CN1598658A - Liquid crystal display device - Google Patents

Abstract

The invention discloses a liquid crystal displaying equipment, it includes an optical leading module, a liquid crystal module, a frame, an electric frame and a grounded groupware. The liquid crystal module is set on the optical leading module, and it has a conducting layer. The frame covers the optical leading module and the liquid crystal module. The electric frame is fixed on the frame and is connected to the conducting layer of the liquid crystal module. The grounded groupware is connected to the electric frame.

Description

Liquid crystal indicator

Technical field

This present invention relates to a kind of liquid crystal indicator, particularly discharges the liquid crystal indicator that is damaged relevant for a kind of preventing because of static.

Background technology

In general, known LCD all has similar structure haply.As shown in Figure 1, a known LCD 1 mainly includes a light guide module (light guide module) 11, once Polarizer (upper polarizer) 15, one framework (frame) 16 and two metal frameworks (bezel) 17 on Polarizer (lower polarizer) 12, one lower glass substrate (lower glasssubstrate) 13, one top glass substrate (upper glass substrate) 14.Especially, following Polarizer 12, lower glass substrate 13, top glass substrate 14 and last Polarizer 15 can be called as a Liquid Crystal Module (LCD module) 10.Light guide module 11 also has a light guide plate (light guide panel) 11a and a light source 11b.Following Polarizer 12 is to be arranged on the light guide module 11, simultaneously, also has a gap 18 between Polarizer 12 and the light guide module 11 down.Lower glass substrate 13 is to be arranged at down on the Polarizer 12, and top glass substrate 14 is to be arranged on the lower glass substrate 13, is to be arranged on the top glass substrate 14 and go up Polarizer 15.Framework 16 is to be coated on light guide module 11, the following outside of Polarizer 12, lower glass substrate 13 and top glass substrate 14, and can be in order to fixedly light guide module 11, time Polarizer 12, lower glass substrate 13 and top glass substrate 14.17 of two metal frameworks are the outsides that is coated on top glass substrate 14 and framework 16, simultaneously, two metal frameworks 17, framework 16 and Liquid Crystal Module 10 can be locked together by the screw (not shown).In addition, also be coated with a shell (not shown) in the outside of two metal frameworks 17 and framework 16, and this shell can be to be made of institutes such as magnaliums.

When the light that is sent as light source 11b upwards transmits via light guide plate 11a, light can penetrate gap 18, down Polarizer 12, lower glass substrate 13, top glass substrate 14 and go up Polarizer 15 in regular turn, thereby makes human eye can see the image that Liquid Crystal Module 10 is shown.

It should be noted that because LCD is to belong to the high-tension radiation source of a kind of low current, so the Electromagnetic Interference of LCD mainly is based on electric field.In LCD running or transport process, the phenomenon that static discharges takes place because of the generation of electrostatic potential in regular meeting, and the static regular meeting that this discharges causes the Liquid Crystal Module in the LCD to damage.

Similarly, in LCD 1, it does not provide any electrostatic discharge protective (electrostatic dissipative, ESD) structure or function, therefore, when a high-pressure electrostatic release phenomenon took place, the Liquid Crystal Module 10 of LCD 1 also can suffer nonvolatil damage because of bearing this high-pressure electrostatic, so make the production reliability of LCD 1 reduce with and manufacturing cost improve.

Summary of the invention

In view of this, the objective of the invention is to provide a kind of liquid crystal indicator of improvement, to overcome the above-mentioned problem damaged of causing because of the high-pressure electrostatic release phenomenon.Liquid crystal indicator of the present invention is designed by the design rule of following electrostatic discharge protective (ESD), and therefore, liquid crystal indicator of the present invention can be because of the high-pressure electrostatic release phenomenon be damaged, and then its production reliability is significantly promoted.

The present invention adopts as detailed below feature with in order to solve the above problems basically.That is to say, the present invention includes a light guide module; One Liquid Crystal Module is arranged on this light guide module, and has a conductive layer; One framework is coated on this light guide module and this Liquid Crystal Module; One conductive frame is arranged on this framework, and is connected in this conductive layer of this Liquid Crystal Module; And a grounding assembly, be connected in this conductive frame.

Simultaneously, according to liquid crystal indicator of the present invention, this conductive layer is a transparency conducting layer.

Again in the present invention, this conductive layer is a net-shaped metal layer.

Again in the present invention, this transparency conducting layer is made up of indium tin oxide (ITO).

Again in the present invention, this net-shaped metal layer is to be provided with and to be distributed on the non-transmission region of this Liquid Crystal Module.

Again in the present invention, this net-shaped metal layer is made up of copper.

Again in the present invention, this net-shaped metal layer is made up of silver.

Again in the present invention, this conductive frame has more a kink, and this conductive frame is this conductive layer that is connected in this Liquid Crystal Module by this kink.

Again in the present invention, this Liquid Crystal Module has more one first Polarizer, one first glass substrate, one second glass substrate and one second Polarizer, this first glass substrate is to be arranged on this first Polarizer, this second glass substrate is to be arranged on this first glass substrate, this conductive layer is to form on this second glass substrate, and this second Polarizer is to be arranged on this conductive layer.

Again in the present invention, this light guide module has more a light guide plate and at least one light source, and this light source is to be arranged on the side of this light guide plate.

Again in the present invention, have more a gap between this light guide module and this Liquid Crystal Module.

Description of drawings

Fig. 1 is the diagrammatic cross-section that shows a known LCD;

Fig. 2 is the diagrammatic cross-section that shows the liquid crystal indicator of first embodiment of the present invention;

Fig. 3 is the diagrammatic cross-section that shows the liquid crystal indicator of second embodiment of the present invention; And

Fig. 4 is the diagrammatic cross-section that shows the liquid crystal indicator of the 3rd embodiment of the present invention.

Symbol description:

The 1-LCD

The 10-Liquid Crystal Module

The 11-light guide module

The 11a-light guide plate

The 11b-light source

Polarizer under the 12-

The 13-lower glass substrate

The 14-top glass substrate

The last Polarizer of 15-

The 16-framework

The 17-metal framework

The 18-gap

100,100 ', 100 "-liquid crystal indicator

The 110-light guide module

The 111-light guide plate

The 112-light source

The 120-Liquid Crystal Module

121-first Polarizer

122-first glass substrate

123-second glass substrate

124-second Polarizer

The 125-conductive layer

130,130 '-framework

140,140 '-conductive frame

The 141-kink

The 150-grounding assembly

The 160-gap

Embodiment

Now cooperate graphic explanation preferred embodiment of the present invention.

First embodiment

See also Fig. 2, the liquid crystal indicator 100 of present embodiment mainly includes a light guide module (light guide module) 110, one Liquid Crystal Module (LCD module) 120, one framework (frame) 130, plural conductive framework (bezel) 140 and a grounding assembly (groundingelement) 150.

Light guide module 110 has a light guide plate (light guide panel) 111 and one light source 112, and light source 112 is to be arranged on the side of light guide plate 111.Liquid Crystal Module 120 is to be arranged on the light guide module 110, and also has a gap 160 between Liquid Crystal Module 120 and light guide module 110.Liquid Crystal Module 120 is to be made up of one first Polarizer (first polarizer), 121,1 first glass substrate (first glass substrate), 122,1 second glass substrate (second glasssubstrate), 123 and 1 second 124 of Polarizers (second polarizer).Most particularly, among Liquid Crystal Module 120, also has a conductive layer 125.As mentioned above, first glass substrate 122 is to be arranged on first Polarizer 121, second glass substrate 123 is to be arranged on first glass substrate 122, and conductive layer 125 is to form on second glass substrate 123, and second Polarizer 124 is to be arranged on the conductive layer 125.It should be noted that on Liquid Crystal Module 120 and can roughly divide into transmission region and non-transmission region again.Hence one can see that, and conductive layer 125 must can not be provided with under the prerequisite of crested at the transmission region of Liquid Crystal Module 120, and therefore, present embodiment is to adopt a transparency conducting layer or a net-shaped metal layer to come as conductive layer 125.For example, transparency conducting layer can be that (indium tin oxide ITO) forms by indium tin oxide.As for net-shaped metal layer then is to avoid the transmission region of Liquid Crystal Module 120 on forming in second glass substrate 123 time, that is to say that the zone of net-shaped metal layer institute actual distribution all must be to be positioned on the non-transmission region of Liquid Crystal Module 120.In addition, net-shaped metal layer can be made up of silver, copper or other metal material with satisfactory electrical conductivity.

Still as shown in Figure 2, framework 130 is to be coated on light guide module 110 and Liquid Crystal Module 120, and it can be used to fixedly light guide module 110 and Liquid Crystal Module 120.

Conductive frame 140 is to be arranged on the framework 130, and it can further lock together framework 130 and Liquid Crystal Module 120 etc.Especially, the conductive frame 140 of present embodiment is the conductive layer 125 that is connected in Liquid Crystal Module 120, and simultaneously, conductive frame 140 is connected with grounding assembly 150 again.

According to the structure of the above-described liquid crystal indicator 100 of present embodiment as can be known, in a single day when having the buildup of static electricity phenomenon to produce among liquid crystal indicator 100 or the Liquid Crystal Module 120, electrostatic induced current just can conduct to conductive frame 140 via conductive layer 125, and then derived via grounding assembly 150, therefore, the intraware of liquid crystal indicator 100 or Liquid Crystal Module 120 just can not come to harm because of the existence of static release phenomenon.In addition, after liquid crystal indicator 100 manufactured finishing, it also can be passed to a high-pressure electrostatic and be done the safety test of electrostatic discharge protective (ESD), can learn so whether liquid crystal indicator 100 is qualified aspect electrostatic discharge protective.

Second embodiment

In the present embodiment, identical with first embodiment assembly all indicates with identical label.

See also Fig. 3, the liquid crystal indicator 100 ' of present embodiment mainly includes a light guide module 110, a Liquid Crystal Module 120, a framework 130, plural conductive framework 140 ' and a grounding assembly 150.

The difference of the present embodiment and first embodiment is to be the constructional difference of conductive frame, and remaining assembly structure and configuration mode are all identical with first embodiment, therefore, can be clearer understandable for asking description, its identical narration of Therefore, omited.

Still see also Fig. 3, can reach lightweight and purpose of thinness for making liquid crystal indicator 100 ', present embodiment reduces the thickness of conductive frame 140 ' (being half of thickness of the conductive frame 140 of first embodiment).Simultaneously, also be formed with a kink 141 on conductive frame 140 ', this kink 141 is to press down the conductive layer 125 that is contacted with Liquid Crystal Module 120, so conductive frame 140 ' is the conductive layer 125 that is connected in Liquid Crystal Module 120 by kink 141.

Similarly, in a single day when having the buildup of static electricity phenomenon to produce among liquid crystal indicator 100 ' or the Liquid Crystal Module 120, electrostatic induced current just can conduct to conductive frame 140 ' via conductive layer 125, kink 141, and then derived via grounding assembly 150, therefore, the intraware of liquid crystal indicator 100 ' or Liquid Crystal Module 120 just can not come to harm because of the existence of static release phenomenon.In addition, after liquid crystal indicator 100 ' manufactured the finishing, it also can be passed to a high-pressure electrostatic and be done the safety test of electrostatic discharge protective (ESD), can learn so whether liquid crystal indicator 100 ' is qualified aspect electrostatic discharge protective.

As for conductive frame 140 ' is partly made kink 141 with contacting of conductive layer 125, except above-mentioned lightweight and slimming are considered, still also because press down when being connected in conductive layer 125 when conductive frame 140 ', kink 141 can more positively form with conductive layer 125 and closely contact, and the overall construction intensity of conductive frame 140 ' is more promoted.

The 3rd embodiment

In the present embodiment, identical with first embodiment assembly all indicates with identical label.

See also Fig. 4, the liquid crystal indicator 100 of present embodiment " mainly include a light guide module (light guide module) 110, one Liquid Crystal Module (LCD module) 120 and one framework (frame) 130 '.Specifically, framework 130 ' can be made by conductive materials, and has the function of ground connection.

Light guide module 110 has a light guide plate (light guide panel) 111 and one light source 112, and light source 112 is to be arranged on the side of light guide plate 111.Liquid Crystal Module 120 is to be arranged on the light guide module 110, and also has a gap 160 between Liquid Crystal Module 120 and light guide module 110.Liquid Crystal Module 120 is to be made up of one first Polarizer (first polarizer), 121,1 first glass substrate (first glass substrate), 122,1 second glass substrate (second glasssubstrate), 123 and 1 second 124 of Polarizers (second polarizer).Most particularly, among Liquid Crystal Module 120, also has a conductive layer 125.As mentioned above, first glass substrate 122 is to be arranged on first Polarizer 121, second glass substrate 123 is to be arranged on first glass substrate 122, and conductive layer 125 is to form on second glass substrate 123, and second Polarizer 124 is to be arranged on the conductive layer 125.It should be noted that on Liquid Crystal Module 120 and can roughly divide into transmission region and non-transmission region again.Hence one can see that, and conductive layer 125 must can not be provided with under the prerequisite of crested at the transmission region of Liquid Crystal Module 120, and therefore, present embodiment is to adopt a transparency conducting layer or a net-shaped metal layer to come as conductive layer 125.For example, transparency conducting layer can be that (indium tin oxide ITO) forms by indium tin oxide.As for net-shaped metal layer then is to avoid the transmission region of Liquid Crystal Module 120 on forming in second glass substrate 123 time, that is to say that the zone of net-shaped metal layer institute actual distribution all must be to be positioned on the non-transmission region of Liquid Crystal Module 120.In addition, net-shaped metal layer can be made up of silver, copper or other metal material with satisfactory electrical conductivity.

Still as shown in Figure 4, framework 130 ' is to be coated on light guide module 110 and Liquid Crystal Module 120, and simultaneously, framework 130 ' is the conductive layer 125 that is connected in Liquid Crystal Module 120.

Framework 130 ' that it should be noted that present embodiment can be described as framework among first embodiment 130 and conductive frame 140 are combined, and on making, framework 130 ' can integrally formed mode be made.

According to the above-described liquid crystal indicator 100 of present embodiment " structure as can be known; when liquid crystal indicator 100 " or Liquid Crystal Module 120 in case when having the buildup of static electricity phenomenon to produce, electrostatic induced current just can conduct to framework 130 ' via conductive layer 125, at this moment, because framework 130 ' has the function of ground connection, so electrostatic induced current can be derived via framework 130 ', therefore, liquid crystal indicator 100 " or the intraware of Liquid Crystal Module 120 just can not come to harm because of the existence of static release phenomenon.In addition, at liquid crystal indicator 100 " after manufactured the finishing, it also can be passed to a high-pressure electrostatic and do the safety test of electrostatic discharge protective (ESD), so can learn liquid crystal indicator 100 " whether qualified aspect electrostatic discharge protective.

Claims (10)

1. liquid crystal indicator comprises:

One light guide module;

One Liquid Crystal Module is arranged on this light guide module, and this Liquid Crystal Module comprises one second glass substrate, more forms a conductive layer on this second glass substrate;

One framework is coated on this light guide module and this Liquid Crystal Module;

One conductive frame is arranged on this framework, and is connected in this conductive layer of this Liquid Crystal Module; And

One grounding assembly is connected in this conductive frame.

2. liquid crystal indicator according to claim 1, wherein, this conductive layer is a transparency conducting layer or a net-shaped metal layer, this transparency conducting layer is made up of indium tin oxide (ITO), this net-shaped metal layer is to be provided with and to be distributed on the non-transmission region of this Liquid Crystal Module, and this net-shaped metal layer is made up of copper or silver.

3. liquid crystal indicator according to claim 1, wherein, this conductive frame has more a kink, and this conductive frame is this conductive layer that is connected in this Liquid Crystal Module by this kink.

4. liquid crystal indicator according to claim 1, wherein, this Liquid Crystal Module has more one first Polarizer, one first glass substrate, one second glass substrate and one second Polarizer, this first glass substrate is to be arranged on this first Polarizer, this second glass substrate is to be arranged on this first glass substrate, this conductive layer is to form on this second glass substrate, and this second Polarizer is to be arranged on this conductive layer.

5. liquid crystal indicator according to claim 1, wherein, this light guide module has more a light guide plate and at least one light source, and this light source is to be arranged on the side of this light guide plate, and has more a gap between this light guide module and this Liquid Crystal Module.

6. liquid crystal indicator comprises:

One light guide module;

One Liquid Crystal Module is arranged on this light guide module, and this Liquid Crystal Module comprises one second glass substrate, more forms a conductive layer on this second glass substrate;

One framework is coated on this light guide module and this Liquid Crystal Module, and is connected in this conductive layer of this Liquid Crystal Module.

7. liquid crystal indicator according to claim 6, wherein, this framework is made by conductive materials.

8. liquid crystal indicator according to claim 6, wherein, this conductive layer is a transparency conducting layer or a net-shaped metal layer, this transparency conducting layer is made up of indium tin oxide (ITO), this net-shaped metal layer is to be provided with and to be distributed on the non-transmission region of this Liquid Crystal Module, and this net-shaped metal layer is made up of copper or silver.

9. liquid crystal indicator according to claim 6, wherein, this Liquid Crystal Module has more one first Polarizer, one first glass substrate, one second glass substrate and one second Polarizer, this first glass substrate is to be arranged on this first Polarizer, this second glass substrate is to be arranged on this first glass substrate, this conductive layer is to form on this second glass substrate, and this second Polarizer is to be arranged on this conductive layer.

10. liquid crystal indicator according to claim 6, wherein, this light guide module has more a light guide plate and at least one light source, and this light source is to be arranged on the side of this light guide plate, and has more a gap between this light guide module and this Liquid Crystal Module.

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