CN104793409A - Washing-free LCD, washing-free LCD technology and film linkage chip mounter - Google Patents

Abstract

The invention relates to the technical field of LCDs and discloses a washing-free LCD, a washing-free LCD technology and a film linkage chip mounter. The washing-free LCD comprises a main body, the main body comprises a first glass substrate and a second glass substrate which are mutually arranged in an attaching mode, the outer side face of the first glass substrate is provided with an upper polaroid, the outer side face of the second polaroid is provided with a lower polaroid, a frame used for forming a liquid crystal injection cavity in an enclosing mode is arranged between the two glass substrates in a pasting mode. An opening used for allowing liquid crystals to be injected therein is formed in one side edge of the frame, the side end of the second glass substrate extends outward to form the pin output end, the pin output end is provided with electrodes in an attached mode, the opening is formed in the side edge of the main body, and the side edge is provided with a blocking structure used for blocking the liquid crystals from being sucked into the pin output end. According to the washing-free LCD, the washing-free LCD technology and the film linkage chip mounter, small-size LCDs in the prior art are improved, the blocking structure can block the liquid crystals from being sucked into the pin output end, the residual of the liquid crystals is avoided, and in addition, related washing technologies can be deleted, and the chip pasting technology can further be conducted in a batch mode, the processing process is easier, the production cost is saved, and the production efficiency is improved.

Description

The LCD of No clean, the LCD technique of No clean and gang mould chip mounter

Technical field

The present invention relates to the technical field of LCD, particularly relate to the LCD of No clean, the LCD technique of No clean and gang mould chip mounter.

Background technology

LCD and LCDs are the display techniques of current a kind of maturation, not only have the large scale display screen being applied to tabletop display, the undersized display screen be also widely used in the products such as counter display screen, household electrical appliances display screen.

Its structure of small size LCD is fitted by the first glass substrate and the second glass substrate and is formed, and closes and be marked with liquid crystal between two pieces of glass substrates, and second glass substrate one end extends to form out pin end, for the electrode that is sticked, is connected with the external world.

In the production of small size LCD, the last part technology flow process always continued to use (i.e. LCD factory always continue to use the cooperation technique required for single mode paster) step is: 1), compounded plate front X cuts; 2), compounded plate front Y cuts; 3), compounded plate reverse side X cuts; 4), compounded plate reverse side Y cuts; Flow process 5), compounded plate is cleaved into bar greatly; 6), bar is little is cleaved into grain; 7), visual inspection; 8), reequip Single panel LCD and hold required amount emissions groove frame; 9), liquid crystal filled with by the little LCD tankage frame (amount row) being cleaved into grain; 10) the LCD point glue opening of liquid crystal, is filled; 11) LCD that, cleaning, drying opening is complete; 12), complete LCD is cleaned in visual inspection; 13) LCD that, electric-examination visual inspection is complete; 14) LCD that, electric-examination completes carries out the manual pasting of simple grain or the machine paster of simple grain; 15) inspection packaging, is become.

In this technological process, need compounded plate to be first cleaved into Single panel LCD, then fill with liquid crystal, then paster.Technological process is wasted time and energy, specifically be mainly reflected in: in the process of filling with liquid crystal, first likely liquid crystal is poured into LCD go out pin end, namely the first glass substrate and the second glass substrate bond the outside that crevice place leans on out pin to hold, also liquid crystal can be sucked by siphon, and liquid crystal can cause galvanic corrosion to electrode after conduction, display light and shade is caused to be drawn, many aobvious or few adverse consequences such as aobvious.In order to avoid this consequence, with the addition of step 11) specially, for cleaning unnecessary liquid crystal, and can not clean up completely in practical operation; Secondly in step 7) and 14) in, need to carry out operation steps 7 to single LCD) in visual inspection and 14) in paster, expend time in very much, and can yield rate be affected.

Summary of the invention

The object of the present invention is to provide LCD technique and the gang mould chip mounter of the LCD of No clean, No clean, be intended to solve the existing LCD technological process of production longer, the problem of the processing trouble of Single panel LCD and the residual liquid crystal of production.

The present invention realizes like this, the LCD of No clean, comprise main body, described main body comprises the first glass substrate and the second glass substrate that are mutually sticked, described first glass substrate lateral surface has been sticked upper polaroid, described second glass substrate lateral surface has been sticked lower polaroid, the sticky frame be provided with for enclosing liquid crystal filling chamber between glass substrate described in two, described frame one side offers the opening for pouring into for liquid crystal, described second glass substrate side stretches out for going out pin end, the described pin of going out holds the electrode that has been sticked, described opening is located at the side of described main body, and this side is provided with for stopping the barrier structure going out pin end described in liquid crystal suction.

Compared with prior art, in the present invention, the structure of LCD to LCD itself of No clean is improved, with the addition of barrier structure, preventing liquid crystal from entering the first glass substrate and the second glass substrate in the bonding place going out pin extreme direction when pouring into, namely not needing to consider that liquid crystal enters out the problem of pin end in perfusion, can not liquid crystal be remained, so delete the related process such as cleaning, and the related process such as visual inspection and paster is adjusted to batch carry out, greatly save technological process, saved time and cost.

Present invention also offers the LCD technique of No clean, with the compounded plate of two large stretch of glass substrate laminatings for raw material, produce the LCD of aforesaid No clean, comprise the following steps:

1) X-direction cuts described compounded plate;

2) described compounded plate is cleaved into the strip connection sheet be made up of the LCD line spread of No clean described in multi-disc;

3) described strip connection sheet is filled with liquid crystal;

4) carry out a rubber seal to each opening to close;

5) to the visual inspection of described strip connection sheet;

6) described strip connection sheet is sticked upper polaroid and lower polaroid;

7) Y-direction cuts described strip connection sheet;

8) described strip connection sheet is cleaved into the LCD of described No clean.

The LCD technique of No clean of the present invention, due to the structural change of LCD own, original cleaning related procedure can be exempted, and can join in units of sheet by strip, perfusion liquid crystal, visual inspection and paster are carried out to the LCD of No clean, the little LCD being cleaved into single No clean again after completing, the technological process of this batch machining formula, save human and material resources and production time greatly, and owing to decreasing manual operation, also indirectly improve yields.

Present invention also offers gang mould chip mounter, for in the LCD technique of above-mentioned No clean, paster is carried out to described strip connection sheet, comprise the upper magazine of upper end open, conveying device and for carrying out the worktable be sticked, described upper polaroid, lower polaroid overlay in described upper magazine respectively, described conveying arrangement comprises for stretching into described upper magazine and can pick up described upper polaroid, the sucker of lower polaroid and the travelling belt for driving described sucker to slide onto described worktable simultaneously, and the LCD of described No clean is fixed on described worktable.

Gang mould paster function of the present invention is in units of strip connection sheet, be sticked upper polaroid and lower polaroid in batches, after being once sticked, strip is joined sheet turn-over, the upper polaroid of adjustment and lower polarizer sequences carry out secondary and are sticked again, can complete the paster process of the LCD of multi-disc No clean on strip connection sheet, save time and the manpower of the process that is sticked, make production run robotization more, improve yields.

Accompanying drawing explanation

The structural representation of the LCD of the No clean that Fig. 1 provides for the embodiment of the present invention;

Fig. 2 is the arrangement schematic diagram of the LCD of adjacent two No clean in the embodiment of the present invention;

The structural representation of the gang mould chip mounter that Fig. 3 provides for the embodiment of the present invention;

The structural representation of upper magazine and conveying arrangement in the gang mould chip mounter that Fig. 4 provides for the embodiment of the present invention.

Embodiment

In order to make object of the present invention, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

Be described in detail below in conjunction with the realization of concrete accompanying drawing to the embodiment of the present invention.

As depicted in figs. 1 and 2, the LCD embodiment of No clean, comprise main body 1, main body 1 comprises the first glass substrate 11 and the second glass substrate 12 be mutually sticked, first glass substrate 11 lateral surface has been sticked upper polaroid, second glass substrate 12 lateral surface has been sticked lower polaroid, be provided with between two glass substrates and support grain and frame 122, the effect supporting grain ensures there is gap between glass substrate, frame 122 can together enclose liquid crystal filling chamber with two pieces of glass substrates, frame 122 1 limits offer the opening 1221 for pouring into for liquid crystal, this opening 1221 is closed by some rubber seal after perfusion.Second glass substrate 12 side stretches out for going out pin end 121, goes out pin end 121 and to be sticked electrode 1211.The side being provided with opening 1221 in main body 1 is provided with barrier structure, can prevent liquid crystal from sucking.In FIG in order to avoid view is chaotic, the first glass substrate 11 is not indicated, as can be seen from Figure 2, on other regions that the first glass substrate 11 is covered in the second glass substrate 12 except going out pin end 121.

In the production of small size LCD, perfusion liquid crystal mainly relies on syphonic effect by liquid crystal suction opening 1221.When designing, frame 122 can not overlap completely with the edge of glass substrate, as shown in Figure 1, an intersegmental gap is left between the outside of frame 122 and the edge of glass substrate, this gap also can suck a small amount of liquid crystal when siphon, and second glass substrate 12 one end has pin to hold 121, go out pin on the body 1 and hold 121 side places, if suck liquid crystal in the gap, edge of the glass substrate in the outside of frame 122, after powered up, can electric current be formed, electrode 1211 short circuit on pin end 121 will be gone out, cause display light and shade to be drawn, many aobvious or few adverse consequencess such as aobvious.In actual use, the galvanic corrosion of electrode 1211 is also one of reason of the most easily breaking down of small size LCD, so in the prior art, need specialized designs technique, small size LCD after perfusion liquid crystal is cleaned, needs the costs such as extra artificial, machine, time, and can not clean completely, easily to remain, have impact on life-span and the yield rate of small size LCD.

And in the LCD embodiment of No clean of the present invention, its barrier structure avoids liquid crystal and sucks out the gap that pin holds 121 places, relevant cleaning step can be deleted so in process, both production cost had been saved, avoid liquid crystal to remain simultaneously, and can overall perfusion liquid crystal, paster, visual inspection in units of whole piece, finally be cleaved into small pieces again, greatly improve production efficiency, decrease manual operation, make flow process shorter, and process simplify, and improves yield rate and the life-span of product from every side.

As shown in Figure 2, in units of whole piece, liquid crystal is poured into if direct in the prior art, the easy siphon of gap location not only outside frame 122, and going out between pin end 121 at adjacent small size LCD, the A place namely in diagram, also can form siphon, its amount of liquid crystal sucked is larger, more be difficult to cleaning, this is also only have monolithic to pour into liquid crystal process in prior art, and does not have whole piece to pour into the reason of liquid crystal process.After with the addition of barrier structure, this part is also closed, and can not suck liquid crystal.

The design of barrier structure can be multiple, the mode in the present embodiment as shown in Figure 1, go out pin hold 121 edges be provided with intercept frame 1222.Intercept the structured material of frame 1222 identical with frame 122, it extends out to out pin along the limit that frame 122 offers opening 1221 and holds 121 edges, redesigns, add one and extend to out the limit that pin holds 121 by former frame 122.When siphon, intercept frame 1222 and liquid crystal can be avoided to suck in the outer glass substrate gap of frame 122.

In actual production, the LCD of No clean can respectively be provided with out pin end 121 in two ends, and one end also can be only had as shown in Figure 1 to set out pin end 121, regardless of which kind of set-up mode, only need add respective insulation frame 1222 going out pin end 121.

Barrier structure also can be designed as other modes, such as, barrier structure is designed to multiple catch, and catch adopts pastes or add the modes such as tool is fixing, is movably fixed to out outside pin side, takes off after perfusion liquid crystal, also can play the effect of stop.

Present invention also offers the LCD process example of No clean, the compounded plate of fitting with two large stretch of glass substrates, for raw material, is produced the LCD of aforesaid No clean, is comprised the following steps:

1) X-direction is to the cutting of compounded plate tow sides, forms the strip connection sheet that multiple width is equivalent to the LCD length of No clean

2) compounded plate is cleaved into greatly strip connection sheet, each strip connection sheet is formed by the LCD line spread of multiple No clean;

3) strip is joined sheet and carry out filling liquid crystal, make the LCD of each No clean pour into liquid crystal by siphon;

4) carry out a rubber seal to the opening 1221 of the LCD of each No clean to close;

5) to the visual inspection of strip connection sheet;

6) strip connection sheet is sticked upper polaroid and lower polaroid, first the one side of the overall paster of strip connection sheet is alternately sticked upper polaroid, lower polaroid; Then the another side of the overall paster of strip connection sheet is alternately sticked lower polaroid, upper polaroid;

7) Y-direction cutting strip connection sheet, cuts out the outer contour of the LCD of each No clean, and its positive and negative alternate on strip connection sheet is arranged;

8) strip is joined the little LCD being cleaved into No clean of sheet.

The above-mentioned technique of the present invention, because product structure changes, delete technique relevant to cleaning in prior art, decrease technological process, make process simpler and easy, and do not need to clean relevant equipment, raw material, place and workman, decrease production cost, and can not liquid crystal be remained, add life of product and yields.And pour into the steps such as liquid crystal, pad pasting and visual inspection can in units of bar batch carry out, improve the automaticity of production, especially when pouring into, the monomer solid locking member designing varying number specification is not needed to fix single LCD, operation that what great minimizing was artificial take, while enhancing productivity, reduce manual operation and bring error, also serve the effect improving product yields.

As shown in Figure 3 and Figure 4, in the present invention, additionally provide gang mould chip mounter 2 embodiment, in the LCD technique of aforesaid No clean, paster is carried out to strip connection sheet.Gang mould chip mounter 2 comprises magazine 21, conveying arrangement 22 and worktable 23.Upper magazine 21 upper end open 1221, upper polaroid, lower polaroid overlay in magazine 21 respectively; Conveying arrangement 22 comprises with sucker 222 and sucker 222 can be driven to slide onto the travelling belt 221 of worktable 23, sucker 222 can stretch in magazine 21, pick up polaroid and lower polaroid, and the LCD of No clean is fixed on worktable 23, and worktable 23 carries out paster simultaneously.

Owing to improving product, make it can carry out paster in units of bar aborning, namely gang mould chip mounter 2 in the present embodiment is the LCD design of the No clean in the present embodiment specially, it stacks simultaneously upper polaroid and lower polaroid in magazine 21, upper polaroid and lower polaroid being picked up by sucker 222 is transported on worktable 23, the one side of strip connection sheet is alternately sticked, complete the paster of the one side of the LCD of the multiple No clean on strip connection sheet, then strip is joined sheet upset, and the order that is sticked of the upper polaroid of adjustment and lower polaroid, alternately be sticked, complete the paster process of the LCD of multiple No clean on whole strip connection sheet.

Paster mode of the present invention is the small size LCD technological design after improvement specially, and energy batch paster, workman does not need repeatedly to take single LCD, improves the production automation, decreases manual operation, improves production efficiency and yield rate.

LCD polaroid chip mounter is existing machine common in the art, and its paster structure and relative motion mode are ripe prior art, and concrete structure is comparatively complicated, does not repeat herein.

The design of upper magazine 21 can have multiple, can ensure that two kinds of polaroids stack respectively, upper magazine 21 in the present embodiment as shown in Figure 4, comprise two side plates be arranged in parallel 211, dividing plate 212 is vertically inserted with in the middle part of biside plate 211, region separation between biside plate 211 is become two container cavities by dividing plate 212, and upper polaroid, lower polaroid are stacked in the container cavity of dividing plate 212 both sides respectively.Upper magazine 21 in the present embodiment is not " box body " structure in traditional sense, but be simply spliced with side plate 211 and dividing plate 212, such benefit is can by the design size regulating the spacing between side plate 211 can meet different polaroid, and applicability is extensive.

Upper magazine 21 also comprises two and is vertically arranged at slide bar 213 outside two container cavities respectively, slide bar 213 slides and is provided with back up pad 2131, the container cavity that back up pad 2131 extends to magazine 21 is inner, and upper polaroid, lower polaroid are stacked in two back up pads 2131 respectively.Aborning, because polaroid has certain thickness, repeatedly draw after being sticked, polaroid position in upper magazine 21 declines, the depths that sucker 222 is difficult to stretch into magazine 21 is drawn, so devise slide bar 213 and back up pad 2131, back up pad 2131 can along slide bar 213 slippage, when polaroid negligible amounts, ascending branch fagging 2131, the scope that polaroid can be made to enter sucker 222 can draw, when polaroid quantity is sufficient, decent fagging 2131, regulate polaroid position, comparatively can be easy to the absorption requirement of the polaroid meeting different stacking quantity.

As shown in Figure 4, worktable 23 upper end in gang mould chip mounter 2 embodiment of the present invention is the tool 231 of strip, tool 231 comprises for locating and fixing the cavity of the LCD of No clean, and cavity width is identical with the LCD length of No clean, so that strip connection sheet can be fixed after putting into.Compounded plate specification is on the market generally 16*14, if so in units of bar, the LCD quantity of the No clean on the strip connection sheet longitudinally or laterally cut out is 16 or 14, so cavity length is 14 times or 16 times of the LCD width of No clean, fixing needs in most cases can be met, do not need the monomer tool that specialized designs is different.

As shown in Figure 3, worktable 23 comprises and on water direction, can move the transfer table 232 of tool 231 by vertical and horizontal, transfer table 232 is structure ripe in prior art, the structure adopted in the present embodiment comprises straight skidding structure and horizontal sliding structure, straight skidding structure makes horizontal sliding structure can longitudinally Sliding Structures straight skidding by screw mandrel, horizontal sliding structure makes tool 231 can transversely Sliding Structures horizontal sliding by screw mandrel, this move mode can make tool 231 self move, and do not need relevant film structure to move in the horizontal direction, verify through actual production, the mode of this tool 231 movement, the levels of precision of paster and efficiency, all better than the mode of film structure movement relevant in prior art.

The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, all any amendments done within the spirit and principles in the present invention, equivalent replacement and improvement etc., all should be included within protection scope of the present invention.

Claims (10)

1. the LCD of No clean, comprise main body, described main body comprises the first glass substrate and the second glass substrate that are mutually sticked, described first glass substrate lateral surface has been sticked upper polaroid, described second glass substrate lateral surface has been sticked lower polaroid, the sticky frame be provided with for enclosing liquid crystal filling chamber between glass substrate described in two, described frame one side offers the opening for pouring into for liquid crystal, described second glass substrate side stretches out for going out pin end, the described pin of going out holds the electrode that has been sticked, it is characterized in that, described opening is located at the side of described main body, and this side is provided with for stopping the barrier structure going out pin end described in liquid crystal suction.

2. the LCD of No clean as claimed in claim 1, it is characterized in that, described barrier structure is the obstruct frame identical with described border structure material, and described obstruct frame extends out to out pin end margin along described frame.

3. the LCD of No clean as claimed in claim 1, it is characterized in that, described barrier structure is catch, described catch activity be fixed on described in go out outside pin side.

4. the LCD technique of No clean, with the compounded plate of two large stretch of glass substrate laminatings for raw material, the LCD of the No clean described in any one of production claim 1 to 3, is characterized in that, comprise the following steps:

1) X-direction cuts described compounded plate;

2) described compounded plate is cleaved into the strip connection sheet be made up of the LCD line spread of No clean described in multi-disc;

3) described strip connection sheet is filled with liquid crystal;

4) carry out a rubber seal to each opening to close;

5) to the visual inspection of described strip connection sheet;

6) described strip connection sheet is sticked upper polaroid and lower polaroid;

7) Y-direction cuts described strip connection sheet;

8) described strip connection sheet is cleaved into the LCD of described No clean.

5. the LCD technique of No clean as claimed in claim 4, is characterized in that, comprise the following steps described in step 6):

The one side of the overall paster of described strip connection sheet is alternately sticked upper polaroid, lower polaroid;

The another side of the overall paster of described strip connection sheet is alternately sticked lower polaroid, upper polaroid.

6. gang mould chip mounter, for wanting in the LCD technique of the No clean described in 4 or 5 in right, paster is carried out to described strip connection sheet, it is characterized in that, comprise the upper magazine of upper end open, conveying device and for carrying out the worktable be sticked, described upper polaroid, lower polaroid overlay in described upper magazine respectively, described conveying arrangement comprises for stretching into described upper magazine and can pick up described upper polaroid, the sucker of lower polaroid and the travelling belt for driving described sucker to slide onto described worktable simultaneously, and the LCD of described No clean is fixed on described worktable.

7. gang mould chip mounter as claimed in claim 6, it is characterized in that, described upper magazine comprises two side plates be arranged in parallel, vertically dividing plate is inserted with in the middle part of side plate described in two, region separation between side plate described in two is become two container cavities by described dividing plate, and described upper polaroid, lower polaroid are stacked in the described container cavity of described dividing plate both sides respectively.

8. gang mould chip mounter as claimed in claim 7, it is characterized in that, described upper magazine also comprises two and is vertically arranged at slide bar outside container cavity described in two respectively, described slide bar slides and is provided with back up pad, it is inner that described back up pad extends to described container cavity, and described upper polaroid, lower polaroid are stacked in back up pad described in two respectively.

9. gang mould chip mounter as claimed in claim 8, it is characterized in that, described worktable upper end is provided with or has the tool of strip, described tool comprises for locating and fixing the cavity of the LCD of described No clean, described cavity width is identical with the LCD length of described No clean, between described cavity length is 14 times to 16 times of the LCD width of described No clean.

10. gang mould chip mounter as claimed in claim 9, it is characterized in that, described worktable comprises and can move the transfer table of described tool by vertical and horizontal in the plane, and described tool is installed on described transfer table.