged in the fourth movable groove and connected with the bottom of the first limiting block through a second connecting rope, and a first connecting rod is arranged on the first push rod; a fifth movable groove is formed in the first push block, a second push plate is arranged in the fifth movable groove, a second supporting spring is arranged at the bottom of the second push plate, a first connecting rope is arranged on the second push plate, and one end of the first connecting rope is fixedly connected to the first connecting rod; a first limiting plate is arranged in the second groove, a first connecting spring is arranged at the top of the first limiting plate, a first sliding block is arranged on the side wall of the first limiting plate, and a first sliding groove matched with the first sliding block is arranged on the inner wall of the second groove; when the first sealing plate is positioned at the first through hole, the first limiting plate abuts against the first limiting block; after the movable block moves to one side of the first push block, the movable block pushes the first push block to move, the first push block drives the first sealing plate to move away from the bottom of the first through hole, the first through hole is opened, the medicine in the storage box is added into the material carrying box, the material carrying box moves downwards after the weight is increased, the material carrying box drives the second connecting plate to move downwards, the second connecting plate pushes the second push plate to move downwards, the first connecting rope pulls the first connecting rod to move, the first push rod moves towards the fourth movable groove, the first limiting block moves along with the first push rod and enters the third movable groove, the second sealing spring pushes the second sealing plate to move towards the outer side of the first movable groove, the second sealing plate moves to the bottom of the first through hole to seal the first through hole, the second connecting plate moves downwards to the lower side of the first push block, the movable block continues to move along the guide rail, and the first sealing spring pushes the first sealing plate to move towards the first through hole, the first limiting block moves downwards after abutting against the first limiting plate, and the second sealing plate is fixed again after the first limiting block moves to the other side of the first limiting plate, so that the second sealing plate is reset.

A second push block is arranged in the guide rail, the second push block is arranged on one side of the first push block, a sixth movable groove is formed in the bottom of the first push block, a second connecting spring is arranged in the sixth movable groove, and a third push plate is arranged at the bottom of the second connecting spring; the top of the sixth movable groove is provided with a first electromagnet; a seventh movable groove is formed in the second push plate, a third push block is arranged in the seventh movable groove, a second sliding block is arranged on the side wall of the third push block, a second sliding groove matched with the second sliding block is formed in the inner wall of the seventh movable groove, a third supporting spring is arranged at the bottom of the second sliding block, a first air bag is arranged on the side wall of the third push block, and when the third push block moves to the bottom of the seventh movable groove, air flow in the first air bag is discharged; after the movable block moves to one side of the first push block, the movable block moves to the position below the second push block, the movable block continues to move to push the second push block to move, the second push block drives the second push block to move towards the first push block, the second push block pushes the first push block to move, the first sealing plate moves away from the first through hole, the material carrying box moves to the position below the first through hole, the medicine in the material storage box falls into the material carrying box through the first through hole, the material carrying box drives the second connecting plate to move downwards after the weight of the medicine in the material carrying box reaches the specified weight, the second connecting plate drives the third push block to move downwards, the third push block moves downwards to drive the second push plate to move downwards, the second push plate pulls the first limiting block to enter the third movable groove, the second sealing plate extends out of the first movable groove to the position of the first through hole, the second sealing plate seals the first through hole, and the first air bag is deflated after the third push block moves to the bottom of the seventh movable groove, the second connecting plate passes through one side of the first air bag, and the movable block drives the material carrying box to move continuously to send the medicine into the stirring box.

A cavity is formed in the third push block, the first air bag is communicated with the cavity, a corrugated pipe is arranged at the top of the cavity, a top plate is arranged at the top of the corrugated pipe, a third connecting spring is arranged at the bottom of the top plate, a second connecting pipe is arranged in the cavity, a second connecting rod is arranged in the second connecting pipe, and the second connecting rod is fixedly connected to the bottom of the top plate; a second movable cavity is arranged on the second connecting rod, a second air bag communicated with the second movable cavity is arranged on the side wall of the second movable cavity, an eighth movable groove matched with the second air bag is arranged on the side wall of the second connecting pipe, a first partition plate is arranged in the second movable cavity, a plurality of second through holes and third through holes are formed in the first partition plate, a third connecting rod penetrates through the first partition plate, a third sealing plate matched with the second through holes is arranged on the third connecting rod, and a one-way valve is arranged in the third through hole; a first through cavity is formed in the top of the second movable cavity, a fourth connecting rod penetrates through the first through cavity, and a fourth push plate is arranged at the bottom of the fourth connecting rod; a supporting plate is arranged on the inner wall of the bottom of the seventh movable groove; the movable block pushes the second push block to move after moving to the bottom of the second push block, the second push block pushes the first push block to move, the first sealing plate is moved away from the lower part of the first through hole, the medicine enters the material carrying box through the first through hole, the medicine in the material carrying box drives the second connecting plate to move downwards after increasing, the second connecting plate pushes the first air bag to move downwards, the third push block moves to the bottom of the seventh movable groove along with the first air bag, the supporting plate is abutted against the third push plate, the third connecting rod moves upwards to drive the third sealing plate to move upwards, the air flow at the bottom of the first partition plate enters the top of the first partition plate after the second through hole is opened, the air flow in the second air bag enters the second movable cavity, the first air bag recovers deformation to push the air flow into the cavity, and the top plate moves upwards to drive the extension corrugated pipe; after the second connecting plate passes through one side of the first air bag, the third supporting spring pushes the third pushing block to move upwards, the third pushing block moves to the top of the seventh movable groove, the top plate abuts against the top surface of the seventh movable groove, the top plate pushes the corrugated pipe to contract, the fourth connecting rod abuts against the top surface of the seventh movable groove and pushes the fourth connecting rod to move downwards, the fourth pushing plate pushes the airflow at the top of the first partition plate to flow towards the bottom of the first partition plate, the airflow passes through the third through hole, the airflow enters the first air bag again after the corrugated pipe retracts, and the first air bag expands; after the airflow at the top of the first partition plate enters the bottom of the first partition plate, the airflow in the second movable cavity enters the second air bag, and the second air bag expands to extend out of the eighth movable groove to fix the top plate, so that the fixation of the first air bag is completed.

The bottom of the material loading box is provided with a fifth connecting rod, the top of the fifth connecting rod is of a conical surface structure, and a fourth sealing plate is rotatably connected onto the fifth connecting rod; a third movable cavity is arranged on the material carrying box, a ninth movable groove is formed in the side wall of the third movable cavity, a fourth connecting spring is arranged in the third movable cavity, a connecting block is arranged at the bottom of the fourth connecting spring, a second partition plate is arranged above the connecting block, the top of the fourth connecting spring is fixedly connected to the bottom of the second partition plate, a third connecting rope is arranged at the bottom of the connecting block, and one end of the third connecting rope is fixedly connected to the fourth sealing plate; a sixth connecting rod is arranged at the top of the third movable cavity, penetrates through the second partition plate, a second limiting block is arranged at the bottom of the sixth connecting rod, a third guide groove is arranged at the bottom of the second limiting block, a limiting groove matched with the second limiting block is arranged on the connecting block, and a fourth push block penetrates through the ninth movable groove; the movable block is connected the rope pulling fourth closing plate in the horizontality in the third when removing, it is in the off-state to carry the material box bottom, the medicine enters into and together removes to the agitator tank along with carrying the material box in the material box, the fourth ejector pad removes toward the ninth movable tank, the air of ninth movable tank is pushed into the third movable cavity with the fourth ejector pad, the third ejector pad promotes the sixth connecting rod and removes, the fourth closing plate rotates around the tie point after the connecting block down motion, the material box bottom is opened after the fourth closing plate overturns to the tilt state, the medicine falls down from carrying the material box bottom, add the medicine into the agitator tank.

A water outlet is formed in the bottom of the water storage tank, a fourth through hole corresponding to the water outlet is formed in the guide rail, a tenth movable groove is formed in the inner wall of the guide rail, a fifth push block is arranged in the tenth movable groove, a fifth connecting spring is arranged on the fifth push block, and a second electromagnet is arranged in the tenth movable groove; a third partition plate is arranged in the water storage tank, an air cylinder is arranged at the top of the water storage tank, the drying assembly comprises a seventh connecting rod arranged on a piston rod of the air cylinder and absorbent cotton arranged at the bottom of the seventh connecting rod, a third connecting plate is arranged on the seventh connecting rod, a water conveying cavity is arranged on the seventh connecting rod, a water inlet cavity communicated with the water conveying cavity is arranged on the third connecting plate, a second through cavity is arranged on the water inlet cavity, a fifth sealing plate penetrates through the second through cavity, a second through groove communicated with the water inlet cavity is arranged on the fifth sealing plate, a fourth connecting plate is arranged at the top of the fifth sealing plate, a fourth supporting spring is arranged at the bottom of the fourth connecting plate, an eighth connecting rod is arranged on the inner wall of the water storage tank, a baffle plate is arranged on the eighth connecting rod, and the baffle plate is arranged above the third connecting plate; when powder medicine needs to be filled in the material carrying box, the material carrying box is moved out of the stirring box, the movable block drives the material carrying box to move to the position below the water storage box, the air cylinder drives the seventh connecting rod to move upwards, the fourth connecting plate abuts against the bottom of the baffle, the fifth sealing plate moves downwards relative to the third connecting plate, the second through groove is communicated with the water inlet cavity, water flow enters the water delivery cavity through the water inlet cavity, the water flow in the water delivery cavity falls into the material carrying box, the second electromagnet is electrified to push the fifth pushing block to move forwards, the fifth pushing block pushes the fourth pushing block to move, the bottom of the material carrying box is opened after the fourth sealing plate is turned over, the water flow in the material carrying box is poured out, the second electromagnet is powered off, the fourth sealing plate is turned over to be in a horizontal state, the air cylinder pushes the seventh connecting rod to move downwards, and water absorption cotton enters the material carrying box to absorb water drops on the inner wall of the material carrying box, so that the material carrying box is cleaned.

The invention has the following advantages: the movable block drives the material carrying box to move, so that the material carrying box stays in the material storing box filled with specified medicines as required when moving on the guide rail, the medicines in the material storing box are transported, and the medicines are automatically conveyed into the stirring box, so that the medicine is added more intelligently, and the automation degree in the production process of the brightener is increased; through the setting of drying assembly, do drying process to carrying the magazine inside, avoid likepowder medicine adhesion on carrying the magazine inner wall, make the medicine in carrying the magazine add the agitator tank to the greatest extent, guarantee the medicine capacity that adds to guarantee the finished product quality of brightener.

Drawings

FIG. 1 is a schematic view of the structure of a stirring apparatus of the present invention.

FIG. 2 is a right side view of the stirring device of the present invention.

Fig. 3 is a cross-sectional view taken along a-a in fig. 2.

Fig. 4 is an enlarged view of a portion a in fig. 3.

Fig. 5 is a cross-sectional view taken along line B-B of fig. 2.

Fig. 6 is an enlarged view of fig. 5 at B.

Fig. 7 is an enlarged view of fig. 6 at C.

Fig. 8 is an enlarged view of fig. 6 at D.

Fig. 9 is an enlarged view of fig. 6 at E.

Fig. 10 is a cross-sectional view taken along line D-D in fig. 2.

Fig. 11 is an enlarged view of fig. 10 at F.

Fig. 12 is an enlarged view at G in fig. 11.

Fig. 13 is a cross-sectional view taken along line K-K in fig. 2.

Fig. 14 is an enlarged view of fig. 13 at H.

Fig. 15 is a cross-sectional view taken along line E-E of fig. 2.

Fig. 16 is an enlarged view at I in fig. 15.

FIG. 17 is a front view of the stirring device of the present invention.

Fig. 18 is a cross-sectional view taken along F-F in fig. 17.

Fig. 19 is an enlarged view at J in fig. 18.

Fig. 20 is an enlarged view at K in fig. 19.

Fig. 21 is a cross-sectional view taken along G-G in fig. 17.

Fig. 22 is an enlarged view at L in fig. 21.

Fig. 23 is an enlarged view of fig. 22 at M.

Fig. 24 is a cross-sectional view taken along H-H in fig. 17.

Fig. 25 is an enlarged view of fig. 24 at N.

Fig. 26 is an enlarged view at O in fig. 25.

Fig. 27 is a cross-sectional view taken along line I-I of fig. 17.

Fig. 28 is an enlarged view at P in fig. 27.

Fig. 29 is a cross-sectional view taken along line M-M of fig. 17.

Fig. 30 is an enlarged view at Q in fig. 29.

Detailed Description

A brightener processing method comprises the following steps: a. adding water into stirring equipment, heating to 40-50 ℃, stirring, and starting ventilation equipment; b. adding the pearl alkali and the ethylene diamine tetraacetic acid into stirring equipment under stirring, and stirring until the pearl alkali and the ethylene diamine tetraacetic acid are completely dissolved; c. adding water under stirring, and cooling to below 30 deg.C; d. adding MOMC and IZE under stirring, and stirring; e. adding the first-grade uracil and the BPC-48 under the stirring condition, and uniformly stirring; f. adjusting the solution to a specified volume and uniformly stirring; g. filtering with a filter to obtain a product; and (3) carrying out QC analysis on the obtained product, and subpackaging the qualified product into barrels according to the standard that the ph is 9.0 and the Baume degree at 20 ℃ is 1.0029%.

In the step f, the volume is adjusted by adding water, and 2 percent of water is added on the specified water level; the total amount of water is 967g/L, the total amount of the pearl alkali is 0.7g/L, the total amount of the methylthiouracil is 1.3g/L, the total amount of the ethylene diamine tetraacetic acid is 3g/L, the total amount of the MOMC is 8g/L, the total amount of the BPC-48 is 12g/L, and the total amount of the IZE is 8 g/L. The water addition in the step a is 160g/L, the water addition in the step c is 220g/L, and the water addition in the step f is 587 g/L; IZE is a polymer of 1H-imidazole and (chloromethyl) oxirane, MOMC is an alkali zinc brightener, and BPC-48 is an alkali zinc intermediate.

As shown in fig. 1-30, the stirring apparatus in step a includes a stirring tank 1 and a guide rail 2 matched with the stirring tank 1, a first through groove matched with the guide rail 2 is formed in a side wall of the stirring tank 1, a stirring shaft 13 is arranged in the stirring tank 1, a plurality of stirring rods are arranged on the stirring shaft 13, a heating block is arranged on an inner wall of the stirring tank 1, and a water inlet pipe is connected to a side wall of the stirring tank 1; the top of the guide rail 2 is provided with a water storage tank 3 and a material storage tank 4, the guide rail 2 is provided with a movable block 55, the guide rail is an annular guide rail, and the movable block can normally and circularly move in the guide rail, the bottom of the movable block 55 is provided with a material loading box 53, the bottom of the material storage tank 4 is provided with a material outlet, the guide rail 2 is provided with a first through hole corresponding to the material outlet, the water storage tank 3 is internally provided with a drying assembly, and when the movable block 55 moves in the stirring tank 1, the bottom of the material loading box 53 is opened; water flow enters the stirring box 1 through the water inlet pipe, the heating block heats the water flow in the stirring box 1, the stirring shaft 13 rotates to stir the water flow, the movable block 55 moves in the guide rail 2, the movable block 55 moves to the bottom of the storage box 4, medicines in the storage box 4 enter the material loading box 53 through the first through hole, the movable block 55 drives the material loading box 53 filled with the medicines to continue to move along the guide rail 2, the movable block 55 enters the stirring box 1, the bottom of the material loading box 53 is opened, the medicines in the material loading box 53 fall into the stirring box 1, and the medicine addition is completed; when the material carrying box 53 needs to be filled with powdery medicinal materials, the material carrying box 53 moves to the lower part of the water storage tank 3, water flow in the water storage tank 3 enters the material carrying box 53 to clean the inner wall of the material carrying box 53, the drying component wipes water drops on the inner wall of the material carrying box 53 to dry, the movable block 55 drives the material carrying box 53 to move into the storage tank 4 filled with the powdery medicinal materials, the medicinal materials are added into the material carrying box 53 and then continuously move along the guide rail 2, after the material carrying box 53 enters the stirring tank 1, the powdery medicinal materials fall from the material carrying box 53 until all the raw materials are added into the stirring tank 1, and the preparation of a crude brightener is completed.

As shown in fig. 1, 22 and 29, the side walls of two sides of the stirring box 1 are respectively provided with a first connecting plate 11, the stirring box 1 is provided with two groups of cover plates 12, the side walls of the cover plates 12 are provided with first grooves, and the first grooves on the two groups of cover plates 12 are mutually matched to form guide grooves corresponding to the guide rails 2; a first supporting spring 51 is arranged on the movable block 55, a second connecting plate 5 is arranged at the top of the first supporting spring 51, a first connecting pipe 52 is arranged at the bottom of the second connecting plate 5, and the material loading box 53 is connected to the bottom of the first connecting pipe 52 through threads; the movable block 55 is rotatably connected with a first push plate 551, and a torsional spring is arranged at the joint of the first push plate 551 and the movable block 55; a plurality of bumps 122 are arranged on the inner wall of the first groove, a first guide groove is arranged on each bump 122, and the bumps 122 on the two groups of cover plates 12 are staggered; the cover plate 12 can move on the first connecting plate 11 to complete the opening and closing actions of the stirring box 1; after the movable block 55 moves into the stirring box 1, the movable block 55 moves in the guide groove, when the movable block 55 moves, the first push plate 551 is in contact with the bump 122, the bump 122 pushes the first push plate 551 to rotate around the connection point, when the first push plate 551 rotates, the second connecting plate 5 is pushed to move, when the first push plate 551 moves away from one side of the bump 122, the first support spring 51 pushes the second connecting plate 5 to move back, the second connecting plate 5 drives the material loading box 53 to vibrate, and the medicine in the material loading box 53 is shaken down into the stirring box 1, so that the medicine is added; through the form that staggers the setting with the lug on two sets of apron, make the second connecting plate produce not equidirectional removal to promote the vibrations effect of year magazine, so that effectively pour out the medicine in carrying the magazine, reduce the medicine and remain in carrying the magazine.

As shown in fig. 6, 7, and 12, a first movable cavity is disposed on an inner wall of the first through hole, a first sealing plate 22 matched with the first through hole is disposed in the first movable cavity, a first sealing spring 221 is disposed on a side wall of the first sealing plate 22, a first movable groove is disposed on the first sealing plate 22, a second sealing plate 222 matched with the first through hole is disposed in the first movable groove, a second sealing spring 223 is disposed on the second sealing plate 222, and a first stopper 226 for fixing the second sealing plate 222 is disposed in the first movable groove; a second movable groove is formed in the bottom of the first movable cavity, a first push block 224 matched with the second movable groove is arranged on the first sealing plate 22, and when a preset amount of medicines are filled in the loading box 53, the second sealing plate 222 moves to the bottom of the first through hole to seal the first through hole; when the movable block 55 moves in the guide rail 2, the first sealing plate 22 is located at the first through hole, the first through hole is sealed by the first sealing plate 22, and the second sealing plate 222 is fixed in the first movable groove; after the movable block 55 moves to one side of the first push block 224, the movable block 55 moves to push the first push block 224 to move, the first push block 224 drives the first sealing plate 22 to move, the first through hole is opened after the first sealing plate 22 moves to one side of the first movable cavity, the medicine in the storage box 4 enters the material loading box 53 through the first through hole, after the specified amount of medicine is loaded on the material loading box 53, the second sealing plate 222 extends out of the first movable groove, the second sealing plate 222 moves to the bottom of the first through hole to seal the first through hole, the medicine in the storage box 4 does not fall out any more, the movable block 55 continues to move along the guide rail 2, and the medicine is sent into the stirring box 1; the top of the first sealing plate is provided with a chute so as to shovel the medicine on the top of the second sealing plate into the storage box; through the arrangement of the second sealing plate, the first through hole is immediately sealed after the material loading box is filled with the medicine, the medicine amount in the material loading box is controlled, and the material loading box is prevented from carrying too many medicines into the stirring box.

As shown in fig. 7 and 12, a second groove is formed in the bottom of the second sealing plate 222, a third movable groove is formed in the bottom of the first movable groove, the first limiting block 226 is arranged in the third movable groove in a penetrating manner, a second guide groove is formed in the first limiting block 226, a limiting spring 2261 is arranged at the bottom of the first limiting block 226, a fourth movable groove is formed in one side of the third movable groove, a first push rod 227 is arranged in the fourth movable groove, the first push rod 227 is connected with the bottom of the first limiting block 226 through a second connecting rope, and a first connecting rod 2271 is arranged on the first push rod 227; a fifth movable groove is formed in the first push block 224, a second push plate 225 is arranged in the fifth movable groove, a second support spring 2251 is arranged at the bottom of the second push plate 225, a first connecting rope is arranged on the second push plate 225, and one end of the first connecting rope is fixedly connected to the first connecting rod 2271; a first limiting plate 2222 is arranged in the second groove, a first connecting spring 2221 is arranged at the top of the first limiting plate 2222, a first sliding block is arranged on the side wall of the first limiting plate 2222, and a first sliding groove matched with the first sliding block is arranged on the inner wall of the second groove; when the first sealing plate 22 is located at the first through hole, the first limiting plate 2222 abuts against the first limiting block 226; after the movable block 55 moves to one side of the first push block 224, the movable block 55 pushes the first push block 224 to move, the first push block 224 drives the first sealing plate 22 to move away from the bottom of the first through hole, the first through hole is opened, the medicine in the storage box 4 is added into the material loading box 53, the material loading box 53 moves downwards after the weight is increased, the material loading box 53 drives the second connecting plate 5 to move downwards, the second connecting plate 5 pushes the second push plate 225 to move downwards, the first connecting rope pulls the first connecting rod 2271 to move, the first push rod 227 moves towards the fourth movable groove, the first limiting block 226 moves along with the first push rod 227 to enter the third movable groove, the second sealing spring 223 pushes the second sealing plate 222 to move towards the outer side of the first movable groove, the second sealing plate 222 moves to the bottom of the first through hole to seal the first through hole, the second connecting plate 5 moves downwards to the position below the first push block 224, the movable block 55 continues to move along the guide rail 2, the first sealing spring 221 pushes the first sealing plate 22 to move toward the first through hole, the first limiting block 226 abuts against the first limiting plate 2222 and then moves downward, and the first limiting block 226 moves to the other side of the first limiting plate 2222 to fix the second sealing plate 222 again, thereby completing the resetting of the second sealing plate 222.

As shown in fig. 6, 9 and 25, a second pushing block 6 is arranged in the guide rail 2, the second pushing block 6 is arranged on one side of the first pushing block 224, and a first return spring is arranged on a side wall of the second pushing block, so that the second pushing block can be pulled to move back after the second pushing block moves; a sixth movable groove is formed in the bottom of the first pushing block 224, a second connecting spring 67 is arranged in the sixth movable groove, and a third pushing plate 61 is arranged at the bottom of the second connecting spring 67; the top of the sixth movable groove is provided with a first electromagnet; a seventh movable groove is formed in the second push plate 225, a third push block 62 is arranged in the seventh movable groove, a second sliding block 625 is arranged on the side wall of the third push block 62, a second sliding groove matched with the second sliding block 625 is formed in the inner wall of the seventh movable groove, a third supporting spring 626 is arranged at the bottom of the second sliding block 625, a first air bag 621 is arranged on the side wall of the third push block 62, and when the third push block 62 moves to the bottom of the seventh movable groove, air flow in the first air bag 621 is exhausted; after the movable block 55 moves to one side of the first push block 224, the movable block 55 moves to a position below the second push block 6, the movable block 55 continues to move to push the second push plate 225 to move, the second push plate 225 drives the second push block 6 to move towards the first push block 224, the second push block 6 pushes the first push block 224 to move, the first sealing plate 22 moves away from the first through hole, the material carrying box 53 moves to a position below the first through hole, the medicine in the material storage box 4 falls into the material carrying box through the first through hole, after the weight of the medicine in the material carrying box reaches a specified weight, the material carrying box 53 drives the second connecting plate 5 to move downwards, the second connecting plate 5 pushes the third push block 62 to move downwards, the third push block 62 moves downwards to drive the second push plate 225 to move downwards, the second push plate 225 pulls the first limiting block 226 to enter the third movable groove, the second sealing plate 222 extends out of the first movable groove to a position of the first through hole, the second sealing plate 222 seals the first through hole, the first air bag 621 loses heart after the third pushing block 62 moves to the bottom of the seventh movable slot, the second connecting plate 5 passes through one side of the first air bag 621, and the movable block 55 drives the material carrying box 53 to move continuously, so that the medicine is sent into the stirring box 1.

A third electromagnet is arranged in the sixth movable groove, the third push plate is made of magnets, the lengths of the third push plates of different medicines are different, so that different medicines added into the material carrying box can be controlled, and the material carrying box can be moved away from one side of the third push plate after being filled with specified medicines; when the appointed medicine needs to be added, a third electromagnet in a sixth movable groove below a storage box filled with the medicine is electrified, the third electromagnet pushes a third push plate to move downwards, a movable block is contacted with the third push plate when moving to drive the third push plate to move together, the third push plate is utilized to push a first sealing plate to move to open a first through hole, and when the third electromagnet is not electrified, the movable block moves in a guide rail and is not contacted with any third push plate.

As shown in fig. 6, a sixth pushing block 54 matched with the first air bag is arranged on the second connecting plate, a fifth through hole matched with the first through hole is arranged on the second pushing block, a sixth through hole matched with the first through hole is arranged on the second connecting plate, and a seventh through hole matched with the first through hole is arranged on the movable block, so that the medicine can normally fall into the material loading box.

As shown in fig. 9 and 26, a cavity is formed in the third push block 62, the first air bag 621 is communicated with the cavity, a corrugated tube 622 is disposed at the top of the cavity, a top plate 623 is disposed at the top of the corrugated tube 622, a third connecting spring 624 is disposed at the bottom of the top plate 623, a second connecting tube 63 is disposed in the cavity, a second connecting rod 64 is disposed in the second connecting tube 63, and the second connecting rod 64 is fixedly connected to the bottom of the top plate 623; a second movable cavity is arranged on the second connecting rod 64, a second air bag 642 communicated with the second movable cavity is arranged on the side wall of the second movable cavity, an eighth movable groove matched with the second air bag 642 is arranged on the side wall of the second connecting pipe 63, a first partition plate is arranged in the second movable cavity, a plurality of second through holes and third through holes are formed in the first partition plate, a third connecting rod 641 is arranged on the first partition plate in a penetrating manner, a third sealing plate 647 matched with the second through holes is arranged on the third connecting rod 641, and a one-way valve is arranged in the third through hole; a first through cavity is formed in the top of the second movable cavity, a fourth connecting rod 646 penetrates through the first through cavity, and a fourth push plate 645 is arranged at the bottom of the fourth connecting rod 646; a supporting plate 66 is arranged on the inner wall of the bottom of the seventh movable groove; the movable block 55 moves to the bottom of the second push block 6 and then pushes the second push block 6 to move, the second push block 6 pushes the first push block 224 to move, the first sealing plate 22 moves away from the lower part of the first through hole, the medicine enters the loading box 53 through the first through hole, the medicine in the loading box 53 increases and then drives the second connecting plate 5 to move downwards, the second connecting plate 5 pushes the first air bag 621 to move downwards, the third push block 62 moves to the bottom of the seventh movable groove along with the first air bag 621, the supporting plate 66 abuts against the third push plate 61, the third connecting rod 641 moves upwards to drive the third sealing plate 647 to move upwards, after the second through hole is opened, the air flow at the bottom of the first partition plate enters the top of the first partition plate, the air flow in the second air bag 621 enters the second movable cavity, the first air bag recovers deformation and pushes the air flow into the cavity 623, and the top plate moves upwards to drive the corrugated pipe 622 to extend; after the second connecting plate 5 passes through the first air bag 621, the third supporting spring 626 pushes the third push block 62 to move upward, the third push block 62 moves to the top of the seventh movable groove, the top plate 623 abuts against the top surface of the seventh movable groove, the top plate 623 pushes the corrugated pipe 622 to contract, the fourth connecting rod 646 abuts against the top surface of the seventh movable groove to push the fourth connecting rod 646 to move downward, the fourth push plate 645 pushes the air flow at the top of the first partition plate to flow to the bottom of the first partition plate, the air flow passes through the third through hole, the air flow enters the first air bag 621 again after the corrugated pipe 622 retracts, and the first air bag 621 expands; after the airflow at the top of the first partition board enters the bottom of the first partition board, the airflow in the second movable cavity enters the second air bag 642, and the second air bag 642 expands to extend out of the eighth movable groove to fix the top plate 623, thereby completing the fixation of the first air bag 621.

As shown in fig. 9 and 25, a fifth connecting plate 643 is disposed on the third connecting rod, and a third return spring 644 is disposed on the fifth connecting plate, and the third return spring is fixedly connected to the bottom of the first partition plate; under the setting of a third reset spring, the third connecting rod can automatically reset after moving, so that the second through hole is automatically closed; the bottom of the cavity is provided with an eighth through hole, the third connecting rod is arranged right above the eighth through hole, a fourth movable cavity is arranged on the inner wall of the eighth through hole, a second push rod 65 penetrates through the eighth through hole, a second limiting plate 651 is arranged on the second push rod, and a fourth reset spring 652 is arranged on the second limiting plate; when the third push block moves to the bottom of the seventh movable groove, the second push rod abuts against the supporting plate, the supporting plate pushes the second push rod to move upwards, the second push rod pushes the third connecting rod to move upwards to open the second through hole, so that the air flow in the cavity moves into the corrugated pipe, the air in the first air bag flows out, and the sixth push plate can normally pass through one side of the first air bag; after the first air bag contracts, the third electromagnet is powered off, and the third push plate moves upwards, so that the movable block passes below the third push plate.

As shown in fig. 30, an eleventh movable groove is formed in a side wall of the sixth movable groove, a movable plate 68 is arranged in the eleventh movable groove, a sixth connecting spring 681 is arranged at the bottom of the movable plate, the movable plate is connected with the third push block through a fourth connecting rope, when the second push block abuts against the side wall of the first push block, the second push plate is inserted into the eleventh movable groove, the second push plate is located at the bottom of the movable plate, and when the third push block moves to pull the movable plate to move, the movable plate pushes the second push plate to move, so that the first limiting block is driven to move to enable the second sealing plate to seal the first through hole.

As shown in fig. 22 and 23, a fifth connecting rod 531 is disposed at the bottom of the material loading box 53, the top of the fifth connecting rod 531 is a conical surface structure, and a fourth sealing plate 532 is rotatably connected to the fifth connecting rod 531; a third movable cavity is arranged on the material loading box 53, a ninth movable groove is arranged on the side wall of the third movable cavity, a fourth connecting spring is arranged in the third movable cavity, a connecting block 534 is arranged at the bottom of the fourth connecting spring, a second partition plate is arranged above the connecting block 534, the top of the fourth connecting spring is fixedly connected to the bottom of the second partition plate, a third connecting rope 535 is arranged at the bottom of the connecting block 534, and one end of the third connecting rope 535 is fixedly connected to the fourth seal plate 532; a sixth connecting rod 536 is arranged at the top of the third movable cavity, the sixth connecting rod 536 penetrates through the second partition plate, a second limiting block 537 is arranged at the bottom of the sixth connecting rod 536, a third guide groove is arranged at the bottom of the second limiting block 537, a limiting groove matched with the second limiting block 537 is arranged on the connecting block 534, a fifth return spring 538 is arranged on the side wall of the sixth connecting rod, and a fourth push block 533 is arranged in the ninth movable groove in a penetrating manner; when the movable block 55 moves, the third connecting rope 535 pulls the fourth sealing plate 532 to be in a horizontal state, the bottom of the material carrying box 53 is in a closed state, the medicine enters the material carrying box 53 and then moves into the stirring box 1 together with the material carrying box 53, the fourth push block 533 moves towards the ninth movable groove, the fourth push block 533 pushes the air in the ninth movable groove into the third movable groove, the third push block 62 pushes the sixth connecting rod 536 to move, the fourth sealing plate 532 rotates around the connecting point after the connecting block 534 moves downwards, the bottom of the material carrying box 53 is opened after the fourth sealing plate 532 is turned to an inclined state, the medicine falls from the bottom of the material carrying box 53, and the medicine is added into the stirring box 1.

As shown in fig. 14, a convex strip 121 is arranged on the inner wall of the first groove, fourth guide grooves are respectively arranged at two ends of the convex strip, after the movable block moves into the guide grooves, the convex strip contacts with the fourth push block, the fourth push block is pushed to move into the ninth movable groove under the action of the convex strip, so that the connecting block moves downwards, the fourth sealing plate is turned downwards, and the medicine in the material loading box is poured out; the side wall of the fourth pushing block is provided with a third sliding block, the inner wall of the ninth movable groove is provided with a third sliding groove matched with the third sliding block, the third sliding block is provided with a second reset spring, the fourth pushing block is prevented from being separated from the ninth movable groove under the matching of the third sliding block and the third sliding groove, and meanwhile, the fourth pushing block has automatic reset capacity, so that the bottom of the material loading box is automatically closed by a fourth sealing plate after the material loading box is moved out of the stirring box.

As shown in fig. 19 and 20, a water outlet is arranged at the bottom of the water storage tank 3, a fourth through hole corresponding to the water outlet is arranged on the guide rail 2, a tenth movable groove is arranged on the inner wall of the guide rail 2, a fifth push block 21 is arranged in the tenth movable groove, a fifth connecting spring 211 is arranged on the fifth push block 21, and a second electromagnet is arranged in the tenth movable groove; a third partition plate 31 is arranged in the water storage tank 3, an air cylinder 32 is arranged at the top of the water storage tank 3, the drying component comprises a seventh connecting rod 33 arranged on a piston rod of the air cylinder 32 and absorbent cotton 35 arranged at the bottom of the seventh connecting rod 33, a third groove matched with the fifth connecting rod is arranged at the bottom of the absorbent cotton, a third connecting plate 331 is arranged on the seventh connecting rod 33, a water delivery cavity is arranged on the seventh connecting rod 33, a water inlet cavity communicated with the water delivery cavity is arranged on the third connecting plate 331, a second through cavity is arranged on the water inlet cavity, a fifth sealing plate 332 is arranged in the second through cavity in a penetrating manner, a second through groove communicated with the water inlet cavity is arranged on the fifth sealing plate 332, a fourth connecting plate 333 is arranged at the top of the fifth sealing plate 332, a fourth supporting spring 334 is arranged at the bottom of the fourth connecting plate 333, an eighth connecting rod 341 is arranged on the inner wall of the water storage tank 3, the eighth connecting rod 341 is provided with a baffle 34, and the baffle 34 is arranged above the third connecting plate 331; when the material loading box 53 needs to be filled with powdery medicine, the material loading box 53 is moved out of the stirring box 1, the movable block 55 drives the material loading box 53 to move below the water storage tank 3, the air cylinder 32 drives the seventh connecting rod 33 to move upwards, the fourth connecting plate 333 is abutted against the bottom of the baffle 34, the fifth sealing plate 332 moves downwards relative to the third connecting plate 331, the second through groove is communicated with the water inlet cavity, water flows into the water delivery cavity through the water inlet cavity, the water flow in the water delivery cavity falls into the material loading box 53, the second electromagnet is electrified to push the fifth push block 21 to move forwards, the fifth push block 21 pushes the fourth push block 533 to move, the bottom of the material loading box 53 is opened after the fourth sealing plate is turned over, the water flow in the material loading box 53 is poured out, the fourth sealing plate 532 is turned over to be in a horizontal state when the second electromagnet is not turned off, the air cylinder 32 pushes the seventh connecting rod 33 to move downwards, the absorbent cotton 35 enters the material loading box 53 to absorb water drops on the inner wall of the material loading box 53, the cleaning of the carrier box 53 is completed.

The attached drawing of the invention is only a schematic diagram, the number of the material storage boxes can be set according to the actual medicine type, and the structure of the air cylinder is the same as that of the air cylinder in the prior art.

Claims

1. A processing method of a brightener is characterized by comprising the following steps: the method comprises the following steps:

c. adding water to cool under stirring;

d. adding MOMC and IZE under stirring, and stirring;

f. adjusting the solution to a specified volume and uniformly stirring;

g. filtering with a filter to obtain a product;

the stirring device in the step a comprises a stirring box (1) and a guide rail (2) matched with the stirring box (1), wherein a first through groove matched with the guide rail (2) is formed in the side wall of the stirring box (1), a stirring shaft (13) is arranged in the stirring box (1), a plurality of stirring rods are arranged on the stirring shaft (13), a heating block is arranged on the inner wall of the stirring box (1), and a water inlet pipe is connected to the side wall of the stirring box (1); the top of the guide rail (2) is provided with a water storage tank (3) and a material storage tank (4), the guide rail (2) is provided with a movable block (55), the bottom of the movable block (55) is provided with a material loading box (53), the bottom of the material storage tank (4) is provided with a material outlet, the guide rail (2) is provided with a first through hole corresponding to the material outlet, the water storage tank (3) is internally provided with a drying assembly, and when the movable block (55) moves in the stirring tank (1), the bottom of the material loading box (53) is opened; the water flow enters the stirring box (1) through the water inlet pipe, the heating block heats the water flow in the stirring box (1), the stirring shaft (13) rotates to stir the water flow, the movable block (55) moves in the guide rail (2), the movable block (55) moves to the bottom of the storage box (4), the medicine in the storage box (4) enters the material loading box (53) through the first through hole, the movable block (55) drives the material loading box (53) filled with the medicine to continuously move along the guide rail (2), the movable block (55) enters the stirring box (1), the bottom of the material loading box (53) is opened, the medicine in the material loading box (53) falls into the stirring box (1), and the medicine addition is completed; when the powder medicinal materials need to be filled in the material carrying box (53), the material carrying box (53) moves to the lower part of the water storage tank (3), water flow in the water storage tank (3) enters the material carrying box (53) to clean the inner wall of the material carrying box (53), the drying component wipes water drops on the inner wall of the material carrying box (53) dry, the movable block (55) drives the material carrying box (53) to move into the material storage box (4) filled with the powder medicinal materials, the medicinal materials are added into the material carrying box (53) and then continuously move along the guide rail (2), and after the material carrying box (53) enters the stirring box (1), the powder medicinal materials fall from the material carrying box (53) until all raw materials are added into the stirring box (1), so that the crude brightener is prepared.

2. The brightener processing method according to claim 1, wherein: and b, heating the water in the step a to 40-50 ℃, and then starting stirring.

3. The brightener processing method according to claim 1, wherein: cooling the solution in the step c to be below 30 ℃.

4. The brightener processing method according to claim 1, wherein: the side walls of two sides of the stirring box (1) are respectively provided with a first connecting plate (11), the stirring box (1) is provided with two groups of cover plates (12), the side walls of the cover plates (12) are provided with first grooves, and the first grooves on the two groups of cover plates (12) are matched with each other to form guide grooves corresponding to the guide rails (2); a first supporting spring (51) is arranged on the movable block (55), a second connecting plate (5) is arranged at the top of the first supporting spring (51), a first connecting pipe (52) is arranged at the bottom of the second connecting plate (5), and the material loading box (53) is connected to the bottom of the first connecting pipe (52) through threads; the movable block (55) is rotatably connected with a first push plate (551), and a torsional spring is arranged at the joint of the first push plate (551) and the movable block (55); a plurality of convex blocks (122) are arranged on the inner wall of the first groove, a first guide groove is formed in each convex block (122), and the positions of the convex blocks (122) on the two groups of cover plates (12) are staggered; the cover plate (12) can move on the first connecting plate (11) to complete the opening and closing actions of the stirring box (1); after the movable block (55) moves into the stirring box (1), the movable block (55) moves in the guide groove, when the movable block (55) moves, the first push plate (551) is in contact with the bump (122), the bump (122) pushes the first push plate (551) to rotate around a connection point, when the first push plate (551) rotates, the second connecting plate (5) is pushed to move, after the first push plate (551) moves away from one side of the bump (122), the first supporting spring (51) pushes the second connecting plate (5) to move back, the second connecting plate (5) drives the material loading box (53) to vibrate, medicines in the material loading box (53) shake and fall into the stirring box (1), and the medicine addition is completed.

5. The brightener processing method according to claim 1, wherein: a first movable cavity is arranged on the inner wall of the first through hole, a first sealing plate (22) matched with the first through hole is arranged in the first movable cavity, a first sealing spring (221) is arranged on the side wall of the first sealing plate (22), a first movable groove is arranged on the first sealing plate (22), a second sealing plate (222) matched with the first through hole is arranged in the first movable groove, a second sealing spring (223) is arranged on the second sealing plate (222), and a first limiting block (226) used for fixing the second sealing plate (222) is arranged in the first movable groove; a second movable groove is formed in the bottom of the first movable cavity, a first push block (224) matched with the second movable groove is arranged on the first sealing plate (22), and when a preset amount of medicines are filled in the material loading box (53), the second sealing plate (222) moves to the bottom of the first through hole to seal the first through hole; when the movable block (55) moves in the guide rail (2), the first sealing plate (22) is positioned at the first through hole, the first through hole is sealed by the first sealing plate (22), and the second sealing plate (222) is fixed in the first movable groove; after the movable block (55) moves to one side of the first push block (224), the movable block (55) moves to push the first push block (224) to move, the first push block (224) drives the first sealing plate (22) to move, the first through hole is opened after the first sealing plate (22) moves to one side of the first movable cavity, the medicine in the storage box (4) enters the material carrying box (53) through the first through hole, after the material carrying box (53) is filled with a specified amount of medicine, the second sealing plate (222) extends out of the first movable groove, the second sealing plate (222) moves to the bottom of the first through hole to seal the first through hole, the medicine in the storage box (4) does not fall out any more, and the movable block (55) continues to move along the guide rail (2) to send the medicine into the stirring box (1).

6. A brightener processing method according to claim 5, characterized in that: a second groove is formed in the bottom of the second sealing plate (222), a third movable groove is formed in the bottom of the first movable groove, the first limiting block (226) penetrates through the third movable groove, a second guide groove is formed in the first limiting block (226), a limiting spring (2261) is arranged at the bottom of the first limiting block (226), a fourth movable groove is formed in one side of the third movable groove, a first push rod (227) is arranged in the fourth movable groove, the first push rod (227) is connected with the bottom of the first limiting block (226) through a second connecting rope, and a first connecting rod (2271) is arranged on the first push rod (227); a fifth movable groove is formed in the first push block (224), a second push plate (225) is arranged in the fifth movable groove, a second supporting spring (2251) is arranged at the bottom of the second push plate (225), a first connecting rope is arranged on the second push plate (225), and one end of the first connecting rope is fixedly connected to the first connecting rod (2271); a first limiting plate (2222) is arranged in the second groove, a first connecting spring (2221) is arranged at the top of the first limiting plate (2222), a first sliding block is arranged on the side wall of the first limiting plate (2222), and a first sliding groove matched with the first sliding block is arranged on the inner wall of the second groove; when the first sealing plate (22) is located at the first through hole position, the first limiting plate (2222) abuts against the first limiting block (226); after the movable block (55) moves to one side of the first push block (224), the movable block (55) pushes the first push block (224) to move, the first push block (224) drives the first sealing plate (22) to move away from the bottom of the first through hole, the first through hole is opened, the medicine in the storage box (4) is added into the carrier box (53), the carrier box (53) moves downwards after the weight is increased, the carrier box (53) drives the second connecting plate (5) to move downwards, the second connecting plate (5) pushes the second push plate (225) to move downwards, the first connecting rope pulls the first connecting rod (2271) to move, the first push rod (227) moves into the fourth movable groove, the first limiting block (226) moves into the third movable groove along with the first push rod (227), the second sealing spring (223) pushes the second sealing plate (222) to move towards the outer side of the first movable groove, the second sealing plate (222) moves to the bottom of the first through hole to seal the first through hole, second connecting plate (5) downstream is to first ejector pad (224) below, movable block (55) continue to move along guide rail (2), first sealing spring (221) promote first closing plate (22) and move toward first through-hole direction, first stopper (226) are supported and are moved down behind first limiting plate (2222), first stopper (226) move to first limiting plate (2222) other side after with second closing plate (222) fixed again, accomplish the reseing of second closing plate (222).

7. The method of claim 6, wherein: a second push block (6) is arranged in the guide rail (2), the second push block (6) is arranged on one side of the first push block (224), a sixth movable groove is formed in the bottom of the first push block (224), a second connecting spring (67) is arranged in the sixth movable groove, and a third push plate (61) is arranged at the bottom of the second connecting spring (67); the top of the sixth movable groove is provided with a first electromagnet; a seventh movable groove is formed in the second push plate (225), a third push block (62) is arranged in the seventh movable groove, a second sliding block (625) is arranged on the side wall of the third push block (62), a second sliding groove matched with the second sliding block (625) is formed in the inner wall of the seventh movable groove, a third supporting spring (626) is arranged at the bottom of the second sliding block (625), a first air bag (621) is arranged on the side wall of the third push block (62), and when the third push block (62) moves to the bottom of the seventh movable groove, air flow in the first air bag (621) is discharged; after the movable block (55) moves to one side of the first push block (224), the movable block (55) moves to the lower part of the second push block (6), the movable block (55) continues to move to push the second push plate (225) to move, the second push plate (225) drives the second push block (6) to move towards the first push block (224), the second push block (6) pushes the first push block (224) to move, the first sealing plate (22) is moved away from the first through hole, the material loading box (53) moves to the lower part of the first through hole, the medicine in the storage box (4) falls into the material loading box through the first through hole, after the weight of the medicine in the material loading box reaches the designated weight, the material loading box (53) drives the second connecting plate (5) to move downwards, the second connecting plate (5) drives the third push block (62) to move downwards, the third push block (62) moves downwards to drive the second push plate (225) to move downwards, and the second push plate (225) pulls the first limit block (226) into the third movable groove, the second sealing plate (222) extends out of the first through hole from the first movable groove, the first through hole is sealed by the second sealing plate (222), the first air bag (621) is deflated after the third push block (62) moves to the bottom of the seventh movable groove, the second connecting plate (5) passes through the first air bag (621) from one side, and the movable block (55) drives the material loading box (53) to move continuously to send the medicine into the stirring box (1).

8. The brightener processing method according to claim 7, wherein: a cavity is formed in the third push block (62), the first air bag (621) is communicated with the cavity, a corrugated pipe (622) is arranged at the top of the cavity, a top plate (623) is arranged at the top of the corrugated pipe (622), a third connecting spring (624) is arranged at the bottom of the top plate (623), a second connecting pipe (63) is arranged in the cavity, a second connecting rod (64) is arranged in the second connecting pipe (63), and the second connecting rod (64) is fixedly connected to the bottom of the top plate (623); a second movable cavity is arranged on the second connecting rod (64), a second air bag (642) communicated with the second movable cavity is arranged on the side wall of the second movable cavity, an eighth movable groove matched with the second air bag (642) is arranged on the side wall of the second connecting pipe (63), a first partition plate is arranged in the second movable cavity, a plurality of second through holes and third through holes are formed in the first partition plate, a third connecting rod (641) penetrates through the first partition plate, a third sealing plate (647) matched with the second through holes is arranged on the third connecting rod (641), and a one-way valve is arranged in the third through hole; a first through cavity is formed in the top of the second movable cavity, a fourth connecting rod (646) penetrates through the first through cavity, and a fourth push plate (645) is arranged at the bottom of the fourth connecting rod (646); a supporting plate (66) is arranged on the inner wall of the bottom of the seventh movable groove; the movable block (55) moves to the bottom of the second push block (6) and then pushes the second push block (6) to move, the second push block (6) pushes the first push block (224) to move, the first sealing plate (22) moves away from the lower part of the first through hole, the medicine enters the material loading box (53) through the first through hole, the medicine in the material loading box (53) increases and then drives the second connecting plate (5) to move downwards, the second connecting plate (5) pushes the first air bag (621) to move downwards, the third push block (62) moves to the bottom of the seventh movable groove along with the first air bag (621), the supporting plate (66) abuts against the third push plate (61), the third connecting rod (641) moves upwards and drives the third sealing plate (647) to move upwards, the air flow at the bottom of the first partition plate enters the top of the first partition plate after the second through hole is opened, the air flow in the second air bag (642) enters the second cavity, and the first air bag (621) recovers deformation and pushes the air flow into the cavity, the top plate (623) moves upwards to drive the corrugated pipe (622) to extend; after the second connecting plate (5) passes through the first air bag (621), the third supporting spring (626) pushes the third push block (62) to move upwards, the third push block (62) moves to the top of the seventh movable groove, the top plate (623) abuts against the top surface of the seventh movable groove, the top plate (623) pushes the corrugated pipe (622) to contract, the fourth connecting rod (646) abuts against the top surface of the seventh movable groove to push the fourth connecting rod (646) to move downwards, the fourth push plate (645) pushes the air flow at the top of the first partition plate to flow to the bottom of the first partition plate, the air flow passes through the third through hole, the air flow enters the first air bag (621) again after the corrugated pipe (622) retracts, and the first air bag (621) expands; after the airflow at the top of the first partition plate enters the bottom of the first partition plate, the airflow in the second movable cavity enters the second air bag (642), the second air bag (642) expands and extends out of the eighth movable groove to fix the top plate (623), and the fixing of the first air bag (621) is completed.

9. The brightener processing method according to claim 1, wherein: a fifth connecting rod (531) is arranged at the bottom of the material loading box (53), the top of the fifth connecting rod (531) is of a conical surface structure, and a fourth sealing plate (532) is rotatably connected to the fifth connecting rod (531); a third movable cavity is arranged on the material carrying box (53), a ninth movable groove is arranged on the side wall of the third movable cavity, a fourth connecting spring is arranged in the third movable cavity, a connecting block (534) is arranged at the bottom of the fourth connecting spring, a second partition plate is arranged above the connecting block (534), the top of the fourth connecting spring is fixedly connected to the bottom of the second partition plate, a third connecting rope (535) is arranged at the bottom of the connecting block (534), and one end of the third connecting rope (535) is fixedly connected to the fourth sealing plate (532); a sixth connecting rod (536) is arranged at the top of the third movable cavity, the sixth connecting rod (536) penetrates through the second partition plate, a second limiting block (537) is arranged at the bottom of the sixth connecting rod (536), a third guide groove is arranged at the upper bottom of the second limiting block (537), a limiting groove matched with the second limiting block (537) is arranged on the connecting block (534), and a fourth push block (533) penetrates through the ninth movable groove; when the movable block (55) moves, the third connecting rope (535) pulls the fourth sealing plate (532) to be in a horizontal state, the bottom of the material carrying box (53) is in a closed state, the medicine enters the material carrying box (53) and then moves into the stirring box (1) together with the material carrying box (53), the fourth push block (533) moves towards the ninth movable groove, the fourth push block (533) pushes the air in the ninth movable groove into the third movable cavity, the third push block (62) pushes the sixth connecting rod (536) to move, the fourth sealing plate (532) rotates around the connecting point after the connecting block (534) moves downwards, the bottom of the material carrying box (53) is opened after the fourth sealing plate (532) is turned to an inclined state, and the medicine falls from the bottom of the material carrying box (53) and is added into the stirring box (1).

10. A brightener processing method according to claim 9, characterized in that: a water outlet is formed in the bottom of the water storage tank (3), a fourth through hole corresponding to the water outlet is formed in the guide rail (2), a tenth movable groove is formed in the inner wall of the guide rail (2), a fifth push block (21) is arranged in the tenth movable groove, a fifth connecting spring (211) is arranged on the fifth push block (21), and a second electromagnet is arranged in the tenth movable groove; a third partition plate (31) is arranged in the water storage tank (3), an air cylinder (32) is arranged at the top of the water storage tank (3), the drying component comprises a seventh connecting rod (33) arranged on a piston rod of the air cylinder (32) and absorbent cotton (35) arranged at the bottom of the seventh connecting rod (33), a third connecting plate (331) is arranged on the seventh connecting rod (33), a water delivery cavity is arranged on the seventh connecting rod (33), a water inlet cavity communicated with the water delivery cavity is arranged on the third connecting plate (331), a second through cavity is arranged on the water inlet cavity, a fifth sealing plate (332) is arranged in the second through cavity in a penetrating manner, a second through groove communicated with the water inlet cavity is arranged on the fifth sealing plate (332), a fourth connecting plate (333) is arranged at the top of the fifth sealing plate (332), and a fourth supporting spring (334) is arranged at the bottom of the fourth connecting plate (333), an eighth connecting rod (341) is arranged on the inner wall of the water storage tank (3), a baffle (34) is arranged on the eighth connecting rod (341), and the baffle (34) is arranged above the third connecting plate (331); when the powder medicine needs to be filled in the material loading box (53), the material loading box (53) is moved out of the stirring box (1), the movable block (55) drives the material loading box (53) to move to the lower part of the water storage tank (3), the air cylinder (32) drives the seventh connecting rod (33) to move upwards, the fourth connecting plate (333) is abutted to the bottom of the baffle plate (34), the fifth sealing plate (332) moves downwards relative to the third connecting plate (331), the second through groove is communicated with the water inlet cavity, water flow enters the water delivery cavity through the water inlet cavity, water flow in the water delivery cavity falls into the material loading box (53), the second electromagnet is electrified to push the fifth pushing block (21) to move forwards, the fifth pushing block (21) pushes the fourth pushing block (533) to move, the bottom of the material loading box (53) is opened after the fourth sealing plate (532) is overturned, the water flow in the material loading box (53) is poured out, the second electromagnet is powered off to the fourth sealing plate (532) to be in a horizontal state, the air cylinder (32) pushes the seventh connecting rod (33) to move downwards, the absorbent cotton (35) enters the material carrying box (53) to absorb water drops on the inner wall of the material carrying box (53), and the material carrying box (53) is cleaned.