KR101508882B1 - Glass thermal transferring apparatus and method thereof - Google Patents

Abstract

The present invention relates to a glass thermal transfer apparatus and method, more specifically, the glass provided with a heat transfer to the suction device and the air cooling device of the display unit ′mm′ along the traveling path of the carrier film is provided with the heating roll when the thermal transfer ink layer or the glass may appear as interference due to the heat of the heating roll it relates to a glass heat transfer apparatus and method to prevent the number of defects developing.

Description

[0001] GLASS THERMAL TRANSFERRING APPARATUS AND METHOD THEREOF [0002]

The present invention relates to a glass thermal transfer apparatus and method, and more particularly, to a glass thermal transfer apparatus for a display device, which includes a suction device and a cooling device, And to prevent various defective phenomena caused by interference with heat of a heating roll.

As is well known, an ink layer (i.e., an ink layer) is formed on a glass of a display device by a thermal transfer method in order to realize appearance and other functional effects.

Generally, in a glass thermal transfer method, a glass is placed on an upper surface of a seating table, a carrier film on which an ink layer is formed is arranged on the glass, and a heating roll is closely contacted with the upper surface of the carrier film to rotate The transfer ink layer printed on the lower surface of the carrier film is transferred to the upper surface of the glass.

However, when the reinforcing glass is placed on the seating table and the thermal transfer is performed while the carrier film is horizontally placed on the reinforcing glass, by the rotational force of the heating roll rotating in contact with the upper surface of the carrier film, A phenomenon in which the film is pushed in the advancing direction of the heating roll may occur.

Further, since the hot heating roll comes into contact with the carrier film, a heat affected part affected by heat from the hot heating roll may appear on the seating table along a path through which the heating roll passes.

As described above, when the carrier film is pushed in the advancing direction of the heating roll or the heat affected portion appears along the path of the heating roll, the ink layer of the carrier film is pushed to the peripheral portion rather than the predetermined position, or the ink layer is cracked or crushed . This also caused a defect in the dimension of the ink layer.

Accordingly, as shown in FIG. 6, in the glass thermal transfer apparatus and method of the display device of Korean Patent No. 10-1395310, a first fixing member for fixing the front end of the carrier film to the seating table, Wherein the second fixing member is capable of lifting the carrier film positioned in the forward direction of the heating roll by a predetermined angle of inclination so that the heating roll It is possible to prevent various defects such as collapse of the ink layer of the carrier film and chewing, thereby improving the quality and dimensional accuracy of the glass thermal transfer.

However, in the conventional thermal transfer apparatus and method, the carrier film is aligned through the plurality of guide pins formed on the seating table and the guide holes formed in the carrier film, so that the phenomenon that the carrier film is pushed in the traveling direction of the heating roll can not be solved. That is, in the related art, there is a problem that the carrier film is pushed in the advancing direction of the heating roll according to the influence of the tolerance of the guide hole formed in the guide pin and the carrier film and the change in the size of the guide hole due to the temperature change.

In addition, the use of the second fixing member to raise the carrier film positioned in front of the heating roll in the advancing direction by a predetermined inclination angle is not only complicated but also causes frequent product defects due to abrasion or failure of the second fixing member There was a problem that occurred.

(0001) Korea Patent No. 10-1395310 (Registered on May 08, 2014) (0002) Korean Patent Publication No. 2012-0110784 (Publication date: October 10, 2012)

SUMMARY OF THE INVENTION It is a primary object of the present invention to provide a glass thermal transfer apparatus and method capable of preventing the carrier film from being pushed in the advancing direction of the heating roll by bringing the carrier film into close contact with the upper surface of the glass .

Further, the present invention provides a glass thermal transfer apparatus and method that can further prevent the ink layer of the carrier film from being affected by a high-temperature heating roll, by further including cooling means for cooling the seating table.

As a means for achieving the object of the present invention, a glass thermal transfer device of a display device of the present invention comprises:

A liquid crystal display comprising a glass for a display device, a seating table on which the glass is seated, a base plate on which the seating table is mounted, a carrier film laminated on the glass and having a thermoelectric ink layer formed on the lower surface thereof, And a heating roll which rotates in a state where the heat transfer ink layer is transferred to the upper surface of the glass,

A plurality of suction holes formed in the base plate to surround the seating table;

And an air suction device connected to the suction hole to suck air around the seating table,

The air suction device is operated to suck air around the seating table in a state where the glass and the carrier film are aligned on the seating table, thereby creating a vacuum between the carrier film and the glass, And is fixed to the upper surface in a wholly adhered manner.

In the present invention, the suction holes are formed in grooves formed along the circumference of the seating table.

The suction holes are formed at regular intervals along the interface between the side surface of the seating table and the upper surface of the base plate.

In addition, a plurality of semicircular vertical grooves connected to the suction holes are formed on the side wall of the seating table.

The vertical grooves are inclined toward the bottom of the seating table.

In addition, an air cooling means for absorbing and discharging heat generated from the heating roll in the seating table is further provided.

The air cooling means includes an air passage formed at a predetermined interval in the seating table and one end of which is connected to the suction hole and an air injection device installed at the other end of the air passage for injecting outside air .

A glass thermal transfer method according to the present invention comprises the steps of: placing a glass on an upper surface of a seating table; laminating a carrier film provided with a thermally consuming ink layer facing the glass; And thermally transferring the ink layer to the glass, the method comprising the steps of:

The carrier film is arranged on the upper part of the glass placed on the seating table and the air around the seating table is sucked through a suction hole formed in the periphery of the seating table to be vacuumed by the vacuum between the glass and the carrier film The carrier film is entirely adhered to the upper surface of the glass to prevent the carrier film from being pushed in the traveling direction of the heating roll.

The heating roll is brought into close contact with the upper surface of the carrier film in a state in which the carrier film is in close contact with the upper surface of the glass so that air is transferred to the air passage provided inside the seating table while the ink layer is thermally transferred to the glass And discharges the heat to the outside through the suction hole to discharge heat generated from the heating roll to the outside.

The pressure of the air supplied to the air passage is smaller than the vacuum pressure of the air discharged through the suction hole.

According to the present invention, due to the vacuum pressure formed around the carrier film, the carrier film is firmly adhered to the upper surface of the glass as a whole, thereby preventing the carrier film from being pushed in the advancing direction of the heating roll.

According to the present invention, the heat generated by the high-temperature heating roll and transferred to the seating table is cooled by the air flowing inside the seating table, so that the ink layer of the carrier film is affected by the heat of the heating roll .

As described above, the present invention solves the problem that the carrier film is pushed in the advancing direction of the heating roll or the heat-affected part appears along the path of the heating roll, so that the ink layer of the carrier film is pushed out to the periphery, It is possible to prevent a defective phenomenon such as distortion or crushing.

2 is a schematic cross-sectional view showing a glass thermal transfer device according to the present invention,
FIG. 2 is a schematic perspective view showing the base plate and the seating table shown in FIG. 1,
FIG. 3 is an enlarged sectional view showing the glass thermal transfer device shown in FIG. 1,
4 is an enlarged view showing a seating table according to another embodiment of the present invention;
5 is a sectional view showing a glass thermal transfer device according to another embodiment of the present invention,
6 is a side view showing a conventional glass thermal transfer device for a display device.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving them will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as being limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the invention to those skilled in the art. Is provided to fully convey the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The following terms are defined in consideration of the functions in the embodiments of the present invention, which may vary depending on the intention of the user, the intention or the custom of the operator. Therefore, the definition should be based on the contents throughout this specification.

Hereinafter, a glass thermal transfer apparatus and method according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a schematic perspective view showing a glass thermal transfer apparatus according to the present invention, and FIG. 2 is a schematic perspective view showing the base plate and the seating table shown in FIG.

1, a glass thermal transfer apparatus 1 according to the present invention includes a glass 10 for a display device, a mounting table 20 on which the glass 10 is mounted, A base film 30, a carrier film 40 laminated on the upper side of the glass 10 and having a thermal transfer ink layer formed on the lower surface thereof, and a transfer film 40 which is in close contact with the upper surface of the carrier film 40, And a heating roll (50) for transferring the ink layer to the upper surface of the glass (10).

The glass thermal transfer apparatus 1 of the present invention further includes a vacuum adsorption means 60 for firmly fixing the carrier film 40 on the upper surface of the seating table 20 in full contact.

More specifically, the seating table 20 is a metal member having a flat upper surface, and provides a space in which the glass 10 is seated. The suction table 20 is provided with a plurality of suction holes 21 for fixing the glass 10. A groove 23 is formed at a predetermined depth around the seating table 20 to form a side surface having a predetermined height along the seating table 20.

The glass 10 is a member that can be used as a front window of a display device, a mobile device, etc., and various functional glass materials including tempered glass can be used. An ink layer (i.e., an ink layer) is formed on the glass of the display device by a thermal transfer method to realize appearance and other functional effects.

The carrier film 40 is a transparent film having a thermal transfer ink layer. The carrier film 40 is provided with a transfer ink layer on the lower surface of the transparent film member. Further, guide holes 43 are provided for the respective corners of the carrier film 40. The guide hole 43 is fixed to a guide pin 33 provided on the base plate 30 to align the carrier film 40.

The heating roll 50 is closely contacted with the upper portion of the carrier film 40 while being heated to a predetermined temperature and is then rotated to thermally transfer the ink layer to the upper portion of the glass 10. [

The vacuum suction means 60 for fixing the carrier film 40 to the upper surface of the glass 10 includes a plurality of suction holes 61 formed in the periphery of the seating table 20, 61) for sucking air around the seating table (20).

The suction holes (61) are formed in the grooves (23) so as to be close to the front, rear, left, and right side walls of the seating table (20). The suction hole (61) penetrates through the base plate (30) and is connected to the air suction device (62). The air suction device 62 is installed at a lower portion of the base plate 30 and is connected to a plurality of suction holes 61. The air suction device 62 may include a vacuum pump for sucking air and discharging the air to the outside.

Therefore, when the air suction device 62 is operated while the glass 10 is seated on the seating table 20 and the carrier film 40 is aligned thereon, Air around the seating table 20 can be removed through the suction hole 61 to form a vacuum between the seating table 20 and the carrier film 40.

Then, the carrier film (40) is adhered to the upper surface of the glass (10) by the vacuum pressure. During the operation of the air suction device 62, the carrier film 40 maintains a state of being in close contact with the upper surface of the glass 10. [

3, the carrier film 40 is brought into close contact with not only the upper surface of the glass 20 but also the side surface of the seating table 20 due to the vacuum pressure of the vacuum adsorption means 60, The grooves 23 are formed at a predetermined depth along the seating table 20 so that the carrier film 40 does not adhere to the interface between the side surface of the seating table 20 and the base plate 30. That is, the carrier film 40 is formed in a uniform space along the circumference of the seating table 20. Therefore, if the suction hole 61 is formed along the groove 23, the air around the seating table 20 can be smoothly removed.

When the carrier film 40 is completely adhered to the upper surface of the glass 10 to fix the carrier film 40 by thermal transfer using the heating roll 50, It is possible to prevent defective phenomena such as the ink layer being pushed to the peripheral portion rather than the predetermined position or the ink layer being crushed or distorted.

4 is a schematic enlarged view showing a glass thermal transfer device 1 according to another embodiment of the present invention.

As shown in the figure, the glass thermal transfer apparatus 1 according to the present embodiment includes a plurality of suction holes 61 formed in the base plate 30 so as to be positioned around the seating table 20, A plurality of semicircular vertical grooves 63 are formed on the side surface of the table 20.

That is, according to the above-described embodiment, when the air suction device 62 is operated while the glass 10 and the carrier film 40 are aligned on the upper surface of the seating table 20, The air around the seating table 20 is removed to form a vacuum between the carrier film 40 and the glass 10. [

At this time, due to the vacuum pressure, the carrier film 40 adheres not only to the upper surface of the glass 10, but also to the side surface of the seating table 20. However, since the seating table 20 has a plurality of vertical grooves 63 The air around the seating table 20 can be smoothly removed.

The vertical grooves 63 and the suction holes 61 are connected to each other so that the vertical grooves 63 are inclined toward the inside of the seating table 20 so as to move downward. It is possible to remove the air around the seating table 20 without being influenced by the carrier film 40 by making it possible to form the boundary surface between the side surface of the seating table 20 and the upper surface of the base plate 30. [

FIG. 5 shows a glass thermal transfer device 1 according to another embodiment of the present invention. As shown in the drawing, the glass thermal transfer apparatus 1 according to the present embodiment includes a plurality of suction holes 61 formed in the base plate 30 so as to be positioned around the seating table 20, (72) for supplying outside air to the air passage (71) is formed in the seating table (20), and an air passage (71) connected to the air passage (70).

The cooling means 70 includes an air passage 71 formed to be spaced apart from the seating table 20 at a predetermined distance and bent downward so that one end of the air passage 71 is connected to the suction hole 61, And an air injector 72 installed at the other end for injecting outside air.

The air passage (71) is for absorbing the heat of the seating table (20) through the air flowing in the air passage (71). Therefore, the air passage (71) is formed close to the upper side of the seating table (20) so as to be positioned in the heat affected portion formed by the heating roll (50).

The air injecting device 72 supplies external air to the air passage 71, and may include an unillustrated blower and a heat exchanger. Also, the blower supplies outside air to the air passage 61, and the heat exchanger serves to lower the temperature of the air supplied to the air passage 61.

Therefore, when the air suction device 62 is operated while the glass 10 and the carrier film 40 are aligned on the upper surface of the seating table 20, the suction table 61, The surrounding air is sucked in to form a vacuum state. The carrier film 40 aligned on the upper surface of the seating table 20 is entirely brought into close contact with the upper surface of the glass 10 by the vacuum pressure and the glass 10, As shown in Fig.

When the carrier film 40 is closely fixed to the upper surface of the glass 10, the heating roll 50 is rotated to start the thermal transfer. The air injector 72 is operated to supply outside air to the air passage 71 so that the heat transferred from the heating roll 50 to the glass table 10 and the seating table 20 is discharged to the outside. Thus, it is possible to prevent the heat generated by the heating roll 50 from being affected.

At this time, the pressure of the air supplied to the air passage (71) is kept smaller than the pressure of the air discharged through the suction hole (61). During the operation of the air injection device 72, the air suction device 62 must be operated to prevent the carrier film 40 from being lifted.

As described above, according to the constitution and the function of the present invention, the carrier film provided with the ink layer at the time of glass thermal transfer of the display device is fixed in close contact with the glass to prevent the carrier film from being pushed according to the progress of the heating roll, It is possible to greatly improve the quality and dimensional accuracy of the glass thermal transfer by eliminating the thermal interference caused by the heat of the heating roll.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention, and are not intended to be exhaustive or to limit the scope of the invention. All changes or modifications that come from an equivalent concept are to be construed as being included within the scope of the present invention.

1: Glass thermal transfer device 10: Glass
20: seating table 30: base plate
40: carrier film 50: heating roll
60: Vacuum suction means 61: Suction hole
62: Air suction device 63: Vertical groove
70: air cooling means 71:
72: air injection device

Claims (9)

A liquid crystal display comprising a glass for a display device, a seating table on which the glass is seated, a base plate on which the seating table is mounted, a carrier film laminated on the glass and having a thermoelectric ink layer formed on the lower surface thereof, And a heating roll which rotates in a state where the heat transfer ink layer is transferred to the upper surface of the glass,
A plurality of suction holes formed in grooves formed at a predetermined depth along the periphery of the seating table;
And an air suction device connected to the suction hole to suck air around the seating table,
The air suction device is operated to suck air around the seating table in a state where the glass and the carrier film are aligned on the seating table, thereby creating a vacuum between the carrier film and the glass, And is fixed to the upper surface of the glass substrate by being adhered over the entire surface.
delete The method according to claim 1,
And a plurality of semicircular vertical grooves connected to the suction holes are formed on the side wall of the seating table.
The method of claim 3,
Wherein the vertical grooves are inclined to the inside of the seating table as they go downward.
The method according to any one of claims 1, 3, and 4,
Further comprising air cooling means for absorbing and discharging heat generated in the heating roll inside the seating table.
6. The method of claim 5,
The air cooling means includes an air passage formed at a predetermined interval in the seating table and one end of which is connected to the suction hole and an air injection device installed at the other end of the air passage for injecting outside air Wherein the glass thermal transfer device is a glass thermal transfer device.
Placing a glass on an upper surface of a seating table, laminating a carrier film provided with a thermally consuming ink layer facing the glass, and heating rolls heated to a set temperature are closely contacted and rotated on the carrier film, In a glass thermal transfer method,
A suction table for sucking the air around the seating table through a plurality of suction holes formed in a groove formed at a predetermined depth along the periphery of the seating table and aligning the carrier film on an upper portion of the glass seated on the seating table, Wherein the carrier film is completely adhered to the upper surface of the glass by a vacuum formed between the glass and the carrier film to prevent the carrier film from being pushed in the traveling direction of the heating roll.
8. The method of claim 7,
The heating roll is brought into close contact with the upper surface of the carrier film in a state in which the carrier film is in close contact with the upper surface of the glass so that air is transferred to the air passage provided inside the seating table while the ink layer is thermally transferred to the glass And discharging the heat to the outside through the suction hole to discharge the heat generated from the heating roll to the outside.
9. The method of claim 8,
Wherein a pressure of the air supplied to the air passage is smaller than a vacuum pressure of air discharged through the suction hole.

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