KR102077598B1 - Water transfer paper - Google Patents

Abstract

The present invention relates to a foil water decal transfer material which comprises: a transfer sheet (110); a first silk print layer (120) formed by applying silk ink to the transfer sheet (110) to prevent coloration and enhance adhesion to an object; a second silk print layer (130) formed by applying transparent silk ink to the transfer sheet (110) as pre-treatment for performing hot stamping on the transfer sheet (110); a foil layer (140) formed by hot stamping a foil film on the transfer sheet (110); and a silk color print layer (160) formed by applying color ink to the transfer sheet (110). Accordingly, there is an effect of providing the water decal transfer material using a foil which can obtain a high quality processed product by performing more three-dimensional and effective transfer on the object such as a helmet, clothing and the like.

Description

Foil water decal transcript and its production system {Water transfer paper}

The present invention relates to a foil water decal transcript and a manufacturing system thereof, and more particularly, a foil capable of performing a three-dimensional and effective transfer of an object (eg, a helmet, clothing, etc.) to obtain a high quality processed product. It relates to a water decal transcript and a production system thereof.

The veterinarian can print various types of patterns or pictures on the object. However, although technologies using the water warriors have been continuously developed, there is a problem in that there is a lack of a technology for obtaining and processing a high-quality processed product for an object by implementing a three-dimensional effect such as a hologram. Moreover, there is a problem in that it is difficult to obtain a high quality processed product having excellent quality in implementing a three-dimensional effect. In particular, the difficulty of such a water-repellent machining will vary depending on the shape of the workpiece to be processed. For example, when the object to be processed for carrying out the water transfer is circular or elliptical non-uniform, it is necessary to produce a transfer material capable of performing the corresponding water transfer.

In addition, the produced transcript should have a degree of durability in itself, and there is a need to give durability against damage again even after being transferred to the transcript to be transferred. However, there is a problem in that there is no technology capable of fully satisfying this need.

Therefore, there is a disadvantage in that it is not easy to apply the high-quality hydrostatic machining excellent in durability and three-dimensional effect to the hydrophobic object.

Korea Patent Registration No. 10-0317368

An object of the present invention is to provide a water decal transfer using a foil that can perform a more three-dimensional and effective transfer to the object (for example, helmet, clothing, etc.) to obtain a high-quality workpiece.

The present invention provides a foil water decal transcript, comprising: a transfer board; A first silk printing layer formed by applying silk ink to the transfer sheet to prevent color coloring and to enhance adhesion with a substance; A second silk print layer formed by applying a transparent silk ink to the transfer sheet as a pretreatment for performing hot stamping on the transfer sheet; A foil layer formed by hot stamping a foil film on the transfer sheet; It provides a foil water decal transfer article including a silk color printing layer formed by applying color ink to the transfer sheet.

According to another aspect of the present invention, the present invention provides a method for producing a foil water decal transfer article, comprising: preparing a transfer base; Forming a first silk print layer by applying silk ink for preventing color and strengthening adhesion to a substrate on the transfer sheet; Forming a second silk print layer by applying transparent silk ink to the transfer sheet as a pretreatment for performing hot stamping; Hot stamping a foil film on the transfer sheet to form a foil layer; And applying a color ink to the transfer base to form a silk color printing layer.

According to the present invention there is an effect that can provide a water decal transfer using a foil that can perform a more three-dimensional and effective transfer of the object (eg helmet, clothing, etc.) to obtain a high-quality processed product.

1 is a view showing the configuration of a foil water decal transfer material according to an embodiment of the present invention.
Figure 2 is a flow diagram sequentially showing a method for producing a foil woofer decal transcript according to an embodiment of the present invention.
3 to 9 are views showing the configuration of the foil decal transcript produced by the method for manufacturing a transfer according to FIG.
FIG. 10 is a photograph showing a foil decal transcript produced by the method of manufacturing a decal transcript in the arc of FIG. 2.
FIG. 11 is a photograph showing a state where the foil decal transcript according to FIG. 10 is transferred to an object to be processed.
12 to 13 are schematic perspective views of a silkscreen printing apparatus of the water decal transfer system according to an embodiment of the present invention.
14 is a configuration diagram of the vertical adjustment unit according to FIG. 12.
FIG. 15 is a configuration diagram illustrating a horizontal control unit according to FIG. 12.
16 to 17 is a configuration diagram of the printing unit of the silk screen printing apparatus according to FIG.
18 to 19 is a state diagram of the silkscreen printing apparatus according to FIG.
20 to 25 is a schematic perspective view of a silkscreen printing apparatus of the water decal transfer system according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.
1 is a view showing the configuration of a foil water decal transfer material according to an embodiment of the present invention.
Referring to FIG. 1, the foil water decal transfer material 100 (hereinafter, referred to as “transfer material 100”) may include a transfer board 110, a first silk print layer 120, and a second silk print layer 130. ), The third silk printing layer 150, the silk color printing layer 160, the coating layer 170.
The transfer base 110 corresponds to the base base of the transfer object 100. The first silk print layer 120 is formed by applying silk ink to the transfer base 110 in order to prevent coloration and to enhance adhesion with a substance. Herein, the silk ink includes any one of white and gray colors.
The second silk print layer 130 is formed by applying transparent silk ink to the transfer sheet 110 as a pretreatment for performing hot stamping on the transfer sheet 110. The foil layer 140 is formed by hot stamping a foil film on the transfer support 110.
The third silk print layer 150 is formed by applying a transparent silk ink to the transfer base 110 as a post-treatment after performing a hot stamping. The third silk print layer 150 is formed to prevent deformation and protection of the hot stamped foil.
The silk color printing layer 160 is formed by applying color ink to the transfer base 110. The coating layer 170 is formed on the top of the transfer support 110. Thereafter, the transfer material on which the coating layer 170 is formed is transferred to the transfer object. Here, the transfer object may include various articles such as helmets and clothes, and may include all articles unless there is a particular limitation on the technical implementation.
Here, the object to which the workpiece is transferred is primarily cured at a set temperature, for example, a temperature within a range of 45 to 60 °. Then, a second coat is performed at a set temperature, for example, a temperature in the range of 65 to 75 ° by performing a top coat for hardening and polishing.
2 is a flow chart sequentially illustrating a method of manufacturing a foil water decal transfer material according to an embodiment of the present invention. 3 to 9 are views showing the configuration of the foil decal transcript produced by the method for manufacturing a transfer according to FIG.
2 to 9, the foil water decal transfer method manufacturing method (S100) (hereinafter referred to as "transfer material production method (S100")), the foil water decal transfer as shown in FIG. In step S120, the foil water decal transcript is transferred to the object as shown in Fig. 11. In S130, the object to which the foil water decal transcript is transferred is first processed. Second object is processed.
More specifically, the S110 prepares the transfer base 110 in S111. After preparing the transfer base 110, the first silk printing layer 120 is formed by applying a silk ink for preventing color and strengthening adhesion with the object on the transfer base 110 in S112. The silk ink includes any one of white and gray colors.
As a pretreatment for performing hot stamping in S113, a transparent silk ink is coated on the transfer base 110 to form a second silk print layer 130. Hot foil is stamped on the transfer sheet in S114 to form a foil layer 140.
After performing the hot stamping in S115 to apply a transparent silk ink to the transfer base 110 as a post-treatment to form a third silk print layer 150 to prevent deformation and protection of the hot stamped foil.
In S116, a color ink is coated on the transfer base 110 to form a silk color printing layer 160. A coating layer 170 is formed on the transfer support 110 in S117.
In S130, the workpiece is first cured at a set temperature, for example, a temperature within a range of 45 to 60 ° with respect to the object to which the workpiece is transferred. In the step S140, the topcoat is hardened in order to protect the gloss and harden the surface.
12 to 13 is a schematic perspective view of a silkscreen printing apparatus according to the present invention, Figure 14 is a schematic view of the vertical adjustment unit of the silkscreen printing machine according to the present invention, Figure 15 is a silkscreen printing apparatus of the present invention Configuration diagram of horizontal adjustment part
16 to 17 show the configuration of the printing unit of the silk screen printing apparatus according to the present invention. The silk screen printing apparatus 1 'of the present invention includes a base 100' on which the print base material 10 'is mounted, and a rotation shaft fixed to a shaft fixing part 310' provided on both sides of the base 100 '. The screen printing plate 200 'is rotated around the 320' and fixed to the jig 210 'connected to the rotating shaft 320', and the fixing bar 300 is fixed at both ends to the shaft fixing portion 310 '. ') And before and after the upper portion of the screen printing plate 200', the scraper 410 'and squeeze 420' is provided, the scraper 410 'and squeeze 420' at the same time, A printing unit 400 'provided with a shanghai conveying means 430' and a first conveying means coupled to a rear surface of the printing unit 400 'to convey the printing unit 400' before and after 500 'and one side of the first transfer means 500', and connected to a fixed block 362 'fixed on the rotating shaft 320' to rotate the printing unit 400 'at a predetermined angle. The second transfer means (6) 00 '), and the vertical conveying means 430', the first and the second conveying means connected with the pneumatic supply device for operating the shanghai conveying means 430 ', the first and second conveying means (500,600') And a controller 700 'for controlling the operation of 500,600'. In this case, the screen printing plate 200 'is made of a stencil in the shape desired by the user (像'), and the silk is placed on it, and the ink leaks out only in the perforated stencil part when the ink is leaked out by the mesh of silk. The detailed description will be omitted since it corresponds to a configuration known as a general screen printing plate 200 ′ manufactured by the principle.
The rear surface of the screen printing plate 200 'is inserted into a' c 'shaped jig 210' and pressed by a fixing screw 211 'penetrated through the upper portion of the jig 210', thereby being firmly fixed and fixed screw ( 211 '), the screen printing plate 200' can be easily replaced. At this time, it is preferable that two or more fixing screws 211 'are provided. The print base material 10 ′ on which the image of the screen printing plate 200 ′ is printed is mounted in a fixed state by a jig on the base 100 ′. In addition, both sides of the upper portion of the base 100 'is provided with a shaft fixing portion 310' so that both ends of the rotating shaft 320 'are fixed to the shaft fixing portion 310', and the rotation shaft 320 ' The screen printing plate 200 'is rotated so that the screen printing plate 200' is brought into close contact with the printing base material 10 'and is repeatedly rotated upward at a predetermined angle.
Therefore, when the screen printing plate 200 'is in close contact with the printing base material 10', printing is performed on the printing base material 10 'by the operation of the scraper and the squeeze. This will be described in more detail in the following operation process. The shaft fixing portion 310 'is formed of a rectangular cylinder extending back and forth, and both ends of the fixing bar 300' are fixed to the fixing portion 310 '. On the other hand, on one side of the shaft fixing portion 310 'can adjust the height of the jig 210' and the screen printing plate 200 'connected to the rotating shaft 320' by adjusting the height of the rotating shaft 320 ' The vertical adjuster 340 ′ is provided.
As illustrated in FIG. 14, the vertical adjustment part 340 ′ is provided with a handle 341 ′ at an upper portion thereof, and penetrates through a guide plate 343 ′ spaced apart from an upper side of the shaft fixing portion 310 ′. A lower bolt is screwed into the shaft fixing portion 310 ', and the long bolt 342' is spaced apart before and after the long bolt 342 ', and the guide plate 343' and the shaft fixing portion 310 ' The end is formed of a guide rod 345 'fixed to the base 100'. Accordingly, when the knob 341 'is rotated, the shaft fixing part 310' screwed with the long bolt 342 'is moved up and down, and the rotating shaft 320' is connected to the shaft fixing part 310 '. And the jig 210 'and the screen printing plate 200' are moved up and down to adjust the height of the screen printing plate 200 'according to the height of the printing base material 10'.
In addition, when the printing unit 400 'is rotated about the rotation shaft 320', the rear side of the printing unit 400 'is in contact with the upper side of the center of the fixing bar 300', and the switch 351 'is pressed. ) Is provided with a counter (350 ') is provided to display the number of movements of the printing unit 400' to maintain a constant replacement cycle of the squeeze (420 ') of the printing unit 400' Make sure Meanwhile, a vertical fixing screw 312 'penetrates the outer surface of the shaft fixing portion 310' so that the end presses the outer circumferential surface of the guide rod 345 'to adjust the vertical adjusting portion 340' to a desired position. After tightly adjustable.
In addition, the rear side of the jig 210 'is provided with a horizontal adjustment unit 360' for transporting and fixing the jig 210 'back and forth. As shown in FIG. 15, the horizontal adjustment part 360 ′ is provided with a pair of transfer rods 364 ′, one end of which is fixed to the rear surface of the jig 210 ′, through which the rotation shaft 320 ′ penetrates. An outer circumferential surface of the transfer rod 364 'is an end of a horizontal fixing screw 365' that is penetrated perpendicularly to the rotating shaft 320 'and fixed to the fixing block 362', and is screwed on the fixing block 362 '. Press and release to transfer or fix the transfer rod (364 ').
Accordingly, when the horizontal fixing screw 365 'is released to transfer the transfer rod 364' back and forth, the screen printing plate 200 'fixed to the jig 210' is moved to the front and the rear of the screen printing plate ( 200 ') before and after position can be adjusted. In addition, as shown in FIGS. 16 to 17, the printing unit 400 ′ of the silk screen printing apparatus 1 ′ according to the present invention transfers the printing unit 400 ′ before and after the first transfer. The printing fixing part 440 'is coupled to the end of the means 500', and the binding protrusion 451 moves upward and downward to correspond to the groove 441 'provided in the front of the printing fixing part 440'. ') Is provided with a gear box 450', the scraper 410 'and the squeeze 420' provided on the lower portion of the gear box 450 'by the Shanghai conveying means (430'), Ha is moved.
At this time, the scraper 410 'is coupled to the cylinder rod 431' of the shanghai conveying means 430 'is conveyed up and down, but between the upper end of the scraper 410' and the end of the cylinder rod 431 ' A first rack gear 432 'having teeth formed on one side thereof is provided, and a second rack gear 422' having teeth formed in a direction facing the first rack gear 432 'at an upper end of the squeeze 420'. ) Is provided, the first rack gear 432 'and the second rack gear 422' is meshed on both sides, the pinion is fixed to the inner side of the gear box 450 'the central shaft 452' 453 'is provided so that the scraper and squeeze 420' are simultaneously moved in opposite directions by the shanghai conveying means 430 '. That is, when the cylinder rod 431 'of the shanghai conveying means 430' is moved downward, the scraper 410 'is moved downward and at the same time, the first rack gear 432' and the second rack gear 422 are moved. The squeeze 420 'is moved upward by the pinion 453' engaged with both sides, and conversely, when the cylinder rod 431 'is restored to its original state, the scraper 410' is also restored to its original state. The squeeze 420 'is moved downward.
Therefore, the operations of the scraper 410 'and the squeeze 420' are repeatedly operated at a time, and the speed of the print job can be significantly reduced. In addition, the rubber materials provided at the ends of the scraper 410 'and the squeeze 420' are bolted and fixed to the scraper fixing member 411 'and the squeeze fixing member 421' so as to be replaceable. In this case, a long groove 412 'is formed at the upper portion of the scraper 410' to loosen the bolt to adjust the height, and finely adjust the height of the squeeze 420 'at the upper portion of the gearbox 450'. A squeeze height adjustment unit 470 'is provided, and one side of the printing fixing part 440' is fixed to which the gear box 450 'can be moved up and down and fixed in the printing fixing part 440'. Lever 442 'is provided. The squeeze height adjustment unit 470 'is a guide rod on both sides of the long bolt 472' and the long bolt 472 'provided with a rotating head 471' at the top, such as the vertical adjustment unit 340 '. 473 'are provided through the upper guide block 474' spaced apart from the upper portion of the gearbox 450 ', the end of the long bolt 472' is connected to the gearbox 450 ', The end of the guide rod 473 'is fixed to the lower guide block 475' spaced below the gearbox 450 'through the gearbox 450'.
In addition, the guide rod 473 'is provided with a spring 476', the upper and lower parts of which are seated on the upper surface of the gear box 450 'and the lower portion of the upper guide block 475'. When the up and down moves, the friction shock of the second rack gear 422 'engaged with the pinion 453' is buffered. The first transfer means 500 ′ of the silk screen printing apparatus 1 ′ of the present invention is formed of a double-acting pneumatic cylinder on a support plate 510 ′ of the “b” type fixed to the jig 210 ′. In addition, the end of the cylinder rod 501 'is coupled to the printing unit 400', the front of the cylinder is provided with a limit switch 520 'limiting the distance the cylinder rod 501' is advanced, An end of the second transfer means 600 'is fixed to the fixed bar 300', and an end of the cylinder rod 601 'is coupled to a fixed block 362' penetrated through the rotation shaft 320 '. It is coupled to the end of the connecting member 620 ', and before and after the cylinder to limit the distance that the cylinder rod 601' is moved forward and backward to maintain a constant angle of rotation of the screen printing plate 200 ' Limit switch 610 'is provided. At this time, the end of the first transfer means (500 ') is fixed to the connecting portion protruding upward from the rear side of the support plate (510'). In addition, the second transfer means (600 ') is the end is rotatably coupled to the connecting shaft (301') provided on the lower surface of the fixing bar (300 '), the connecting member (620') is the second It is coupled to the end of the cylinder rod 601 'of the transfer means 600' is formed in a 'b' shape so as to rotate the rotating shaft 320 'by the movement of the cylinder rod (601'). In addition, a portion of the base 100 ′ of the lower side of the connection member 620 ′ is cut out so as not to interfere with the rotation of the connection member 620 ′.
In addition, the support plate 510 'is provided with a guide rail 530', the lower portion of the first conveying means 500 'is moved along the guide rail 530', the end of the printing portion ( 400 ') is provided with a guide member 540' for guiding the front and rear movement of the cylinder rod 501 'of the first transfer means 500', and the first transfer means 500 '. Both sides are provided with a shock absorbing member 550 'provided through the front portion of the support plate 510'. At this time, the end of the shock absorbing member 550 'is brought into contact with the rear surface of the jig 210' fixing the screen printing plate 200 'and is advanced by the first transfer means 500' and then restored to its original state. The end is formed of a rubber material to absorb the impact when the elastic body (not shown) is provided therein. The silk screen printing apparatus 1 ′ of the present invention configured as described above operates the control unit 700 ′ connected to the pneumatic supply device for operating the first and second transfer means 600 ′. ') Moves the printing unit 400' forward and backward, and the second transfer means 600 'rotates the rotating shaft 320', and the jig 210 'coupled with the rotating shaft 320'. The screen printing plate 200 'is rotated at the same time to improve the printing speed and quality, thereby improving productivity. On the other hand, the control unit 700 'is preferably provided on the bottom surface by a push-on switch (Push-on switch') that allows the user to press the foot to operate, to release the pressure to stop the operation. Hereinafter, the operation of the silk screen printing apparatus 1 'according to the present invention will be described in detail in comparison with the accompanying drawings. 18 to 19 show operating state diagrams of the silkscreen printing apparatus according to the present invention.
First, as illustrated in FIG. 18, when the control unit 700 ′ provided with the push-on switch ′ is pressed, the first transfer means for moving the printing unit 400 ′ before and after ( 500 '), the second transfer means 600' for rotating the screen printing plate 200 'and the printing unit 400' around a rotation shaft 320 'at a predetermined angle, and the scraper of the printing unit 400'. 410 ') and the Shanghai transport means 430' for moving the squeeze 420 'up and down are operated at the same time. More specifically, at the end of the binding member 620 'connected to one side of the fixing block 362' fixed on the rotating shaft 320 'coupled with the jig 210' fixing the screen printing plate 200 '. The jig 210 ', the screen printing plate 200' and the printing unit 400 'are rotated about the rotation shaft 320' by the second transfer means 600 'coupled to the cylinder rod 601'. The cylinder rod 501 'of the first transfer means 500' is fixed to the support plate 510 'formed at the top of the jig 210' while the screen printing plate 200 'is in close contact with the printing base material 10'. Is advanced, and the printing unit 400 'is advanced and the cylinder rod 431' of the shanghai conveying means 430 'is provided on the upper gearbox 450' of the printing unit 400 '. The scraper 410 'is moved downward to the screen printing unit 400', at which time the first rack gear 432 'is provided at the top of the scraper 410' and at the end of the shanghai conveying means 430 '. ) And squeeze (420 ') The second rack gear 432 'provided at the upper side of the pinion 453' is provided at both sides, and the squeeze 420 'is moved upward.
On the other hand, the cylinder rod 501 ′ of the first transfer means 500 ′ extends to the limit switch 520 ′ provided on the outer circumferential surface of the cylinder front portion, so that the length at which the printing unit 400 ′ is advanced is always kept constant. The cylinder rod 501 ′ of the first transfer means 500 ′ is along a guide rail 530 ′ provided on a support plate 510 ′ whose front surface is fixed to an upper portion of the jig 210 ′. It is conveyed, and the end can be conveyed while maintaining the horizontal along the guide portion 540 'fixed to the printing unit 400'. In addition, the cylinder rod 601 'of the second transfer means 600' is reduced to the limit switch 610 'provided on the outer circumferential surface of the cylinder rear portion, so that the angle at which the printing unit 400' is rotated downward is always constant. Will be maintained. Therefore, the first and second transfer means 500, 600 'and the shanghai transfer means 430' are preferably formed of a double-acting cylinder.
Then, the cylinder rod 501 'of the first transfer means 500' is reversed to restore the printing unit 400 'to its original state, and the end of the squeeze 420' is placed on the screen printing plate 200 '. While applying the ink evenly, one end is coupled to the end of the cylinder rod 601 'of the second transfer means 600' while the cylinder rod 601 'of the second transfer means 600' is advanced. The rotating shaft 320 'is rotated counterclockwise by the connecting member 620' fixed to the fixed block 362 'fixed to the rotating shaft 320', and the jig 210 'is connected to the rotating shaft 320'. And the screen printing plate 200 ', as well as the first conveying means 500' fixed to the upper side of the jig 210 'and the printing unit 400' is rotated upward. At this time, the cylinder rod 501 'of the first transfer means 500' is reduced to the limit switch 520 'provided on the outer circumferential surface of the cylinder rear portion, so that the printing unit 400' is always moved forward and backward in a constant length. It is to be in close contact with the end of the shock absorbing member (550 ') provided on the front of the' b 'shaped support plate for supporting the first transfer means (500') is reversed by the first transfer means (500 ') Absorb the impact of the printed portion 400 '.
In addition, as shown in FIG. 19, the cylinder rod 501 ′ of the first transfer means 500 ′ extends, and the cylinder rod 601 ′ of the second transfer means 600 ′ extends. The rotary shaft 320 'is rotated clockwise by the connecting member 620' so that the jig 210 'and the screen printing plate 200' and the printing unit 400 'connected to the rotary shaft 320' are rotated. While the screen printing plate 200 'is brought into close contact with the printing base material 10', the cylinder rod 431 'of the shanghai conveying means 430' provided at the upper portion of the printing unit 400 'is moved to its original state. As a result, the scraper 410 'is moved upward and the squeeze 420' is moved downward by the principle of the repinion gear as described above, so that the scraper 410 'is brought into close contact with the screen printing unit 400'.
In this case, the cylinder rod 601 ′ of the second transfer means 600 ′ is limited in extension to the limit switch 610 ′ provided at the rear outer circumferential surface of the cylinder, so that the screen printing plate 200 ′ is always at a constant position. The print base material 10 'may be in close contact. Next, as the first conveying means 500 'is extended so that the printing unit 400' is moved to the front side, the end of the squeeze 420 'is brought into close contact with the screen printing plate 200' and moved forward. The print job is performed at 10 '. Therefore, the user can continuously check the quality printed on the print base material 10 ', and in some cases, the operation is repeatedly performed to achieve a high quality print job in a short time. This operation is repeated by the operation of the control unit 700 'provided with the push-on switch, and when the operation of the control unit 700' is released, the first transfer means 500 'is reduced in size. The conveying means 600 ′ is maintained in an extended state, that is, the screen printing plate 200 ′ and the printing unit 400 ′ are rotated upward.
<Water Decal Transfer System-Silk Screen Printing Unit 2>
20 to 24 are schematic perspective views of a silkscreen printing apparatus of a water decal transfer system according to another embodiment of the present invention. 20 to 24, the silk printing forming at least the first printing layer 120 of the above-described processes is performed through a predetermined silk printing apparatus, and the silk printing apparatus may include a printing base material 10 ′. Shanghai conveying means 430 for simultaneously transporting the base 100 ′ on which the base is seated, the screen printing plate 200 ′ above the base 100 ′, and the scraper 410 ′ and the squeeze 420 ′ at the same time. ') Is provided with a printing unit 400', a plurality of legs 210 provided in the lower portion of the base 100 ', and is provided in the lower portion of the base 100' and the receiving space is formed therein , The mounting body 220 into which the leg 210 is inserted and mounted, the intermediate fluid 230 provided between the mounting bodies 220, and the base 100 hung over an upper portion of the base 100 ′. ') The pressurizing press 240 provided in the intermediate fluid 230 and driven to press the lower part, and the mounting body 220 and the intermediate fluid ( 230 and a mounting portion 250 for mounting the pressing member 240 on the top.
The intermediate fluid 230 is provided to be lifted and lowered in the mounting portion 250, the leg 210, the mounting body 220 and the intermediate fluid 230 are predetermined to be interlocked and fixed to each other. The interlocking fixture 260 of a shape is commonly inserted and mounted, and the interlocking fixture 260 is positioned in an orthogonal direction from the first fixing portion 261 and the first fixing portion 261 of a cylindrical shape. It is provided with a second fixing portion 262, the intermediate fluid 230 is limited to the flow from the mounting portion 250 through the interlocking fixture 260. The first fixing part 261 is axially coupled between the base 100 ′ and the mounting part 250 so as to be rotationally driven in a manual or automatic manner, and the second fixing part 262 is connected to the first fixing part 261. The fixed part 261 flows on the rotation axis and is mounted on or removed from the intermediate fluid 230 based on the flow of the first fixed part 261.
The intermediate fluid 230 is composed of at least one pair is driven separately from each other in the mounting portion (250). The second fixing part 262 is provided with a first protrusion 262a on one side of the longitudinal direction and a second protrusion 262b on the other side, and the intermediate fluid 230 is the second fixing part ( A mounting groove is formed in a shape corresponding to 262, and is provided to be capable of moving forward and backward in a predetermined range from the first fixing part 261, and the second fixing part 262 is the first fixing part 261. It is provided to be capable of driving forward or backward, and fixed to the intermediate fluid 230 through the forward or backward drive in the state mounted to the intermediate fluid 230 through the mounting groove.
The base 100 ′ is provided with a detection sensor unit 270 for detecting whether a pressure contact is made to a predetermined area at a circumference thereof, and the detection sensor unit 270 is provided with the protruding pressurizer 240 having the detection sensor. When contacting and pressurizing the unit 270, the first information including whether or not contact pressurization, and the second information including the pressing force according to the contact pressurization is generated.
A panel-shaped finish body 280 mounted on the mounting part 250 to close a circumference between the base 100 ′ and the mounting part 250 to prevent interference due to contact with foreign objects from the outside; Is provided in the mounting portion 250 is provided with a plurality of support fixing body 290 spaced apart from each other to support and fix the finish 280, the support fixing body 290 is provided in the mounting portion 250 And a first support fixing portion 291 for flowing in surface contact with the finishing body 280 to fix the support fixing body 290, and installed upwardly from the first supporting fixing unit 291, and the finishing body 280. A first support fixing portion 291 is provided to be flowable to the surface contact and to fix the support fixing body 290.
The first support fixing portion 291 is provided to be rotatable in the circumferential direction in the mounting portion 250, the second support fixing portion 292 is provided to be capable of driving back and forth in the first support fixing portion 291. The finishing member 280 is forward-pressed and the first supporting fixing portion 291 and the second supporting fixing portion 292 have an area in contact with the finishing body 280 formed as a magnetic region to form the finishing body ( 280, respectively, are magnetically bound. The reinforcement structure 300 is provided between the first support fixing portions 291 of the support fixtures 290, and the reinforcement structure 300 includes a first reinforcement structure 310 and the first reinforcement structure. The first reinforcing structure 310 and the second reinforcing structure 320 is provided as a second reinforcing structure 320 is driven forward and backward from the reinforcement structure 310, respectively, the first support fixing portion 291 A buffer portion 310a or 320a having a predetermined thickness is provided at an end thereof contacting the buffer portion, and the buffer portion 310a or 320a is constantly varied in response to the rotation of the first support fixing portion 291. A driving body 330 is disposed between the second supporting fixing parts 292 in the finishing body 280 and is driven to press the second supporting fixing parts 292 to each other, and the driving body 330 is The drive unit 330 is separately provided so as to be divided to each other based on a diagonal direction, and the first driving unit 330a is provided as an isosceles triangle shape so that the vertex angle faces the diagonal lower side, and the first isosceles triangle shape. A second driver 330b is formed symmetrically with the driver. The driving body 330 is driven upward from the first driving part 330a to fix the second driving parts 330b adjacent to each other. The support fixing body 290 and the driving body 330 are respectively provided in the peripheral portion of the finish body 280 is operated.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

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100: Water Decal Transcription
110: Warrior Ground
120: first silk printing layer
130: second silk printing layer
140: foil layer
150: third silk printing layer
160: silk color printing layer
170: coating layer

Claims (10)

As a method of producing a foil water decal,
Preparing a transfer base 110; Applying a silk ink to the transfer base 110 to form a first silk print layer 120,
The first silk printing layer 120 is made through the application of silk ink through a silk printing apparatus,
The silk printing apparatus,
A base 100 'on which the print base material 10' is mounted,
A screen printing plate 200 'positioned above the base 100',
A printing unit 400 'equipped with shanghai conveying means 430' for simultaneously transporting the scraper 410 'and the squeeze 420' up and down;
A plurality of legs 210 provided below the base 100 ',
A mounting body 220 provided at a lower portion of the base 100 ′ and having an accommodation space therein, the leg 210 being inserted and mounted therein;
An intermediate fluid 230 provided between the mounting body 220,
A pressurizing and pressing body 240 provided and driven in the intermediate fluid body 230 so as to be caught by an upper portion of the base 100 'and pressurize the base 100' to the bottom;
It includes a mounting portion 250 for mounting the mounting body 220, the intermediate fluid 230 and the pressurizing pressure member 240 thereon,
The intermediate fluid 230 is provided to be raised and lowered in the mounting portion 250,
The leg 210, the mounting body 220 and the intermediate fluid 230,
The interlocking fixture 260 of a predetermined shape is commonly inserted and mounted to be interlocked and fixed to each other.
The interlocking fixture 260 is provided with a first fixing portion 261 of a cylindrical shape and a second fixing portion 262 which is positioned in an orthogonal direction from the first fixing portion 261.
The intermediate fluid 230 is a foil water decal transfer method of the flow from the mounting portion 250 through the interlocking fixture 260 is limited. delete delete delete delete delete delete delete delete delete

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