KR20010016024A - a loading CST for a liquid crystal display glass - Google Patents

Abstract

PURPOSE: A cassette for loading liquid crystal display glass is provided to load plural glasses simultaneously, minimize the frictional portion between the glass and a cassette and prevent permeation of dirt. CONSTITUTION: An upper and lower frames(1,2) are made of aluminium or stainless materials with excellent chemical resistance and corrosion resistance. A portion except frame portions(1a,2a) is formed by a CNC cutting process without a seam. The CNC cutting minimizes a seam portion to prevent the permeation of dirt. A catching blade inclines to one side and has a bent form. A glass keeps in linear contact with the catching blade of a side plate. Therefore, it is possible to prevent the scratch caused by friction and the circuit damage caused by static electricity.

Description

Liquid crystal display glass loading cassette {a loading CST for a liquid crystal display glass}

The present invention relates to a liquid crystal display (abbreviated as "LCD") glass loading CST, more specifically for LCD glass loading, which is an essential logistics mechanism to move and correspond to the glass between each process during LCD glass production in the LCD production plant It is about CST.

LCD (Liquid Crystal Display) glass has a high density circuit board and liquid crystal embedded therein and forms a surface film with a thin faceplate.

It is extremely sensitive and can be easily damaged by other small impacts, static electricity or foreign objects.

However, conventionally, when the glass is loaded and used in a roughly manufactured mechanism when moving and coping with processes, surface film contamination and paticles are generated due to contact with other chemicals, and scratches and correctors are generated by friction with equipment. As a result, many defects such as circuit damage have been caused.

This is a huge loss considering that it is quite expensive.

In addition, a large number of glass can not be loaded at the same time high productivity can not be expected.

Therefore, in the present invention, to devise the above-mentioned problems, it is possible not only to load a larger number of glasses at the same time, but also to reduce the frictional part as much as possible when loading the glass to prevent defects caused by friction and Due to the infiltration, it is possible to minimize the occurrence of membrane surface contamination and paticle, and at the same time, it is possible to maintain the long life of the instrument itself by using materials with excellent chemical resistance and corrosion resistance in consideration of high contact with toxic chemicals during movement. With the main focus on the back and the technical problem is completed.

1 is a view showing a preferred embodiment of the present invention

2 is a perspective view showing a state in which the side plate is coupled to FIG.

3 and 4 are perspective views showing a state in which the support pin and the stop pin are coupled and separated

5 is an exemplary view showing an enlarged portion of the side plate, the support pin, each end of the stop pin coupled to the upper and lower frame surface in the front view of the present invention;

Figure 6 is an exemplary view showing a state seen in each direction by extracting the side plate presented in the present invention

□ Explanation of symbols for main parts of drawing □

A: CST P: LCD glass

1: upper frame 1a, 2a: skeleton part

1b, 2b: Fastening groove 2: Lower frame

5: Inner groove 10: Support pin

11,31: Shim 12,32: Synthetic resin material

20: side plate 21: frame

22: Synthetic resin 23: It takes a day

24: coupling part 24a: bolt groove

30: stop pin

1 is a view showing a preferred embodiment of the present invention, Figure 2 is a perspective view showing a state in which the side plate is coupled in Figure 1, Figures 3 and 4 are separated from the state in which the support pin and the stop pin is coupled Figure 5 is a perspective view showing a state, Figure 5 is an exemplary view showing an enlarged portion of each end portion of the side plate, the support pin, the stop pin on the front view of the present invention, Figure 6 shows the side plate in each direction to extract As an illustration showing a losing state, it will be described in detail the configuration and operation of the present invention through this, as follows.

The LCD glass stacking CST (cassette, A) of the present invention has a substantially rectangular box shape at the same time that the upper frame 1 and the lower frame 2 are fixed / supported by several supporting pins 10 on both sides. Side plates 20 are disposed on both sides of the upper and lower frames 1 and 2 so as to face each other, and two stop pins 30 are provided at the rear between the upper and lower frames 1 and 2.

The upper and lower frames (1, 2) are excellent in chemical resistance and resistance, and using the aluminum or stainless material that can have a high strength, the BAR skeleton portion (1a, 2a) when viewed in plan 2 The dog and the vertical two are formed to cross each other, which is integrally formed so that the remaining parts other than the above-mentioned skeleton parts (1a, 2a) is CNC-cut, so that the entire skeleton parts (1, 2a) are no joints.

Loss is generated by the CNC cutting, which may cause some loss in terms of cost. However, minimizing the joints may prevent dirt penetration and pooling, thereby reducing the defective rate, thereby increasing efficiency.

In addition, a plurality of binding grooves 1b and 2b are formed at both sides of the upper and lower frames so that the coupling part 24 of the side plate 20 may be seated and coupled.

The side plate 20 is configured such that the four edges of the binding grooves 1a, 2a on the left and right sides of the upper and lower frames 1, 2 can face each other, and the LCD glass P is configured to face each other. In order to be easily loaded,

As shown in FIG. 4, the molding is applied to a predetermined thickness by using the synthetic resin material 22 around the entire frame 21 of the aluminum material, and a plurality of engaging blades 23 are formed to protrude on the applied side. .

Since the locking blade 23 is a portion in which the LCD glass P is in direct contact, there should be no scratches or sharp surfaces, and the minimum contact is made to minimize other defective rates due to friction. The shape of (23) was to have a constant inclination angle when viewed from the side, and slightly curved when viewed from the front. In other words, when the glass (P) is loaded on the engaging blade 23 of the side plate 20 to minimize the contact by making a line contact rather than a surface contact.

In addition, the coupling part 24 having the bolt groove 24a protrudes from the upper and lower parts of the frame 21 to be easily coupled to the binding grooves 1a and 2a of the upper and lower frames 1 and 2. It was.

In the above configuration, the front is in an open state, and at the rear, two stop pins 30 are configured to prevent separation to the rear of the CST (A) and align the glass P when the LCD glass P is loaded. The left and right sides between the upper and lower frames (1, 2), the support pins 10 are each composed of three each of a total of six are configured to be connected to the upper frame (1) and the lower frame (2) vertically. This supports the load in the vertical direction, and serves to prevent structural distortion of the CST (A) and at the same time also requires corrosion resistance and chemical resistance, so the stop pin 30 and the support pin 10 have strength inside. In order to maintain the inner core (11, 31) of the core material, while the outer peripheral surface of the synthetic resin (12, 32) having excellent chemical resistance and corrosion resistance to a certain thickness. At this time, the surface of the shim (11, 31) of the stainless material may be to form a knurling or scoop to increase the adhesive strength when the synthetic resin molding coating.

In addition, the upper and lower frames (1, 2) where the pins (10, 30) can be located in order to fundamentally block dirt penetration when fixing the support pin (10) and the stop pin (30) between the upper and lower frames (1, 2) An inner groove 5 is formed on the surface of the c) so that the ends of the pins 10 and 30 to which the synthetic resins 12 and 32 are applied can be interpolated and fixed.

The present invention having the configuration as described above is inserted into the stacking spaces formed opposite to each other between the side plate 20 in the LCD glass loading CST (A) front serves to move and correspond.

Glass loading CST of the present invention having the configuration and action as described in detail above is structurally simple, can be moved and corresponded to each process in a glass and glass manufacturing plant systematically and quickly to maximize productivity as well as The defect rate can be greatly reduced, and problems such as dirt clogging due to the absence of seams at the top and the frame can be solved naturally, which can produce a lot of effects in producing high quality products. It is a revolutionary invention that is expected to greatly improve the inefficient existing LCD glass production system, such as can be effectively used under adverse conditions.

Claims (1)

The upper frame (1) having a plurality of binding grooves on the top and the lower frame (2) at the bottom in a substantially rectangular box form, The synthetic resin material 22 is molded and coated on the entire outer surface of the frame 21 of aluminum between the binding grooves 1a and 2a of both sides of the upper and lower frames 1 and 2, and the locking edge 23 is formed on one side of the frame 21. Each coupling configuration of the side plate 20 is formed; Forming support pins 10 formed by molding synthetic resin material 12 on the outer circumference of the shim 11 made of stainless material on both sides of the upper and lower frames 1 and 2; LCD glass loading CST, characterized in that for forming the support pins 30, the synthetic resin material 32 is molded coated on the outer circumference of the shim 31 made of a stainless material on the rear side between the upper and lower frames (1, 2).