CN117162677B - Feeding and discharging roller set device of double-side tension adjustment type printing machine - Google Patents

Abstract

The invention relates to the technical field of printing machines, in particular to a feeding and discharging roller set device of a double-side tension adjustment type printing machine. According to the invention, in the process of conveying and printing the cloth, the two sides of the cloth can be pressed and tensioned more fully, so that the folds of the cloth are effectively reduced, the surface of the cloth is smoother and has no folds, and the printing effect of the cloth is better. The invention comprises a placing rack, a supporting frame, a servo motor and the like; the upper portion one side of rack is equipped with the concave surface, and support frame fixed connection is on the upper portion of rack near concave surface one side, servo motor fixed connection on the support frame. According to the invention, the conveying roller rotates to drive the driving gear to rotate, so that the plurality of cloth extrusion frames are driven to rotate, and the plurality of cloth extrusion frames are sequentially extruded by the pressing frames, so that the cloth extrusion frames sequentially move downwards and press the side edges of cloth, the cloth is kept in a flat state in the printing process, and the printing effect of the cloth is improved.

Description

Feeding and discharging roller set device of double-side tension adjustment type printing machine

Technical Field

The invention relates to the technical field of printing machines, in particular to a feeding and discharging roller set device of a double-side tension adjustment type printing machine.

Background

The printing machine is a special device for textile printing, and is generally composed of a transmission system, a net frame, a printing roller, a doctor blade, an ink applicator, a dryer and other parts. The printing machine is widely applied to industries such as clothing, home textile, bags, shoes and caps, and the like, and can print various colors, various patterns and characters, wherein in the production process of the clothing, the woven cloth is printed, then cut into semi-finished products and then subjected to other procedures.

At present, when the printing machine unreels the cloth and prints, because the cloth has certain elasticity, so need to carry out the tensioning to the cloth, if the tensioning force of cloth is insufficient, the surface of cloth can produce the fold to influence the printing quality of cloth, but at present the printing machine relies on unreeling the device to carry out the tensioning to the cloth generally, and this kind of mode is relatively poor to the tensioning effect of cloth, and the cloth still produces the fold at the in-process of printing easily, leads to the surface of cloth to be uneven.

Disclosure of Invention

In view of the problems in the prior art, the invention provides the feeding and discharging roller set device of the double-side tension adjustment type printing machine, which can press and more fully tension two sides of cloth in the process of conveying and printing the cloth, and effectively reduce wrinkles of the cloth, so that the surface of the cloth is smoother and has no wrinkles, and the printing effect of the cloth is better.

The technical scheme of the invention is as follows: the utility model provides a two side tension adjustment formula calico printing machine goes up unloading roller group device, including the rack, a support rack, servo motor, the mounting bracket, digital printer, the fixed bolster, the air heater, conveying subassembly and pressing assembly, upper portion one side of rack is equipped with the concave surface, support rack fixed connection is being close to the upper portion of concave surface one side at the rack, servo motor fixed connection is on the support rack, mounting bracket fixed connection is on rack upper portion, digital printer fixed connection is on the mounting bracket, digital printer is located the rack top, fixed bolster fixed connection is at the top of mounting bracket, even interval is equipped with a plurality of air heater on the fixed bolster, the air outlet of a plurality of air heater all is located the rack top, conveying subassembly is established on the rack, conveying subassembly is used for carrying the cloth, pressing assembly establishes on the rack, conveying subassembly is connected with pressing assembly, pressing assembly is used for pressing the cloth.

Further, the conveying assembly comprises a fixed support plate, conveying rollers, driving gears and hooks, two fixed support plates are fixedly connected to two sides of the placement frame, the two fixed support plates are in a group, two conveying rollers are rotatably connected between the two fixed support plates in each group, the two conveying rollers are in a group, one conveying roller is fixedly connected with an output shaft of a servo motor, the driving gears are fixedly connected to two ends of the conveying rollers on the servo motor, the hooks are fixedly connected to the bottoms of the two fixed support plates far away from one side of the driving gears, a cloth roller is placed between the two hooks, cloth is wound on the cloth roller, the cloth of the cloth roller passes through the placement frame, the cloth of the cloth roller passes between the two groups of conveying rollers, the cloth of the cloth roller contacts with the two groups of conveying rollers, and the cloth of the cloth roller passes between the placement frame and the digital printer.

Further, press the subassembly including spacing support, first pulley yoke, second pulley yoke, conveyer belt, driven gear, the leading truck, the carriage, reset spring, cloth extrusion frame, extrusion spring and press the frame, the top both sides of rack all fixedly connected with spacing support, two spacing supports are the symmetry setting, all be connected with first pulley yoke and second pulley yoke on each spacing support rotationally, it has conveyer belt to be located between first pulley yoke and the second pulley yoke on the same spacing support, the quantity of conveyer belt is two, the one end of two pulley yokes is fixedly connected with driven gear, drive gear and driven gear meshing, all fixedly connected with a plurality of leading truck on each leading truck, all be connected with the carriage on each leading truck, all be connected with two reset springs between leading truck and the carriage, all be connected with cloth extrusion frame on each carriage, all fixedly connected with presses the frame on each spacing support, press frame and part cloth extrusion frame contact, and the cloth extrusion frame below is located cloth extrusion frame and cloth extrusion roller contact.

Further, the cloth pressing device comprises an opening assembly, the opening assembly is arranged on the pressing frames and used for tensioning cloth, the opening assembly comprises side pushing frames, threaded rods and screwing columns, each pressing frame is connected with the side pushing frame in a sliding mode, the cloth pressing frames below the pressing frames are in contact with the side pushing frames, each pressing frame is connected with the threaded rod in a rotating mode, the threaded rods are connected with the side pushing frames through threads, and one end of each threaded rod is fixedly connected with the screwing column.

Further, the cloth flattening device comprises a flattening assembly, wherein the flattening assembly is used for flattening cloth, the flattening assembly comprises flattening rollers, first bevel gears and second bevel gears, the upper portion of one side, far away from the driven gear, of each limiting support is connected with the flattening rollers in a rotating mode, each flattening roller is in contact with the cloth of the cloth roller, one end of each first pulley frame is fixedly connected with the first bevel gears, one end of each flattening roller is fixedly connected with the second bevel gears, and the first bevel gears are meshed with the second bevel gears.

Further, still including extrusion dish, support, strike frame and torsion spring, every one side that smoothes the roller and is close to bevel gear two all fixedly connected with extrusion dish, and the top both sides of rack are all fixedly connected with support, all are connected with the frame of beating on every support, strike the frame and be used for beating the cloth, strike the one end and the extrusion dish contact of frame, and the other end that two were beaten the frame all is located the rack below, is connected with torsion spring between support and the frame of beating.

Further, the heat insulation frame is fixedly connected to the bottom of the fixing support, and air outlets of the plurality of air heaters are located in the heat insulation frame.

The beneficial effects are that: 1. according to the invention, the servo motor drives the conveying roller to rotate and unreels and conveys cloth on the cloth roller, the digital printer performs ink jet printing on the cloth, then the hot air is blown to the cloth subjected to the ink jet printing, so that printed patterns on the cloth are quickly dried and formed, printing of the cloth is completed, one conveying roller rotates to drive the driving gear to rotate, and then the belt pulley rack is driven to rotate, the conveying belt rotates to drive the guide frames, the support plate frames and the cloth extrusion frames to rotate, the cloth extrusion frames are sequentially extruded by the pressing frames, the cloth extrusion frames sequentially move downwards and press the side edges of the cloth, and then in the process of conveying and printing the cloth, the cloth extrusion frames on two sides of the cloth press the side edges of the cloth, so that the cloth is kept in a flat state in the printing process, and the cloth is prevented from being wrinkled or offset to influence the printing, and the printing effect of the cloth is improved.

2. According to the invention, the plurality of cloth extrusion frames are sequentially extruded by the side pushing frames, so that the cloth extrusion frames move to one side far away from the digital printer, the cloth extrusion frames move to slightly pull the cloth, and further, the two sides of the cloth are tensioned in the process of conveying and printing the cloth, so that the folds of the cloth are further reduced, the cloth can be more flat during conveying and printing, the printing quality of the cloth is improved, the positions of the side pushing frames can be adjusted by rotating the screwing column, and the tensioning degree of the cloth is adjusted according to the elasticity of the cloth, or the width of the cloth is adjusted, so that the cloth is suitable for cloth with different elasticity or width.

3. According to the invention, the belt pulley frame I rotates to drive the bevel gear I to rotate, the bevel gear I rotates to drive the bevel gear II to rotate together with the smoothing rollers, the two smoothing rollers rotate to slightly pull two sides of the cloth outwards, so that the cloth is pulled and tensioned more fully, the surface of the cloth is smoother and has no wrinkles, the smoothing rollers rotate to drive the extrusion disc to rotate, the extrusion disc rotates to continuously push the knocking frame to swing, and the knocking frame can be made to swing back and forth and continuously flap the cloth pulled out by the cloth roller, so that the cloth is stretched and flattened, and the printing effect of the cloth is better.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic partial perspective view of a first embodiment of the present invention.

Fig. 3 is a schematic view of a first partial perspective view of the delivery assembly, pressing assembly and smoothing assembly of the present invention.

Fig. 4 is an enlarged perspective view of fig. 3 a according to the present invention.

Fig. 5 is a schematic view of a second partial perspective view of the delivery assembly, pressing assembly and smoothing assembly of the present invention.

Fig. 6 is a schematic view of a partial perspective view of the pressing assembly and the smoothing assembly of the present invention.

Fig. 7 is a partial perspective view of the pressing and expanding assembly of the present invention.

Fig. 8 is a schematic view of a partial perspective structure of the pressing assembly of the present invention.

Fig. 9 is a partial perspective view of the delivery assembly and the compression assembly of the present invention.

Fig. 10 is an enlarged perspective view of the structure of fig. 9B according to the present invention.

Fig. 11 is a schematic perspective view of a fixing bracket, an air heater and a heat insulation frame according to the present invention.

Fig. 12 is a schematic partial perspective view of a second embodiment of the present invention.

In the reference numerals: 1-placing frame, 2-supporting frame, 3-servo motor, 4-mounting frame, 5-digital printer, 6-fixed support, 7-air heater, 81-fixed support plate, 82-conveying roller, 83-driving gear, 84-couple, 85-distributing roller, 91-spacing support, 92-belt wheel frame I, 93-belt wheel frame II, 94-conveying belt, 95-driven gear, 96-guide frame, 97-supporting plate frame, 98-reset spring, 99-cloth extrusion frame, 910-extrusion spring, 911-extrusion frame, 101-side pushing frame, 102-threaded rod, 103-screwing column, 111-smoothing roller, 112-bevel gear I, 113-bevel gear II, 121-extrusion disc, 122-support, 123-knocking frame, 124-torsion spring, 13-heat insulation frame.

Detailed Description

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

Example 1: the utility model provides a bilateral tension adjustment formula calico printing machine goes up unloading roller group device, as shown in fig. 1-11, including rack 1, support frame 2, servo motor 3, mounting bracket 4, digital printer 5, fixed bolster 6, air heater 7, conveying component and pressing component, upper portion one side of rack 1 is equipped with the concave surface, support frame 2 welds the upper portion that is close to concave surface one side at rack 1, servo motor 3 passes through bolted connection on support frame 2, mounting bracket 4 welds on rack 1 upper portion, digital printer 5 passes through bolted connection on mounting bracket 4, digital printer 5 is located rack 1 top, digital printer 5 is used for carrying out the inkjet printing to the cloth, fixed bolster 6 welds the top at mounting bracket 4, even interval is equipped with three air heater 7 on the fixed bolster 6, the air outlet of three air heater 7 all is located rack 1 top, air heater 7 is used for drying the printed pattern on the cloth, conveying component is established on rack 1, conveying component is used for carrying the cloth, pressing component is established on rack 1, conveying component is connected with pressing component, pressing component is used for pressing the cloth.

The conveying assembly comprises two fixed support plates 81, conveying rollers 82, driving gears 83 and hooks 84, wherein two fixed support plates 81 are welded on two sides of the rack 1, the two fixed support plates 81 are in a group, two conveying rollers 82 are connected between the two fixed support plates 81 in each group in a rotating mode, the conveying rollers 82 are horizontally arranged, the conveying rollers 82 are used for unreeling and conveying cloth, the two conveying rollers 82 are in a group, one conveying roller 82 is fixedly connected with an output shaft of the servo motor 3, the driving gears 83 are connected to two ends of the conveying rollers 82 located on the servo motor 3 through flat keys, hooks 84 are welded on the bottoms of the two fixed support plates 81 on one side far away from the driving gears 83, a cloth roller 85 is placed between the two hooks 84, the cloth roller 85 is arranged horizontally, cloth is wound on the cloth roller 85, the cloth of the cloth roller 85 passes through the rack 1, the cloth of the cloth roller 85 passes through the space between the two groups of conveying rollers 82, the cloth of the cloth roller 85 is in contact with the two groups of conveying rollers 82, and the cloth of the cloth roller 85 passes through the space between the cloth rack 1 and the digital printer 5.

The pressing component comprises a limiting bracket 91, a first pulley frame 92, a second pulley frame 93, a conveying belt 94, a driven gear 95, a guide frame 96, a supporting plate frame 97, a reset spring 98, a cloth extruding frame 99, an extruding spring 910 and a pressing frame 911, wherein the limiting brackets 91 are welded on two sides of the top of the placing frame 1, the two limiting brackets 91 are symmetrically arranged, each limiting bracket 91 is rotationally connected with the first pulley frame 92 and the second pulley frame 93, the conveying belt 94 is wound between the first pulley frame 92 and the second pulley frame 93 which are positioned on the same limiting bracket 91, the number of the conveying belts 94 is two, one ends of the two pulley frames 93 are connected with the driven gear 95 through flat keys, the driving gear 83 is meshed with the driven gear 95, a plurality of guide frames 96 are fixedly connected on each conveying belt 94, each guide frame 96 is connected with a support plate frame 97 in a sliding manner, each guide frame 96 is used for guiding the support plate frame 97, two return springs 98 are connected between each guide frame 96 and the support plate frame 97, each return spring 98 is sleeved on the support plate frame 97, each support plate frame 97 is connected with a cloth extrusion frame 99 in a sliding manner, each cloth extrusion frame 99 is used for pressing and tensioning the side edge of cloth, friction lines are arranged on each cloth extrusion frame 99, each extrusion spring 910 is connected between each support plate frame 97 and each cloth extrusion frame 99, each limiting support 91 is welded with a pressing frame 911, each pressing frame 911 is in contact with a part of the cloth extrusion frame 99, each pressing frame 911 is used for pressing the cloth extrusion frame 99 to move downwards and press the cloth, and each cloth extrusion frame 99 located below each pressing frame 911 is in contact with the cloth of the cloth roller 85.

In actual operation, a worker clamps a cloth roller 85 rolled with cloth between two hooks 84, then sequentially pulls one end of the cloth on the cloth roller 85 to a position between two conveying rollers 82 of one group, a position between the top of a placement frame 1 and the bottom of a digital printer 5, and a position between two conveying rollers 82 of the other group, then simultaneously starts a servo motor 3, the digital printer 5 and three hot air blowers 7, an output shaft of the servo motor 3 rotates to drive one conveying roller 82 and two driving gears 83 to rotate together, one conveying roller 82 rotates to unwind and convey the cloth on the cloth roller 85 together with other conveying rollers 82, in the process of conveying the cloth, the digital printer 5 can intermittently perform ink-jet printing on the cloth on the placement frame 1, then the three hot air blowers 7 can blow hot air to the cloth after ink-jet printing, the printing pattern on the cloth is quickly dried and formed, thereby finishing the printing of the cloth, the rotation of the driving gear 83 drives the rotation of the driven gear 95, the rotation of the driven gear 95 drives the rotation of the belt pulley frame II 93, the rotation of the belt pulley frame II 93 drives the rotation of the belt pulley frame I92 through the conveying belt 94, the rotation direction of the conveying belt 94 is consistent with the conveying direction of the cloth, the rotation speeds of the driving gear 83 and the driven gear 95 are consistent because the sizes of the driving gear 83 and the driven gear 95 are consistent, the rotation of the conveying belt 94 drives the plurality of guide frames 96, the supporting plate frames 97 and the cloth extrusion frames 99 to rotate together, the plurality of cloth extrusion frames 99 rotate to be contacted with the pressing frames 911 in sequence and are extruded by the pressing frames 911, the cloth extrusion frames 99 are sequentially moved downwards, the pressing springs 910 are compressed, the cloth extrusion frames 99 are moved downwards to be contacted with the cloth on the placing frames 1, and press the side of cloth, then cloth extrusion frame 99 continue to rotate and can convey the cloth, after cloth extrusion frame 99 continues to rotate and breaks away from the contact with pressing frame 911, extrusion spring 910 resets and can drive cloth extrusion frame 99 and reset, and no longer press the cloth on rack 1, repeat this, and then in the in-process of cloth transport and printing, make a plurality of cloth extrusion frame 99 of cloth both sides press the side of cloth, make the cloth keep the state of leveling at the in-process of printing, avoid cloth fold or skew to influence the printing, thereby improve the printing effect of cloth.

Example 2: on the basis of embodiment 1, as shown in fig. 1-8, the device further comprises an opening assembly, the opening assembly is arranged on the pressing frames 911, the opening assembly is used for tensioning cloth, the opening assembly comprises side pushing frames 101, threaded rods 102 and screwing columns 103, each pressing frame 911 is connected with the side pushing frame 101 in a sliding mode, the cloth pushing frames 99 located below the pressing frames 911 are in contact with the side pushing frames 101, the side pushing frames 101 are used for pushing the cloth pushing frames 99 to move and pull the cloth, each pressing frame 911 is rotatably connected with the threaded rod 102, the threaded rods 102 are connected with the side pushing frames 101 through threads, the threaded rods 102 are used for adjusting the distance between the side pushing frames 101, and one end of each threaded rod 102 is welded with the screwing column 103.

The cloth extrusion frames 99 are sequentially contacted with the side pushing frames 101 and are extruded by the side pushing frames 101, the cloth extrusion frames 99 and the supporting plate frames 97 move to the side far away from the digital printer 5, the reset springs 98 are stretched, the cloth extrusion frames 99 move to the side far away from the digital printer 5 and slightly pull cloth due to the fact that the cloth extrusion frames 99 are contacted with the cloth on the placing frame 1, the two sides of the cloth are tensioned in the process of conveying and printing the cloth, wrinkles of the cloth are further reduced, the cloth can be made to be flatter during conveying and printing, the printing quality of the cloth is improved, after the cloth extrusion frames 99 continue to rotate and are separated from the side pushing frames 101, the reset springs 98 reset to drive the cloth extrusion frames 99, meanwhile, workers can adjust the positions of the side pushing frames 101 through rotating the screwing columns 103, and further adjust the moving distance of the supporting plate frames 97, accordingly the tensioning degree of the cloth is adjusted according to the elasticity of the cloth, or the width of the cloth is adjusted according to the width of the cloth, and the cloth can be suitable for cloth with different elasticity or width.

Example 3: on the basis of embodiment 2, as shown in fig. 1-10, the device further comprises a smoothing component, the smoothing component is used for smoothing cloth, the smoothing component comprises a smoothing roller 111, a first bevel gear 112 and a second bevel gear 113, the upper part of one side of each limiting support 91, which is far away from the driven gear 95, is rotatably connected with the smoothing roller 111, the surface of the smoothing roller 111 is a smooth surface, the smoothing roller 111 is used for slightly pulling the cloth, each smoothing roller 111 is in contact with the cloth of the cloth roller 85, one end of each first pulley yoke 92 is connected with a first bevel gear 112 through a smoothing key, one end of each smoothing roller 111 is connected with the second bevel gear 113 through a smoothing key, and the first bevel gear 112 is meshed with the second bevel gear 113.

Initially, after the cloth passes between one of the two conveying rollers 82, a worker passes the cloth between the rack 1 and the two smoothing rollers 111, and then passes the cloth between the top of the rack 1 and the bottom of the digital printer 5, the two smoothing rollers 111 just contact the cloth, the first pulley frame 92 rotates and drives the first bevel gear 112 to rotate, the first bevel gear 112 rotates and drives the second bevel gear 113 to rotate together with the smoothing rollers 111, the two smoothing rollers 111 rotate and slightly pull the two sides of the cloth outwards, so that the cloth is pulled and tensioned more fully, the surface of the cloth is smoother and has no wrinkles, and the printing effect of the cloth is better.

Example 4: on the basis of embodiment 3, as shown in fig. 5-12, the device further comprises an extrusion disc 121, supports 122, a knocking frame 123 and torsion springs 124, wherein one side, close to the bevel gear two 113, of each flattening roller 111 is fixedly connected with the extrusion disc 121, supports 122 are welded on two sides of the top of the placement frame 1, the two supports 122 are symmetrically arranged, each support 122 is rotatably connected with the knocking frame 123, the knocking frame 123 is used for beating cloth, one end of the knocking frame 123 is in contact with the extrusion disc 121, the other ends of the two knocking frames 123 are located below the placement frame 1, torsion springs 124 are connected between the supports 122 and the knocking frame 123, and the torsion springs 124 are sleeved on the knocking frame 123.

The smooth roller 111 rotates and can drive the extrusion disc 121 to rotate, the extrusion disc 121 rotates and can promote to strike the one end that the frame 123 is close to smooth roller 111 and swing downwards, and then make and strike the one end that the frame 123 kept away from smooth roller 111 and swing upwards, torsion spring 124 is turned round, extrusion disc 121 continues to rotate and will not promote to strike the frame 123, torsion spring 124 resets and can drive and strike the one end that the frame 123 kept away from smooth roller 111 and swing downwards, then strike the one end that the frame 123 kept away from smooth roller 111 and swing downwards and can contact with the cloth that cloth roller 85 pulled out, and gently beat the cloth that cloth roller 85 pulled out, the extrusion disc 121 continues to rotate and can promote to strike the one end that the frame 123 is close to smooth roller 111 and swing downwards, repeatedly so, and then make and strike the reciprocating swing of frame 123 and not break the cloth that beats cloth roller 85 and tear out, make the cloth more stretch and smooth.

Example 5: on the basis of embodiment 4, as shown in fig. 1-11, the heat insulation frame 13 is further included, the heat insulation frame 13 is welded at the bottom of the fixed support 6, air outlets of the three air heaters 7 are all located in the heat insulation frame 13, and the heat insulation frame 13 is used for isolating hot air blown by the air heaters 7.

In the process of opening the air heater 7, the heat insulation frame 13 can effectively isolate hot air blown out of the air heater 7, and heat loss of the hot air is reduced, so that the hot air blown out of the air heater 7 can dry patterns printed on cloth more rapidly.

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

Claims (2)

1. Feeding and discharging roller set device of double-side tension adjustment type embossing machine is characterized in that: the automatic cloth pressing device comprises a placing frame (1), a supporting frame (2), a servo motor (3), a mounting frame (4), a digital printing machine (5), a fixing support (6), an air heater (7), a conveying component and a pressing component, wherein a concave surface is arranged on one side of the upper portion of the placing frame (1), the supporting frame (2) is fixedly connected to the upper portion of the placing frame (1) close to the concave surface, the servo motor (3) is fixedly connected to the supporting frame (2), the mounting frame (4) is fixedly connected to the upper portion of the placing frame (1), the digital printing machine (5) is fixedly connected to the mounting frame (4), the digital printing machine (5) is located above the placing frame (1), the fixing support (6) is fixedly connected to the top of the mounting frame (4), a plurality of air heaters (7) are uniformly arranged on the fixing support (6) at intervals, the air outlets of the plurality of air heaters (7) are all located above the placing frame (1), the conveying component is arranged on the placing frame (1), the conveying component is used for conveying cloth, the pressing component is arranged on the placing frame (1), the conveying component is connected to the pressing component, and the pressing component is used for pressing cloth.

The conveying assembly comprises a fixed support plate (81), conveying rollers (82), driving gears (83) and hooks (84), two sides of the rack (1) are fixedly connected with two fixed support plates (81), the two fixed support plates (81) are in a group, two conveying rollers (82) are rotatably connected between the two fixed support plates (81) in each group, the two conveying rollers (82) are in a group, one conveying roller (82) is fixedly connected with an output shaft of the servo motor (3), the driving gears (83) are fixedly connected to two ends of the conveying roller (82) on the servo motor (3), hooks (84) are fixedly connected to the bottoms of the two fixed support plates (81) at one side far away from the driving gears (83), a cloth roller (85) is placed between the two hooks (84), cloth of the cloth roller (85) penetrates through the rack (1), the cloth of the cloth roller (85) penetrates between the two groups of conveying rollers (82), the cloth of the cloth roller (85) is contacted with the two groups of conveying rollers (82), and the cloth roller (85) penetrates between the cloth roller (85) and the printing machine (5);

the pressing component comprises a limiting bracket (91), a first belt pulley frame (92), a second belt pulley frame (93), a conveying belt (94), a driven gear (95), guide frames (96), a supporting plate frame (97), a reset spring (98), a cloth extrusion frame (99), extrusion springs (910) and a pressing frame (911), wherein the limiting brackets (91) are fixedly connected to the two sides of the top of the placing frame (1), the two limiting brackets (91) are symmetrically arranged, the first belt pulley frame (92) and the second belt pulley frame (93) are rotatably connected to each limiting bracket (91), the conveying belt (94) is wound between the first belt pulley frame (92) and the second belt pulley frame (93) on the same limiting bracket (91), the number of the conveying belts (94) is two, one end of each of the two belt pulley frames (93) is fixedly connected with the driven gear (95), the driving gear (83) is meshed with the driven gear (95), a plurality of guide frames (96) are fixedly connected to each conveying belt (94), the supporting plate frames (97) are connected to the sliding type on each guide frame (96), the two guide frames (97) are connected to the sliding type between the two support frames (97), an extrusion spring (910) is connected between the supporting plate frame (97) and the cloth extrusion frame (99), each limiting bracket (91) is fixedly connected with a pressing frame (911), the pressing frames (911) are contacted with part of the cloth extrusion frames (99), and the cloth extrusion frames (99) below the pressing frames (911) are contacted with cloth of the cloth roller (85);

the upper and lower material roller group device of the bilateral tension adjustment type printing machine further comprises an opening assembly, the opening assembly is arranged on the pressing frames (911) and used for tensioning cloth, the opening assembly comprises side pushing frames (101), threaded rods (102) and screwing columns (103), the side pushing frames (101) are connected to each pressing frame (911) in a sliding mode, the cloth pressing frames (99) located below the pressing frames (911) are in contact with the side pushing frames (101), the threaded rods (102) are connected to each pressing frame (911) in a rotating mode, and the threaded rods (102) are connected with the side pushing frames (101) in a threaded mode;

the upper and lower material roller group device of the double-side tension adjustment type printing machine further comprises a flattening component, wherein the flattening component is used for flattening cloth and comprises flattening rollers (111), first bevel gears (112) and second bevel gears (113), the upper part of one side, far away from the driven gear (95), of each limiting bracket (91) is rotatably connected with the flattening rollers (111), each flattening roller (111) is contacted with the cloth of the cloth roller (85), one end of each first pulley yoke (92) is fixedly connected with the first bevel gears (112), one end of each flattening roller (111) is fixedly connected with the second bevel gears (113), and the first bevel gears (112) are meshed with the second bevel gears (113);

the utility model provides a bilateral tension adjustment formula calico printing machine goes up unloading roller group device still includes extrusion dish (121), support (122), strike frame (123) and torsion spring (124), one side that every is smooth roller (111) and is close to bevel gear two (113) all fixedly connected with extrusion dish (121), the top both sides of rack (1) all fixedly connected with support (122), all be connected with on every support (122) and strike frame (123), strike frame (123) and be used for beating the cloth, strike the one end and the extrusion dish (121) contact of frame (123), the other end that two were strikeed frame (123) all is located rack (1) below, be connected with torsion spring (124) between support (122) and the frame (123) of strikeing.

2. The double-sided tension adjustment type printing machine feeding and discharging roller set device as claimed in claim 1, wherein: the heat insulation device further comprises a heat insulation frame (13), wherein the heat insulation frame (13) is fixedly connected to the bottom of the fixed support (6), and air outlets of the plurality of air heaters (7) are all located in the heat insulation frame (13).