KR101029354B1 - Tempered glass adhesion jig for touch panel - Google Patents

Abstract

The present invention relates to a tempered glass adhesive jig for a touch panel, and in order to bond the tempered glass for a touch panel such as a mobile phone or a PDA to an upper surface of the cell in a vacuum state, the cell coated with a predetermined pattern defined by resin is attached to the seating part. It is composed of a jig support for supporting the tempered glass spaced apart on the upper side of the cell is provided by the adhesive jig bonding to the chamber bottom surface of the vacuum chamber to prevent the occurrence of bubbles and to bond in a clean working conditions It relates to a tempered glass adhesive jig for a touch panel to support the adhesive.
Tempered glass adhesive jig for a touch panel of the present invention for this purpose, the jig base; A plurality of jig units disposed in the jig base at a predetermined interval and provided in at least one jig to bond the plurality of cells and the tempered glass; A seating part provided with a predetermined space for seating the cell in the jig unit; A jig support configured to move in an up and down direction by an LM guide installed on both sides of the jig unit so as to slide upward and downward; A height adjustment cam configured at a lower portion to allow the LM guide to move to freely adjust the height of the jig support; It consists of a structure.

Description

Tempered glass adhesion jig for touch panel {Tempered glass adhesion jig for touch panel}

The present invention relates to a tempered glass adhesive jig for a touch panel, and more particularly, to apply a predetermined pattern determined by resin to bond the tempered glass for a touch panel, such as a mobile phone, PDA, etc. to the upper surface of the cell in a vacuum state. It is composed of a jig support for supporting the tempered glass that is spaced on the upper side of the cell while having a cell in the seating portion is coupled to the lower surface of the chamber of the vacuum chamber and combined with the chamber upper surface and the side portion to form the bottom surface of the vacuum chamber It relates to a tempered glass adhesive jig for a touch panel for supporting the cell and the tempered glass to be adhered by the adhesive jig coupled to the chamber bottom surface of the chamber to prevent the occurrence of bubbles and to adhere in a clean working condition.

Recently, various electronic devices including mobile communication terminals, touch pads, and the like have been using adhesive technology that can form fine cells and tempered glass during its manufacture for high capacity, miniaturization, thin film, and high speed of data processing. .

In the conventional cell and tempered glass bonding apparatus, the adhesive resin is applied to the cell and the adhesive resin flows out to the side of the cell and the tempered glass in the process of pressing from the top while the tempered glass is in close contact therewith to remove the adhesive resin. There was a problem that the machining process occurs.

The conventional process is simply a surface adhesion of the tempered glass on the upper surface of the cell to which the adhesive resin is applied is a poor adhesion issued.

In addition, there is a problem in that the lifting phenomenon occurs due to the adhesion failure by the adhesive resin outflow and secondary adhesive resin removal process as described above.

In addition, there was a problem in that the bonding process has a problem, such as a poor focus that is not located in the cell and tempered glass when moving between processes or each process has a failure occurrence factor.

The touch panel tempered glass adhesive jig of the present invention for solving the above technical problem is applied to draw a predetermined pattern determined by resin to bond the tempered glass for touch panel, such as mobile phone, PDA, etc. to the upper surface of the cell in a vacuum state. It is composed of a jig support for supporting the tempered glass spaced apart on the upper side of the cell while having the cell in the seating portion, and by the adhesive jig which forms the bottom surface of the vacuum chamber in combination with the upper surface and the side of the chamber to enter the vacuum chamber The present invention provides a tempered glass adhesive jig for a touch panel for adhering and supporting cells and tempered glass so that foaming is prevented and adhesion is performed under clean working conditions.

According to the present invention as described above, the jig base; A plurality of jig units disposed in the jig base at a predetermined interval and provided in at least one jig to bond the plurality of cells and the tempered glass; A seating part provided with a predetermined space for seating the cell in the jig unit; A jig support configured to move in an up and down direction by an LM guide installed on both sides of the jig unit so as to slide upward and downward; A height adjustment cam configured at a lower portion to allow the LM guide to move to freely adjust the height of the jig support; .

Preferably, the jig unit, characterized in that located on both sides of the predetermined spaced apart from the top of the jig base, respectively.

Preferably, it characterized in that it further comprises an adhesive resin applied in a predetermined pattern on the upper surface of the cell seated on the seating portion.

Preferably, the jig support is installed symmetrically on both sides of one jig unit, characterized in that the tempered glass is seated on the top.

Preferably, the jig support is characterized in that disposed on the jig unit to have a predetermined height by the LM guide while seating the tempered glass.

Preferably, the jig support, the cam is operated by the jig external power at the bottom of the jig base to adjust the height of the jig support, it is characterized in that the height can be adjusted in the vacuum chamber and coupling conditions.

Preferably, the plurality of jig unit seated on the plurality of cells and the tempered glass is coupled to the lower end to form the chamber bottom surface of the chamber of the vacuum chamber to bond the cells and the tempered glass in a vacuum state to perform a bonding operation It features.

Preferably, the tempered glass disposed on the upper part of the jig unit enters the vacuum chamber and is adsorbed to the suction plate from the inside, and the jig support is lowered. It is characterized in that the bonding is performed by pressing.

According to the present invention as described above, by adhering the tempered glass for a touch panel, such as a mobile phone, PDA, etc. in a vacuum state on the upper surface of the cell in a vacuum state, bubbles are prevented and there is an effect that can provide a clean working condition.

In addition, by the adhesion of the adhesive jig of the present invention there is an effect that can prevent the defect that the adhesive resin is leaked to the side, and can perform the laminating process in a vacuum state.

In addition, by the structure of the adhesive jig of the present invention for bonding the cells and the tempered glass in a vacuum state, there is an effect that the bonding of a plurality of cells and the tempered glass is bonded more precisely in the simultaneous operation.

In addition, since the adhesive jig itself forms the lower part of the vacuum chamber, it is effective to shorten the time by eliminating the step of inserting into the chamber.

1 is a perspective view showing a tempered glass adhesive jig for a touch panel according to the present invention.
Figure 2 is a perspective view showing the bottom of the tempered glass adhesive jig for a touch panel according to the present invention.
3 is a plan view of the tempered glass adhesive jig for a touch panel according to the present invention.
Figure 4 is a side view of the tempered glass adhesive jig for a touch panel according to the present invention.
5 is a view showing an adhesive resin pattern applied to the cells of the tempered glass adhesive jig for a touch panel according to the present invention.
Figure 6 is a view showing a cell seating process of the tempered glass adhesive jig for a touch panel according to the present invention.
7 is a view illustrating a process of seating tempered glass of a tempered glass adhesive jig for a touch panel according to the present invention;
8 is a view showing a tempered glass bonding process of the tempered glass adhesive jig for a touch panel according to the present invention inside the vacuum chamber.
9 is a view showing a cell and a reinforcement holding bonding process of the tempered glass adhesive jig for a touch panel according to the present invention.

The configuration of the present invention for achieving the above object,

A jig base;

A plurality of jig units disposed in the jig base at a predetermined interval and provided in at least one jig to bond the plurality of cells and the tempered glass;

A seating part provided with a predetermined space for seating the cell in the jig unit;

A jig support configured to move in an up and down direction by an LM guide installed on both sides of the jig unit so as to slide upward and downward;

 A height adjustment cam configured at a lower portion to allow the LM guide to move to freely adjust the height of the jig support; It was achieved by providing a tempered glass adhesive jig for a touch panel, characterized in that consisting of.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in more detail.

Prior to this, terms or words used in the present specification and claims should not be construed as being limited to the common or dictionary meanings, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only one of the most preferred embodiments of the present invention, and do not represent all of the technical idea of the present invention, it can be replaced at the time of the present application It should be understood that there may be various equivalents and variations.

1 is a perspective view showing a tempered glass adhesive jig for a touch panel according to the present invention, Figure 2 is a perspective view showing a bottom surface of a tempered glass adhesive jig for a touch panel according to the present invention.

As shown, the tempered glass adhesive jig for a touch panel according to the present invention is a predetermined pattern made of resin for bonding the tempered glass 20 for touch panels, such as mobile phones, PDAs, etc. to the upper surface of the cell 10 in a vacuum state. It is composed of a jig support for supporting the tempered glass 20 to be spaced apart on the upper side of the cell 10 while having a cell 10 applied to the seating portion 130 to form a vacuum chamber for creating a vacuum environment ( The cell 10 and the tempered glass 20 are adhered to each other so that the foaming is prevented by the adhesive jig entering the bottom of the chamber to be coupled to the bottom of the chamber 170 and the adhesion is performed under clean working conditions.

The tempered glass adhesive jig for a touch panel of the present embodiment is largely configured to include a jig base 110, a jig unit 120, a seating unit 130, a jig support 140, and a height adjustment cam 150.

In addition, the jig base 110 includes a plurality of jig units 120 for supporting each of the cells 10 and the tempered glass 20 to be fixed to both sides.

The jig base 110 is a rectangular plate formed of a flat plate as shown in Figure 3 to form a height adjustment cam 150 at the bottom, and the jig unit 120 is formed on both sides at the top, the jig The cell 10 is to be seated on the seating unit 130 located in the center of the jig unit 120 connected to the base 110.

On the other hand, the jig base 110 is provided with a plurality of jig unit 120 provided with one or more to bond a plurality of cells 10 and the tempered glass 20 at a predetermined interval from each other.

The jig base 110 is configured on both sides of the jig unit 120, but the cell 10 and the tempered glass 20 are bonded to each jig unit 120, the bonding process is made at the same time in a separate state To lose.

In addition, the seating unit 130 in which the cell 10 is seated in the jig unit 120 is provided with a predetermined space for allowing the cell 10 to be accurately seated.

The seating unit 130 is formed in the form of a stage for accommodating the lower side of the cell 10, so that the mounting of the cell 10 can be easily.

Therefore, when the cell 10 is placed on the seating unit 130, the cell 10 may be accommodated in the seating unit 130 and may be fixed to the seating unit 130 primarily.

As shown in FIG. 4, the jig unit 120 is provided with a jig support 140 having an LM guide 142 installed on both sides of the mounting unit 130 so as to be slidable up and down.

The jig support 140 is configured to move in the vertical direction by the operation of the LM guide 142.

That is, the LM guide of the jig support 140 is pushed upward by pushing the cam follow 146 formed inside the jig unit 120 by the driving of the height adjusting cam 150 to allow the LM guide 142 to move. 142 is raised and lowered by about 45 degrees from both sides, the jig support 140, which constitutes the seating surface 144 is raised and lowered.

Here, the height adjustment cam 150 is configured in the lower portion of the jig base 110, and when the cam is operated by a drive device outside the jig, the LM guide 142 is moved.

On the other hand, the jig support 140 has a shape in which the 'Z' shapes face each other in one embodiment.

The jig support 140 is configured on both sides with respect to the seating part 130, and the jig support 140 is provided with LM guides 142 on both sides of the jig support 140.

The jig support 140 is formed in the jig unit 120 as a whole 'Z' shape, the mounting surface 144 is formed on the upper side.

The seating surface 144 of the jig support 140 is a part on which the tempered glass 20 is seated, and a part on which the tempered glass 20 is placed may be flat.

6 and 7, the jig support 140 is configured at both sides with respect to the seating part 130, and the jig support (at the time when the cell 10 is seated on the seating part 130). The mounting surface 144 having a flat plate shape on the upper surface of the 140 is positioned on the same or lower height line as the mounting portion 130.

Next, when the tempered glass 20 is seated on the jig support 140, the jig support 140 located at both sides of the seating part 130 rises upward at the same time.

That is, in the next step in which the cell 10 is seated on the seating part 130, the jig support 140 facing both sides of the seating part 130 is slid upward by the LM guide 142, thereby supporting the jig support 140. The mounting surface 144 of) is positioned at a predetermined height than the mounting portion 130.

In addition, the tempered glass 20 is placed on both sides of the pair of seating surfaces 144 spaced apart from the jig support 140 on both sides that rise to a predetermined height.

The jig support 140 is disposed on the jig unit 120 to have a predetermined height by the LM guide 142 while seating the tempered glass 20.

Here, by seating and fixing the tempered glass 20 to the seating surface 144 of the jig support 140, the tempered glass 20 can maintain a constant positional relationship with respect to the cell 10.

On the other hand, the cell 10 is seated on the seating portion 130 in a different step, the cell 10 and the tempered glass 20 to be bonded to the upper surface of the cell 10 seated on the seating portion 130 to be bonded to a predetermined step After the adhesive resin 160 is applied in a pattern of, the tempered glass 20 is seated on the jig support 140.

As shown in FIG. 5, the pattern of the adhesive resin 160 applied to the cell 10 is'

In the form of '.

The pattern of the adhesive resin 160 as described above is correctly bonded when the cell 10 and the tempered glass 20 are adhered in the inserted state of the vacuum chamber 170 to maintain the vacuum state, the cell 10 and the tempered glass 20 The adhesive resin 160 on the side shows a pattern that does not leak.

In addition, the tempered glass 20 is bonded to the upper surface of the cell 10 applied in the same pattern to the upper surface of the cell 10 while being pressed.

As such, the plurality of jig units 120 having the plurality of cells 10 and the tempered glass 20 mounted on the lower surface of the chamber of the vacuum chamber 170 forming the vacuum state as shown in FIGS. 8 and 9. The jig base 110 including the jig unit 120 enters the bottom to create a vacuum environment, and the cell 10 and the tempered glass 20 seated on the jig unit 120 therein perform an adhesive operation. will be.

That is, the jig base 110 of the present invention enters from the lower portion of the vacuum chamber 170 to form a lower chamber closed structure, and the cell 10 seated on the jig unit 120 located inside the vacuum chamber 170. ) And the tempered glass 20 is a work that can be adsorbed by the cell 10 and the tempered glass 20 by the adsorption plate 172 is lowered.

At this time, the adsorbing plate 172 adsorbs the tempered glass 20 and at the same time the jig support 140 descends, and the cell 10 of the seating part 130 is exposed upward.

The tempered glass 20 is lowered while the adsorption plate 172 is lowered in a vacuum state, and the tempered glass 20 is pressed onto the upper surface of the cell 10 to which the adhesive resin 160 is applied, thereby adhering.

As described above, the cell 10 and the tempered glass 20 which are respectively seated on the seating unit 130 and the jig support 140 of the jig unit 120 of the present invention are located in the vacuum chamber 170. By pressing the tempered glass 20 to the cell 10 by using the adsorption plate 172 formed at the upper end of the cell 10 and the tempered glass 20 to prevent the phenomenon of lifting and generation of fine bubbles.

The adhesive jig for bonding the cell 10 and the tempered glass 20 in a vacuum state is a precision jig for bonding the cells 10 and the tempered glass 20 to be bonded more precisely at the same time. It is about.

Therefore, the present invention prevents the defect that the adhesive resin 160 is leaked out to the side by adhesion as in the prior art, and allows the laminating process to be performed in a vacuum state.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto, and the technical idea of the present invention and the following by those skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of equivalents of the claims to be described.

10: cell 20: tempered glass
110: jig base 120: jig unit
130: a seating part 140: jig supporter
142: LM guide 144: seating surface
146: Cam follow 150: Height adjustment cam
160: adhesive resin 170: vacuum chamber
172: suction plate

Claims (7)

A jig base;
A plurality of jig units disposed in the jig base at a predetermined interval and provided in at least one jig to bond the plurality of cells and the tempered glass;
A seating part provided with a predetermined space for seating the cell in the jig unit;
A jig support configured to move in an up and down direction by an LM guide installed on both sides of the jig unit so as to slide upward and downward;
A height adjustment cam configured at a lower portion to allow the LM guide to move to freely adjust the height of the jig support; Tempered glass adhesive jig for a touch panel, characterized in that consisting of. The method of claim 1,
The jig unit,
Tempered glass adhesive jig for a touch panel, characterized in that located on both sides spaced apart from the top of the jig base, respectively. The method of claim 1,
Tempered glass adhesive jig for a touch panel further comprises an adhesive resin applied in a predetermined pattern on the upper surface of the cell seated on the seating portion.
The method of claim 1,
The jig support,
Tempered glass adhesive jig for a touch panel is installed symmetrically on both sides in one jig unit, the tempered glass is seated on the upper seating surface. The method of claim 4, wherein
The jig support,
Tempered glass adhesive jig for a touch panel, characterized in that disposed on the jig unit to have a predetermined height by the LM guide while seating the tempered glass. The method of claim 1,
The jig unit,
Jig base for forming the chamber bottom surface of the vacuum chamber to bond the cell and the tempered glass in a vacuum state is coupled to the bottom glass jig for the touch panel, characterized in that the vacuum environment is made to perform the bonding operation.
The method according to claim 1 or 6,
The tempered glass disposed on the top of the jig unit enters the vacuum chamber and is adsorbed onto the adsorption plate, and at the same time, the jig support descends, and the adsorption plate descends in the vacuum state, and the tempered glass is pressed onto the upper surface of the resin-coated cell to bond. Tempered glass adhesive jig for a touch panel, characterized in that.

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