CN201638485U - Position pre-correcting device in FPD ACF applicator - Google Patents

Abstract

The utility model discloses a position pre-correcting device in an FPD (flat-panel display) ACF applicator, which is characterized in that the device includes a photographing mechanism (7), a pre-correcting table-board mechanism (8) and a carrying mechanism (9), wherein the photographing mechanism (7) comprises a photographing head (26) and an X-direction moving mechanism for driving the photographing head (26); the pre-correcting table-board mechanism (8) comprises an adsorption table-board (44), a mechanism rotating around Z-axis and a Y-direction moving mechanism; and the carrying mechanism (9) comprises an adsorption arm (60) and an X-direction moving mechanism for driving the adsorption arm (60). The utility model captures two identification point points of an LCD panel on the pre-correcting table-board through the photographing head, once Y-direction deviation appears, the Y-direction moving mechanism is used for correcting; once corner deviation appears, the mechanism rotating around Z-axis is utilized for correcting; once X-direction deviation appears, the X-direction moving mechanism in the carrying mechanism is utilized for correcting; therefore, a drive terminal zone of an LCD panel always keeps in the right position, and the ACF film application precision is improved.

Description

Flat-panel monitor ACF sticks position, the pre-school device in the equipment

Technical field

The utility model relates to flat-panel monitor processing and manufacturing field, and particularly ACF sticks position, the pre-school device that uses in the equipment.

Background technology

In the manufacture process of LCD (liquid crystal), PDP flat-panel monitors (FPD) such as (plasmas), on the drive end subarea that is assembled into display screen that driver IC or FPC driving circuits such as (Flexible Printed Circuit) is correct is an important process, and its purpose is exactly in order to drive correct display text of display screen and pattern-information.ACF sticks exactly and stick the ACF film on the drive end subarea of display screen, is used for carrying the operation of driving circuits such as driver IC or FPC.ACF film (Anisotropic Conductive Film) is an anisotropic conductive film, and he is a kind of film that is scattered with conducting particles on the tackness resin.LCD or PDP display screen substrate carry the principle of driver IC or FPC and process shown in Fig. 1～2 by the ACF film, earlier ACF film 1 is applied in drive terminal 5 districts of LCD liquid crystal panel 4 accurately, then IC chip 3 is fitted on the ACF film 1, make ACF film 1 between the drive terminal 5 and IC chip 3 of LCD liquid crystal panel 4, when ACF film 1 is carried out thermo-compressed, the dielectric film on conducting particles 2 surfaces in the ACF film 1 is destroyed, between the driving pin 6 of IC chip 3 and the drive terminal 5 of LCD liquid crystal panel 4 by conducting particles 2 corresponding formation electrical connections, heating simultaneously makes that the tackness resin is able to IC chip 3 is fixed on sticking in the district of LCD liquid crystal panel 4, thereby reaches the purpose of correct assembling.

The Jap.P. spy opens 2009-187037 (P2009-187037A) and discloses the patent of invention that a kind of name is called " ACF applying method and ACF stick device " on August 20th, 2009.In the ACF applying method of this patent disclosure, it is to rely on the profile of LCD liquid crystal panel to locate that the ACF film is applied to LCD drive end subarea.Because there is deviation in the profile of LCD liquid crystal panel, so the position deviation that causes the ACF film to stick easily.Especially load the development of technology along with IC, it is more and more higher that the ACF film is sticked accuracy requirement, and the positional precision that generally requires the ACF film to stick is X, Y direction ± 0.5mm, and the error in length of ACF film is ± 0.1mm.The ACF applying method of above-mentioned Jap.P. can not guarantee the accuracy requirement that the ACF film sticks, wherein, the defective products that site error may directly cause IC to load occurs, and the ACF film of unnecessary length sticks the ACF film waste that not only can cause high price, and can cause short circuit.Therefore, how to guarantee that the ACF film sticks the problem that precision is the utility model research.

Summary of the invention

The utility model provides a kind of flat-panel monitor ACF to stick position, pre-school device in the equipment, its objective is the precision that sticks that will improve the ACF film, guarantees on the drive end subarea that is assembled into display screen that later process can be correct with driving circuits such as IC.

For achieving the above object, the technical solution adopted in the utility model is: a kind of flat-panel monitor ACF sticks position, the pre-school device in the equipment, and this device comprises photograph mechanism, pre-school table top mechanism and carrying mechanism.

Photograph mechanism is made up of to travel mechanism the X of take a picture head and driving photograph head, drive to take a picture the X of head to travel mechanism mainly by a mount pad of taking a picture, first line slideway, first ball screw, first servomotor, first electromechanical transducer and first sensor contact are formed, wherein, first line slideway and first ball screw are arranged on the horizontal X direction, first servomotor is connected with screw drive in first ball screw, the head of taking a picture is installed on the mount pad of taking a picture, a mount pad of taking a picture is located on first line slideway, nut in first ball screw photograph mount pad relatively is fixedly connected, a first sensor contact photograph mount pad is relatively fixed, first electromechanical transducer is arranged on the mobile route of first sensor contact, is used for the position of sensing photograph relative first line slideway.

Pre-school table top mechanism is by the sorption table top, form to travel mechanism around Z axle rotating mechanism and Y, mainly form around Z axle rotating mechanism by the 4th servomotor, speed reduction unit, the 4th electromechanical transducer and four-sensor contact, wherein, the rotating shaft of the 4th servomotor is connected with input shaft of speed reducer, the output shaft of speed reduction unit is connected with the sorption table top, the sorption table top is in horizontality, the relative sorption table top of four-sensor contact is fixed, the 4th electromechanical transducer is arranged on the rotation path of four-sensor contact, is used for the orientation of sensing sorption table top around the Z axle; Y to travel mechanism mainly by the table top mount pad, second line slideway, second ball screw, second servomotor, second electromechanical transducer and the second sensor contact are formed, wherein, second line slideway and second ball screw are arranged on the horizontal Y direction, second servomotor is connected with screw drive in second ball screw, the sorption table top reaches and is installed on the table top mount pad around Z axle rotating mechanism, the table top mount pad is located on second line slideway, the relative table top mount pad of nut in second ball screw is fixedly connected, the relative table top mount pad of the second sensor contact is fixed, second electromechanical transducer is arranged on the mobile route of the second sensor contact, is used for the position of relative second line slideway of sensing table top mount pad.

Carrying mechanism is made up of to travel mechanism the X of sorption arm and driving sorption arm, the X that drives the sorption arm to travel mechanism mainly by the arm mount pad, the 3rd line slideway, the 3rd ball screw, the 3rd servomotor, the 3rd electromechanical transducer and the 3rd sensor contact are formed, wherein, the 3rd line slideway and the 3rd ball screw are arranged on the horizontal X direction, the 3rd servomotor is connected with screw drive in the 3rd ball screw, the sorption arm is installed on the arm mount pad, the arm mount pad is located on the 3rd line slideway, nut relative arm mount pad in the 3rd ball screw is fixedly connected, the 3rd sensor contact relative arm mount pad is fixed, the 3rd electromechanical transducer is arranged on the mobile route of the 3rd sensor contact, is used for the position of relative the 3rd line slideway of sensing sorption arm.

Related content in the technique scheme is explained as follows:

1, in the such scheme, described " head of taking a picture " is a kind of industrial digital camera.Described " ball screw " is made up of screw rod, nut and ball.X among the present invention to, Y to Z to being the direction that X among Fig. 4～Fig. 7, Y, Z three-dimensional coordinate are represented respectively.

2, in the such scheme, after the head of taking a picture is installed, can regulate Z to the position, described photograph head via a Z to the adjusting slide unit be installed on the mount pad of taking a picture, regulate slide unit be used to regulate take a picture head relatively the sorption table top Z to focusing from.

3, in the such scheme, described sorption arm via a Z to guide rod cylinder be installed in the arm mount pad, guide rod cylinder be used for carrying out the relative sorption table top of sorption arm Z to lifting or descending stroke.

The utility model principle of work and effect are: in order to improve the precision that sticks of ACF film, only rely on the profile of LCD liquid crystal panel to locate before sticking the ACF film and can not satisfy high-precision requirement.This programme is on the basis of LCD liquid crystal panel profile location, and the drive terminal zone position that the ACF film is sticked is carried out the device of position, further school.On the LCD liquid crystal panel, design two identification points in advance, after the LCD liquid crystal panel is carried to this device sorption table top, catch the position of two identification points by the head of taking a picture, if find to exist Y to deviation between the physical location of two identification points and the theoretical position, then utilize the Y in the table top mechanism of pre-school to proofread and correct to travel mechanism; There is the corner deviation if find two identification points, then utilizes proofreading and correct in the table top mechanism of pre-school around Z axle rotating mechanism; Exist X to deviation if find two identification points, then utilize the X in the carrying mechanism to proofread and correct to travel mechanism, the drive end subarea of LCD liquid crystal panel was on the correct position when ACF film was sticked, and improved the purpose that the ACF film sticks precision thereby reach.Add its precision of this device back and can reach X (long limit) direction: ± 0.3mm, Y (broadside) direction: ± 0.2mm.

Description of drawings

Accompanying drawing 1 carries the schematic diagram of driver IC by the ACF film for LCD display;

Accompanying drawing 2 is the A-A cut-open view of Fig. 1;

Accompanying drawing 3 is position, the pre-school of a utility model schematic diagram of device;

Accompanying drawing 4 is position, the pre-school of a utility model device embodiment stereographic map;

Accompanying drawing 5 is the utility model photograph mechanism three-dimensional exploded view;

Accompanying drawing 6 is the pre-school of a utility model table top mechanism three-dimensional exploded view;

Accompanying drawing 7 is moved mechanism's three-dimensional exploded view for the utility model.

In the above accompanying drawing: 1, ACF film; 2, conducting particles; 3, IC chip; 4, LCD liquid crystal panel; 5, drive terminal; 6, drive pin; 7, photograph mechanism; 8, pre-school table top mechanism; 9, carrying mechanism; 10, first servomotor; 11, first motor mount; 12, first shaft coupling; 13, the first screw mandrel A bearing; 14, first line slideway; 15, first ball screw; 16, first feed screw nut's support; 17, the first screw mandrel B bearing; 18, first electromechanical transducer; 19, first guide rail increases piece; 20, the photograph head is installed a base plate; 21, first sensor contact; 22, a photograph mounting bracket; 23, regulate the slide unit installing plate; 24, regulate slide unit; 25, a photograph holding frame; 26, photograph head; 27, second servomotor; 28, second motor mount; 29, second shaft coupling; 30, the second screw mandrel A bearing; 31, second ball screw; 32, second electromechanical transducer; 33, second line slideway; 34, second feed screw nut's support; 35, the second screw mandrel B bearing; 36, the second sensor contact; 37, second guide rail increases piece; 38, table top is installed base plate; 39, mounting column; 40, the 4th servomotor; 41, the 4th motor mounting plate; 42, speed reduction unit; 43, the 4th electromechanical transducer; 44, sorption table top; 45, four-sensor contact; 46, LCD workpiece; 47, the 3rd servomotor; 48, the 3rd motor mount; 49, the 3rd shaft coupling; 50, the 3rd screw mandrel A bearing; 51, the 3rd electromechanical transducer; 52, the 3rd line slideway; 53, the 3rd ball screw; 54, the 3rd feed screw nut's support; 55, the 3rd screw mandrel B bearing; 56, the 3rd sensor contact; 57, the 3rd guide rail increases piece; 58, carrying arm erecting frame; 59, guide rod cylinder; 60, sorption arm.

Embodiment

Below in conjunction with drawings and Examples the utility model is further described:

Embodiment: flat-panel monitor ACF sticks position, the pre-school device in the equipment

Fig. 3 is position, the pre-school of a utility model schematic diagram of device, and Fig. 4 is position, the pre-school of a utility model device embodiment stereographic map.As can be seen, this position, pre-school device comprises photograph mechanism 7, pre-school table top mechanism 8 and carrying mechanism 9 from Fig. 3 and Fig. 4.This position, pre-school device can also comprise the mechanism's arm (not providing diagram) that LCD workpiece 46 is carried to sorption table top 44.Because mechanism's arm is not substantial content to the utility model, at this it is omitted to give top priority to what is the most important.

Photograph mechanism 7, pre-school table top mechanism 8 and carrying mechanism 9 below emphasis are described:

1, photograph mechanism 7

As shown in Figure 5, photograph mechanism 7 is by taking a picture 26 and drive 26 the X of taking a picture and form to travel mechanism.26 the X of drive taking a picture mainly is made up of take a picture a mount pad, first line slideway 14, first ball screw 15, first servomotor 10, first electromechanical transducer 18 and first sensor contact 21 to travel mechanism.Wherein, first line slideway 14 and first ball screw 15 are arranged on the horizontal X direction.First line slideway 14 is arranged in parallel by two line slideways and constitutes, the fixed installation of first line slideway, 14 relative frames (not providing diagram).First ball screw 15 is made up of screw rod, nut and ball.The screw rod two ends are divided by the first screw mandrel A bearing 13 and 17 supportings of the first screw mandrel B bearing, and the first screw mandrel A bearing 13 is fixed with the first screw mandrel B bearing, 17 relative frames.First servomotor 10 is installed on first motor mount 11, and the output shaft of first servomotor 10 is connected with screw rod one end in first ball screw 15 by first shaft coupling 12.A described photograph mount pad increases piece 19 by the holding frame 25 of taking a picture, adjusting slide unit 24, adjusting slide unit installing plate 23, the mounting bracket 22 of taking a picture, photograph head installation base plate 20 and first guide rail and forms.Taking a picture 26 is clamped on the holding frame 25 of taking a picture, take a picture a holding frame 25 through a Z to adjusting slide unit 24 be connected to and regulate on the slide unit installing plate 23, wherein, regulate slide unit 24 be used to regulate take a picture 26 a relative sorption table top 44 Z to focusing from.Regulate slide unit installing plate 23 and be fixed on a mounting bracket 22 tops of taking a picture, the fixedly connected photograph head in a mounting bracket 22 bottoms of taking a picture is installed base plate 20, the head of taking a picture is installed base plate 20 bottoms and is fixed with two first guide rails and increases 19, two first guide rails of piece and increase on the track base that piece 19 is located in first line slideway 14 respectively.Nut in first ball screw 15 is fixedlyed connected with the head installation base plate 20 of taking a picture by first feed screw nut's support 16.First sensor contact 21 is fixed on first guide rail and increases piece 19 sidepieces, first electromechanical transducer 18 is made up of three photoelectric sensors, three photoelectric sensors are arranged on the mobile route of first sensor contact 21, are used for starting point, terminal point and the origin position of sensing photograph 26 relative first line slideway 14.

2, pre-school table top mechanism 8

As shown in Figure 6, pre-school table top mechanism 8 is by sorption table top 44, form to travel mechanism around Z axle rotating mechanism and Y.Form by the 4th servomotor 40, the 4th motor mounting plate 41, speed reduction unit 42, the 4th electromechanical transducer 43 and four-sensor contact 45 around Z axle rotating mechanism.Wherein, the 4th servomotor 40 is installed on the 4th motor mounting plate 41, the center pit that the 4th motor mounting plate 41 is passed in the rotating shaft of the 4th servomotor 40 is connected with the input shaft of speed reduction unit 42, the output shaft of speed reduction unit 42 is connected with sorption table top 44, sorption table top 44 is in horizontality, and table top is provided with the sorption hole that is used for vacuum adsorption LCD workpiece 46.Four-sensor contact 45 is fixed on sorption table top 44 sidepieces, the 4th electromechanical transducer 43 is made up of three photoelectric sensors, three photoelectric sensors are arranged on the rotation path of four-sensor contact 45, are used for sensing sorption table top 44 starting points around the Z axle, terminal point and initial point orientation.

Y mainly is made up of table top mount pad, second line slideway 33, second ball screw 31, second servomotor 27, second electromechanical transducer 32 and the second sensor contact 36 to travel mechanism.Wherein, second line slideway 33 and second ball screw 31 are arranged on the horizontal Y direction.Second line slideway 33 is arranged in parallel by two line slideways and constitutes, the fixed installation of second line slideway, 33 relative frames (not providing diagram).Second ball screw 31 is made up of screw rod, nut and ball.The screw rod two ends are divided by the second screw mandrel A bearing 30 and 35 supportings of the second screw mandrel B bearing, and the second screw mandrel A bearing 30 is fixed with the second screw mandrel B bearing, 35 relative frames.Second servomotor 27 is installed on second motor mount 28, and the output shaft of second servomotor 27 is connected with screw rod one end in second ball screw 31 by second shaft coupling 29.Described table top mount pad increases piece 37 by four mounting columns 39, table top installation base plate 38 and two second guide rails and forms.Sorption table top 44 reaches and is installed on the table top mount pad around Z axle rotating mechanism, wherein, fixedly connected with the 4th motor mounting plate 41 in the upper end of four mounting columns 39, fixedly connected with table top installation base plate 38 in the lower end of four mounting columns 39, table top is installed base plate 38 bottoms and is fixed two second guide rails and increase 37, two second guide rails of piece and increase on the track base that piece 37 is located in second line slideway 33 respectively.Nut in second ball screw 31 is fixedlyed connected by second feed screw nut's support 34 and table top installation base plate 38.The second sensor contact 36 is fixed on second guide rail and increases piece 37 sidepieces, second electromechanical transducer 32 is made up of three photoelectric sensors, three photoelectric sensors are arranged on the mobile route of the second sensor contact 36, are used for starting point, terminal point and the origin position of sensing sorption table top 44 relative second line slideways 33.

3, carrying mechanism 9

As shown in Figure 7, carrying mechanism 9 is made up of to travel mechanism the X of sorption arm 60 and driving sorption arm 60.The X that drives sorption arm 60 mainly is made up of arm mount pad, the 3rd line slideway 52, the 3rd ball screw 53, the 3rd servomotor 47, the 3rd electromechanical transducer 51 and the 3rd sensor contact 56 to travel mechanism.Wherein, the 3rd line slideway 52 and the 3rd ball screw 53 are arranged on the horizontal X direction.The 3rd line slideway 52 is arranged in parallel by two line slideways and constitutes, the 52 relative frame fixed installations of the 3rd line slideway.The 3rd ball screw 53 is made up of screw rod, nut and ball.The screw rod two ends are divided by the 3rd screw mandrel A bearing 50 and 55 supportings of the 3rd screw mandrel B bearing, and the 3rd screw mandrel A bearing 50 is fixed with the first screw mandrel B bearing, 55 relative frames.The 3rd servomotor 47 is installed on the 3rd motor mount 48, and the output shaft of the 3rd servomotor 47 connects by screw rod one end in the 3rd shaft coupling 49 the 3rd ball screw 53.Described arm mount pad increases piece 57 by guide rod cylinder 59, carrying arm erecting frame 58 and the 3rd guide rail and forms.The working end of sorption arm 60 is provided with the sorption hole that is used for vacuum adsorption LCD workpiece 46, the root of sorption arm 60 is fixed on the tailpiece of the piston rod of guide rod cylinder 59, the cylinder body of guide rod cylinder 59 is fixed on the side plate of carrying arm erecting frame 58, wherein, guide rod cylinder 59 be used for carrying out sorption arm 60 relative sorption table tops 44 Z to lifting or descending stroke.The bottom of carrying arm erecting frame 58 is fixed with two the 3rd guide rails and increases 57, two the 3rd guide rails of piece and increase on the track base that piece 57 is located in the 3rd line slideway 52 respectively.Nut in the 3rd ball screw 53 is fixedlyed connected with the bottom of carrying arm erecting frame 58 by the 3rd feed screw nut's support 54.The 3rd sensor contact 56 is fixed on the 3rd guide rail and increases piece 57 sidepieces, the 3rd electromechanical transducer 51 is made up of three photoelectric sensors, three photoelectric sensors are arranged on the mobile route of the 3rd sensor contact 56, are used for starting point, terminal point and the origin position of sensing sorption arm 60 relative the 3rd line slideways 52.

The foregoing description only is explanation technical conceive of the present utility model and characteristics, and its purpose is to allow the personage who is familiar with this technology can understand content of the present utility model and enforcement according to this, can not limit protection domain of the present utility model with this.All equivalences of being done according to the utility model spirit change or modify, and all should be encompassed within the protection domain of the present utility model.

Claims (3)

1. a flat-panel monitor ACF sticks position, the pre-school device in the equipment, it is characterized in that: this device comprises photograph mechanism (7), pre-school table top mechanism (8) and carrying mechanism (9);

Photograph mechanism (7) is made up of to travel mechanism the X of take a picture head (26) and driving photograph head (26), drive to take a picture the X of head (26) to travel mechanism mainly by a mount pad of taking a picture, first line slideway (14), first ball screw (15), first servomotor (10), first electromechanical transducer (18) and first sensor contact (21) are formed, wherein, first line slideway (14) and first ball screw (15) are arranged on the horizontal X direction, first servomotor (10) is connected with screw drive in first ball screw (15), the head (26) of taking a picture is installed on the mount pad of taking a picture, a mount pad of taking a picture is located on first line slideway (14), nut in first ball screw (a 15) photograph mount pad relatively is fixedly connected, first sensor contact (a 21) photograph mount pad is relatively fixed, first electromechanical transducer (18) is arranged on the mobile route of first sensor contact (21), is used for the position of sensing photograph head (26) relative first line slideways (14);

Pre-school table top mechanism (8) is by sorption table top (44), form to travel mechanism around Z axle rotating mechanism and Y, around Z axle rotating mechanism mainly by the 4th servomotor (40), speed reduction unit (42), the 4th electromechanical transducer (43) and four-sensor contact (45) are formed, wherein, the rotating shaft of the 4th servomotor (40) is connected with the input shaft of speed reduction unit (42), the output shaft of speed reduction unit (42) is connected with sorption table top (44), sorption table top (44) is in horizontality, four-sensor contact (45) sorption table top (44) relatively is fixing, the 4th electromechanical transducer (43) is arranged on the rotation path of four-sensor contact (45), is used for the orientation of sensing sorption table top (44) around the Z axle; Y to travel mechanism mainly by the table top mount pad, second line slideway (33), second ball screw (31), second servomotor (27), second electromechanical transducer (32) and the second sensor contact (36) are formed, wherein, second line slideway (33) and second ball screw (31) are arranged on the horizontal Y direction, second servomotor (27) is connected with screw drive in second ball screw (31), sorption table top (44) reaches and is installed on the table top mount pad around Z axle rotating mechanism, the table top mount pad is located on second line slideway (33), the relative table top mount pad of nut in second ball screw (31) is fixedly connected, the second sensor contact (36) table top mount pad is relatively fixed, second electromechanical transducer (32) is arranged on the mobile route of the second sensor contact (36), is used for the position of relative second line slideway of sensing table top mount pad (33);

Carrying mechanism (9) is made up of to travel mechanism the X of sorption arm (60) and driving sorption arm (60), the X that drives sorption arm (60) to travel mechanism mainly by the arm mount pad, the 3rd line slideway (52), the 3rd ball screw (53), the 3rd servomotor (47), the 3rd electromechanical transducer (51) and the 3rd sensor contact (56) are formed, wherein, the 3rd line slideway (52) and the 3rd ball screw (53) are arranged on the horizontal X direction, the 3rd servomotor (47) is connected with screw drive in the 3rd ball screw (53), sorption arm (60) is installed on the arm mount pad, the arm mount pad is located on the 3rd line slideway (52), nut relative arm mount pad in the 3rd ball screw (53) is fixedly connected, the 3rd sensor contact (56) relative arm mount pad is fixed, the 3rd electromechanical transducer (51) is arranged on the mobile route of the 3rd sensor contact (56), is used for the position of relative the 3rd line slideway of sensing sorption arm (60) (52).

2. position, pre-school according to claim 1 device, it is characterized in that: described take a picture head (26) via a Z to adjusting slide unit (24) be installed on the mount pad of taking a picture, regulate slide unit (24) be used for regulating take a picture head (26) relatively sorption table top (44) Z to the focusing focusing from.

3. position, pre-school according to claim 1 device, it is characterized in that: described sorption arm (60) via a Z to guide rod cylinder (59) be installed in the arm mount pad, guide rod cylinder (59) be used for carrying out sorption arm (60) relatively sorption table top (44) Z to lifting or descending stroke.

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