CN103889566A - Autoclave device that drives plate using air, and driving method using said device - Google Patents

Abstract

The present invention relates to an autoclave device that drives a plate using air, and to a driving method using said device and, more particularly, to an autoclave device that drives a plate using air and to a driving method using said device in which air is allowed to flow into an air groove of a packing which is inserted into the plate so as to press against a substrate when the plate on which the substrate to be pressed is accommodated is driven. Herein, the packing is inserted into an insertion groove which is formed at the upper side and outer circumference of the plate on which the substrate is accommodated, the air groove is formed due to the lower portion of the packing being open, and the plate is lowered when the air flows into the air groove so that the plate is driven using the air which is capable of pressing the substrate accommodated on the plate. Accordingly, no driving unit is required to raise and lower the plate when the plate on which the substrate to be pressed is accommodated is brought into close contact, and thus the structure and configuration thereof can be simplified, and the durability of the plate can be maintained over a long period of time so that the lifespan of the autoclave device can be lengthened.

Description

Utilize air to drive the still kettle device of mainboard and utilize the driving method of this still kettle device

Technical field

The present invention relates to the driving method that utilizes air to drive the still kettle device of mainboard and utilize this still kettle device, relate to following still kettle device and utilize the driving method of this still kettle device: in the time that drive installation has the mainboard of the substrate that will pressurize, by introducing air to the air groove that is clipped in the sealing gasket in above-mentioned mainboard, aforesaid substrate is pressurizeed.

Background technology

Recently, as the monitor of the monitor or television of computer, or the widely used substrate of liquid crystal of mobile phone, camera, electronic calculator etc., have LCD(Liquid Crystal Display) substrate.Although LCD substrate has slow, the relatively costly shortcoming of response speed, because it is produced by semiconductor technology, therefore than PDP(Plasma Display Panel) substrate, aspect resolution ratio, there is advantageous feature.

Such LCD substrate is made up of following part: inject the upper and lower glass that mutually partly carries out face configuration under the state of liquid crystal (Liquid Crystal) in inside; And respectively with upper and lower polarizer (Polarizer Film) that the lateral surface of upper and lower glass is combined.

The formation area of the formation Area Ratio bottom glass (TFT Panel) of the top glass (Color Filter Glass) of formation coloured image is little.At the underlapped IC chip that has the upper surface of top glass that regulation is installed of bottom glass, on IC chip, be connected with FPC (Flexible Printed Circuit).

Generally, after upper and lower glass is mutually bonding, attaches above-mentioned upper and lower polarizer and given optical characteristics.Polarizer has film-form conventionally, is attached in the respective face of upper and lower glass by so-called polarizer adhering device.

On the other hand, polarizer is attached in the respective face of glass during by polarizer adhering device, face must be realized completely bonding, in order to avoid stick up floating.Otherwise, if there is sticking up floating part (bubble) between glass (being designated hereinafter simply as substrate) and polarizer, cannot give the optical characteristics of expectation.

Therefore, conventionally, after attaching polarizer by polarizer adhering device on substrate, remove the operation that may residue in the bubble between substrate and polarizer.Such operation is that the device that is called still kettle (Autoclave) by what is called carries out, and conventionally takes to form for the floating part (bubble) of sticking up that is attached to polarizer on substrate the mode that high temperature, high pressure are removed bubble.

The prior art that is generally used in aforesaid way is as follows.

The patent No. relates to still kettle device No. 10-1139595, put space in order to be installed with have fully in inside in, by high-intensity upper frame, high-intensity lower frame, high-intensity left side frame and high-intensity right side frame are mutually fixedly set, in above-mentioned, be installed with to put and in space, formed the end component by top of multilayer and the still kettle unit of bottom is mutually a pair of still kettle group cover, in the set handling space, inner side of above-mentioned still kettle group cover, and in marginal portion relatively mutual and contact, seal member is set, the lower position that is installed with the above-mentioned still kettle unit of putting in space in above-mentioned is provided for rising, the sealing pressing part of above-mentioned still kettle unit falls, the inner side of above-mentioned end parts arranges respectively the first heating member and pressing means, on above-mentioned still kettle unit, the second heating member and conveyer belt are set, above-mentioned sealing pressing part, arrange in the inner side of main body and built-inly in space rise along guide by being arranged at the dividing plate of lower end, the Lift Part falling.

The patent No. relates to still kettle device No. 10-1119792, as common still kettle device, comprising: the handling part that carries out heat treated and pressurized treatments by on-off action, be positioned at a side of above-mentioned handling part and pending pdm substrate be loaded into the loading unit of above-mentioned handling part, and above-mentioned handling part pressurize and heat treated after pdm substrate be unloaded to outside unloading portion, still kettle is provided for carrying out the processing space of processing operation at above-mentioned handling part, in the part adjacent with above-mentioned processing space, firing equipment is set, firing equipment is arranged to communicate with each other with above-mentioned processing space, above-mentioned pressurized equipment and above-mentioned processing space communicate with each other, by by line with this by line be connected arrange gas pressurized part be combined into, separately be provided with Sealing Arrangement at above-mentioned handling part, to guarantee that in the time carrying out processing operation above-mentioned processing space and outside remain airtight each other.

The patent No. relates to still kettle device No. 10-1032248, between top fixed part and lower seal pressure-producing part, still kettle unit is set, and the built-in heating member of difference and pressing means on the fixed part of above-mentioned top, above-mentioned lower seal pressure-producing part is by being adjacent to pressurizing piston parts are set in outside cylinder interior, be arranged to slide in guide inner side in above-mentioned still kettle unit, and form open processing space, top in the upper inner of main body, in the inner side of aforementioned body, be built-in with heating member and pressing means, arrange respectively and maintain airtight member in the periphery in above-mentioned processing space.

Above-mentioned existing still kettle device, work out the multiple method that residues in the bubble on substrate of conventionally removing, but in order to be sealed and installed with the mainboard that will pressurize, in the bottom of above-mentioned mainboard configuration driven portion, utilize the cylinder and the cam head that on above-mentioned drive division, configure to make above-mentioned mainboard increase, the reason that when this becomes mainboard rising, above-mentioned mainboard reduces connecting airtight the endurance of part.Due to this reason, cause and change the triviality of mainboard and the generation of other extra charges.

Summary of the invention

Technical task

The present invention finds out in order to solve the problem of above-mentioned prior art, the still kettle device that object is to provide following and utilize the driving method of this still kettle device: sandwich sealing gasket in the clip slot forming in the upside periphery of mainboard that substrate is installed, and the bottom of above-mentioned sealing gasket is opened, form air groove, inject air and above-mentioned mainboard is declined to above-mentioned air groove, can drive mainboard to being installed on the air that the substrate of mainboard pressurizes thereby utilize.

Problem solution

In order to realize above-mentioned problem, according to the present invention, provide a kind of still kettle device, it comprises: main body, it is formed by connecting by the side supports that connects upper bracket and lower bracket, and is formed with spatial portion between above-mentioned upper bracket and above-mentioned lower bracket, and mainboard, it introduces and draws the spatial portion in aforementioned body along transfer track, and the substrate that will pressurize is installed, the pressue device that utilization is arranged at the inside of aforementioned body pressurizes to aforesaid substrate, and separate the piece fixed mount of certain intervals at the upper surface setting of above-mentioned lower bracket and above-mentioned mainboard, in the clip slot forming at the upside of above-mentioned mainboard, sandwich sealing gasket, and the bottom of above-mentioned sealing gasket is opened and is formed and inject the air groove of air, be formed for to the air Injection mouth of above-mentioned air groove introducing and air bleed at the downside of above-mentioned air groove, have in the arranged outside being connected with bracket above-mentioned transfer track mainboard: the connecting pin that connects above-mentioned mainboard and bracket, spring, it is between above-mentioned connecting pin and bracket, promote the position of declined mainboard by the air of being introduced by above-mentioned air Injection mouth, by air Injection mouth, introduce air to being clamped in the air groove of the sealing gasket in the upside clip slot of above-mentioned mainboard, promote above-mentioned sealing gasket, not depart from clip slot, utilize the air pressure that continues to introduce mainboard is declined and be supported in piece fixed mount, thereby drive above-mentioned mainboard, air in air bleed groove, sealing gasket is clamped in clip slot thus, the mainboard declining is raised by means of the cushioning effect of spring.

The effect of invention

According to the driving method that utilizes air to drive the still kettle device of mainboard and utilize this still kettle device of the present invention, in the time connecting airtight the mainboard that the substrate that will pressurize is installed, do not need the drive division that makes above-mentioned mainboard rise, decline, therefore its structure and formation have been simplified, thus, the patience that can long term maintenance be applied to above-mentioned mainboard extends the life-span of still kettle device.

Accompanying drawing explanation

Fig. 1 is the front elevation that application still kettle device of the present invention is shown.

Fig. 2 is the top view that application still kettle device of the present invention is shown.

Fig. 3 is the front elevation that illustrates that core of the present invention forms.

Fig. 4 is the amplification front view that A part in Fig. 3 is shown.

Fig. 5 is front elevation and the enlarged drawing that illustrates that in course of action of the present invention, sealing gasket rises.

Fig. 6 illustrates in course of action of the present invention, and the sealing gasket place of rising represents front elevation and the enlarged drawing that mainboard declines.

Fig. 7 is the movement state diagram that the action of core formation of the present invention is shown.

Fig. 8 is the positive sectional view that another embodiment of sealing gasket in formation of the present invention is shown.

The specific embodiment

Referring to figs. 1 through Fig. 7, the structure of utilizing air to drive the still kettle device of mainboard as of the present invention is described.

Still kettle device, comprising: main body, and it is formed by connecting by the side supports that connects upper bracket and lower bracket, and is formed with spatial portion between above-mentioned upper bracket and above-mentioned lower bracket, and mainboard, it introduces and draws the spatial portion in aforementioned body along transfer track, and the substrate that will pressurize is installed, the pressue device that utilization is arranged at the inside of aforementioned body pressurizes to aforesaid substrate, separate the piece fixed mount (400) of certain intervals at the upper surface setting of above-mentioned lower bracket and above-mentioned mainboard, in the clip slot (310) forming at the upside of above-mentioned mainboard (300), sandwich sealing gasket (500), and the bottom of above-mentioned sealing gasket (500) is opened and is formed and inject the air groove (510) of air, be formed for to the air Injection mouth (320) of above-mentioned air groove (500) introducing and air bleed at the downside of above-mentioned air groove (500), have in the arranged outside being connected with brackets above-mentioned transfer track (200) (330) mainboard (300): the connecting pin (340) that connects above-mentioned mainboard (300) and bracket (330), spring (341), it is positioned between above-mentioned connecting pin (340) and bracket (330), promotes the position of declined mainboard (300) by the air of being introduced by above-mentioned air Injection mouth (320).

Referring to figs. 1 through Fig. 8, the structure of having applied still kettle device of the present invention (10) is elaborated.

First, the side supports (130) that connects upper bracket (110) and lower bracket (120) is connected, and has formed the main body (100) that is formed with spatial portion (140) in inside.

Forming main body (100) afterwards, form and introduce and draw the transfer track (200) in above-mentioned spatial portion (140), form and be connected with above-mentioned transfer track (200) and the mainboard (300) of the substrate that will pressurize is installed.

Above-mentioned formation is normally used still kettle device (10), therefore describes briefly.

Be formed with clip slot (310) in the upper surface periphery of above-mentioned mainboard (300), in above-mentioned clip slot (310), sandwiched sealing gasket (500).

In addition, in the upper face of above-mentioned mainboard (300), be formed with the groove of certain depth week, for the substrate that will pressurize is installed, to this, because it is explanation conventionally, so omit.

About the sealing gasket (500) being clamped in above-mentioned clip slot (310), being clamped into above-mentioned clip slot (310) is the open shape in bottom when interior, because of open bottom, air groove (510) is formed at the bottom surface of above-mentioned clip slot (310) and open bottom.

By contrast, as shown in Figure 8, above-mentioned sealing gasket (500) also can form groove (511) in unopened part, this is for when make sealing gasket (500) increase by means of the pressure of air, by the groove (511) forming in unopened part, above-mentioned sealing gasket (500) is become multistage, improve airtight power.

Form above-mentioned air groove (510) has been introduced and the air Injection mouth (320) of air bleed at the definite part of the downside that is formed with groove (310) of above-mentioned mainboard (300).

This is in order to make to be clamped into the upwards side direction rising of sealing gasket (500) in above-mentioned clip slot (310), and can decline because the air of introducing by air Injection mouth (320) make above-mentioned mainboard (300).

Illustrate in greater detail this point, as follows.

When being formed at air Injection mouth (320) in above-mentioned mainboard (300) and injecting air, air is introduced in above-mentioned air groove (510), because of the pressure of air of introducing, sealing gasket (500) rises to the upper side direction of opening direction as clip slot (310), and the sealing gasket rising (500) touches the lower surface of upper bracket (110).

After above-mentioned sealing gasket (500) touches lower surface, while injecting air by above-mentioned air Injection mouth (320), because of air pressure, mainboard (300) declines, the mainboard (300) declining drops to the piece fixed mount (400) that separates certain intervals with above-mentioned mainboard (300) and be arranged at the upper surface of lower bracket (120), thereby the inside of above-mentioned mainboard (300) is connected airtight and realized pressurization.

Above-mentioned fixed mount (400) can form at the upside of above-mentioned lower bracket (120) more than one multiple, also can diversely form according to the supporting way of mainboard (300).

In the transfer track (200) being connected with above-mentioned mainboard (300), possesses bracket (330), thereby connect above-mentioned mainboard (300) and transfer track (200), formed connect the connecting pin (340) of above-mentioned mainboard (300) and bracket (330) and be positioned at above-mentioned connecting pin (340) and bracket (330) between and utilization is incorporated into the air of above-mentioned air Injection mouth (320) and promote the spring (341) of the position of declined mainboard (300).

Above-mentioned spring (341) is for rising declined mainboard (300), after completing the pressurization of substrate, by air Injection mouth (320) air bleed, because of derivative air, sealing gasket (500) is clamped in clip slot (310), but the mainboard declining (300) does not rise, so utilize above-mentioned spring (341) make mainboard (300) increase and revert to original position.

Referring to figs. 1 through Fig. 7, the driving method that has utilized still kettle device of the present invention (10) is described, as follows.

Comprise: main body, it is formed by connecting by the side supports that connects upper bracket and lower bracket, and is formed with spatial portion between above-mentioned upper bracket and above-mentioned lower bracket, and mainboard, it introduces and draws the spatial portion in aforementioned body along transfer track, and the substrate that will pressurize is installed, the pressue device that utilization is arranged at the inside of aforementioned body pressurizes to aforesaid substrate, and separate the piece fixed mount (400) of certain intervals at the upper surface setting of above-mentioned lower bracket and above-mentioned mainboard, in the clip slot (310) forming at the upside of above-mentioned mainboard (300), sandwich sealing gasket (500), and the bottom of above-mentioned sealing gasket (500) is opened and is formed and inject the air groove (510) of air, be formed for to the air Injection mouth (320) of above-mentioned air groove (510) introducing and air bleed at the downside of above-mentioned air groove (510), have in the arranged outside being connected with brackets above-mentioned transfer track (200) (330) mainboard (300): the connecting pin (340) that connects above-mentioned mainboard (300) and bracket (330), spring (341), it is positioned between above-mentioned connecting pin (340) and bracket (330), promote the position of declined mainboard (300) by the air of being introduced by above-mentioned air Injection mouth (320), by air Injection mouth (320), in the air groove (510) of the interior sealing gasket (500) of the upside clip slot (310) that is clamped into above-mentioned mainboard (300), introduce air, promote above-mentioned sealing gasket (500), not depart from clip slot (310), utilize the air pressure that continues to introduce mainboard (300) is declined and be supported in piece fixed mount (400), thereby drive above-mentioned mainboard (300), air in air bleed groove (510), sealing gasket (500) is clamped in clip slot (310) thus, the mainboard (300) declining is raised by means of the cushioning effect of spring (341), revert to original position.

Referring to figs. 1 through Fig. 7, application the action of still kettle device of the present invention (10), as follows.

First,, for the substrate that will pressurize is installed, by the mainboard (300) of inner space portion (140) that is introduced in main body (100), along transfer track (200) and laterally direction is drawn.

Derivative mainboard (300) upper surface, is formed with for the groove that aforesaid substrate is installed, and after the substrate that will pressurize being installed in above-mentioned groove, is incorporated into the inner space portion (140) of main body (100).

The mainboard (300) being introduced into, for substrate is pressurizeed, to be provided with the groove of aforesaid substrate carry out airtight, now, by be formed at above-mentioned mainboard (300) air Injection mouth (320) inject air.

Because of the air injecting by above-mentioned air Injection mouth (320), the interior sealing gasket (500) of clip slot (310) that is clamped into above-mentioned mainboard (300) rises, this be because, the bottom of sealing gasket (500) is opened, air is introduced in the air groove (510) forming with the bottom faces of above-mentioned clip slot (310), the pressure of the air that cause is introduced into, above-mentioned sealing gasket (500) can rise to the upper side direction of opening of above-mentioned clip slot (310).

The sealing gasket (500) rising because of the pressure of above-mentioned air contacts with the lower surface of upper bracket (110), by means of the air that continues to introduce to air groove (510), above-mentioned mainboard (300) declines, and the piece fixed mount (400) that is formed on the top of lower bracket (120) supports.

Because of the introducing of above-mentioned air, sealing gasket (500) rises and contacts with the lower surface of upper bracket (110), because of the air that continues to introduce, mainboard (300) can decline and install and be supported in piece fixed mount (400), thereby utilize with the method that pressue device is identical conventionally, the substrate of the upper inner that is installed on above-mentioned mainboard (300) is pressurizeed.

After substrate being completed to pressurization in said process,

By air Injection mouth (320) air bleed, because of derivative air, sealing gasket (500) is clamped into the original position place of clip slot (310).

Now, mainboard (300) in decline position and need promote, about the rising of mainboard (300), because of be connected in the connecting pin (340) of the bracket (330) being connected with above-mentioned transfer track (200) and be formed at described connecting pin (340) and bracket (330) between the cushioning effect of spring (341), make above-mentioned mainboard (300) increase, revert to original position place.

When above-mentioned mainboard (300) revert to original position place, mainboard (300) is drawn out to the outside of main body (100) along transfer track, and the substrate that completes pressurization is carried out to next step operation.

As mentioned above, according to the present invention, the driving method that utilizes air to drive the still kettle device of mainboard and utilize this still kettle device is provided, it is carrying out the mainboard that substrate is installed (300) when airtight, do not need the drive division that makes above-mentioned mainboard (300) rise and decline, therefore simplified its structure and formation, thus, the patience that can long term maintenance be applied to above-mentioned mainboard (300) extends the life-span of still kettle device (10).

Label declaration

10: still kettle device

100: main body 110: upper bracket 120: lower bracket

130: side supports 140: spatial portion

200: transfer track

300: mainboard 310: clip slot 320: air Injection mouth

330: bracket 340: connecting pin 341: spring

400: piece fixed mount

500: sealing gasket 510: air groove

600: substrate

Claims (3)

1. a still kettle device (10) that utilizes air to drive mainboard, it comprises: main body (100), it is formed by connecting by the side supports (130) that connects upper bracket (110) and lower bracket (120), and is formed with spatial portion (140) between above-mentioned upper bracket (110) and above-mentioned lower bracket (120); And mainboard (300), it introduces and draws the spatial portion (140) in aforementioned body (100) along transfer track (200), and the substrate that will pressurize is installed, the pressue device that the utilization of this still kettle device (10) is arranged at the inside of aforementioned body (100) pressurizes to aforesaid substrate

This still kettle device (10) is characterised in that,

Separate the piece fixed mount (400) of certain intervals at the upper surface setting of above-mentioned lower bracket (120) and above-mentioned mainboard (300),

In the clip slot (310) forming at the upside of above-mentioned mainboard (300), sandwich sealing gasket (500), and the bottom of above-mentioned sealing gasket (500) is opened and is formed and inject the air groove (510) of air, be formed for to the air Injection mouth (320) of above-mentioned air groove (510) introducing and air bleed at the downside of above-mentioned air groove (510)

Have in the arranged outside being connected with brackets above-mentioned transfer track (200) (330) mainboard (300): the connecting pin (340) that connects above-mentioned mainboard (300) and bracket (330); Spring (341), it is positioned between above-mentioned connecting pin (340) and bracket (330), promotes the position of declined mainboard (300) by the air of being introduced by above-mentioned air Injection mouth (320).

2. the still kettle device that utilizes air to drive mainboard according to claim 1, is characterized in that, is formed with groove (511) in the unopened part of above-mentioned sealing gasket (500).

3. utilize air to drive a driving method for the still kettle device of mainboard, it is characterized in that,

This still kettle device comprises: main body, and it is formed by connecting by the side supports that connects upper bracket and lower bracket, and is formed with spatial portion between above-mentioned upper bracket and above-mentioned lower bracket, and mainboard, it introduces and draws the spatial portion in aforementioned body along transfer track, and the substrate that will pressurize is installed, the pressue device that utilization is arranged at the inside of aforementioned body pressurizes to aforesaid substrate, and separate the piece fixed mount (400) of certain intervals at the upper surface setting of above-mentioned lower bracket and above-mentioned mainboard, in the clip slot (310) forming at the upside of above-mentioned mainboard (300), sandwich sealing gasket (500), and the bottom of above-mentioned sealing gasket (500) is opened and is formed and inject the air groove (510) of air, be formed for to the air Injection mouth (320) of above-mentioned air groove (510) introducing and air bleed at the downside of above-mentioned air groove (510), have in the arranged outside being connected with brackets above-mentioned transfer track (200) (330) mainboard (300): the connecting pin (340) that connects above-mentioned mainboard (300) and bracket (330), spring (341), it is positioned between above-mentioned connecting pin (340) and bracket (330), promotes the position of declined mainboard (300) by the air of being introduced by above-mentioned air Injection mouth (320),

By air Injection mouth (320), in the air groove (510) of the interior sealing gasket (500) of the upside clip slot (310) that is clamped into above-mentioned mainboard (300), introduce air, promote above-mentioned sealing gasket (500), not depart from clip slot (310), utilize the air pressure that continues to introduce mainboard (300) is declined and be supported in piece fixed mount (400), thereby drive above-mentioned mainboard (300), air in air bleed groove (510), sealing gasket (500) is clamped in clip slot (310) thus, the mainboard (300) declining is raised by means of the cushioning effect of spring (341).

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