CN118358243B - Waterproof fabric printing device - Google Patents

Abstract

The invention belongs to the field of fabric printing, in particular to a waterproof fabric printing device, which comprises a machine base, a machine table fixed at the middle position of the top of the machine base, and a printing component arranged at one end of the top of the machine table, wherein the invention scrapes the fold part of the fabric to two sides by firstly contacting the arc-shaped end part of a flattening scraping frame with the fabric, and when the fabric continuously moves, the two inclined side edges of the flattening scraping frame continuously contact the fabric to dredge the fold part of the fabric to two sides, the folding device has the advantages that the folds of the fabric are unfolded towards two sides, so that the folding part of the fabric can be flattened, the passing fabric is flattened by the flattening scraping frame, the folding part of the fabric can be prevented from moving to a printing area to be printed, the problem that the printed pattern is deformed or shifted is solved, the folding part of the fabric is prevented from being printed by the printing device, and the problem that the printed pattern becomes a defective product is solved.

Description

Waterproof fabric printing device

Technical Field

The invention belongs to the field of fabric printing, and particularly relates to a waterproof fabric printing device.

Background

In order to improve the advantages of the waterproof fabric in aspects of decoration, design diversity, market adaptability, brand and personality expression and the like, the surface of the waterproof fabric is printed by using a printing device in the production and processing process, so that the application potential and market competitiveness of the waterproof fabric in the fields of clothing, decoration and the like are enhanced.

The prior art also proposes solutions, for example, a patent application with the publication number CN203228491U discloses a pile fabric printing structure, which comprises a printing platform, wherein the upper part of the printing platform is provided with laser heads which are closely arranged in a row, and the application improves the firmness of a printing pattern by removing piles in a printing area.

Waterproof surface fabric rolling is outside the material roller, and the wind-up roll is to waterproof surface fabric winding in order to drive the surface fabric and remove to stamp in the district, if the regional fold of surface fabric position of transport, can lead to pattern deformation or shift during stamp, makes the stamp pattern unable accurate design effect that presents to, when stamp device stamp to the part of fold, can not only influence the effect of stamp pattern, still probably lead to here the surface fabric to become the defective goods because of stamp pattern appears the mistake.

Therefore, the invention provides a waterproof fabric printing device.

Disclosure of Invention

In order to overcome the deficiencies of the prior art, at least one technical problem presented in the background art is solved.

The technical scheme adopted for solving the technical problems is as follows: the waterproof fabric printing device comprises a machine base, a machine table fixed at the middle position of the top of the machine base, a printing component arranged at one end of the top of the machine table, a material winding roller arranged at the front end of the machine table, and a material discharging roller arranged at the rear end of the machine table, wherein a supporting frame body is fixed at the middle position of the top of the machine table, one end inside the supporting frame body is provided with a flattening component, two sides of the flattening component are provided with edge flattening components, lifting components are arranged on the flattening component and the edge flattening components, and the other end of the top of the machine table is provided with a heating component.

Preferably, the printing assembly comprises a frame fixed at one end of the top of the machine table, a hydraulic telescopic rod is arranged at the middle position of the top of the frame, an upper printing pressing plate is arranged at the top end of the inside of the frame, the output end of the bottom of the hydraulic telescopic rod extends into the frame and is fixedly connected with the upper printing pressing plate, a lower printing pressing plate is fixed at the bottom end of the inside of the frame, and the lower printing pressing plate is opposite to the position of the upper printing pressing plate.

Preferably, the flattening assembly comprises a flattening scraping frame arranged at one end in the supporting frame body, a second supporting roller is arranged below the front end of the flattening scraping frame and is arranged on the machine table, a lower flattening roller is arranged at the other end of the inner part of the supporting frame body and is arranged on the machine table, side blocks are fixed on two sides of the lower flattening roller, a guide vertical plate is fixed on the top of each side block, a frame is arranged above the lower flattening roller, guide grooves are formed in two sides of the frame, the frame is sleeved on the guide vertical plate through the guide grooves, and an upper flattening roller is arranged in the frame in a rotating mode.

Preferably, the guide riser has a size matching that of the guide groove, and the frame is capable of sliding up and down on the outside of the guide riser through the guide groove.

Preferably, the edge flattening assembly comprises an outer frame fixed at the rear ends of two sides of the flattening scraping frame, one end of the outer frame is fixedly connected with the frame, supporting plates are arranged on two sides of the bottom of the outer frame and fixed on a machine table, guide rods are fixed at the tops of the supporting plates, guide cavities are formed in two sides of the outer frame, the outer frame is sleeved on the guide rods through the guide cavities, two rotating rollers are rotatably arranged between the inner portion of the outer frame and the supporting plates, rubber belts are arranged on the outer portions of the rotating rollers, rubber rollers are embedded in the outer side walls of the rubber belts, a first motor is arranged on the side walls of the supporting plates and the outer frame, and a first rotating shaft of the first motor is fixedly connected with one of the rotating rollers.

Preferably, the rubber rollers are embedded on the outer side wall of the rubber belt at equal intervals, and the rubber rollers are rotatably arranged on the outer side wall of the rubber belt.

Preferably, the lifting assembly comprises a steel wire for flattening the scraping frame and two sides of the top of the outer frame, the steel wire protrudes out of the top of the supporting frame, a winding disc is arranged at the top of the supporting frame, the winding disc is fixedly connected with the end part of the steel wire, and a motor II is arranged on one side of the winding disc.

Preferably, the number of winding discs is the same as the number of wires, one for each wire.

Preferably, the heating element is including installing the heating shell at the board top other end, the heating shell is located the front end of backing roll two, the front end of heating shell is provided with backing roll one, backing roll one is installed on the board, the inside of heating shell is fixed with the heat pipe that returns, the heating chamber is installed to one side at heating shell top, the connecting pipe is installed to one end of heating chamber, the one end of connecting pipe extends to in the heating shell and is connected with one side at heat pipe top returns, the air-blowing fan is installed to the other end of heating chamber, the internally mounted of heating chamber has the heating wire.

Preferably, the heating assembly further comprises small air inlets arranged on the inner side walls of the heat pipes in a circular shape, the air inlets are fixed on the inner side walls of the heat pipes in a circular shape, the air inlets are located at the small air inlets, each small air inlet is fixed with an air inlet, and the top end of one side of the inside of each heat pipe in a circular shape is provided with a large air inlet.

The beneficial effects of the invention are as follows:

1. According to the waterproof fabric printing device, the arc-shaped end part of the flattening scraping frame is firstly contacted with the fabric, the fold parts of the fabric are scraped to two sides, when the fabric continuously moves, the two inclined side edges of the flattening scraping frame are continuously contacted with the fabric, the fold parts of the fabric are led to two sides, the fold parts of the fabric are unfolded to two sides, so that the fold parts of the fabric can be flattened, the passing fabric is flattened by the flattening scraping frame, the fold parts of the fabric can be prevented from moving to a printing area for printing, the problem of deformation or displacement of a printing pattern is prevented, the problem that the printing device prints the fold parts, and the fabric at the place becomes defective products due to errors in the printing pattern is prevented.

2. According to the waterproof fabric printing device, two sides of a fabric pass through the space between two rubber belts, the motor is utilized to drive the rotary roller to rotate so as to push the rubber belts, the rubber belts positioned between the support plates are positioned at the bottoms of the fabric sides, the moving direction of the tops of the rubber belts is required to move towards the directions of the fabric sides, at the moment, the rubber belts positioned in the outer frame drive the rubber rollers to contact with the bottoms of the fabric sides and roll the bottoms of the rubber belts, the moving direction of the bottoms of the rubber belts is required to move towards the directions of the sides of the fabric, at the moment, the rubber belts drive the rubber rollers to contact with the tops of the fabric sides and roll the tops of the fabric sides, the rubber rollers drive the outer side walls of the rubber rollers to roll the fabric sides continuously, the fabric sides of the fabric can be flattened, in addition, when the rubber rollers are in contact with the fabric sides, the fabric sides of the fabric are required to be stretched by friction force, the matched flattening scraper frame is used for processing the middle parts of the fabric, the fabric processing effect can be improved, and the fabric spreading effect can be improved, and the hot air heating effect can be further improved when the fabric is flattened, the fabric spreading component can be flattened, and the hot air can be more effectively flattened, and the edge can be flattened, and the hot air can be more can be flattened and more effectively flattened, and the edge can be flattened.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is an overall construction diagram in the present invention;

FIG. 2 is a cross-sectional view of the overall structure of the present invention;

FIG. 3 is an enlarged view of FIG. 2A in accordance with the present invention;

FIG. 4 is a partial block diagram of the present invention;

FIG. 5 is a split view of the structure of the flattening assembly of the present invention;

FIG. 6 is a partial cross-sectional view of the edge flattening assembly of the present invention;

FIG. 7 is a partial cross-sectional view of a heating assembly of the present invention;

FIG. 8 is a partial cross-sectional view of a heating assembly according to the present invention;

FIG. 9 is an enlarged view of FIG. 8B in accordance with the present invention;

FIG. 10 is a front structural cross-sectional view of a heating assembly in accordance with the present invention;

In the figure: 1. a base; 2. a machine table; 3. a printing assembly; 31. a frame; 32. a hydraulic telescopic rod; 33. printing a pressing plate; 34. a lower printing pressing plate; 4. a discharging roller; 5. a material winding roller; 6. a support frame; 7. a heating assembly; 71. a heating housing; 72. a first supporting roller; 73. a heat pipe of the loop type; 74. a heating chamber; 75. a connecting pipe; 76. an air blower; 77. heating wires; 78. a small tuyere; 79. an induced draft cover; 710. a large tuyere; 8. a flattening assembly; 81. flattening the scraping frame; 82. a second supporting roller; 83. a frame; 84. a flattening roller is arranged; 85. a lower flattening roller; 86. a side block; 87. a guide vertical plate; 88. a guide groove; 9. an edge flattening assembly; 91. a rotating roller; 92. a support plate; 93. a first motor; 94. an outer frame; 95. a rubber belt; 96. a rubber roller; 97. a guide rod; 98. a guide chamber; 10. a lifting assembly; 101. a winding disc; 102. a second motor; 103. and (3) a steel wire.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1 to 10, the waterproof fabric printing device according to the embodiment of the invention comprises a machine base 1, a machine table 2 fixed at the middle position of the top of the machine base 1, a printing component 3 arranged at one end of the top of the machine table 2, a material winding roller 5 arranged at the front end of the machine table 2, and a material discharging roller 4 arranged at the rear end of the machine table 2, wherein a supporting frame 6 is fixed at the middle position of the top of the machine table 2, one end inside the supporting frame 6 is provided with a flattening component 8, two sides of the flattening component 8 are provided with edge flattening components 9, lifting components 10 are arranged on the flattening component 8 and the edge flattening components 9, and the other end of the top of the machine table 2 is provided with a heating component 7.

The waterproof fabric is wound outside the material roller, the winding roller winds the waterproof fabric to drive the fabric to move into the printing area for printing, if part of the conveyed fabric is wrinkled, patterns deform or shift during printing, so that the printed patterns cannot accurately show the design effect, and when the printing device prints the wrinkled part, the effect of the printed patterns is affected, and the fabric at the position is possibly defective due to errors of the printed patterns;

Placing the fabric on a discharging roller 4, enabling the fabric to sequentially pass through a heating component 7 and a flattening component 8, heating the fabric by the heating component 7 to improve the softness of the fabric, enabling the fabric to be flattened better when being flattened by the flattening component 8, arranging an edge flattening component 9 between the flattening components 8 after the fabric is flattened by the flattening component 8, flattening and pulling out two side edges of the fabric by the edge flattening component 9, so that the side walls of the fabric are prevented from being bent up or down, simultaneously pulling out two sides of the fabric, enabling folds in the fabric to be pulled out, matching with the flattening operation of the flattening component 8, enabling the fabric pretreated by the heating component 7, the flattening component 8 and the edge flattening component 9 to be fed into a printing component 3, and finally printing the fabric by the printing component 3, and finally rolling the printed fabric by the rolling-up roller 5, so that the fabric with different thicknesses can be lifted by the flattening component 8 and the edge flattening component 9, and the fabric with different thicknesses can be adjusted by the flattening component 10, and the position of the flattening component 9 is not applicable to the fabric, and the fabric is improved;

The passing fabric is flattened, so that the problem that the fold part of the fabric moves to a printing area to print, so that the printed pattern is deformed or shifted is prevented, and the problem that the folded part is printed by a printing device, so that the fabric becomes a defective product due to the fact that the printed pattern is wrong is also prevented.

As shown in fig. 1 and 2, the printing assembly 3 comprises a frame 31 fixed at one end of the top of the machine table 2, a hydraulic telescopic rod 32 is installed at the middle position of the top of the frame 31, an upper printing pressing plate 33 is arranged at the top end of the inside of the frame 31, the output end of the bottom of the hydraulic telescopic rod 32 extends into the frame 31 and is fixedly connected with the upper printing pressing plate 33, a lower printing pressing plate 34 is fixed at the bottom end of the inside of the frame 31, and the lower printing pressing plate 34 is opposite to the position of the upper printing pressing plate 33.

When the waterproof fabric passes through the lower printing pressing plate 34, the hydraulic telescopic rod 32 is started to push down the upper printing pressing plate 33, the fabric between the upper printing pressing plate 33 and the lower printing pressing plate 34 is printed, after printing is finished, the hydraulic telescopic rod 32 drives the upper printing pressing plate 33 to move upwards to enable the upper printing pressing plate 33 to return to the initial position, the fabric is wound by the material winding roller 5 to enable the printed part to be removed, the part of the fabric to be printed is enabled to move to the lower printing pressing plate 34 again for printing, and the printing can be continuously carried out on the fabric repeatedly.

As shown in fig. 1 and 2, the flattening component 8 includes a flattening scraping frame 81 disposed at one end inside the supporting frame 6, a second supporting roller 82 is disposed below the front end of the flattening scraping frame 81, the second supporting roller 82 is mounted on the machine table 2, a lower flattening roller 85 is disposed at the other end inside the supporting frame 6, the lower flattening roller 85 is mounted on the machine table 2, side blocks 86 are fixed on two sides of the lower flattening roller 85, a guide vertical plate 87 is fixed on the top of the side blocks 86, a frame 83 is disposed above the lower flattening roller 85, guide grooves 88 are disposed on two sides of the frame 83, the frame 83 is sleeved on the guide vertical plate 87 through the guide grooves 88, an upper flattening roller 84 is disposed in the frame 83 in a rotating manner, the size of the guide vertical plate 87 is matched with that of the guide grooves 88, and the frame 83 can slide up and down outside the guide vertical plate 87 through the guide grooves 88.

After the fabric is heated by the heating component 7, when the fabric passes through the bottom of the flattening scraping frame 81, the arc-shaped end part of the flattening scraping frame 81 is firstly contacted with the fabric, the fold parts of the fabric are scraped to two sides, when the fabric continuously moves, the two inclined side edges of the flattening scraping frame 81 are continuously contacted with the fabric, the fold parts of the fabric are led to two sides, the folds of the fabric are unfolded to two sides, so that the fold parts of the fabric can be flattened, the passing fabric is flattened by the flattening scraping frame 81, the fold parts of the fabric can be prevented from moving to a printing area for printing, and the problem of deformation or displacement of a printing pattern is caused;

secondly, after the fabric is flattened by the flattening scraping frame 81, the fabric can move between the upper flattening roller 84 and the lower flattening roller 85, the flattened fabric can be flattened by the upper flattening roller 84 and the lower flattening roller 85, and the wrinkles can be further eliminated through the flattening effect of the flattened fabric, so that the flatness and stability of the fabric are ensured, and the shaping effect is enhanced.

As shown in fig. 2 to 4 and 6, the edge flattening assembly 9 includes an outer frame 94 fixed at the rear ends of two sides of the flattening scraping frame 81, one end of the outer frame 94 is fixedly connected with the frame 83, two sides of the bottom of the outer frame 94 are respectively provided with a support plate 92, the support plates 92 are fixed on the machine table 2, the tops of the support plates 92 are fixedly provided with guide rods 97, the two sides of the outer frame 94 are provided with guide cavities 98, the outer frame 94 is sleeved on the guide rods 97 through the guide cavities 98, two rotating rollers 91 are rotatably arranged between the inside of the outer frame 94 and the support plates 92, a rubber belt 95 is arranged outside the rotating rollers 91, a rubber roller 96 is embedded in the outer side wall of the rubber belt 95, a motor 93 is installed on the side wall of the support plates 92 and the side wall of the outer frame 94, the rotating shaft of the motor 93 is fixedly connected with one of the rotating rollers 91, the rubber roller 96 is embedded on the outer side wall of the rubber belt 95 at equal intervals, and the rubber roller 96 is rotatably arranged on the outer side wall of the rubber belt 95.

After the folds on the fabric are expanded to two sides through the flattening of the flattening scraping frame 81, two sides of the fabric can pass through between the two rubber belts 95, the motor 93 is utilized to drive the rotary roller 91 to rotate for pushing the rubber belts 95, the rubber belts 95 located between the support plates 92 are located at the bottoms of the fabric sides, the moving direction of the tops of the rubber belts 95 is required to be enabled to move towards the directions of the fabric sides, at this time, the rubber belts 95 drive the rubber rollers 96 to contact with the bottoms of the fabric sides and roll the bottoms of the rubber belts 95 towards the directions of the sides of the fabric, at this time, the rubber belts 95 drive the rubber rollers 96 arranged on the outer side walls of the rubber rollers to roll the sides of the fabric continuously, the rubber rollers 96 are made of rubber materials, when the sides of the rubber rollers are contacted with the fabric sides, the two sides of the fabric can be stretched, the middle parts of the fabric are matched with the rubber belts 95, the spreading frame 81 can be processed in opposite to the bottoms of the fabric sides, the fabric sides can be stretched, the fabric sides can be perpendicular to the fabric sides, the fabric sides can be stretched and the fabric sides can be stretched to the fabric sides, the fabric sides can be perpendicular to the directions, and the fabric sides can be perpendicular to the fabric sides, and the fabric can be perpendicular to the fabric side can be stretched to the fabric side sides.

As shown in fig. 2 to 5, the lifting assembly 10 includes steel wires 103 on both sides of the top of the flattening frame 81 and the outer frame 94, the steel wires 103 protrude from the top of the supporting frame 6, a winding disc 101 is installed on the top of the supporting frame 6, the winding disc 101 is fixedly connected with the end of the steel wires 103, two motors 102 are installed on one side of the winding disc 101, the number of the winding discs 101 is the same as that of the steel wires 103, and each steel wire 103 corresponds to one winding disc 101.

The flattening scraping frame 81, the outer frame 94 and the frame 83 are fixedly connected, the motor II 102 is started, the motor II 102 drives the winding disc 101 to rotate to wind the steel wires 103, the flattening scraping frame 81 and the outer frame 94 which are fixedly connected can be driven to move upwards through the winding steel wires 103, the flattening scraping frame 81, the outer frame 94 and the frame 83 which are fixedly connected can be driven to move upwards through the winding steel wires 103, the winding disc 101 reversely rotates to release the steel wires 103, the flattening scraping frame 81, the outer frame 94 and the frame 83 move downwards integrally by means of the gravity of the flattening scraping frame 81, the outer frame 94 and the frame 83, the height of the flattening scraping frame 81 is changed, the flattening scraping frame 81 can be suitable for fabrics with different thicknesses, the outer frame 94 moves upwards, the positions of the rotating roller 91, the rubber belt 95 and the rubber roller 96 in the interior of the outer frame 94 are also changed, the distance between the two rubber belt 95 can be changed, the distance between the two rubber belts 95 can be adjusted through the movement of the outer frame 94, and the side edges of fabrics with different thicknesses can be suitable for the fabrics, the frame 83 moves upwards to contact with the side edge of the fabric more fully, the position of the upper leveling roller 84 in the frame is changed, the distance between the upper leveling roller 84 and the lower leveling roller 85 is also changed, the distance between the upper leveling roller 84 and the lower leveling roller 85 is changed, the upper leveling roller 84 can be better contacted with fabrics with different thicknesses, the fabrics with different thicknesses can be better flattened, the flattening frame 81, the outer frame 94 and the frame 83 need to be simultaneously moved, the distance between all the parts of the frame 83 is also simultaneously changed, the single adjustment is not needed, the adjustment can be applied to fabrics with the thickness, and the balancing weight is needed to be added in the outer frame 94 for balancing, and the purpose of the design is to ensure that when the flattening frame 81, the outer frame 94 and the frame 83 lose the tension of the steel wires 103, the whole scraping frame 81 can be realized by means of the gravity of the outer frame 94, the outer frame 94 moves downward with the frame 83, and the gravity of the outer frame 94 can make the respective parts of the flattening frame 81, the outer frame 94 and the frame 83 closely contact with the fabric to act.

As shown in fig. 1, fig. 2, fig. 4 and fig. 7 to fig. 10, the heating assembly 7 comprises a heating shell 71 installed at the other end of the top of the machine 2, the heating shell 71 is located at the front end of a second supporting roller 82, the front end of the heating shell 71 is provided with a first supporting roller 72, the first supporting roller 72 is installed on the machine 2, a heat return pipe 73 is fixed in the heating shell 71, a heating chamber 74 is installed at one side of the top of the heating shell 71, a connecting pipe 75 is installed at one end of the heating chamber 74, one end of the connecting pipe 75 extends into the heating shell 71 and is connected with one side of the top of the heat return pipe 73, an air blower 76 is installed at the other end of the heating chamber 74, an electric heating wire 77 is installed in the heating chamber 74, the heating assembly 7 further comprises a small air port 78 opened at the inner side wall of the heat return pipe 73, an air guide cover 79 is fixed at the inner side wall of the heat return pipe 73, the air guide cover 79 is located at the position of the small air port 78, one air guide cover 79 is fixed on each small air port 78, and the top of one side inside the heat pipe 73 is opened with a large air port 710.

The fabric is released by the discharging roller 4, is sent into the heating shell 71 through the first supporting roller 72, passes through the back-type heat pipes 73, continuously blows hot air into the back-type heat pipes 73 through the connecting pipe 75 by utilizing the air blowing fan 76 and the heating wire 77, the flowing direction of the hot air is shown as an arrow mark in fig. 10, when the fabric passes through the position of each small air opening 78, the air guiding cover 79 can block part of the hot air and guide the hot air into the small air opening 78, then the small air opening 78 discharges the hot air, the small air opening 78 positioned at the top of the back-type heat pipes 73 blows the hot air downwards to enable the hot air to act on the top of the fabric, the small air opening 78 positioned at the left side of the back-type heat pipes 73 blows the hot air rightwards to enable the hot air to act on the side edge of the fabric, the small air opening 78 positioned at the bottom of the back-type heat pipes 73 blows the hot air upwards to enable the hot air to act on the bottom of the fabric, the small air port 78 positioned on the right side of the heat pipe 73 blows hot air leftwards to enable the hot air to act on the other side edge of the fabric, the hot air is finally discharged from the large air port 710, through the functions of the small air ports 78, when the hot air is discharged from the large air port 710, the air quantity is small, the large opening of the large air port 710 can enable the rest hot air to act on the other side edge of the fabric, the fabric can be softer through the heating treatment of each surface of the fabric, and the wrinkle removal work can be more effectively carried out when the flattening assembly 8 and the edge flattening assembly 9 are used for flattening operation in the follow-up process, and the hot air is blown out on the multiple surfaces of the fabric, so that the effect of the hot air is improved, and the heating efficiency of the fabric is ensured.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely 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 is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides a waterproof surface fabric stamp device, includes frame (1), fixes frame (2) in frame (1) top intermediate position department, sets up stamp subassembly (3) in frame (2) top one end, sets up coil stock roller (5) at frame (2) front end to and set up blowing roller (4) at frame (2) rear end, its characterized in that: the printing assembly (3) comprises a frame (31) fixed at one end of the top of the machine table (2), a hydraulic telescopic rod (32) is arranged at the middle position of the top of the frame (31), an upper printing pressing plate (33) is arranged at the top end of the inside of the frame (31), the output end of the bottom of the hydraulic telescopic rod (32) extends into the frame (31) and is fixedly connected with the upper printing pressing plate (33), a lower printing pressing plate (34) is fixed at the bottom end of the inside of the frame (31), and the lower printing pressing plate (34) is opposite to the position of the upper printing pressing plate (33);

A supporting frame body (6) is fixed at the middle position of the top of the machine table (2), one end inside the supporting frame body (6) is provided with a flattening component (8), the flattening component (8) comprises a flattening scraping frame (81) arranged at one end inside the supporting frame body (6), a supporting roller II (82) is arranged below the front end of the flattening scraping frame (81), the supporting roller II (82) is arranged on the machine table (2), the other end inside the supporting frame body (6) is provided with a lower flattening roller (85), the lower flattening roller (85) is arranged on the machine table (2), side blocks (86) are fixed at two sides of the lower flattening roller (85), a guide vertical plate (87) is fixed at the top of the side blocks (86), a frame (83) is arranged above the lower flattening roller (85), guide grooves (88) are formed in two sides of the frame (83), the frame (83) are sleeved on the guide vertical plate (87) through the guide grooves (88), and an upper flattening roller (84) is arranged in the frame (83) in a rotating mode;

The two sides of the flattening component (8) are provided with edge flattening components (9), the edge flattening components (9) comprise outer frames (94) fixed at the rear ends of the two sides of the flattening scraping frame (81), one end of each outer frame (94) is fixedly connected with a frame (83), two sides of the bottom of each outer frame (94) are respectively provided with a support plate (92), each support plate (92) is fixed on a machine table (2), the tops of the support plates (92) are fixedly provided with guide rods (97), the two sides of each outer frame (94) are provided with guide cavities (98), the outer frames (94) are sleeved on the guide rods (97) through the guide cavities (98), two rotating rollers (91) are rotatably arranged between the inside of each outer frame (94) and the corresponding support plates (92), rubber belts (95) are arranged on the outer side walls of the corresponding rotating rollers (91), a first motor (93) is mounted on the side walls of each support plate (92) and each outer frame (94), and the rotating shaft of the first motor (93) is fixedly connected with one rotating roller (91);

lifting assemblies (10) are arranged on the flattening assemblies (8) and the edge flattening assemblies (9), and a heating assembly (7) is arranged at the other end of the top of the machine table (2).

2. A waterproof fabric printing device according to claim 1, wherein: the guide vertical plate (87) is matched with the guide groove (88) in size, and the frame (83) can slide up and down outside the guide vertical plate (87) through the guide groove (88).

3. A waterproof fabric printing device according to claim 1, wherein: the rubber rollers (96) are embedded on the outer side wall of the rubber belt (95) at equal intervals, and the rubber rollers (96) are rotatably arranged on the outer side wall of the rubber belt (95).

4. A waterproof fabric printing device according to claim 1, wherein: the lifting assembly (10) comprises a flattening scraping frame (81) and steel wires (103) on two sides of the top of the outer frame (94), the steel wires (103) protrude out of the top of the supporting frame body (6), a winding disc (101) is installed on the top of the supporting frame body (6), the winding disc (101) is fixedly connected with the end part of the steel wires (103), and a motor II (102) is installed on one side of the winding disc (101).

5. A waterproof fabric printing device as defined in claim 4, wherein: the number of winding discs (101) is the same as the number of steel wires (103), one winding disc (101) corresponding to each steel wire (103).

6. A waterproof fabric printing device as defined in claim 4, wherein: the heating assembly (7) comprises a heating machine shell (71) arranged at the other end of the top of the machine table (2), the heating machine shell (71) is located at the front end of a second supporting roller (82), the front end of the heating machine shell (71) is provided with a first supporting roller (72), the first supporting roller (72) is arranged on the machine table (2), a heat pipe (73) is fixed in the heating machine shell (71), a heating chamber (74) is arranged on one side of the top of the heating machine shell (71), a connecting pipe (75) is arranged at one end of the heating chamber (74), one end of the connecting pipe (75) extends into the heating machine shell (71) and is connected with one side of the top of the heat pipe (73), an air blowing fan (76) is arranged at the other end of the heating chamber (74), and an electric heating wire (77) is arranged in the heating chamber (74).

7. A waterproof fabric printing device as defined in claim 6, wherein: the heating assembly (7) further comprises small air outlets (78) formed in the inner side walls of the heat pipes (73), air guiding covers (79) are fixed on the inner side walls of the heat pipes (73), the air guiding covers (79) are located at the small air outlets (78), one air guiding cover (79) is fixed on each small air outlet (78), and large air outlets (710) are formed in the top ends of one side of the inner portions of the heat pipes (73).