CN103022383A - Integrated device for AMOLED Frit curing and process flow - Google Patents

Abstract

The invention provides an integrated device for AMOLED Frit curing. The integrated device comprises a glass carrier table part, an ultraviolet (UV) curing part and a Laser curing part. The glass carrier table part, the UV curing part and the Laser curing part are of a T-shaped structure in location distribution, the glass carrier table part is located at the vertical end of the T-shaped structure, the UV curing part and the Laser curing part are located at two horizontal ends of the T-shaped structure, two curing processes are finished on one device simultaneously, dust particles can be reduced, the good product rate is improved, two curing devices are integrated together, the integration degree is high, space can be saved, maintenance is facilitated, data collection during research and development is facilitated, and the integrated device can be widely applied to a research and development line and a volume production line.

Description

A kind of integration apparatus and technological process for AMOLED Frit curing

Technical field

The invention belongs to the display floater production field, relate to the production technology of AMOLED Frit, be specifically related to a kind of integration apparatus and technological process for AMOLED Frit curing.

Background technology

In flat panel display manufacturing industry industry, well-known Frit material is the best encapsulating material of level undoubtedly.And the Frit material carries out typing, the curing of justifying at the uncured front use UV glue that needs, and then carries out Laser again and solidifies.UV curing flow process is at present, use first with Spot UV(point UV) make-up machine (VAS) do several solidification points, carry out pre-fixing of UV material, and then deliver to special UV curing machine and carry out UV curing, deliver to Laser curing machine after UV solidifies and carry out Laser curing.The production of display floater is to environment cleanliness, avoids wiping flower and waits and require very highly, and transfer base substrate repeatedly in the production process has increased bad plate rate undoubtedly, and UV solidified is divided into two operations and makes, and increased chamber quantity, increased kinetic energy consumption, manual maintenance etc.The Laser curing machine of technique can be integrated with being right after thereafter if UV simple in structure is solidified machine, can improve the integrated performance of production line, saves input and the pipeline of kinetic energy and arranges, reduces manual maintenance etc.

Summary of the invention

The object of the invention is to address the deficiencies of the prior art, a kind of integration apparatus and technological process for AMOLED Frit curing is provided, improve the integrated performance of production line, reduce the generation of dust particle, improve yields.

For achieving the above object, the present invention is by the following technical solutions:

A kind of integration apparatus for AMOLED Frit curing, comprise glass microscope carrier part, UV cured portion and Laser cured portion, the position distribution of described glass microscope carrier part, UV cured portion and Laser cured portion is T-shaped structure, described glass microscope carrier partly is positioned at the vertical end of T-shaped structure, UV cured portion and Laser cured portion lay respectively at two horizontal ends of T-shaped structure, and this equipment also comprises control and the power section that is positioned at a side; Vertical part along T-shaped structure is provided with the first guide rail, the glass microscope carrier partly is installed on the first guide rail and can slides along the first rail, transverse part along T-shaped structure is provided with the second guide rail, and UV cured portion and Laser cured portion are installed on the second guide rail and can slide along the second guide rail respectively.

Described glass microscope carrier partly comprises with the pneumatically supported glass microscope carrier of nitrogen, by the contraposition fixing device of air cylinder driven, and laser-adjusting device and contraposition CCD; Described UV cured portion comprises movably UV lamp bracket, UVmask and UV mask alignment device; Described Laser cured portion comprises Laser laser pallet, laser generator one, Laser Mask and Laser Mask alignment device; Described control and power section comprise controlling organization and power section.

Described controlling organization and power section comprise laser generator two, and the transformer of operating voltage is provided for equipment, the control PC of control appliance each several part work.

A kind of technological process for AMOLED Frit curing may further comprise the steps:

1) glass pan feeding: adopt robot or manual mode that glass is placed on the glass microscope carrier, then by the good glass of air cylinder driven contraposition fixing device clamping, carry out the CCD contraposition, after adjusting the position, by the absorption of vacuum cave glass and glass microscope carrier are fixed, contraposition fixing device unclamps, and then the glass microscope carrier slides along the first rail, with glass conveying to device interior place to be processed;

2) UV solidifies: after glass was transported to position to be processed, the UV cured portion was slided along the second guide rail, moved to the glass top, at first carry out UV mask contraposition, after contraposition is finished, carry out the UV light irradiation, after UV curing was finished, the original place was got back in the action of UV cured portion;

3) Laser solidifies: after UV curing is finished, the Laser cured portion is slided along the second guide rail, move on glass, at first carry out Laser Mask contraposition, Laser laser head and glass microscope carrier carry out contraposition afterwards, then carry out Laser and solidify, after Laser curing was finished, the Laser cured portion was got back to the original place.

Be provided with static eraser at the glass microscope carrier in the step 1), eliminate static before the glass pan feeding.

Step 2) ozone that the UV light irradiation produces in is discharged in the discharge duct by exhaust apparatus.

When glass is placed on the glass microscope carrier in the step 1), be filled with nitrogen between glass microscope carrier and glass, make glass be in suspended state.

Integration apparatus and technological process for AMOLED Frit curing of the present invention, UV is solidified flow process and Laser to be solidified flow process and is combined as a whole, finish the Frit curing process an operation, can reduce the carrying number of times of substrate, simultaneously finish two kinds of curing process at an equipment, can reduce the generation of dust particle, improve yields, two kinds of curing apparatus are integrated, integrated level is high, can save the space again, is convenient to safeguard, image data when being convenient to research and develop can be widely used in research and development line and volume production line.

Description of drawings

Fig. 1 is the structural representation that the present invention is used for the integration apparatus of AMOLED Frit curing;

Fig. 2 is the working state schematic representation that the present invention is used for the integration apparatus of AMOLED Frit curing;

Fig. 3 is the working state schematic representation that the present invention is used for the integration apparatus of AMOLED Frit curing;

Fig. 4 is the working state schematic representation that the present invention is used for the integration apparatus of AMOLED Frit curing;

Wherein: 1-glass microscope carrier part, 2-UV cured portion, 3-Laser cured portion, 4-control and power section.

Embodiment

Describe the present invention below in conjunction with accompanying drawing:

As shown in Figure 1, disclose a kind of integration apparatus for AMOLED Frit curing, comprised glass microscope carrier part 1, UV cured portion 2 and Laser cured portion 3, described glass microscope carrier part 1, the position distribution of UV cured portion 2 and Laser cured portion 3 is T-shaped structure; Described glass microscope carrier part 1 is positioned at the vertical end of T-shaped structure, is used for the glass material is sent into device interior; UV cured portion 2 and Laser cured portion 3 lay respectively at two horizontal ends of T-shaped structure, being used for finishing UV solidifies and the Laser curing process, this equipment also comprises control and the power section 4 that is positioned at a side, is responsible for this equipment operation of control and provides power for equipment; Vertical part along T-shaped structure is provided with the first guide rail, glass microscope carrier part 1 is installed on the first guide rail and can slides along the first rail, transverse part along T-shaped structure is provided with the second guide rail, and UV cured portion 2 and Laser cured portion 3 are installed on the second guide rail and can slide along the second guide rail respectively.

Described glass microscope carrier part 1 comprises with the pneumatically supported glass microscope carrier of nitrogen, by the contraposition fixing device of air cylinder driven, and laser-adjusting device and contraposition CCD; UV cured portion 2 comprises movably UV lamp bracket, UVmask and UV mask alignment device; Described Laser cured portion 3 comprises Laser laser pallet, laser generator one, Laser Mask and Laser Mask alignment device; Described control and power section 4 comprise controlling organization and power section, described controlling organization and power section comprise laser generator two, the transformer of operating voltage is provided for equipment, the control PC of control appliance each several part work, it provides power for whole equipment operation, equipment is controlled and monitored, and UV cured portion 2 and Laser cured portion 3 can move by the transverse part along T-shaped structure on the second guide rail respectively.

Integration apparatus of the present invention solidifies UV and Laser curing is integrated, the integrated level of raising equipment, reduce the arrangement space of production line, and the input of kinetic energy and the layout of pipeline have been saved, reduced manual maintenance, simultaneously finish two kinds of curing process at an equipment, can reduce the generation of dust particle, improve yields.

In the clean room of liquid crystal industry (cleanliness factor more than 100 grades, magnificent husband floor, shockproof grade VC-B), can be with this equipment connection (the most suitable after the VAS) after make-up machine, can with the packaging line seamless combination, no matter be transfer matic, semi-automatic line, manually line is all applicable, curing environment can be atmospheric environment, accommodative ability of environment is strong, can be widely used in each and produce in the line for OLED.

A kind of technological process for AMOLED Frit curing may further comprise the steps:

1) glass pan feeding:

As shown in Figure 2, adopt robot or manual mode that glass is placed on the glass microscope carrier, be filled with nitrogen between glass microscope carrier and glass this moment, make glass be in suspended state, avoid glass to be scratched, then by the good glass of air cylinder driven contraposition fixing device clamping, carry out the CCD contraposition, after adjusting the position, adsorbed by the vacuum cave, glass and glass microscope carrier are fixed, contraposition fixing device unclamps, then the glass microscope carrier moves glass conveying to device interior place to be processed according to the direction of arrow, is provided with static eraser at the glass microscope carrier, carries out eliminating static before the glass pan feeding;

2) UV solidifies:

As shown in Figure 3, after glass is transported to position to be processed, the action of UV cured portion is slided along the second guide rail, moves in the direction of arrows the glass top, at first carries out UV mask contraposition, after contraposition is finished, carry out the UV light irradiation, after UV curing was finished, UV Mask and UV lamp were got back to original position, the UV cured portion resets, and the ozone that the UV light irradiation produces is discharged in the discharge duct by exhaust apparatus discharges;

3) Laser solidifies:

As shown in Figure 4, after UV curing was finished, Laser cured portion 3 was slided along the second guide rail, move on glassly, at first carry out Laser Mask contraposition, Laser laser head and glass microscope carrier carry out contraposition afterwards, then carrying out Laser solidifies, after Laser curing was finished, Laser Mask and Laser laser head were partly got back to the original place, and the Laser cured portion resets, this moment completion of processing, glass revert to and is written into mouth, treats that artificial/robot takes out, and finishes processing.

Whole technological process can be summarized as: pan feeding, air supporting, contraposition, absorption, UV Mask separate with glass with glass contraposition, UV irradiation, UV Mask, Laser Mask solidifies with glass contraposition, Laser with glass contraposition, laser head, Laser Mask separates with glass, discharging.The UV Mask that wherein uses and Laser Mask are that one deck can the shield portions ultraviolet ray or the shielding tool of Ear Mucosa Treated by He Ne Laser Irradiation, when carrying out UV curing and Laser curing, first with Mask and glass contraposition, covering glass does not need the part of solidifying, avoid ultraviolet ray or Ear Mucosa Treated by He Ne Laser Irradiation, when changing Laser Mask and UV Mask, Mask is placed on the glass microscope carrier, equipment can automatically be finished Mask and change.

UV is solidified flow process and Laser solidify flow process and be combined as a whole and finish in an operation, the carrying number of times that reduces glass prevents that glass surface from wiping flower, reduces human input, reduce cost, manually need not contact glass in the production process, avoid the introducing of the impurity such as dust, improve rate of finished products.

Claims (7)

1. one kind is used for the integration apparatus that AMOLED Frit solidifies, it is characterized in that: comprise glass microscope carrier part, UV cured portion and Laser cured portion, the position distribution of described glass microscope carrier part, UV cured portion and Laser cured portion is T-shaped structure, described glass microscope carrier partly is positioned at the vertical end of T-shaped structure, UV cured portion and Laser cured portion lay respectively at two horizontal ends of T-shaped structure, and this equipment also comprises control and the power section that is positioned at a side; Vertical part along T-shaped structure is provided with the first guide rail, the glass microscope carrier partly is installed on the first guide rail and can slides along the first rail, transverse part along T-shaped structure is provided with the second guide rail, and UV cured portion and Laser cured portion are installed on the second guide rail and can slide along the second guide rail respectively.

2. the integration apparatus that solidifies for AMOLED Frit according to claim 1 is characterized in that: described glass microscope carrier partly comprises with the pneumatically supported glass microscope carrier of nitrogen, by the contraposition fixing device of air cylinder driven, and laser-adjusting device and contraposition CCD; Described UV cured portion comprises movably UV lamp bracket, UV mask and UV mask alignment device; Described Laser cured portion comprises Laser laser pallet, laser generator one, Laser Mask and Laser Mask alignment device; Described control and power section comprise controlling organization and power section.

3. the integration apparatus that solidifies for AMOLED Frit according to claim 1, it is characterized in that: described controlling organization and power section comprise laser generator two, and the transformer of operating voltage is provided for equipment, the control PC of control appliance each several part work.

4. technological process that AMOLED Frit solidifies that is used for based on the described integration apparatus of claim 1 is characterized in that may further comprise the steps:

1) glass pan feeding: adopt robot or manual mode that glass is placed on the glass microscope carrier, then by the good glass of air cylinder driven contraposition fixing device clamping, carry out the CCD contraposition, after adjusting the position, by the absorption of vacuum cave glass and glass microscope carrier are fixed, contraposition fixing device unclamps, and then the glass microscope carrier slides along the first rail, with glass conveying to device interior place to be processed;

2) UV solidifies: after glass was transported to position to be processed, the UV cured portion was slided along the second guide rail, moved to the glass top, at first carry out UV mask contraposition, after contraposition is finished, carry out the UV light irradiation, after UV curing was finished, the original place was got back in the action of UV cured portion;

3) Laser solidifies: after UV curing is finished, the Laser cured portion is slided along the second guide rail, move on glass, at first carry out Laser Mask contraposition, Laser laser head and glass microscope carrier carry out contraposition afterwards, then carry out Laser and solidify, after Laser curing was finished, the Laser cured portion was got back to the original place.

5. the technological process for AMOLED Frit curing according to claim 4 is characterized in that: be provided with static eraser at the glass microscope carrier in the step 1), eliminate static before the glass pan feeding.

6. technological process of solidifying for AMOLED Frit according to claim 4 is characterized in that: step 2) in the ozone that produces of UV light irradiation be discharged in the discharge duct by exhaust apparatus.

7. the technological process for AMOLED Frit curing according to claim 4 is characterized in that: when glass is placed on the glass microscope carrier in the step 1), be filled with nitrogen between glass microscope carrier and glass, make glass be in suspended state.

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