CN215041193U

CN215041193U - Rotary screen transfer printing machine

Info

Publication number: CN215041193U
Application number: CN202120959671.6U
Authority: CN
Inventors: 林金标
Original assignee: Borgman Jiangsu Textile Technology Co ltd
Current assignee: Borgman Jiangsu Textile Technology Co ltd
Priority date: 2021-05-07
Filing date: 2021-05-07
Publication date: 2021-12-07
Anticipated expiration: 2031-05-07

Abstract

The utility model discloses a rotary screen transfer printing machine, include: a frame; the cloth input processing device is used for inputting cloth; the transfer printing device is arranged on the frame and is connected to the cloth input processing device through the cloth, and the guide belt penetrates through the transfer printing device and prints the cloth through the guide belt; the cloth discharging device is connected to the transfer printing device through the printed cloth and is used for finishing cloth discharging of the printed cloth; and the conduction band cleaning device is connected to the transfer printing device through a conduction band so as to clean the conduction band. The utility model discloses in pressure is convenient for adjust during rotary screen transfer printing machine stamp, and the osmotic force of pigment is convenient for adjust, and the infiltration that the colour pattern can be more even gets into in the cloth fibre.

Description

Rotary screen transfer printing machine

Technical Field

The utility model relates to a fabric stamp equipment facility technical field, concretely relates to rotary screen transfer printing machine.

Background

The circular screen printing machine is originated by Stokes of the Netherlands in 1963, has the advantages of high production efficiency of the rotary screen printing machine, has the characteristics of large pattern printing and rich color of the flat screen printing machine, is recognized as a printing machine which is between the rotary screen printing and the flat screen printing and has a great breakthrough in printing technology, and wide fabrics, chemical fiber fabrics, elastic fabrics and the like are rapidly increased in recent years, so that the printing machine is rapidly developed.

The circular screen printing machine is divided into three types, namely a vertical type circular screen printing machine, a horizontal type circular screen printing machine and a radial type circular screen printing machine according to different circular screen arrangements, at present, the most common circular screen printing machine applied at home and abroad in China is the horizontal circular screen printing machine which has two basic types of scraper scraping printing and magnetic roller scraping printing, and the circular screen printing machine comprises devices such as cloth feeding, printing, drying and cloth discharging.

The mechanical components of the printing part can be divided into a printing rubber guide belt, a rotary screen driving device, a rotary screen, a printing scraper frame, a register device, a rubber guide belt washing and water scraping device and a printing fabric pasting and pulp feeding pump system.

When the fabric to be printed is contacted with the rubber guide belt during printing, the rubber guide belt is coated with a layer of cloth-sticking glue in advance, so that the printed fabric is stuck on the rubber guide belt and cannot move, the printed fabric enters a drying device, and the rubber guide belt circulates in a reciprocating manner to be transferred to the lower part of a machine for washing and scraping water drops.

The transfer printing equipment in the prior art has the following technical problems in the practical application process:

during printing, the rotary screen and the rubber roller adopt a set of control motor, and the speed of the rotary screen and the speed of the rubber roller cannot be independently adjusted during printing, so that higher registration precision cannot be achieved.

When printing, it is inconvenient to adjust the space between the printing beam and the cylinder, and the pressure when transferring the color pattern may be difficult to reach the requirement of penetrating into the cloth fiber.

SUMMERY OF THE UTILITY MODEL

The utility model provides a rotary screen transfer printing machine can solve one of the existing problems among the prior art at least.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a rotary screen transfer printing machine comprising:

the frame is a bearing device of the rotary screen transfer printing machine;

the cloth input processing device is used for inputting cloth;

a guide belt conveying device which is connected with the cloth input processing device through a guide belt so as to enable the cloth to be attached to the guide belt,

the transfer printing device is arranged on the frame and is connected to the cloth input processing device through cloth, and the guide belt penetrates through the transfer printing device and prints the cloth through the guide belt;

the cloth discharging device is connected to the transfer printing device through the printed cloth and is used for finishing cloth discharging of the printed cloth;

and the conduction band cleaning device is connected to the transfer printing device through a conduction band so as to clean the conduction band.

Furthermore, the transfer printing device comprises a plurality of transfer printing units arranged on the frame, and each transfer printing unit comprises a printing module arranged above the guide belt, a pressure adjusting module arranged below the guide belt and a lifting adjusting module connected to the printing module and the pressure adjusting module.

Further, the printing module comprises a rotary screen bracket fixedly arranged on the frame, a rotary screen chuck arranged on the rotary screen bracket, a rotary screen sleeved on the rotary screen chuck, a pulp scraper arranged on the rotary screen, a first motor for driving the rotary screen chuck to rotate, a lifting mounting plate arranged on the frame, a transfer printing rubber roller arranged on the lifting mounting plate and a second motor for driving the transfer printing rubber roller to rotate, wherein the roller surface at the top end of the transfer printing rubber roller is abutted against the screen surface of the rotary screen, and the roller surface at the bottom end of the transfer printing rubber roller is abutted against the upper surface of the guide belt; the first motor is connected to a chuck gear on the cylinder chuck through a first speed reducer; the lifting mounting plate is fixedly arranged at the lower end of the rotary screen bracket; the second motor is connected to the transfer printing rubber roller through a second speed reducer; the printing module also comprises an operation control console fixedly arranged on the frame.

Further, the lifting adjustment module comprises a lifting cylinder fixedly arranged on the lifting mounting plate, a lifting rod fixedly arranged on the lifting cylinder and a cylinder for controlling the telescopic distance of the lifting rod in the lifting cylinder, wherein the lifting rod is arranged on the pressure adjustment module.

Furthermore, the pressure adjusting module comprises a printing cross beam abutted to the lower surface of the guide belt, a lifting seat sleeved on the lifting rod, a lifting cylinder fixedly arranged on the lifting seat and a cylinder adjusting device for adjusting the output of the cylinder, and the printing cross beam is fixedly arranged on the rack.

Further, the guide belt conveying device comprises a driving roller arranged on the guide belt cleaning device and a driven roller arranged on the cloth input processing device, and the guide belt is sleeved between the driving roller and the driven roller.

Furthermore, the conduction band cleaning device comprises a cleaning device frame body, a washing tank arranged on the cleaning device frame body, a washing brush roller which can be rotatably arranged in the washing tank and a washing motor used for driving the washing brush roller to rotate, and the washing brush roller is abutted to the lower surface of the conduction band.

Furthermore, the guide belt conveying device also comprises an edge correcting device for preventing the guide belt from deviating, and the edge correcting device is fixedly arranged on the rack.

Furthermore, the cloth input processing device comprises a cloth guide roller for guiding the cloth input, an expanding roller for expanding the input cloth and a cloth pasting rubber roller for pasting the input cloth, wherein the cloth guide roller, the expanding roller and the cloth pasting rubber roller are sequentially arranged on the cloth input frame body.

Further, the cloth guide roller and the spreading roller are connected through an arc-shaped plate.

Compared with the prior art, the utility model discloses a superior effect lies in:

1. the rotary screen transfer printing machine of the utility model replaces digital ink-jet printing, thereby avoiding the defects of expensive spray heads, high ink cost, slow speed and high maintenance cost of the digital ink-jet printing;

2. rotary screen transfer printing machine, the adjustment of being convenient for of pressure during the stamp, the adjustment of being convenient for of the osmotic force of pigment, the infiltration that the colour pattern can be more even gets into in the cloth fibre.

Drawings

Fig. 1 is a schematic structural view of a rotary screen transfer printing machine according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a transfer printing unit according to an embodiment of the present invention.

In the figure: 1-frame, 2-cloth input processing device, 21-cloth guide roller, 22-expanding roller, 23-cloth pasting rubber roller, 24-cloth input frame body, 25-arc plate, 3-guide belt conveying device, 31-guide belt, 32-driving roller, 33-driven roller, 34-edge correcting device, 4-transfer printing device, 41-transfer printing unit, 411-printing module, 4111-cylinder mould bracket, 4112-cylinder mould chuck, 4113-cylinder mould, 4114-pulp scraper, 4115-first motor, 4116-lifting mounting plate, 4117-transfer printing rubber roller, 4118-second motor, 412-pressure adjusting module, 4121-printing bearing beam, 4122-lifting seat, 4123-lifting cylinder, 4124-cylinder adjusting device, 413-lifting adjusting module, 4131-lifting cylinder, 4132-lifting rod, 5-conduction band cleaning device, 51-cleaning device frame, 52-water washing tank, 53-water washing brush roller, 54-water washing motor and 8-cloth.

Detailed Description

In order to make the above objects, features and advantages of the present invention more clearly understood, the following detailed description of the present invention is made in conjunction with the accompanying drawings and the detailed description, it is to be noted that the features of the embodiments and examples of the present invention may be combined with each other without conflict.

Examples

As shown in fig. 1, the rotary screen transfer printing machine includes:

the machine frame 1 is a bearing device of a rotary screen transfer printing machine;

a piece goods input processing device 2 for inputting piece goods 8;

a guide belt conveying device 3 connected to the cloth input processing device through a guide belt 31 to make the cloth 8 adhere to the guide belt,

the transfer printing device 4 is arranged on the frame 1 and is connected with the cloth input processing device through the cloth 8, and the guide belt 31 penetrates through the transfer printing device 4 and prints the cloth 8 through the guide belt 31;

a cloth discharging device (not shown) connected to the transfer printing device 4 through the printed cloth 8 for completing the cloth discharging of the printed cloth 8;

and the guide belt cleaning device 5 is connected with the transfer printing device 4 through a guide belt 31 to clean the guide belt 5.

As shown in fig. 2, the transfer printing apparatus 4 includes a plurality of transfer printing units 41 disposed on the frame 1, and the transfer printing units 41 include a printing module 411 disposed above the belt 31, a pressure adjusting module 412 disposed below the belt 31, and a lift adjusting module 413 connected to the printing module 411 and the pressure adjusting module 412.

The printing module 411 comprises a cylinder mould bracket 4111 fixedly arranged on a rack 1, a cylinder mould chuck 4112 which can rotate and can be arranged on the cylinder mould bracket 4111 in a lifting way, a cylinder mould 4113 which is sleeved on the cylinder mould chuck 4112, a paste scraper 4114 which is arranged on the cylinder mould 4113, a first motor 4115 which is used for driving the cylinder mould chuck 4112 to rotate, a lifting mounting plate 4116 which can be arranged on the rack 1 in a lifting way, a transfer printing rubber roller 4117 which can be arranged on the lifting mounting plate 4116 in a rotating way and a second motor 4118 which is used for driving the transfer printing rubber roller 4117 to rotate, the roller surface at the top end of the transfer printing rubber roller 4117 abuts against the net surface of the cylinder mould, and the roller surface at the bottom end of the transfer printing rubber roller 4117 abuts against the upper surface of a guide belt 31; wherein, the first motor 4115 is connected to a chuck gear on the cylinder chuck 4112 through a first speed reducer; a lifting mounting plate 4116 is fixedly arranged at the lower end of the cylinder mould bracket 4111; the second motor 4118 is connected to the transfer rubber roller 4117 through a second speed reducer; the printing module 411 further comprises an operation console fixedly arranged on the frame 1, and the operation console is used for controlling the electrical equipment.

In the above embodiment, 8 sets of transfer printing units 41 are arranged on the frame, and in the actual application process, an ink superposition process can be adopted, and the used ink superposition process performs color management through superposition of multiple colors, so that different patterns with various colors can be printed;

the conduction band 31 is provided with thermoplastic viscose, so that different types of textile cloth can be adsorbed.

Wherein, scrape thick liquid ware 4114 adjusts the scraper pressure of scraping thick liquid ware 4114 through the thick liquid ware cylinder of scraping at both ends, and as an improvement, the thick liquid ware cylinder can be adjusted through the handle to the both ends.

The cylinder bracket 4111 realizes the lifting by a cylinder lifting cylinder, and further realizes the lifting of the cylinder 4113.

The lifting adjusting module 413 comprises a lifting cylinder 4131 fixedly arranged on the lifting mounting plate 4116, a lifting rod 4132 fixedly arranged on the lifting cylinder 4131, and an air cylinder (not shown) for controlling the telescopic distance of the lifting rod 4132 in the lifting cylinder 4131, wherein the lifting rod 4132 is arranged on the pressure adjusting module 412.

In the above embodiments, the lifting rod 4132 and the lifting cylinder 4131 cooperate to make the transfer rubber roller 4117 start printing by air cylinder pressurization, lift the transfer rubber roller 4117 to separate from the cloth, complete printing, and facilitate cleaning after lifting the transfer rubber roller 4117.

The pressure adjusting module 412 comprises a printing beam 4121 abutted against the lower surface of the guide belt 31, a lifting seat 4122 sleeved on the lifting rod 4132, a lifting cylinder 4123 fixedly arranged on the lifting seat 4122 and a cylinder adjusting device 4124 for adjusting the output of the cylinder, wherein the printing beam 4121 is fixedly arranged on the frame 1.

In the above embodiment, the protruding end of the lifting cylinder 4123 is pressure-bearing disposed on the lifting base, and the pressure between the transfer rubber roller 4117, the cylinder 4113, and the belt 31 is adjusted by adjusting the output of the lifting cylinder 4123.

The guide belt conveying device 3 comprises a driving roller 32 arranged on the guide belt cleaning device 5 and a driven roller 33 arranged on the cloth input processing device 2, and the guide belt 31 is sleeved between the driving roller 32 and the driven roller 33.

The conduction band cleaning device 5 comprises a cleaning device frame body 51, a washing tank 52 arranged on the cleaning device frame body 51, a washing brush roller 53 which is rotatably arranged in the washing tank 52 and a washing motor 54 for driving the washing brush roller 53 to rotate, wherein the washing brush roller 53 is abutted against the lower surface of the conduction band 31.

The guide belt conveying device 3 further comprises an edge correcting device 34 for preventing the guide belt from deviating, and the edge correcting device 34 is fixedly arranged on the machine frame 1.

In the above embodiment, the edge correcting device 34 is used for preventing the guide belt 31 from deviating, so that the fabric keeps a high straightness during printing, and the fabric does not run out during printing, specifically, the edge correcting device 34 is arranged at the lower end of the transfer printing device 4, and the edge correcting device 34 can adopt a forming device in the prior art.

The cloth input processing device 2 comprises a cloth guide roller 21 for guiding the input of the cloth 8, an expanding roller 22 for expanding the input cloth 8 and a cloth pasting rubber roller 23 for pasting the input cloth 8, wherein the cloth guide roller 21, the expanding roller 22 and the cloth pasting rubber roller 23 are sequentially arranged on a cloth input frame body 24.

The cloth guide roller 21 and the spreader roller 22 are connected by an arc plate 25.

In the above embodiment, the cloth guide roller 21 functions to guide the cloth 8 into, the spreader roller 22 is used to spread the wrinkled cloth, and the arc plate 25 flattens the wrinkled cloth.

When the rotary screen transfer printing machine is actually used, the rotary screen transfer printing machine comprises the following steps:

the printed cloth 8 enters the printing machine through the cloth guide roller 21, the wrinkled cloth is flattened and spread through the matching of the arc-shaped plate 25 and the spreading roller 22, and the cloth 8 is temporarily stuck on the guide belt 31 through the cloth sticking rubber roller 23;

the guide belt 31 carries cloth 8, the cloth enters different transfer printing units 41 of the transfer printing device 4 through the driving of the guide belt conveying device 3, color control is carried out on the different transfer printing units 41, printing with overlapped colors is achieved, different printing pressure outputs are achieved through adjusting the pressure adjusting module 412 and the lifting adjusting module 413, and reasonable slurry conveying is achieved through adjusting the scraper pressure of the slurry scraper 4114;

after the cloth carried by the guide belt 31 passes through different transfer printing units 41, the cloth 8 attached to the guide belt 31 is separated from the guide belt 31 through a cloth discharging device, so that cloth discharging is realized, and the cloth enters the subsequent treatment of printing and dyeing;

the guide belt 31 rotates circularly through the guide belt conveying device 3, and the guide belt cleaning device 5 arranged at the position close to the driving roller 32 cleans the guide belt 31 to clean impurities on the guide belt 31, so that the function of the guide belt 31 is updated.

The present invention is not limited by the above embodiments, and the description in the above embodiments and the description is only for illustrating the principle of the present invention, without departing from the spirit and scope of the present invention, the present invention can also have various changes and improvements, and these changes and improvements all fall into the scope of the claimed invention. The scope of the invention is defined by the appended claims.

Claims

1. A rotary screen transfer printing machine, characterized by comprising:

the frame is a bearing device of the rotary screen transfer printing machine;

the cloth input processing device is used for inputting cloth;

2. The rotary screen transfer printing machine according to claim 1, wherein the transfer printing device comprises a plurality of transfer printing units provided on the frame, and the transfer printing units comprise printing modules provided above the guide belt, pressure adjusting modules provided below the guide belt, and lift adjusting modules connected to the printing modules and the pressure adjusting modules.

3. The rotary screen transfer printing machine according to claim 2, wherein the printing module comprises a rotary screen bracket fixedly arranged on the frame, a rotary screen chuck which can rotate and can be lifted and arranged on the rotary screen bracket, a rotary screen which is sleeved on the rotary screen chuck, a pulp scraper arranged on the rotary screen, a first motor for driving the rotary screen chuck to rotate, a lifting mounting plate which can be lifted and arranged on the frame, a transfer printing rubber roller which can rotate and is arranged on the lifting mounting plate and a second motor for driving the transfer printing rubber roller to rotate, the roller surface at the top end of the transfer printing rubber roller is abutted against the screen surface of the rotary screen, and the roller surface at the bottom end of the transfer printing rubber roller is abutted against the upper surface of the guide belt; the first motor is connected to a chuck gear on the cylinder chuck through a first speed reducer; the lifting mounting plate is fixedly arranged at the lower end of the rotary screen bracket; the second motor is connected to the transfer printing rubber roller through a second speed reducer; the printing module also comprises an operation control console fixedly arranged on the frame.

4. The rotary screen transfer printing machine according to claim 3, wherein the lifting adjustment module comprises a lifting cylinder fixedly arranged on the lifting mounting plate, a lifting rod fixedly arranged on the lifting cylinder, and a cylinder for controlling the telescopic distance of the lifting rod in the lifting cylinder, wherein the lifting rod is arranged on the pressure adjustment module.

5. The rotary screen transfer printing machine according to claim 4, wherein the pressure adjusting module comprises a printing beam abutting against the lower surface of the guide belt, a lifting seat sleeved on the lifting rod, a lifting cylinder fixedly arranged on the lifting seat, and a cylinder adjusting device for adjusting the output of the cylinder, and the printing beam is fixedly arranged on the frame.

6. The rotary screen printing machine according to claim 1, wherein the guide belt conveying device comprises a driving roller provided on the guide belt cleaning device and a driven roller provided on the cloth input processing device, and the guide belt is sleeved between the driving roller and the driven roller.

7. The rotary screen transfer printing machine according to claim 1, wherein the conduction band cleaning device comprises a cleaning device frame body, a washing tank arranged on the cleaning device frame body, a washing brush roller which can be rotatably arranged in the washing tank and a washing motor for driving the washing brush roller to rotate, and the washing brush roller is abutted against the lower surface of the conduction band.

8. The rotary screen transfer printing machine according to claim 6, wherein the guide belt conveying device further comprises an edge correcting device for preventing the guide belt from deviating, and the edge correcting device is fixedly arranged on the frame.

9. The rotary screen transfer printing machine according to claim 1, wherein the cloth input processing device comprises a cloth guide roller for guiding the input of the cloth, a spreading roller for spreading the input cloth and a cloth pasting rubber roller for pasting the input cloth, and the cloth guide roller, the spreading roller and the cloth pasting rubber roller are sequentially arranged on the cloth input frame body.

10. The rotary screen transfer printing machine according to claim 9, wherein the fabric guide roll and the spreader roll are connected by an arcuate plate.