CN103869522B

CN103869522B - TFT LCD manufactures device

Info

Publication number: CN103869522B
Application number: CN201310412769.XA
Authority: CN
Inventors: 洪承珉; 姜日
Original assignee: Protec Co Ltd Korea
Current assignee: Protec Co Ltd Korea
Priority date: 2012-12-17
Filing date: 2013-09-11
Publication date: 2016-08-17
Anticipated expiration: 2033-09-11
Also published as: KR101502786B1; KR20140079558A; TWI506337B; TW201426092A; CN103869522A

Abstract

The invention relates to that a kind of TFT LCD manufactures device, more specifically relate to the side coating synthetic resin of a kind of glass assemblies body being combined into tft array glass and colored filter assembly and the TFT LCD manufacture device of the display pannel without framework is provided.It is an object of the invention to provide and a kind of can manufacture device effective over the peripheral TFT LCD of coating glass assemblies body.The TFT LCD of the present invention manufactures device and has the effect that a kind of method providing periphery that can effectively apply glass assemblies body, thus can seek the safety of user, improves the service life of glass assemblies body.

Description

TFTLCD panel manufacturing apparatus

Technical field

The present invention relates to a kind of TFT LCD (Thin Film Transistor Liquid Crystal Display, thin Film electric crystal liquid crystal display) panel manufacturing apparatus, particularly relate to one and tie with colored filter assembly at tft array glass The side coating synthetic resin of glass assemblies body that closes and the TFT LCD system of the display pannel without framework is provided Manufacturing apparatus.

Background technology

TFT LCD (thin film transistor liquid crystal display panel) is with as follows Mode produces: is connected at the glass assemblies body engaged to filling liquid crystal between tft array glass and color filter glass and drives Galvanic electricity road and back lighting device.

In the past, glass assemblies body was arranged on framework or shell with back lighting device etc. and was used as TV (Television, electricity Depending on), the display of monitor etc..

Recently, more unfertile land manufacture display, also exploitation have framework or shell are minimized or are not possessed framework itself show Show device.

Remove frameless TFT LCD display as mentioned above to manufacture, need to be constituted covering with other of not framework The peripheral edge of glass assemblies body.Owing to the periphery of glass assemblies body is formed shrilly, therefore the safety of user can be caused Impact, and also the service life of glass assemblies body can be impacted.It is therefore desirable to be able to cover with succinct and relatively thin composition The periphery of glass assemblies body and the composition that completes.

Summary of the invention

[problem that invention to be solved]

The present invention is to propose according to necessity as above, it is therefore intended that offer one can be effective over coating glass The peripheral TFT LCD of glass assembly manufactures device.

[solving the technological means of problem]

Comprise in order to reach the TFT LCD manufacture device of the present invention of purpose as above: glass support unit, The state of its glass assemblies body flatly to configure tft array glass and engage with color filter glass, supports fixing Described glass assemblies body;Allocation unit, it is when described glass assemblies body is fixed on described glass support unit, to institute State the fluid resin of the side distribution photo-curable of glass assemblies body;Transfer unit, it possesses the 1st transferred unit, the 1st transferred unit At the extending direction with the side of the described glass assemblies body by being distributed described fluid resin by described allocation unit side by side Described allocation unit is transferred on direction in direction that is the 1st;And lamp, it irradiates light to described fluid resin, in order to distribution can be made in institute State the described fluid resin solidification of the side of glass assemblies body.

[effect of invention]

The TFT LCD of the present invention manufactures device and has the effect that offer one can apply glass assemblies effectively The peripheral device of body, thus the safety of user can be sought, improve the service life of glass assemblies body.

Accompanying drawing explanation

Fig. 1 is the profile of glass assemblies body.

Fig. 2 is the TFT of the one embodiment of the invention utilizing the glass assemblies body manufacture TFT LCD shown in Fig. 1 LCD manufactures the axonometric chart of device.

Fig. 3 is the axonometric chart illustrating to apply the process of fluid resin to the glass assemblies body shown in Fig. 1.

Fig. 4 is the profile representing the state applying fluid resin to the glass assemblies body shown in Fig. 1.

Fig. 5 is the TFT of the another embodiment of the present invention utilizing the glass assemblies body manufacture TFT LCD shown in Fig. 1 LCD manufactures the top view of device.

Symbol description:

10: glass assemblies body

11: color filter glass

12:TFT array glass

13,14: thin film

20: fluid resin

110: glass support unit

210: allocation unit

300: transfer unit

310: the 1 transferred unit

320: the 3 transferred unit

330: the 2 transferred unit

400: lamp

510: video unit

520: area sensing unit

Detailed description of the invention

Hereinafter, referring to the drawings, in detail the preferred embodiment of the present invention is illustrated.

Fig. 1 is the profile of glass assemblies body.

The present invention is to manufacture nothing in order to the side painting synthetic resin at the glass assemblies body 10 of form as shown in Figure 1 Need the device of the TFT LCD of peripheral frame or shell.The glass assemblies body 10 of common TFT LCD is in shown in Fig. 1 Structure.Tft array glass 12 is engaged with each other with color filter glass 11, and with tft array glass 12 and colored filter It is filled with liquid crystal between glass 11.Generally, tft array glass 12 and color filter glass 11 expose to outside flat Face, is attached with thin film 13,14 as shown in Figure 1.

With reference to Fig. 2, the TFT LCD of the present embodiment manufacture device comprise glass support unit 110, allocation unit 210, Transfer unit 300, lamp 400 and video unit 510 and constitute.

Glass support unit 110 supports fixing glass assemblies body 10 as shown in Figure 1.Assemble with the state shown in Fig. 1 Glass assemblies body 10 is to be flatly arranged in glass support unit 110 and state that lower surface is supported is fixed.

Allocation unit 210 is arranged on transfer unit 300, and the side along glass assemblies body 10 is transferred.Transfer unit 300 is along glass Allocation unit 210 is moved in the side of glass assembly 10, thereby assists in allocation unit 210 and applies the side of glass assemblies body 10 Fluid resin 20.

With reference to Fig. 2, the TFT LCD of the present embodiment manufacture device possess 3 groups of allocation units 210, transfer unit 300, And lamp 400.3 groups of transfer units 300,3 sides along 4 peripheral sides of glass assemblies body 10 respectively and relative to point The side of not corresponding glass assemblies body 10 is arranged side-by-side.

Transfer unit 300 possesses the 1st transferred unit the 310, the 2nd transferred unit the 330 and the 3rd transferred unit 320 respectively.Allocation unit 210 are arranged on the 2nd transferred unit 330.2nd transferred unit 330 is in above-below direction (the 2nd direction) upper transfer allocation unit 210.2nd moves Portion 330 is sent to make allocation unit 210 lift relative to the side of glass assemblies body 10 and regulate the height relative to this side.

2nd transferred unit 330 is arranged on the 3rd transferred unit 320.3rd transferred unit 320 is in the side relative to glass assemblies body 10 Vertical (the direction close to or away from the side of glass assemblies body 10, direction;3rd direction) upper mobile 2nd transferred unit 330.Distribution Unit 210 with the 2nd transferred unit 330 together by the 3rd transferred unit 320 along the 3rd direction relative to corresponding glass assemblies body 10 Side advance or retreat.

3rd transferred unit 320 is arranged on the 1st transferred unit 310.1st transferred unit 310 configures as follows: with the most right Extend on direction side by side, the side of the glass assemblies body 10 answered.1st transferred unit 310 with the prolonging of the side of glass assemblies body 10 The 3rd transferred unit 320 is transferred on length direction the 1st direction side by side.Allocation unit the 210, the 2nd transferred unit the 330 and the 3rd transferred unit 320 Moved along the 1st direction by the 1st transferred unit 310.

Rearranging, the i.e. the 1st transferred unit 310 moves up the 3rd transferred unit 320 the 1st side, and the 3rd transferred unit 320 is the 3rd Upper mobile 2nd transferred unit 330 in direction (being perpendicular to the horizontal direction in the 1st direction).2nd transferred unit 330 is at the 2nd direction (upper and lower To) upper mobile allocation unit 210.

Allocation unit 210 distributes fluid resin 20 on the direction vertical relative to the side of glass assemblies body 10.Distribution The nozzle of unit 210 is arranged in horizontal direction, and not above-below direction.Use from the fluid resin 20 of allocation unit 210 distribution Light-cured resin.That is, fluid resin 20 has the property that when distribution be liquid condition, if but be exposed under light, Solidification.Photocurable liquid resin 20 preferably uses ultra-violet solidified fluid resin 20.It addition, lamp 400 is also preferably sent out Go out the Burdick lamp 400 of ultraviolet.Uv curing resin has the advantage that owing to its curing rate is very fast, therefore makes Fluid resin 20 just distributed immediately begin to after glass assemblies body 10 solidification, thus make to keep regularly being coated in glass assemblies The situation of the shape of the fluid resin 20 of the side of body 10 becomes easy.

In the 2nd transferred unit 330, set along with allocation unit 210 have lamp 400.Lamp 400 is along the 1st transferred unit 310 along the 1st The direction of direction transfer allocation unit 210, is arranged in relatively allocation unit 210 more rear.Accordingly, if allocation unit 210 one side Distribution fluid resin 20 one side moves along the 1st direction, then lamp 400 following closely and irradiates light and makes fluid resin 20 solidify. Fluid resin 20, after just distributing, is exposed to instantaneous solidification from the light that lamp 400 irradiates, thus without along glass assemblies body The side of 10 flows down and solidifies immediately in the position of distribution, thus applies the side of glass assemblies body 10.

Video unit 510 is arranged on the 3rd transferred unit 320.Video unit 510 comprises elevation measurement unit and range determination list Unit.Video unit 510, by the 1st transferred unit 310, together moves along the 1st direction with the 3rd transferred unit 320, and measures glass group The height of the side of dress body 10 and the distance of the side relative to glass assemblies body 10.Elevation measurement unit measures glass assemblies The height of the side of body 10, distance determination unit, on the direction vertical relative to the side of glass assemblies body 10, measures this side The distance in face.The video unit 510 action by the 1st transferred unit 310, the side along glass assemblies body 10 is moved, and is scanned The change of the height range of this side.During glass assemblies body 10 is fixed to glass support unit 110, glass assemblies Can inaccurately align in the position of body 10 and direction, glass assemblies body 10 is flexible.It addition, there is also the side of glass assemblies body 10 Face highlights or the situation of depression minutely.Video unit 510 utilizes optical camera or laser sensor, measures glass assemblies body 10 Side height and relative to the distance of this side.Moved along the 1st direction by the 1st transferred unit 310, and measure storage The change of height range.

Utilizing the value measured at video unit 510, the 2nd transferred unit 330 makes allocation unit 210 lift, the 3rd transferred unit 320 Make allocation unit 210 forward-reverse.That is, the 2nd transferred unit 330 utilizes the value measured at elevation measurement unit, with allocation unit 210 The side of nozzle and glass assemblies body 10 become the mode of identical height and regulate the height of allocation unit 210.3rd transferred unit 320 utilize the value measured at distance determination unit, protect with the distance of the side of glass assemblies body 10 with the nozzle of allocation unit 210 Hold fixing mode and regulate the allocation unit 210 displacement on the 3rd direction.

Video unit 510 is arranged in relatively allocation unit 210 more front as shown in Figure 2 along the 1st direction, in order to video unit The height range of 510 sides that can previously advance and measure glass assemblies body 10 and to the allocation unit 210 advanced subsequently Pass on the value of this height range, the most in real time the regulation glass assemblies body 10 displacement on the 2nd direction and the 3rd direction.

For result, video unit 510, the nozzle of allocation unit 210 and lamp 400 are to be roughly arranged in along the 1st direction On same line.

Area sensing unit 520 is arranged on the 3rd transferred unit 320, the starting point of the side of sensing glass assemblies body 10 and knot Spot.Area sensing unit 520 is together moved along the 1st direction by the 1st transferred unit 310 with the 3rd transferred unit 320.Such as Fig. 2 institute Showing, area sensing unit 520 configures as follows: be arranged in the upside of glass assemblies body 10 and towards downside.Region senses Unit 520 utilizes whether optical camera, sensing exist glass assemblies body 10 in vertical lower.By the 1st transferred unit 310 and region The action of sensing unit 520, the starting point on the 1st direction of the side grasping glass assemblies body 10 and end point.That is, region sense Survey unit 520 aloft to be moved by the 1st transferred unit 310, thus grasp place and the glass that glass assemblies body 10 occurs respectively Displacement on 1st direction in the place that assembly 10 disappears in downside again.Allocation unit 210 utilizes as described above by the 1st The starting point of the side of the glass assemblies body 10 that the action of transferred unit 310 and area sensing unit 520 is grasped and end point and enter Action is made.That is, allocation unit 210 is moved along the 1st direction by the 1st transferred unit 310, thus at area sensing unit 520 Grasp the position for starting point and start to distribute fluid resin 20, and terminate distribution in end point.By this method, allocation unit 210 carry out action only with respect to the side of glass assemblies body 10 and distribute fluid resin 20.

Hereinafter, TFT LCD configured as described above is utilized to manufacture device, to the side of coating glass assemblies body 10 Process illustrates.

First, glass assemblies body 10 is flatly configured it is fixed on glass support unit 110.Due to glass assemblies body 10 in The structure that thickness is the thinnest compared with area, therefore has the characteristic being readily bent.Preferably, it is considered to glass assemblies body 10 Characteristic as above, utilizes glass assemblies body 10 not bend and the fixture that flatly configures with plane configuration, flatly joins Put glass assemblies body 10.According to circumstances, it is also contemplated that glass assemblies body 10 bends because of the own wt of glass assemblies body 10 Situation, is configured to glass assemblies body 10 have on the fixture of planar curvature on its deformation direction rightabout, thus mends Repay the deformation caused because of own wt and flatly configure.

Under state as above, make to carry out action with reference to 3 allotter transfer units 300 of Fig. 2 explanation simultaneously and Allocation unit 210, video unit 510 and lamp 400 is made to move along 3 sides of glass assemblies body 10.Do not configure allotter transfer The side of the glass assemblies body 10 of unit 300 is the position of circuit and the drive circuit connecting tft array glass 12, therefore Do not apply fluid resin 20.As mentioned above the face of uncoated fluid resin 20 configures towards downside in use, and with a support group Seat connects.

First, make the 1st transferred unit 310 action and along the side moving area sensing unit 520 of glass assemblies body 10.Pass through Area sensing unit 520, grasps starting point and the end point of the side of glass assemblies body 10.Area sensing unit 520 can use Laser sensor or camera.

Grasp starting point and the end point of the side of glass assemblies body 10 if as discussed above, then the 1st transferred unit 310 will regard As unit 510, allocation unit 210 and area sensing unit 520 are transported to initial position.

If the 1st transferred unit 310 carries out action and transfer video unit 510 on the 1st direction again, then by being arranged in The video unit 510 closer to the front on the 1st direction compared with allocation unit 210, measures the 2nd direction of the side of glass assemblies body 10 On height and distance on the 3rd direction.The elevation measurement unit of video unit 510 measures the side of glass assemblies body 10 the Displacement on 2 directions, distance determination unit measures the displacement on the 3rd direction of the side of glass assemblies body 10.As above The video unit measuring the available function simultaneously performing elevation measurement unit and distance determination unit of height range 510 and perform, it is possible to individually possess elevation measurement unit and perform with distance determination unit.Elevation measurement unit and distance Determination unit can use camera or laser sensor.

The height of the side of glass assemblies body 10 determined as outlined above and the side of glass assemblies body 10 and allocation unit Distance between the nozzle of 210 is communicated to transfer unit 300 in real time, thus keeps nozzle and the glass of allocation unit 210 regularly Distance between the side of glass assembly 10 and height.3rd transferred unit 320 makes allocation unit 210 forward-reverse regulate distribution The nozzle of unit 210 makes allocation unit 210 lift and adjust relative to the distance of the side of glass assemblies body 10, the 2nd transferred unit 330 The nozzle of joint allocation unit 210 is relative to the height of the side of glass assemblies body 10.

Allocation unit 210 is moved in side along glass assemblies body 10, and simultaneously in the side relative to glass assemblies body 10 On the direction that face is vertical, distribution coating has the fluid resin 20 of photo-curable.Side at the glass assemblies body 10 measured before The starting point in face starts distribution, and terminates distribution in end point.

Can be by method as above, the real time measure will distribute the glass assemblies body 10 in the place of fluid resin 20 Distance between the height of side and this side and nozzle and one side regulates nozzle displacement on the 3rd direction and the 2nd direction, One side distribution fluid resin 20.

Fluid resin 20 uses the fluid resin 20 of the viscosity with following degree: even if relative to glass assemblies body 10 Side is allocated, and this fluid resin 20 also will not flow and drip downwards.

With reference to Fig. 3, it is that unit ejection fluid resin 20 distributes that allocation unit 210 is preferably with drop (droplet), and Not with continuous and uniform assignment of traffic.Now, fluid resin 20 can distribute as follows: whenever carrying out 1 suction Time, spray in units of single drop and be connected to each other in the side of glass assemblies body 10.According to circumstances, it is also possible to such as lower section Formula is distributed: single drop will not be disconnected from each other and spray with stream shape (stream) form, thus in the side of glass assemblies body 10 It is connected to each other.

The fluid resin 20 of the side at glass assemblies body 10 allocated as described above with adjoin because of stickiness and surface tension The drop of fluid resin 20 connect, finally with as shown in Figure 4 or similar form is coated in the side of glass assemblies body 10.

The height of the nozzle of allocation unit 210 can be identical with the height holding of the side of glass assemblies body 10, it is also contemplated that Fluid resin 20 leaves nozzle and arrives the side of glass assemblies body 10 and the height that will decline, remains slightly higher than glass group The side of dress body 10.It addition, in the case of the surface of the side of glass assemblies body 10 is uneven, can this side determined as outlined above The surface in face and make nozzle advance up retrogressing relative to this side the 3rd side, and one side keeps nozzle and side the most regularly Between distance one side be allocated.Have the advantage that and distribution can be kept regularly at glass by method as above The shape of the fluid resin 20 of the side of assembly 10.

Distance between nozzle and the side of glass assemblies body 10 keeping allocation unit 210 the most regularly and height In the case of, the dimensional accuracy being coated in the fluid resin 20 of the side of glass assemblies body 10 will not be kept, thus cannot cover The sharp-pointed side of glass assemblies body 10 or fluid resin 20 are coated to the upper table of the glass assemblies body 10 in the region without coating Face and lower surface and it may happen that bad.

The thickness of glass assemblies body 10 is about 1mm and the most relatively thin, so even flatly joined by glass assemblies body 10 Put on glass support unit 110, it is possible to the deformation that causes because of own wt occurs and glass assemblies body 10 bends.In this situation Under, keep the distance between the nozzle of allocation unit 210 and the side of glass assemblies body 10 and height by fixed as described above Degree, can improve quality.

Under state as above, utilize the lamp 400 at the rear being arranged on allocation unit 210, make distribution in glass group The fluid resin 20 of the side of dress body 10 solidifies.

As shown in Figure 2 the light source i.e. lamp 400 irradiating light is combined in allocation unit 210 and passes through transfer unit 300 and divide Join unit 210 together to move, the fluid resin 20 distributed by allocation unit 210 thus can be made immediately to solidify.By as above institute The method stated, can make fluid resin 20 will not solidify immediately in the side flow of glass assemblies body 10.

On the other hand, can by utilize that each side at glass assemblies body 10 the most respectively individually possesses point Join unit 210, lamp 400 and video unit 510 and perform operation, and improve the speed of operation.

Utilizing as discussed above after lamp 400 makes fluid resin 20 solidification, can be additionally by again applying heat or irradiating The method of light etc., has implemented the hardening step of the solidification of the distribution fluid resin 20 in the side of glass assemblies body 10 further Suddenly.

Apply the side of glass assemblies body 10 with fluid resin 20 as mentioned above and make it solidify, the most not making sharp-pointed landform The corner angle of the glass assemblies body 10 become expose in outside, thus the advantage with the safety that can ensure that user or consumer.Separately Outward, have the advantage that the tft array glass 12 that by the adhesion of fluid resin 20, can supplement glass assemblies body 10 is with color Adhesion between colo(u)r filter glass 11.It addition, the works that can be solidified by coated fluid resin 20 and complete, anti- The only thermal deformation of the thermally-induced glass assemblies body 10 because producing at back lighting device.

By coating fluid resin 20, the peripheral shape making glass assemblies body 10 is the most attractive in appearance, thus can not be at glass Glass assembly 10 arranges other framework or shell, and makes glass assemblies body 10 itself become display equipment.Accordingly, had Become the effect of the relatively thin design of glass assemblies body 10.

Above, enumerate preferred embodiment, the TFT LCD manufacture device of the present invention is illustrated, but this Bright scope is not limited to the form illustrating before and illustrating.

Such as, video unit 510 is not described above and allocation unit 210 is set along in the 2nd transferred unit 330, it is possible to It is arranged on the 3rd transferred unit and simultaneously moves one side and carry out action.Area sensing unit may also be arranged on the 2nd transferred unit and moves Make, and be not arranged on the 3rd transferred unit.

It addition, transfer unit 300 illustrates as to arrange the 3rd transferred unit 320 in the 1st transferred unit 310, in the 3rd transferred unit 320 2nd transferred unit 330 is set, but also is able to constitute as follows: the 2nd transferred unit is set in the 1st transferred unit, in the 2nd transferred unit 3rd transferred unit is set.

It addition, the distance for being measured the side relative to glass assemblies body 10 respectively by video unit 510 is described before With the distance between height, and nozzle and the side of glass assemblies body 10 of one side holding allocation unit 210 regularly and height One side carries out operation, but also is able to constitute as follows TFT LCD and manufactures device: accident set a distance and only measure height Degree, and keep this height regularly.

It addition, the lamp producing light is also disposed at transfer unit, together do not move with allocation unit, and can be to whole operation Under the state of space illumination light, fluid resin is made to solidify.

Fig. 5 is the another embodiment of the present invention utilizing the glass assemblies body 10 shown in Fig. 1 to manufacture TFT LCD TFT LCD manufactures the top view of device.

The TFT LCD of another embodiment shown in Fig. 5 manufactures device and is the device constituted as follows: hold successively Row fluid resin is relative to the coating operation of 3 sides of glass assemblies body 10.Glass assemblies body 10 is with by glass support list Unit 110 and fixing state is transferred successively.Fluid resin 20 is performed relative to the 1st of glass assemblies body 10 from the leftmost side of Fig. 5 The coating operation of side (left surface).Glass assemblies body 10 is transplanted on the central part of Fig. 5 by transfer unit 300, then distributes list Unit 210 performs the fluid resin 20 coating operation relative to the 2nd side (whole face) being perpendicular to the 1st side.Then, sheet Unit 300 transfers glass assemblies body 10 to the rightmost side of Fig. 5, and allocation unit 210 is relative to the 3rd side of glass assemblies body 10 (right flank) performs the coating operation of fluid resin 20.I.e., it is possible to constitute as follows: configure successively and individually to possess 3 groups of allocation units 210, video unit 510, transfer unit 300 and lamp 400, and perform fluid resin in different positions respectively 20 relative to the coating operation of 3 sides.

Claims

1. a TFT LCD manufactures device, it is characterised in that comprise:

Glass support unit, it is flatly to configure the glass assemblies that tft array glass engages with color filter glass The state of body, supports fixing described glass assemblies body；

Allocation unit, it is when described glass assemblies body is fixed on described glass support unit, to described glass assemblies The fluid resin of the side distribution photo-curable of body；

Elevation measurement unit, it measures the side of the described glass assemblies body by being distributed described fluid resin by described allocation unit The change of the height in face；

Distance determination unit, it is measured relative to the described glass assemblies by being distributed described fluid resin by described allocation unit Distance in the horizontal direction of the side of body；

Transfer unit, described transfer unit regulates the described allocation unit height relative to the side of described glass assemblies body in real time With the distance in horizontal direction, it possesses:

1st transferred unit, the 1st transferred unit with by by described allocation unit distribute described fluid resin described glass assemblies On direction, the extending direction of the side of body direction side by side that is the 1st, transfer described allocation unit；

2nd transferred unit, the 2nd transferred unit, according to the value measured at described elevation measurement unit, makes described distribution as follows Unit lifts: described allocation unit can one side lift on the 2nd direction being perpendicular to described 1st direction, and one side distributes described liquid Shape resin, wherein, described 2nd transferred unit is arranged on described 1st transferred unit, with described allocation unit together in described 1st direction Upper movement, and move up described allocation unit relative to described 1st transferred unit described 2nd side；

3rd transferred unit, the 3rd transferred unit, according to the value measured at described distance determination unit, makes described distribution as follows Unit forward-reverse: described allocation unit can one side move up the 3rd side being perpendicular to described 1st direction, and one side distributes institute State fluid resin；And

Lamp, it irradiates light to described fluid resin, in order to distribution can be made in the described aqueous tree of the side of described glass assemblies body Fat solidifies.

TFT LCD the most according to claim 1 manufactures device, it is characterised in that go back inclusion region sensing unit, its One side moves along described 1st direction, and one side sensing will distribute the institute of the side of the described glass assemblies body of described fluid resin State the starting point on the 1st direction and end point,

Described allocation unit and described 1st transferred unit carry out action as follows: only can be in described area sensing unit sense Described fluid resin is distributed between starting point and the end point of the side of the described glass assemblies body surveyed.

TFT LCD the most according to claim 2 manufactures device, it is characterised in that: described area sensing unit is arranged In described 1st transferred unit, together move up described 1st side with described allocation unit, and sense described glass assemblies body Side the 1st direction on starting point and end point.

TFT LCD the most according to claim 1 manufactures device, it is characterised in that: described lamp is arranged on described transfer Unit, together moves with described allocation unit, and the fluid resin distributed by described allocation unit is irradiated light.