CN115139634A

CN115139634A - High-temperature hot stamping integrated automatic processing equipment

Info

Publication number: CN115139634A
Application number: CN202210339640.XA
Authority: CN
Inventors: 朱建业; 杨国忠
Original assignee: Pccs Industrial Garments Suzhou Co ltd
Current assignee: Pccs Industrial Garments Suzhou Co ltd
Priority date: 2022-04-01
Filing date: 2022-04-01
Publication date: 2022-10-04

Abstract

The invention provides a high-temperature hot stamping integrated automatic processing device, which comprises a material roller, a main pattern roller and a main hot stamping roller, wherein the material roller is arranged on the main pattern roller; the main hot stamping roller is assembled on a right rack, a horizontal conveying belt is arranged on the upper portion of a left rack on the left side of the right rack, fabric output from the main hot stamping roller is conveyed to the upper portion of the conveying belt, and a photographing module and a cutting module are arranged above the conveying belt; a material receiving box is arranged at the lower part of the left side of the conveying belt, and the cut fabric is sent out from the conveying belt and then enters a waste material roller; and the waste film subjected to hot stamping of the hot stamping film is conveyed into the main waste film roller from the lower part of the conveying belt. The equipment takes rolled fabric and hot stamping coil stock as materials, and continuously and automatically finishes hot stamping, cutting and receiving, and respectively batches and collects different wastes. The whole production process is continuously carried out and is completely automatic, so that the labor is greatly saved, the production efficiency is improved, and the cost of garment production is reduced.

Description

High-temperature hot stamping integrated automatic processing equipment

Technical Field

The invention relates to the technical field of fabric processing, in particular to high-temperature hot stamping integrated automatic processing equipment.

Background

Hot stamping is one type of thermal transfer printing, in which a pattern on a template or a roll is transferred to the surface of a substrate by pressure and temperature. The hot stamping process is often used for clothes, so that the clothes have the characteristics of clearness, attractiveness, bright color and the like, and the grade of the clothes is higher. However, the traditional hot stamping is planar stamping, namely, a printing stock is placed on a plane, then a template with a transfer pattern is placed on the printing stock, and the template is pressed on the printing stock to be heated, so that the pattern is transferred onto the printing stock. Because the hot stamping film on the hot stamping template is made of special materials and generally made of alumite, the patterns on the hot stamping film can only be single color or other specific colors, so that people often adopt the hot stamping films of a plurality of templates to respectively operate when stamping more complicated color patterns, the processes are manually completed, the production efficiency is greatly reduced, and the production cost is improved.

Disclosure of Invention

Aiming at the problems, the invention provides the high-temperature hot stamping integrated automatic processing equipment which can be used for directly and automatically carrying out hot stamping on coiled fabrics and automatically collecting waste materials.

The technical scheme adopted by the invention for solving the technical problem is as follows: the high-temperature hot stamping integrated automatic processing equipment comprises a material roller, a main printing roller and a main hot stamping roller, wherein a fabric to be subjected to hot stamping processing is wound on the material roller, a hot stamping film is wound on the main printing roller, a heating structure is actually arranged in the main hot stamping roller, the material roller outputs the fabric and then covers the hot stamping film output by the main printing roller, the covered hot stamping film and the fabric pass through the surface heated by the main hot stamping roller, and the pattern on the hot stamping film is transferred to the fabric; the hot stamping device comprises a main hot stamping roller, a left frame, a horizontal conveying belt, a photographic module and a cutting module, wherein the main hot stamping roller is assembled on a right frame, the main pressing roller for pressing a fabric and a hot stamping film on the main hot stamping roller is also assembled on the right frame, the left frame is designed on the left side of the right frame, the horizontal conveying belt is designed on the upper portion of the left frame, the fabric output from the main hot stamping roller is conveyed to the upper portion of the conveying belt, the photographic module and the cutting module are sequentially designed above the conveying belt from right to left, the photographic module is provided with a downward camera, and the cutting module is provided with a cutting head capable of cutting the fabric in a front-back and left-right movement manner; a material receiving box is arranged at the lower part of the left side of the conveying belt, and the cut fabric is sent out from the conveying belt and then enters a waste material roller; and the waste film subjected to hot stamping of the hot stamping film is conveyed into the main waste film roller from the lower part of the conveying belt.

Preferably, the upper right side of the conveying belt is provided with an air suction module.

Preferably, the material roller and the waste roller are respectively assembled on an independently movable pushing frame.

Preferably, an upper compaction power roller and a lower compaction power roller are arranged at the position, close to the left end of the conveying belt, of the right support, the hot stamped fabric passes through the middle of the two power rollers, and the power rollers are connected with the transmission structure.

Preferably, the right side of the power roller is provided with a buffer module, the buffer module comprises two parallel buffer rollers, a gravity roller capable of moving up and down is arranged in the middle of each buffer roller, the fabric output by the main hot stamping roller is attached to the upper portion of the right side buffer roller and then is wound from the lower portion of the gravity roller to enter the upper portion of the left side buffer roller, and the fabric output by the left side buffer roller enters the middle of the two power rollers.

Preferably, the main pattern roller is mounted on a left frame at a lower portion of the conveying belt.

Preferably, a rolling slideway capable of feeding materials forwards and backwards is designed on the left frame on the left side of the main pattern roller.

Preferably, the right side of the main hot stamping roller is provided with a heating auxiliary hot stamping roller, the left side of the auxiliary hot stamping roller is provided with an auxiliary drawing roller, a hot stamping film output from the auxiliary drawing roller passes through the auxiliary hot stamping roller in an attaching manner, the hot stamping surface of the fabric output after hot stamping of the main hot stamping roller passes through the hot stamping film surface of the auxiliary hot stamping roller in an attaching manner, the right frame is provided with an auxiliary pressing roller for pressing the fabric and the hot stamping film on the auxiliary hot stamping roller, the hot stamping film output from the auxiliary drawing roller is used for hot stamping the pattern on the fabric, and waste films output after the auxiliary drawing roller passes through the auxiliary hot stamping roller in a transfer manner enter the auxiliary waste film roller on the right side.

Preferably, an upper pressing power roller and a lower pressing power roller are arranged on the right side of the right support, the fabric thermoprinted on the auxiliary thermoprinting roller passes through the middle of the two power rollers, and the power rollers are connected with the transmission structure.

Preferably, the secondary drawing roller and the secondary waste film roller are independently assembled on a movable pushing frame.

The invention has the beneficial effects that: when the high-temperature hot stamping integrated automatic processing equipment is used, the fabric is sent out through the material roller and enters the main hot stamping roller together with a hot stamping film sent out by the main roller, the fabric compresses the hot stamping film on the main hot stamping roller to be heated, then the picture is finally and completely transferred onto the fabric through the main compression roller, the fabric in the transfer printing mode, the hot stamping film completes heating and preliminary compression along with the attaching movement of the main hot stamping roller, then the transfer printing is finally compressed through the main compression roller, double-layer imprinting enables the stamping effect to be better, meanwhile, the main hot stamping roller and other various movement rollers are continuously heated, the middle part is not provided with the main hot stamping roller, the efficiency is higher, the fabric after hot stamping directly enters the conveying belt, then the camera of the upper shooting module shoots the fabric after pause, then the picture is conveyed to a control computer of the equipment, the picture characteristic is analyzed to calculate the cutting mode of the needed picture, then the cutting module on the upper part of the conveying belt is controlled to complete the cutting process, the conveying belt and the cut fabric and the waste material are sent out of the conveying belt together, the cut fabric with the waste material, the cut material with the hot stamping picture pattern directly falls into the material collection box, and the waste material is rolled up by the waste roller again. The equipment takes coiled fabric and hot stamping coil stock as materials, and continuously and automatically finishes hot stamping, cutting and receiving, and respectively collects different wastes. The whole production process is continuously carried out and is completely automatic, so that the labor is greatly saved, the production efficiency is improved, and the cost of garment production is reduced.

Drawings

Fig. 1 is a schematic structural diagram of high-temperature hot stamping integrated automatic processing equipment in an embodiment 1.

FIG. 2 is a schematic structural diagram of an embodiment 2 of the high-temperature hot stamping integrated automatic processing equipment.

Detailed Description

As used in this patent, directional terms, such as orientation or positional relationship, are used with respect to the drawings only for convenience in describing the present application and for simplicity in description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are not to be construed as limiting the present application.

The invention is further illustrated by the following examples:

example 1

As shown in an embodiment of fig. 1, the high-temperature hot stamping integrated automatic processing equipment comprises a material roller 1, a main pattern roller 2 and a main hot stamping roller 3, wherein a fabric to be hot stamped is rolled on the material roller 1, a hot stamping film is rolled on the main pattern roller 3, a heating structure is actually arranged in the main hot stamping roller 3, the material roller 1 outputs the fabric and then covers the hot stamping film output by the main pattern roller 2, the covered hot stamping film and the fabric pass through the surface heated by the main hot stamping roller 3, and a pattern on the hot stamping film is transferred to the fabric. The main hot stamping roller 3 is assembled on the right frame 4, the main pressing roller 31 for pressing the fabric and the hot stamping film on the main hot stamping roller 3 is also assembled on the right frame 4, and the main pressing roller 31 not only plays a role in pressing, but also is used for adjusting the output of the fabric according to the design position of the main pressing roller 31. The left side of the right frame 4 is provided with a left frame 5, the upper part of the left frame 5 is provided with a horizontal conveyer belt 51, and the fabric output from the main hot stamping roller 3 is conveyed to the upper part of the conveyer belt 51. A photographing module 52 and a cutting module 53 are sequentially designed above the conveying belt 51 from right to left, a downward camera is designed on the photographing module 52, and a cutting head capable of moving back and forth, left and right to cut the fabric is designed on the cutting module 53. In the present embodiment, the cutting module 53 uses a laser automatic plane cutting structure, and the cutting head uses a laser emitting head, and the detailed structural explanation is omitted here. A material receiving box 54 is arranged at the lower part of the left side of the conveying belt 51, and cut fabrics are sent out from the conveying belt 51 and then enter the waste roller 11; the waste films after the hot stamping of the hot stamping films are conveyed into the main waste film roller 21 from the lower part of the conveying belt 51.

When the high-temperature hot stamping integrated automatic processing equipment is used, the material is sent out through the material roller 1 and enters the main hot stamping roller 3 together with a hot stamping film sent out through the main stamping roller 2, the material compresses the hot stamping film on the main hot stamping roller 3 to be heated, then the film is finally and completely transferred to the material through the main pressing roller 31, the material in the transfer printing mode is heated and preliminarily compressed when the hot stamping film moves along with the main hot stamping roller 3 in an attaching mode, then the transfer printing is finally compressed through the main pressing roller 31, the double-layer stamping enables the stamping effect to be better, meanwhile, the main hot stamping roller 3 and other moving rollers are continuously heated, the middle is not stopped, the efficiency is higher, the material after hot stamping directly enters the conveying belt 51, then the material after hot stamping is subjected to photo-taking through a camera of the upper photographing module 52, then the image is conveyed to a control computer of the equipment, the cutting mode needing the image characteristic calculation is carried out, then the upper cutting module 53 of the image is controlled to directly finish the cutting process on the upper portion of the conveying belt by using laser, the material and the conveying belt 51 together with the cut material, at this time, the clothes with the cut pattern directly fall off the waste material of the conveying belt, the waste material is directly falls into the waste material in the waste collecting box 54, and the waste material collecting box 11 is rolled up again. The equipment takes rolled fabric and hot stamping coil stock as materials, and continuously and automatically finishes hot stamping, cutting and receiving, and respectively batches and collects different wastes. The whole production process is continuously carried out and is completely automatic, so that the labor is greatly saved, the production efficiency is improved, and the cost of garment production is reduced.

As shown in fig. 1, a suction module 55 is mounted above the right side of the conveyor belt 51. The air extraction module 55 comprises an air inlet hopper at the upper part of the conveying belt, the lower part of the air inlet hopper is over against the fabric on the conveying belt 51, heat in the hot stamping process overflows along with the fabric, and an air pump connected with the air inlet hopper extracts the overflowed hot air and harmful gas possibly generated by hot stamping in time for discharge.

As shown in fig. 1, the material roller 1 and the scrap roller 11 are respectively assembled on independently movable pushing frames. When the material roller 1 needs to be used, the material roller 1 can be assembled on the pushing frame firstly, and then the material roller 1 is pushed to the connecting position of the equipment main body through the pushing frame. When the material roller 1 is used up, the material roller can be pushed open and replaced conveniently, and the waste material roller 11 can also be operated similarly, so that the use is more convenient.

As shown in fig. 1, in the specific design, an upper and a lower pressing power rollers 32 are designed at the position of the right bracket near the left end of the conveying belt 51, the hot stamped fabric passes through the middle of the two power rollers 32, and the power rollers 32 are connected with a transmission structure. The power roller 32 at the left end of the two conveying belts 51 is mainly used for providing running power for the thermoprinted fabric, so that the surface of the power roller 32 needs to have large friction with the fabric.

As shown in fig. 1, a buffer module is arranged on the right side of the power roller 32, the buffer module comprises two parallel buffer rollers 33, a gravity roller 34 capable of moving up and down is arranged in the middle of the buffer rollers 33, the fabric output from the main stamping roller 3 is attached to the upper portion of the right buffer roller 33 and then is wound from the lower portion of the gravity roller 34 to enter the upper portion of the left buffer roller 33, and the fabric output from the left buffer roller 33 enters the middle of the two power rollers 32. The gravity roller 34 compresses the hot stamped fabric downwards by using gravity, tension is directly provided for the fabric when the fabric runs on the equipment, meanwhile, when the moving speed of the fabric on the conveying belt 51 is asynchronous with the moving of the fabric on the right rack 4, for example, when the moving state of the fabric on the conveying belt 51 is that the conveying belt 51 stops, cutting is started, and the conveying belt runs again after the cutting is completed, so that the stopping process is required when the fabric runs on the conveying belt. This is done by the gravity roller 34 automatically moving up and down to provide cushioning for the movement of the fabric so that the fabric can still move continuously within the right frame 4. Or when the fabric in the right frame 4 stops moving and the fabric on the conveying belt 51 needs to move continuously, the buffer module can play a buffer role to ensure the operation of two states at two sides.

As shown in fig. 1, the main pattern roller 2 is mounted on a left frame 5 at a lower portion of the conveying belt 51. Due to the design, the main pattern roller 2 is closer to the hot stamping working position, the distance of an output hot stamping film is shorter, and the hot stamping machine is more convenient. Meanwhile, a rolling slideway 56 capable of feeding materials forwards and backwards is designed on the left frame 5 on the left side of the main pattern roller 2. The rolling chute 56 is composed of a plurality of single rollers which are arranged in parallel in the front-rear direction and can freely rotate, and the main pattern roller 2 can freely roll in the front-rear direction on the upper surface when being mounted and dismounted. The rolling ramp 56 thus facilitates the handling of the main figure roller 2.

Example 2

In this embodiment, as shown in fig. 2, the left side of the apparatus is substantially the same as that of embodiment 1, and details thereof are omitted, and a heated sub-stamping roller 6 is provided on the right side of the main stamping roller 3, a sub-drawing roller 7 is provided on the left side of the sub-stamping roller 6, a stamping film fed from the sub-drawing roller 7 is attached to and passed through the sub-stamping roller 6, a stamping surface of a material fed from the main stamping roller 3 after stamping is attached to and passed through a stamping film surface of the sub-stamping roller 6, a sub-stamping roller 61 for pressing the material and the stamping film against the sub-stamping roller 6 is provided on the right frame 4, a pattern is stamped on the material by the stamping film fed from the sub-drawing roller 7 through the sub-stamping roller 6, and the waste film fed from the sub-drawing roller 7 after transfer printing is fed to a right sub-film roller 71. In this embodiment, the structure of the auxiliary hot stamping roller 6 is designed on the right side of the main hot stamping roller 3, through a smart structural design, a hot stamping surface is formed on the surface of the auxiliary hot stamping roller 6, a heating process is also realized through a hot stamping film and a fabric attached to the surface of the auxiliary hot stamping roller 6, and then a pressing process is realized through the auxiliary pressing roller 61. The auxiliary pressing roller 61 has the same effect as the main pressing roller 31, when the imprinting function is played, the wrapping angles of the fabric and the hot stamping film on the hot stamping roller can be more according to the position design of the main pressing roller 31 and the auxiliary pressing roller 61, and the main hot stamping roller 3 and the auxiliary hot stamping roller 6 do not stop moving during working, so that the effect of longer hot stamping time can be achieved.

In conclusion, the auxiliary hot stamping roller 6 is designed, the purpose of continuously carrying out hot stamping after the main hot stamping roller 3 carries out hot stamping is achieved, automatic, rapid and double hot stamping can be achieved on the fabric, the structure is added less compared with the structure of one-time hot stamping, more complex color and pattern hot stamping can be completed, the whole process from the output of a hot stamping film to the collection of waste materials is also completely automatic, and manual work is not needed.

In this embodiment, as also shown in fig. 2, the right side of the right support is designed with an upper and a lower pressing power rollers 32, the fabric after being hot stamped on the auxiliary hot stamping roller 6 passes through the middle of the two power rollers 32, and the power rollers 32 are connected with the transmission structure. Therefore, the waste films after being thermoprinted on the auxiliary thermoprinting roller 6 can be actively output through the structure of the power roller 32 on the right side of the auxiliary thermoprinting roller 6. The transmission of the power roller 32 can be in synchronous transmission connection with the transmission of the auxiliary hot stamping roller 6, so that the power roller and the auxiliary hot stamping roller can run synchronously, and the stability of hot stamping is ensured.

As also shown in fig. 2, the sub-drawing roll 7 is mounted on a movable pushing frame independently of the sub-waste film roll 71. Because the auxiliary drawing roller 7 and the auxiliary waste film roller 71 discharge materials one by one and receive materials, the two are usually completed at the same time, and the two are designed on the same pushing frame, the space utilization is reasonable, the materials are saved, and the synchronous replacement and installation of the auxiliary drawing roller 7 and the auxiliary waste film roller 71 are facilitated.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, but rather as the subject matter of the invention is to be construed in all aspects and as broadly as possible, and all changes, equivalents and modifications that fall within the true spirit and scope of the invention are therefore intended to be embraced therein.

Claims

1. A high-temperature hot stamping integrated automatic processing device comprises a material roller, a main pattern roller and a main hot stamping roller, wherein a fabric to be hot stamped and processed is wound on the material roller, a hot stamping film is wound on the main pattern roller, a heating structure is actually arranged in the main hot stamping roller, the material roller outputs the fabric and then covers the hot stamping film output by the main pattern roller, the covered hot stamping film and the fabric pass through the surface heated by the main hot stamping roller, and the pattern on the hot stamping film is transferred to the fabric; the method is characterized in that: the hot stamping device comprises a main hot stamping roller, a left frame, a horizontal conveying belt, a photographic module and a cutting module, wherein the main hot stamping roller is assembled on a right frame, the main pressing roller for pressing a fabric and a hot stamping film on the main hot stamping roller is also assembled on the right frame, the left frame is designed on the left side of the right frame, the horizontal conveying belt is designed on the upper portion of the left frame, the fabric output from the main hot stamping roller is conveyed to the upper portion of the conveying belt, the photographic module and the cutting module are sequentially designed above the conveying belt from right to left, the photographic module is provided with a downward camera, and the cutting module is provided with a cutting head capable of cutting the fabric in a front-back and left-right movement manner; a material receiving box is arranged at the lower part of the left side of the conveying belt, and the cut fabric is sent out from the conveying belt and then enters a waste material roller; and the waste film subjected to hot stamping of the hot stamping film is conveyed into the main waste film roller from the lower part of the conveying belt.

2. The high-temperature hot stamping integrated automatic processing equipment as claimed in claim 1, wherein: and an air exhaust module is assembled above the right side of the conveying belt.

3. The high-temperature hot stamping integrated automatic processing equipment as claimed in claim 1, wherein: the material roller and the waste material roller are respectively assembled on the independent movable pushing frame.

4. The high-temperature hot stamping integrated automatic processing equipment as claimed in claim 1, wherein: and an upper and a lower compressed power rollers are arranged at the position of the right bracket close to the left end of the conveying belt, the thermoprinted fabric passes through the middle of the two power rollers, and the power rollers are connected with a transmission structure.

5. The high temperature hot stamping integrated automatic processing equipment according to any one of claims 1 to 4, characterized in that: the right side of the power roller is provided with a buffering module which comprises two buffering rollers which are parallel, a gravity roller capable of moving up and down is arranged in the middle of each buffering roller, the fabric output by the main hot stamping roller is attached to the right side, the upper portion of each buffering roller is wound from the lower portion of the gravity roller to enter the upper portion of the left buffering roller, and the fabric output by the left buffering roller enters the middle of the power roller.

6. The high temperature hot stamping integrated automatic processing equipment according to any one of claims 1 to 4, characterized in that: the main pattern roller is assembled on the left rack on the lower portion of the conveying belt, and a rolling slideway capable of feeding materials forwards and backwards is designed on the left rack on the left side of the main pattern roller.

7. The high temperature hot stamping integrated automatic processing equipment according to any one of claims 1 to 4, characterized in that: the hot stamping machine is characterized in that the right side of the main hot stamping roller is provided with an auxiliary hot stamping roller for heating, an auxiliary drawing roller is arranged on the left side of the auxiliary hot stamping roller, a hot stamping film output on the auxiliary drawing roller is attached to the auxiliary hot stamping roller, the hot stamping surface of the fabric output after hot stamping of the main hot stamping roller is attached to the surface of the hot stamping film of the auxiliary hot stamping roller, the right frame is provided with an auxiliary pressing roller for pressing the fabric and the hot stamping film tightly on the auxiliary hot stamping roller, the hot stamping film output on the auxiliary drawing roller is used for hot stamping the pattern on the fabric, and the auxiliary drawing roller passes through the auxiliary waste film output after transfer printing of the auxiliary hot stamping roller and enters the auxiliary waste film roller on the right side.

8. The high-temperature hot stamping integrated automatic processing equipment as claimed in claim 7, wherein: and an upper and a lower compressed power rollers are arranged on the right side of the right bracket, the fabric hot-stamped on the auxiliary hot-stamping roller passes through the middle of the two power rollers, and the power rollers are connected with a transmission structure.

9. The high-temperature hot stamping integrated automatic processing equipment as claimed in claim 7, wherein: the auxiliary drawing roller and the auxiliary waste film roller are independently assembled on the movable pushing frame.