CN114872434A

CN114872434A - Negative pressure permeation process and equipment for plane printing

Info

Publication number: CN114872434A
Application number: CN202210477349.9A
Authority: CN
Inventors: 陈鹏权
Original assignee: Wuxi Pengda Technology Co ltd
Current assignee: Wuxi Pengda Technology Co ltd
Priority date: 2022-05-04
Filing date: 2022-05-04
Publication date: 2022-08-09
Anticipated expiration: 2042-05-04
Also published as: CN114872434B

Abstract

The invention discloses a negative pressure permeation process and equipment for plane printing, and belongs to the technical field of plane printing, wherein a processing box, a thermal transfer printing device, permeation equipment and conveying equipment are arranged, the processing box is placed on a horizontal plane, the thermal transfer printing device is arranged at the top of the processing box, the permeation equipment is arranged in the processing box and is positioned below the thermal transfer printing device, and the conveying equipment is fixedly arranged on the side wall of the processing box; according to the invention, the negative pressure is carried out on the bottom of the cloth by the permeation device while the heat transfer printing is carried out on the stained paper and the cloth by the heat transfer printing device, so that the permeation degree of the dye on the cloth is improved, and the dye on the cloth is more uniform.

Description

Negative pressure permeation process and equipment for plane printing

Technical Field

The invention relates to the technical field of plane printing, in particular to a negative pressure permeation process and equipment for plane printing.

Background

The heat transfer machine is a general name of machines used in the heat transfer technology, the heat transfer machine comprises a plane pyrograph machine, a high-pressure pyrograph machine, a shaking pyrograph machine, a cup baking machine, a baking tray machine, a cap baking machine and other heat transfer machines, the range of printing can be wide, the heat transfer machine comprises both plane pyrograph and curved pyrograph such as cups, plates and caps, the heat transfer is a new technology, the heat transfer machine just enters the right track, and the heat transfer machine is widely applied to printing on the surface of clothes along with the continuous development of scientific technology.

However, the existing thermal printing has the following problems: when the existing thermal printing is used for hot-pressing a pattern onto cloth, the printed and dyed pattern on the cloth has incomplete phenomena and the like due to low permeability of dye, and the attractiveness of the cloth pattern is directly influenced.

Disclosure of Invention

The embodiment of the invention provides a negative pressure permeation process for plane printing and equipment thereof, which aim to solve the technical problems.

The embodiment of the invention adopts the following technical scheme: a negative pressure infiltration process for plane printing comprises the following infiltration process steps:

the first step is as follows: an operator places the cloth on the plurality of conveying rollers, then the conveying motor drives the driving disc to rotate, the driving disc rotates to drive the driving belt to enable the two rotating discs and the plurality of conveying rollers to rotate, and the cloth can be moved onto the placing plate through the plurality of conveying rollers, so that the cloth feeding operation is completed;

the second step is that: when the cloth is moved to the placing plate, the stained paper is moved to the position above the cloth by the conveying belt, then the pattern on the stained paper is printed on the cloth by the thermal transfer printing equipment, when the thermal transfer printing equipment works, the dye on the cloth is subjected to negative pressure by the penetrating equipment through the through holes below the placing plate, so that the degree of penetration of the dye on the cloth is improved, and after the transfer printing is finished, the cloth can be moved out by the conveying belts on the two sides of the placing plate to finish the work;

the third step: when the pattern on the stained paper needs to be transferred to the cloth, the electric cylinder is driven to drive the heating plate to move and press downwards, and the dye on the stained paper is hot-pressed on the cloth to complete the heat transfer printing work;

the fourth step: when the heat transfer printing equipment is used for hot-pressing the pattern on the stained paper onto the cloth, the driving motor drives the screw rod to rotate, the screw rod rotates to drive the movable plate to move, the movable plate moves to drive the clamping rods on the two groups of movable members to move, the clamping rods move to drive the adjusting block to move on the sliding groove, the groove on the adjusting block can be abutted against the clamping block on the side wall of the processing box in the moving process, so that the adjusting block is overturned in the moving process, the adjusting block overturns to drive the clamping rods to rotate, the clamping rods rotate to drive the air suction pipe to rotate, the air suction pipe rotates to enable the plurality of suction nozzles facing downwards to be upwards arranged and to be contacted with the bottom of the placing plate, when the heat transfer printing equipment is used for heat transfer printing of the stained paper and the cloth, negative pressure is applied to the bottom of the cloth, the dye in the hot-pressing process is absorbed onto the cloth, so that the permeation degree of the dye on the cloth is improved, after the heat transfer printing is completed, the suction nozzle of the air suction pipe is downwards contacted with the bottom plate, so that dust can be effectively prevented from entering the suction nozzle and influencing the normal processing operation of the suction nozzle.

Further, including processing case, heat-transfer seal equipment, infiltration equipment and conveying equipment, the processing case is placed on the horizontal plane, heat-transfer seal equipment sets up the top at the processing case, infiltration equipment sets up in the processing case and is located heat-transfer seal equipment's below, conveying equipment is fixed to be set up on the lateral wall of processing case.

Further, heat-transfer seal equipment is including installation shell, driving electric jar and hot plate, the fixed top that sets up at the processing case of installation shell, driving electric jar sets up at the interior top of installation shell, the hot plate setting is served and is installed shell sliding fit at the flexible of driving electric jar.

Further, the infiltration equipment includes driving motor, lead screw, movable plate, bottom plate, breathing pipe and two sets of moving member, driving motor sets up on the inside wall of processing case, the lead screw sets up on driving motor's main shaft and cooperates with driving motor's spindle drive, the movable plate sets up on the inside wall of processing case and with the inside wall sliding fit of processing case, movable plate and lead screw thread fit, the bottom plate is fixed to be set up at the interior bottom of processing case, and is two sets of the moving member symmetry sets up on the inside wall of processing case and with the inside wall sliding fit of processing case, the breathing pipe is connected with two sets of moving member, still be equipped with a plurality of suction nozzles on the breathing pipe.

Further, it is two sets of the moving member all includes kelly and regulating block, the kelly rotates and sets up on the movable plate, regulating block and kelly fixed connection, the inside wall of processing case be equipped with regulating block sliding fit's sliding tray, the regulating block set up on the inside wall of processing case and with the sliding tray sliding fit of processing incasement wall, be equipped with three recess on the regulating block, be equipped with the fixture block that offsets with three recess on the inside wall of processing case, the both ends of breathing pipe are connected with the kelly on two sets of moving members.

Furthermore, the top of processing case still is equipped with places the board, it is equipped with a plurality of through-holes on the board to place, it is located between heat-transfer seal equipment and the infiltration equipment to place the board, the both sides of placing the board still are equipped with two sets of conveyer belts, and are two sets of the conveyer belt symmetry sets up on the processing case, still be equipped with the conveyer belt on the lateral wall of processing case.

Further, conveying equipment is including installation curb plate, conveyor motor, driving-disc, drive belt, two rolling discs, a plurality of driving disc and a plurality of conveying roller, the installation curb plate is fixed to be set up on the lateral wall of processing case, conveyor motor sets up on the lateral wall of installation curb plate, the driving-disc setting on conveyor motor's main shaft and with conveyor motor's main shaft transmission cooperation, two the rolling disc rotates and sets up on the installation curb plate, a plurality of driving discs equidistant rotation sets up on the installation lateral wall, a plurality of conveying rollers are connected with a plurality of driving discs respectively and with installation curb plate normal running fit, drive belt cover is established on driving-disc, two rolling discs and a plurality of driving discs.

The embodiment of the invention adopts at least one technical scheme which can achieve the following beneficial effects:

firstly, the negative pressure is carried out on the bottom of the cloth by the permeation device while the heat transfer printing is carried out on the stained paper and the cloth by the heat transfer printing device, so that the permeation degree of the dye on the cloth is improved, and the dye on the cloth is more uniform.

Secondly, when the pattern on the stained paper needs to be transferred to the cloth, the heating plate is driven to move and press downwards by driving the electric cylinder, and the dye on the stained paper is hot-pressed on the cloth to complete the heat transfer printing work.

Thirdly, when the heat transfer printing equipment carries out heat transfer printing on the pattern on the stained paper to the cloth, the driving motor drives the screw rod to rotate, the screw rod rotates to drive the moving plate to move, the moving plate moves to drive the clamping rods on the two moving parts to move, the clamping rods move to drive the adjusting block to move on the sliding groove, the groove on the adjusting block can be abutted against the clamping block on the side wall of the processing box in the moving process, so that the adjusting block is overturned in the moving process, the adjusting block can drive the clamping rods to rotate when overturning, the clamping rods can drive the air suction pipe to rotate, the air suction pipe can drive a plurality of suction nozzles facing downwards to be upwards arranged by rotating, and the suction nozzles are contacted with the bottom of the placing plate, so that when the heat transfer printing equipment carries out heat transfer printing on the stained paper and the cloth, negative pressure is carried out on the dye in the heat pressing process, and the dye is attached and sucked onto the cloth, thereby improving the permeation degree of the dye on the cloth, after the cloth transfer printing is finished, the suction nozzle of the air suction pipe can be downwards contacted with the bottom plate, so that dust can be effectively prevented from entering the suction nozzle and influencing the normal processing operation of the suction nozzle.

Fourthly, when the cloth moved to and placed on the board, the conveyer belt moved the stained paper to the top of cloth, later through the pattern seal on the thermal transfer printing equipment with the stained paper on the cloth, when thermal transfer printing equipment carried out work, infiltration equipment then carried out the negative pressure through placing a plurality of through-holes of board below to the dyestuff on the cloth to improve the degree that the dyestuff permeates on the cloth, the conveyer belt of board both sides was placed to the accessible after accomplishing the rendition shifts out the cloth, accomplishes work.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic perspective view of the present invention;

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

FIG. 3 is a partial perspective sectional view of a thermal transfer apparatus of the present invention;

FIG. 4 is a partial perspective sectional view of the present invention;

FIG. 5 is a schematic perspective view of the permeation device of the present invention;

fig. 6 is a schematic perspective view of the conveying apparatus of the present invention.

Reference numerals

The processing box 1, the sliding groove 11, the fixture block 12, the thermal transfer device 2, the mounting shell 21, the driving electric cylinder 22, the heating plate 23, the penetrating device 3, the driving motor 31, the screw rod 32, the moving plate 33, the bottom plate 34, the air suction pipe 35, the suction nozzle 351, the moving member 36, the clamping rod 361, the adjusting block 362, the groove 363, the placing plate 4, the through hole 41, the conveying belt 42, the conveying belt 5, the conveying device 6, the mounting side plate 61, the conveying motor 62, the driving disc 63, the driving belt 64, the rotating disc 65, the driving disc 66 and the conveying roller 67.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. It is to be understood that the disclosed embodiments are merely exemplary of the invention, and are not intended to be exhaustive or exhaustive. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The technical solutions provided by the embodiments of the present invention are described in detail below with reference to the accompanying drawings.

Referring to fig. 1 to 6, an embodiment of the present invention provides a negative pressure infiltration process for flat printing, including the following infiltration process steps:

the first step is as follows: an operator places the cloth on the plurality of conveying rollers 67, then the conveying motor 62 drives the driving disc 63 to rotate, the driving disc 63 rotates to drive the driving belt 64 to enable the two rotating discs 65 and the plurality of conveying rollers 67 to rotate, and the cloth can be moved onto the placing plate 4 through the plurality of conveying rollers 67, so that the cloth feeding operation is completed;

the second step is that: when the cloth is moved to the placing plate 4, the transfer belt 5 transfers the stained paper to the upper part of the cloth, then the pattern on the stained paper is printed on the cloth through the thermal transfer printing equipment 2, when the thermal transfer printing equipment 2 works, the penetrating equipment 3 performs negative pressure on the dye on the cloth through the through holes 41 below the placing plate 4, so that the penetrating degree of the dye on the cloth is improved, and after the transfer printing is finished, the cloth can be moved out through the transfer belts 42 at the two sides of the placing plate 4, so that the work is finished;

the third step: when the pattern on the stained paper needs to be transferred to the cloth, the electric cylinder 22 is driven to drive the heating plate 23 to move and press downwards, and the dye on the stained paper is hot-pressed on the cloth to complete the heat transfer printing work;

the fourth step: when the thermal transfer device 2 thermally transfers the pattern on the stained paper to the cloth, the driving motor 31 drives the screw rod 32 to rotate, the screw rod 32 drives the moving plate 33 to move, the moving plate 33 drives the clamping rods 361 on the two moving members 36 to move, the clamping rods 361 move to enable the adjusting block 362 to move on the sliding groove 11, the groove 363 on the adjusting block 362 is abutted against the clamping block 12 on the side wall of the processing box 1 in the moving process, so that the adjusting block 362 is turned over in the moving process, the adjusting block 362 is turned over to drive the clamping rods 361 to rotate, the clamping rods 361 rotate to drive the air suction pipe 35 to rotate, the air suction pipe 35 rotates to enable the plurality of suction nozzles 351 facing downwards to be arranged upwards and contacted with the bottom of the placing plate 4, so that when the thermal transfer device 2 thermally transfers the stained paper and the cloth, negative pressure is applied to the bottom of the cloth, dyes in the thermal transfer process are sucked to the cloth, thereby improved the infiltration degree of dyestuff on the cloth, after accomplishing the cloth rendition, the accessible contacts bottom plate 34 with the suction nozzle 351 of breathing pipe 35 down, can effectually prevent that the dust from entering into suction nozzle 351, influencing the normal processing operation of suction nozzle 351.

Preferably, the processing box comprises a processing box 1, a thermal transfer printing device 2, a penetrating device 3 and a conveying device 6, wherein the processing box 1 is placed on a horizontal plane, the thermal transfer printing device 2 is arranged at the top of the processing box 1, the penetrating device 3 is arranged in the processing box 1 and is positioned below the thermal transfer printing device 2, and the conveying device 6 is fixedly arranged on the side wall of the processing box 1; according to the invention, the heat transfer printing is carried out on the stained paper and the cloth through the heat transfer printing equipment 2, and the negative pressure is carried out on the bottom of the cloth through the penetrating equipment 3, so that the penetrating degree of the dye on the cloth is improved, and the dye on the cloth is more uniform.

Preferably, the thermal transfer printing device 2 comprises a mounting shell 21, an electric driving cylinder 22 and a heating plate 23, wherein the mounting shell 21 is fixedly arranged at the top of the processing box 1, the electric driving cylinder 22 is arranged at the inner top of the mounting shell 21, and the heating plate 23 is arranged at the telescopic end of the electric driving cylinder 22 and is in sliding fit with the mounting shell 21; when the pattern on the stained paper needs to be transferred to the cloth, the electric cylinder 22 is driven to drive the heating plate 23 to move and press down, and the dye on the stained paper is hot-pressed on the cloth to complete the heat transfer printing work.

Preferably, the infiltration device 3 includes a driving motor 31, a screw rod 32, a moving plate 33, a bottom plate 34, an air suction pipe 35 and two sets of moving members 36, the driving motor 31 is disposed on the inner side wall of the processing box 1, the screw rod 32 is disposed on a main shaft of the driving motor 31 and is in transmission fit with the main shaft of the driving motor 31, the moving plate 33 is disposed on the inner side wall of the processing box 1 and is in sliding fit with the inner side wall of the processing box 1, the moving plate 33 is in threaded fit with the screw rod 32, the bottom plate 34 is fixedly disposed at the inner bottom of the processing box 1, the two sets of moving members 36 are symmetrically disposed on the inner side wall of the processing box 1 and are in sliding fit with the inner side wall of the processing box 1, the air suction pipe 35 is connected with the two sets of moving members 36, and the air suction pipe 35 is further provided with a plurality of suction nozzles 351; when the thermal transfer device 2 thermally transfers the pattern on the stained paper to the cloth, the driving motor 31 drives the screw rod 32 to rotate, the screw rod 32 drives the moving plate 33 to move, the moving plate 33 drives the clamping rods 361 on the two moving members 36 to move, the clamping rods 361 move to enable the adjusting block 362 to move on the sliding groove 11, the groove 363 on the adjusting block 362 is abutted against the clamping block 12 on the side wall of the processing box 1 in the moving process, so that the adjusting block 362 is turned over in the moving process, the adjusting block 362 is turned over to drive the clamping rods 361 to rotate, the clamping rods 361 rotate to drive the air suction pipe 35 to rotate, the air suction pipe 35 rotates to enable the plurality of suction nozzles 351 facing downwards to be arranged upwards and contacted with the bottom of the placing plate 4, so that when the thermal transfer device 2 thermally transfers the stained paper and the cloth, negative pressure is applied to the bottom of the cloth, dyes in the thermal transfer process are sucked to the cloth, thereby improved the infiltration degree of dyestuff on the cloth, after accomplishing the cloth rendition, the accessible contacts bottom plate 34 with the suction nozzle 351 of breathing pipe 35 down, can effectually prevent that the dust from entering into suction nozzle 351, influencing the normal processing operation of suction nozzle 351.

Preferably, the two sets of moving members 36 each include a clamping rod 361 and an adjusting block 362, the clamping rod 361 is rotatably disposed on the moving plate 33, the adjusting block 362 is fixedly connected with the clamping rod 361, the inner sidewall of the processing box 1 is provided with a sliding groove 11 in sliding fit with the adjusting block 362, the adjusting block 362 is disposed on the inner sidewall of the processing box 1 and in sliding fit with the sliding groove 11 on the inner sidewall of the processing box 1, the adjusting block 362 is provided with three grooves 363, the inner sidewall of the processing box 1 is provided with clamping blocks 12 abutting against the three grooves 363, two ends of the air suction pipe 35 are connected with the clamping rods 361 on the two sets of moving members 36, the top of the processing box 1 is further provided with a placing plate 4, the placing plate 4 is provided with a plurality of through holes 41, the placing plate 4 is located between the thermal transfer device 2 and the permeation device 3, two sides of the placing plate 4 are further provided with two sets of conveying belts 42, the two groups of conveying belts 42 are symmetrically arranged on the processing box 1, and the outer side wall of the processing box 1 is also provided with a conveying belt 5; when the cloth moves to placing board 4 on, conveyer belt 5 moves the stained paper to the top of cloth, later through the pattern seal on the stained paper of heat transfer printing equipment 2 on the cloth, when heat transfer printing equipment 2 worked, infiltration equipment 3 then carried out the negative pressure through placing a plurality of through-holes 41 of board 4 below to the dyestuff on the cloth to improve the degree that the dyestuff permeates on the cloth, accessible place the conveyer belt 42 of board 4 both sides and shift out the cloth after accomplishing the rendition, accomplished work.

Preferably, the conveying device 6 includes a mounting side plate 61, a conveying motor 62, a driving plate 63, a driving belt 64, two rotating plates 65, a plurality of transmission plates 66 and a plurality of conveying rollers 67, the mounting side plate 61 is fixedly arranged on the outer side wall of the processing box 1, the conveying motor 62 is arranged on the side wall of the mounting side plate 61, the driving plate 63 is arranged on a main shaft of the conveying motor 62 and is in transmission fit with the main shaft of the conveying motor 62, the two rotating plates 65 are rotatably arranged on the mounting side plate 61, the plurality of transmission plates 66 are rotatably arranged on the mounting side wall at equal intervals, the plurality of conveying rollers 67 are respectively connected with the plurality of transmission plates 66 and are in rotation fit with the mounting side plate 61, and the driving belt 64 is sleeved on the driving plate 63, the two rotating plates 65 and the plurality of transmission plates 66; the operator places the cloth on a plurality of conveying rollers 67, and conveying motor 62 drives driving-disc 63 to rotate afterwards, and driving-disc 63 rotates and drives driving belt 64 and makes two rotating discs 65 and a plurality of conveying rollers 67 rotate, can move the cloth to placing board 4 through a plurality of conveying rollers 67 to accomplish cloth material loading operation.

The above description is only an example of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims

1. A negative pressure infiltration process for plane printing is characterized by comprising the following infiltration process steps:

the first step is as follows: an operator places the cloth on a plurality of conveying rollers (67), then a conveying motor (62) drives a driving disc (63) to rotate, the driving disc (63) rotates to drive a driving belt (64) to enable two rotating discs (65) and the plurality of conveying rollers (67) to rotate, and the cloth can be moved onto a placing plate (4) through the plurality of conveying rollers (67), so that cloth feeding operation is completed;

the second step is that: when the cloth is moved to the placing plate (4), the stained paper is moved to the position above the cloth by the conveying belt (5), then the pattern on the stained paper is printed on the cloth by the thermal transfer printing equipment (2), when the thermal transfer printing equipment (2) works, the dye on the cloth is subjected to negative pressure by the penetrating equipment (3) through the through holes (41) below the placing plate (4), so that the penetrating degree of the dye on the cloth is improved, and after the transfer printing is finished, the cloth can be moved out by the conveying belts (42) on the two sides of the placing plate (4) to finish the work;

the third step: when the pattern on the stained paper needs to be transferred to the cloth, the electric cylinder (22) is driven to drive the heating plate (23) to move and press downwards, and the dye on the stained paper is hot-pressed on the cloth to complete the thermal transfer printing work;

the fourth step: when the heat transfer printing equipment (2) carries out heat transfer printing on patterns on stained paper to cloth, a driving motor (31) drives a screw rod (32) to rotate, the screw rod (32) rotates to drive a moving plate (33) to move, the moving plate (33) moves to drive clamping rods (361) on two groups of moving members (36) to move, the clamping rods (361) move to enable an adjusting block (362) to move on a sliding groove (11), a groove (363) on the adjusting block (362) can be abutted against clamping blocks (12) on the side wall of a processing box (1) in the moving process, so that the adjusting block (362) is overturned in the moving process, the adjusting block (362) overturns to drive the clamping rods (361) to rotate, the clamping rods (361) can drive an air suction pipe (35) to rotate, the air suction pipe (35) can enable a plurality of suction nozzles (351) facing downwards to be upwards arranged to be contacted with the bottom of a placing plate (4) when the heat transfer printing equipment (2) carries out heat transfer printing on the cloth, negative pressure is carried out to the bottom of cloth, on the dyestuff of hot pressing in-process adsorbs to the cloth to improved the infiltration degree of dyestuff on the cloth, after accomplishing the cloth rendition, the accessible contacts suction nozzle (351) of breathing pipe (35) with bottom plate (34) down, can effectually prevent that the dust from entering into suction nozzle (351), influences the normal processing operation of suction nozzle (351).

2. An apparatus for negative pressure infiltration process for flat printing as claimed in claim 1, characterized by comprising a processing box (1), a thermal transfer device (2), an infiltration device (3) and a conveying device (6), wherein the processing box (1) is placed on a horizontal plane, the thermal transfer device (2) is arranged on the top of the processing box (1), the infiltration device (3) is arranged in the processing box (1) and below the thermal transfer device (2), and the conveying device (6) is fixedly arranged on the side wall of the processing box (1).

3. The negative pressure infiltration apparatus for plane printing according to claim 2, characterized in that the thermal transfer apparatus (2) comprises a mounting housing (21), an electric driving cylinder (22) and a heating plate (23), the mounting housing (21) is fixedly arranged on the top of the processing box (1), the electric driving cylinder (22) is arranged on the inner top of the mounting housing (21), and the heating plate (23) is arranged on the telescopic end of the electric driving cylinder (22) and is in sliding fit with the mounting housing (21).

4. The negative pressure infiltration device for plane printing according to claim 2, wherein the infiltration device (3) comprises a driving motor (31), a screw rod (32), a moving plate (33), a bottom plate (34), an air suction pipe (35) and two sets of moving members (36), the driving motor (31) is arranged on the inner side wall of the processing box (1), the screw rod (32) is arranged on the main shaft of the driving motor (31) and is in transmission fit with the main shaft of the driving motor (31), the moving plate (33) is arranged on the inner side wall of the processing box (1) and is in sliding fit with the inner side wall of the processing box (1), the moving plate (33) is in threaded fit with the screw rod (32), the bottom plate (34) is fixedly arranged at the inner bottom of the processing box (1), and the two sets of moving members (36) are symmetrically arranged on the inner side wall of the processing box (1) and are in sliding fit with the inner side wall of the processing box (1), the air suction pipe (35) is connected with the two groups of moving parts (36), and a plurality of suction nozzles (351) are further arranged on the air suction pipe (35).

5. The negative pressure infiltration apparatus for plane printing according to claim 4, characterized in that, the two sets of moving parts (36) each comprise a jamming rod (361) and a regulating block (362), the clamping rod (361) is rotationally arranged on the moving plate (33), the adjusting block (362) is fixedly connected with the clamping rod (361), the inner side wall of the processing box (1) is provided with a sliding groove (11) which is in sliding fit with the adjusting block (362), the adjusting block (362) is arranged on the inner side wall of the processing box (1) and is in sliding fit with the sliding groove (11) on the inner side wall of the processing box (1), three grooves (363) are arranged on the adjusting block (362), a clamping block (12) which is abutted against the three grooves (363) is arranged on the inner side wall of the processing box (1), and two ends of the air suction pipe (35) are connected with clamping rods (361) on the two groups of moving parts (36).

6. The negative pressure infiltration device for plane printing according to claim 2 is characterized in that a placing plate (4) is further arranged on the top of the processing box (1), a plurality of through holes (41) are formed in the placing plate (4), the placing plate (4) is located between the thermal transfer printing device (2) and the infiltration device (3), two groups of conveying belts (42) are further arranged on two sides of the placing plate (4), the two groups of conveying belts (42) are symmetrically arranged on the processing box (1), and a conveying belt (5) is further arranged on the outer side wall of the processing box (1).

7. The negative pressure infiltration device for plane printing according to claim 2, wherein the conveying device (6) comprises a mounting side plate (61), a conveying motor (62), a driving plate (63), a driving belt (64), two rotating discs (65), a plurality of driving discs (66) and a plurality of conveying rollers (67), the mounting side plate (61) is fixedly arranged on the outer side wall of the processing box (1), the conveying motor (62) is arranged on the side wall of the mounting side plate (61), the driving plate (63) is arranged on the main shaft of the conveying motor (62) and is in transmission fit with the main shaft of the conveying motor (62), the two rotating discs (65) are rotatably arranged on the mounting side plate (61), the plurality of driving discs (66) are rotatably arranged on the mounting side wall at equal intervals, the plurality of conveying rollers (67) are respectively connected with the plurality of driving discs (66) and are rotatably fit with the mounting side plate (61), the driving belt (64) is sleeved on the driving disc (63), the two rotating discs (65) and the plurality of transmission discs (66).