CN201149855Y - Plasma display spectral filter with contrast enhancement function and plasma display using the same - Google Patents
Plasma display spectral filter with contrast enhancement function and plasma display using the same Download PDFInfo
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- CN201149855Y CN201149855Y CNU2008200621399U CN200820062139U CN201149855Y CN 201149855 Y CN201149855 Y CN 201149855Y CN U2008200621399 U CNU2008200621399 U CN U2008200621399U CN 200820062139 U CN200820062139 U CN 200820062139U CN 201149855 Y CN201149855 Y CN 201149855Y
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Abstract
The utility model provides a PDP (plasma display panel) optical filter with function of contrast ratio enhancement, which includes a PDP optical filter base board L0 and a contrast ratio enhancing membrane structure L which are connected as a whole body. A membrane or meshwork layer with electromagnetic shielding function and a membrane layer with near-infrared and neon characteristic light cutoff function can be distributed on any of the PDP optical filter base board L0 and the contrast ratio enhancing membrane structure L. The contrast ratio enhancing membrane has a special optical structure that a plurality of transparent geometry structure is arranged on the front surface of a transparent base layer L1, the space between the geometry structures is filled with low transmissivity material or non-transparent material. Each transparent geometry structure has a display light entering port and a display light emitting port, the projection area of the light entering port is bigger than that of the light emitting port. The utility model can receive the light emitted by the display and shine out concentratively from the light emitting port while having the function of the PDP optical filter. The reflection of the light that enters into the display from outside is reduced, the interference to the image by the environment light is reduced, and the contrast ratio of the display is enhanced. The PDP optical filter can also be used together with other contrast ratio enhancing method without confliction.
Description
Technical field:
The utility model is relevant with the filter in the display device, relevant with the filter in the plasma scope (PDP) with anti-electromagnetic radiation and filtering functions, relevant with the filter in the plasma scope (PDP) with contrast enhancement function, relevant with the plasma display system that adopts this filter.
Background technology:
The contrast performance of plasma display is one of display performance index of paying much attention to of numerous producers and client.Contrast is exactly the ratio of (white) brightness of (black) when the darkest when same point is the brightest on the screen, specifically exactly white signal is subtracted each other in 100% and 0% saturation, again divided by 0% white value (0% white signal is exactly a black), resulting numeral.
Contrast is just from deceiving to white gradual change level.Ratio is big more, and from black just many more to white gradual change level, thereby color representation is abundant more.Contrast is very crucial to the influence of visual effect, and in general contrast is big more, and image is clear more eye-catching, and color is also distinct more gorgeous; And contrast is little, then can allow whole image all dusky.High-contrast all has very great help for definition, details performance, the gray-level performance of image.It is more obvious that details performance, definition and the high-speed moving object of product in some dark portion scenes that contrast is high shows advantage.From definition, two keys that improve contrast are exactly the brightness that improves white brightness and reduce black.
The brightness of plasma display mainly relies on region of discharge discharge excitation fluorescent material luminous.On raising plasma display brightness problem, many patent achievements have been arranged, as 200410038715 patents that are called the phosphor of brightness emission green glow of application number, a kind of phosphor of transmitting green light of high brightness has been described, this phosphor demonstrates enhanced brightness under UV excites, it is suitable for plasma display panel.And for example application number is 200610055088, name is called dielectric layer structure and has the patent of the plasma display of described structure, dielectric layer structure with groove is set in plasma display has the described dielectric layer of optimum shape with formation, thus make discharge space the size maximization and strengthened emission brightness and discharging efficiency.
Can accomplish under the very bright situation that in the brightness of display at present the method that improves contrast mainly contains the optimization display drive method.The patent that is called plasma display system and its driving method as 1783183 of publication numbers, relate to a kind of plasma display system and driving method thereof, rising waveform and falling waveform are applied on the scan electrode in the reset cycle of first subdomain of frame by the controller handle, and during the cycle of keeping keeping after voltage is applied on the scan electrode first, when the very first time passes, falling waveform is applied on the scan electrode.Applied first keep voltage after, when second goes by, apply second and keep voltage to keeping electrode.It can reduce power consumption and can improve contrast, so that can show the image of high-contrast.Also just like 1797082 patents that are called liquid crystal display device and driving method thereof of publication number, a kind of display panels is disclosed, corresponding to a plurality of viewing areas of split image.The quantity of the lamp by consider covering the viewing area is set the quantity of split image.Thereby the mean flow rate of entire image and the mean flow rate of split image are compared the brightness that changes each split image according to this comparative result.To the light of each viewing area irradiation corresponding to different brightness.Therefore, dark split image shows secretlyer and shows the score and cut image and show brightlyer in a two field picture, thereby improves contrast.
The method that improves contrast mainly improves the structure of luminous or display element in addition.Be called plasma display and the patent of having used the image display system of this panel as 1889222 of publication numbers, by the laminate component that is made of light absorbing zone and reflection layer is dispersed in each discharge cell, reduce the order of reflection of light-emitting phosphor light beam, and the reflector of visible light is set in the opposite side in the space that takes place with discharge, the brightness reduction is suppressed to Min., in plasma display, improves contrast and brightness.
As can be seen, more than improveing of having of several modification methods at driving method, it is low to do applicability like this, necessarily requires the hardware and software of this display to mate, and has improved cost.The discharge cell structure at display element that has improves, and has undoubtedly also improved cost greatly.
The utility model content:
The purpose of this utility model is in order to overcome with epipodium not, a kind of plasma display (PDP) filter with contrast enhancement function is provided, outside function with conventional PDP filter, also has the function that improves the plasma display contrast, simultaneously, the utility model can superpose with other most of method that improves contrast and not have too large disturbance mutually, allows the plasma display that has high-contrast originally improve contrast once more.The utility model also provides a kind of plasma display with contrast enhancement function.
The purpose of this utility model is achieved in that
The utlity model has plasma display (PDP) filter of contrast enhancement function, comprise display (PDP) filter substrate L0 with a front surface and a rear surface, and definition display light source light is injected from the rear surface, penetrate from front surface, and comprise contrast reinforcing membrane structure L with a front surface and a rear surface, the rear surface of display (PDP) filter substrate L0 is connected by mechanical fastener with the front surface of contrast reinforcing membrane structure L or is bonding, it is characterized in that having electromagnetic shielding (EMI) function on display filter substrate L0 and/or the contrast reinforcing membrane structure L, near-infrared is by function, the neon characteristic light is by the rete of function, this contrast reinforcing membrane structure L comprises the L1 of printing opacity basic unit with a front surface and a rear surface, several transparent solid structures are arranged on the front surface of the L1 of printing opacity basic unit, single transparent solid structure has a display light source light light inlet and a display light source light light-emitting window, the light inlet projected area of transparent solid structure is greater than the projected area of light-emitting window, the front surface of this light inlet and the L1 of printing opacity basic unit is connected as a single entity, this transparent solid structure periphery connects the geometry inclined-plane and/or the curved surface of light inlet and light-emitting window, and the space between the transparent solid structure is filled with low transmission or lighttight material or composite material.The light inlet projected area is greater than the projected area of light-emitting window, allows how much inclined-planes of this transparent solid and/or the tangent line and the basic unit L1 plane of curved surface, has 90 ° of smaller angles of a ratio.The special optical of transparent solid structure allows it become an optical texture of can leaded light, concentrating light to penetrate.The light process L1 of basic unit that the display light source sends injects the light inlet of transparent solid, can concentrate ejaculation together through boundary reflection and middle light near the light at light inlet edge.In general, extraneous light can reduce the contrast of display.When extraneous light was incident upon display, meeting reflecting part light was to spectators, and this moment, the mutually plain brightness of 0% white signal just improved, and contrast is reduction just, was placed on open-air just being placed on as TV and did not feel clear in the room.Because the special tectonic of above-mentioned contrast reinforcing membrane, smaller and the low on every side saturating state or light tight of light-emitting window, the part light of being injected by the external world can't enter on the display lighting device smoothly, has avoided extraneous light to reflex to spectators and reduce contrast on luminescent device.The contrast reinforcing membrane structure L that with the curved surface is light-emitting window is intended to make light to disperse ejaculation by the curved surface light-emitting window, improves the visible angle of display.Or by curved surface light-emitting window convergence ejaculation, the brightness that improves display is as the lenticule brightness enhancement film.The refractive index of the material of transparent solid structure can be different from that fill around it low sees through or the refractive index of lighttight material or composite material.Make between two kinds of materials and form medium interface, when similar optical fiber, light are injected with low-angle, can not penetrate dielectric layer and process reflection continuation at internal communication.When the material refractive index of solid structure during greater than the refractive index of exterior material, there is an angle of total reflection, significantly reduce the loss of light.Filter has 2 Ω/ or littler film resistor better effects if.Some transparent solid structures have a height, and this height and above-mentioned light inlet, light-emitting window have been determined the geometry of this transparent solid structure.Promptly this transparent solid structure has a height, low see through or lighttight part also has equal height then, form the equally spaced arrangement of structure of one group of parallel similar " wall ", the anti-film of spying on of similar Minnesota Mining and Manufacturing Company, the light that surpasses certain angle then almost completely is blocked.With ground is horizontal plane, and preferred structure was for should " wall " trend being horizontal direction, " wall " of cancellation vertical direction.Can inject ejaculation to the light in 90 ° ± 30 ° scopes of the special preferred vertical of display in addition, all the other are blocked; The horizontal direction full angle can be injected ejaculation.Then can reach broad angle of visibility, not influence use.The refractive index of the material of the transparent solid structure of contrast reinforcing membrane structure L can be different from that fill around it low sees through or the refractive index of lighttight material or composite material.Display filter substrate L0 can be flexible resin sheet or sheet glass or transparent resin sheet.
Above-mentioned contrast reinforcing membrane structure L also comprises the L2 of another basic unit with a front surface and a rear surface, and the light-emitting window of above-mentioned some transparent solid structures is connected with the rear surface of the L2 of this printing opacity basic unit and is combined into one.
The L2 of basic unit of above-mentioned contrast reinforcing membrane structure L is transparent or has at least and adjust display lighting color, electromagnetic shielding (EMI), near infrared light by (NIR-cut), neon characteristic light blooming or optical sheet or the glue-line by one of (Ne-cut) function.
The L1 of basic unit of above-mentioned contrast reinforcing membrane structure L is transparent or has adjustment display lighting color, electromagnetic shielding (EMI), near infrared light end one of (Ne-cut), raising luminous ray transmitance function by (NIR-cut), neon characteristic light blooming or optical sheet at least.
The rete of above-mentioned electromagnetic shielding (EMI) function is the copper mesh structure, and near-infrared fits together by (Ne-cut) functional membrane and copper mesh rete by (NIR-cut), neon characteristic light.
Above-mentioned rete with electromagnetic shielding (EMI) function is stacked coatings structure, comprise at least three layers multiple stacked, described multiple stacked each is by high refractive index medium film, the first transparent metal oxide protective layer, stack gradually formation to metal layer sequence, and is described multiple stacked by each layer being repeated stacked formation; And be included in the high refractive index medium film that forms on the stepped construction.The first transparent metal oxide protective layer can adopt at least a among SiO2, MgO, Sb2O3, SiO, SnO2, Al2O3, Y2O3, La2O3, In2O3, ZnO (Al), NiCrOx, ZnO, ZrO2, ITO, the AZOY, and the X among the NiCrOx is 1~6.The high refractive index medium film can adopt at least a among Sb2O3, SnO2, PbO, Ta2O5, Nb2O5, ZnO, TiO2, CeO2, ZnO (Al), AZOY, ZrO2, the SnO3.The refractive index of transparent dielectric film is greater than the refractive index of metal oxide layer.Metal level can adopt the alloy of Ag or Ag to constitute.
Above-mentioned rete with electromagnetic shielding (EMI) function is stacked coatings structure, comprise at least three layers multiple stacked, described multiple stacked each sequentially stacks gradually formation by high refractive index medium film, the first transparent metal oxide protective layer, metal level, the second transparent metal oxide protective layer, and is described multiple stacked by each layer being repeated stacked formation; And be included in the high refractive index medium film that forms on the stepped construction.First, second transparent metal oxide protective layer can adopt at least a among SiO2, MgO, Sb2O3, SiO, SnO2, Al2O3, Y2O3, La2O3, In2O3, ZnO (Al), NiCrOx, ZnO, ZrO2, ITO, the AZOY respectively, and the X among the NiCrOx is 1~6.The high refractive index medium film can adopt at least a among Sb2O3, SnO2, PbO, Ta2O5, Nb2O5, ZnO, TiO2, CeO2, ZnO (Al), AZOY, ZrO2, the SnO3.Metal level can adopt the alloy of Ag or Ag to constitute.
The refractive index of above-mentioned transparent dielectric film is greater than the refractive index of metal oxide layer.
Above-mentioned dyestuff with the neon yellow characteristic light function that absorbs 596nm is the rete of the independent film forming in the molten resin that is mixed in acrylic acid series, and this rete covers on the coatings or on basic unit/substrate.
Dyestuff with the neon yellow characteristic light function that absorbs 596nm is arranged in the above-mentioned molten adhesive layer that is mixed between basic unit and the substrate or in the adhesive layer between basic unit and the coatings or in the adhesive layer between substrate and the coatings.
The rear surface of the above-mentioned L1 of printing opacity basic unit have two-layer at least with height refraction with hang down the refractive medium film and stack gradually the anti-reflection antireflective film system of formation.
The front surface of the above-mentioned L2 of another basic unit have two-layer at least with height refraction with hang down the refractive medium film and stack gradually the anti-reflection antireflective film system of formation.
The front surface of above-mentioned display filter substrate L0 has the coating of the astigmatic particle formation of anti-dazzle function, or chemical method corrodes the hair side that forms or stamped method forms.
Before or after the above-mentioned display filter substrate L0 surface have two-layer at least with height refraction with hang down the refractive medium film and stack gradually the anti-reflection antireflective film system of formation.
The utility model plasma display has been installed the plasma display filter with contrast enhancement function.
Between above-mentioned filter and the display air gap is arranged, the contrast reinforcing membrane in the filter is between display filter substrate L0 and display.
Between above-mentioned filter and the display what to paste for one.
The PDP display needs electromagnetic shielding, near infrared light to end or the like function by, neon characteristic light, form function corresponding film system on two L1 of basic unit, L2 that then can be by this film or the front and rear surfaces of PDP filter substrate L0, can simplify the production method of PDP filter, and film location, sequencing can be adjusted arbitrarily.Above-mentioned rete with electromagnetic shielding (EMI) function is stacked coatings structure, comprise at least three layers multiple stacked, described multiple stacked each is by high refractive index medium film, the first transparent metal oxide protective layer, metal level, (the second transparent metal oxide protective layer), sequentially stack gradually formation, described multiple stacked by each layer being repeated stacked formation; And be included in the high refractive index medium film that forms on the stepped construction.Utilize the high conductive capability of metallic diaphragm, can reach good effectiveness, utilize high refractive index medium film and metal oxide film to do optical design simultaneously, improve the transmitance of filter relatively and metal film is carried out protection against oxidation.To the PDP display that the needs height sees through, also can go up the coating high transmittance film by basic unit L1 rear surface, L2 front surface and/or PDP filter substrate L0 is to reach requirement, or the like.The production method of these functional membrane systems is all very ripe, can with reference to as application number be in the patent of 200520035592 filters that are called plasma scope with anti-electromagnetic radiation and filtering functions about plasma display filter, the electro-magnetic screen function film, and about the manufacture method of anti-reflection film system.
The utility model has adopted different modes, and it is easier to allow product use in other words, easier suitability for industrialized production, and the method that cost is lower improves the contrast of plasma display, allows the plasma display that has high-contrast originally improve contrast once more.
Description of drawings:
Fig. 1 is a display filter structural representation of the present utility model.
Fig. 2 is the schematic diagram (having omitted the L1/L2 of basic unit) of wherein a kind of structure of packing material around reaching according to the transparent solid of the utility model.
Fig. 3 is that display light source light passes the light path schematic diagram according to transparent solid structure of the present utility model.
Fig. 4 during for extraneous light directive transparent solid structure of the present utility model the part permeation parts by around described packing material stop.
Fig. 5 is several possible transparent solid structure cross-sectional views of the utility model.
Fig. 6 is several possible transparent solid structural perspective of the utility model.
Fig. 7 is the membrane structure schematic diagram.
Fig. 8 is another schematic diagram of membrane structure.
Fig. 9 is a membrane structure schematic diagram again.
Figure 10 is a display assembling perspective view of the present utility model.
Figure 11 is the display assembling stereogram.
Figure 12 is the permeability curve chart of electromagnetic shielding (EMI) coating.
The drawing reference numeral explanation:
1PDP panel enclosure or protection screen 2PDP display floater 3PDP shell
The L contrast reinforcing membrane structure L0 PDP filter substrate L1 L1 of basic unit
The transparent solid layer of the L2 LE of L2 basic unit LE1 light-emitting window
The transparent solid structure of LE2 LE3 is low to be seen through or light tight structure LE4 light inlet
*-1 the anti-reflection film on the * of basic unit is electromagnetic shielding (EMI) layer on *-2 * of basic unit
*-3 the neon characteristic light on the * of basic unit is ended the anti-dazzle photosphere on the rete L0-4 L0 of basic unit
(* represents L, L0, L1 or L2)
Embodiment:
Embodiment 1:
Fig. 1~Fig. 8 has provided the structural representation of present embodiment 1, and Fig. 7 or Fig. 8 have provided the membrane structure sectional view of present embodiment 1.As Fig. 7, described contrast reinforcing membrane adopts the PET film of 180~200 μ m as the L1 of basic unit, apply photocuring or heat reactive resin, method with impression forms described transparent solid structure LE2, the solid height is 175 μ m, and light inlet LE4 width is 75 μ m, and light-emitting window LE1 width is 50 μ m, length be endless to the basement membrane edge, long limit is a horizontal direction.Transparent solid structure sheaf LE perspective view as shown in Figure 2.Afterwards on the resin structure after the described curing, coating has the light-sensitive emulsion or the pressure sensitive adhesive of black dyes, PET film with 175 μ m covers on it as the L2 of basic unit again, certain pressure compressive zone when utilize covering has the light-sensitive emulsion of dyestuff or pressure sensitive adhesive to go in the space between the above-mentioned transparent solid structure LE2, at last it is solidify to form low light transmission or lighttight structure LE3, become contrast reinforcing membrane L.
Use the SGH-2 type mist degree analyzer of Beijing AoBoTai Science Co., Ltd, this membrane structure is carried out actual transmission measurement, transmitance along the display light direction is about 65%, and is about 49% along the transmitance of extraneous light incident direction, coincide with the intended purposes of structural design.
At the front surface of PDP filter substrate L0, utilize the method for magnetron sputtering to be formed with high refractive medium material (as TiO
2, Nb
2O
5) with low refractive medium material (as SiO
2, MgF) the anti-reflection antireflective coating system that constitutes of film, can improve the transmitance of whole diaphragm, improve display brightness.Also can plate in the rear surface of contrast reinforcing membrane L and state anti-reflection antireflective coating is L-1.Also can adopt the mode of accurate coating to form one deck anti-dazzle (AG) film L0-4, can be widely used in indoor display, eliminate the shadow that display mirrors reflects to form at the front surface of PDP filter substrate L0.In the rear surface of PDP filter substrate L0, utilize the method plating of magnetron sputtering as electromagnetic shielding (EMI) the film system that above-mentioned application number is 200520035592 patents.Use the desk-top Transflective spectral measurement system of GSR-2 of Beijing AoBoTai Science Co., Ltd that the transmittance curve of electromagnetic shielding (EMI) coating is measured, as Figure 12.
The near-infrared transmitance of electromagnetic shielding (EMI) coating can be very low as can be seen, therefore has good near infrared ray by function, reduces the thermal radiation of display.Electromagnetic shielding also can be realized with copper mesh layers, notices that still copper mesh does not have near-infrared by function, needs other blooming system or coating.
In the molten resin that is mixed in acrylic acid series of the absorbing dye of the yellow characteristic light of 596nm, film forming covers rete on the EMI coatings separately afterwards.
At last that the front surface of the rear surface of PDP filter substrate L0 and contrast reinforcing membrane structure L is bonding, become the product of finishing of present embodiment.
The filter that does not contain contrast reinforcing membrane structure as a comparison, filter as this patent embodiment 1 is installed in respectively on the PDP plasm TV, use Japanese Topcon SR-3A brightness photometer/YC meter the contrast of its display to be tested test result such as table 1.The laboratory is the darkroom, and ambient brightness is less than 0.01cd/cm
2
The contrast method of testing is the make-to-break ratio method of testing:
1. use the filter of contrast reinforcing membrane is not installed, show complete white image, the brightness of former display is adjusted into about 120cd/cm
2
2. show complete black image, measure brightness.
3. use the filter as this patent embodiment 1, demonstration is complete white visual, the brightness of display is brought up to be about 120cd/cm
2
4. show complete black image, measure brightness.
Table 1:
| Former display brightness (cd/cm 2) | Display brightness (cd/cm after the installation contrast reinforcing membrane 2) | |
| Complete white image | 119.5 | 120.8 |
| Complete black image | 0.095 | 0.032 |
Measurement result represents that former display contrast is approximately 1258: 1, and uses the contrast reinforcing membrane 3777: 1, and contrast has increased about three times.In addition, when being daily lamplight brightness, range estimation can see that the surface reflection of the display that uses the contrast reinforcing membrane is substantially weaker than display originally when indoor, illustrates that this contrast reinforcing membrane also has really to reduce the function of surround lighting to the influence of image.
Use MIT32012GHz field intensity analyzer that electromagnetic radiation intensity is measured simultaneously, meet GB9254-1998 standard B level fully.
Also can be with reference to Fig. 8, have the coating of electromagnetic shielding (EMI) function or the rear surface that copper mesh layers L-2 is positioned at contrast reinforcing membrane L, stick on plated film face rear surface having the neon characteristic light by the rete L-3 of function afterwards, to be coated with above-mentioned anti-reflection antireflective coating be L-1 having the rete rear surface of neon characteristic light by function.
Fig. 3 is that display light source light passes the light path schematic diagram according to transparent solid structure of the present utility model.
Fig. 4 during for extraneous light directive transparent solid structure of the present utility model the part permeation parts by around described packing material stop.
Fig. 5 and Fig. 6 are respectively the utility model several possible transparent solid cross-sectional view and stereograms.
As mentioned above, the described PDP filter of present embodiment with contrast enhancement function, have anti-electromagnetic-radiation (EMI), near-infrared by (NIR-cut), neon characteristic light function by (Ne-cut), and can improve the contrast of PDP display, allow display have the function of opposing ambient light interference simultaneously.
Embodiment 2:
Fig. 9 has provided present embodiment 2 figure.Referring to Fig. 9, present embodiment 2 is basic same with embodiment 1, and not existing together is that present embodiment has been cancelled the L2 of basic unit, will not have the contrast reinforcing membrane structure L of the L2 of basic unit directly to be bonded on the PDP filter substrate L0, can reduce the light loss of a skim like this.Electromagnetic shielding (EMI) coating or copper mesh layers are positioned at the rear surface of PDP filter substrate L0 or the rear surface of contrast reinforcing membrane.The pigment distribution that absorbs the neon characteristic light or is coated on the PET film film forming separately in the L1 of basic unit, cover on the coatings of the rear surface of contrast reinforcing membrane or contrast reinforcing membrane rear surface.Having the neon characteristic light also can be distributed in the bonding agent by the pigment of function.
Also can adopt other several functional membrane structural order mapping modes in the utility model:
L is a substrate with contrast reinforcing membrane structure, coatings or copper mesh layers with electro-magnetic screen function are positioned at this substrate front surface (or rear surface), have near-infrared by and/or the neon characteristic light be positioned at this substrate rear surface (or front surface) by the pigment application layer or the coating of function.And the glass/resin substrate of PDP display filter is positioned at the front of the membrane structure of this substrate front surface.Having the neon characteristic light also can be distributed in the bonding agent by the pigment of function.
L is a substrate with contrast reinforcing membrane structure, its front surface have the coatings or the copper mesh layers of electro-magnetic screen function and have near-infrared by and/or the neon characteristic light all be positioned at this substrate front surface by the pigment application layer or the coating of function, order can be changed arbitrarily before and after this two-layer functional membrane structure.The front of this two-layer film configuration is PDP display filter glass/resin substrate.Having the neon characteristic light also can be distributed in the bonding agent by the pigment of function.
Embodiment 3:
Figure 10, Figure 11 are present embodiment 3 display device structure schematic diagrames.As shown in figure 10, the similar of PDP filter with contrast enhancement function is in the foregoing description, different is that PDP filter substrate L0 is the flexible resin sheet, and this PDP filter sticks on the display, and L is between filter substrate L0 and display floater for contrast reinforcing membrane structure.PDP filter substrate L0 and contrast reinforcing membrane structure L are between PDP panel protection screen 1 and PDP display floater 2.
Figure 11 is the assembling schematic diagram of PDP filter, the PDP filter L0+L with contrast enhancement function that will tell as this patent, be placed on PDP display floater 2 between the user, with PDP display pannel shell 1 and the 3 fixing and protections of PDP display casing.
The various embodiments described above are that foregoing of the present utility model is further described, but this should be interpreted as that the scope of the above-mentioned theme of the utility model only limits to the foregoing description.All technology that realizes based on foregoing all belong to scope of the present utility model.
Claims (17)
1. the plasma display filter that has the contrast enhancement function, comprise display filter substrate L0 with a front surface and a rear surface, and definition display light source light is injected from the rear surface, penetrate from front surface, and comprise contrast reinforcing membrane structure L with a front surface and a rear surface, the rear surface of display filter substrate L0 is connected by mechanical fastener with the front surface of contrast reinforcing membrane structure L or is bonding, it is characterized in that having electro-magnetic screen function on display filter substrate L0 and/or the contrast reinforcing membrane structure L, near-infrared is by function, the neon characteristic light is by the rete of function, this contrast reinforcing membrane structure L comprises the L1 of printing opacity basic unit with a front surface and a rear surface, several transparent solid structures are arranged on the front surface of the L1 of printing opacity basic unit, single transparent solid structure has a display light source light light inlet and a display light source light light-emitting window, the light inlet projected area of transparent solid structure is greater than the projected area of light-emitting window, the front surface of this light inlet and the L1 of printing opacity basic unit is connected as a single entity, this transparent solid structure periphery connects the geometry inclined-plane and/or the curved surface of light inlet and light-emitting window, and the space between the transparent solid structure is filled with low transmission or lighttight material or composite material.
2. the plasma display filter with contrast enhancement function as claimed in claim 1, it is characterized in that contrast reinforcing membrane structure L also comprises the L2 of another basic unit with a front surface and a rear surface, the light-emitting window of above-mentioned some transparent solid structures is connected with the rear surface of the L2 of this printing opacity basic unit and is combined into one.
3. the plasma display filter with contrast enhancement function as claimed in claim 2, the L2 of basic unit that it is characterized in that contrast reinforcing membrane structure L are transparent or have at least and adjust display lighting color, electromagnetic shielding, near infrared light by, neon characteristic light blooming or optical sheet or the glue-line by one of function.
4. the plasma display filter with contrast enhancement function as claimed in claim 1 or 2, the L1 of basic unit that it is characterized in that contrast reinforcing membrane structure L be transparent or have at least adjust display lighting color, electromagnetic shielding, near infrared light by, neon characteristic light by, improve the blooming or the optical sheet of one of luminous ray transmitance function.
5. as claim 1 or 2 or 3 described plasma display filters with contrast enhancement function, the rete that it is characterized in that having electro-magnetic screen function is the copper mesh structure, and near-infrared fits together by functional membrane and copper mesh rete by, neon characteristic light.
6. as claim 1 or 2 or 3 described plasma display filters with contrast enhancement function; the rete that it is characterized in that having electro-magnetic screen function is stacked coatings structure; comprise at least three layers multiple stacked; described multiple stacked each is by high refractive index medium film, the first transparent metal oxide protective layer, stack gradually formation to metal layer sequence; multiple stacked by each layer being repeated stacked formation, on stepped construction, be formed with the high refractive index medium film.
7. as claim 1 or 2 or 3 described plasma display filters with contrast enhancement function; the rete that it is characterized in that having electro-magnetic screen function is stacked coatings structure; comprise at least three layers multiple stacked; described multiple stacked each sequentially stacks gradually formation by high refractive index medium film, the first transparent metal oxide protective layer, metal level, the second transparent metal oxide protective layer; multiple stacked by each layer being repeated stacked formation, on stepped construction, be formed with the high refractive index medium film.
8. the plasma display filter with contrast enhancement function as claimed in claim 7 is characterized in that the refractive index of the refractive index of transparent dielectric film greater than metal oxide layer.
9. as claim 1 or 2 or 3 described plasma display filters with contrast enhancement function, the dyestuff that it is characterized in that having the neon yellow characteristic light function that absorbs 596nm is the rete of the independent film forming in the molten resin that is mixed in acrylic acid series, and this rete covers on the coatings or on basic unit/substrate.
10. as claim 1 or 2 or 3 described plasma display filters, it is characterized in that in the molten adhesive layer that is mixed between basic unit and the substrate or the dyestuff with the neon yellow characteristic light function that absorbs 596nm is arranged in the adhesive layer between basic unit and the coatings or in the adhesive layer between substrate and the coatings with contrast enhancement function.
11. as claim 1 or 2 or 3 described plasma display filters with contrast enhancement function, the rear surface that it is characterized in that the L1 of printing opacity basic unit have two-layer at least with the height refraction with hang down the refractive medium film and stack gradually the anti-reflection antireflective film system of formation.
12. as claim 1 or 2 or 3 described plasma display filters with contrast enhancement function, the front surface that it is characterized in that the L2 of another basic unit have two-layer at least with the height refraction with hang down the refractive medium film and stack gradually the anti-reflection antireflective film system of formation.
13. as claim 1 or 2 or 3 described plasma display filters with contrast enhancement function, it is characterized in that the front surface of display filter substrate L0 has the coating of the astigmatic particle formation of anti-dazzle function, or chemical method corrodes the hair side that forms or stamped method forms.
14. as claim 1 or 2 or 3 described plasma display filters with contrast enhancement function, it is characterized in that display filter substrate L0 before or after the surface have two-layer at least with height refraction with hang down the refractive medium film and stack gradually the anti-reflection antireflective film system of formation.
15., it is characterized in that waiting on the sub-display and installed any one plasma display filter in the aforesaid right requirement 1-24 item with contrast enhancement function Deng sub-display.
16. plasma display as claimed in claim 15 is characterized in that between filter and the display air gap being arranged, the contrast reinforcing membrane in the filter is between display filter substrate L0 and display.
17. plasma display as claimed in claim 16 is characterized in that between filter and the display it being what to paste for one.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CNU2008200621399U CN201149855Y (en) | 2008-02-03 | 2008-02-03 | Plasma display spectral filter with contrast enhancement function and plasma display using the same |
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| Application Number | Priority Date | Filing Date | Title |
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| CNU2008200621399U CN201149855Y (en) | 2008-02-03 | 2008-02-03 | Plasma display spectral filter with contrast enhancement function and plasma display using the same |
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| CN201149855Y true CN201149855Y (en) | 2008-11-12 |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101937110A (en) * | 2009-06-26 | 2011-01-05 | 三星康宁精密素材株式会社 | Display filter |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101937110A (en) * | 2009-06-26 | 2011-01-05 | 三星康宁精密素材株式会社 | Display filter |
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| Date | Code | Title | Description |
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| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| C17 | Cessation of patent right | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20081112 Termination date: 20110203 |