CN107901591A - Transfer device and printing transferring method - Google Patents

Abstract

A kind of transfer device, including transport mechanism, preheating mechanism and eindruckwerk；Preheating mechanism is arranged at the top of transport mechanism, and preheating mechanism includes the primary heater of preheating transfer article；Eindruckwerk is arranged at the side of preheating mechanism, and eindruckwerk includes roller platen, driven voller and secondary heater, and roller platen is oppositely disposed in the both sides of transport mechanism with driven voller, and secondary heater is arranged at the top of roller platen.The transfer device of the present invention can shorten whole moulding process, improve production efficiency, can be widely applied to the production line of automation.The invention further relates to a kind of printing transferring method.

Description

Transfer device and transfer method

technical field

The invention relates to the technical field of hot stamping, in particular to a transfer device and a transfer method.

Background technique

The traditional thermal transfer printing technology refers to using the transfer film with a graphic decorative layer to paste the decorative layer on the surface of the license plate by heating, and use the adhesive force between the license plate surface and the decorative layer to separate the decorative layer. The transfer film is thus transferred to the license plate. In the transfer printing process in the prior art, the graphic decoration layer and the transfer film are usually bonded by solvent-based hot melt adhesive. The hot melt adhesive can be printed and coated to obtain a thin and uniform coating, which is solid at normal temperature and pressure, and forms a viscous adhesive once heated.

The existing transfer printing device needs to heat the license plate and the transfer film at the same time during the transfer process. In order to ensure the quality of the transfer, the transfer device will only heat the transfer film when the temperature of the surface of the license plate rises to a suitable temperature for transfer. The decorative layer of the film is embossed on the license plate. Therefore, it takes a long time to heat the license plate from a normal temperature state to a state suitable for transfer printing, which greatly reduces the working efficiency of the transfer printing device, and the transfer printing efficiency cannot realize large-scale automatic production.

Contents of the invention

The purpose of the present invention is to provide a transfer printing device, which can shorten the entire embossing process, improve production efficiency, and can be widely used in automated production lines.

The present invention solves the technical problem by adopting the following technical solutions.

A transfer printing device, comprising a conveying mechanism, a preheating mechanism and an embossing mechanism; the preheating mechanism is arranged above the conveying mechanism, and the preheating mechanism includes a first heater for preheating the transfer body; the embossing mechanism is arranged on the preheating One side of the mechanism, the embossing mechanism includes an embossing roller, a driven roller and a second heater, the embossing roller is arranged on both sides of the conveying mechanism opposite to the driven roller, and the second heater is arranged above the embossing roller .

In a preferred embodiment of the present invention, the above-mentioned transfer device further includes a workbench, and the conveying mechanism, the preheating mechanism and the embossing mechanism are connected to the workbench.

In a preferred embodiment of the present invention, the above-mentioned conveying mechanism includes a first conveying assembly, the first conveying assembly is arranged below the preheating mechanism, the first conveying assembly includes a plurality of conveying rollers and a first conveying driver, and each conveying roller is mutually Arranged at intervals on the workbench, the first conveying drivers are used to drive the conveying rollers to rotate and convey the transfer body.

In a preferred embodiment of the present invention, the above-mentioned preheating mechanism further includes a preheating cover, the preheating cover is connected on the workbench, each conveying roller passes under the preheating cover, the first heater is arranged in the preheating cover, The first heater is located above each conveying roller.

In a preferred embodiment of the present invention, the above-mentioned conveying mechanism further includes a second conveying assembly, the second conveying assembly is arranged below the embossing mechanism, the second conveying assembly includes a plurality of second conveying rollers, each second conveying roller is mutually Arranged at intervals, the driven roller is arranged between two adjacent second conveying rollers.

In a preferred embodiment of the present invention, the embossing mechanism also includes a discharging shaft, a receiving shaft, a first embossing driver and a second embossing driver, and the discharging shaft and the receiving shaft are respectively arranged on the embossing roller. On both sides, the unwinding shaft is used to output the transfer film, the take-up shaft is used to take up the embossed transfer film, the first embossing driver is used to drive the embossing roller to rotate, and the second embossing driver is used to drive the embossing roller to rotate. The printing roller reciprocates toward or away from the driven roller.

In a preferred embodiment of the present invention, the above-mentioned transfer device further includes a detection mechanism, which is arranged above the conveying mechanism and on one side of the embossing mechanism, and the detection mechanism includes a camera for photographing the transfer body.

In a preferred embodiment of the present invention, the detection mechanism further includes a fixed frame and a computer, the fixed frame is connected to the workbench, the camera is connected to the fixed frame, the lens of the camera faces the transmission mechanism, and the computer is electrically connected to the camera.

In a preferred embodiment of the present invention, the above-mentioned detection mechanism also includes a first temperature sensor and a second temperature sensor, the first temperature sensor and the second temperature sensor are respectively connected to the electrical signal of the computer, and the first temperature sensor is arranged on the preheating mechanism , the first temperature sensor is used to sense the temperature of the first heater, the second temperature sensor is arranged on the embossing mechanism, and the second temperature sensor is used to sense the temperature of the second heater.

In a preferred embodiment of the present invention, the above-mentioned transmission mechanism also includes a third transmission assembly, the third transmission assembly is arranged below the detection mechanism, the third transmission assembly includes a conveyor belt and a third transmission driver, and one end of the conveyor belt extends to the embossing mechanism, the third conveying driver is used to drive the conveying belt to move and convey the embossed transfer body.

Another object of the present invention is to provide a transfer printing method, which can shorten the entire imprinting process, improve production efficiency, and can be widely applied to automated production lines.

A transfer printing method, the transfer printing method utilizes the above-mentioned transfer printing device, and the steps of the transfer printing method include:

preheating the transfer body; and

The transfer film and the transfer body are heated and pressurized, and the transfer film is imprinted on the transfer body.

In a preferred embodiment of the present invention, the steps of the above-mentioned transfer printing method also include:

The transfer body is transported to the preheating mechanism by the transfer mechanism, and the transfer body is preheated by the first heater of the preheating mechanism;

The preheated transfer body is transported to the embossing mechanism by the transfer mechanism, the transfer film and the transfer body are heated by the second heater of the embossing mechanism, and the embossing roller and the driven roller of the embossing mechanism are used to heat the transfer film and the transfer body. The transfer film is imprinted on the transfer body.

In a preferred embodiment of the present invention, the embossed transfer body is transported to the detection mechanism by the transmission mechanism, the transfer body is photographed by the camera of the detection mechanism, and the photographs are sent to the computer, and the transfer body is judged by the computer. Whether there are graphics imprinted on the body.

The preheating mechanism of the transfer device of the present invention is arranged above the conveying mechanism, and the preheating mechanism includes a first heater for preheating the transfer body; the embossing mechanism is arranged above the conveying mechanism and is located on one side of the preheating mechanism The embossing mechanism includes an embossing roller, a driven roller and a second heater, the embossing roller is arranged on both sides of the conveying mechanism opposite to the driven roller, and the second heater is arranged above the embossing roller. Since the transfer body has been preheated before imprinting, when the transfer film is embossed, the second heater only needs a short heating time to heat the transfer body to a degree suitable for imprinting, making the hot melt adhesive The layer is more easily attached to the transfer body, which improves the printing quality and the quality of the transfer body, shortens the entire printing process, improves production efficiency, and can be widely used in automated production lines.

The above description is only an overview of the technical solution of the present invention. In order to better understand the technical means of the present invention, it can be implemented according to the contents of the description, and in order to make the above and other purposes, features and advantages of the present invention more obvious and understandable , the following preferred embodiments will be described in detail in conjunction with the accompanying drawings.

Description of drawings

FIG. 1 is a schematic structural view of the transfer device of the present invention.

Fig. 2 is a schematic diagram of the electrical signal relationship of the transfer device of the present invention.

Fig. 3 is a schematic structural view of the transfer film of the present invention.

Fig. 4 is a schematic flow chart of the transfer method of the present invention.

FIG. 5 is a schematic flow chart of using a transfer device to emboss a transfer film in the transfer method of the present invention.

Detailed ways

In order to further explain the technical means and effects of the present invention to achieve the intended purpose of the invention, the specific implementation, structure, and characteristics of the transfer device and transfer method proposed by the present invention will be described below in conjunction with the accompanying drawings and preferred embodiments. and its effects are described in detail as follows:

The aforementioned and other technical contents, features and effects of the present invention will be clearly presented in the following detailed description of preferred embodiments with reference to the drawings. Through the description of specific implementation methods, the technical means and effects of the present invention to achieve the intended purpose can be understood more deeply and specifically, but the attached drawings are only for reference and description, and are not used to explain the present invention limit.

FIG. 1 is a schematic structural view of the transfer device of the present invention. As shown in FIG. 1 , in this embodiment, the transfer device 10 includes a workbench 12 , a conveying mechanism 13 , a preheating mechanism 14 , an embossing mechanism 15 and a detection mechanism 16 .

The workbench 12 is used to carry and connect the transmission mechanism 13 , the preheating mechanism 14 , the embossing mechanism 15 and the detection mechanism 16 . The workbench 12 includes a first sub-counter 122, a second sub-counter 123 and a third sub-counter 124, and the first sub-counter 122, the second sub-counter 123 and the third sub-counter 124 are arranged adjacently in sequence, that is, the second sub-counter 123 It is arranged between the first sub-counter 122 and the third sub-counter 124 . In this embodiment, the transfer mechanism 13 is respectively connected to the first sub-counter 122, the second sub-counter 123 and the third sub-counter 124; the preheating mechanism 14 is connected to the first sub-counter 122 and is located above the transfer mechanism 13 The embossing mechanism 15 is connected to the second sub-counter 123 and is located above the transmission mechanism 13 ; the detection mechanism 16 is connected to the third sub-counter 124 and is located above the transmission mechanism 13 .

The conveying mechanism 13 is used to convey the transfer body 20 to the preheating mechanism 14 , the embossing mechanism 15 and the detecting mechanism 16 in sequence. The conveying mechanism 13 includes a first conveying assembly 131 , a second conveying assembly 134 and a third conveying assembly 137 . In this embodiment, the transfer body 20 is, for example, a license plate, but it is not limited thereto.

Specifically, the first conveying assembly 131 is arranged under the preheating mechanism 14, and the first conveying assembly 131 is used to transport the transfer body 20 to the lower part of the preheating mechanism 14, and transfer the transfer body 20 after the transfer body 20 is heated. The body 20 is transported to the second transfer assembly 134. The first conveying assembly 131 includes a plurality of conveying rollers 132 and a first conveying driver 133, each conveying roller 132 is arranged on the first sub-counter 122 of the workbench 12 at intervals, and each conveying roller 132 is connected from the bottom of the preheating mechanism 14 go through. The first conveying driver 133 is connected in the first sub-counter 122 , and the first conveying driver 133 is used to drive each conveying roller 132 to rotate and convey the transfer body 20 .

The second conveying assembly 134 is arranged below the embossing mechanism 15, and the second conveying assembly 134 is used to transport the transfer body 20 to the bottom of the embossing mechanism 15, and the embossing mechanism 15 prints the transfer film 30 on the transfer body 20 After loading, the second conveying assembly 134 conveys the transfer body 20 to the third conveying assembly 137 . The second conveying assembly 134 includes a plurality of second conveying rollers 135 , and each second conveying roller 135 is connected to the second sub-counter 123 at intervals.

The third transmission assembly 137 is arranged below the detection mechanism 16, and the third transmission assembly 137 is used to transport the transfer body 20 to the bottom of the detection mechanism 16. After the detection mechanism 16 detects the transfer body 20, the third transmission assembly 137 The transfer body 20 is conveyed to the next production process. The third conveying assembly 137 includes a conveying belt 138 and a third conveying driver 139 , one end of the conveying belt 138 extends to the embossing mechanism 15 , and the conveying belt 138 passes under the detecting mechanism 16 . The third conveying driver 139 is connected in the third sub-counter 124 , and the third conveying driver 139 is used to drive the conveying belt 138 to move the conveying transfer body 20 .

As shown in FIG. 1 , the preheating mechanism 14 includes a preheating cover 142 and a first heater 143 . The preheating cover 142 is connected on the first sub-counter 122 of the workbench 12, and each conveying roller 132 passes under the preheating cover 142, that is to say, each conveying roller 132 can transport the transfer body 20 into the preheating cover 142 . The first heater 143 is disposed in the preheating cover 142 and above each conveying roller 132 . When the first conveying assembly 131 transports the transfer body 20 to the bottom of the first heater 143 , the first heater 143 preheats the transfer body 20 to raise the surface temperature of the transfer body 20 to 40-80° C. In this embodiment, the temperature at which the first heater 143 preheats the transfer body 20 is 150-280° C., preferably 220-225° C., but it is not limited thereto.

As shown in FIG. 1 , the embossing mechanism 15 is used to emboss the transfer layer 34 of the transfer film 30 on the transfer body 20 . The embossing mechanism 15 includes a housing 152 , an embossing roller 153 , a driven roller 154 , a second heater 155 , a discharging shaft 156 , a receiving shaft 157 , a first embossing driver 158 and a second embossing driver 159 .

The housing 152 is connected to the second sub-counter 123 of the workbench 12 .

The embossing roller 153 and the driven roller 154 are arranged on both sides of the conveying mechanism 13 opposite to each other, wherein the embossing roller 153 is located in the housing 152 , and the driven roller 154 is arranged between two adjacent second conveying rollers 135 . The second heater 155 has an arc-shaped structure, and the second heater 155 is disposed above the embossing roller 153 . The second heater 155 is used for heating the transfer film 30 and the transfer body 20 , so as to imprint the transfer film 30 on the transfer body 20 .

The discharging shaft 156 and the receiving shaft 157 are respectively arranged on both sides of the embossing roller 153, and the discharging shaft 156 and the receiving shaft 157 are arranged outside the casing 152, and the discharging shaft 156 is used for outputting the transfer film 30 and receiving The material shaft 157 is used for winding up the embossed transfer film 30 . In this embodiment, the discharging shaft 156 and the receiving shaft 157 are arranged horizontally along the conveying direction of the transfer body 20, but not limited thereto. For example, a plurality of guide wheels may be provided to make the discharging shaft 156 The upper strip passes horizontally between the embossing roller 153 and the driven roller 154 .

The first embossing driver 158 is used to drive the embossing roller 153 to rotate; the second embossing driver 159 is used to drive the embossing roller 153 to move back and forth toward the direction approaching or away from the driven roller 154; The printing driver 159 drives the embossing roller 153 to move towards the direction close to the driven roller 154, and the first embossing driver 158 drives the embossing roller 153 to rotate at the same time, until the graphic layer of the transfer film 30 is embossed on the transfer body 20, During the embossing process of the transfer body 20, the transfer body 20 is gradually conveyed to the detection mechanism 16; when the embossing ends, the second embossing driver 159 drives the embossing roller 153 to move away from the driven roller 154, At this time, the transfer body 20 is transported to the third conveying assembly 137 . In this embodiment, the temperature at which the second heater 155 heats the transfer body 20 is 200-280°C. By adjusting the gap between the embossing roller 153 and the driven roller 154, the embossing of the transfer film 30 is realized. on the transfer body 20 .

Fig. 2 is a schematic diagram of the electrical signal relationship of the transfer device of the present invention. As shown in FIGS. 1 and 2 , the detection mechanism 16 is used to detect whether the transfer layer 34 is embossed on the transfer body 20 . The detection mechanism 16 includes a fixed frame 161 , a camera 163 , a first temperature sensor 164 , a second temperature sensor 165 and a computer 167 .

One end of the fixed frame 161 is connected on the third sub-counter 124 of the workbench 12, and the other end of the fixed frame 161 is provided with a fixed plate 162, and the fixed plate 162 is positioned directly above the conveyor belt 138.

The camera 163 is connected on the fixed plate 162 of the fixed frame 161 , and the lens of the camera 163 faces the conveyor belt 138 of the conveyor mechanism 13 . In this embodiment, when the conveying belt 138 transports the embossed transfer body 20 to the bottom of the camera 163 , the camera 163 takes pictures of the transfer body 20 .

The first temperature sensor 164 is disposed on the preheating mechanism 14 , and the first temperature sensor 164 is used for sensing the temperature of the first heater 143 .

The second temperature sensor 165 and the pressure sensor 166 are disposed on the embossing mechanism 15 , and the second temperature sensor 165 is used to sense the temperature of the second heater 155 .

The computer 167 is electrically connected to the camera 163 , the first temperature sensor 164 , and the second temperature sensor 165 , that is, the computer 167 can receive electrical signals from the camera 163 , the first temperature sensor 164 , and the second temperature sensor 165 . In this embodiment, the computer 167 can receive the photos taken by the camera 163, compare and analyze the received photos with the photos of qualified products that have been stored, and judge whether there are graphics embossed on the transfer body 20 and whether the embossed graphics are If there is a defect, a reminder signal or sound is issued according to the judgment result, so as to process the transfer body 20 with quality problems. The computer 167 can receive the temperature of the first heater 143 sensed by the first temperature sensor 164, and the computer 167 controls the heating power of the first heater 143 according to the received temperature signal, so as to achieve the purpose of intelligently controlling the preheating temperature. The computer 167 can receive the temperature of the second heater 155 sensed by the second temperature sensor 165, and the computer 167 controls the heating power of the second heater 155 according to the received temperature signal, so as to achieve the purpose of intelligently controlling the heating temperature.

It is worth mentioning that the computer 167 is provided with a temperature controller (not shown) for controlling the heating power of the first heater 143 and the second heater 155 , so as to facilitate intelligent imprinting of the transfer film 30 .

Fig. 3 is a schematic structural view of the transfer film of the present invention. As shown in FIG. 3 , the transfer printing device 10 of the present invention is used for thermally pressing the transfer film 30 to press the graphic layer of the transfer film 30 on the transfer body 20 . The transfer film 30 includes a carrier film 32 , a release layer 33 , a transfer layer 34 and a hot melt adhesive layer 35 . The release layer 33, the transfer layer 34 and the hot-melt adhesive layer 35 are sequentially stacked, that is, the release layer 33 is arranged on the carrier film 32, the transfer layer 34 is arranged on the release layer 33, and the hot-melt adhesive layer 35 is arranged on the On the transfer layer 34, wherein the transfer layer 34 is, for example, an anodized aluminum layer, an ink layer, a resin layer, etc., but it is not limited thereto. In this embodiment, when the transfer film 30 is heated and embossed, the hot-melt adhesive layer 35 is heated to generate adhesive force, and the hot-melt adhesive layer 35 melts and adheres to the surface of the transfer body 20 , while the transfer film 30 is released. The molded layer 33 loses its cohesive force when heated, and the release layer 33 melts and flows to separate from the carrier film 32 . At this time, the transfer layer 34 is transferred to the transfer body 20 . It is worth mentioning that since the transfer body 20 has been preheated before printing the transfer film 30, when the transfer film 30 is printed, the second heater 155 only needs a short heating time to heat the transfer film 30. The body 20 is heated to a degree suitable for embossing, so that the hot melt adhesive layer 35 is more easily attached to the transfer body 20, which not only improves the quality of embossing and the quality of the transfer body 20, but also shortens the entire embossing process and improves production. efficiency.

Fig. 4 is a schematic flow chart of the transfer method of the present invention. Please refer to FIG. 1 to FIG. 4, the transfer printing method of the present invention utilizes the above-mentioned transfer printing device 10, and the steps of the transfer printing method include:

In step S1, the transfer body 20 is preheated.

Step S2 , heat and pressurize the transfer film 30 and the transfer body 20 , and press the transfer film 30 on the transfer body 20 .

FIG. 5 is a schematic flow chart of using a transfer device to emboss a transfer film in the transfer method of the present invention. As shown in Figure 5, the transfer method of the present invention uses the transfer device 10 to emboss the transfer film 30, including:

In step N1 , the transfer body 20 is transported to the preheating mechanism 14 by the transport mechanism 13 , and the transfer body 20 is preheated by the first heater 143 of the preheating mechanism 14 .

Specifically, the transfer body 20 is conveyed into the preheating cover 142 by the first transfer assembly 131 of the transfer mechanism 13, and the transfer body 20 is placed under the first heater 143, and the transfer body 20 is transferred by the first heater 143. The body 20 is preheated, and the preheating temperature is 150-280°C, preferably 220-225°C, but not limited thereto.

Step N2, using the transfer mechanism 13 to transport the preheated transfer body 20 to the embossing mechanism 15, using the second heater 155 of the embossing mechanism 15 to heat the transfer film 30 and the transfer body 20, and using the embossing The embossing roller 153 and driven roller 154 of the mechanism 15 emboss the transfer film 30 on the transfer body 20 .

Specifically, the preheated transfer body 20 is conveyed between the embossing roller 153 and the driven roller 154 of the embossing mechanism 15 by the conveying mechanism 13; 30 and the transfer body 20 are heated, and the embossing roller 153 of the embossing mechanism 15 is used to move toward the direction close to the driven roller 154 until the transfer layer 34 of the transfer film 30 is embossed on the transfer body 20; The temperature is 200-280°C, but not limited thereto.

Step N3, use the conveying mechanism 13 to transport the embossed transfer body 20 to the detection mechanism 16, use the camera 163 of the detection mechanism 16 to take pictures of the transfer body 20, and send the photographs to the computer 167, and use the computer 167 to judge the transfer body 20. Whether the transfer layer 34 is imprinted on the stamp body 20 .

Specifically, use the third conveying assembly 137 of the conveying mechanism 13 to transport the embossed transfer body 20 below the camera 163 of the detection mechanism 16, the camera 163 photographs the transfer body 20, and then sends the photo to the computer 167, and the computer 167 Compare and analyze the received photos with the stored photos of qualified products, judge whether the transfer layer 34 is embossed on the transfer body 20 and judge whether the embossed transfer layer 34 is incomplete, and send out a reminder signal or sound according to the judgment result .

In this embodiment, the computer 167 is used to receive the temperature of the first heater 143 sensed by the first temperature sensor 164, and the heating power of the first heater 143 is controlled according to the received temperature signal; 165 senses the temperature of the second heater 155, and controls the heating power of the second heater 155 according to the received temperature signal.

The preheating mechanism 14 of the transfer device 10 of the present invention is arranged above the conveying mechanism 13, and the preheating mechanism 14 includes a first heater 143 for preheating the transfer body 20; the embossing mechanism 15 is arranged above the conveying mechanism 13, And be positioned at the side of preheating mechanism 14, embossing mechanism 15 comprises embossing roller 153, driven roller 154 and second heater 155, and embossing roller 153 is arranged on both sides of conveying mechanism 13 opposite to driven roller 154 , the second heater 155 is disposed above the embossing roller 153 . Since the transfer body 20 has been preheated before embossing, when the transfer film 30 is embossed, the second heater 155 only needs a short heating time to heat the transfer body 20 to a degree suitable for embossing. The hot-melt adhesive layer 35 is easier to attach to the transfer body 20, improving the printing quality and the quality of the transfer body 20, shortening the entire embossing process, improving production efficiency, and can be widely used in automated production lines.

The preferred embodiments of the present invention have been described in detail above in conjunction with the accompanying drawings, but the present invention is not limited to the specific details in the above embodiments. Within the scope of the technical concept of the present invention, various simple modifications can be made to the technical solutions of the present invention. These Simple modifications all belong to the protection scope of the present invention. The various specific technical features described in the above specific implementation manners may be combined in any suitable manner if there is no contradiction. In order to avoid unnecessary repetition, various possible combinations are not further described in the present invention.

Claims (13)

1. A kind of 1. transfer device, it is characterised in that including：

   Transport mechanism (13)；

   Preheating mechanism (14), the preheating mechanism (14) are arranged at the top of the transport mechanism (13), which includes Preheat the primary heater (143) of transfer article (20)；And

   Eindruckwerk (15), the eindruckwerk (15) are arranged at the side of the preheating mechanism (14), which includes Roller platen (153), driven voller (154) and secondary heater (155), the roller platen (153) are relatively set with the driven voller (154) The both sides of the transport mechanism (13) are placed in, which is arranged at the top of the roller platen (153).
2. 2. transfer device as claimed in claim 1, it is characterised in that the transfer device further includes workbench (12), the transmission Mechanism (13), preheating mechanism (14) and eindruckwerk (15) are connected on the workbench (12).
3. 3. transfer device as claimed in claim 2, it is characterised in that the transport mechanism (13) includes the first transfer assembly (131), which is arranged at the lower section of the preheating mechanism (14), which includes more Root transfer roller (132) and first transmits driver (133), and respectively the transfer roller (132) is arranged on the workbench spaced reciprocally (12) on, which is used to drive the respectively transfer roller (132) rotation transmission transfer article (20).
4. 4. transfer device as claimed in claim 3, it is characterised in that the preheating mechanism (14) further includes preheating cover (142), should Preheating cover (142) is connected on the workbench (12), and respectively the transfer roller (132) passes through below the preheating cover (142), this first Heater (143) is arranged in the preheating cover (142), and the primary heater (143) is positioned at the top of the respectively transfer roller (132).
5. 5. transfer device as claimed in claim 3, it is characterised in that the transport mechanism (13) further includes the second transfer assembly (134), which is arranged at the lower section of the eindruckwerk (15), which includes more The second transfer roller of root (135), respectively the second transfer roller (135) the spaced setting, which is arranged at adjacent two should Between second transfer roller (135).
6. 6. transfer device as claimed in claim 5, it is characterised in that the eindruckwerk (15) further includes dispensing shaft (156), receives Expect axis (157), the first coining driver (158) and the second coining driver (159), the dispensing shaft (156) and the collecting shaft (157) both sides of the roller platen (153) are respectively arranged at, which is used to export transfer film (30), the collecting shaft (157) it is used to furl the transfer film (30) after coining, which is used to drive the roller platen (153) to turn Dynamic, which is used to drive the roller platen (153) towards the side closer or far from the driven voller (154) To reciprocating movement.
7. 7. transfer device as claimed in claim 2, it is characterised in that the transfer device further includes testing agency (16), the inspection The top that mechanism (16) is arranged at the transport mechanism (13) is surveyed, and positioned at the side of the eindruckwerk (15), the testing agency (16) include being used for the camera (163) for shooting transfer article (20).
8. 8. transfer device as claimed in claim 7, it is characterised in that the testing agency (16) further include fixed frame (161) and Computer (167), the fixed frame (161) are connected on the workbench (12), which is connected to the fixed frame (161) On, the camera lens of the camera (163) is connected against the transport mechanism (13), the computer (167) with camera (163) electric signal.
9. 9. transfer device as claimed in claim 8, it is characterised in that the testing agency (16) further includes the first temperature sensor (164) and second temperature sensor (165), first temperature sensor (164), second temperature sensor (165) respectively with this Computer (167) electric signal connects, which is arranged at the preheating mechanism (14), which passes Sensor (164) is used for the temperature for sensing the primary heater (143), which is arranged at the marking press Structure (15), the second temperature sensor (165) are used for the temperature for sensing the secondary heater (155).
10. 10. transfer device as claimed in claim 8, it is characterised in that the transport mechanism (13) further includes the 3rd transfer assembly (137), the 3rd transfer assembly (137) is arranged at the lower section of the testing agency (16), and the 3rd transfer assembly (137) includes passing Band (138) and the 3rd is sent to transmit driver (139), one end of the conveyer belt (138) extends to the eindruckwerk (15), and the 3rd Transmission driver (139) is used to drive the transfer article (20) after the mobile transmission coining of the conveyer belt (138).
11. 11. a kind of printing transferring method, it is characterised in that the printing transferring method utilizes the transfer described in 10 any one of claims 1 to 10 The step of device, the printing transferring method, includes：

    Transfer article (20) is preheated；And

    Transfer film (30) and transfer article (20) are heated and pressurizeed, transfer film (30) is stamped on transfer article (20).
12. 12. printing transferring method as claimed in claim 11, it is characterised in that the step of printing transferring method further includes：

    Transfer article (20) is delivered to preheating mechanism (14) using transport mechanism (13), is added using the first of the preheating mechanism (14) Hot device (143) preheats transfer article (20)；

    The transfer article (20) after preheating is delivered to eindruckwerk (15) using the transport mechanism (13), utilizes the eindruckwerk (15) secondary heater (155) heats transfer film (30) and transfer article (20), utilizes the pressure of the eindruckwerk (15) Transfer film (30) is stamped on transfer article (20) by print roller (153) and driven voller (154).
13. 13. printing transferring method as claimed in claim 11, it is characterised in that using transport mechanism (13) by the transfer article after coining (20) testing agency (16) is delivered to, using camera (163) the shooting transfer article (20) of the testing agency (16), and by shooting Photo is sent to computer (167), judges whether imprinted figure on transfer article (20) using the computer (167).