CN116288991A

CN116288991A - Surface fabric roll-in type printing and dyeing device

Info

Publication number: CN116288991A
Application number: CN202310394092.5A
Authority: CN
Inventors: 韩国兴
Original assignee: Shanghai Fanying Technology Co ltd
Current assignee: Shanghai Fanying Technology Co ltd
Priority date: 2023-04-13
Filing date: 2023-04-13
Publication date: 2023-06-23

Abstract

The invention provides a fabric rolling type printing and dyeing device applied to the fabric printing and dyeing field, when a printing and dyeing press roller rotates under the drive of external force, a discharging adjusting system with an outlet facing downwards or obliquely facing downwards is subjected to the hydraulic action of printing and dyeing dye in the printing and dyeing press roller, the dye is normally diffused into a polyurethane rubber layer, in the process, the upper end part of the polyurethane rubber layer, which is positioned above the dye liquid level in the printing and dyeing press roller, cannot be diffused by the dye, so that the limitation of the rotation of the printing and dyeing press roller and the hydraulic action of the dye in the polyurethane rubber layer can be effectively utilized when the polyurethane rubber layer is in normal contact with the fabric for printing and dyeing, the outward expansion amount and the outward expansion time of the dye can be controlled, the high cost caused by installing an electric spray nozzle can be reduced, in addition, the prompt box can be attached to the inner wall of the printing and dyeing press roller under the condition that a floating plate is always intercepted, and further the change of the liquid level in the printing and dyeing press roller can be flexibly sensed, so that the prompt can be timely sent out when the dye allowance is insufficient.

Description

Surface fabric roll-in type printing and dyeing device

Technical Field

The application relates to the field of fabric printing and dyeing, in particular to a fabric rolling type printing and dyeing device.

Background

The fabric printing and dyeing is used as a link in the fabric placing processing flow, has important significance for enriching the fabric decoration, and is divided into soaking type printing and dyeing, rolling type printing and dyeing, brushing type printing and dyeing and the like according to different fabric fiber components and printing and dyeing contents, wherein compared with soaking type printing and dyeing, rolling type printing and dyeing has smaller dye quantity to be prepared, and can play a good dye quantity control effect, so that the waste of dye is avoided.

When the existing roll-in type printing and dyeing device is used for printing and dyeing fabrics, the inside of a press roll which is hollow and provided with an electric spray head in a penetrating manner is filled with printing and dyeing dye, the surface of the press roll is sleeved with a polyurethane rubber layer, then the printing and dyeing dye is sprayed into the polyurethane rubber layer in a circumferential diffusion manner, and then the fabrics are contacted with the polyurethane rubber layer through a rolling conveying mechanism, so that roll-in type printing and dyeing is realized, but in the actual operation process, the electric spray head is arranged so that the cost of the printing and dyeing device is increased, and the electric cost required by the electric spray head is additionally paid.

Therefore, the fabric rolling type printing and dyeing device is provided, the internal dye spraying range of the press roller is controlled by utilizing the driving effect of the press roller on internal dye liquid during rotation of the press roller, the installation cost of the rolling type printing and dyeing device can be reduced, meanwhile, the spraying of the dye in the press roller in the single-time rotary printing and dyeing process can be reduced, and the dye waste is reduced.

Disclosure of Invention

The utility model aims at improving the existing roll-in type printing and dyeing device, compare the prior art and provide a surface fabric roll-in type printing and dyeing device, including inside hollow printing and dyeing compression roller, the surface of printing and dyeing compression roller has cup jointed the polyurethane rubber layer that inside is equipped with the through-hole, the inner wall of printing and dyeing compression roller runs through and installs ejection of compact governing system, ejection of compact governing system is including running through the blown down tank of installing in printing and dyeing compression roller inner wall, the tail end outside of blown down tank cup joints the blown down tank No. two with cross-section area greater than blown down tank No. one, extension spring is installed to the inner wall symmetry of blown down tank No. one, the inside gomphosis slidable mounting of blown down tank No. one has top surface and extension spring trailing end connection's piston baffle, limit stop lever is installed to the inner wall symmetry of blown down tank No. two, and the length of the limit stop rod is greater than the distance between the inner walls of the first discharging groove and the second discharging groove, when the printing and dyeing press roller rotates under the drive of external force, the outlet is downward or the inclined downward discharging regulating system is subjected to the hydraulic action of the printing and dyeing dye inside the printing and dyeing press roller, the dye inside the printing and dyeing press roller can be smoothly diffused into the polyurethane rubber layer, in the process, the upper end part of the polyurethane rubber layer, which is positioned above the dye liquid level inside the printing and dyeing press roller, cannot be diffused by the dye inside the printing and dyeing press roller, so that the limitation of the rotation of the printing and dyeing press roller and the hydraulic action of the internal dye can be effectively utilized when the polyurethane rubber layer is in normal contact with fabric, the outward expansion amount and outward expansion time of the dye can be controlled, and the high cost caused by installing an electric spray nozzle can be reduced.

Further, the tail end of the second discharging groove penetrates through the polyurethane rubber layer, the initial elasticity of the extension spring is equal to the self gravity of the piston baffle, and the initial elasticity of the extension spring can only overcome the self gravity of the piston baffle, so that when dye liquid exists in the printing and dyeing press roller, namely, a hydraulic effect exists, the second discharging groove at the bottommost end can still keep normal discharging operation, and the dye liquid level gradually reduced in the printing and dyeing press roller in the fabric printing and dyeing process is adapted.

Further, the inside of the printing press roll is filled with the printing dye, and the volume of the printing dye is not more than one half of the volume of the inside of the printing press roll.

Further, the inside of printing and dyeing compression roller is equipped with magnetism and inhales the intermediate layer, the inner wall slip absorption of printing and dyeing compression roller has the magnetism of symmetrical arrangement to inhale the strip, be connected with between the strip is inhaled to two sets of magnetism and interception kickboard, and the distance between the strip is inhaled to two sets of magnetism is less than the internal diameter of printing and dyeing compression roller, when the inside dyestuff liquid of printing and dyeing compression roller rotates along printing and dyeing compression roller is synchronous, the strip upwards slides is inhaled to the magnetism of one end, the strip downwards slides is inhaled to the magnetism of the other end, make interception kickboard play effectual interception to the dyestuff and handle, avoid splashing of dyestuff liquid, the gliding magnetism of while is inhaled the strip and can be scraped the dyestuff caking of printing and dyeing compression roller inner wall deposit, avoid the dyestuff to pile up the bonding at printing and dyeing compression roller inner wall.

Optionally, the connecting rod is installed to the bottom of interception kickboard, and the bottom of connecting rod is connected with the suggestion box, and one side of suggestion box is open design, and the internally mounted of suggestion box has power spring, and power spring's tail end connection has the sliding plate, and the extrusion prompter that is located sliding plate one side is installed to the roof of suggestion box, and the extrusion prompter is made for the vinyl material.

Further, the length of the extrusion prompter is smaller than that of the prompter box, a waterproof vent is formed in the surface of one side, close to the sliding plate, of the extrusion prompter, and the elastic inertia of the extrusion prompter is larger than the internal hydraulic pressure of the printing and dyeing dye.

Further, a limiting rod positioned above the power spring is arranged on the surface, close to the power spring, of the sliding plate, and the limiting rod is made of brittle materials.

Further, the length of the limiting rod is smaller than the initial length of the power spring, the surface of the limiting rod is provided with a fracture, the thickness of the fracture is smaller than that of the limiting rod, the limiting rod can provide initial elastic force for the power spring, and meanwhile, the fracture is arranged, so that the limiting rod is conveniently and independently broken when the sliding plate is pushed by liquid.

Further, the length of the first discharging groove is smaller than that of the printing and dyeing press roller, and the length of the magnetic attraction strip is equal to that of the printing and dyeing press roller, so that the magnetic attraction strip is prevented from sinking into the first discharging groove.

Further, the mounted position of suggestion box is located two sets of ejection of compact governing system's centre, and the bottom of suggestion box is laminated with printing and dyeing compression roller inner wall, ensures that the suggestion box can not cause the material influence that hides to the blown down tank No. one.

Compared with the prior art, the advantage of this application lies in:

(1) When the printing and dyeing press roller rotates under the drive of external force, the outlet is downward or the inclined downward discharging regulating system is subjected to the hydraulic action of the printing and dyeing dye in the printing and dyeing press roller, the dye in the printing and dyeing press roller can be smoothly diffused into the polyurethane rubber layer, in the process, the upper end part of the polyurethane rubber layer above the dye liquid level in the printing and dyeing press roller can not be diffused by the dye in the printing and dyeing press roller, the polyurethane rubber layer can be ensured to be in normal contact with fabric for printing and dyeing, the limitation of the rotation of the printing and dyeing press roller and the hydraulic action of the internal dye can be effectively utilized, the external expansion amount and external expansion time of the dye can be controlled, and the high cost caused by installing an electric spray nozzle can be reduced.

(2) The initial elasticity of extension spring can only overcome the self gravity of piston baffle, therefore when there is dyestuff liquid in the printing and dyeing compression roller inside, that is, hydraulic pressure effect exists, no. two blown down tanks of bottom still can keep normal ejection of compact operation to adapt to the inside dyestuff liquid level that reduces gradually of printing and dyeing compression roller in the surface fabric printing and dyeing process.

(3) The liquid level of the printing and dyeing dye is not more than half of the internal height of the printing and dyeing press roller, so that the discharge chute II which is only positioned at the lower half part of the polyurethane rubber layer can smoothly discharge in a discharge regulating system which is arranged around the printing and dyeing press roller when liquid is discharged, and excessive dip dyeing of the polyurethane rubber layer is avoided.

(4) When the dye liquid inside the printing and dyeing press roller synchronously rotates along with the printing and dyeing press roller, the magnetic attraction strip at one end slides upwards, the magnetic attraction strip at the other end slides downwards, so that the interception floating plate can effectively intercept and treat the dye, splash of the dye liquid is avoided, meanwhile, the magnetic attraction strip sliding downwards can scrape dye caking deposited on the inner wall of the printing and dyeing press roller, and dye accumulation is avoided to be adhered to the inner wall of the printing and dyeing press roller.

(5) When the residual amount of the printing and dyeing dye in the printing and dyeing press roller is insufficient, the power spring in the compressed state is reset, so that the extrusion prompter can be extruded, and the extrusion prompter can smoothly emit the sound to prompt an external operator, so that the residual amount of the printing and dyeing dye in the printing and dyeing press roller is insufficient, and the printing and dyeing press roller needs to be timely supplemented.

Drawings

FIG. 1 is a schematic view of the discharging state of the present application;

FIG. 2 is a schematic overall structure of the present application;

FIG. 3 is a cross-sectional view of the printing press roll, polyurethane rubber layer, intercept float plate, and discharge adjustment system of the present application;

FIG. 4 is a schematic view of the interior of the printing press roll of the present application;

FIG. 5 is a schematic diagram of the installation of the outfeed conditioning system of the present application;

FIG. 6 is a schematic diagram of the operation state of the discharge control system of the present application;

FIG. 7 is a schematic view showing the state of the magnetic attraction strip and the interception floating plate following the rotation process of the printing and dyeing press roller;

FIG. 8 is a schematic diagram of the printing roller, intercept float plate and cue box installation of the present application;

FIG. 9 is a schematic view of the interior of the cue box of the present application;

FIG. 10 is a schematic view of the broken state of the limiting rod inside the cue box of the present application;

FIG. 11 is a schematic view showing the state of the sliding plate and the extrusion prompter when the dye allowance in the printing press roller is insufficient;

FIG. 12 is a schematic cross-sectional view of a restraining bar and port of the present application.

The reference numerals in the figures illustrate:

1. printing and dyeing press rolls; 2. a polyurethane rubber layer; 3. intercepting a floating plate; 31. a magnetic strip; 4. a discharge adjusting system; 41. a first discharge chute; 42. a tension spring; 43. a piston baffle; 44. a second discharging groove; 45. a limit stop lever; 5. a connecting rod; 6. a prompt box; 61. a power spring; 62. a restraining bar; 63. a sliding plate; 64. squeezing the prompter.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are only some embodiments of the present application, but not all embodiments, and all other embodiments obtained by those skilled in the art without making creative efforts based on the embodiments in the present application are all within the scope of protection of the present application.

Example 1:

the invention provides a fabric roller press type printing and dyeing device, referring to fig. 1-2 and 5-6, comprising a printing and dyeing press roller 1 with a hollow inside, wherein a polyurethane rubber layer 2 with a through hole inside is sleeved on the surface of the printing and dyeing press roller 1, a discharge regulating system 4 is installed on the inner wall of the printing and dyeing press roller 1 in a penetrating way, the discharge regulating system 4 comprises a first discharge chute 41 installed on the inner wall of the printing and dyeing press roller 1 in a penetrating way, a second discharge chute 44 with a cross-section area larger than that of the first discharge chute 41 is sleeved on the outer side of the tail end of the first discharge chute 41, extension springs 42 are symmetrically installed on the inner wall of the first discharge chute 41, piston baffle plates 43 with top surfaces connected with the tail ends of the extension springs 42 are embedded and slidably installed in the inner wall of the first discharge chute 41, limit stop bars 45 are symmetrically installed on the inner wall of the second discharge chute 44, and the length of the limit stop bars 45 is larger than the distance between the first discharge chute 41 and the inner wall of the second discharge chute 44.

Specifically, the printing dye in the printing and dyeing compression roller 1 runs through the surface of the polyurethane rubber layer 2 through the discharge regulating system 4, so that printing and dyeing operation is realized with the contacted fabric;

when the printing and dyeing press roller 1 rotates under the drive of external force, the outlet is downward or the inclined downward discharging regulating system 4 receives the hydraulic action of the inside printing and dyeing dye of the printing and dyeing press roller 1, and then the piston baffle 43 plays a pushing role, so that the piston baffle 43 is pushed into the second discharging groove 44 in an extruding mode, as the section size of the second discharging groove 44 is larger than that of the first discharging groove 41, a gap exists between the piston baffle 43 embedded with the inner wall of the first discharging groove 41 and the inner wall of the second discharging groove 44, the dye inside the printing and dyeing press roller 1 can be conveniently and smoothly diffused into the polyurethane rubber layer 2, in the process, the upper end part of the polyurethane rubber layer 2 above the dye liquid level inside the printing and dyeing press roller 1 can not be diffused by the dye inside the printing and dyeing press roller 1, the limitation of the rotation of the printing and dyeing press roller 1 and the hydraulic action of the internal dye can be effectively utilized when the polyurethane rubber layer 2 is in normal contact with fabric printing and dyeing can also be controlled, the external expansion amount and external expansion time of the dye can be reduced, and the high cost brought by installing an electric nozzle can be reduced.

The tail end of the second discharging groove 44 extends into the polyurethane rubber layer 2 in a penetrating manner, and the initial elastic force of the extension spring 42 is equal to the self gravity of the piston baffle 43.

Specifically, when the dye inside the printing and dyeing press roller 1 is diffused into the second discharging groove 44, the dye can be smoothly impregnated and diffused to the surface of the polyurethane rubber layer 2 provided with the through holes so as to realize corresponding fabric printing and dyeing operation, and the initial elasticity of the extension spring 42 can only overcome the self gravity of the piston baffle 43, so that when the dye liquid exists inside the printing and dyeing press roller 1, namely, the hydraulic action exists, the second discharging groove 44 at the bottommost end can still keep normal discharging operation so as to adapt to the gradually reduced dye liquid level inside the printing and dyeing press roller 1 in the fabric printing and dyeing process.

The inside of the printing press roll 1 is filled with the printing dye, and the volume of the printing dye is not more than one half of the volume of the inside of the printing press roll 1.

Specifically, the liquid level of the printing and dyeing dye does not exceed half of the internal height of the printing and dyeing press roller 1, so that in the discharge regulating system 4 arranged around the printing and dyeing press roller 1 when liquid is discharged, the second discharge chute 44 only positioned at the lower half part of the polyurethane rubber layer 2 can smoothly discharge, and excessive dip dyeing of the polyurethane rubber layer 2 is avoided.

Referring to fig. 3 and 7, a magnetic interlayer is disposed inside the printing roller 1, magnetic strips 31 are symmetrically disposed on the inner wall of the printing roller 1 in a sliding and adsorbing manner, an interception floating plate 3 is connected between the two groups of magnetic strips 31, and the distance between the two groups of magnetic strips 31 is smaller than the inner diameter of the printing roller 1.

Specifically, the magnetic attraction effect between the magnetic attraction interlayer and the magnetic attraction strip 31 is smaller than the impact force of the liquid in the printing and dyeing press roller 1, so when the dye liquid in the printing and dyeing press roller 1 synchronously rotates along with the printing and dyeing press roller 1, the magnetic attraction strip 31 at the left end slides upwards, the magnetic attraction strip 31 at the right end slides downwards, the magnetic attraction strip 31 and the blocking floating plate 3 with certain elasticity form a closed structure, the relative closed state can be kept between the magnetic attraction strip 31 and the inner wall of the printing and dyeing press roller 1, splashing of the dye liquid is avoided, and meanwhile, the dye caking deposited on the inner wall of the printing and dyeing press roller 1 can be scraped by the magnetic attraction strip 31 sliding downwards, so that the dye is prevented from being accumulated and adhered to the inner wall of the printing and dyeing press roller 1.

Referring to fig. 4, the length of the first discharge chute 41 is smaller than the printing press roller 1, and the length of the magnetic strip 31 is equal to the length of the printing press roller 1.

Specifically, the length of the magnetic strip 31 is greater than that of the first discharge chute 41, so that the magnetic strip 31 cannot sink into the first discharge chute 41 when magnetically sliding, and normal discharge of the first discharge chute 41 is ensured.

Example 2:

referring to fig. 8 to 9 and 11, wherein the same or corresponding parts as in embodiment 1 are designated by the same reference numerals as in embodiment 1, only the differences from embodiment 1 are described below for the sake of brevity. This embodiment 2 is different from embodiment 1 in that: the connecting rod 5 is installed to the bottom of interception kicking plate 3, the bottom of connecting rod 5 is connected with suggestion box 6, and one side of suggestion box 6 is open design, the internally mounted of suggestion box 6 has power spring 61, power spring 61's tail end connection has sliding plate 63, extrusion prompter 64 that is located sliding plate 63 one side is installed to the roof of suggestion box 6, and extrusion prompter 64 is made for the vinyl material, the length of extrusion prompter 64 is less than suggestion box 6, the one side surface that extrusion prompter 64 is close to sliding plate 63 is equipped with waterproof vent, and the elasticity inertia of extrusion prompter 64 is greater than the inside hydraulic pressure of printing and dyeing dyestuff.

Specifically, the prompt box 6 connected through the connecting rod 5 can prompt the operator to supplement as soon as possible by timely sending out a prompt through the sound of the extrusion prompt device 64 when the residual amount of the printing dye in the printing and dyeing press roller 1 is insufficient;

when the residual amount of the printing dye in the printing press roller 1 is sufficient, the printing dye can squeeze the sliding plate 63 along with the rotation of the printing press roller 1, so that the sliding plate 63 is far away from the squeezing prompter 64, and at the moment, the squeezing prompter 64 is only subjected to the hydraulic action of the dye liquid and is insufficient to make the squeezing prompter 64 sound;

when the liquid level of the printing and dyeing dye in the printing and dyeing press roller 1 is reduced to be close to the bottom end of the printing and dyeing press roller 1, namely, the residual quantity is insufficient, the power spring 61 in a compressed state is reset, so that the extrusion prompter 64 is extruded, and at the moment, the extrusion prompter 64 can smoothly make a sound, so that an external operator is prompted, and the residual quantity of the dye in the printing and dyeing press roller 1 is insufficient and needs to be timely supplemented.

Referring to fig. 10, a limiting rod 62 is mounted on a surface of the sliding plate 63 adjacent to the power spring 61 and above the power spring 61, and the limiting rod 62 is made of brittle material.

Specifically, when the printing dye rotates along with the printing press roller 1, the internal dye can push the sliding plate 63, so that the power spring 61 is compressed, the limiting rod 62 is broken, and the follow-up sliding plate 63 is conveniently close to the extrusion prompter 64 under the action of the power spring 61 which is free from the constraint of the limiting rod 62.

Referring to fig. 12, the length of the limiting rod 62 is smaller than the initial length of the power spring 61, the surface of the limiting rod 62 is provided with a fracture, and the thickness of the fracture is smaller than the thickness of the limiting rod 62.

Specifically, the limiting rod 62 is used for providing an initial extrusion action for the power spring 61 in a packaging state in a direction away from the extrusion prompter 64, so that the power spring 61 is in an energy storage state, and when the pushing action of liquid gradually disappears due to insufficient liquid residual in the printing and dyeing press roller 1, the extrusion operation can be smoothly realized by means of the energy storage of the power spring 61; at the same time, the fracture is arranged so that the sliding plate 63 can be broken inwards when being pushed by the gravity of the dye.

The mounted position of suggestion box 6 is located the centre of two sets of ejection of compact governing system 4, and the bottom of suggestion box 6 is laminated with printing and dyeing compression roller 1 inner wall.

Specifically, the prompt box 6 is attached to the inner wall of the printing and dyeing press roller 1, so that the change of the dye liquid level in the printing and dyeing press roller 1 can be sensed better.

The foregoing description is only a preferred embodiment of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art, within the scope of the present application, should apply to the present application, and all changes and modifications as fall within the scope of the present application.

Claims

1. The utility model provides a surface fabric roller press formula printing and dyeing device, including inside hollow printing and dyeing compression roller (1), its characterized in that, the surface of printing and dyeing compression roller (1) has cup jointed polyurethane rubber layer (2) inside that is equipped with the through-hole, the inner wall of printing and dyeing compression roller (1) runs through and installs ejection of compact governing system (4), ejection of compact governing system (4) are including running through and install in a blown down tank (41) of printing and dyeing compression roller (1) inner wall, the tail end outside of a blown down tank (41) cup jointed cross-sectional area and is greater than No. two blown down tanks (44) of a blown down tank (41), extension spring (42) are installed to the inner wall symmetry of a blown down tank (41), the inside gomphosis slidable mounting of No. 41 has top surface and extension spring (42) tail end connection's piston baffle (43), limit stop lever (45) are installed to the inner wall symmetry of No. two blown down tanks (44), and the length of limit stop lever (45) is greater than No. 41) and No. two blown down tank (44) inner wall inter-distance.

2. The fabric roll printing and dyeing device according to claim 1, wherein the tail end of the second discharge chute (44) extends into the polyurethane rubber layer (2) in a penetrating way, and the initial elasticity of the extension spring (42) is equal to the self gravity of the piston baffle plate (43).

3. A fabric roller printing apparatus according to claim 1, characterized in that the inside of the printing press roller (1) is filled with a printing dye, and the volume of the printing dye does not exceed one half of the internal volume of the printing press roller (1).

4. A fabric roller press type printing and dyeing device according to claim 3, characterized in that a magnetic attraction interlayer is arranged in the printing and dyeing press roller (1), magnetic attraction strips (31) which are symmetrically arranged are adsorbed on the inner wall of the printing and dyeing press roller (1) in a sliding mode, an interception floating plate (3) is connected between the two groups of magnetic attraction strips (31), and the distance between the two groups of magnetic attraction strips (31) is smaller than the inner diameter of the printing and dyeing press roller (1).

5. The fabric roller printing and dyeing device according to claim 4, characterized in that the bottom of the interception floating plate (3) is provided with a connecting rod (5), the bottom of the connecting rod (5) is connected with a prompt box (6), one side of the prompt box (6) is of an open design, the inside of the prompt box (6) is provided with a power spring (61), the tail end of the power spring (61) is connected with a sliding plate (63), the top wall of the prompt box (6) is provided with an extrusion prompt (64) positioned on one side of the sliding plate (63), and the extrusion prompt (64) is made of a vinyl material.

6. The fabric roller printing and dyeing device according to claim 5, characterized in that the length of the extrusion prompter (64) is smaller than that of the prompter box (6), a waterproof vent is arranged on the surface of one side of the extrusion prompter (64) close to the sliding plate (63), and the elastic inertia of the extrusion prompter (64) is larger than the internal hydraulic pressure of the printing and dyeing dye.

7. The fabric roll printing and dyeing apparatus according to claim 5, characterized in that the surface of the sliding plate (63) close to the power spring (61) is provided with a limiting rod (62) above the power spring (61), and the limiting rod (62) is made of brittle material.

8. The fabric roll printing and dyeing apparatus according to claim 7, characterized in that the length of the limiting rod (62) is smaller than the initial length of the power spring (61), the surface of the limiting rod (62) is provided with a fracture, and the thickness of the fracture is smaller than the thickness of the limiting rod (62).

9. The fabric roll printing device according to claim 4, wherein the length of the first discharge chute (41) is smaller than that of the printing press roll (1), and the length of the magnetic strip (31) is equal to that of the printing press roll (1).

10. The fabric roller printing and dyeing device according to claim 5, wherein the installation position of the prompt box (6) is located in the middle of the two groups of discharging adjusting systems (4), and the bottom of the prompt box (6) is attached to the inner wall of the printing and dyeing press roller (1).