CN103605220A

CN103605220A - Display device, display module assembling method and inflatable airbag manufacturing method

Info

Publication number: CN103605220A
Application number: CN201310585989.2A
Authority: CN
Inventors: 林士斌
Original assignee: AU Optronics Corp
Current assignee: AU Optronics Corp
Priority date: 2013-11-19
Filing date: 2013-11-19
Publication date: 2014-02-26
Anticipated expiration: 2033-11-19
Also published as: CN103605220B

Abstract

The invention discloses a display device, a display module assembling method and an inflatable airbag manufacturing method. The display device comprises a backlight module, a display panel and an inflatable airbag, the display panel is arranged on the backlight module, the inflatable airbag defines a containing space, and both the display panel and the backlight module are contained in the containing space and contact with the inflatable airbag.

Description

The assemble method of display device, display module and the method for making of air bag

Technical field

The invention relates to a kind of display device, and particularly about the method for making of assemble method and the air bag of a kind of display device, display module.

Background technology

Liquid crystal indicator comprises backlight module and is arranged at the liquid crystal panel on backlight module.Fabricator generally can utilize glue frame and chase frame to live backlight module and liquid crystal panel, then inserts in the system framework (as the shell of computer screen or TV screen) of end product.

Yet, because glue frame and chase occupy certain space, and also there is certain weight, therefore can increase volume and the weight of end product, and be unfavorable for lightening design.

Summary of the invention

In view of this, an object of the present invention is to provide the method for making of assemble method and the air bag of a kind of display device, display module, to omit chase and the glue frame in liquid crystal indicator.

According to one embodiment of the present invention, a kind of display device comprises a backlight module, a display panel and an air bag.Display panel is to be arranged on backlight module.Air bag defines an accommodation space.Display panel is all placed in accommodation space with backlight module and contacts air bag.

In present embodiment, because display panel and backlight module are to be placed in air bag, and can be inflated air bag, support and protect, therefore can omit glue frame and chase.

According to another embodiment of the present invention, a kind of assemble method of display module comprises: a display device is provided; Display device is positioned on a system framework; The air bag of display device is poked, made the backlight module of display device and display panel fall into system framework.

In present embodiment, when wish is during by display device imbedding system framework, only need first the air bag that is carrying display device to be positioned on system framework, then after air bag is poked, can make the backlight module of display device and display panel fall into system framework.Due to the air bag volume after losing heart and weight all lower with volume and the weight of chase than glue frame, therefore can be beneficial to the lightening design of end product.

According to another embodiment of the invention, a kind of method for making of air bag comprises: film body and film body are once provided on separate one; A plurality of syringe needles are connected in a plurality of tension lines; Utilize film body and lower film body in needle pierces; Tension lines outside the space being positioned between upper film body and lower film body is cut off; And the upper edge of film body of joint and the edge of lower film body.

In present embodiment, the produced air bag of the method can have a plurality of tension lines in wherein, and helps the fixedly shape of air bag.

The above is only effect of the problem of setting forth institute of the present invention wish solution, the technological means of dealing with problems and generation thereof etc., and detail of the present invention will be introduced in the embodiment below and relevant drawings in detail.

Accompanying drawing explanation

For above and other object of the present invention, feature, advantage and embodiment can be become apparent, appended the description of the drawings is as follows:

Figure 1A to Fig. 1 C illustrates display module according to an embodiment of the present invention sectional view in assembling process;

Fig. 2 illustrates the enlarged drawing of the regional area R of Figure 1A;

Fig. 3 illustrates the part sectioned view according to the air bag of another embodiment of the present invention;

Fig. 4 illustrates the part sectioned view according to the display module of another embodiment of the present invention;

Fig. 5 illustrates the vertical view of the system framework of Fig. 4;

Fig. 6 A to Fig. 6 C illustrates display module according to another embodiment of the present invention sectional view in assembling process;

Fig. 7 illustrates the sectional view according to the display device of another embodiment of the present invention; And

The sectional view of the air bag that Fig. 8 A to Fig. 8 C illustrates Fig. 7 in manufacturing process.

Embodiment

Below will disclose a plurality of embodiment of the present invention with accompanying drawing, as clearly stated, the details in many practices will be explained in the following description.Yet those of ordinary skill in the art should recognize, in another embodiment of the present invention, the details in these practices is also non-essential, therefore does not apply to limit the present invention.In addition,, for the purpose of simplifying accompanying drawing, some known habitual structures and element illustrate the mode simply to illustrate in the accompanying drawings.

Figure 1A to Fig. 1 C illustrates display module according to an embodiment of the present invention sectional view in assembling process.As shown in Figure 1A, display module can comprise display device 10 and system framework 300.Display device 10 can comprise air bag 100 and be positioned at the panel assembly 200 on air bag 100.Panel assembly 200 can comprise display panel 210 and backlight module 220.Display panel 210 is to be arranged on backlight module 220.Air bag 100 definition accommodation spaces 140, that is air bag 100 has accommodation space 140 in its surface.Display panel 210 is all placed in accommodation space 140 with backlight module 220, and both all can contact air bag 100, and be inflated air bag 100, supports.

By above-mentioned embodiment, display panel 210 is to be all placed in the accommodation space 140 of air bag 100 with backlight module 220, and be inflated air bag 100, supports.In addition, in air bag 100, be filled with gas, thus the impact with backlight module 220 for display panel 210 of available buffer external force, thus protection display panel 210 and backlight module 220.Therefore, above-mentioned embodiment can only support and protect display panel 210 and backlight module 220 with air bag 100, and need not adopt glue frame and chase.

Furthermore, as shown in Figure 1A, air bag 100 has upper film body 110, lower film body 120 and side form body 130.Side form body 130 connects upper film body 110 and lower film body 120.Upper film body 110 and lower film body 120 spacing of being separated by, and in common definition air chamber 150 is therebetween.Upper film body 110 separates accommodation space 140 and interior air chamber 150.In other words, accommodation space 140 and interior air chamber 150 be lay respectively at upper film body 110 relative both sides (for example: upper and lower both sides).In interior air chamber 150, fill up gas, so that upper film body 110, lower film body 120 and side form body 130 are the state of tensioning, in order to air bag 100, support display panel 210 and backlight module 220.

Should be appreciated that, in Figure 1A, upper film body 110 is only the accommodation space 140 of watching air bag 100 in order to help reader with the gap of panel assembly 200, does not represent that film body 110 and panel assembly 200 certainly exist gap.In other words, in part embodiment, can gapless between upper film body 110 and panel assembly 200, with supported panel assembly 200 more firmly.

When wish is assembled this display module, that is, when interior, as shown in Figure 1A, can make display device 10 move (for example: the direction along arrow A 1 moves) towards system framework 300 display device 10 imbedding system frameworks 300.Then, as shown in Figure 1B, display device 10 can be positioned on system framework 300, and poke air bag 100, and make Leakage Gas in interior air chamber 150 to air bag 100.As shown in Figure 1 C, after air bag 100 (can consult Figure 1B) loses heart, air bag 100 can crumples and form the air bag 900 that loses heart, and display panel 210 and backlight module 220 are all fallen in the groove 310 of system framework 300, and by 300 of system frameworks around.Because the volume of the disappointing air bag 900 volume ratio glue frames after poking and chase is lower, thus the required groove of system framework 300 310 spaces can be reduced, thus reduce the volume of display module.In addition, the weight of the air bag 900 that loses heart is also lower with the weight of chase than glue frame, therefore can reduce the weight of display module.

In part embodiment, as shown in Figure 1A, system framework 300 can have bossy body 320.This bossy body 320 can be in order to poke air bag 100.Furthermore, bossy body 320 is to protrude from the cell wall 312 of groove 310 of system framework 300.As shown in Figure 1B, when air bag 100 is positioned on system framework 300, bossy body 320 can prop up the lower film body 120 of air bag 100, because lower film body 120 is tensioning state, therefore lower film body 120 can be pierced through by bossy body 320, and releases the gas in interior air chamber 150.In part embodiment, the material of bossy body 320 can be resilient material, thus, when panel assembly 200 falls into the groove 310 of system framework 300, can flatten bossy body 320 (flat bossy body 320 as shown in Figure 1 C).In other embodiments, the quantity of bossy body 320 can be a plurality of (for example two), and when panel assembly 200 falls into groove 310, these two bossy bodies 320 can be used to positioning panel assembly 200.For instance, the material of these two bossy bodies 320 can be non-elastic material (for example metal), and when panel assembly 200 falls into groove 310, these two bossy bodies 320 can not flattened by panel assembly 200, and be positioned at the relative both sides of panel assembly 200, to prevent that panel assembly 200 from moving.

In part embodiment, assembler can protrude into a sharp object in air bag 100, so that air bag 100 breaks and lose heart, and in this embodiment, system framework 300 can arrange bossy body 320.

In part embodiment, display device 10 can be placed in subnormal ambient with system framework 300, after being poked, accelerates the speed of gas leakage air bag 100 in order to air bag 100.For instance, in display device 10 and system framework 300Ke negative pressure chamber, assemble, that is, in staff Ke negative pressure chamber, poke air bag 100.

As shown in Figure 1A, in part embodiment, panel assembly 200 also comprises polaroid 230, lower polaroid 240, optical film 250 and driving element 260.Display panel 210 comprises colored filter 212 and thin-film transistor array base-plate 214.Colored filter 212 is to be arranged on thin-film transistor array base-plate 214.Upper polaroid 230 is sides that are arranged at colored filter 212 relative thin-film transistor array base-plates 214.Lower polaroid 240 is to be arranged at thin-film transistor array base-plate 214 with respect to a side of colored filter 212.Optical film 250 is to be located between backlight module 220 and lower polaroid 240, and it can comprise the blooming pieces such as diffusion barrier or prismatic lens, but the present invention is not as limit.Driving element 260 is to be arranged on thin-film transistor array base-plate 214, to drive the thin film transistor (TFT) (not being shown in figure) on thin-film transistor array base-plate 214.

Fig. 2 illustrates the enlarged drawing of the regional area R of Figure 1A.As shown in Figure 2, in part embodiment, side form body 130 has a plurality of

depressions

132 and 134, so that side form body 130 crumple when air bag 100 (can consult Figure 1A) loses heart.Furthermore, side form body 130 has outside surface 131 respect to one another and inside surface 133.Inside surface 133 is in the face of interior air chamber 150.Depression 132 is to be arranged with in outside surface 131, and depression 134 is to be arranged with in inside surface 133.Therefore, outside surface 131 and the inside surface 133 of side form body 130 all can be concavo-convex fluctuating shape, and can reduce structural strength, are beneficial to side form body 130 rapid crumple when air bag 100 loses heart and become flat film.In part embodiment, can only on side form body 130 1 surfaces, be provided with depression.Furthermore, in part embodiment, the outside surface 131 of side form body 130 can be provided with depression 132, and inside surface 133 is without depression 134.In other embodiments, the outside surface 131 of side form body 130 is without depression 132, and inside surface 133 can be provided with depression 134.

In part embodiment, as shown in Figure 1A, the material of air bag 100 can be hot melt adhesive material.Thus, air bag 100 can be heated and produce viscosity, system framework 300 is adhered on backlight module 220, display panel 210 or both.In part embodiment, after air bag 100 loses heart, form while losing heart air bag 900 (can consult Fig. 1 C), also can be to air bag 900 heating of losing heart, so that lose heart, air bag 900 produces viscosity, and system framework 300 is adhered to backlight module 220, display panel 210 or both are upper, thereby fixed display panel 210 and backlight module 220.

For instance, the material of air bag 100 can be the hot melt adhesive materials such as tygon, polypropylene, polystyrene, polymethylmethacrylate, Polyvinylchloride, polyamide fibre, polycarbonate, polyurethane, teflon or polyethylene terephthalate, but the present invention is not as limit.

Fig. 3 illustrates the part sectioned view according to the air bag 100a of another embodiment of the present invention.As shown in Figure 3, in present embodiment, a plurality of microstructures 400 of breaking can be arranged on air bag 100a.Furthermore, upper film body 110 has the outside surface 112 with respect to interior air chamber 150, and lower film body 120 also has the outside surface 122 with respect to interior air chamber 150.The microstructure of can breaking 400 can be arranged on the outside surface 112 of film body 110, or on the outside surface 122 of lower film body 120, or on both.Each microstructure 400 of can breaking has can break shell 410 and viscosity glue material 420.Viscosity glue material 420 is to be coated on can break in shell 410.When air bag 100a is poked and is clipped between display panel 210, backlight module 220 and system framework 300 (can consult Fig. 1 C), the shell 410 that can break can break because bearing oppressive force, thereby viscosity glue material 420 is flowed out can break outside shell 410, and paste display panel 210, backlight module 220 or system framework 300, so display panel 210 and backlight module 220 can be adhered on system framework 300, thus fixed display panel 210 and backlight module 220.

In part embodiment, as shown in Figure 3, air bag 100a has a plurality of

micropore

111 and 121 of holding.A plurality of microstructures 400 of breaking are to be contained in respectively to hold in micropore 111 and 121.Furthermore, holding micropore 111 is to be arranged with on the outside surface 112 of upper film body 110, and hold micropore 121, is to be arranged with on the outside surface 122 of lower film body 120.When air bag 100 is not oppressed, holds the depth D 1 of micropore 111 and the thickness T of the microstructure 400 of can breaking about equally, and hold the depth D 2 of micropore 121 and the thickness T of the microstructure 400 of can breaking also about equally.Thus, when air bag 100 is not oppressed, the microstructure of can breaking 400 can not protrude from the outside surface 112 of film body 110 and the outside surface 122 of lower film body 120, and can prevent can break microstructure 400 crush the microstructure 400 of can breaking of foreign object false touch.

Fig. 4 illustrates the part sectioned view according to the display module of another embodiment of the present invention.Fig. 5 illustrates the vertical view of the system framework 300a of Fig. 4.As shown in Figures 4 and 5, in part embodiment, system framework 300a has exhaust passage 340.Exhaust passage 340 is the cell walls 312 that are arranged with in system framework 300a.In exhaust passage 340, be provided with bossy body 320.Thus, when bossy body 320 is poked lower film body 120, and while forming holes 123 on lower film body 120, the gas in interior air chamber 150 can be expelled to exhaust passage 340 from holes 123, thereby helps to lose heart.In part embodiment, exhaust passage 340 can be communicated with air extractor, in order to accelerating, loses heart.

Fig. 6 A to Fig. 6 C illustrates display module according to another embodiment of the present invention sectional view in assembling process.As shown in Figure 6A, in present embodiment, the lower film body 120b of air bag 100b is stepped, with the shape of coupled system framework 300b.Furthermore, lower film body 120b can comprise lower sub-film 124,126 and 128 and separation membrane 162 and 164.Interior air chamber 150 can comprise sub-air chamber 152,154 and 156.

Lower sub-the film

124 and 126 one section of difference of being separated by, and separation membrane 162 connects

lower sub-films

124 and 126, and separate sub-air chamber 152 and 154.Similarly,

lower sub-the film

126 and 128 one section of difference of being also separated by, and separation membrane 164 connects

lower sub-films

126 and 128, and separate sub-air chamber 154 and 156.The height of lower sub-film 128 is the height higher than lower sub-film 126, and the height of lower sub-film 126 is the height higher than lower sub-film 124.Thus, lower film body 120b can be stepped, with the shape of coupled system framework 300b, and each position that helps lower film body 120b contact system framework 300b simultaneously, with stressed equably.

In part embodiment, as shown in Figure 6A, system framework 300b can comprise a plurality of holding tanks 332,334 and 336 and a plurality of panel wall 352 and 354.Panel wall 352 separates holding tank 332 and 334.Panel wall 354 separates holding tank 334 and 336.Separation membrane 162,164 and side form body 130 can align with holding tank 332,334 and 336 respectively.In other words, separation membrane 162,164 and side form body 130 can be positioned at holding tank 332,334 and 336 directly over.Thus, after air bag 100b is poked, separation membrane 162,164 and the side form body 130 of crumple can fall into respectively holding tank 332,334 and 336.

Furthermore, when wish by display device 10b imbedding system framework 300b in time, as shown in Figure 6B, can first panel assembly 200 be positioned on system framework 300b jointly together with air bag 100b, then, can poke air bag 100b (for example poke with the bossy body 320 on system framework 300b, or utilize sharp object to protrude in air bag 100b by assembler).After air bag 100b is poked, as shown in Figure 6 C, air bag 100b can lose heart and form the air bag 900b that loses heart, and makes display panel 210 and backlight module 220 all fall into system framework 300b.Now, separation membrane 162,164 and side form body 130 after crumple can fall into respectively holding tank 332,334 and 336, and avoid padded panel assembly 200.In part embodiment, as shown in Figure 6A, in holding tank 332, can be provided with bossy body 320, to poke lower sub-film 124, on

panel wall

352 and 354, also can be provided with bossy body 320, to poke respectively

lower sub-film

126 and 128.

In part embodiment, as shown in Figure 6A, display module also can comprise a top cover 500.Top cover 500 covers display panel 210.In the assembling process of display module, staff can force in the top cover 500 direction application of force of arrow A 2 (for example along) downwards, so that panel assembly 200 moves towards system framework 300b.In part embodiment, top cover 500 can be a glass, but the present invention is not as limit.

Fig. 7 illustrates the sectional view according to the display device 10c of another embodiment of the present invention.As shown in Figure 7, display device 10c can comprise a plurality of tension lines 600.These tension lines 600 are to be arranged in air chamber 150, and connect upper film body 110 and lower film body 120.Furthermore, each tension lines 600 can comprise 610, bottom, upper end 620 and main line body 630.610Yu bottom, upper end 620 is the opposite ends that are positioned at main line body 630.Upper end 610 is to be fixed on film body 110, and bottom 620 is to be fixed on lower film body 120.When interior air chamber 150 fills up gas, tension lines 600 is tensionings.Thus, tension lines 600 can help the shape of fixing upper film body 110 and lower film body 120, and prevents air bag 100 distortion.

The sectional view of the air bag 100 that Fig. 8 A to Fig. 8 C illustrates Fig. 7 in manufacturing process.As shown in Figure 8 A, can provide separate upper film body 110 and lower film body 120.For instance, can provide a pair of separate

film adsorption plate

710 and 720, and upper film body 110 is adsorbed in respectively to this on

film adsorption plate

710 and 720 with lower film body 120.Furthermore, film adsorption plate 710 has end face 712 and with respect to the bottom surface 714 of end face 712, and film adsorption plate 720 also has end face 722 and with respect to the bottom surface 724 of end face 722.The bottom surface 714 of film adsorption plate 710 is the end faces 722 in the face of film adsorption plate 720.Upper film body 110 is adsorbable on the bottom surface 714 of film adsorption plate 710, and lower film body 120 is adsorbable on the end face 722 of film adsorption plate 720.As shown in Figure 8 A, syringe needle 800 can be connected in tension lines 600.For instance, the bottom of tension lines 600 620 can be fixed on syringe needle 800.

Then, as shown in Figure 8 B, syringe needle 800 can sting puts on film body 110 and lower film body 120.Furthermore,

film adsorption plate

710 and 720 has respectively opening 716 and 726.Syringe needle 800 can be put on film body 110 and lower film body 120 to sting through the opening 716 and 726 of

film adsorption plate

710 and 720, and on upper film body 110 and lower film body 120, forms respectively hole 115 and hole 125.

Then, as shown in Figure 8 C, the tension lines 600 being positioned at outside the space of 120 of upper film body 110 and lower film bodies can be cut off, only leave the tension lines 600 between upper film body 110 and lower film body 120.Then, can seal the hole 115 of film body 110 and the hole 125 of lower film body 120 (can consult Fig. 8 B).For instance, can utilize the mode of hot melt or viscose glue that tension lines 600 and

hole

115 and 125 coating materials are around bonded together, thereby cap

holes

115 and 125, and can make the upper end 610 of tension lines 600 be fixed on film body 110, and bottom 620 is fixed on lower film body 120.

Finally, can engage the edge 117 of film body 110 and the edge 127 of lower film body 120.For instance, the edge of upper film body 110 117 can be bent downwards, and by upwards bending of the edge of lower film body 120 127.The edge 117 being bent and 127 can be bonded together, and forms side form body 130 (can consult Fig. 7).For instance, the edge 117 being bent and 127 can be bonded together by the mode of hot melt or viscose glue, but the present invention is not as limit.

In part embodiment, on engaging before the edge 117 of film body 110 and the edge 127 of lower film body 120, can first upper film body 110 be positioned in compression chamber with lower film body 120, so that fill up gases at high pressure in the air bag 100 after moulding (can consult Fig. 7).

Should be appreciated that, described in this instructions " on " element or D score element be only to help reader to understand the relative position between element, do not represent " on " element must be positioned at the top of another element, or D score element must be positioned at the below of another element.

Although the present invention discloses as above with embodiment; so it is not in order to limit the present invention; anyly be familiar with this skill person; without departing from the spirit and scope of the present invention; when being used for a variety of modifications and variations, so the scope that protection scope of the present invention ought define depending on appending claims is as the criterion.

Claims

1. a display device, is characterized in that, comprises:

One backlight module;

One display panel, is arranged on this backlight module; And

One air bag, this air bag defines an accommodation space, and this display panel is all placed in this accommodation space with this backlight module and contacts this air bag.

2. display device according to claim 1, is characterized in that, also comprises:

A plurality of tension lines, and this air bag has on one film body and film body once, and on this, film body and this lower film body define an interior air chamber therebetween, and on this, film body separates this accommodation space and this interior air chamber, and described tension lines connects film body and this lower film body on this.

3. display device according to claim 2, is characterized in that, this lower film body is stepped.

4. display device according to claim 2, is characterized in that, also comprises:

At least one side form body, connects film body and this lower film body on this, and this side form body has a plurality of depressions.

5. display device according to claim 1, is characterized in that, the material of this air bag is hot melt adhesive material.

6. display device according to claim 1, it is characterized in that, the material of this air bag is tygon, polypropylene, polystyrene, polymethylmethacrylate, Polyvinylchloride, polyamide fibre, polycarbonate, polyurethane, teflon or polyethylene terephthalate.

7. display device according to claim 1, is characterized in that, also comprises:

A plurality of microstructures of breaking, are arranged at an outside surface of this air bag, and the microstructure of can breaking described in each has a viscosity glue material in wherein.

8. display device according to claim 7, is characterized in that, this air bag has a plurality of micropores that hold, and is arranged with this outside surface in this air bag, and the described microstructure of breaking is to hold in micropore described in being contained in respectively.

9. an assemble method for display module, is characterized in that, comprises:

One display device is provided, this display device comprises a backlight module, a display panel and an air bag, this display panel is to be arranged on this backlight module, this air bag defines an accommodation space, and this display panel is all placed in this accommodation space with this backlight module and contacts this air bag;

This display device is positioned on a system framework; And

This air bag of this display device is poked, made this backlight module and this display panel fall into this system framework.

10. the assemble method of display module according to claim 9, is characterized in that, also comprises:

Heat this air bag, this air bag is adhered to this system framework on this backlight module, this display panel or both.

The assemble method of 11. display modules according to claim 9, is characterized in that, this air bag of this display device is poked and comprised:

Utilize at least one bossy body of this system framework to poke this air bag.

The assemble method of 12. display modules according to claim 9, is characterized in that, also comprises:

This display device and this system framework are placed in to a subnormal ambient.

The method for making of 13. 1 kinds of air bags, is characterized in that, comprises:

Film body and film body are once provided on separate one;

A plurality of syringe needles are connected in a plurality of tension lines;

Utilize described needle pierces film body and this lower film body on this;

By being positioned at the described tension lines outside the space between film body and this lower film body on this, cut off; And

Engage the edge of film body and the edge of this lower film body on this.

The method for making of 14. air bags according to claim 13, is characterized in that, also comprises:

Be enclosed on this on film body and this lower film body, by the formed a plurality of holes of described needle pierces.

The method for making of 15. air bags according to claim 13, is characterized in that, also comprises:

Engaging on this before this edge of film body and this edge of this lower film body, film body on this and this lower film body are positioned in a compression chamber.

The method for making of 16. air bags according to claim 13, is characterized in that, also comprises:

A pair of separate film adsorption plate is provided;

Film body on this and this lower film body are adsorbed in respectively to this on film adsorption plate; And

Described syringe needle is passed to these a plurality of openings to film adsorption plate, to pierce through film body and this lower film body on this.