CN102642378A

CN102642378A - Adsorption device, laminated fixture and laminating method

Info

Publication number: CN102642378A
Application number: CN2012101111731A
Authority: CN
Inventors: 王树平
Original assignee: AU Optronics Suzhou Corp Ltd; AU Optronics Corp
Current assignee: AU Optronics Suzhou Corp Ltd; AU Optronics Corp
Priority date: 2012-04-09
Filing date: 2012-04-09
Publication date: 2012-08-22
Anticipated expiration: 2032-04-09
Also published as: CN102642378B; TW201341888A; TWI467268B

Abstract

The invention provides an adsorption device, a laminated fixture and a laminating method. The adsorption device comprises an adsorption plate, a buoyancy lifting block and an air suction module. The adsorption plate comprises at least one adsorption hole, an air release hole and a through hole penetrating through the adsorption plate. The adsorption hole is arranged on a first side of the adsorption plate. The air release hole is arranged on a second side of the adsorption plate, which is relative to the first side. The adsorption hole is communicated with the air release hole. The buoyancy lifting block comprises a covering part and a sliding part. The covering part is arranged on the second side so as to cover the air release hole. The sliding part can be slidably arranged in the through hole, and the length of the sliding part is larger than the thickness of the adsorption plate. The sliding part is connected with the covering part. When the covering part covers the air release hole, the sliding part is protruded out of the first side. The air suction module is communicated with the adsorption hole and the air release hole, so that negative pressure is produced. According to the adsorption device, the adsorption plate abuts against a plane, so that the sliding part of the buoyancy lifting block is pushed into the adsorption plate by the plane, the covering part is driven to be separated from the air release hole to remove the negative pressure, and a manual switch or a solenoid valve switch does not need to be additionally arranged to control the generation of the negative pressure.

Description

Adsorbent equipment, joint tool and applying method

Technical field

The present invention relates to a kind of adsorbent equipment, joint tool and applying method.

Background technology

At present, in manufacturing or assembling process, usually must two substrates be fit together such as electronic products such as LCD or contact panels.For instance, the structure of LCD comprises two glass substrates usually, be coated on the frame glue between two glass substrates and be poured in frame glue and space that two glass substrates are formed in liquid crystal.Liquid crystal filling is gone into the method in the space that frame glue and two glass substrates form, the most often be used at present for the formula injection method that drips (One Drop Filling, ODF).Its way is for coating frame glue on the glass substrate of horizontal positioned earlier; With liquid crystal droplet separator (dispenser) liquid crystal is evenly distributed in the space that frame glue and glass substrate formed; In vacuum environment, another glass substrate is fitted with it again, and the frame adhesive curing is made two glass substrate strong bonded.Existing Base Plate Lamination Device is under vacuum condition, utilizes electrostatic chuck absorption first substrate to be fitted, and moves towards second substrate that is positioned on the workbench then, and makes first substrate and second baseplate-laminating.

In addition; In the assembling process of LCD, (Flexible Printed Circuit FPC) usually can be by bending to conform to the back side of display module for the flexible circuit board of display module; Use with LCD in other modules (for example, backlight module) electrically connect.At present, in order to flexible circuit board is conformed to the laminating apparatus at the back side of display module, its vacuum suction module normally utilizes hand switch or electromagnetic valve switch to control the generation vacuum, and then the absorption that realizes flexible circuit board whether.

Yet, after utilizing electrostatic chuck to adsorb first substrate to fit, only first substrate and electrostatic chuck are broken away from once by the voltage of eliminating on the electrostatic chuck, this is to be difficult to usually disappear at short notice because of the static on the electrostatic chuck.And adopt electromagnetic valve switch to control the practice of vacuum suction module, but because the complex structure of electromagnetic valve switch, the dynamo-electric design that combines makes whole cost increase, and is unfavorable for small-scale workshops.

Summary of the invention

For solving prior art problems, a technology kind attitude of the present invention is a kind of adsorbent equipment, and it mainly provides specially designed adsorption plate.The both sides of adsorption plate are provided with adsorption hole and the bleeder port that is interconnected respectively.The buoyance lift piece of adsorbent equipment is mounted slidably in the through hole that runs through adsorption plate, and its portion of covering covers bleeder port.Adsorbent equipment bleed module be communicated with adsorption hole and bleeder port and be communicated with, and the negative pressure that it produced can be adsorbed object via adsorption hole.Adsorbent equipment of the present invention can cause the sliding part of buoyance lift piece pushed in the adsorption plate by the plane by making adsorption plate against a plane, and drives the portion's of covering disengaging bleeder port and remove negative pressure.By this, object can break away from adsorption hole and discharge and fit on the plane.In other words, adsorbent equipment of the present invention promptly is being released in the plane and is fitting object on the plane, need not hand switch extraly be set or electromagnetic valve switch is controlled the generation negative pressure.

According to an embodiment of the present invention, a kind of adsorbent equipment is provided.This adsorbent equipment comprises adsorption plate, buoyance lift piece and the module of bleeding.The through hole that adsorption plate comprises at least one adsorption hole, bleeder port and runs through adsorption plate.Adsorption hole is positioned at first side of adsorption plate.Bleeder port is positioned at second side of adsorption plate with respect to first side.Adsorption hole is connected with bleeder port.The buoyance lift piece comprises the portion of covering and sliding part.The portion of covering is positioned on second side, in order to cover bleeder port.Sliding part is mounted slidably in through hole.The length of sliding part is greater than the thickness of adsorption plate.Sliding part connects the portion that covers near one of second side end.The portion that covers slides with the relative through hole of sliding part and covers or leave bleeder port.When the portion of covering covered bleeder port, sliding part was near outstanding first side of the other end of first side.The module of bleeding is communicated with adsorption hole and bleeder port, in order to produce negative pressure.

In one embodiment of the invention, above-mentioned adsorbent equipment further comprises reseting module.Reseting module is arranged on the adsorption plate, supports towards second side pressure in order to will cover portion.

In one embodiment of the invention, above-mentioned reseting module is a shell fragment.Shell fragment has stiff end and abutment end.Stiff end is fixed to second side.Abutment end is supported towards second side pressure in order to will cover portion.

In one embodiment of the invention, above-mentioned reseting module comprises supporter and elastic component.Supporter is arranged at second side.Elastic component is compressed in supporter and covers between the portion, supports towards second side pressure in order to will cover portion.

In one embodiment of the invention, above-mentioned supporter comprises body and cantilever.Body is arranged at second side.Cantilever connects body, and extends to above the portion that covers.Elastic component is compressed in cantilever and covers between the portion.

In one embodiment of the invention, above-mentioned supporter is a lid.Lid is arranged at second side, in order to hold the portion of covering and elastic component and to be covered in the bleeder port top.Elastic component is compressed in lid and covers between the portion.

In one embodiment of the invention, above-mentioned lid has perforation.

In one embodiment of the invention, when the portion of covering against second side and when covering bleeder port, 2 millimeters of outstanding first sides of sliding part.

Another technology appearance attitude of the present invention is a kind of joint tool.

According to an embodiment of the present invention, a kind of joint tool is provided, has cooperated the module of bleeding to use.Joint tool comprises microscope carrier, adsorption plate and buoyance lift piece.Adsorption plate articulates microscope carrier, and the through hole that comprises at least one adsorption hole, bleeder port and run through this adsorption plate.Adsorption hole is positioned at first side of adsorption plate.Bleeder port is positioned at second side of adsorption plate with respect to first side.Adsorption hole is connected with bleeder port.The module of bleeding is communicated with adsorption hole and bleeder port, in order to produce negative pressure.Adsorption plate microscope carrier relatively rotates and first side is compressed towards microscope carrier.The buoyance lift piece comprises the portion of covering and sliding part.The portion of covering is positioned on second side, in order to cover bleeder port.Sliding part is mounted slidably in through hole.The length of sliding part is greater than the thickness of adsorption plate.Sliding part connects the portion that covers near one of second side end.The portion that covers slides with the relative through hole of sliding part and covers or leave bleeder port.When the portion of covering covered bleeder port, sliding part was near outstanding first side of the other end of first side.

Another technology appearance attitude of the present invention is a kind of applying method.

According to an embodiment of the present invention, a kind of applying method is provided, has bled module so that first object is pressure bonded to second object in order to cooperation.Applying method comprises the following step: (1) provides joint tool, and wherein joint tool comprises microscope carrier, adsorption plate and buoyance lift piece, and adsorption plate articulates microscope carrier; And the through hole that comprises at least one adsorption hole, bleeder port and run through adsorption plate, adsorption hole is positioned at first side of adsorption plate, and bleeder port is positioned at second side of adsorption plate with respect to first side; Adsorption hole is connected with bleeder port, and the module of bleeding is communicated with adsorption hole and bleeder port, in order to produce negative pressure; The buoyance lift piece comprises the portion of covering and sliding part, and the portion of covering is positioned on second side, in order to cover bleeder port; This sliding part is mounted slidably in through hole, and the length of sliding part is greater than the thickness of adsorption plate, and sliding part connects the portion that covers; When the portion of covering covered bleeder port, sliding part was given prominence to first side; (2) place first object on microscope carrier; (3) place second object on first side and cover adsorption hole, cause negative pressure second object to be adsorbed in first side via adsorption hole; (4) on coating gum to the first object or second object; And (5) relative microscope carrier rotates adsorption plate and supports microscope carrier with first side pressure; And then second object is pressure bonded to first object; The sliding part drive portion of covering that pushed in the through hole by microscope carrier leaves bleeder port and removes negative pressure, and second object breaks away from adsorption hole and is bonding on first object by gum by this.

Description of drawings

The reader with reference to advantages after the specific embodiment of the present invention, will become apparent various aspects of the present invention.Wherein,

Figure 1A is the profile that illustrates according to the adsorbent equipment of one embodiment of the invention, and wherein adsorption plate does not compress the plane as yet.

Figure 1B is another profile that illustrates the adsorbent equipment among Figure 1A, and wherein adsorption plate compresses the plane.

Fig. 1 C is another profile that illustrates the adsorbent equipment among Figure 1A, and wherein adsorption plate discharges object on the plane and leave the plane.

Fig. 2 is the profile that illustrates according to the adsorbent equipment of another embodiment of the present invention.

Fig. 3 is the profile that illustrates according to the adsorbent equipment of another embodiment of the present invention.

Fig. 4 A is the side view that illustrates according to the joint tool of one embodiment of the invention, and wherein adsorption plate does not compress microscope carrier as yet.

Fig. 4 B is the opposite side view that illustrates the joint tool among Fig. 4 A, and wherein adsorption plate compresses microscope carrier, causes second object to be pressure bonded to first object.

Fig. 4 C is the opposite side view that illustrates the joint tool among Fig. 4 A, and wherein adsorption plate discharges second object on first object and leave microscope carrier.

Fig. 5 is the flow chart that illustrates according to the applying method of one embodiment of the invention.

[primary clustering symbol description]

1: adsorbent equipment

10: adsorption plate

10a: first side

10b: second side

100: adsorption hole

102: bleeder port

104: through hole

12: the buoyance lift piece

120: cover portion

122: sliding part

14: the module of bleeding

16: reseting module

160: lid

160a: perforation

162: elastic component

2: object

36: shell fragment

360: stiff end

362: abutment end

56: reseting module

560: supporter

560a: body

560b: cantilever

562: elastic component

7: joint tool

70: microscope carrier

80: the first objects

82: the second objects

P: plane

S100～S108: step

The specific embodiment

Below will be with graphic exposure a plurality of embodiments of the present invention, for the purpose of offering some clarification on, the details on many practices will explanation in the lump in following narration.Yet, should be appreciated that the details on these practices is not used with restriction the present invention.That is to say that in part embodiment of the present invention, the details on these practices is inessential.In addition, for the purpose of simplicity of illustration, habitual structure and the assembly of some conventions will illustrate with the mode of simple signal in graphic.

Please with reference to Figure 1A, Figure 1B and Fig. 1 C.Figure 1A is the profile that illustrates according to the adsorbent equipment 1 of one embodiment of the invention, and wherein adsorption plate 10 does not compress plane P as yet.Figure 1B is another profile that illustrates the adsorbent equipment 1 among Figure 1A, and wherein adsorption plate 10 compresses plane P.Fig. 1 C is another profile that illustrates the adsorbent equipment 1 among Figure 1A, and wherein adsorption plate 10 discharges objects 2 on plane P and leave plane P.

Shown in Figure 1A, Figure 1B and Fig. 1 C, adsorbent equipment 1 of the present invention can be used for adsorbing object 2, and in against plane P the time, removes the state of absorption object 2 simultaneously, uses that object 2 is released on the plane P.In other words, as long as in any product when the demand that two substrates is fit together is arranged, all can use adsorbent equipment 1 of the present invention and carry out absorption, the pressing of substrate and the function that discharges simultaneously.Below will carry out the detailed description of various embodiments of the present invention.

Shown in Figure 1A, in present embodiment, adsorbent equipment 1 comprises adsorption plate 10, buoyance lift piece 12, the module of bleeding 14 and reseting module 16.The through hole 104 that the adsorption plate 10 of adsorbent equipment 1 comprises a plurality of adsorption hole 100, bleeder port 102 and runs through adsorption plate 10.The adsorption hole 100 of adsorption plate 10 is positioned at the first side 10a (that is, the downside of adsorption plate 10) of adsorption plate 10.The bleeder port 102 of adsorption plate 10 is positioned at adsorption plate 10 with respect to the second side 10b of the first side 10a (that is, the upside of adsorption plate 10).The adsorption hole 100 of adsorption plate 10 is connected with bleeder port 102.The buoyance lift piece 12 of adsorbent equipment 1 comprises portion of covering 120 and sliding part 122.The portion that covers 120 of buoyance lift piece 12 is positioned on the second side 10b of adsorption plate 10, and can be in order to cover bleeder port 102.The sliding part 122 of buoyance lift piece 12 is mounted slidably in the through hole 104 of adsorption plate 10.The length of the sliding part 122 of buoyance lift piece 12 is greater than the thickness of adsorption plate 10.The sliding part 122 of buoyance lift piece 12 connects the portion 120 that covers near one of second side 10b end.The portion that covers 120 of buoyance lift piece 12 can and cover or leave bleeder port 102 along with sliding part 122 relative through holes 104 slips.When the portion that covers 120 of buoyance lift piece 12 covered bleeder port 102, the sliding part 122 of buoyance lift piece 12 can be given prominence to the first side 10a near the other end of the first side 10a of adsorption plate 10.

The module 14 of bleeding of adsorbent equipment 1 is communicated with the adsorption hole 100 and bleeder port 102 of adsorption plate 10, and can produce negative pressure.By this, the negative pressure that the module of bleeding 14 is produced can be adsorbed in the first side 10a with object 2 via the adsorption hole 100 of adsorption plate 10, and simultaneously via the bleeder port 102 of adsorption plate 10 portion that covers 120 of buoyance lift piece 12 is adsorbed in the second side 10b.In present embodiment, the module 14 of bleeding of adsorbent equipment 1 is arranged on the second side 10b of adsorption plate 10, but not as limit.In another embodiment, the module 14 of bleeding of adsorbent equipment 1 also can be the design of separate type with adsorption plate 10.

In addition, the reseting module 16 of adsorbent equipment 1 comprises supporter and elastic component 162.In present embodiment, the supporter of reseting module 16 is a lid 160, and is arranged at the second side 10b of adsorption plate 10, can be used to hold the portion that covers 120 and elastic component 162 of buoyance lift piece 12, and is covered in bleeder port 102 tops of adsorption plate 10.The elastic component 162 of reseting module 16 is compressed between the portion that covers 120 of lid 160 and buoyance lift piece 12.In addition, the lid 160 of reseting module 16 has perforation 160a.The perforation 160a of lid 160 can when the bleeder port 102 of adsorption plate 10 leaves in the portion that covers 120 of buoyance lift piece 12, be connected with bleeder port 102 (that is; Outside air can get into lid 160 by the perforation 160a of lid 160, and is got in the adsorption plate 10 by the bleeder port 102 of adsorption plate 10).By this, the elastic component 162 of reseting module 16 can compress the portion that covers 120 of buoyance lift piece 12 and positively cover bleeder port 102 towards the second side 10b of adsorption plate 10, uses the negative pressure that the module 14 of avoiding bleeding produced and is destroyed.In present embodiment, the elastic component 162 of reseting module 16 can be the compression spring, but not as limit.

Shown in Figure 1B; In present embodiment; When the adsorption plate 10 of adsorbent equipment 1 with its first side 10a towards plane P against the time; The sliding part 122 of buoyance lift piece 12 can receive the reaction force of plane P and be pushed in the through hole 104 of adsorption plate 10, and bleeder port 102 and compression elastic piece 162 on the second side 10b that is positioned at adsorption plate 10 leave in the portion that covers 120 that drives buoyance lift piece 12 simultaneously.At this moment, because bleeder port 102 leaves in the portion that covers 120 of buoyance lift piece 12, the negative pressure that module 14 produced of therefore bleeding promptly is destroyed and can't be via adsorption hole 100 absorption object 2.Therefore, object 2 promptly breaks away from adsorption hole 100 and is released on the plane P.

Be noted that at this; In present embodiment; When the portion that covers 120 of buoyance lift piece 12 against the second side 10b of adsorption plate 10 and when covering bleeder port 102, the length of the first side 10a of the sliding part 122 outstanding adsorption plates 10 of buoyance lift piece 12 is 2 millimeters, but not as limit.The length of the first side 10a of the sliding part 122 outstanding adsorption plates 10 of buoyance lift piece 12 can flexibly be adjusted in response to the thickness of object 2, but prerequisite is must be greater than the thickness of object 2.If the length of the first side 10a of the sliding part of buoyance lift piece 12 122 outstanding adsorption plates 10 is less than the thickness of object 2; Then when the adsorption plate 10 of adsorbent equipment 1 with its first side 10a towards plane P against the time; The bigger object of thickness 2 can be earlier against plane P, and the situation that causes the sliding part 122 of buoyance lift piece 12 to contact with plane P.Therefore the portion that covers 120 of buoyance lift piece 12 can not leave the bleeder port 102 on the second side 10b that is positioned at adsorption plate 10 and can't destroy the negative pressure that module produced of bleeding, and then makes the object 2 that receives adsorption hole 100 absorption can't obtain to discharge.

Shown in Fig. 1 C; In present embodiment; When the adsorption plate 10 of adsorbent equipment 1 leaves in the process of plane P gradually; Reseting module 16 is compressed in the portion that covers 120 and the 162 meeting elastic return of the elastic component between the lid 160 of buoyance lift piece 12, and then the portion that covers 120 of buoyance lift piece 12 is compressed towards the second side 10b of adsorption plate 10.After the adsorption plate 10 of adsorbent equipment 1 left plane P fully, the elastic component 162 of reseting module 16 can make the portion that covers 120 of buoyance lift piece 12 compress the second side 10b of adsorption plate 10 and cover bleeder port 102.Simultaneously, the sliding part 122 of buoyance lift piece 12 move with the portion of covering 120 and relatively the through hole 104 of adsorption plate 10 slide, and project to the home position in the first side 10a of adsorption plate 10 again.

By this, operating personnel can repeat another object 2 is covered in the adsorption hole 100 of adsorption plate 10 again, make to bleed that negative pressure that module 14 produced is recovered and another object 2 is adsorbed in the first side 10a of adsorption plate 10.Adsorbent equipment 1 of the present invention can repeat above-mentioned action again and again and reach absorption object 2, pressing object 2 to plane P and discharge the function of object 2 on plane P.

In present embodiment, the adsorption plate 10 of adsorbent equipment 1 is only in order to adsorbing an object 2, but the present invention is not as limit.In another embodiment, can reach the purpose of adsorbing a plurality of objects 2 simultaneously by the length of the adsorption plate 10 that increases adsorbent equipment 1 and the quantity that is positioned at the adsorption hole 100 on the adsorption plate 10 first side 10a.

Be noted that at this;, adsorbent equipment 1 of the present invention do not have the behavior of upset if being all level or vertical movement in the process of operation; Then after adsorption plate 10 leaves plane P; The buoyance lift piece 12 of adsorbent equipment 1 can be by the gravity of oneself through hole 104 of relative adsorption plate 10 slide and reset and covers bleeder port 102, so can omit above-mentioned reseting module 16.

Please with reference to Fig. 2.Fig. 2 is the profile that illustrates according to the adsorbent equipment 1 of another embodiment of the present invention.

As shown in Figure 2, in present embodiment, adsorbent equipment 1 comprises adsorption plate 10, buoyance lift piece 12 and the module 14 of bleeding equally, therefore repeats no more.The different place of embodiment shown in present embodiment and Figure 1A is that the reseting module that the adsorbent equipment 1 of present embodiment is comprised is a shell fragment 36.The shell fragment 36 of adsorbent equipment 1 has stiff end 360 and abutment end 362.The stiff end 360 of shell fragment 36 is fixed to the second side 10b of adsorption plate 10.The abutment end 362 of shell fragment 36 compresses towards the second side 10b in order to the portion that covers 120 with buoyance lift piece 12.By this, shell fragment 36 can compress the portion that covers 120 of buoyance lift piece 12 and positively cover bleeder port 102 towards the second side 10b of adsorption plate 10 by abutment end 362, uses the negative pressure that the module 14 of avoiding bleeding produced and is destroyed.And;, the adsorption plate 10 of adsorbent equipment 1 also leaves gradually in the process of plane P after compressing plane P; Can elastic return in order to the shell fragment 36 of the portion that covers 120 that compresses buoyance lift piece 12, and then the portion that covers 120 of buoyance lift piece 12 is compressed towards the second side 10b of adsorption plate 10 with abutment end 362.After the adsorption plate 10 of adsorbent equipment 1 left plane P fully, the abutment end 362 of shell fragment 36 can make the portion that covers 120 of buoyance lift piece 12 compress the second side 10b of adsorption plate 10 and cover bleeder port 102.Simultaneously, the sliding part 122 of buoyance lift piece 12 move with the portion of covering 120 and relatively the through hole 104 of adsorption plate 10 slide, and the first side 10a of adsorption plate 10 projects to the home position again.

Please with reference to Fig. 3.Fig. 3 is the profile that illustrates according to the adsorbent equipment 1 of another embodiment of the present invention.

As shown in Figure 3, in present embodiment, adsorbent equipment 1 comprises adsorption plate 10, buoyance lift piece 12 and the module 14 of bleeding equally, therefore repeats no more.The different place of embodiment shown in present embodiment and Figure 1A is that the supporter 560 of the reseting module 56 of present embodiment comprises body 560a and cantilever 560b.The body 560a of supporter 560 is arranged at the second side 10b of adsorption plate 10.The cantilever 560b of supporter 560 connects body 560a, and extends to the portion that covers 120 tops of buoyance lift piece 12.The elastic component 562 of reseting module 56 is compressed between the portion that covers 120 of cantilever 560b and buoyance lift piece 12.By this, the elastic component 562 of reseting module 56 can compress the portion that covers 120 of buoyance lift piece 12 and positively cover bleeder port 102 towards the second side 10b of adsorption plate 10, uses the negative pressure that the module 14 of avoiding bleeding produced and is destroyed.And;, the adsorption plate 10 of adsorbent equipment 1 also leaves gradually in the process of plane P after compressing plane P; Can elastic return in order to the elastic component 562 of the portion that covers 120 that compresses buoyance lift piece 12, and then the portion that covers 120 of buoyance lift piece 12 is compressed towards the second side 10b of adsorption plate 10.After the adsorption plate 10 of adsorbent equipment 1 left plane P fully, elastic component 562 can make the portion that covers 120 of buoyance lift piece 12 compress the second side 10b of adsorption plate 10 and cover bleeder port 102.Simultaneously, the sliding part 122 of buoyance lift piece 12 move with the portion of covering 120 and relatively the through hole 104 of adsorption plate 10 slide, and project to the home position by the first side 10a of adsorption plate 10 again.

Please with reference to Fig. 4 A, Fig. 4 B and Fig. 4 C.Fig. 4 A is the side view that illustrates according to the joint tool 7 of one embodiment of the invention, and wherein adsorption plate 10 does not compress microscope carrier 70 as yet.Fig. 4 B is the opposite side view that illustrates the joint tool 7 among Fig. 4 A, and wherein adsorption plate 10 compresses microscope carrier 70, causes second object 82 to be pressure bonded to first object 80.Fig. 4 C is the opposite side view that illustrates the joint tool 7 among Fig. 4 A, and wherein adsorption plate 10 discharges second object 82 on first object 80 and leave microscope carrier 70.

Shown in Fig. 4 A, Fig. 4 B and Fig. 4 C, and simultaneously with reference to Figure 1A, in present embodiment, joint tool 7 cooperates the module 14 of bleeding to use, in order to second object 82 is pressure bonded to first object 80.Joint tool 7 comprises microscope carrier 70, adsorption plate 10, buoyance lift piece 12 (with reference to Figure 1A) and reseting module 16.The microscope carrier 70 of joint tool 7 is in order to carry first object 80.The adsorption plate 10 of joint tool 7 is in order to carrying and adsorb second object 82.The adsorption plate 10 of joint tool 7 articulates microscope carrier 70, and microscope carrier 70 rotates and the first side 10a is compressed towards microscope carrier 70 relatively.About annexation and the interaction mechanism between adsorption plate 10, buoyance lift piece 12 and the reseting module 16 of joint tool 7, can therefore repeat no more with reference to Figure 1A to Fig. 1 C and related description at this.

Be noted that at this joint tool 7 can make the first side 10a compress towards microscope carrier 70 by making adsorption plate 10 relative microscope carrier 70 rotations, and then second object 82 is pressure bonded to first object 80.Simultaneously; The sliding part 122 of buoyance lift piece 12 is pushed in the adsorption plate 10 by microscope carrier 70; And the portion that covers 120 (with reference to Figure 1A) that drives buoyance lift piece 12 breaks away from the bleeder port 102 (with reference to Figure 1A) on the second side 10b that is positioned at adsorption plate 10 and removes the negative pressure that the module 14 of bleeding is produced; Second object 82 can break away from the adsorption hole 100 (with reference to Figure 1A) of the first side 10a that is positioned at adsorption plate 10 and be released on first object 80 by this, shown in Fig. 4 B and Fig. 4 C.And after the adsorption plate 10 of inhaling joint tool 7 left microscope carrier 70 fully, the elastic component 162 (with reference to Figure 1A) of reseting module 16 can make the portion that covers 120 of buoyance lift piece 12 compress the second side 10b of adsorption plate 10 and cover bleeder port 102.Simultaneously, the sliding part 122 of buoyance lift piece 12 move with the portion of covering 120 and relatively the through hole 104 (with reference to Figure 1A) of adsorption plate 10 slide, and project to the home position by the first side 10a of adsorption plate 10 again.

In an embodiment, first object 80 is a display module, second object 82 be display module flexible circuit board (Flexible Printed Circuit, FPC), but not as limit.In another embodiment, first object 80 is a display module, and second object 82 is a touch panel module.

Please with reference to Fig. 5.Fig. 5 is the flow chart that illustrates according to the applying method of one embodiment of the invention.

As shown in Figure 5, in present embodiment, applying method system uses joint tool and cooperates bleeds module so that first object is pressure bonded to second object.About annexation and the interaction mechanism between joint tool, first object and second object, can therefore repeat no more with reference to Figure 1A to Fig. 4 C figure and related description at this.Be noted that at this applying method of the present invention comprises the following step:

S100: joint tool is provided.

Wherein, joint tool comprises microscope carrier, adsorption plate and buoyance lift piece.The adsorption plate of joint tool articulates microscope carrier, and comprises at least one adsorption hole, bleeder port and run through the through hole of adsorption plate.The adsorption hole of adsorption plate is positioned at first side of adsorption plate.The bleeder port of adsorption plate is positioned at second side of adsorption plate with respect to first side.The adsorption hole of adsorption plate is connected with bleeder port.The module of bleeding is communicated with adsorption hole and bleeder port, in order to produce negative pressure.The buoyance lift piece of joint tool comprises the portion of covering and sliding part.The portion of covering of buoyance lift piece is positioned on second side, is positioned at the bleeder port of second side of adsorption plate in order to covering.The sliding part of buoyance lift piece is mounted slidably in the through hole of adsorption plate.The length of the sliding part of buoyance lift piece is greater than the thickness of adsorption plate.The sliding part of buoyance lift piece connects the portion that covers.When the portion of covering of buoyance lift piece covers the bleeder port of adsorption plate, first side of the outstanding adsorption plate of sliding part.

S102: place first object on microscope carrier.

S104: place second object on first side and cover adsorption hole, cause negative pressure second object to be adsorbed in first side via adsorption hole.

S106: on coating gum to the first object or second object.

S108: microscope carrier rotates adsorption plate and first side is compressed towards microscope carrier relatively; And then second object is pressure bonded to first object; The while sliding part protrudes in one of first side end and is promoted towards through hole by microscope carrier; And drive the portion of covering and leave bleeder port and remove negative pressure, second object breaks away from adsorption hole and is bonding on first object by gum by this.

Be noted that at this; In present embodiment; Make its first side in the process that microscope carrier compresses in the relative microscope carrier rotation of adsorption plate; In order to bind at second object to first object, protrude in one of first side end with regard to the sliding part that makes the buoyance lift piece and promoted towards through hole by microscope carrier, the sliding part of buoyance lift piece protrudes in the length of first side must be greater than the thickness summation of first object and second object.

In another embodiment; If the area of first object is much larger than the area of second object; Or adjustment in order to do in response to the relative position after binding between first object and second object; In the rotation of the relative microscope carrier of adsorption plate and make its first side in the process that microscope carrier compresses, also can design and make sliding part protrude in one of first side end to be promoted towards through hole, and then drive the portion of covering and leave bleeder port and remove negative pressure by first object.Therefore, for before second object bonding to first object, protrude in one of first side end with regard to the sliding part that makes the buoyance lift piece and promoted towards through hole by first object, the length that the sliding part of buoyance lift piece protrudes in first side only must get final product greater than the thickness of second object.

By above detailed description, can find out significantly that adsorbent equipment of the present invention, joint tool and applying method mainly provide specially designed adsorption plate for specific embodiment of the present invention.The both sides of adsorption plate are provided with adsorption hole and the bleeder port that is interconnected respectively.The buoyance lift piece of adsorbent equipment is mounted slidably in the through hole that runs through adsorption plate, and its portion of covering covers bleeder port.The module of bleeding of adsorbent equipment is communicated with adsorption hole and bleeder port, and the negative pressure that it produced can be adsorbed object via adsorption hole.Adsorbent equipment of the present invention can cause the sliding part of buoyance lift piece pushed in the adsorption plate by the plane by making adsorption plate against a plane, and drives the portion's of covering disengaging bleeder port and remove negative pressure.By this, object can break away from adsorption hole and discharge and fit on the plane.In other words, adsorbent equipment of the present invention promptly is being released in the plane and is fitting object on the plane, need not hand switch extraly be set or electromagnetic valve switch is controlled the generation negative pressure.

In the preceding text, illustrate and describe the specific embodiment of the present invention.But those skilled in the art can understand, and under situation without departing from the spirit and scope of the present invention, can also specific embodiments of the invention do various changes and replacement.These changes and replacement all drop in claims of the present invention institute restricted portion.

Claims

1. an adsorbent equipment is characterized in that, said adsorbent equipment comprises:

One adsorption plate; A through hole that comprises at least one adsorption hole, a bleeder port and run through this adsorption plate; This adsorption hole is positioned at one first side of this adsorption plate, and this bleeder port is positioned at one second side of this adsorption plate with respect to this first side, and this adsorption hole is connected with this bleeder port;

One buoyance lift piece comprises:

One covers portion, is positioned on this second side, in order to cover this bleeder port; And

One sliding part; Be mounted slidably in this through hole; The length of this sliding part is greater than the thickness of this adsorption plate, and this sliding part connects this near one of this second side end and covers portion, and this portion that covers slides with relative this through hole of this sliding part and covers or leave this bleeder port; Wherein when this portion of covering covered this bleeder port, this sliding part was near outstanding this first side of the other end of this first side; And

One module of bleeding is communicated with this adsorption hole and this bleeder port, in order to produce a negative pressure.

2. adsorbent equipment as claimed in claim 1 is characterized in that said adsorbent equipment further comprises a reseting module, is arranged on this adsorption plate, supports towards this second side pressure in order to this is covered portion.

3. adsorbent equipment as claimed in claim 2 is characterized in that, this reseting module is a shell fragment, and this shell fragment has a stiff end and an abutment end, and this stiff end is fixed to this second side, and this abutment end is supported towards this second side pressure in order to this is covered portion.

4. adsorbent equipment as claimed in claim 2 is characterized in that, this reseting module comprises:

One supporter is arranged at this second side; And

One elastic component is compressed in this supporter and this covers between the portion, supports towards this second side pressure in order to this is covered portion.

5. adsorbent equipment as claimed in claim 4 is characterized in that, this supporter comprises:

One body is arranged at this second side; And

One cantilever connects this body, and extends to this and cover portion top, and wherein this elastic component is compressed in this cantilever and this covers between the portion.

6. adsorbent equipment as claimed in claim 4 is characterized in that this supporter is a lid, is arranged at this second side, covers portion and this elastic component and is covered in this bleeder port top in order to hold this, and wherein this elastic component is compressed in this lid and this covers between the portion.

7. adsorbent equipment as claimed in claim 6 is characterized in that this lid has a perforation.

8. joint tool cooperates the module of bleeding to use, and it is characterized in that this joint tool comprises:

One microscope carrier;

One adsorption plate articulates this microscope carrier, and a through hole that comprises at least one adsorption hole, a bleeder port and run through this adsorption plate; This adsorption hole is positioned at one first side of this adsorption plate; This bleeder port is positioned at one second side of this adsorption plate with respect to this first side, and this adsorption hole is connected with this bleeder port, and wherein this module of bleeding is communicated with this adsorption hole and this bleeder port; In order to producing a negative pressure, and this microscope carrier rotation and this first side is compressed towards this microscope carrier relatively of this adsorption plate; And

One buoyance lift piece comprises:

One sliding part; Be mounted slidably in this through hole; The length of this sliding part is greater than the thickness of this adsorption plate, and this sliding part connects this near one of this second side end and covers portion, and this portion that covers slides with relative this through hole of this sliding part and covers or leave bleeder port; Wherein when this portion of covering covered this bleeder port, this sliding part was near outstanding this first side of the other end of this first side.

9. joint tool as claimed in claim 8 is characterized in that said joint tool further comprises a reseting module, is arranged on this adsorption plate, supports towards this second side pressure in order to this is covered portion.

10. joint tool as claimed in claim 9 is characterized in that, this reseting module is a shell fragment, and this shell fragment has a stiff end and an abutment end, and this stiff end is fixed to this second side, and this abutment end is supported towards this second side pressure in order to this is covered portion.

11. joint tool as claimed in claim 9 is characterized in that, this reseting module comprises:

One supporter is arranged at this second side; And

12. joint tool as claimed in claim 11 is characterized in that, this supporter comprises:

One body is arranged at this second side; And

13. joint tool as claimed in claim 11; It is characterized in that this supporter is a lid, be arranged at this second side; Cover portion and this elastic component and be covered in this bleeder port top in order to hold this, wherein this elastic component is compressed in this lid and this covers between the portion.

14. joint tool as claimed in claim 13 is characterized in that, this lid has a perforation.

15. an applying method in order to cooperate the module of bleeding so that one first object is pressure bonded to one second object, is characterized in that this applying method comprises the following step:

One joint tool is provided, and wherein this joint tool comprises a microscope carrier, an adsorption plate and a buoyance lift piece, and this adsorption plate articulates this microscope carrier; And a through hole that comprises at least one adsorption hole, a bleeder port and run through this adsorption plate, this adsorption hole is positioned at one first side of this adsorption plate, and this bleeder port is positioned at one second side of this adsorption plate with respect to this first side; This adsorption hole is connected with this bleeder port, and this module of bleeding is communicated with this adsorption hole and this bleeder port, in order to produce a negative pressure; This buoyance lift piece comprises one and covers a portion and a sliding part, and this portion of covering is positioned on this second side, in order to cover this bleeder port; This sliding part is mounted slidably in this through hole, and the length of this sliding part is greater than the thickness of this adsorption plate, and this sliding part connects this and covers portion; When this portion of covering covered this bleeder port, this sliding part was given prominence to this first side;

Place this first object on this microscope carrier;

Place this second object on this first side and cover this adsorption hole, cause this negative pressure this second object to be adsorbed in this first side via this adsorption hole;

Be coated with on a gum to this first object or this second object; And

This microscope carrier rotates this adsorption plate and this first side is compressed towards this microscope carrier relatively; And then this second object is pressure bonded to this first object; This sliding part protrudes in one of this first side end and is promoted towards this through hole by this microscope carrier simultaneously; And drive this portion of covering and leave this bleeder port and remove this negative pressure, this second object breaks away from this adsorption hole and is bonding on this first object by this gum by this.