CN103561545A - Home pressing device, home pressing control method and wiring machine - Google Patents
Home pressing device, home pressing control method and wiring machine Download PDFInfo
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- CN103561545A CN103561545A CN201310522617.5A CN201310522617A CN103561545A CN 103561545 A CN103561545 A CN 103561545A CN 201310522617 A CN201310522617 A CN 201310522617A CN 103561545 A CN103561545 A CN 103561545A
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Abstract
The invention provides a home pressing device, a home pressing control method and a wiring machine. The home pressing device comprises a supporting frame, a plurality of home pressing components mounted in the supporting frame, a bottom fixing plate used for fixing a home pressing section and a fixture for containing a film sensor to be processed. The number of the home pressing components is matched with that of the steps of the film sensor to be processed, each home pressing component comprises an upper portion comprising multiple home pressing pressure heads and a lower portion comprising backpressure quartz strips arranged directly opposite to the home pressing pressure heads. The upper portions are mounted at the top end of the supporting frame, and the lower portions are mounted at the bottom fixing plate. According to the home pressing device, the home pressing control method and the wiring machine, the home pressing efficiency of the film sensor with a step structure can be improved.
Description
Technical field
The present invention relates to FPC hot pressing on FPC hot-pressing production process, particularly mantle, relate to a kind of pressure device, this pressure-controlled method and line machine.
Background technology
FOG(FPC on Glass, flexible circuit board nation is fixed on glass) line machine effect touch-screen industry and show the crucial corollary equipment of module industry, be collect ACF attaching, FPC precompressed, this pressure of FPC technique on a set of equipment to complete ACF attaching, FPC precompressed, this pressure of FPC to glass sensor part (being glass sensor).
Yet, at single pressure head of application FOG line machine to film sensor(mantle functional sheet) in the process of processing, due to film sensor and the structural difference of glass sensor, by causing, be applicable to the FOG line machine of glass sensor and be not suitable for film sensor is processed, cannot meet this pressure of the film sensor with ledge structure, exist the defect of this pressure inefficiency.
Summary of the invention
Based on this, be necessary for the technical problem of this pressure inefficiency with the film sensor of ledge structure, a kind of this pressure device that can improve this pressure efficiency of the film sensor with ledge structure is provided.
In addition, be also necessary to provide a kind of this pressure-controlled method that can improve this pressure efficiency of the film sensor with ledge structure.
In addition, be also necessary to provide a kind of line machine that can improve this pressure efficiency of the film sensor with ledge structure.
A pressure device, is characterized in that, comprising:
Bracing frame;
Several this pressure assemblies, are installed in support frame as described above;
Bottom surface fixed head, presses assembly for fixing described;
Fixture, for placing film sensor to be processed;
Press the quantity of assembly that the number of steps of the film sensor with to be processed is matched for described;
Described press assembly to comprise to be provided with one or more press the upper part of pressure heads and comprise and described press pressure head over against the lower part of the back pressure stone bar arranging; Described upper part is installed on described support and adds top, and lower part is installed on the fixed head of described bottom surface.
Therein in an embodiment, described top divide comprise be installed on this pressure pressure head fixed head on bracing frame top, be side by side installed on described press several this pressure pressure heads on pressure head fixed head, for the driven unit that drives described to press pressure head to move up and down, be fixed on the heating block of described driven unit bottom and be fixed on this pressure pressure head of described heating block bottom.
Therein in an embodiment, described driven unit comprises the first guide rail slide block mechanism of at right angle setting on this pressure pressure head fixed head, drive connecting plate, be installed on drive block on described driving connecting plate, the first cylinder and for the cylinder mounting plate of fixing described the first cylinder, described driving connecting plate is installed on the slide block of described the first guide rail slide block mechanism, the drive end of described the first cylinder connects described drive block, and described drive block is moved up and down under the driving of the first cylinder and the guiding of the first guide rail slide block mechanism.
In an embodiment, between described heating block and this pressure pressure head, the pressure head micro-adjusting mechanism that this pressure pressure head is carried out to fine position is set therein.
Therein in an embodiment, described upper part also comprises and is installed on described the receipts silicone band assembly on pressure head fixed head and puts silicone band assembly, by described receipts silicone band assembly and put silicone band assembly by silicone band below this pressure pressure head.
Therein in an embodiment, described bottom is divided and is comprised transversal driving mechanism, the lift drive mechanism being connected with described transversal driving mechanism, is installed on the back pressure base on described lift drive mechanism and is fixed on described back pressure base, with the back pressure quartz bar of described pressure pressure head over against setting.
Therein in an embodiment, described transversal driving mechanism comprises the second cylinder being installed on the fixed head of bottom surface, the floating junction Connection Block being connected with the drive end of described the second cylinder, be fixed on described floating junction Connection Block, and the upper jacking block that top is inclined-plane, be installed on the fixed head of described bottom surface and be connected with described upper jacking block, the second guide rail slide block mechanism for the described upper jacking block transverse movement of leading, be installed on the San guide rail slide block mechanism on described inclined-plane, be installed on the guide rail slide block connecting plate in described San guide rail slide block mechanism and be fixed on the connecting plate of described guide rail slide block connecting plate, described guide rail slide block connecting plate and described connecting plate are along with the upper jacking block of described transverse movement moves up and down.
Therein in an embodiment, described lift drive mechanism comprise be installed on described bottom surface fixed head rear side back pressure guide rails assembling plate, be installed on described back pressure guide rails assembling plate, two the Si guide rail slide block mechanisms vertical with bottom surface fixed head, be installed on the back pressure guide rail splice on the slide block in described Si guide rail slide block mechanism, described back pressure guide rail splice is connected with described connecting plate.
A kind of line machine, comprise this pressure device as described in claim 1 to 9 any one, the base platform of described pressure device is installed, be arranged at the rotation platform on described base platform, be installed on respectively the feeding device on described base platform, ACF adhering device, FPC material loading and prepressing device and finished product automatic blanking device, the uniform placement of described rotation platform is for placing several fixtures of film sensor to be processed, described fixture respectively with this pressure device, feeding device, ACF adhering device, FPC material loading and prepressing device and finished product automatic blanking device are corresponding to be arranged.
A pressure-controlled method, comprises the steps:
By being installed on the feeding device material loading on base platform, make described fixture clamp a plurality of film sensor to be processed;
By rotation platform, described a plurality of film sensor to be processed are rotated to a pressure assembly to described pressure device, in the quantity of described film sensor and described pressure assembly, the quantity of this pressure pressure head matches;
Described in described a plurality of film sensor to be processed are placed in, being provided with a plurality of presses the upper part of pressure heads and has comprised and between this pressures pressure head divides over against the bottom of the back pressure quartz bar of setting;
Drive described upper part and lower part to move up and down described upper part and the bottom a plurality of film sensor between dividing that are placed in carry out this pressures;
Again by rotation platform, rotate to next this pressure assembly, by next this pressure assembly, carry out this pressure of described a plurality of film sensor, until several this pressure assemblies in described pressure device all carry out this pressures to described a plurality of film sensor, described quantity of pressing assembly will be that height kind with film sensor to be processed matches.
Above-mentioned pressure device, this pressure-controlled method and line machine, by bracing frame and bottom surface fixed head, several this pressure assemblies are installed, film sensor to be processed clamps by fixture, the quantity of this pressure assembly of installing by be with film sensor in number of steps match, that is to say, different steps by correspondence different this pressure assemblies, and each this pressure assembly all will be provided with a plurality of and press pressure head, and then make to have a plurality of film sensor of ledge structure, be that film sensor can realize this pressure of segmentation by several this pressure assemblies, and can simultaneously this press a plurality of film sensor, and then improved this pressure efficiency of the film sensor with ledge structure.
Accompanying drawing explanation
Fig. 1 is the structural representation of this pressure device in an embodiment;
Fig. 2 is the structural representation of this pressure assembly in Fig. 1;
Fig. 3 is the structural representation that Fig. 1 middle and upper part is divided;
Fig. 4 is the partial structurtes schematic diagram that Fig. 3 middle and upper part is divided;
Fig. 5 is the structural representation of line machine in an embodiment;
Fig. 6 is the stereogram of line machine in an embodiment;
Fig. 7 is the flow chart of this pressure-controlled method in an embodiment;
Fig. 8 is the structural representation of this pressure pressure head in this pressure assembly;
Fig. 9 is the structural representation of this pressure pressure head in another this pressure assembly.
Embodiment
As shown in Figure 1, in one embodiment, a kind of pressure device, comprising:
Several this pressure assemblies 30, are installed in bracing frame 10;
Bottom surface fixed head 50, on this pressure assembly 30;
Fixture (not shown), for placing film sensor to be processed;
Wherein, the quantity of this pressure assembly 30 matches the number of steps of the film sensor with to be processed.
In the present embodiment, due to step on film sensor corresponding respectively different height, therefore, the number of steps in film sensor is carried out to several sections of these pressures to film sensor, to complete this pressure on each film sensor.Concrete, film sensor to be processed has two steps, it is respectively corresponding different height, therefore, by being set, 30 couples of film sensor of two this pressure assemblies carry out this pressure of segmentation, each this pressure assembly 30 the is corresponding respectively certain altitude in film sensor.
This pressure assembly 30 comprises that being provided with one or more presses the upper part 310 of pressure head 311 and comprise and the lower part 330 of this pressure pressure head 311 over against the back pressure quartz bar 334 arranging; Upper part 310 is installed on bracing frame 10 tops, and lower part 330 is installed on bottom surface fixed head 50.
In the present embodiment, each this pressure assembly 30 all will arrange a plurality of and press pressure head 311, the multi-disc film sensor being positioned in fixture is carried out to this pressure of FPC on similar position simultaneously, improve this pressure efficiency of this pressure device, wherein, this pressure assembly 30 will be divided into part 310 and lower part 330, by the film sensor of fixture clamping, will be placed between upper part 310 and lower part 330, and back pressure quartz bar 334 is for carrying the pressure of this pressure pressure head 311.
Further, pressure controller 70 and pressure display unit 90 are installed in bracing frame 10 tops, FPC is originally compressed into row, accurately control.
As shown in Figure 2, in one embodiment, on this part 310 comprise be installed on this pressure pressure head fixed head 312 on bracing frame 10 tops, be installed on several this pressure pressure heads 311 on this pressure pressure head fixed head 312 side by side, for the driven unit 313 that drives this pressure pressure head 311 to move up and down, be fixed on the heating block 314 of driven unit 313 bottoms and be fixed on this pressure pressure head 311 of heating block 314 bottoms.
In the present embodiment, this pressure pressure head fixed head 312 is installed several this pressure pressure heads 311 and corresponding driven unit 313 side by side, and the heating block 314 that is fixed on driven unit 313 bottoms will carry out elevating movement stably along with driven unit 313 with this pressure pressure head 311 that is fixed on heating block 314 bottoms.
Further, this pressure pressure head 311 quantity that upper part 310 is installed are three, three of three film sensor steps carry out this pressures simultaneously.
Incorporated by reference to consulting Fig. 3 and Fig. 4, in one embodiment, driven unit 313 comprises the first guide rail slide block mechanism 3131 of at right angle setting on this pressure pressure head fixed head 312, drive connecting plate 3133, be installed on the drive block 3135 driving on connecting plate 3133, the first cylinder 3136 and for fixing the cylinder mounting plate 3137 of the first cylinder 3136, drive connecting plate 3133 to be installed on the slide block of the first guide rail slide block mechanism 3131, the drive end of the first cylinder 3136 connects drive block 3135, drive block 3135 is moved up and down under the driving of the first cylinder 3136 and the guiding of the first guide rail slide block mechanism 3131.
In the present embodiment, driven unit 313 makes to drive heating block 314 and this pressure pressure head 311 to carry out elevating movement, and wherein, each this pressure pressure head 311 is by driven unit 313 of correspondence.Slide block two parts that the first guide rail slide block mechanism 3131 of at right angle setting on this pressure pressure head fixed head 312 comprised guide rail and slided in guide rail, drive connecting plate 3133 to be installed on slide block.The driving of the first cylinder 3136 slides up and down along guide rail making to be installed on the drive block 3135 driving on connecting plate 3133, so that be installed on heating block 314 and this pressure pressure head 311 of driven unit 313 bottoms, moves up and down.
Further, the pressure head micro-adjusting mechanism 3138 that this pressure pressure head 311 is carried out to fine position is set between heating block 314 and this pressure pressure head 311, pressure head micro-adjusting mechanism 3138 carries out fine position by 31381 pairs of this pressure pressure heads of nut screw 311 are set, or described pressure head micro-adjusting mechanism is any one in differential adjusting head mechanism and lever regulated mechanism.
In the present embodiment, by two nut screw 31381 that arrange in pressure head micro-adjusting mechanism 3138, will be to this pressure head 311 in the enterprising line position fine setting in front and back and orientation, two of left and right, to guarantee the accuracy of this pressure.
In another embodiment, upper part 310 has also comprised being installed on to be received silicone band assembly 3132 and puts silicone band assembly 3134 on this pressure pressure head fixed head 312, by receive silicone band assembly 3132 and put silicone band assembly 3134 by silicone band below this pressure pressure head 311.
In the present embodiment, by being installed on, receiving silicone band assembly 3132 and put the directive wheel in silicone band assembly 3134, receipts silicone band directive wheel as shown in Figure 3 31321 and put silicone band directive wheel 31341 by silicone band around the bottom to this pressure pressure head 311, so that this pressure pressure head 311 has played the heat insulation effect that cushions when being pressed in above film sensor, guarantee that the part on this pressure pressure head 311 has better mechanical performance, security protection, has increased useful life of equipment.
In one embodiment, this lower part 330 comprises transversal driving mechanism 331, the lift drive mechanism 332 being connected with transversal driving mechanism 331, is installed on the back pressure base 333 on lift drive mechanism 332 and is fixed on back pressure base 333, with the back pressure quartz bar 334 of this pressure pressure head 311 over against setting.
In the present embodiment, by cooperatively interacting of transversal driving mechanism 331 and lift drive mechanism 332, the back pressure quartz bar 334 that makes to be installed on lift drive mechanism 332 moves up and down.
In one embodiment, above-mentioned transversal driving mechanism 331 comprises the second cylinder 3311 being installed on bottom surface fixed head 50, the floating junction Connection Block 3312 being connected with the drive end of the second cylinder 3311, be fixed on floating junction Connection Block 3312, and the upper jacking block 3313 that top is inclined-plane, be installed on bottom surface fixed head 50 and be connected with upper jacking block 3313, the second guide rail slide block mechanism 3314 for upper jacking block 3313 transverse movements of leading, be installed on the San guide rail slide block mechanism 3315 on inclined-plane, be installed on guide rail slide block connecting plate 3316 and the connecting plate 3317 that is fixed on guide rail slide block connecting plate 3316 in San guide rail slide block mechanism 3315, guide rail slide block connecting plate 3316 and connecting plate 3317 are along with the upper jacking block 3313 of transverse movement moves up and down.
In the present embodiment, by bracing frame 10 and bottom surface fixed head 50, realize the installation of several this pressure assemblies 30 and fix.Concrete, by cooperatively interacting of the second cylinder 3311, floating junction Connection Block 3312 and the second guide rail slide block mechanism 3314, making top is upper jacking block 3313 transverse movements on inclined-plane, drives the guide rail slide block connecting plate 3316 on its inclined-plane to do lifting moving.
In one embodiment, above-mentioned lift drive mechanism 332 comprise be installed on bottom surface fixed head 50 rear sides back pressure guide rails assembling plate 3321, be installed on back pressure guide rails assembling plate 3321, two the Si guide rail slide block mechanisms 3322 vertical with bottom surface fixed head 50, be installed on the back pressure guide rail splice 3323 on the slide block in Si guide rail slide block mechanism 3322, back pressure guide rail splice 3323 is connected with connecting plate 3317.
In the present embodiment, between back pressure guide rail splice 3323 and connecting plate 3317, by reinforcement, firmly connect, now, under the lifting of guide rail slide block connecting plate 3316 and the vertically-guided of guide rail Si guide rail slide block mechanism 3322, the parts that drive back pressure guide rail splice 3323 and be mounted thereon are moved up and down, and then make back pressure quartz bar 334 and back pressure guide rail splice 3323 can synchronously carry out lifting position adjusting.
As shown in Figure 5 and Figure 6, in one embodiment, a kind of line machine, comprise as above pressure device 501, be installed on the base platform 502 of this pressure device 501, be arranged at the rotation platform 503 on base platform 502, be installed on respectively the feeding device 504 on base platform 502, ACF adhering device 505, FPC material loading and prepressing device 506 and finished product automatic blanking device 507, the uniform placement of rotation platform 503 is for placing several fixtures 5031 of film sensor to be processed, this fixture 5031 respectively with this pressure device 501, feeding device 504, ACF adhering device 505, FPC material loading and prepressing device 506 and the corresponding setting of finished product automatic blanking device 507.
In the present embodiment, rotation platform 503 is divided into 6 parts with 60 degree angles, every part is corresponding placing clamp 5031 respectively, the corresponding feeding device 504 of this fixture 5031, ACF adhering device 505, FPC material loading and prepressing device 506, this pressure device 501 and finished product automatic blanking device 507 are distributed in around rotation platform 503 according to clockwise direction respectively, and then make every rotation 60 degree of rotation platform 503 can complete primary production processing, enhance productivity.
As shown in Figure 7, in one embodiment, a kind of pressure-controlled method, comprises the steps:
Step S701, by being installed on the feeding device material loading on base platform, makes fixture clamp a plurality of film sensor to be processed.
Step S702, rotates a pressure assembly to this pressure device by rotation platform by a plurality of film sensor to be processed, and in the quantity of film sensor and this pressure assembly, the quantity of this pressure pressure head matches.
In the present embodiment, in this pressure device, be provided with several this pressure assemblies.Due to step on film sensor corresponding respectively different height, therefore, will film sensor be carried out to several sections of these pressures according to the number of steps of film sensor, to complete this pressure on each film sensor.Concrete, film sensor to be processed has two kinds of height, therefore, by two this pressures assemblies are set, film sensor is carried out to this pressures of segmentation, each this pressure assembly the has been distinguished correspondence certain altitude in film sensor.
Step S703, a plurality of film sensor to be processed are placed in and are provided with a plurality of and press the upper part of pressure heads and comprised and between this pressures pressure head divides over against the bottom of the back of the body quartz bar of setting.
In the present embodiment, each this pressure assembly all will arrange a plurality of and press pressure head, the multi-disc film sensor being positioned in fixture is carried out to this pressure of FPC on similar position simultaneously, improve this pressure efficiency of this pressure device, wherein, each this pressure assembly all will be divided into part and lower part, will be placed between upper part and bottom divide, so that carry out this pressure by the film sensor of fixture clamping.
Step S704, in driving, part and lower part move up and down and are opposite to part and the bottom a plurality of film sensor between dividing and carry out this pressures.
Step S705, again by rotation platform, rotate to next this pressure assembly, by next this pressure assembly, carry out this pressure of a plurality of film sensor, until several this pressure assemblies in this pressure device all carry out this pressures to a plurality of film sensor, the quantity of this pressure assembly will be that number of steps with film sensor to be processed matches.
In the present embodiment, the quantity of this pressure assembly be mostly with film sensor to be processed in the number of steps that has match, to press assemblies to realize this pressure of segmentation to possessing the film sensor of step by a plurality of.
As shown in Figure 8 and Figure 9, be provided with two this pressure assemblies, to carry out in this pressure device of two sections of these pressures for film sensor, A and B are this pressure pressure head part of first this pressure assembly, C is this pressure pressure head part of second this pressure assembly, A and B are pressed on the position of both sides sustained height of same a slice FPC of same a slice film sensor, C is pressed on the centre position of same a slice FPC of same a slice film sensor, and then completed this pressure of FPC of a slice film sensor, in one is pressed assembly, three this pressure pressure heads are set and can complete this pressure of FPC to three film sensor.
Above-mentioned pressure device, this pressure-controlled method and line machine, by bracing frame and bottom surface fixed head, several this pressure assemblies are installed, film sensor to be processed clamps by fixture, the quantity of this pressure assembly of installing by be with film sensor in height kind match, that is to say, different height by correspondence different this pressure assemblies, and each this pressure assembly all will be provided with a plurality of and press pressure head, and then make to possess a plurality of film sensor of step, be that film sensor can realize this pressure of segmentation by several this pressure assemblies, and can simultaneously this press a plurality of film sensor, and then improved this pressure efficiency of the film sensor that possesses step.
The above embodiment has only expressed several execution mode of the present invention, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to the scope of the claims of the present invention.It should be pointed out that for the person of ordinary skill of the art, without departing from the inventive concept of the premise, can also make some distortion and improvement, these all belong to protection scope of the present invention.Therefore, the protection range of patent of the present invention should be as the criterion with claims.
Claims (10)
1. this pressure device, is characterized in that, comprising:
Bracing frame;
Several this pressure assemblies, are installed in support frame as described above;
Bottom surface fixed head, presses assembly for fixing described;
Fixture, for placing film sensor to be processed;
Press the quantity of assembly that the number of steps of the film sensor with to be processed is matched for described;
Described press assembly to comprise to be provided with one or more press the upper part of pressure heads and comprise and described press pressure head over against the lower part of the back pressure stone bar arranging; Described upper part is installed on support frame as described above top, and lower part is installed on the fixed head of described bottom surface.
2. according to claim 1 pressure device, it is characterized in that, described top divide comprise be installed on this pressure pressure head fixed head on bracing frame top, be side by side installed on described press several this pressure pressure heads on pressure head fixed head, for the driven unit that drives described to press pressure head to move up and down, be fixed on the heating block of described driven unit bottom and be fixed on this pressure pressure head of described heating block bottom.
3. according to claim 2 pressure device, it is characterized in that, described driven unit comprises the first guide rail slide block mechanism of at right angle setting on this pressure pressure head fixed head, drive connecting plate, be installed on drive block on described driving connecting plate, the first cylinder and for the cylinder mounting plate of fixing described the first cylinder, described driving connecting plate is installed on the slide block of described the first guide rail slide block mechanism, the drive end of described the first cylinder connects described drive block, and described drive block is moved up and down under the driving of the first cylinder and the guiding of the first guide rail slide block mechanism.
4. according to claim 2 pressure device, is characterized in that, between described heating block and this pressure pressure head, the pressure head micro-adjusting mechanism that this pressure pressure head is carried out to fine position is set.
5. according to claim 2 pressure device, it is characterized in that, described upper part also comprises and is installed on described the receipts silicone band assembly on pressure head fixed head and puts silicone band assembly, by described receipts silicone band assembly and put silicone band assembly by silicone band below this pressure pressure head.
6. according to claim 1 pressure device, it is characterized in that, described bottom is divided and is comprised transversal driving mechanism, the lift drive mechanism being connected with described transversal driving mechanism, is installed on the back pressure base on described lift drive mechanism and is fixed on described back pressure base, with the back pressure quartz bar of described pressure pressure head over against setting.
7. according to claim 6 pressure device, it is characterized in that, described transversal driving mechanism comprises the second cylinder being installed on the fixed head of bottom surface, the floating junction Connection Block being connected with the drive end of described the second cylinder, be fixed on described floating junction Connection Block, and the upper jacking block that top is inclined-plane, be installed on the fixed head of described bottom surface and be connected with described upper jacking block, the second guide rail slide block mechanism for the described upper jacking block transverse movement of leading, be installed on the San guide rail slide block mechanism on described inclined-plane, be installed on the guide rail slide block connecting plate in described San guide rail slide block mechanism and be fixed on the connecting plate of described guide rail slide block connecting plate, described guide rail slide block connecting plate and described connecting plate are along with the upper jacking block of described transverse movement moves up and down.
8. according to claim 7 pressure device, it is characterized in that, described lift drive mechanism comprise be installed on described bottom surface fixed head rear side back pressure guide rails assembling plate, be installed on described back pressure guide rails assembling plate, two the Si guide rail slide block mechanisms vertical with bottom surface fixed head, be installed on the back pressure guide rail splice on the slide block in described Si guide rail slide block mechanism, described back pressure guide rail splice is connected with described connecting plate.
9. a line machine, it is characterized in that, comprise this pressure device as described in claim 1 to 8 any one, the base platform of described pressure device is installed, be arranged at the rotation platform on described base platform, be installed on respectively the feeding device on described base platform, ACF adhering device, FPC material loading and prepressing device and finished product automatic blanking device, the uniform placement of described rotation platform is for placing several fixtures of film sensor to be processed, described fixture respectively with this pressure device, feeding device, ACF adhering device, FPC material loading and prepressing device and finished product automatic blanking device are corresponding to be arranged.
10. this pressure-controlled method, is characterized in that, comprises the steps:
By being installed on the feeding device material loading on base platform, make described fixture clamp a plurality of film sensor to be processed;
By rotation platform, described a plurality of film sensor to be processed are rotated to a pressure assembly to described pressure device, in the quantity of described film sensor and described pressure assembly, the quantity of this pressure pressure head matches;
Described a plurality of film sensor rotations to be processed to described in be provided with a plurality of and press the upper part of pressure heads and comprised and between this pressures pressure head divides over against the bottom of the back pressure quartz bar of setting;
Drive a plurality of of described upper part to press the back pressure quartz bar of pressure head and lower part originally to press a plurality of film sensor;
Again by rotation platform, rotate to next this pressure assembly, by next this pressure assembly, carry out this pressure of described a plurality of film sensor, until several this pressure assemblies in described pressure device all carry out this pressures to described a plurality of film sensor, described quantity of pressing assembly will be that number of steps with film sensor to be processed matches.
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| Application Number | Priority Date | Filing Date | Title |
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| CN201310522617.5A CN103561545B (en) | 2013-10-29 | 2013-10-29 | This pressure device, this pressure control method and line machine |
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| Application Number | Priority Date | Filing Date | Title |
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| CN201310522617.5A CN103561545B (en) | 2013-10-29 | 2013-10-29 | This pressure device, this pressure control method and line machine |
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| CN103561545A true CN103561545A (en) | 2014-02-05 |
| CN103561545B CN103561545B (en) | 2016-09-21 |
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| CN104105360A (en) * | 2014-08-06 | 2014-10-15 | 深圳市鑫三力自动化设备有限公司 | Flexible circuit board connection device based on glass circuit board |
| CN104503114A (en) * | 2015-01-08 | 2015-04-08 | 京东方科技集团股份有限公司 | Compression splicing equipment and method |
| CN107577072A (en) * | 2017-09-28 | 2018-01-12 | 苏州富强加能精机有限公司 | It is a kind of with this pressure device of the LCDs of hoistable platform |
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| CN203618236U (en) * | 2013-10-29 | 2014-05-28 | 深圳市联得自动化装备股份有限公司 | Pressing device and wire connecting machine |
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| Publication number | Priority date | Publication date | Assignee | Title |
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| CN104105360A (en) * | 2014-08-06 | 2014-10-15 | 深圳市鑫三力自动化设备有限公司 | Flexible circuit board connection device based on glass circuit board |
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| CN107577072A (en) * | 2017-09-28 | 2018-01-12 | 苏州富强加能精机有限公司 | It is a kind of with this pressure device of the LCDs of hoistable platform |
| CN107577072B (en) * | 2017-09-28 | 2024-02-09 | 苏州富强加能精机有限公司 | Liquid crystal display screen pressing device with lifting platform |
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| Publication number | Publication date |
|---|---|
| CN103561545B (en) | 2016-09-21 |
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