CN116715065B

CN116715065B - Textile fabric printing device

Info

Publication number: CN116715065B
Application number: CN202310964373.XA
Authority: CN
Inventors: 陈荣洪; 田剑; 黄鸿楷; 黄灿楷; 陈俊坚
Original assignee: Guangdong King Rong Hua Industry Co ltd
Current assignee: Guangdong King Rong Hua Industry Co ltd
Priority date: 2023-08-02
Filing date: 2023-08-02
Publication date: 2023-12-05
Anticipated expiration: 2043-08-02
Also published as: CN116715065A

Abstract

The invention belongs to the technical field of textile printing, and particularly relates to a textile fabric printing device which comprises a frame, wherein the frame is provided with a feeding roller and a winding roller, printing equipment is arranged on the frame, a compression roller mechanism is arranged between the winding roller and the printing equipment, the frame is provided with a feeding adjusting mechanism, and a sliding frame is provided with a length adjusting component; in the printing process of every turn, through the cooperation of live-rollers rotation and rotation inflation mechanism for elasticity air bag inflation, because the distance between arc piece and the live-rollers is invariable in the printing process of every turn, elasticity air bag inflation volume is the same, the live-rollers rotation number of turns is the same, the cloth length of live-rollers conveying is the same, the distance of cloth stamp is equal, for the stamp distance of difference, length adjustment subassembly can adjust the distance of carriage and live-rollers, the distance of carriage and live-rollers is longer, the inflation volume of elasticity air bag is just big, the number of turns increases of live-rollers, thereby change the distance of equidistance stamp on the cloth.

Description

Textile fabric printing device

Technical Field

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

Background

In real life, the application of cloth stamp is more and more extensive, and the cloth stamp that people often say is with various colored patterns and characters seal on various fabrics such as cotton, hemp, chemical fibre and nylon, prior art (CN 2020113089216) discloses a textile industry is with cloth stamp device, carries out the stamp operation through clamp plate and template to the cloth of placing on it, simple structure, convenient to use can improve stamp and the synchronism of pay-off effectively, and then increases the precision of cloth stamp effectively to improve the quality of stamp.

However, in this technical scheme, when beginning the stamp, the cloth volume of placing in the feed roll is great, along with the beginning of stamp operation, the radius of cloth volume is less and less, and in this scheme, the feed roll is linked with the lift of stamp template, and the stamp template carries out the stamp promptly, and because the radius of cloth volume is less and less after the stamp operation begins, consequently the cloth length that the feed roll rotated the transfer of certain number of turns will be shorter and shorter, consequently can lead to the stamp pattern interval on the cloth to be less and less, does not have the homogeneity, for this reason, we propose a textile fabric stamp device.

Disclosure of Invention

The purpose of the invention is that: aims to provide a textile fabric printing device which is used for solving the problems existing in the background technology.

In order to achieve the technical purpose, the invention adopts the following technical scheme:

the textile fabric printing device comprises a frame, wherein a feeding roller and a winding roller are respectively arranged on two sides of the frame, printing equipment is arranged on the upper side of the middle part of the frame, a printing platform corresponding to the printing equipment is further arranged on the frame, and a driving motor is arranged at one end of the winding roller;

a compression roller mechanism is arranged between the wind-up roller and the printing equipment, the compression roller mechanism comprises a rotating roller, a lifting assembly and a fixed roller, the rotating roller is rotationally connected with the frame, the fixed roller is movably connected with the frame through the lifting assembly, the fixed roller is positioned on the upper side of the rotating roller, and guide rollers with the heights lower than that of the rotating roller are arranged on two sides of the printing platform;

the feeding device comprises a frame, a rotating roller, a feeding adjusting mechanism, a length adjusting assembly, a second sliding rod, a first sliding rod, a second sliding rod, a first elastic air-filled bag, a second sliding rod, a first sliding rod and a second sliding rod, wherein the feeding adjusting mechanism is arranged on the lower side of one end of the rotating roller;

the rotary roller is provided with a rotary inflation mechanism at one end corresponding to the feeding adjusting mechanism, the rotary inflation mechanism is communicated with the elastic inflation bag through an inflation tube, and the inflation tube is provided with an electric control three-way valve.

The rotary inflation mechanism comprises a cam, a push plate and an inflation cavity, wherein the cam is fixedly connected with the end part of the rotary roller, first installation blocks are symmetrically and fixedly installed on the machine frame, the two first installation blocks are located below the push plate and provided with positioning holes, the two ends of the push plate are fixedly connected with first positioning rods which penetrate through the positioning holes in a sliding mode, second springs are fixedly connected between the two ends of the push plate and the first installation blocks respectively, the push plate is located below the cam and is in butt joint with the cam, the inflation cavity is fixedly installed on the machine frame and located on the lower side of the push plate, the push plate is fixedly connected with a push rod which is slidably extended to the inside of the inflation cavity, a one-way air inlet valve is installed on the upper side of the inflation cavity, a one-way air outlet valve is installed on the bottom of the inflation cavity, and an annular gap is formed between the push rod and the top of the inflation cavity.

One end of the inflation tube is communicated with the one-way exhaust valve, and the other end of the inflation tube is communicated with the elastic inflation bag.

The sliding frame is characterized in that second installation blocks are fixedly arranged on two sides of the sliding frame, the length adjusting assembly comprises a third installation block, a second positioning rod and an adjusting screw rod, the third installation block is located below the sliding frame, one end of the upper side of the third installation block is fixedly connected with the second positioning rod, the second positioning rod upwards slides to penetrate through one of the second installation blocks, the other end of the upper side of the third installation block is rotatably connected with the adjusting screw rod, the adjusting screw rod upwards penetrates through the other second installation block, the adjusting screw rod is in threaded connection with the second installation block, and the bottom of the third installation block is fixedly connected with the second sliding rod.

The fixed roller is fixedly connected with a mounting frame, the lifting assembly comprises a sliding block and a rotating rod, the sliding block is fixedly arranged at one end of the mounting frame, a sliding groove matched with the sliding block is formed in the mounting frame, the sliding block outwards penetrates through the sliding groove, a mounting table is further arranged at the lower side of the frame, the lower end of the rotating rod penetrates through the mounting table and is rotatably mounted with the mounting table, the upper end of the rotating rod penetrates through the sliding block, a threaded section is machined at the upper end of the rotating rod, a threaded hole matched with the threaded section is machined in the sliding block, and a plurality of third positioning rods which penetrate through the frame in a sliding mode are further arranged on the mounting frame.

The adjusting screw rod and the rotating rod are respectively provided with a rotating handle.

Two ports of the electric control three-way valve are used for communicating the air charging pipe, one side, close to the feeding roller, of the printing platform is provided with a printing table corresponding to the printing equipment, one side, close to the wind-up roller, of the printing platform is provided with an exhaust pipe, the height of the exhaust pipe is lower than that of the guide roller, the upper side of the exhaust pipe is provided with a plurality of exhaust nozzles which are arranged at equal intervals, and the end part of the exhaust pipe extends to be communicated with the air discharging port of the electric control three-way valve;

the frame and the stamp platform still are provided with a plurality of supports that are used for supporting the blast pipe, inflate the chamber top with between the push rod, one-way admission valve and one-way discharge valve all install dustproof filter screen.

In each printing process, the elastic inflatable bag is inflated through the rotation of the rotating roller and the cooperation of the rotating inflation mechanism, and as the distance between the arc-shaped block and the rotating roller is constant in each printing process, the inflation amount of the elastic inflatable bag is the same, the rotation number of turns of the rotating roller is the same, the length of cloth conveyed by the rotating roller is the same, and the distances of printing on the cloth are the same; and in order to be directed against the stamp distance of difference, the length adjustment subassembly of setting for the distance of carriage for the live-rollers can be adjusted, and the longer distance between carriage and the live-rollers, the greater the inflation volume that need fill into the elasticity air bag, consequently the number of turns of live-rollers also can increase, thereby can change the distance of equidistance stamp on the cloth.

Drawings

The invention may be further illustrated by means of non-limiting examples given in the accompanying drawings.

Fig. 1 is a schematic view of a first embodiment of the present invention when a fixed roller is lifted;

FIG. 2 is an enlarged schematic view of the structure at A in FIG. 1;

fig. 3 is a schematic diagram of a second structure of the first embodiment of the present invention when the fixed roller is lifted;

FIG. 4 is an enlarged schematic view of the structure at B of FIG. 3;

FIG. 5 is an enlarged schematic view of the structure at C of FIG. 3;

FIG. 6 is a schematic view showing a structure of sandwiching a cloth between a fixed roller and a rotating roller according to the first embodiment of the present invention;

FIG. 7 is a schematic diagram of a second embodiment of the present invention;

FIG. 8 is an enlarged schematic view of the structure at D of FIG. 7;

the main reference numerals are as follows:

the device comprises a frame 100, a feeding roller 101, a wind-up roller 102, a driving motor 1021, a printing device 103, a printing platform 104 and a guide roller 1041;

the rotary roller 105, the first sliding rod 1051, the sliding frame 1052, the timing stop button 1053, the sliding cylinder 1054, the arc-shaped block 1055, the first spring 1056, the second sliding rod 1057, the sliding plate 1058 and the elastic inflatable bag 1059;

the fixed roller 106, the mounting frame 1061, the sliding block 1062, the rotating rod 1063, the sliding groove 1064, the mounting table 1065 and the third positioning rod 1066;

the inflation tube 107, the electronic control three-way valve 1071, the cam 1081, the push plate 1082, the inflation chamber 1083, the one-way intake valve 10831, the one-way exhaust valve 10832, the first mounting block 1084, the first positioning rod 1085, the second spring 1086, the push rod 1087, the slide plate 1088;

a second mounting block 1091, a third mounting block 1092, a second positioning rod 1093, an adjusting screw 1094, and a turning handle 110;

print table 200, exhaust pipe 201, exhaust nozzle 202, bracket 203, and dust screen 204.

Detailed Description

In order that those skilled in the art will better understand the present invention, the following technical scheme of the present invention will be further described with reference to the accompanying drawings and examples.

Embodiment 1, a textile fabric printing device as shown in fig. 1 to 6, comprises a frame 100, wherein a feeding roller 101 and a winding roller 102 are respectively installed on two sides of the frame 100, a printing device 103 is installed on the upper side of the middle part of the frame 100, the frame 100 is further provided with a printing platform 104 corresponding to the printing device 103, and a driving motor 1021 is installed at one end of the winding roller 102;

a press roller mechanism is arranged between the wind-up roller 102 and the printing equipment 103, the press roller mechanism comprises a rotating roller 105, a lifting assembly and a fixed roller 106, the rotating roller 105 is rotationally connected with the frame 100, the fixed roller 106 is movably connected with the frame 100 through the lifting assembly, the fixed roller 106 is positioned on the upper side of the rotating roller 105, and guide rollers 1041 with the height lower than that of the rotating roller 105 are arranged on two sides of the printing platform 104;

the feeding and adjusting mechanism is arranged on the lower side of one end of the rotating roller 105 and comprises a first sliding rod 1051, a sliding frame 1052, a timing stop button 1053 and a sliding cylinder 1054, wherein the first sliding rod 1051 is in sliding sleeve arrangement with the sliding frame 1052, the upper end of the first sliding rod 1051 is fixedly connected with an arc-shaped block 1055 matched with the rotating roller 105, a first spring 1056 is fixedly connected between the lower end of the first sliding rod 1051 and the lower end of the sliding frame 1052, the timing stop button 1053 is arranged on the inner side of the first spring 1056, the timing stop button 1053 is electrically connected with a driving motor 1021, the sliding frame 1052 is provided with a length adjusting component, the lower end of the length adjusting component is fixedly connected with a second sliding rod 1057, the lower end of the second sliding rod 1057 extends into the sliding cylinder 1054 in a sliding way, the lower end of the second sliding rod 1057 is provided with a sliding plate 1058 matched with the sliding cylinder 1054, the lower end of the sliding cylinder 1054 is provided with an elastic inflatable bag 9, and the sliding cylinder 1054 is fixedly arranged on the frame 100;

one end of the rotating roller 105 corresponding to the feeding adjusting mechanism is provided with a rotating air charging mechanism, the rotating air charging mechanism is communicated with the elastic air charging bag 1059 through an air charging pipe 107, and the air charging pipe 107 is provided with an electric control three-way valve 1071.

The frame 100 is used for installing functional structures such as a feeding roller 101, a wind-up roller 102 and the like, and the printing equipment 103 and the printing platform 104 are common equipment for textile fabric printing processing, and are not specifically described herein, but only work functions are described; the rotating roller 105 can rotate relative to the frame 100, the fixed roller 106 can move up and down through the lifting assembly, and the guiding roller 1041 is used for tensioning and guiding the cloth; the timer stop button 1053 is used for performing stop control on the driving motor 1021, and when the timer stop button 1053 is pressed, the driving motor 1021 can stop for a preset time, and the timer stop button 1053 is in the prior art, and only work can be introduced;

before use, the fixed roller 106 is lifted by the lifting assembly, as shown in fig. 1, so that the fixed roller 106 is far away from the rotating roller 105, then a roll of cloth to be printed is arranged on the feeding roller 101, the cloth passes through the space between the fixed roller 106 and the rotating roller 105, then two guide rollers 1041 are bypassed and connected with the winding roller 102, and finally the fixed roller 106 is lowered by the lifting assembly, as shown in fig. 6, so that the cloth is tightly pressed between the fixed roller 106 and the rotating roller 105; when in use, the winding roller 102 is driven to wind up by the driving motor 1021, so that cloth can be conveyed, and cloth printing is performed through the printing equipment 103 and the printing platform 104;

in order to make the distances of printing on the cloth equal, a feeding adjusting mechanism is designed, and the specific principle operation steps are as follows:

step (1): when the driving motor 1021 is started to drive the wind-up roller 102 to wind up and convey cloth, the cloth is tightly pressed between the fixed roller 106 and the rotating roller 105, so that the rotating roller 105 can rotate relative to the frame 100 through friction force;

step (2): the electric control three-way valve 1071 of the air charging tube 107 is opened to enable the air charging tube 107 to be in a ventilation state, meanwhile, the exhaust port of the electric control three-way valve 1071 is closed, under the rotation of the rotating roller 105, the elastic air charging bag 1059 can be inflated through the rotating air charging mechanism and the air charging tube 107, so that the elastic air charging bag 1059 is inflated, the sliding plate 1058 is pushed to move upwards in the sliding tube 1054, and the second sliding rod 1057, the length adjusting assembly and the sliding frame 1052 are further moved upwards;

step (3): in the initial state of the carriage 1052, the first sliding rod 1051 and the arc-shaped block 1055 extend out of the carriage 1052 through the first spring 1056, at this time, the bottom of the first sliding rod 1051 is far away from the timing stop button 1053, as the carriage 1052 moves upwards to enable the arc-shaped block 1055 to be in contact with the rotating roller 105, the carriage 1052 continues to ascend, the first sliding rod 1051 is retracted into the carriage 1052 through the contact of the arc-shaped block 1055 and the rotating roller 105, the first spring 1056 is compressed until the timing stop button 1053 is pressed at the bottom of the first sliding rod 1051, at this time, the driving motor 1021 stops stopping conveying cloth, and in the preset time of stopping the driving motor 1021, cloth printing can be performed through the printing equipment 103 and the printing platform 104;

step (4): after cloth printing is finished, an exhaust port of the electric control three-way valve 1071 is opened, so that the inside of the elastic inflatable bag 1059 is rapidly deflated, the elastic inflatable bag 1059 is elastically retracted to an initial state, under the action of gravity, the sliding plate 1058, the second sliding rod 1057, the length adjusting assembly and the sliding frame 1052 move downwards to the initial state, after the sliding frame 1052 moves downwards to be separated from the rotating roller 105, the first sliding rod 1051 is separated from the timing stop button 1053 under the elastic rebound of the first spring 1056, and the driving motor 1021 is restarted after a preset stop time;

step (5): the driving motor 1021 starts to continue to transmit the cloth, in the cloth transmission process, the cloth printing can be completed by repeating the steps (2) to (4), in each printing process, the elastic inflatable bags 1059 are inflated through the rotation of the rotating roller 105 and the cooperation of the rotating inflation mechanism, and in each printing process, the distance between the arc-shaped blocks 1055 and the rotating roller 105 is constant, so that the inflation amount of the elastic inflatable bags 1059 is the same, the rotation number of turns of the rotating roller 105 is the same, the length of the cloth transmitted by the rotating roller 105 is the same, and the distances of the printing on the cloth are the same.

And in order to set up the length adjustment assembly for different printing distances, make the distance of carriage 1052 relative to rotor 105 adjustable, the longer the distance between carriage 1052 and rotor 105, the greater the inflation volume that needs to inflate elastic balloon 1059, so the number of turns of rotor 105 also increases, thereby can change the equidistant printing distance on the cloth.

As further description of the rotary air charging mechanism in this embodiment, as shown in fig. 2, the rotary air charging mechanism includes a cam 1081, a push plate 1082 and an air pumping chamber 1083, the cam 1081 is fixedly connected with the end of the rotary roller 105, the frame 100 is symmetrically and fixedly provided with first mounting blocks 1084, the two first mounting blocks 1084 are located below the push plate 1082 and provided with positioning holes, the two ends of the push plate 1082 are fixedly connected with first positioning rods 1085 which slide through the positioning holes, a second spring 1086 is fixedly connected between the two ends of the push plate 1082 and the two first mounting blocks 1084, the push plate 1082 is located below the cam 1081 and abuts against the cam 1081, the air pumping chamber 1083 is fixedly mounted with the frame 100 and located below the push plate 1082, the push plate 1082 is fixedly connected with a push rod 1087 which slides and extends into the interior of the air pumping chamber 1083, the lower end of the push rod 1087 is provided with a sliding disc 1088 matched with the air pumping chamber 1083, the upper side of the push plate 1083 is provided with a one-way air inlet valve 10831, the bottom of the air pumping chamber 1083 is fixedly connected with a one-way air pumping chamber 10832, and a circular gap is formed between the top of the push rod 1083 and the air pumping chamber 1083;

the inflation tube 107 communicates at one end with a one-way vent valve 10832 and at the other end with the resilient bladder 1059.

Because the end of the rotating roller 105 is provided with the cam 1081, the cam 1081 continuously rotates in the process, and because the abutting push plate 1082 is arranged below the cam 1081, the push plate 1082 is positioned through the first positioning rod 1085 of the first mounting block 1084, and the push plate 1082 and the first mounting block 1084 pass through the second spring 1086, when the rotating roller 105 drives the cam 1081 to rotate, the push plate 1082 can reciprocate up and down under the action of the second spring 1086, so that the push rod 1087 and the sliding disc 1088 are pushed to reciprocate up and down in the inflating cavity 1083;

when the sliding plate 1088 moves from bottom to top, the air in the air pumping chamber 1083 is discharged through an annular gap formed between the top of the air pumping chamber 1083 and the push rod 1087, and the air enters the air pumping chamber 1083 through the one-way air inlet valve 10831 after the sliding plate 1088 moves to the upper side of the one-way air inlet valve 10831;

when the slide plate 1088 moves downward from above, the air inside the pumping chamber 1083 is discharged into the elastic pneumatic bag 1059 through the one-way exhaust valve 10832 by the downward movement of the slide plate 1088 because the one-way intake valve 10831 is unable to exhaust;

with the above structure, when the rotating roller 105 drives the cam 1081 to rotate, the inside of the elastic air bag 1059 can be continuously inflated.

As further description of the length adjusting assembly in this embodiment, as shown in fig. 5, two sides of the sliding frame 1052 are fixedly provided with second mounting blocks 1091, the length adjusting assembly includes a third mounting block 1092, a second positioning rod 1093 and an adjusting screw 1094, the third mounting block 1092 is located below the sliding frame 1052, one end of the upper side of the third mounting block 1092 is fixedly connected with the second positioning rod 1093, the second positioning rod 1093 penetrates through one of the second mounting blocks 1091 in an upward sliding manner, the other end of the upper side of the third mounting block 1092 is rotatably connected with the adjusting screw 1094, the adjusting screw 1094 penetrates through the other second mounting block 1091 in an upward manner, and the adjusting screw 1094 is in threaded connection with the second mounting block 1091, and the bottom of the third mounting block 1092 is fixedly connected with the second sliding rod 1057.

During the height adjustment of the sliding frame 1052, by rotating the adjusting screw 1094 on one side of the sliding frame 1052, since the other side of the sliding frame 1052 is positioned by the second positioning rod 1093 of the third mounting block 1092, when the adjusting screw 1094 rotates relative to the third mounting block 1092, the second mounting block 1091 can move up and down relative to the adjusting screw 1094 by screwing between the adjusting screw 1094 and the second mounting block 1091, so that the sliding frame 1052 can move up and down to adjust the distance between the rotating roller 105.

As further description of the lifting assembly in this embodiment, as shown in fig. 3 and 4, the fixing roller 106 is further fixedly connected with a mounting frame 1061, the lifting assembly includes a sliding block 1062 and a rotating rod 1063, the sliding block 1062 is fixedly disposed at one end of the mounting frame 1061, a sliding groove 1064 matched with the sliding block 1062 is formed in the machine frame 100, the sliding block 1062 penetrates through the sliding groove 1064 outwards, a mounting table 1065 is further disposed at the lower side of the machine frame 100, the lower end of the rotating rod 1063 penetrates through the mounting table 1065 and is rotatably mounted on the mounting table 1065, the upper end of the rotating rod 1063 penetrates through the sliding block 1062, a threaded section is processed at the upper end of the rotating rod 1063, a threaded hole matched with the threaded section is processed in the sliding block 1062, and a plurality of third positioning rods 1066 sliding and penetrating the machine frame 100 are further disposed on the mounting frame 1061.

In the process of lifting and adjusting the fixed roller 106, cloth is tightly pressed between the fixed roller 106 and the rotating roller 105, the rotating rod 1063 of the installation table 1065 is rotated, a threaded section is machined at the upper end of the rotating rod 1063, a threaded hole matched with the threaded section is machined in the sliding block 1062, meanwhile, the sliding block 1062 can move up and down when the rotating rod 1063 rotates through matching with the sliding groove 1064 of the machine frame 100, the sliding block 1062 can move up and down to enable the installation frame 1061, the fixed roller 106 can move up and down, and the plurality of third locating rods 1066 can further enable the installation frame 1061 to be in sliding positioning with the machine frame 100.

As a further refinement of the present embodiment, as shown in fig. 4 and 5, the adjusting screw 1094 and the swivel lever 1063 are each provided with a swivel handle 110.

By providing a rotating handle 110, one can conveniently operate the adjusting screw 1094 and the rotating lever 1063.

Embodiment 2 is a further improvement made on the basis of embodiment 1, as shown in fig. 7 and 8, two ports of the electric control three-way valve 1071 are used for communicating with an air charging pipe 107, one side of the printing platform 104, which is close to the feeding roller 101, is provided with a printing table 200 corresponding to the printing equipment 103, one side of the printing platform 104, which is close to the winding roller 102, is provided with an exhaust pipe 201, the height of the exhaust pipe 201 is lower than that of the guide roller 1041, the upper side of the exhaust pipe 201 is provided with a plurality of exhaust nozzles 202 which are equidistantly arranged, and the end part of the exhaust pipe 201 extends to be communicated with an air discharging port of the electric control three-way valve 1071;

the printing table 200 is used for being padded on the lower side of the cloth, so that the printing table is matched with the printing equipment 103, and cloth printing is facilitated;

in the process of step (4) of embodiment 1, by communicating the air discharge port of the electric control three-way valve 1071 with the air discharge pipe 201, when the inside of the elastic air bag 1059 is rapidly discharged, air can be discharged to the side of the printing platform 104 close to the wind-up roll 102 through the air discharge pipe 201, the printed cloth is blown through the air discharge nozzle 202, the printed pattern of the cloth is rapidly dried, and the air discharge pipe 201 is arranged at the lower side of the guide roll 1041, so that the air is blown out from the upper side of the printed surface of the cloth in the blowing process, and the problem that the printed pattern is blown out due to the direct blowing of the printed surface of the cloth can be avoided.

As a further optimization of this embodiment, as shown in fig. 7 and 8, the frame 100 and the printing platform 104 are further provided with a plurality of brackets 203 for supporting the exhaust pipe 201, and dustproof filter screens 204 are installed between the top of the inflating chamber 1083 and the push rod 1087, and between the one-way intake valve 10831 and the one-way exhaust valve 10832.

A plurality of brackets 203 are provided for supporting exhaust pipe 201 so that exhaust pipe 201 can be suspended;

meanwhile, the dustproof filter screen 204 arranged between the top of the inflating cavity 1083 and the push rod 1087, and arranged on the one-way air inlet valve 10831 and the one-way air outlet valve 10832 can prevent dust of external air from entering the inflating cavity 1083, so that the problem that the air discharged by the exhaust pipe 201 contains dust and pollutes cloth is avoided.

The above embodiments are merely illustrative of the principles of the present invention and its effectiveness, and are not intended to limit the invention. Modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the invention. Accordingly, it is intended that all equivalent modifications and variations of the invention be covered by the claims of this invention, which are within the skill of those skilled in the art, can be made without departing from the spirit and scope of the invention disclosed herein.

Claims

1. The utility model provides a textile fabric stamp device, includes the frame, feed roll and wind-up roll are installed respectively to the frame both sides, stamp equipment is installed to frame middle part upside, the frame still be provided with stamp platform that stamp equipment corresponds, driving motor, its characterized in that are installed to wind-up roll one end:

one end of the rotating roller, which corresponds to the feeding adjusting mechanism, is provided with a rotating inflation mechanism, the rotating inflation mechanism is communicated with the elastic inflation bag through an inflation pipe, and the inflation pipe is provided with an electric control three-way valve;

the rotary inflation mechanism comprises a cam, a push plate and an inflation cavity, wherein the cam is fixedly connected with the end part of the rotary roller, first installation blocks are symmetrically and fixedly installed on the machine frame, two first installation blocks are located below the push plate and provided with positioning holes, two ends of the push plate are fixedly connected with first positioning rods which penetrate through the positioning holes in a sliding mode, two second springs are fixedly connected between the two ends of the push plate respectively and the first installation blocks, the push plate is located below the cam and is in butt joint with the cam, the inflation cavity is fixedly installed on the machine frame and located on the lower side of the push plate, the push plate is fixedly connected with a push rod which is slidably extended to the inside of the inflation cavity, a one-way air inlet valve is installed on the upper side of the inflation cavity, a one-way air outlet valve is installed on the bottom of the inflation cavity, an annular gap is formed between the top of the inflation cavity and the push rod, and one end of the inflation pipe is communicated with the one-way air outlet valve and the other end of the inflation cavity is communicated with the inflation bag.

2. A textile printing apparatus as claimed in claim 1, wherein: the sliding frame is characterized in that second installation blocks are fixedly arranged on two sides of the sliding frame, the length adjusting assembly comprises a third installation block, a second positioning rod and an adjusting screw rod, the third installation block is located below the sliding frame, one end of the upper side of the third installation block is fixedly connected with the second positioning rod, the second positioning rod upwards slides to penetrate through one of the second installation blocks, the other end of the upper side of the third installation block is rotatably connected with the adjusting screw rod, the adjusting screw rod upwards penetrates through the other second installation block, the adjusting screw rod is in threaded connection with the second installation block, and the bottom of the third installation block is fixedly connected with the second sliding rod.

3. A textile printing apparatus according to claim 2, wherein: the fixed roller is fixedly connected with a mounting frame, the lifting assembly comprises a sliding block and a rotating rod, the sliding block is fixedly arranged at one end of the mounting frame, a sliding groove matched with the sliding block is formed in the mounting frame, the sliding block outwards penetrates through the sliding groove, a mounting table is further arranged at the lower side of the frame, the lower end of the rotating rod penetrates through the mounting table and is rotatably mounted with the mounting table, the upper end of the rotating rod penetrates through the sliding block, a threaded section is machined at the upper end of the rotating rod, a threaded hole matched with the threaded section is machined in the sliding block, and a plurality of third positioning rods which penetrate through the frame in a sliding mode are further arranged on the mounting frame.

4. A textile printing apparatus according to claim 3, wherein: the adjusting screw rod and the rotating rod are respectively provided with a rotating handle.

5. A textile printing apparatus as claimed in claim 4, wherein: two ports of the electric control three-way valve are used for being communicated with the inflation tube, one side, close to the feeding roller, of the printing platform is provided with a printing table corresponding to the printing device, one side, close to the wind-up roller, of the printing platform is provided with an exhaust pipe, the height of the exhaust pipe is lower than that of the guide roller, a plurality of exhaust nozzles which are arranged at equal intervals are arranged on the upper side of the exhaust pipe, and the end part of the exhaust pipe extends to be communicated with a leakage port of the electric control three-way valve.

6. A textile printing apparatus as claimed in claim 5, wherein: the frame and the stamp platform still are provided with a plurality of supports that are used for supporting the blast pipe, inflate the chamber top with between the push rod, one-way admission valve and one-way discharge valve all install dustproof filter screen.