CN109551867B

CN109551867B - Textile printing process

Info

Publication number: CN109551867B
Application number: CN201811349991.9A
Authority: CN
Inventors: 不公告发明人
Original assignee: Shanghai Yongzi Fashion Co ltd
Current assignee: SHANGHAI YONGZI FASHION Co.,Ltd.
Priority date: 2018-11-14
Filing date: 2018-11-14
Publication date: 2020-11-20
Anticipated expiration: 2038-11-14
Also published as: CN109551867A

Abstract

The invention relates to the field of textile printing, in particular to a textile printing process, which comprises the steps of firstly feeding one end of a textile fabric into printing equipment, carrying out printing operation on the textile fabric by the printing equipment, printing the fabric to finish printing of different patterns, guiding the fabric conveyed out by the printing equipment to an airing mechanism, carrying out airing treatment at the airing mechanism, and drying by utilizing hot air while airing; in the airing process, hot air is used for rapid drying, the drying speed is increased, the long-time irradiation of sunlight is avoided, the color of the textile cloth is changed, and the dried textile cloth is rolled; can realize rapid draing for weaving cloth production efficiency reduces among the drying process sunshine and shines the damage that brings weaving cloth for a long time.

Description

Textile printing process

Technical Field

The invention relates to the field of textile printing, in particular to a textile printing process.

Background

The printing process is a process of printing patterns on the textile by using dyes or pigments. The printing is divided into textile printing, wool top printing and yarn printing, and the textile printing is mainly used. The wool top printing is used for manufacturing the mixed-color tweed; the yarn printing is used for weaving special style colored pattern fabrics. The printing history of fabrics is long.

In the process of using the textile printing equipment, the height of the printing cylinder is not adjusted in a closed mode, and the textile fabrics are different in thickness, so that a certain gap exists between the textile fabrics and the printing cylinder, the printed patterns on the surfaces of the textile fabrics are shallow, and the use of the textile fabrics is influenced. In view of the above, the invention provides a textile printing process, which has the following characteristics:

(1) the textile printing process comprises the steps of firstly feeding one end of a textile fabric into printing equipment, carrying out printing operation on the textile fabric by the printing equipment, printing the fabric to finish printing of different patterns, guiding the fabric conveyed out by the printing equipment to an airing mechanism, carrying out airing treatment at the airing mechanism, and drying by utilizing hot air while airing; in the airing process, hot air is used for rapid drying, the drying speed is increased, the long-time irradiation of sunlight is avoided, the color of the textile cloth is changed, and the dried textile cloth is rolled; can realize rapid draing for weaving cloth production efficiency reduces among the drying process sunshine and shines the damage that brings weaving cloth for a long time.

(2) The textile printing process uses printing equipment, the top end of a support table is rotatably connected with a printing mechanism and a support mechanism, the top end of the support mechanism is abutted against the bottom end of the printing mechanism, when textile fabrics slide between the printing mechanism and the support mechanism, the printing mechanism rotates, air is sucked into the printing mechanism, the textile fabrics are sucked on the side wall of the bottom end of the printing mechanism, a lifting mechanism is arranged at the bottom end of the support frame mechanism, the lifting mechanism drives the support mechanism to move, the support mechanism upwards extrudes the textile fabrics, and therefore the textile fabrics are tightly attached to the side wall of the bottom end of the printing mechanism, and the textile fabrics are printed to have proper thickness along with the rotation of the printing mechanism, so that people can use the textile printing process conveniently.

(3) The textile printing process uses printing equipment, one end of a supporting mechanism is provided with a fixing mechanism, one end of the supporting mechanism is provided with a sliding mechanism, the sliding mechanism is connected with the inside of a supporting table in a sliding mode, the fixing mechanism is pressed downwards to drive one end of the supporting mechanism to descend, the other end of the supporting mechanism descends along with the sliding mechanism, the sliding mechanism is fixed inside the supporting table and moves linearly inside the supporting table, so that the supporting mechanism descends vertically, the distance between the supporting mechanism and the printing mechanism is increased, and textile fabrics are placed between the supporting mechanism and the printing mechanism conveniently.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a textile printing process which can effectively improve the problems that in the textile cloth production process, the time consumption is long, the airing time is long, and the damage is easily caused by long sunshine irradiation time.

The technical scheme adopted by the invention for solving the technical problems is as follows: a textile printing process, comprising the steps of:

s1, one end of the textile cloth is sent into a printing device, and the printing device prints the textile cloth;

s2, guiding the cloth conveyed by the printing equipment to a drying mechanism, drying the cloth in the drying mechanism, and drying the cloth by hot air while drying the cloth;

s3, rolling the textile cloth dried in the S2;

the printing equipment adopted by the process comprises a fixing frame, a supporting table, a printing mechanism, an airing mechanism, a fixing mechanism, a supporting mechanism, a lifting mechanism, a sliding mechanism and a limiting mechanism; one end of the supporting platform is symmetrically and obliquely provided with the fixing frame with the Y-shaped side wall, and the other end of the supporting platform is provided with the airing mechanism; the top surface of the supporting table is rotationally connected with the printing mechanism, and the interior of the printing mechanism is connected with the supporting mechanism in a sliding manner; the lifting mechanisms are symmetrically arranged in the supporting platform and are rotatably connected with two ends of the supporting mechanism; the inner part of one end of the supporting mechanism is connected with the fixing mechanism in a sliding manner, and the fixing mechanism is clamped with the side wall of the supporting table; the other end of the supporting mechanism is provided with the sliding mechanism, and the sliding mechanism is connected with the inside of the supporting table in a sliding manner; the limiting mechanism is arranged inside the supporting table and is connected with the side wall of the sliding mechanism in a sliding mode.

Specifically, sunning mechanism includes conveying pole and support frame, the lateral wall installation of brace table the support frame, just the top equidistance of support frame is rotated and is connected the conveying pole.

Specifically, the printing mechanism comprises a motor, a guard plate, a printing cylinder, an inner cylinder, an air suction hole, a connecting pipe and a suction fan, wherein the side wall of the supporting table is fixedly connected with the motor, and the guard plate is installed on the side wall of the top end of the supporting table; the side wall of the top end of the supporting table is rotatably connected with the printing cylinder and the inner cylinder, the inner cylinder is fixedly connected with the inner side wall of the printing cylinder, one end of the inner cylinder is rotatably connected with the motor, and the bottommost end of the printing cylinder is flush with the topmost end of the conveying rod; the inside fixed connection of brace table the suction fan, the both ends of connecting pipe communicate respectively the suction fan with hollow inner tube, just the inner tube with the lateral wall equidistance of printing section of thick bamboo is equipped with the sectional area and is the infundibulate suction hole.

Specifically, the supporting mechanism comprises a rotating shaft and a supporting cylinder, the supporting table is connected with the rotating shaft in a rotating mode, the supporting cylinder is connected with the rotating shaft in a rotating mode, and the supporting cylinder is connected with the rotating shaft in a rotating mode.

Specifically, the lifting mechanism comprises a supporting plate, a spring, a first lifting rod, a second lifting rod and a fixed sleeve, two ends of the rotating shaft are respectively rotatably connected with the fixed sleeve, and the bottom end of the fixed sleeve is fixedly connected with the second lifting rod; the supporting plates are symmetrically arranged at two ends inside the supporting table, the top surface of each supporting plate is fixedly connected with the corresponding first lifting rod, and the inside of each first lifting rod is slidably connected with the corresponding second lifting rod with the T-shaped side wall; the spring is installed inside the first lifting rod, and the top end of the spring is connected with the bottom end of the second lifting rod.

Specifically, the fixing mechanism comprises a sliding chute, a clamping groove, a connecting block and a fixing rod, the sliding chute is arranged on the side wall of the supporting table, the clamping groove is symmetrically arranged at the bottom end of the sliding chute, the I-shaped fixing rod is connected to the inside of one end of the rotating shaft in a sliding mode, and the fixing rod is connected to the inside of the sliding chute in a sliding mode; one end of the fixed rod is fixedly connected with the cross-shaped connecting block, and the connecting block is clamped with the clamping groove.

Specifically, the sliding mechanism comprises a groove, a placing groove, steel balls, connecting frames and connecting rods, the connecting rods are rotatably connected with the inside of the other end of the rotating shaft, the connecting frames with L-shaped side walls are symmetrically arranged on the side walls of the connecting rods, and the steel balls are rotatably connected between the two connecting frames; the support table is characterized in that the groove with the arc-shaped side wall and the L-shaped placing groove with the L-shaped side wall are arranged in the support table, two ends of the groove are respectively communicated with the placing grooves, the inside of the groove is in sliding connection with the steel balls, and the inside of the placing groove is in sliding connection with the connecting frame.

Specifically, the limiting mechanism comprises a convex block and a limiting plate, the limiting plate with a concave cross section is arranged inside the supporting table, one end of the limiting plate is connected with the steel balls in a rolling mode, the hemispherical convex blocks are arranged at the other end of the limiting plate at equal intervals, and the convex blocks abut against the connecting rod; the side wall of the limiting plate is connected with the connecting frame in a sliding mode.

The invention has the beneficial effects that:

Drawings

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

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

FIG. 2 is a schematic view of the internal structure of the printing mechanism shown in FIG. 1;

FIG. 3 is a cross-sectional view of the inner structure of one end of the rotating shaft shown in FIG. 2;

fig. 4 is an exploded view of the other end of the rotating shaft shown in fig. 2.

In the figure: 1. the printing machine comprises a fixed frame, 2, a supporting table, 3, a printing mechanism, 31, a motor, 32, a protective plate, 33, a printing cylinder, 34, an inner cylinder, 35, an air suction hole, 36, a connecting pipe, 37, a suction fan, 4, an airing mechanism, 41, a conveying rod, 42, a supporting frame, 5, a fixing mechanism, 51, a sliding groove, 52, a clamping groove, 53, a connecting block, 54, a fixing rod, 6, a supporting mechanism, 61, a rotating shaft, 62, a supporting cylinder, 7, a lifting mechanism, 71, a supporting plate, 72, a spring, 73, a first lifting rod, 74, a second lifting rod, 75, a fixing sleeve, 8, a sliding mechanism, 81, a groove, 82, a placing groove, 83, a steel ball, 84, a connecting frame, 85, a connecting rod, 9, a limiting mechanism, 91, a bump, 92 and.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-4, the textile printing process of the present invention comprises the following steps:

s3, rolling the textile cloth dried in the S2;

the printing equipment adopted by the process comprises a fixed frame 1, a supporting table 2, a printing mechanism 3, an airing mechanism 4, a fixing mechanism 5, a supporting mechanism 6, a lifting mechanism 7, a sliding mechanism 8 and a limiting mechanism 9; one end of the support table 2 is symmetrically and obliquely provided with the fixing frame 1 with the Y-shaped side wall, and the other end of the support table 2 is provided with the airing mechanism 4; the top surface of the supporting table 2 is rotatably connected with the printing mechanism 3, and the inside of the printing mechanism 3 is slidably connected with the supporting mechanism 6; the lifting mechanisms 7 are symmetrically arranged in the supporting platform 2, and the lifting mechanisms 7 are rotatably connected with two ends of the supporting mechanism 6; the inner part of one end of the supporting mechanism 6 is connected with the fixing mechanism 5 in a sliding way, and the fixing mechanism 5 is clamped with the side wall of the supporting platform 2; the other end of the supporting mechanism 6 is provided with the sliding mechanism 8, and the sliding mechanism 8 is connected with the inside of the supporting platform 2 in a sliding way; the limiting mechanism 9 is arranged inside the supporting table 2, and the limiting mechanism 9 is connected with the side wall of the sliding mechanism 8 in a sliding mode.

Specifically, sunning mechanism 4 includes transfer bar 41 and support frame 42, prop up the installation of the lateral wall of supporting bench 2 support frame 42, just the top equidistance of support frame 42 is rotated and is connected transfer bar 41 is in for the fabric after the stamp convenient the top surface of transfer bar 41 slides, makes the stamp rapid draing on the fabric.

Specifically, the printing mechanism 3 comprises a motor 31, a guard plate 32, a printing cylinder 33, an inner cylinder 34, an air suction hole 35, a connecting pipe 36 and a suction fan 37, wherein the side wall of the support table 2 is fixedly connected with the motor 31, and the guard plate 32 is mounted on the side wall of the top end of the support table 2; the side wall of the top end of the supporting table 2 is rotatably connected with the printing cylinder 33 and the inner cylinder 34, the inner cylinder 34 is fixedly connected with the inner side wall of the printing cylinder 33, one end of the inner cylinder 34 is rotatably connected with the motor 31, and the bottommost end of the printing cylinder 33 is flush with the topmost end of the transmission rod 41; the interior of the supporting platform 2 is fixedly connected with the suction fan 37, two ends of the connecting pipe 36 are respectively communicated with the suction fan 37 and the hollow inner cylinder 34, and the side walls of the inner cylinder 34 and the printing cylinder 33 are equidistantly provided with the air suction holes 35 having a funnel-shaped sectional area, in order to facilitate the rotation of the inner cylinder 34 and the printing cylinder 33 driven by the motor 31 and the operation of the suction fan 37 simultaneously, the air in the inner cylinder 34 is driven to move, the air inside the printing cylinder 33 enters the inside of the inner cylinder 34 through the air suction holes 35 of the side wall of the inner cylinder 34, the outside air enters the inside of the printing cylinder 33 through the air suction holes 35 of the side wall of the printing cylinder 33, so that the sidewall of the printing cylinder 33 generates suction force, thereby enabling the textile fabric to be adsorbed on the sidewall of the printing cylinder 33, and facilitating the printing of the printing cylinder 33 on the sidewall of the textile fabric.

Specifically, the supporting mechanism 6 includes a rotating shaft 61 and a supporting cylinder 62, the supporting table 2 is connected to the rotating shaft 61 and the supporting cylinder 62 in an internal rotation manner, and the supporting cylinder 62 is connected to the rotating shaft 61 in an internal rotation manner. In order to facilitate the rotation shaft 61 to lift the supporting cylinder 62, the supporting cylinder 62 presses the textile fabric upwards, so that the textile fabric is tightly attached to the side wall of the printing cylinder 33.

Specifically, the lifting mechanism 7 includes a support plate 71, a spring 72, a first lifting rod 73, a second lifting rod 74 and a fixing sleeve 75, two ends of the rotating shaft 61 are respectively rotatably connected to the fixing sleeve 75, and a bottom end of the fixing sleeve 75 is fixedly connected to the second lifting rod 74; the supporting plates 71 are symmetrically arranged at two ends inside the supporting table 2, the top surfaces of the supporting plates 71 are fixedly connected with the first lifting rods 73, and the inner side walls of the first lifting rods 73 are slidably connected with the second lifting rods 74 with T-shaped shapes; the spring 72 is installed inside the first lifting rod 73, the top end of the spring 72 is connected to the bottom end of the second lifting rod 74, and in order to facilitate the extension of the spring 72 inside the first lifting rod 73, the spring 72 drives the second lifting rod 74 to slide upwards, so as to push the second lifting rod 74 to drive the rotating shaft 61 to slide upwards.

Specifically, the fixing mechanism 5 includes a sliding groove 51, a clamping groove 52, a connecting block 53 and a fixing rod 54, the sliding groove 51 is arranged on the side wall of the support table 2, the clamping groove 52 is symmetrically arranged at the bottom end of the sliding groove 51, the fixing rod 54 in an i-shaped shape is slidably connected inside one end of the rotating shaft 61, and the fixing rod 54 is slidably connected inside the sliding groove 51; one end of the fixing rod 54 is fixedly connected with the cross-shaped connecting block 53, the connecting block 53 is clamped with the clamping groove 52, in order to facilitate the sliding of the connecting block 53, the connecting block 53 drives the fixing rod 54 to slide from the inside of the rotating shaft 61, so that one end of the rotating shaft 61 slides from the inside of the sliding groove 51, the connecting block 53 is squeezed to lower the fixing rod 54, so that the fixing rod 54 drives the rotating shaft 61 to descend, the rotating shaft 61 and the supporting cylinder 62 descend, the distance between the supporting cylinder 62 and the printing cylinder 33 is increased, the cross-shaped connecting block 53 enters the clamping groove 52 in a sliding manner, the clamping groove 52 fixes the connecting block 53, therefore, the distance between the supporting cylinder 62 and the printing cylinder 33 is not changed, and textile fabrics can be conveniently placed between the supporting cylinder 62 and the printing cylinder 33.

Specifically, the sliding mechanism 8 comprises a groove 81, a placing groove 82, steel balls 83, connecting frames 84 and a connecting rod 85, the connecting rod 85 is rotatably connected inside the other end of the rotating shaft 61, the connecting frames 84 with L-shaped side walls are symmetrically arranged on the side walls of the connecting rod 85, and the steel balls 83 are rotatably connected between the two connecting frames 84; the support table 2 is internally provided with a groove 81 with an arc-shaped side wall and a placement groove 82 with an L-shaped side wall, two ends of the groove 81 are respectively communicated with the placement grooves 82, the interior of the groove 81 is connected with the steel balls 83 in a sliding manner, the interior of the placement groove 82 is connected with the connecting frame 84 in a sliding manner, when one end of the rotating shaft 61 descends, the other end of the rotating shaft 61 is extruded, the other end of the rotating shaft 61 drives the connecting rod 85 to descend, the connecting rod 85 drives the connecting frame 84 and the steel balls 83 to respectively slide in the placement grooves 82 and the groove 81, the groove 81 and the placement groove 82 respectively fix the steel balls 83 and the connecting frame 84, so that the steel balls 83 and the connecting frame 84 vertically descend, the other end of the rotating shaft 61 is fixed, and the rotating shaft 61 vertically descends, and the steel ball 83 rolls in the groove 81, so that the friction force between the steel ball 83 and the groove 81 is reduced, and the movement of the steel ball 83 is facilitated.

Specifically, the limiting mechanism 9 includes a convex block 91 and a limiting plate 92, the limiting plate 92 with a concave cross-sectional area is installed inside the supporting table 2, one end of the limiting plate 92 is connected with the steel ball 83 in a rolling manner, the hemispherical convex blocks 91 are installed at the other end of the limiting plate 92 at equal intervals, and the convex blocks 91 abut against the connecting rod 85; the side wall of the limiting plate 92 is slidably connected with the connecting frame 84, in order to facilitate the limiting plate 92 to abut against the steel ball 83 and the connecting frame 84, the steel ball 83 and the connecting frame 84 are respectively fixed inside the groove 81 and the placing groove 82, the connecting rod 83 is in contact with the hemispherical bump 91 when moving, the friction force between the bump 91 and the connecting rod 83 is reduced, and the bump 91 abuts against the connecting rod 83 to fix the connecting rod 83.

When in use, the connecting block 53 is slid on the side wall of the supporting platform 2, the connecting block 53 drives the fixed rod 54 to slide from the inside of the rotating shaft 61, so that one end of the rotating shaft 61 slides from the inside of the sliding groove 51, the connecting block 53 is pressed downwards to lower the fixed rod 54, so that the fixed rod 54 drives one end of the rotating shaft 61 to descend, when one end of the rotating shaft 61 descends, the other end of the rotating shaft 61 is pressed, the other end of the rotating shaft 61 drives the pressing connecting rod 85 to descend, the connecting rod 85 drives the connecting frame 84 and the steel balls 83 to slide respectively in the placing groove 82 and the groove 81, the side wall of one end of the limiting plate 92 abuts against the steel balls 83 and the connecting frame 84, the steel balls 83 and the connecting frame 84 are respectively fixed in the groove 81 and the placing groove 82, so that the steel balls 83 and the connecting frame 84 descend vertically in the inside of the, the steel balls 83 roll in the grooves 81, so that friction between the steel balls 83 and the grooves 81 is reduced, the steel balls 83 can move conveniently, the connecting rod 83 is in contact with the lug 91 when moving, the lug 91 abuts against the connecting rod 83 to fix the connecting rod 83, the lug 91 is hemispherical, the friction between the lug 91 and the connecting rod 83 is reduced, and the connecting rod 83 can move conveniently; the rotating shaft 61 and the supporting cylinder 62 vertically descend to increase the distance between the supporting cylinder 62 and the printing cylinder 33, when the cross-shaped connecting block 53 is flush with the clamping groove 52, the cross-shaped connecting block 53 slides to enter the clamping groove 52, and the clamping groove 52 fixes the connecting block 53, so that the distance between the supporting cylinder 62 and the printing cylinder 33 is unchanged. When the rotating shaft 61 descends, the rotating shaft 61 drives the fixing sleeve 75 and the second lifting rod 74 to descend, so that the second lifting rod 74 slides in the first lifting rod 73, the second lifting rod 74 moves downwards to compress the spring 72 in the first lifting rod 73, the reel wound with the textile is prevented from being arranged in the fixing frame 1 with the two side walls in the Y shape, one end of the textile enters the guard plate 32, the textile penetrates through the space between the supporting cylinder 62 and the printing cylinder 33, and one end of the textile is placed on the transmission rod 41 at the top end of the supporting frame 42. The connecting block 53 is slid out from the inside of the clamping groove 52, the connecting block 53 is released, the spring 72 inside the first lifting rod 73 is extended, and the spring 72 pushes the second lifting rod 74 and the fixing sleeve 75 to move upwards, so that the rotating shaft 61 and the supporting cylinder 62 are pushed to ascend, and the top end of the supporting cylinder 62 is abutted against the bottom surface of the textile. With this device access power, open suction fan 37 work, the air motion of the inside of drive inner tube 34, the inside air of printing section of thick bamboo 33 passes through the inside that the suction hole 35 of inner tube 34 lateral wall got into inner tube 34, outside air passes through the inside that the suction hole 35 of printing section of thick bamboo 33 lateral wall got into printing section of thick bamboo 33, thereby make the lateral wall of printing section of thick bamboo 33 produce suction, thereby make the fabric adsorb at the lateral wall of printing section of thick bamboo 33, and spring 72 continues to promote the upward movement of a support section of thick bamboo 62, make a support section of thick bamboo 62 upwards extrude the fabric, make the bottom of a printing section of thick bamboo 33 hug. Open motor 31, motor 31 drives inner tube 34 with printing section of thick bamboo 33 rotates, and printing section of thick bamboo 33 rotates the pattern of printing out at the top surface of fabric, and printing section of thick bamboo 33 rotates the top surface that promotes the fabric motion and get into supporting bench 2, slowly stimulates the fabric simultaneously, makes the fabric tiling behind the stamp at the top surface of transfer bar 41, makes the fabric dry.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the embodiments and descriptions given above are only illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A textile printing process is characterized by comprising the following steps:

s3, rolling the textile cloth dried in the S2;

the printing equipment adopted by the process comprises a fixed frame (1), a supporting table (2), a printing mechanism (3), a drying mechanism (4), a fixing mechanism (5), a supporting mechanism (6), a lifting mechanism (7), a sliding mechanism (8) and a limiting mechanism (9); one end of the support table (2) is symmetrically and obliquely provided with the fixing frame (1) with the Y-shaped side wall, and the other end of the support table (2) is provided with the airing mechanism (4); the top surface of the supporting table (2) is rotationally connected with the printing mechanism (3), and the interior of the printing mechanism (3) is connected with the supporting mechanism (6) in a sliding manner; the lifting mechanisms (7) are symmetrically arranged in the supporting platform (2), and the lifting mechanisms (7) are rotatably connected with two ends of the supporting mechanism (6); the inner part of one end of the supporting mechanism (6) is connected with the fixing mechanism (5) in a sliding manner, and the fixing mechanism (5) is clamped with the side wall of the supporting table (2); the other end of the supporting mechanism (6) is provided with the sliding mechanism (8), and the sliding mechanism (8) is connected with the inside of the supporting platform (2) in a sliding manner; the limiting mechanism (9) is arranged inside the supporting table (2), and the limiting mechanism (9) is connected with the side wall of the sliding mechanism (8) in a sliding manner;

the airing mechanism (4) comprises a transmission rod (41) and a support frame (42), the support frame (42) is installed on the side wall of the support table (2), and the top end of the support frame (42) is connected with the transmission rod (41) in an equidistance rotating mode;

the printing mechanism (3) comprises a motor (31), a protective plate (32), a printing cylinder (33), an inner cylinder (34), an air suction hole (35), a connecting pipe (36) and a suction fan (37), the side wall of the support table (2) is fixedly connected with the motor (31), and the protective plate (32) is installed on the side wall of the top end of the support table (2); the side wall of the top end of the supporting table (2) is rotatably connected with the printing cylinder (33) and the inner cylinder (34), the inner cylinder (34) is fixedly connected with the inner side wall of the printing cylinder (33), one end of the inner cylinder (34) is rotatably connected with the motor (31), and the bottommost end of the printing cylinder (33) is flush with the topmost end of the transmission rod (41); the inside fixed connection of brace table (2) suction fan (37), the both ends of connecting pipe (36) communicate respectively suction fan (37) and hollow inner tube (34), just inner tube (34) with the lateral wall equidistance of printing section of thick bamboo (33) is equipped with the sectional area and is the infundibulate suction opening (35).

2. The textile printing process according to claim 1, characterized in that: the supporting mechanism (6) comprises a rotating shaft (61) and a supporting cylinder (62), the rotating shaft (61) and the supporting cylinder (62) are connected through internal rotation of the supporting table (2), and the rotating shaft (61) is connected through internal rotation of the supporting cylinder (62).

3. A textile printing process according to claim 2, wherein: the lifting mechanism (7) comprises a supporting plate (71), a spring (72), a first lifting rod (73), a second lifting rod (74) and a fixing sleeve (75), two ends of the rotating shaft (61) are respectively connected with the fixing sleeve (75) in a rotating mode, and the bottom end of the fixing sleeve (75) is fixedly connected with the second lifting rod (74); the supporting plates (71) are symmetrically arranged at two ends in the supporting table (2), the top surface of each supporting plate (71) is fixedly connected with the corresponding first lifting rod (73), and the inner side of each first lifting rod (73) is slidably connected with the corresponding second lifting rod (74) with the T-shaped side wall; the spring (72) is arranged in the first lifting rod (73), and the top end of the spring (72) is connected with the bottom end of the second lifting rod (74).

4. A textile printing process according to claim 3, wherein: the fixing mechanism (5) comprises a sliding groove (51), clamping grooves (52), a connecting block (53) and a fixing rod (54), the sliding groove (51) is formed in the side wall of the supporting table (2), the clamping grooves (52) are symmetrically formed in the bottom end of the sliding groove (51), the fixing rod (54) which is I-shaped is connected to one end of the rotating shaft (61) in a sliding mode, and the fixing rod (54) is connected with the inside of the sliding groove (51) in a sliding mode; one end of the fixing rod (54) is fixedly connected with the cross-shaped connecting block (53), and the connecting block (53) is clamped with the clamping groove (52).

5. The textile printing process according to claim 4, wherein: the sliding mechanism (8) comprises a groove (81), a placing groove (82), steel balls (83), connecting frames (84) and connecting rods (85), the connecting rods (85) are rotatably connected to the inside of the other end of the rotating shaft (61), the connecting frames (84) with L-shaped side walls are symmetrically arranged on the side walls of the connecting rods (85), and the steel balls (83) are rotatably connected between the two connecting frames (84); the supporting table (2) is internally provided with a groove (81) with an arc-shaped side wall and a placing groove (82) with an L-shaped side wall, two ends of the groove (81) are respectively communicated with the placing groove (82), the groove (81) is connected with the steel ball (83) in a sliding manner, and the placing groove (82) is connected with the connecting frame (84) in a sliding manner.

6. The textile printing process according to claim 5, wherein: the limiting mechanism (9) comprises a convex block (91) and a limiting plate (92), the limiting plate (92) with a concave cross section is mounted inside the supporting platform (2), one end of the limiting plate (92) is connected with the steel ball (83) in a rolling mode, the hemispherical convex blocks (91) are mounted at the other end of the limiting plate (92) at equal intervals, and the convex blocks (91) abut against the connecting rod (85); the side wall of the limiting plate (92) is connected with the connecting frame (84) in a sliding mode.