CN204278082U - One is fitted reworking apparatus entirely - Google Patents

Abstract

The utility model discloses one entirely to fit reworking apparatus, comprise base, locating platform, driving mechanism and the saw motivation structure for sawing colloid between touch-screen and display module, described locating platform is arranged on described base, described driving mechanism is arranged at one end of described locating platform, moves along a straight line for driving described locating platform; Described saw motivation structure is arranged at the other end of described locating platform, and described saw motivation structure is linear reciprocating motion, and the direction of motion of its direction of motion and described locating platform is vertical setting.The utility model makes saw motivation structure produce linear reciprocating motion, its linear reciprocating motion direction is vertical with the linear movement direction that driving mechanism drives locating platform to do, locating platform is under the effect of driving mechanism, rely on the colloid that saw motivation structure reciprocating saw moves touch-screen and shows between module, thus dividing both realizing, substantially increase do over again yield and efficiency, reduce cost.

Description

One is fitted reworking apparatus entirely

Technical field

The utility model relates to Display Technique field, is specifically related to one and entirely fits reworking apparatus.

Background technology

The product yield of the display screen body of current plant working does not reach 100%, and the defective products such as breakage, scratch, slight crack need perhaps just can become non-defective unit by heavy industry, and how to be accomplished to re-use by doing over again by defective products is the problem needing at present to solve.

Because touch-screen and display module are all made up of glass, hardness is high, flexibility is little, and the filler viscosity of full laminating is high, cannot directly break into two with one's hands; If adopt blade to cut off, touch-screen and display module hold can't stand bending force, causes product directly damaged, and inefficiency; If directly sawed with saw blade or steel wire, product cannot bear side force, and easily causes the damaged or scratch of screen body, thus yield when causing heavy industry is low; If adopt and add heat shielding body mode, need to be heated to more than 100 degrees Celsius, just convenient separation, but at high temperature adopt manual operations very easily to scald.Therefore, for the display screen body needed rework, the how convenient operation when heavy industry, and the yield that can ensure to do over again, improve efficiency of doing over again, this is the technical problem that current display screen body weight work is badly in need of solving.

Utility model content

For this reason, to be solved in the utility model is promote do over again yield and efficiency, reduces heavy industry cost.The utility model provides one and entirely to fit reworking apparatus.

Described technical scheme is as follows:

One is fitted reworking apparatus entirely, comprise base, locating platform, driving mechanism and the saw motivation structure for sawing colloid between touch-screen and display module, described locating platform is arranged on described base, described driving mechanism is arranged at one end of described locating platform, moves along a straight line for driving described locating platform; Described saw motivation structure is arranged at the other end of described locating platform, and described saw motivation structure is linear reciprocating motion, and the direction of motion of its direction of motion and described locating platform is vertical setting.

Described locating platform is also provided with detent mechanism, it comprises the locating piece being arranged at plane on described locating platform, described locating piece is arranged along the periphery of described locating platform, described base is provided with first guide rail consistent with described driving mechanism driving direction, the lower plane of described locating platform is provided with the first slide block, and described first slide block coordinates with described first slide.

Described detent mechanism is also provided with the adsorbing mechanism towards the absorption of described locating platform direction.

Described adsorbing mechanism is the vacuum absorption holes being arranged at described locating platform inside, and described vacuum absorption holes is communicated with the upper plane of described locating platform.

Described locating platform is also provided with the heater for heating described locating platform.

Described locating piece is provided with polylith, and it is distributed in the first end of the described locating platform relative with described molybdenum filament and the both side ends of the described locating platform adjacent with described first end.

The described locating piece being arranged at described locating platform both side ends is provided with strip hole, described locating platform is provided with bolt, described bolt runs through described strip hole, the end of described bolt is provided with a locknut, and described locating piece is fixed on described locating platform by described bolt, locknut.

Described drive motors drives the translational speed of described locating platform to be 0 ~ 300mm/s, and it is 0 ~ 200mm/s that the saw of described molybdenum filament moves speed.

Described driving mechanism comprises drive motors, screw mandrel and screw, described screw is fixed on the lower surface of described locating platform, described screw mandrel and described first guide rail parallel are arranged, and are connected with the output of described drive motors, and described screw mandrel realizes lead screw transmission with described screw and is connected.

Described saw motivation structure comprises molybdenum filament, molybdenum filament support, cylinder and bearing, described molybdenum filament is arranged on described molybdenum filament support in adjustable up and down, and the colloid be placed between touch-screen and display module, described bearing is provided with second guide rail vertically disposed with described first guide rail, the lower end of described molybdenum filament support is provided with the second slide block, described second slide block and described second guide rail are formed and are slidably matched, the piston rod end of described cylinder is fixedly connected with described molybdenum filament support, for driving described molybdenum filament support reciprocating along described second guide rail.

The utility model has following beneficial effect relative to prior art:

A. the utility model is provided with the driving mechanism achieving uniform rectilinear motion on locating platform, and for sawing the saw motivation structure of colloid between touch-screen and display module, saw motivation structure is made to produce linear reciprocating motion, its linear reciprocating motion direction is vertical with the linear movement direction that driving mechanism drives locating platform to do, locating platform is under the effect of driving mechanism, rely on the colloid that saw motivation structure reciprocating saw moves touch-screen and shows between module, thus the separation both realizing.

B. the utility model by arranging locating piece and vacuum adsorption mechanism on locating platform, locating piece can be avoided offseting during defective products heavy industry, on locating platform, set up vacuum adsorption mechanism simultaneously, by vacuum suction mode, defective products tightly can be attached on locating platform, frictional force between further increase heavy industry material and locating platform, makes its upper-lower position, right position and front and back position be located.When molybdenum filament when sawing dynamic colloid cutting evenly, substantially increase do over again yield and efficiency, reduce cost.

C. heated locating platform by heater, the adhesion colloid further between softening touch-screen and display module, realizes the fly-cutting of molybdenum filament.

D. the saw motivation structure in the utility model adopts reciprocating saw flowing mode, by making saw motion before and after the movable drive molybdenum filament of molybdenum filament support, molybdenum filament support moves back and forth along the second guide rail direction, improves the precision that molybdenum filament saw is dynamic, contributes to the service life of improving molybdenum filament.

Accompanying drawing explanation

In order to make content of the present utility model be more likely to be clearly understood, below according to specific embodiment of the utility model also by reference to the accompanying drawings, the utility model is described in further detail, wherein

Fig. 1 is overall structure schematic diagram provided by the utility model;

Fig. 2 is the side structure schematic diagram of Fig. 1;

Fig. 3 is the syndeton schematic diagram of locating piece and locating platform.

In figure: 1-base; 2-locating platform, 21-detent mechanism, 211-locating piece, 2111-strip hole, 212-adsorbing mechanism; 3-driving mechanism, 31-drive motors, 32-screw mandrel, 33-screw; 4-saws motivation structure, 41-molybdenum filament, 42-molybdenum filament support, 43-cylinder, 44-bearing; 5-first guide rail; 6-first slide block; 7-second guide rail; 8-second slide block; 9-shows module; 10-touch-screen; 20-first end; 30-both side ends; 40-bolt.

Detailed description of the invention

For making the purpose of this utility model, technical scheme and advantage clearly, below in conjunction with accompanying drawing, the utility model embodiment is described in further detail.

As depicted in figs. 1 and 2, the utility model provides one and entirely to fit reworking apparatus, and comprise base 1, locating platform 2, driving mechanism 3 and saw motivation structure 4, locating platform 2 is arranged on base 1, driving mechanism 3 is arranged at one end of locating platform 2, moves along a straight line for driving locating platform 2; Saw motivation structure 4 is arranged at the other end of locating platform 2, and for sawing colloid between touch-screen 10 and display module 9, the linear movement direction of driving mechanism is vertical with the linear reciprocating motion direction of saw motivation structure to be arranged.

In order to realize the fixing of heavy industry material on locating platform, locating platform 2 is also provided with detent mechanism 21, it comprises locating piece 211 locating piece 211 that is arranged at plane on locating platform 2 and arranges along the periphery of locating platform 2, base 1 is provided with first guide rail 5 consistent with driving mechanism 3 driving direction, the lower plane of locating platform 2 is provided with the first slide block 6, first slide block 6 and the first guide rail 5 is slidably matched.

Fixing in order to heavy industry object better, prevents the heavy industry object when operation from producing skew, on locating platform, is further preferably provided with the adsorbing mechanism 212 for adsorbing towards locating platform 2 direction.The utility model is made preferably to adsorbing mechanism 212, adsorbing mechanism 212 adopts the vacuum absorption holes being arranged at locating platform 2 inside, vacuum absorption holes is communicated with the upper plane of locating platform 2, by vacuum extractor, aspiration vacuum is carried out to vacuum absorption holes, the lower plane of heavy industry object can be attached on locating platform 2 securely, reduce further the probability that skew occurs heavy industry object.

The driving mechanism 3 that the utility model preferably adopts comprises drive motors 31, screw mandrel 32 and screw 33, screw 33 is fixed on the lower surface of locating platform 2, screw mandrel 32 and the first guide rail 5 be arranged in parallel, and are connected with the output of drive motors 31, and screw mandrel 32 realizes lead screw transmission with screw 33 and is connected.Drive screw mandrel 32 to rotate by drive motors 31, drive screw 33 and locating platform 2 to move along the direction of the first guide rail 5, the screw mandrel 32 be rotating is converted into the rectilinear motion of locating platform 2.

Meanwhile, saw motivation structure is also reciprocating, its direction of motion is vertical with the direction of motion of locating platform, saw motivation structure 4 comprises molybdenum filament 41, molybdenum filament support 42, cylinder 43 and bearing 44, molybdenum filament 41 is fixed on the upper end of molybdenum filament support 42, and the colloid be placed between touch-screen 10 and display module 9, bearing 44 is provided with vertically disposed second guide rail 7 with the first guide rail 5, the lower end of molybdenum filament support 42 is provided with the second slide block 8, second slide block 8 and the second guide rail 7 are formed and are slidably matched, the piston rod end of cylinder 43 is fixedly connected with molybdenum filament support 42, for driving molybdenum filament support 42 reciprocating along the second guide rail 7.The moving direction of the vertical and locating platform 2 of the direction of motion of molybdenum filament 41, realizes locating platform 2 and moves while the automation process of cutting, easy to use.Meanwhile, in order to realize the heavy industry operation of the heavy industry object to different-thickness, the position of molybdenum filament on molybdenum filament support 42 adopts adjustable frame mode, can regulate the position of molybdenum filament particularly according to the position height of colloid in heavy industry object.Certainly, also molybdenum filament support in the vertical direction can be made adjustable for height structure, adapt to the heavy industry object of various gauge.

Further, in order to improve molybdenum filament saw efficiency of movement, locating platform 2 is also provided with the heater (not marking in the drawings) for heating locating platform 2.Realize the heating to the adhesion colloid between touch-screen 10 and display module 9, make it soften, the saw of molybdenum filament of being more convenient for moves.

Locating piece 211 is wherein provided with polylith, it is distributed in the first end 20 of the locating platform 2 relative with described molybdenum filament and the both side ends 30 of the locating platform adjacent with first end 20, as shown in Figure 3, only to the location of locating platform 2 carrying out on three directions, locating piece 211 is not set up at molybdenum filament 41 side that initially saw is dynamic, in the process of locating platform 2 movement, molybdenum filament 41 can produce active force when sawing dynamic, itself plays the effect of side location.

Simultaneously, in order to the doing over again of heavy industry object of applicable different size, as shown in Figure 3, preferably, the locating piece 211 be positioned in locating platform 2 both side ends 30 is provided with strip hole 2111, and locating platform 2 is provided with bolt 40, and bolt 40 runs through strip hole, and the end of bolt 40 is provided with locknut, locating piece 211 is fixed on locating platform 2 by locknut.Doing over again to the heavy industry object under different size can be realized by the position of running fix block 211.

The drive motors that the utility model preferably adopts drives the translational speed of locating platform to be 0 ~ 300mm/s, and it is 0 ~ 200mm/s that the saw of molybdenum filament moves speed.

The utility model, by a full-automatic device, makes product reduce product when heavy industry is separated stressed, and allow touch-screen 10 and display module 9 separately, the utility model does not limit by product structure, is applicable to full jointing product and does over again.

In the specific implementation, heavy industry part is positioned on locating platform 2, location is realized by the locating piece 211 on three sides, the molybdenum filament 41 be fixed on molybdenum filament support 42 is adjusted to the colloid position between touch-screen 10 and display module 9, then drive motors 31 power supply and cylinder 43 is opened, drive motors 31 is made to drive screw mandrel 32 to rotate, screw mandrel 32 drives locating platform 2 to move along the direction of the first guide rail 5, molybdenum filament support now moves back and forth along the second guide rail 7 under the driving of cylinder 43, by the reciprocating motion of molybdenum filament support 42 and the rectilinear motion of locating platform 2, molybdenum filament 41 saws dynamic colloid, colloid between touch-screen 10 and display module 9 is separated.

Obviously, above-described embodiment is only for clearly example being described, and the restriction not to embodiment.For those of ordinary skill in the field, can also make other changes in different forms on the basis of the above description.Here exhaustive without the need to also giving all embodiments.And thus the apparent change of extending out or variation be still among protection domain of the present utility model.

Claims (10)

1. a reworking apparatus of entirely fitting, it is characterized in that, comprise base (1), locating platform (2), driving mechanism (3) and the saw motivation structure (4) for sawing colloid between touch-screen and display module, described locating platform (2) is arranged on described base (1), described driving mechanism (3) is arranged at one end of described locating platform (2), moves along a straight line for driving described locating platform (2); Described saw motivation structure (4) is arranged at the other end of described locating platform (2), and described saw motivation structure is linear reciprocating motion, and the direction of motion of its direction of motion and described locating platform is vertical setting.

2. full laminating reworking apparatus according to claim 1, it is characterized in that, described locating platform (2) is also provided with detent mechanism (21), it comprises the locating piece (211) being arranged at the upper plane of described locating platform (2), described locating piece (211) is arranged along the periphery of described locating platform (2), described base (1) is provided with first guide rail (5) consistent with described driving mechanism (3) driving direction, the lower plane of described locating platform (2) is provided with the first slide block (6), described first slide block (6) and described first guide rail (5) are slidably matched.

3. full laminating reworking apparatus according to claim 2, is characterized in that, described detent mechanism (21) is also provided with the adsorbing mechanism (212) towards the absorption of described locating platform (2) direction.

4. full laminating reworking apparatus according to claim 3, it is characterized in that, described adsorbing mechanism (212) is for being arranged at the inner vacuum absorption holes of described locating platform (2), and described vacuum absorption holes is communicated with the upper plane of described locating platform (2).

5. full laminating reworking apparatus according to claim 4, is characterized in that, described locating platform (2) is also provided with the heater for heating described locating platform (2).

6. full laminating reworking apparatus according to claim 5, it is characterized in that, described saw motivation structure (4) comprises molybdenum filament (41), molybdenum filament support (42), cylinder (43) and bearing (44), described molybdenum filament (41) in upper and lower adjustable installing on described molybdenum filament support (42), and the colloid be placed between touch-screen and display module, described bearing (44) is provided with second guide rail (7) vertically disposed with described first guide rail (5), the lower end of described molybdenum filament support is provided with the second slide block (8), described second slide block (8) and described second guide rail (7) are formed and are slidably matched, the piston rod end of described cylinder (43) is fixedly connected with described molybdenum filament support (42), for driving described molybdenum filament support (42) reciprocating along described second guide rail (7).

7. full laminating reworking apparatus according to claim 6, it is characterized in that, described locating piece (211) is provided with polylith, and it is distributed in the first end (20) of the described locating platform (2) relative with described molybdenum filament and the both side ends (30) of the described locating platform adjacent with described first end (20).

8. full laminating reworking apparatus according to claim 7, it is characterized in that, the described locating piece (211) being arranged at described locating platform (2) both side ends (30) is provided with strip hole (2111), described locating platform (2) is provided with bolt (40), described bolt (40) runs through described strip hole (2111), the end of described bolt (40) is provided with a locknut, and described locating piece (211) is fixed on described locating platform (2) by described bolt (40), locknut.

9. full laminating reworking apparatus according to claim 8, is characterized in that, described drive motors (31) drives the translational speed of described locating platform (2) to be 0 ~ 300mm/s, and it is 0 ~ 200mm/s that the saw of described molybdenum filament moves speed.

10. according to the arbitrary described full laminating reworking apparatus of claim 2-9, it is characterized in that, described driving mechanism (3) comprises drive motors (31), screw mandrel (32) and screw (33), described screw (33) is fixed on the lower surface of described locating platform (2), described screw mandrel (32) and described first guide rail (5) be arranged in parallel, and be connected with the output of described drive motors (31), described screw mandrel (32) realizes lead screw transmission with described screw (33) and is connected.