CN114889318B - Green printing production equipment and technology for can-making printed iron - Google Patents

Abstract

The invention relates to the technical field of printing production and discloses a green printing production device for can-making iron printing, which comprises a conveying belt, wherein a metal plate is arranged on the conveying belt, a sliding block is arranged on the side surface of the conveying belt, a leveling device is arranged above the conveying belt, one side of the leveling device is provided with a primer auxiliary device, one side of the primer auxiliary device is provided with a dustproof protection component, an auxiliary cavity is arranged between two groups of sliding blocks, the leveling device consists of a swinging component and a flattening component, the primer auxiliary device consists of a reciprocating component and a priming smearing component, and the metal plate which is slightly wrinkled originally can be leveled through the use of the flattening component, namely, the original leveling state is restored, so that when a primer coating is arranged, the situation that a printing pattern is incomplete due to the fact that the wrinkled place is not leveled is avoided, product flaws are reduced to a certain extent, and the device has great benefits for selling and companies.

Description

Green printing production equipment and technology for can-making printed iron

Technical Field

The invention relates to the technical field of printing production, in particular to a green printing production device and a green printing production process for can-making printing iron.

Background

Printing is a technique of transferring ink onto surfaces of materials such as paper, metal, textile, plastic, leather and the like by performing procedures such as plate making, ink application, pressurization and the like on originals such as characters, pictures, photos and anti-counterfeiting and the like to copy contents of the originals in batches,

in the prior art, the process for printing the metal plate is generally that firstly, raw materials are cut into square patches or concave-convex shapes are arranged on the edges of the patches, sterilization and cleaning are carried out according to requirements after the patches are cut, then, the patches are coated on the bottom layer, after the patches are finished, the patches enter a printing line for subsequent work, the cut metal plate is usually sucked up by an air pump and then transferred onto a conveying belt, but the suction of the air pump damages the metal plate to a certain extent, folds are left on the transferred metal plate to a certain extent, when the metal plate with the folds is coated on the bottom layer, the folds cannot be completely smeared, the follow-up printing patterns are incomplete due to the fact that the folds are not leveled to a certain extent, even defects appear in products manufactured at the later stage, sales are influenced, and company benefits are damaged;

in addition, after the surface of the metal plate is primed by the paint, the metal plate is required to be dried, a path is provided before the metal plate is transferred to a dryer, the bottom coating which is not completely solidified by film is easy to contact with dust or other floaters in the air during transfer, if the dust or other floaters contact with the coating which is not dried to a certain extent, the post-printing effect can be influenced, even the printed surface pattern is extremely easy to change color or scratch, the defective product cannot be sold and only can be scrapped, the scrapping treatment can pollute the environment to a certain extent, and the cost of a company is increased while a large amount of resources are wasted.

Therefore, we propose a green printing production device and a process thereof for can-making iron printing to solve the problems.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a green printing production device for can-making iron printing and a process thereof, so as to solve the problems in the prior art.

Technical proposal

In order to achieve the above purpose, the invention provides a green printing production device for can-making iron, which is preferable in the following technical scheme, and comprises a conveying belt, wherein a metal plate is arranged on the conveying belt, sliding blocks are arranged on the side surface of the conveying belt, a leveling device is arranged above the conveying belt, a primer auxiliary device is arranged on one side of the leveling device, and a dustproof protection component is arranged on one side of the primer auxiliary device;

preferably, an auxiliary cavity is arranged between the two groups of sliding blocks, the leveling device consists of a swinging assembly and a flattening assembly, the primer auxiliary device consists of a reciprocating assembly and a priming painting assembly, a rotating shaft is arranged in the swinging assembly, a first connecting rod is fixedly connected to the rotating shaft, one end of the first connecting rod, far away from the rotating shaft, is fixedly connected with a stirring column, a fixed point is fixedly connected to the inner cavity of the auxiliary cavity, a swinging body is rotationally connected to the outer wall of the fixed point, a moving piece is arranged in the flattening assembly, a second connecting rod is fixedly connected to the moving piece, a pressing block is fixedly connected to the second connecting rod, and a through curve channel is formed in the auxiliary cavity.

Preferably, a first rotating wheel is arranged in the reciprocating assembly, and a belt is arranged on the outer wall of the first rotating wheel.

Preferably, one end of the belt, which is far away from the first rotating wheel, is in transmission connection with a second rotating wheel, a vertical rod is fixedly connected to the second rotating wheel, and the outer wall of the second rotating wheel is meshed with the reciprocating body through teeth on the inner surface of the reciprocating body.

Preferably, a discharging bin is arranged in the priming paint assembly, a conveying pipe is inserted into the discharging bin, and a spring is fixedly connected to the inner cavity of the discharging bin.

Preferably, a plugging sheet is arranged below the spring, one surface, away from the spring, of the plugging sheet is fixedly connected with a third connecting rod, and one end, away from the plugging sheet, of the third connecting rod is provided with a rolling column.

Preferably, a connecting plate is arranged in the dustproof protection assembly, and an air outlet bin is arranged at one end, far away from the auxiliary cavity, of the connecting plate.

Preferably, the conveyor belt is provided with a channel for sliding the sliding block.

Preferably, the swinging body is provided with a through groove.

Preferably, a fan is arranged in the air outlet bin.

The process of the iron green printing production equipment for can making comprises the following steps of:

s1, cutting and sterilizing: cutting the raw materials into square iron sheets or iron sheets with concave-convex edges, and sterilizing and cleaning the iron sheets according to requirements after cutting (if the iron sheets are used for manufacturing food cans, the iron sheets need to be primarily cleaned and sterilized, and if the iron sheets are used for chemical barrels, the process is not needed);

s2, coating an upper bottom layer: coating a bottom layer on the cut material by a related device, and entering a printing line after finishing coating;

s3, printing: the printing is formed by arranging a plurality of printer heads, and because one head can only apply one layer of color and one pattern has a plurality of colors, the printing can be finished only by a plurality of printer heads for multi-channel superposition printing;

s4, spot check: a spot inspection platform is arranged between the heat treatment furnace and the printing line and is used for detecting the printing effect of the product;

s5, heat treatment: and after printing, connecting a heat treatment furnace, wherein the tops of the heat treatment furnaces are connected with waste gas treatment pipelines, and carrying out waste gas treatment through an RTO air purification system.

Wherein S2 can be subdivided into:

s2.1, leveling: in the moving process, the second connecting rod can swing with the pressing block under the assistance of the curve channel, so that the metal plate below is leveled;

s2.2, smearing: the paint comes out of the discharge hole and is uniformly smeared on the metal plate with the aid of the rolling column, so that the bottom layer of the metal plate is smeared;

s2.3, entering a printing line for pretreatment: the fan in the air outlet bin can protect the surface of the coating of the metal plate through the air outlet hole formed in the air outlet bin, namely, a transparent air film can be formed on the metal plate, and the bottom coating which is not completely solidified by film is prevented from being contacted with dust or other floaters in the air during transferring.

Advantageous effects

1. The metal plate with the original slight folds can be flattened through the flattening assembly, namely the original flattened state is restored, so that the condition that the printed pattern is incomplete due to the fact that the places with the folds are not flattened can be avoided when the bottom layer is coated, product flaws can be reduced to a certain extent, and the metal plate flattening device has great benefits for selling and company benefits.

2. In the invention, the reciprocating body can reciprocate left and right under the drive of the vertical rod through the drive of the second rotating wheel, so that power and guidance are necessary for the movement of the priming paint assembly, in addition, the reciprocating assembly is driven to reciprocate, so that the priming paint of the metal plate can be more uniform and more comprehensive, and meanwhile, the flattening assembly and the priming paint assembly are continuous processes, so that the priming paint of the metal plate can be directly smeared after being flattened, and the advantage is that the completeness of the priming paint of the metal plate can be furthest guaranteed.

3. The rotating shaft drives the toggle post to drive the swinging assembly through the first connecting rod, and also provides power for the reciprocating assembly under the assistance of the first rotating wheel, so that one drive ensures the normal operation of two important assemblies, saves the electric power cost and simultaneously contributes one strength for energy conservation and environmental protection.

4. The known conveying belt is provided with the channel for installing the sliding block, so that the whole device has the functions of convenient disassembly and transfer, the application range of the device is greatly enlarged, and the powerful guarantee is provided for the whole work.

5. According to the invention, the fan in the air outlet bin can protect the surface of the coating of the metal plate through the air outlet hole formed in the air outlet bin, namely, a transparent air film can be formed on the metal plate, so that the bottom coating which is not completely solidified in a film mode is prevented from being contacted with dust or other floaters in the air in the transferring process, meanwhile, the coating is also air-dried to a certain extent through the air of the air outlet hole of the air outlet bin, the metal plate just above the bottom coating is prevented from influencing the later printing effect under the influence of the dust or other floaters, and even the situation that the patterns on the printed surface are easy to change color or scratch is caused.

Drawings

FIG. 1 is a diagram of a first major structure of the present invention;

FIG. 2 is a diagram of a second embodiment of the present invention;

FIG. 3 is a top view of the body structure of the present invention;

FIG. 4 is a side view of the body structure of the present invention;

FIG. 5 is a block diagram of the primer assembly, dust guard assembly, and the like of the present invention;

FIG. 6 is an enlarged view of the invention at A in FIG. 3;

FIG. 7 is a diagram showing the construction of the related press block of the present invention;

FIG. 8 is a diagram of the second rotating wheel, vertical rod, reciprocating body, priming paint assembly, and the like of the present invention;

FIG. 9 is an enlarged view of the invention at B in FIG. 4;

FIG. 10 is a view of a dust guard assembly of the present invention;

FIG. 11 is a process flow diagram of the present invention.

In the figure:

1. a conveyor belt; 2. a metal plate; 3. a sliding block; 301. an auxiliary chamber;

4. a leveling device; 41. a swing assembly; 411. a rotating shaft; 412. a first connecting rod; 413. stirring the column; 414. a fixed point; 415. a swinging body;

42. a flattening assembly; 421. a motion piece; 422. a second connecting rod; 423. briquetting; 424. a curved channel;

5. a primer auxiliary device; 51. a reciprocating assembly; 511. a first rotating wheel; 512. a belt; 513. a second rotating wheel; 514. a vertical rod; 515. a reciprocating body;

52. priming the smearing component; 521. discharging the material bin; 522. a delivery tube; 523. a spring; 524. a blocking piece; 525. a third connecting rod; 526. a rolling column;

6. a dust protection assembly; 601. a connecting plate; 602. and (5) an air outlet bin.

Detailed Description

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

The invention is described in further detail below with reference to the drawings and examples.

Example 1

Please refer to fig. 1 to 3, fig. 6 to 7:

be provided with metal sheet 2 on conveyer belt 1, the conveyer belt 1 side is provided with slider 3, be provided with the channel of installation slider 3 on the conveyer belt 1, be provided with leveling device 4 above the conveyer belt 1, be provided with auxiliary chamber 301 between two sets of sliders 3, leveling device 4 comprises swing subassembly 41, the subassembly 42 flattens, be provided with axis of rotation 411 in the swing subassembly 41, fixedly connected with head rod 412 on the axis of rotation 411, the one end that head rod 412 kept away from axis of rotation 411 is fixedly connected with stirs post 413, fixedly connected with fixed point 414 in auxiliary chamber 301 inner chamber, rotationally be connected with pendulum 415 on the fixed point 414 outer wall, set up the logical groove that runs through on the pendulum 415, stir post 413 and slide in logical groove, be provided with moving plate 421 in the flattening subassembly 42, fixedly connected with second connecting rod 422 on the moving plate 421, fixedly connected with briquetting 423 on the second connecting rod 422, the last through curve channel 424 of seting up of auxiliary chamber 301.

Example two

Please refer to fig. 1 to 5, 8 to 10:

the leveling device 4 is provided with primer auxiliary device 5 on one side, primer auxiliary device 5 one side is provided with dustproof protection subassembly 6, primer auxiliary device 5 comprises reciprocating subassembly 51, priming subassembly 52, be provided with first rotating wheel 511 in the reciprocating subassembly 51, be provided with belt 512 on the first rotating wheel 511 outer wall, the one end transmission that first rotating wheel 511 was kept away from to belt 512 is connected with second rotating wheel 513, fixedly connected with montant 514 on the second rotating wheel 513, the tooth that the second rotating wheel 513 outer wall was passed through the inner surface of reciprocating body 515 meshes with reciprocating body 515, be provided with out feed bin 521 in the priming subassembly 52, peg graft on the feed bin 521 and have conveyer pipe 522, conveyer pipe 522 is connected with the coating bin, fixedly connected with spring 523 on the inner chamber of ejection feed bin 521, the spring 523 below is provided with shutoff piece 524, one side fixedly connected with third connecting rod that the shutoff piece 524 kept away from spring 523, one end that the third connecting rod kept away from piece 524 is provided with rolling post 526, be provided with connecting plate 601 in the dustproof protection subassembly 6, connecting plate 601 keeps away from the one end of auxiliary chamber 301 is provided with air outlet bin 602, be provided with fan 602 in the air outlet bin 602.

Example III

Please refer to fig. 1 to 10:

the metal plate 2 is arranged on the conveying belt 1, the sliding blocks 3 are arranged on the side face of the conveying belt 1, a channel for installing the sliding blocks 3 is arranged on the conveying belt 1, the leveling device 4 is arranged above the conveying belt 1, the primer auxiliary device 5 is arranged on one side of the leveling device 4, the dustproof protection component 6 is arranged on one side of the primer auxiliary device 5, the auxiliary cavity 301 is arranged between two groups of sliding blocks 3, the leveling device 4 consists of a swinging component 41 and a flattening component 42, the primer auxiliary device 5 consists of a reciprocating component 51 and a priming smearing component 52, a rotating shaft 411 is arranged in the swinging component 41, a first connecting rod 412 is fixedly connected to the rotating shaft 411, a toggle column 413 is fixedly connected to one end, far away from the rotating shaft 411, of the first connecting rod 412, a fixed point 414 is fixedly connected to the inner cavity of the auxiliary cavity 301, a swinging body 415 is rotatably connected to the outer wall of the fixed point 414, a through groove is formed in the swinging body 415, a moving piece 421 is arranged in the flattening component 42, a second connecting rod 422 is fixedly connected to the second connecting rod 423, and a curve channel 424 is formed in the auxiliary cavity 301;

a first rotating wheel 511 is arranged in the reciprocating assembly 51, a belt 512 is arranged on the outer wall of the first rotating wheel 511, one end, far away from the first rotating wheel 511, of the belt 512 is in transmission connection with a second rotating wheel 513, a vertical rod 514 is fixedly connected to the second rotating wheel 513, the outer wall of the second rotating wheel 513 is meshed with the reciprocating body 515 through teeth on the inner surface of the reciprocating body 515, a discharging bin 521 is arranged in the bottoming smearing assembly 52, a conveying pipe 522 is inserted into the discharging bin 521, a spring 523 is fixedly connected to the inner cavity of the discharging bin 521, a blocking piece 524 is arranged below the spring 523, a third connecting rod 525 is fixedly connected to one surface, far away from the spring 523, of the blocking piece 524, and a rolling column 526 is arranged at one end, far away from the blocking piece 524, of the third connecting rod 525;

be provided with connecting plate 601 in the dustproof protection component 6, the one end that connecting plate 601 kept away from auxiliary chamber 301 is provided with air-out storehouse 602, is provided with the fan in the air-out storehouse 602.

Example IV

The process of the iron green printing production equipment for can making comprises the following steps of:

s1, cutting and sterilizing: cutting the raw materials into square iron sheets or iron sheets with concave-convex edges, and sterilizing and cleaning the iron sheets according to requirements after cutting (if the iron sheets are used for manufacturing food cans, the iron sheets need to be primarily cleaned and sterilized, and if the iron sheets are used for chemical barrels, the process is not needed);

s2, coating an upper bottom layer: coating a bottom layer on the cut material by a related device, and entering a printing line after finishing coating;

s3, printing: the printing is formed by arranging a plurality of printer heads, and because one head can only apply one layer of color and one pattern has a plurality of colors, the printing can be finished only by a plurality of printer heads for multi-channel superposition printing;

s4, spot check: a spot inspection platform is arranged between the heat treatment furnace and the printing line and is used for detecting the printing effect of the product;

s5, heat treatment: and after printing, connecting a heat treatment furnace, wherein the tops of the heat treatment furnaces are connected with waste gas treatment pipelines, and carrying out waste gas treatment through an RTO air purification system.

Wherein S2 can be subdivided into:

s2.1, leveling: during the movement, the second connecting rod 422 swings with the aid of the curved channel 424 and carries the pressing block 423, so that the lower metal plate 2 is leveled;

s2.2, smearing: the paint comes out of the discharge hole and is uniformly smeared on the metal plate 2 with the aid of the rolling column 526, so that the bottom layer of the metal plate 2 is smeared;

s2.3, entering a printing line for pretreatment: the fan in the air outlet bin 602 can protect the surface of the coating of the metal plate 2 through the air outlet holes formed in the air outlet bin 602, namely, a transparent air film can be formed on the metal plate 2, so that the bottom coating which is not completely solidified with film is prevented from being contacted with dust or other floaters in the air during transfer.

To ensure proper operation of the swing assembly 41, the required parts are:

411. a rotating shaft; 412. a first connecting rod; 413. stirring the column; 414. a fixed point; 415. and a swinging body.

The following is the operation of the swing assembly 41:

when in use, the rotating shaft 411 is driven by the internal motor to rotate and drive the first connecting rod 412 to rotate, the first connecting rod 412 slides back and forth in the through groove on the swinging body 415 through the toggle post 413 so as to enable the swinging body 415 to swing by taking the fixed point 414 as the axis, thereby providing power and guidance necessary for the movement of the flattening component 42;

the above operation is shown in fig. 6.

To ensure proper operation of the platen assembly 42, the required components are:

42. a flattening assembly; 421. a motion piece; 422. a second connecting rod; 423. briquetting; 424. and (5) a curve channel.

The following is the operation of the flattening assembly 42:

the swinging body 415 swings under the driving of the poking column 413, the second connecting rod 422 on the moving sheet 421 drives the pressing block 423 to move in the swinging process, and the second connecting rod 422 can swing with the pressing block 423 under the assistance of the curve channel 424 in the moving process, so that the metal plate 2 below is leveled;

the above working process is shown in fig. 4, 6 to 7.

To ensure proper operation of the reciprocating assembly 51, the required parts are:

511. a first rotating wheel; 512. a belt; 513. a second rotating wheel; 514. a vertical rod; 515. a reciprocating body.

The following is the operation of the reciprocating assembly 51:

the rotating shaft 411 provides power for the swinging component 41 and simultaneously provides power for the working of the reciprocating component 51 through the first rotating wheel 511, the first rotating wheel 511 driven by the rotating shaft 411 drives the second rotating wheel 513 to rotate through the belt 512, the rotating second rotating wheel 513 can drive the reciprocating body 515 to move through the teeth on the inner wall of the reciprocating body 515 through the plurality of vertical rods 514 arranged on the rotating second rotating wheel 513, and the vertical rods 514 drive the reciprocating body 515 to move leftwards for a certain distance and then do not contact the reciprocating body 515 until the vertical rods 514 touch the teeth on the other side of the inner wall of the reciprocating body 515, so that the rotating direction of the second rotating wheel 513 is unchanged, the vertical rods 514 can drive the reciprocating body 515 to move rightwards, and the reciprocating body 515 can reciprocate leftwards and rightwards under the driving of the vertical rods 514 through the driving of the second rotating wheel 513, so that power and guidance are necessary for the motion of the priming paint component 52 are provided;

the above working process is shown in fig. 2 to 3, fig. 6 and 8.

To ensure proper operation of the priming applicator assembly 52, the required parts are:

521. discharging the material bin; 522. a delivery tube; 523. a spring; 524. a blocking piece; 525. a third connecting rod; 526. rolling column.

The following is the operation of the priming applicator assembly 52:

when the metal plate 2 moves below the priming paint component 52 under the drive of the rollers on the conveyer belt 1, the rolling column 526 compresses the spring 523 through the third connecting rod 525 and the blocking piece 524 under the action of the thickness, namely the blocking piece 524 connected with the spring 523 moves upwards in the discharging bin 521 to remove the originally blocked discharging hole, and the paint comes out of the discharging hole and is uniformly painted on the metal plate 2 under the assistance of the rolling column 526, so that the priming paint of the metal plate 2 is realized;

the above operation is shown in fig. 1 and 9.

In order to ensure that the dust protection assembly 6 works normally, the required parts are:

601. a connecting plate; 602. and (5) an air outlet bin.

The following is the working procedure of the dust-proof protection component 6:

when the metal plate 2 is primed by the coating, the region where the dustproof protection component 6 is located is passed in the path transferred to the drying equipment, and at this time, the fan in the air outlet bin 602 protects the surface of the coating of the metal plate 2 through the air outlet hole formed in the air outlet bin 602, namely, a transparent air film can be formed on the metal plate 2, so that the bottom coating which is not completely solidified by film is prevented from contacting with dust or other floaters in the air during transfer.

The above operation is shown in fig. 5 and 10.

The total process is as follows: when in use, the metal plate 2 is placed on the conveyer belt 1, the rollers arranged on the conveyer belt 1 can drive the metal plate 2 to move, when passing through the lower part of the leveling device 4, the leveling component 42 driven by the swinging component 41 can level the metal plate 2 with wrinkles, so that the integrity of subsequent printing is ensured, meanwhile, the reciprocating component 51 can carry the priming paint component 52 to paint the bottom coating on the metal plate 2 under the driving of the rotating shaft 411 in the swinging component 41, and the priming paint can be protected by the dustproof protection component 6 before entering the drying equipment, so that dust or other floaters in the air are prevented from contacting with the bottom coating which is not completely solidified in the transferring process, the later printing effect is influenced, and the color change or the scratch of the printed surface pattern is caused.

To sum up:

the invention can level the original slightly wrinkled metal plate 2 through the flattening component 42, namely, the original leveling state is restored, thus, when the bottom layer is coated, the condition that the printed pattern is incomplete due to the fact that the wrinkled place is not leveled is avoided, the defect of the product is reduced to a certain extent, and the invention has great benefits for sales and company interests.

In the invention, the reciprocating body 515 can reciprocate left and right under the drive of the vertical rod 514 by the drive of the second rotating wheel 513, so that power and guidance are necessary for the movement of the priming paint assembly 52, besides, the reciprocating movement of the priming paint assembly 52 by the drive of the reciprocating assembly 51 can lead the priming paint of the metal plate 2 to be more uniform and comprehensive, and meanwhile, the flattening assembly 42 and the priming paint assembly 52 are continuous procedures, thus ensuring that the priming paint of the metal plate 2 is directly smeared after being flattened, and the advantage is that the integrity of the priming paint of the metal plate 2 can be ensured to the greatest extent.

According to the invention, the rotating shaft 411 drives the toggle post 413 to drive the swinging component 41 through the first connecting rod 412, and also provides power for the reciprocating component 51 with the aid of the first rotating wheel 511, so that one drive ensures the normal operation of two important components, and the power cost is saved and a strength is also contributed to energy conservation and environmental protection.

The known conveying belt 1 is provided with the channel for installing the sliding block 3, so that the whole device has the functions of convenient disassembly and transfer, the application range of the device is greatly enlarged, and the powerful guarantee is provided for the whole work.

In the invention, a fan in the air outlet bin 602 can protect the surface of the coating of the metal plate 2 through the air outlet holes formed in the air outlet bin 602, namely, a transparent air film can be formed on the metal plate 2, so that the bottom coating which is not completely solidified in a film mode is prevented from being contacted with dust or other floaters in the air during transferring, meanwhile, the coating is also air-dried to a certain extent through the air of the air outlet holes of the air outlet bin 602, the metal plate 2 just above the bottom coating is prevented from influencing the later printing effect under the influence of the dust or other floaters, and even the situation that the patterns on the printing surface are extremely easy to change color or scratch is caused.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a system jar printing iron green print production facility which characterized in that: the novel anti-dust device comprises a conveying belt (1), wherein a metal plate (2) is arranged on the conveying belt (1), a sliding block (3) is arranged on the side face of the conveying belt (1), a leveling device (4) is arranged above the conveying belt (1), a primer auxiliary device (5) is arranged on one side of the leveling device (4), and a dust-proof protection assembly (6) is arranged on one side of the primer auxiliary device (5); an auxiliary cavity (301) is arranged between the two groups of sliding blocks (3), the leveling device (4) is composed of a swinging component (41) and a flattening component (42), the primer auxiliary device (5) is composed of a reciprocating component (51) and a priming smearing component (52), a rotating shaft (411) is arranged in the swinging component (41), a first connecting rod (412) is fixedly connected to the rotating shaft (411), a stirring column (413) is fixedly connected to one end, far away from the rotating shaft (411), of the first connecting rod (412), a fixed point (414) is fixedly connected to the inner cavity of the auxiliary cavity (301), a swinging body (415) is rotationally connected to the outer wall of the fixed point (414), a moving piece (421) is arranged in the flattening component (42), a second connecting rod (422) is fixedly connected to the moving piece (421), a pressing block (423) is fixedly connected to the second connecting rod (422), a through curve channel (424) is formed in the auxiliary cavity (301), a first rotating wheel (511) is arranged in the reciprocating component (51), a second rotating wheel (511) is connected to the outer wall (511), the utility model discloses a quick-change type automatic priming paint device, including first rotating wheel (513), second rotating wheel (513), reciprocating body (515), conveyer pipe (522) are pegged graft on first rotating wheel (513), fixedly connected with montant (514) on second rotating wheel (513), the tooth of second rotating wheel (513) outer wall through reciprocating body (515) internal surface meshes with reciprocating body (515), be provided with feed bin (521) in priming paint subassembly (52), fixedly connected with spring (523) on feed bin (521) inner chamber, spring (523) below is provided with shutoff piece (524), one side fixedly connected with third connecting rod (525) that shutoff piece (524) were kept away from to shutoff piece (523), one end that shutoff piece (524) was kept away from to third connecting rod is provided with rolling column (526).

2. The can-making iron green printing production device according to claim 1, wherein: the dustproof protection assembly (6) is internally provided with a connecting plate (601), and one end, far away from the auxiliary cavity (301), of the connecting plate (601) is provided with an air outlet bin (602).

3. The can-making iron green printing production device according to claim 1, wherein: the conveying belt (1) is provided with a channel for sliding the sliding block (3).

4. The can-making iron green printing production device according to claim 1, wherein: the swinging body (415) is provided with a through groove.

5. A can-making iron green printing production apparatus as set forth in claim 2, wherein: a fan is arranged in the air outlet bin (602).

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