CN201218889Y - Modularization tool structure for touch control type display panel - Google Patents

Abstract

The utility model provides a modular tool construction for a touch control type display panel. The modular tool comprises a first tool module capable of accommodating a plurality of independent tools, and a second tool module for accommodating a plurality of liquid crystal display panels. Each tool of the first tool module accommodates glue coated touch control panels, and the second tool module is obliquely disposed, and is pressed down in rotation after vertically falling down until it is in contact with the first tool module, so that touch control panels and liquid crystal modules are in touch with each other. Practical advantage such as capability of large scale production of the touch control type display panel and uneasiness for generating air bubbles in the optical glue is achieved consequently.

Description

The modularization fixture structure of touch control display panel

Technical field

The utility model relates to a kind of fixture structure, refers to a kind of modularization fixture structure of following the touch control display panel of contact panel and LCD MODULE with optical cement especially.

Background technology

Because the high-tech electronic information industry is flourish, consumption electronic products have become the necessity in people's daily life, and many consumption electronic products stride forward towards compact trend, particularly in conjunction with showing and the touch-sensitive display of importing two kinds of technology, it has the function of liquid crystal display and touch-control input simultaneously, thereby can promote the Practical Performance of all kinds of consumption electronic products significantly.

See also shown in Figure 1, be known touch control display panel assembling synoptic diagram, touch control display panel 1 is made up of contact panel 10 and LCD MODULE 11, in conjunction with the time, mainly paste with optics double sticky tape 12, it at first is pasted on contact panel 10 or LCD MODULE 11, at first be pasted on contact panel 10 with optics double sticky tape 12 among the figure and do the representative explanation, then LCD MODULE 11 is attached on the optics double sticky tape 12, becomes touch control display panel 1 after contact panel 10 and LCD MODULE 11 are pasted.

At this moment, still must be with other utensils, as cut-off knife, scraper etc., unnecessary optics double sticky tape 12 to be removed, when avoiding touch control display panel 1 to be incorporated into circuit, optics double sticky tape 12 pastes other electronic component or circuit etc.

Yet, above-mentioned in the mode of optics double sticky tape 12 stickup contact panels 10 with LCD MODULE 11, still have following shortcoming and wait to improve:

One, optics double sticky tape 12 is when pasting for the first time, between its side and the contact panel 10, must trim or in contract, after avoiding LCD MODULE 11 to paste, optics double sticky tape 12 is stressed after the extruding, overflow by side, therefore, for the touch control display panel 1 of different size, must prepare the optics double sticky tape 12 corresponding with its size, cause hoarding in the factory building optics of each style size double sticky tape 12 is arranged, reduced factory building and used plot ratio.

Two, after optics double sticky tape 12 is produced and is dispatched from the factory, mostly be web-like, and when using, must rotate and be stretched to suitable length, can begin to paste, and paste must be through the step that cuts and remove after finishing, with unnecessary optics double sticky tape 12 by touch control display panel 1 periphery removing, aforesaid way will cause the production run of touch control display panel 1 loaded down with trivial details, can't improve speed of production.

Three, optics double sticky tape 12 has certain thickness, in order to make it have good stickability and ductility, optics double sticky tape 12 mainly is coated with optical cement respectively in the end face and the bottom surface of transparent film, therefore, the thickness of optics double sticky tape 12 can't reduce, then, cause touch control display panel 1 light extraction efficiency to descend easily.

Four, optics double sticky tape 12 must keep formation state at any time in the process that pastes contact panel 10, otherwise, the moment attaching, will cause the generation of bubble or fold, the production qualification rate of touch control display panel 1 is descended.

Therefore, the utility model relates to as optical cement how and replaces the optics double sticky tape to solve above-mentioned shortcoming.

Summary of the invention

Because above-mentioned demand, the inventor is through studying intensively, and is engaged in the many years of experience of this cause with the individual, designs a kind of modularization fixture structure of brand-new touch control display panel eventually.

Fundamental purpose of the present utility model is, the modularization fixture structure that a kind of touch control display panel is provided by adopt optical cement directly the mode of coating carry out the stickup of contact panel and LCD MODULE, in order to overcome the prior art speed of production low, be easy to generate degradation shortcoming under bubble, the light extraction efficiency when following.

For achieving the above object, the utility model provides a kind of modularization fixture structure of touch control display panel, and it includes:

One first fixture module, this first fixture module has a first surface, and this first surface is provided with plurality of grooves;

A plurality of fixtures are contained in this groove respectively, and this fixture end face is provided with an accepting groove;

A plurality of positioning pressuring plates are bonded on the end face of this fixture respectively, and are provided with on this positioning pressuring plate and this accepting groove fenestra of contraposition mutually.It also comprises one second fixture module, the first fixture module and the second fixture module have two opposite first and second surface respectively, and first surface is provided with plurality of grooves, then corresponding these grooves of second surface are provided with a plurality of standing grooves, by this, after a plurality of independently fixtures are accommodated contact panel respectively and are covered positioning pressuring plate, can be placed in the groove of the first fixture module, and after gluing finishes on the contact panel, the standing groove of the second fixture module is inserted LCD MODULE, the second fixture module is covered on the first fixture module, to make contact panel and LCD MODULE bonding mutually, finish touch control display panel, reaching can mass-produced practical improvement of while in the single production.

When the first fixture module engages with the second fixture module, the first fixture module is for being horizontally disposed with, and the second fixture module is for being obliquely installed and vertically falling, when the second fixture module either side edge joint touches this first fixture module, with the contact position is that the axle rotation is zero up to this second fixture module and this first fixture intermodule angle, by this, the air that can get rid of the first fixture module and the second fixture intermodule in a large number, simultaneously in the second fixture module rotation process, further gas is extruded, when contact panel and LCD MODULE are followed with optical cement, can not produce bubble in the optical cement, reach the practical improvement that improves light extraction efficiency and product percent of pass.

The beneficial effects of the utility model are: one, the first fixture module and the second fixture module are provided with a plurality of groove opposite and standing groove in the mode of arranged respectively, the groove of the first fixture module can be put into a plurality of fixtures simultaneously, each fixture finish contact panel accommodate process after, just can directly LCD MODULE be inserted the second fixture module, then carry out the then action of contact panel and LCD MODULE, only can single production and assembly than prior art, the utility model has reached a large amount of and has produced fast; When two, the second fixture module is covered on the first fixture module, adopt vertically falling of angle of inclination, and in contact process, can gradually the gas between first surface and second surface be discharged, simultaneously, when the second fixture module either side edge joint contacts first fixture, because the second fixture module is a heeling condition, its stroke that turns to when attaching fully is shorter, compare prior art from the flip vertical to the level and can't effectively get rid of gas, the utility model reaches does not have bubble when optical cement is followed, thereby has improved light extraction efficiency.

Description of drawings

Fig. 1 is known touch control display panel assembling synoptic diagram;

Fig. 2 is the three-dimensional exploded view of the utility model preferred embodiment;

Fig. 3 is the subelement vertical view of the utility model preferred embodiment;

Fig. 4 is the action synoptic diagram one of the utility model preferred embodiment;

Fig. 5 is the action synoptic diagram two of the utility model preferred embodiment;

Fig. 6 is the action synoptic diagram three of the utility model preferred embodiment;

Fig. 7 is the action synoptic diagram four of the utility model preferred embodiment;

Fig. 8 is the action synoptic diagram five of the utility model preferred embodiment;

Fig. 9 is the action synoptic diagram six of the utility model preferred embodiment;

Figure 10 is the action synoptic diagram seven of the utility model preferred embodiment;

Figure 11 is the utility model stereographic map of a preferred embodiment again;

Figure 12 is the stereographic map of the another preferred embodiment of the utility model;

Figure 13 is the synoptic diagram of the another preferred embodiment of the utility model.

Description of reference numerals:

The 1-touch control display panel; The 10-contact panel; The 11-LCD MODULE; 12-optics double sticky tape; 2-modularization fixture; The 20-first fixture module; The 200-first surface; The 201-groove; The 21-fixture; The 210-accepting groove; The 211-glue groove that overflows; The 213-reference column; The 22-positioning pressuring plate; The 220-fenestra; The 221-lug; The 222-pilot hole; The 23-second fixture module; The 230-second surface; The 231-pickup groove; The 232-standing groove; The 24-rotating shaft; The 30-contact panel; The 31-LCD MODULE; The 32-optical cement; 4-modularization fixture; The 40-first fixture module; The 400-first surface; The 401-accepting groove; The 402-glue groove that overflows; The 403-reference column; The 41-positioning pressuring plate; The 410-fenestra; The 411-lug; The 412-pilot hole; The 42-second fixture module; The 420-second surface; The 421-pickup groove; The 422-standing groove; The 43-rotating shaft.

Embodiment

Below in conjunction with accompanying drawing, to this novel above-mentionedly is described in more detail with other technical characterictic and advantage.

See also Fig. 2, shown in Figure 3, three-dimensional exploded view and subelement vertical view for the utility model preferred embodiment, the modularization fixture structure of the utility model touch control display panel has modularization fixture 2, it includes the first fixture module 20, a plurality of second fixture module 23 that is arranged on fixture 21 in the first fixture module 20, a plurality of positioning pressuring plate 22 that is incorporated into fixture 21 end faces, can be covered on the first fixture module 20, wherein: this first fixture module 20 has first surface 200, and it is concaved with a plurality of grooves of arranging with matrix form 201.Fixture 21 end faces are concaved with accepting groove 210, be provided with one or more excessive glue groove 211 at accepting groove 210 peripheries, be provided with one or more reference column 213 at the end face periphery near corner in addition, when the assembling touch control display panel, accepting groove 210 is mainly in order to accommodate contact panel.Positioning pressuring plate 22 has fenestra 220, and extends corresponding lug 221 inwardly, and the position of the excessive glue groove 211 on these lug 221 corresponding fixtures 21 is provided with, and is provided with one or more pilot hole 222 at periphery near corner in addition.This second fixture module 23 has second surface 230, it is concaved with a plurality of pickup grooves of arranging with matrix form 231, be concaved with standing groove 232 respectively in each pickup groove 231, when the assembling touch control display panel, standing groove 232 is mainly in order to accommodate LCD MODULE.

See also Fig. 4, shown in Figure 5, action synoptic diagram one, two for the utility model preferred embodiment, the utility model is when the assembling touch control display panel, at first, contact panel 30 is contained in the accepting groove 210 of fixture 21, and be covered on fixture 21 end faces with positioning pressuring plate 22, and make each reference column 213 of fixture 21 pass positioning pressuring plate 22 corresponding positioning hole 222, above-mentioned fixture 21 is inserted respectively in the groove 201 of the first fixture module 20 then.In the said process, also can insert fixture 21 earlier in the groove 201 of the first fixture module 20, the accepting groove 210, the positioning pressuring plate 22 that successively contact panel 30 are contained in fixture 21 again cover fixture 21 end faces.

See also Fig. 6, shown in Figure 7, action synoptic diagram three, four for the utility model preferred embodiment, optical cement 32 is coated on the contact panel 30, and in each standing groove 232 of the second fixture module 23, place LCD MODULE 31, then rotate the second fixture module 23, make the second surface 230 of the second fixture module 23 be covered on the first surface 200 of the first fixture module 20, follow mutually to make contact panel 30 and LCD MODULE 31.

See also Fig. 8-shown in Figure 10, action synoptic diagram five, six, seven for the utility model preferred embodiment, when the above-mentioned second fixture module 23 is covered on the first fixture module 20, at first the first fixture module 20 is placed as horizontality, the second fixture module 23 is turned into heeling condition, promptly the second surface of the first surface 200 of the first fixture module 20 and the second fixture module 23 is 230, is formed with the angle less than 90 degree.The second fixture module 23 keeps this heeling condition and begins vertically to fall, when the either side edge joint of the second fixture module 23 contacts the first fixture module 20, with the contact position is axle, rotate the second fixture module 23, up to 200 of the first surfaces of the second surface 230 of the second fixture module 23 and the first fixture module 20, reaching angle is zero.In the said process, please auxiliary simultaneously Fig. 3, Fig. 4 of consulting, second surface 230 is attached at first surface 200 fully, the positioning pressuring plate 22 of each fixture 21 end face falls into each pickup groove 231 of the second fixture module 23, each LCD MODULE 31 in the standing groove 232 of the second fixture module 23 then, fenestra 220 through positioning pressuring plate 22 touches optical cement 32, finishes contact panel 30 and follows mutually with LCD MODULE 31.Then, make second surface 230 adhere well to first surface 200 with high pressure, again through modes such as overbaking, curing, treat optical cement 32 full solidification dryings after, just finish the assembling of touch control display panel.In the said process, the second fixture module 23 is positioned LCD MODULE 31 for standing groove 232 mainly by modes such as vacuum attractions, and when 23 upsets of the second fixture module, LCD MODULE 31 can't get loose.

See also Fig. 2, shown in Figure 11, be the stereographic map of the utility model one preferred embodiment and the stereographic map of a preferred embodiment again, the modularization fixture structure of the utility model touch control display panel has modularization fixture 2, it includes the first fixture module 20 and the second fixture module 23, wherein, 23 of the first fixture module 20 and the second fixture modules, be provided with rotating shaft 24, like this, when the second fixture module 23 desires to be covered on the first fixture module 20, can rotating shaft 24 be the axle center, directly be covered on the first fixture module 20 after the upset.

See also shown in Figure 12, stereographic map for the another preferred embodiment of the utility model, the modularization fixture structure of the utility model touch control display panel can be used separately, mainly has modularization fixture 4, it includes the first fixture module 40, be incorporated into the positioning pressuring plate 41 of the first fixture module 40, can be covered on the second fixture module 42 of the first fixture module 40, and the rotating shaft 43 that is connected the first fixture module 40 and the second fixture module 42, wherein: this first fixture module 40 has first surface 400, it is concaved with accepting groove 401, accepting groove 401 peripheries are provided with one or more excessive glue groove 402, be provided with one or more reference column 403 at first surface 400 peripheries near corner in addition, when the assembling touch control display panel, accepting groove 401 is mainly in order to accommodate contact panel.This positioning pressuring plate 41 has fenestra 410, and extends corresponding lug 411 inwardly, is provided with one or more pilot hole 412 at periphery near corner in addition.This second fixture module 42 has second surface 420, and it is concaved with pickup groove 421, is concaved with standing groove 422 in the pickup groove 421, and when the assembling touch control display panel, standing groove 422 is mainly in order to accommodate LCD MODULE.

Please cooperate simultaneously consult shown in Figure 13, synoptic diagram for the another preferred embodiment of the utility model, when above-mentioned member moves, at first contact panel 30 is positioned in the accepting groove 401 of the first fixture module 40, and on first surface 400, cover positioning pressuring plate 41, then each pilot hole 412 of positioning pressuring plate 41 can pass for each reference column 403 of first surface 400, form the location, then in the standing groove 422 of the second fixture module 42, put into LCD MODULE 31, then optical cement 32 is coated contact panel 30, and be that the second fixture module 42 is rotated in the axle center with rotating shaft 43, directly be covered on the first fixture module 40 after the upset, to make LCD MODULE 31 then in contact panel 30.After said process finished, then by after the steps such as baking, it was dry to treat that optical cement solidifies, and just finishes the assembling of contact panel 30 and LCD MODULE 31.

In sum, the modularization fixture structure of touch control display panel of the present utility model has the utility model of patent and to the value of industry; The applicant mentions the application of utility model patent according to the regulation of Patent Law.

More than explanation is novel just illustrative for this; and it is nonrestrictive; those of ordinary skills understand; under the situation of the spirit and scope that do not break away from following claims and limited; can make many modifications; change, or equivalence, but all will fall in the protection domain of the present utility model.

Claims (9)

1, a kind of modularization fixture structure of touch control display panel is characterized in that it includes:

One first fixture module, this first fixture module has a first surface, and this first surface is provided with plurality of grooves;

A plurality of fixtures are contained in this groove respectively, and this fixture end face is provided with an accepting groove;

A plurality of positioning pressuring plates are bonded on the end face of this fixture respectively, and are provided with on this positioning pressuring plate and this accepting groove fenestra of contraposition mutually.

2, the modularization fixture structure of touch control display panel according to claim 1, it is characterized in that, it includes one and separates the second fixture module that is provided with, this second fixture module has second surface, this second surface is to should the first surface setting, and this second surface is concaved with plurality of fixed groove and standing groove in regular turn.

3, the modularization fixture structure of touch control display panel according to claim 1 is characterized in that, this fixture end face is provided with one or more excessive glue groove at this accepting groove periphery.

4, the modularization fixture structure of touch control display panel according to claim 1 is characterized in that, this fixture is provided with one or more reference column at the end face periphery near corner, and this positioning pressuring plate is provided with and this reference column corresponding positioning hole.

5, the modularization fixture structure of touch control display panel according to claim 3 is characterized in that this positioning pressuring plate is provided with lug in the position with respect to this excessive glue groove.

6, the modularization fixture structure of touch control display panel according to claim 1 is characterized in that, these grooves are arranged.

7, the modularization fixture structure of touch control display panel according to claim 2 is characterized in that, these pickup grooves and standing groove are arranged.

8, the modularization fixture structure of touch control display panel according to claim 1 is characterized in that, it further includes one second fixture module, and this second fixture module and this first fixture intermodule are provided with a rotating shaft for this second fixture module rotation.

9, the modularization fixture structure of touch control display panel according to claim 8, it is characterized in that, this second fixture module has second surface, and this second surface is to should the first surface setting, and this second surface is concaved with plurality of fixed groove and standing groove in regular turn.

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