CN111359526A - Anti-oxidation treatment process for raw materials for preparing printing ink - Google Patents

Abstract

The invention relates to a raw material anti-oxidation treatment process for preparing printing ink, which adopts the following printing ink to prepare a raw material anti-oxidation device, wherein the raw material anti-oxidation device for preparing the printing ink comprises a raw material box, a box cover, a partition plate, a spacing inserting plate, a linkage plate, a dispersing mechanism and a blanking mechanism; the anti-oxidation treatment process for the raw material preparation of the printing ink by adopting the anti-oxidation device for the raw material preparation of the printing ink comprises the following steps: s1, placing the printing ink raw materials; s2, taking ink raw materials; s3, uniformly stirring the ink raw materials; s4, sliding out the printing ink raw material; s5, continuously taking the ink raw materials. The invention can solve the problems existing when the existing printing ink raw materials which are easy to oxidize are stored in a sealing way: the raw materials are used and need to be weighed separately according to a proportion, so that the ink raw material taking operation is complex and tedious; when the ink material is used, there is a problem that the unused material in the sealed container is oxidized to some extent.

Description

Anti-oxidation treatment process for raw materials for preparing printing ink

Technical Field

The invention relates to the technical field of ink processing, in particular to an anti-oxidation treatment process for a raw material for preparing printing ink.

Background

Printing inks are important materials for printing, which are used to express patterns and characters on a substrate by printing or inkjet. The ink comprises main components and auxiliary components which are uniformly mixed and repeatedly rolled to form viscous colloidal fluid, and the ink raw materials comprise a binder (resin), a pigment, a filler, an auxiliary agent, a solvent and the like.

Partial printing ink raw materials can influence its performance in the air oxidation to sealing up the storage in the printing ink raw materials to easy oxidation, current printing ink raw materials to easy oxidation generally hold alone in ejection of compact container, open the storage container when needing to take and take out a certain amount of raw materials, every printing ink raw materials need weigh alone according to the ratio and get the material, the problem that exists when current printing ink raw materials to easy oxidation seal up the storage is as follows:

1. each printing ink raw material needs to be separately sealed and stored, and when the raw materials are taken, the raw materials need to be separately weighed according to a proportion, so that the operation for taking the printing ink raw materials is complex and tedious;

2. when the ink raw material is taken, the unused raw material in the sealed container is oxidized to a certain degree, so that the use effect of the raw material in the container is influenced.

Disclosure of Invention

In order to solve the problems, the invention provides a raw material anti-oxidation treatment process for preparing printing ink, which adopts a raw material anti-oxidation device for preparing the printing ink, the raw material anti-oxidation device for preparing the printing ink comprises a raw material box, a box cover, a partition plate, spaced insertion plates, linkage plates, a dispersing mechanism and a blanking mechanism, the raw material box is of a box-shaped structure with an opening at the upper end, the lower side wall of the raw material box is an inclined plane with the front end inclined downwards, the top of the rear end of the raw material box is provided with the box cover through a hinge, the partition plate is uniformly arranged in the raw material box and divides the raw material box into a plurality of storage cavities, the spaced insertion plates are uniformly arranged in each storage cavity from front to back, the positions of the spaced insertion plates in the storage cavities correspond one by one, the bottoms of the spaced insertion plates are inclined planes, and the linkage plates are arranged, the invention can carry out anti-oxidation storage on easily oxidized printing ink raw materials and is convenient for taking the raw materials, firstly, the raw materials are poured into the raw material box, so that a raw material is stored in each storage cavity, the rear side of each interval inserting plate is poured into the taking quantity of each time according to a certain proportion, so that each raw material can be taken according to the proportion, the storage effect of the raw materials and the convenience degree in taking are increased, the interval inserting plates can slide in the square chutes by pulling the linkage plates upwards, and the raw materials at the rear sides of the interval inserting plates can slide forwards on the lower side wall of the raw material box, so that the raw materials can be evenly discharged under the transmission of the discharging mechanism.

The lower end of the front side face of the raw material box is provided with a blanking groove, the position of the blanking groove corresponds to the position of the material storage cavity one by one, and a sealing plug is plugged in each blanking groove.

The top leading flank of case lid on be provided with the draw-in groove, both ends all are provided with a screw hole about the draw-in groove, install the joint board on the front end of raw material tank, be provided with the butt joint groove on the rear end of joint board, be provided with on the butt joint groove with the corresponding installation screw in screw hole position on the draw-in groove, during concrete work, through on overturning the case lid to the joint board to can lock the case lid on the joint board of raw material tank through the bolt.

The dispersing mechanism comprises a dispersing connecting frame, a stabilizing rod, a stirring column, a stirring spring and a dispersing rod, the dispersing connecting frame is arranged on the rear side face of the lower end of the interval inserting plate and is parallel to the bottom face of the interval inserting plate, a dispersing groove is formed in the middle of the dispersing connecting frame, the stabilizing rod is uniformly arranged between the front inner wall and the rear inner wall of the dispersing groove from left to right, a stirring square groove is transversely formed in the rear end of the dispersing connecting frame, the right end of the stirring square groove penetrates through the right side face of the dispersing connecting frame, and the front end of the stirring square groove is communicated with the rear end of the dispersing groove;

stir the post through stir spring mounting on stir the left side inner wall of square groove, stir the right-hand member of post and be located the dispersion and link the outside of putting up, the dispersion pole is installed on the leading flank of stirring the post, and dispersion pole and firm pole staggered arrangement, the top of dispersion pole, the top of firm pole and the top of dispersion link the frame are sharp column structure, concrete during operation, dispersion mechanism can stir the raw materials when the raw materials is concentrated the ration and is got the material, prevent that the raw materials from piling up each other and causing the phenomenon that the raw materials can't carry out the landing, firm pole and dispersion link the sharp column structure of putting up can prevent that the raw materials from piling up on firm pole and dispersion link the frame.

The anti-oxidation treatment process for the raw material preparation of the printing ink by adopting the anti-oxidation device for the raw material preparation of the printing ink comprises the following steps:

s1, placing the ink raw materials: firstly, lifting a box cover from a raw material box, pouring an ink raw material into each material storage cavity, taking the amount of the raw material poured backwards of each interval inserting plate as a one-time use amount, then covering the box cover on the raw material box, and locking and connecting the box cover with a mounting screw hole on a clamping plate through a threaded hole on the box cover through a bolt;

s2, taking the raw materials of the ink: when the ink raw material needs to be taken, the sealing plug is taken out firstly, and then the linkage plate at the foremost end is pulled upwards, so that the ink raw material can fall down along the inclined surface of the lower side wall of the raw material box;

s3, uniformly stirring the ink raw materials: when the linkage plate moves upwards, the stabilizing rods and the dispersing rods in the dispersing connecting frame can stir the printing ink raw materials, so that the printing ink raw materials are prevented from being stacked mutually to cause incapability of blanking;

s4, sliding out of the ink raw materials: when the ink raw material slides to the front end of the raw material box, the sealing plug is taken down, the ink raw material can uniformly slide out of the blanking groove through the blanking mechanism, the raw material is prevented from being blocked in the blanking groove, the sealing plug is plugged again after the ink raw material is taken out, and the linkage plate is reset, so that the sealing performance of the raw material box is improved;

s5, continuously taking the ink raw materials: when the ink raw materials need to be taken again, the front two linkage plates are pulled upwards, the steps S3 and S4 are repeated, so that the ink raw materials can be discharged uniformly, and after the ink raw materials are taken, the linkage plates are reset, the step S1 is repeated, and the ink raw materials can be placed again.

As a preferred technical scheme of the invention, the outer side surface of the lower end of each square sliding chute is provided with a telescopic groove, a telescopic block is arranged in each telescopic groove through a telescopic spring, the inner side of the upper end of each telescopic block is provided with an inclined groove, the telescopic blocks can prevent raw materials from being accumulated in the square sliding chutes, and the inclined grooves on the telescopic blocks can facilitate the insertion of the interval insertion plates into the square sliding chutes.

As a preferred technical scheme of the invention, the lower end of each telescopic block is provided with an insertion hole, the left side and the right side of the lower end of each interval insertion plate are provided with a fixture block with a telescopic structure, the outer end of each fixture block is of an isosceles trapezoid structure, when the interval insertion plates are inserted in place, the isosceles trapezoid structures at the outer ends of the fixture blocks can be inserted into the insertion holes of the telescopic blocks, so that the positions of the interval insertion plates are positioned, and when the linkage plate is lifted upwards, the isosceles trapezoid structures at the outer ends of the fixture blocks can automatically contract, so that the movement of the linkage plate is not hindered.

As a preferred technical scheme of the invention, a group of trapezoidal blocks are longitudinally distributed below the right side of each shifting column, the rightmost trapezoidal block is arranged on the inner wall of the right side of the raw material box, the rest trapezoidal blocks are arranged on the left side surface of the partition plate, when the linkage plate is lifted upwards, the shifting column can be in contact with the trapezoidal blocks, and the shifting column can swing left and right under the guiding action of the trapezoidal blocks, so that the shifting effect of the ink material shifting device on the printing ink is improved.

As a preferable technical scheme of the invention, the middle part of the front side face of the box cover is provided with a rubber block, the size of the rubber block corresponds to the size of the inner side face of the raw material box, the box cover and the rubber block are uniformly provided with drawing grooves from top to bottom, the size of the drawing grooves corresponds to the size of the linkage plate, the rubber block on the box cover can increase the sealing performance of the box cover and the raw material box, the drawing grooves can facilitate the linkage plate to be lifted upwards, and the rubber block is in contact with the linkage plate to increase the sealing performance of the raw material box.

As a preferred technical scheme of the invention, the top of each linkage plate is provided with a pull ring which can be convenient for lifting the linkage plate.

As a preferred technical scheme of the invention, the blanking mechanism comprises a blanking rotating shaft, a blanking rotating wheel and a blanking push plate, wherein the left end of the blanking rotating shaft is arranged on the left side wall of the raw material box through a bearing, the right end of the blanking rotating shaft sequentially penetrates through a partition plate and the right side wall of the raw material box, the right end of the blanking rotating shaft is provided with a rotating handle, a blanking rotating wheel is uniformly distributed in each material storage cavity, the blanking rotating wheels are arranged on the blanking rotating shaft, the blanking push plates are symmetrically arranged on the outer side surfaces of the blanking rotating wheels, the outer end of each blanking push plate is of a telescopic structure, the outer side surface of each blanking push plate is an arc-shaped surface, when the blanking mechanism works, the rotating handle on the blanking rotating shaft is manually rotated, so that the blanking push plates can stir the raw materials to the front side, the blanking push plates of the telescopic structure can be attached to the lower side wall of, the arc-shaped surface of the blanking push plate can enable the blanking push plate to automatically contract when contacting with the raw material box.

The invention has the beneficial effects that:

the invention can quantitatively and hermetically store easily oxidized granular ink raw materials, quantitatively take and use the raw materials under the condition of not opening a material box, and the raw materials which are not taken are still in a sealed state;

the box cover can be locked on the raw material box, and the rubber blocks on the box cover can increase the sealing property between the box cover and the raw material box;

when the linkage plate is lifted upwards, the stirring column can be in contact with the trapezoidal block, and the stirring column can swing left and right under the guiding action of the trapezoidal block, so that the stirring effect of the dispersing mechanism on the ink raw materials is improved;

the feeding push plate with the telescopic structure can be attached to the lower side wall of the raw material box, so that the feeding amount of raw materials at each time is equal to that of the front side of the feeding push plate when the feeding rotating shaft is manually rotated, and the feeding uniformity of the raw materials is improved.

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 view of a first configuration of the present invention;

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

FIG. 4 is a cross-sectional view between the feed stock tank and the divider plate of the present invention;

FIG. 5 is a schematic structural view of the raw material box, the partition plate and the linkage plate of the present invention;

FIG. 6 is a cross-sectional view of the present invention between the raw material box, the divider plate, the spacer insert plate and the linkage plate;

FIG. 7 is a schematic structural view of the present invention between the raw material box, the partition plate, the partition insertion plate, the linkage plate and the dispersing mechanism;

FIG. 8 is a cross-sectional view of the raw material tank, partition plate and dispersing 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 8, the anti-oxidation treatment process for the raw materials for preparing the printing ink adopts a raw material anti-oxidation device for preparing the printing ink, the raw material anti-oxidation device for preparing the printing ink comprises a raw material box 1, a box cover 2, a partition plate 3, interval insertion plates 4, a linkage plate 5, a dispersing mechanism 6 and a blanking mechanism 7, the raw material box 1 is of a box-shaped structure with an opening at the upper end, the lower side wall of the raw material box 1 is an inclined plane with the front end inclined downwards, the box cover 2 is arranged on the top of the rear end of the raw material box 1 through a hinge, the partition plate 3 is uniformly arranged in the raw material box 1, the partition plate 3 divides the raw material box 1 into a plurality of storage cavities, the interval insertion plates 4 are uniformly arranged in each storage cavity from front to back, the positions of the interval insertion plates 4 in the storage cavities are in one-to-one correspondence, the bottoms of the interval insertion plates 4 are inclined planes, the side surface of the partition plate 3 and the left and right inner walls of the raw material box 1 are respectively provided with a square chute 31 corresponding to the left and right ends of each interval insertion plate 4, the square chutes 31 are in sliding fit with the outer ends of the interval insertion plates 4, the rear side surface of each interval insertion plate 4 is respectively provided with a dispersing mechanism 6, and the blanking mechanism 7 is arranged at the front end of the raw material box 1. the invention can carry out anti-oxidation storage on easily oxidized printing ink raw materials and is convenient for taking the raw materials, firstly, the raw materials are poured into the raw material box 1 to store one raw material in each storage cavity, the rear side of each interval insertion plate 4 is poured into the taken quantity of each time according to a certain proportion, so that each raw material can be taken according to the proportion, the storage effect and the convenience degree when the raw materials are taken are increased, and the interval insertion plates 4 can slide in the square chutes 31 by pulling the linkage plate, the raw material at the rear side of the spacer 4 can slide forward on the lower side wall of the raw material tank 1 so that the raw material can be uniformly discharged by the delivery of the discharging mechanism 7.

The lower end of the front side face of the raw material box 1 is provided with a blanking groove, the positions of the blanking grooves correspond to the positions of the material storage cavities one by one, and each blanking groove is internally filled with a sealing plug 12.

The top leading flank of case lid 2 on be provided with the draw-in groove, both ends all are provided with a screw hole about the draw-in groove, install joint board 11 on the front end of raw material tank 1, be provided with the butt joint groove on the rear end of joint board 11, be provided with on the butt joint groove with the draw-in groove on the screw hole position corresponding installation screw, concrete during operation, through on overturning joint board 11 with case lid 2 to can lock case lid 2 on the joint board 11 of raw material tank 1 through the bolt.

The middle part of the front side face of the box cover 2 is provided with a rubber block, the size of the rubber block corresponds to the size of the inner side face of the raw material box 1, a drawing groove is uniformly formed in the box cover 2 and the rubber block from top to bottom, the size of the drawing groove corresponds to the size of the linkage plate 5, the rubber block on the box cover 2 can increase the sealing performance of the box cover 2 and the raw material box 1, the drawing groove can facilitate the upward drawing of the linkage plate 5, and the rubber block is in contact with the linkage plate 5 and can increase the sealing performance of the raw material box 1.

And a pull ring is arranged on the top of each linkage plate 5, and the pull ring can be convenient for lifting the linkage plates 5.

The dispersing mechanism 6 comprises a dispersing connecting frame 61, a stabilizing rod 62, a stirring column 63, a stirring spring 64 and a dispersing rod 65, the dispersing connecting frame 61 is installed on the rear side face of the lower end of the interval inserting plate 4, the dispersing connecting frame 61 is arranged in parallel to the bottom face of the interval inserting plate 4, a dispersing groove is formed in the middle of the dispersing connecting frame 61, the stabilizing rod 62 is evenly installed between the front inner wall and the rear inner wall of the dispersing groove from left to right, a stirring square groove is transversely formed in the rear end of the dispersing connecting frame 61, the right end of the stirring square groove penetrates through the right side face of the dispersing connecting frame 61, and the front end of the stirring square groove is communicated with the rear end of the dispersing groove;

stir post 63 and install on stirring the left side inner wall of square groove through stirring spring 64, stir the right-hand member of post 63 and be located the outside of dispersion link 61, dispersion pole 65 is installed on the leading flank of stirring post 63, and dispersion pole 65 and the staggered arrangement of firm pole 62, dispersion pole 65's top, the top of firm pole 62 is sharp column structure with the top of dispersion link 61, concrete during operation, dispersion mechanism 6 can stir the raw materials when the material is concentrated the ration and is got the material, prevent that the raw materials from piling up each other and causing the unable phenomenon that carries out the landing of raw materials, firm pole 62 and the sharp column structure of dispersion link 61 can prevent that the raw materials from piling up on firm pole 62 and dispersion link 61.

A group of trapezoidal blocks 42 are longitudinally distributed below the right side of each toggle column 63, the rightmost trapezoidal block 42 is arranged on the inner wall of the right side of the raw material box 1, the rest trapezoidal blocks 42 are arranged on the left side face of the partition plate 3, the toggle columns 63 can be in contact with the trapezoidal blocks 42 when the linkage plate 5 is lifted upwards, and the toggle columns 63 can swing left and right under the guiding action of the trapezoidal blocks 42, so that the ink raw material toggling effect of the ink box is improved.

The anti-oxidation treatment process for the raw material preparation of the printing ink by adopting the anti-oxidation device for the raw material preparation of the printing ink comprises the following steps:

s1, placing the ink raw materials: firstly, lifting a box cover 2 from a raw material box 1, pouring an ink raw material in each material storage cavity, taking the amount of the raw material poured backwards of each interval inserting plate 4 as one-time use amount, then covering the box cover 2 on the raw material box 1, and locking and connecting the box cover 2 with a mounting screw hole on a clamping plate 11 through a threaded hole on the box cover 2 by a bolt;

s2, taking the raw materials of the ink: when the ink raw material needs to be taken out, the sealing plug 12 is taken out firstly, and then the linkage plate 5 at the foremost end is pulled upwards, so that the ink raw material can fall along the inclined surface of the lower side wall of the raw material box 1;

s3, uniformly stirring the ink raw materials: when the linkage plate 5 moves upwards, the stable rods 62 and the dispersing rods 65 in the dispersing connecting frame 61 can stir the ink raw materials, so that the ink raw materials are prevented from being stacked to cause incapability of blanking;

s4, sliding out of the ink raw materials: when the ink raw material slides to the front end of the raw material box 1, the sealing plug 12 is taken down and can uniformly slide out of the charging chute through the discharging mechanism 7, so that the raw material is prevented from being blocked in the charging chute, after the ink raw material is taken out, the sealing plug 12 is plugged again, and the linkage plate 5 is reset, so that the sealing performance of the raw material box 1 is improved;

s5, continuously taking the ink raw materials: when the ink raw materials need to be taken again, the front two linkage plates 5 are pulled upwards, the steps S3 and S4 are repeated, so that the ink raw materials can be discharged uniformly, and after the ink raw materials are taken, the linkage plates 5 are reset, and the steps S1 are repeated, so that the ink raw materials can be placed again.

The lower extreme lateral surface of every square spout 31 all be provided with a flexible groove, all install a flexible piece 33 through expanding spring 32 in every flexible inslot, the upper end inboard of flexible piece 33 is provided with the inclined groove, flexible piece 33 can prevent that the raw materials from piling up in shape spout 31, the inclined groove on the flexible piece 33 can be convenient for interval picture peg 4 and insert in square spout 31.

The lower extreme of every flexible piece 33 all be provided with a jack, the lower extreme left and right sides of every interval picture peg 4 all is provided with a extending structure's fixture block 41, fixture block 41's outer end is isosceles trapezoid structure, peg graft when the interval picture peg 4 back of targetting in place, the isosceles trapezoid structure of fixture block 41 outer end can be inserted in the jack of flexible piece 33 for 4 positions of interval picture peg obtain fixing a position, when linkage plate 5 upwards carries and draws, the isosceles trapezoid structure of fixture block 41 outer end can contract automatically, thereby does not hinder linkage plate 5's removal.

The blanking mechanism 7 comprises a blanking rotating shaft 71, a blanking rotating wheel 72 and a blanking push plate 73, the left end of the blanking rotating shaft 71 is mounted on the left side wall of the raw material box 1 through a bearing, the right end of the blanking rotating shaft 71 sequentially penetrates through the partition plate 3 and the right side wall of the raw material box 1, a rotating handle is arranged at the right end of the blanking rotating shaft 71, a blanking rotating wheel 72 is distributed in each material storage cavity, the blanking rotating wheels 72 are mounted on the blanking rotating shaft 71, the blanking push plates 73 are symmetrically mounted on the outer side surfaces of the blanking rotating wheels 72, the outer end of the blanking push plate 73 is of a telescopic structure, the outer side surface of the blanking push plate 73 is an arc-shaped surface, when the blanking mechanism works in detail, the rotating handle on the blanking rotating shaft 71 is manually rotated, so that the blanking push plate 73 can stir the raw materials to the front side, the blanking push plate 73 of the telescopic structure can be, thereby the raw materials can evenly fall, and the arcwall face of unloading push pedal 73 can make unloading push pedal 73 and raw materials case 1 contact time can contract automatically.

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

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. The utility model provides a printing ink preparation raw materials anti-oxidation treatment process, this printing ink preparation raw materials anti-oxidation treatment process adopts the anti-oxidation device of raw materials of following printing ink preparation, and this printing ink preparation raw materials anti-oxidation device includes raw materials case (1), case lid (2), division board (3), interval picture peg (4), linkage plate (5), dispersion mechanism (6) and unloading mechanism (7), its characterized in that: raw material box (1) be upper end open-ended box structure, the lower lateral wall of raw material box (1) is the inclined plane of front end downward sloping, there is case lid (2) through the hinge mount on the rear end top of raw material box (1), evenly install division board (3) in raw material box (1), division board (3) separate into a plurality of storage compartments with raw material box (1), evenly be provided with interval picture peg (4) from the front back in every storage compartment, the position of interval picture peg (4) one-to-one corresponds in the storage compartment, the bottom of interval picture peg (4) is the inclined plane, install linkage plate (5) between the top of the corresponding interval picture peg (4) of lateral position, both ends all are provided with a square spout (31) about corresponding every interval picture peg (4) on the side of division board (3) and the left and right sides inner wall of raw material box (1), the outer end of square spout (31) and interval picture peg (4) is sliding fit, a dispersing mechanism (6) is arranged on the rear side surface of each interval inserting plate (4), and a blanking mechanism (7) is arranged at the front end of the raw material box (1); wherein:

the lower end of the front side surface of the raw material box (1) is provided with blanking grooves, the positions of the blanking grooves correspond to the positions of the material storage cavities one by one, and each blanking groove is internally filled with a sealing plug (12);

a clamping groove is formed in the front side face of the top of the box cover (2), a threaded hole is formed in each of the left end and the right end of the clamping groove, a clamping plate (11) is installed on the front end of the raw material box (1), a butt joint groove is formed in the rear end of the clamping plate (11), and an installation threaded hole corresponding to the threaded hole in the clamping groove is formed in the butt joint groove;

the dispersing mechanism (6) comprises a dispersing connecting frame (61), a stabilizing rod (62), a stirring column (63), a stirring spring (64) and a dispersing rod (65), the dispersing connecting frame (61) is installed on the rear side face of the lower end of the interval inserting plate (4), the dispersing connecting frame (61) is arranged in parallel to the bottom face of the interval inserting plate (4), a dispersing groove is formed in the middle of the dispersing connecting frame (61), the stabilizing rod (62) is uniformly installed between the front inner wall and the rear inner wall of the dispersing groove from left to right, a stirring square groove is transversely formed in the rear end of the dispersing connecting frame (61), the right end of the stirring square groove penetrates through the right side face of the dispersing connecting frame (61), and the front end of the stirring square groove is communicated with the rear end of the dispersing groove;

the stirring column (63) is installed on the inner wall of the left side of the stirring square groove through a stirring spring (64), the right end of the stirring column (63) is located on the outer side of the dispersing connecting frame (61), the dispersing rods (65) are installed on the front side face of the stirring column (63), the dispersing rods (65) and the stabilizing rods (62) are arranged in a staggered mode, and the tops of the dispersing rods (65), the tops of the stabilizing rods (62) and the tops of the dispersing connecting frame (61) are of pointed structures;

the anti-oxidation treatment process for the raw material preparation of the printing ink by adopting the anti-oxidation device for the raw material preparation of the printing ink comprises the following steps:

s1, placing the ink raw materials: firstly, lifting a box cover (2) from a raw material box (1), pouring an ink raw material in each material storage cavity, wherein the amount of the raw material poured by the back side of each interval inserting plate (4) is one-time use amount, then covering the box cover (2) on the raw material box (1), and locking and connecting the box cover (2) with a mounting screw hole on a clamping plate (11) through a threaded hole on the box cover (2) through a bolt;

s2, taking the raw materials of the ink: when the ink raw material needs to be taken, the sealing plug (12) is taken out firstly, and then the linkage plate (5) at the foremost end is pulled upwards, so that the ink raw material can fall along the inclined surface of the lower side wall of the raw material box (1);

s3, uniformly stirring the ink raw materials: when the linkage plate (5) moves upwards, the ink raw materials can be stirred by the stabilizing rods (62) and the dispersing rods (65) in the dispersing connecting frame (61), so that the ink raw materials are prevented from being stacked mutually to prevent the ink raw materials from being incapable of blanking;

s4, sliding out of the ink raw materials: when the ink raw material slides to the front end of the raw material box (1), the sealing plug (12) is taken down, the ink raw material can uniformly slide out of the charging chute through the discharging mechanism (7), the raw material is prevented from being blocked in the charging chute, the sealing plug (12) is plugged again after the ink raw material is taken out, and the linkage plate (5) is reset, so that the sealing performance of the raw material box (1) is improved;

s5, continuously taking the ink raw materials: when the ink raw materials need to be taken again, the front two linkage plates (5) are pulled upwards, the steps S3 and S4 are repeated, so that the ink raw materials can be discharged uniformly, and after the ink raw materials are taken, the linkage plates (5) are reset, and the step S1 is repeated, so that the ink raw materials can be placed again.

2. The process for the oxidation prevention treatment of the raw materials for the preparation of the printing ink according to claim 1, wherein the oxidation prevention treatment process comprises the following steps: the lower extreme lateral surface of every square spout (31) all be provided with a flexible groove, all install a flexible piece (33) through expanding spring (32) in every flexible inslot, the upper end inboard of flexible piece (33) is provided with the inclined groove.

3. The process for the oxidation prevention treatment of the raw materials for the preparation of the printing ink according to claim 2, wherein the oxidation prevention treatment process comprises the following steps: the lower extreme of every flexible piece (33) all be provided with a jack, the lower extreme left and right sides of every interval picture peg (4) all is provided with fixture block (41) of a extending structure, the outer end of fixture block (41) is isosceles trapezoid structure.

4. The process for the oxidation prevention treatment of the raw materials for the preparation of the printing ink according to claim 1, wherein the oxidation prevention treatment process comprises the following steps: a group of trapezoidal blocks (42) are longitudinally distributed below the right side of each toggle column (63), the right end of each group of trapezoidal blocks (42) is arranged on the inner wall of the right side of the raw material box (1), and the rest trapezoidal blocks (42) are arranged on the left side surface of the partition plate (3).

5. The process for the oxidation prevention treatment of the raw materials for the preparation of the printing ink according to claim 1, wherein the oxidation prevention treatment process comprises the following steps: the middle part of the front side face of the box cover (2) is provided with a rubber block, the size of the rubber block corresponds to the size of the inner side face of the raw material box (1), drawing grooves are uniformly formed in the box cover (2) and the rubber block from top to bottom, and the size of each drawing groove corresponds to the size of the linkage plate (5).

6. The process for the oxidation prevention treatment of the raw materials for the preparation of the printing ink according to claim 1, wherein the oxidation prevention treatment process comprises the following steps: and a pull ring is arranged on the top of each linkage plate (5).

7. The process for the oxidation prevention treatment of the raw materials for the preparation of the printing ink according to claim 1, wherein the oxidation prevention treatment process comprises the following steps: unloading mechanism (7) including unloading pivot (71), unloading runner (72) and unloading push pedal (73), the left end of unloading pivot (71) is passed through the bearing and is installed on the left side wall of former feed box (1), the right-hand member of unloading pivot (71) passes division board (3) and the right side wall of former feed box (1) in proper order, the right-hand member of unloading pivot (71) is provided with changes the handle, every storage intracavity evenly distributed has an unloading runner (72), install on unloading pivot (71) unloading runner (72), unloading push pedal (73) symmetry is installed on the lateral surface of unloading runner (72).

8. The process for the oxidation prevention treatment of the raw materials for the preparation of the printing ink according to claim 7, wherein: the outer end of the blanking push plate (73) is of a telescopic structure, and the outer side surface of the blanking push plate (73) is an arc-shaped surface.

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