KR101227844B1 - dam formation apparatus of display module - Google Patents

Abstract

The present invention relates to a dam forming apparatus of a display module, the configuration of which comprises a table on which the display module is seated; A load module provided on the table to move horizontally and vertically along a circumferential surface of the display module; And a dam forming module which continuously moves with respect to the entire circumferential surface of the display module mounted on the load module and simultaneously performs sealant spraying and curing.

Description

Dam formation apparatus of display module

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dam forming apparatus of a display module. More particularly, the dam formation on the display module can be made uniform by discharging the dam forming sealant in a continuous manner. It relates to a dam forming apparatus of a display module that can increase the yield.

In general, a display device includes a panel for displaying image information by an electrical signal, a bezel surrounding the display panel, and a backlight for displaying image information from a panel by irradiating light to the panel.

In addition, in order to protect the panel, the glass is mounted on the upper surface of the display device, and an adhesive liquid adhering the glass and the panel is coated on the upper surface of the panel.

In addition, in order to apply the adhesive liquid between the panel and the glass, a dam must be formed along the circumferential surface of the display module to prevent the adhesive liquid from flowing out of the panel. As shown in the figure, a horizontally movable rod block (2, 3) is disposed on the table (1), and the circumference of the upper surface of the display module (M) seated on the table by moving the curing module (4) using the rod block. The dam D is formed along the surface, and the dam D is cured along the formed dam. In the curing module 4, the sealant discharge portion 4a and the curing means 4b are integrally provided side by side.

In the conventional curing module 4, as shown in FIG. 2, the sealant discharge unit for forming a conventional dam moves along the circumferential surface of the display module, and when the sealant is sprayed uniformly, the curing unit located behind the sealant discharge unit follows. It has a structure to cure the injected sealant.

However, in the conventional case, since the sealant discharge part and the hardening means only perform linear motion with each other fixed, the (a) section of the circumferential surface of the display module is applied and then cured again (b). ) At the edge portion (A) where the section is connected, the sealant discharge portion and the hardening means may be orthogonal to move. (A) After the application is finished, the sealant is stopped and (b) the sealant discharge portion and the curing means (A) and (b) the edge part (A) connected to the section is not smoothly connected, so that the adhesive liquid leaks in the process or the height of the dam is not constant. Therefore, problems such as a phenomenon in which the adhesive liquid overflows occur.

In addition, since the positions of the sealant discharge part and the hardening means must be newly set every time a section is applied to form a dam on the periphery of the display module, the process yield is impaired because the dam formation time is long.

In addition, due to such a structure, the sealant discharge part and the hardening means may move at right angles at the edge part, such that the height of the dam at the edge part may not be constant.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to make it possible to uniformly discharge the dam forming sealant so that the dam formation on the display module can be made uniform and reduce the overall process time. The present invention provides a dam forming apparatus of a display module that can shorten and increase a process yield.

In addition, another object of the present invention is to provide a dam forming apparatus of a display module that allows the dam of the edge portion can be formed without interruption because the perpendicular movement is possible at the edge portion of the display module.

The present invention has the following structure in order to achieve the above object.

Dam forming apparatus of the display module of the present invention, the display module is seated; A load module provided on the table to move horizontally and vertically along a circumferential surface of the display module; And a dam forming module which continuously moves with respect to the entire circumferential surface of the display module mounted on the load module and simultaneously performs sealant spraying and curing.

The dam forming module preferably includes a sealant discharging means, a hardening means for curing the injected sealant, and a rotating member for moving the hardening means along the discharged sealant through forward or reverse rotation.

And the rotating member is rotated by the adjacent drive means, the rotating member and the drive means is preferably connected by a pulley.

And the rotating member is rotated by the adjacent drive means, the rotating member and the drive means is preferably connected by a gear.

And it is preferable that the gear is rotated to fit inside or outside of the rotating means.

According to the present invention, it is possible to make the dam formation on the display module uniform by discharging the sealant for dam formation continuously, and the process yield can be increased by shortening the overall process time.

In addition, according to the present invention, since the perpendicular motion is possible at the edge portion of the display module, there is an effect that the dam of the edge portion can be formed without interruption.

1 and 2 is a schematic view showing a dam forming apparatus of a conventional general display module.
3 is a schematic view showing a display dam forming apparatus of the present invention.
4 is a perspective view showing a dam forming means shown in FIG.
5A and 5B are schematic views showing another embodiment of the dam forming means shown in FIG.
6 and 7 is an operating state diagram showing an operating state of the dam forming apparatus according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings. The embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described below. The embodiments are provided to explain the present invention to a person having ordinary skill in the art to which the present invention belongs. Accordingly, the shape of each element shown in the drawings may be exaggerated to emphasize a clearer description.

3 and 4, the dam forming apparatus of the present invention comprises a table 10, a load module 20, 30, a dam forming module 40.

The table 10 has a flat plate shape, and a rod module 20 running in a vertical direction and a rod module 30 running in a horizontal direction are disposed thereon. The horizontal and vertical traveling rod modules 20 and 30 are general moving means capable of simultaneously traveling in the horizontal or vertical direction along the rails and simultaneously traveling in the horizontal and vertical directions by the motor, and thus will not be described in detail. . And although it does not describe the configuration for the vertical progression, it is the governor that the vertical movement through the horizontal, vertical rod module is possible.

The dam forming module 40 is provided in the horizontal rod module 30 as shown by a bracket (not shown), the driving means 41, the follower 42, the pulley 43, the rotating means ( 44, the hardening means 45 and the sealant discharge means 46 are constituted. Here, it is preferable to use a sub motor (SUB MOTOR) capable of forward and reverse rotation as the drive means. This is because not only forward rotation but also fast response according to the control signal, the control efficiency is excellent.

In the coupling to the dam forming module, after coupling the driven portion 42 for transmitting the rotational force of the driving means to the drive means 41, and after placing the rotating means 44 at a predetermined interval apart The rotating means 44 and the follower 42 are connected using the pulley 43. Therefore, it is the fact that the driven part and the outer circumferential surface of the rotating means correspond to the pulley shape. In this case, it is preferable to use the tie pulley. This is to allow the rotational force transmitted from the driving means through the tie pulley to be transmitted to the rotating means with a minimum error.

On the other hand, the rotating means 44 is provided with a curing means 45 at a position spaced from the center of the circumference, the seal portion discharge means 46 is provided in the center portion.

For example, the rotational force generated by the driving means rotates the rotating means through the pulley, and the curing means spaced from the center by the rotating rotating means rotates based on the sealant discharge means located at the center. At this time, since the driving means can be rotated forward and backward, it becomes possible to position the curing means horizontally at the rear end thereof in accordance with the advancing direction of the sealant discharging means.

In FIGS. 3 and 4, the rotating means using the pulley is described as an embodiment. However, as shown in FIG. 5A, a gear method in which the outer circumferential surfaces of the follower 42 'and the rotating means 44' are fitted to each other is shown. It is also possible to rotate the rotating means by using, as shown in Figure 5b it is also possible to rotate the internal gear by positioning the gear inside.

That is, any means can be used as long as it can rotate the rotary means provided with the hardening means according to the advancing direction of the sealant discharging means and be in a horizontal state with the sealant discharging means.

Hereinafter, with reference to the accompanying drawings will be described the operating state of the present invention.

6 and 7, the display module M is first mounted on the table 10, and then the dam forming apparatus 40 is positioned at the edge of the display module M through a controller (not shown). Adjust it to be. At this time, the position is adjusted using the horizontal and vertical rod block, and the vertical direction is adjusted through the vertical rod block.

When the dam forming module 40 is located at the adjusted position, the control unit executes a preset position movement direction and size through the control unit. That is, the display module of a large area can be set in advance because the size to be used is determined. For example, in order to form a dam in the 47 "display module, if the length of the circumferential surface of the 47" display module is checked and input in the horizontal direction, respectively, the dam forming module moves according to the signal of the controller.

If the dam forming module is operated after setting the moving size of the dam forming module in this manner, starting from the starting point P and moving along the section (a) as shown, the sealant discharging means 46 moves the sealant to the display module. Since the injection is performed on the sealant discharging means, the curing direction 45 moves along the sprayed sealant in a non-rotating state at a fixed position, thereby curing the sealant.

In this state, when the sealant discharging means is positioned at the edge portion A of the display module M, the sealant discharging means is switched to the transverse direction from the longitudinal direction to the horizontal direction to enter the section (b).

At this time, the rotation means is rotated without being released from the position where the sealant is injected by receiving the rotational force by the driving of the driving means in accordance with the change of the direction of travel of the sealant discharge means.

That is, at the same time the sealant discharging means switches the progress at the edge portion, the rotating means starts to rotate in accordance with the advancing speed of the sealant discharging means, and when the hardening means arrives at the edge portion A, the rotation is scheduled and stopped. In one state, the sealant discharging means moves and hardens along the sprayed sealant.

Since the advancing speed of the sealant discharging means and the rotational speed of the rotating means are proportional, the respective speeds of the rotating means can be defined through integration or derivative and can be controlled by myth through the control unit. Since such a control method can be implemented by a general program, a detailed description thereof will be omitted.

In this way, since the curing means can cope actively according to the direction of the sealant discharge means, continuous sealant spraying and curing can be performed without stopping at the edge of the display module, and the dam can be formed at a uniform height and interval. It is possible to reduce the overall process time by routine work.

In addition, the direction of movement can be controlled according to the control signal, enabling precise sealant injection and curing.

The present invention is not limited by the embodiments described above, and various changes and modifications can be made by those skilled in the art, which are included in the spirit and scope of the present invention as defined in the appended claims.

Claims (5)

A table on which the display module is mounted;
A load module provided on the table to move horizontally and vertically along a circumferential surface of the display module; And
And a dam forming module which continuously moves with respect to the entire circumferential surface of the display module mounted on the load module and simultaneously performs sealant spraying and curing.
The dam forming module comprises a sealant discharging means, a hardening means for curing the injected sealant, and a rotating member for moving the hardening means along the discharged sealant through forward or reverse rotation. Device.
delete The method of claim 1,
The rotating member is rotated by the adjacent driving means, the rotating member and the driving means is a dam forming apparatus, characterized in that connected by the pulley.
The method of claim 1,
The rotating member is rotated by the adjacent driving means, the rotating member and the driving means is a dam forming apparatus of the display module, characterized in that connected by the gear.
The method of claim 4, wherein
The gear forming dam of the display module, characterized in that the gear is rotated to match the outside or inside of the rotating means.

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