CN116994493A - Anti-dazzle high-color-gamut eye-protection screen based on self-adaptive adjustment - Google Patents

Abstract

The application relates to the technical field of display equipment, in particular to an anti-dazzle high-color-gamut eye-protection screen based on self-adaptive adjustment. The anti-glare film layer is arranged on the surface of the high-color-gamut display panel, so that the reflection and scattering of light can be effectively reduced, the glare is reduced, and the visibility of a screen is improved; the light sensor is arranged on the screen shell, the ambient light intensity can be monitored in real time through the light sensor, data are transmitted to the controller, and the controller automatically adjusts the brightness of the high-color-gamut display panel according to the data of the light sensor, so that better visual protection and experience are provided for a user.

Description

Anti-dazzle high-color-gamut eye-protection screen based on self-adaptive adjustment

Technical Field

The application relates to the technical field of screens, in particular to an anti-dazzle high-color-gamut eye-protection screen based on self-adaptive adjustment.

Background

The screen is one of core devices of the mobile phone, and outputs images, figures and the like outwards, so that information can be conveniently and intuitively acquired by users, and the screen can enable the users to acquire the images through self-luminescence, but the phenomenon of glare is easy to generate for the users when the influence of screen display is suddenly changed, so that the health of eyes is not good; accordingly, various eye-protecting screens are appeared on the market. But the structure of the eye-protection screen in the prior art is simpler, and most simple blue light prevention films are additionally arranged, so that the protection effect is single, and the brightness can not be automatically adjusted according to the change of ambient light.

For example, the patent number CN202022800337.4 is an eye-protection type WCDMA digital mobile phone screen structure, which comprises a mobile phone shell, wherein an electric plate is fixedly connected to the bottom of an inner cavity of the mobile phone shell, a foam bonding pad is fixedly connected to the top of the electric plate, a mobile phone screen is fixedly connected to the top of the foam bonding pad, an anti-ultraviolet coating film is arranged on the top of the mobile phone screen, and second clamping grooves are symmetrically formed in the upper side and the lower side of the left end and the right end of the mobile phone screen. This eyeshield formula WCDMA digital mobile phone screen structure through the foam bonding pad that sets up, both can open the effect of fixed mobile phone screen, also can be simultaneously the unexpected effect of buffering that bumps into of mobile phone screen, through the second fixture block and first draw-in groove and the second draw-in groove looks adaptation that set up, can make things convenient for mobile phone screen and prevent that purple light coating film from aligning, prevent that manual alignment from leading to the condition of card not tight, also prevent simultaneously that mobile phone screen and purple light coating film from rubbing each other to mobile phone screen wearing and tearing, influence result of use. The screen structure only protects eyes through the ultraviolet-proof coating film, but can not automatically adjust the screen brightness according to the change of the ambient light, and can not provide better visual protection and experience.

Disclosure of Invention

In the summary, a series of concepts in a simplified form are introduced, which will be further described in detail in the detailed description. The summary of the application is not intended to define the key features and essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.

In order to at least partially solve the problems, the application provides an anti-dazzle high-color-gamut eye-protection screen based on self-adaptive adjustment, which comprises a high-color-gamut display panel, wherein an anti-dazzle film layer is arranged on the surface of the high-color-gamut display panel, the high-color-gamut display panel is arranged in a screen shell, the high-color-gamut display panel is electrically connected with a controller in the screen shell, and the controller is electrically connected with a light sensor on the screen shell.

Optionally, the anti-glare film layer is an anti-reflection coating or an anti-glare filter.

The anti-dazzle high-color-gamut eye-protection screen based on self-adaptive adjustment further comprises an anti-blue light film layer; the anti-blue light film layer is arranged between the anti-dazzle film layer and the high-color-gamut display panel.

The anti-dazzle high-color-gamut eye-protection screen based on self-adaptive adjustment also comprises an abrasion-resistant protective layer; the wear-resistant protective layer is arranged on one side of the anti-glare film layer, which is far away from the high-color-gamut display panel.

The anti-dazzle high-color-gamut eye-protection screen based on self-adaptive adjustment further comprises an anti-static coating; the anti-static coating is arranged on one side of the wear-resistant protective layer, which is far away from the anti-dazzle film layer.

The refractive index of the anti-dazzle film layer is between 1.5 and 1.7.

The anti-glare film layer comprises a reflecting film layer and a light absorbing film layer which are connected; the light absorbing film layer is connected to the high color gamut display panel.

And nanoscale scattering particles are arranged in the anti-dazzle film layer.

The screen shell comprises a shell body, a high-color-gamut display panel is arranged in the shell body, and a plurality of upper radiating holes and a plurality of lower radiating holes are respectively formed in a top plate and a bottom plate of the shell body; the back plate of the shell body is movably connected with an upper blocking frame and a lower blocking frame, the inner end of the upper blocking frame can be blocked at the inner sides of the upper radiating holes, and the inner end of the lower blocking frame can be blocked at the inner sides of the lower radiating holes.

A cell phone screen comprising an adaptively adjusted antiglare high color gamut eyeshield screen as defined in any of the preceding claims.

Optionally, the controller employs a Himax HX8264D chip.

Optionally, the light sensor adopts BH1750 as a digital light intensity sensor.

Alternatively, the high color gamut display panel employs a BenQ SW2700PT display panel.

Compared with the prior art, the application at least comprises the following beneficial effects:

according to the anti-dazzle high-color-gamut eye-protection screen based on self-adaptive adjustment, the anti-dazzle film layer is arranged on the surface of the high-color-gamut display panel, so that reflection and scattering of light rays can be effectively reduced, glare is reduced, and visibility of the screen is improved; the light sensor is arranged on the screen shell, the ambient light intensity can be monitored in real time through the light sensor, data are transmitted to the controller, and the controller automatically adjusts the brightness of the high-color-gamut display panel according to the data of the light sensor, so that better visual protection and experience are provided for a user; the top plate and the bottom plate of the shell body are respectively provided with a plurality of upper radiating holes and a plurality of lower radiating holes, and the upper plugging frame and the lower plugging frame for opening and closing the upper radiating holes and the lower radiating holes are matched, so that the heat dissipation effect of the shell body is improved when the shell is used, and the shell body has a dustproof effect when the shell body is not used.

In order to make the above objects, features and advantages of the present application more comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

The accompanying drawings are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate the application and together with the embodiments of the application, serve to explain the application. In the drawings:

fig. 1 is a schematic diagram one of an anti-dazzle high color gamut eye-protection screen based on adaptive adjustment according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of a high color gamut display panel according to an embodiment of the present application;

fig. 3 is a schematic diagram of a high color gamut display panel according to an embodiment of the present application;

fig. 4 is a schematic structural diagram of an anti-glare film layer according to an embodiment of the present application;

fig. 5 is a schematic diagram two of an anti-dazzle high color gamut eye-protection screen based on adaptive adjustment according to an embodiment of the present application;

fig. 6 is a schematic diagram III of an anti-dazzle high color gamut eye-protection screen based on adaptive adjustment according to an embodiment of the present application;

fig. 7 is a schematic diagram IV of an anti-dazzle high color gamut eye-protection screen based on adaptive adjustment according to an embodiment of the present application;

fig. 8 is a schematic structural diagram of a housing body according to an embodiment of the present application;

fig. 9 is a schematic structural diagram of a housing body according to a second embodiment of the present application;

fig. 10 is a schematic structural view of an upper plugging frame according to an embodiment of the present application;

FIG. 11 is a schematic structural view of a shading component according to an embodiment of the present application;

FIG. 12 is a schematic view of a linkage assembly according to an embodiment of the present application;

fig. 13 is a schematic structural diagram of a screen protection assembly according to an embodiment of the present application;

FIG. 14 is a schematic structural diagram of a buffer press block according to an embodiment of the present application;

fig. 15 is a schematic structural view of a lower plugging frame according to an embodiment of the present application.

Icon: a high color gamut display panel 1; a housing body 2; an upper heat dissipation hole 201; a lower heat sink 202; a buffer pressing block 3; an upper plugging frame 4; a push-pull shaft 401; a riser 402; an upper blanking plate 403; a first compression spring 404; a lower plugging frame 5; a shade assembly 6; an upper carriage 601; a first reel-out shaft 602; a flexible window shade 603; a movable frame 604; a horizontal cross bar 605; a spool 606; a first tension spring 607; a linkage assembly 7; a primary pulley 701; slave pulley 702; a worm 703; a worm wheel 704; a rotation tube 705; a cross screw 706; a linkage plate 707; a screen guard assembly 8; winding a protective film 801; a second reel-out shaft 802; a displacement slide 803; a vertical chute frame 804; tilt link 805; a gear 806; a second tension spring 807; a light sensor 9; an anti-glare film layer 10; a blue light preventing film layer 11; a wear-resistant protective layer 12; an antistatic coating layer 13; a reflective film layer 14; a light absorbing film layer 15.

Detailed Description

In order to enable those skilled in the art to better understand the technical solutions of the present application, the technical solutions of the embodiments of the present application will be clearly and completely described below, and it is obvious that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

The present application is described in further detail below with reference to the drawings and examples to enable those skilled in the art to practice the application by referring to the description.

It will be understood that terms, such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

The application is described in further detail below with reference to fig. 1-15.

Example 1

As shown in fig. 1-15, the anti-dazzle high color gamut eye-protection screen based on self-adaptive adjustment comprises a high color gamut display panel 1, wherein an anti-dazzle film layer is arranged on the surface of the high color gamut display panel 1, the high color gamut display panel 1 is arranged in a screen shell, the high color gamut display panel 1 is electrically connected with a controller in the screen shell, and the controller is electrically connected with a light sensor 9 on the screen shell.

The working principle and beneficial effects of the technical scheme are as follows:

in the anti-dazzle high-color-gamut eye-protection screen based on self-adaptive adjustment, the anti-dazzle film layer is arranged on the surface of the high-color-gamut display panel 1, so that reflection and scattering of light rays can be effectively reduced, glare is reduced, and visibility of the screen is improved; the light sensor 9 is arranged on the screen shell, the ambient light intensity can be monitored in real time through the light sensor 9, and data are transmitted to the controller, and the controller automatically adjusts the brightness of the high-color-gamut display panel according to the data of the light sensor 9, so that better visual protection and experience are provided for a user.

The anti-dazzle film layer is an anti-reflection coating or an anti-dazzle filter. The anti-reflection coating is to coat a special optical film layer on the surface of the high-color-gamut display panel 1, has an anti-glare function, and can reduce reflection and scattering of light rays, so that the glare is reduced, and the high-color-gamut display panel 1 can maintain good visibility in a brighter environment. The anti-reflection coating can be made of nano-scale microparticle materials, has high transparency and high anti-reflection performance, and can effectively reduce the intensity of reflected light on the surface of the high-color-gamut display panel 1, so that a user can use the display more comfortably.

The anti-dazzle high-color-gamut eye-protection screen based on self-adaptive adjustment further comprises an anti-blue light film layer 11; the blue light preventing film layer 11 is disposed between the antiglare film layer 10 and the high color gamut display panel 1. The blue light prevention film layer 11 plays a role in reducing blue light, and can effectively improve the eye protection effect of the application.

The anti-dazzle high-color-gamut eye-protection screen based on self-adaptive adjustment also comprises a wear-resistant protective layer 12; the wear-resistant protective layer 12 is arranged on the side of the antiglare film layer 10 remote from the high color gamut display panel 1. The wear-resistant protective layer 12 can be a toughened film, so that the strength of the screen is effectively improved, and the probability of screen breakage is reduced.

The anti-dazzle high-color-gamut eye-protection screen based on self-adaptive adjustment further comprises an anti-static coating 13; the antistatic coating 13 is arranged on one side of the wear-resistant protective layer 12 far away from the anti-glare film layer 10, the antistatic coating 13 can reduce static electricity of a screen, and can prevent overlarge electrostatic voltage of a human body from damaging internal circuits of the mobile phone.

The refractive index of the antiglare film layer 10 is between 1.5 and 1.7.

The anti-glare film layer 10 comprises a reflecting film layer 14 and a light absorbing film layer 15 which are connected; the light absorbing film layer 15 is connected to the high color gamut display panel 1, and by the arrangement of the light absorbing film layer 15, incident light energy can be absorbed and converted, so that light transmission or transmission is reduced or prevented, direct reflection of light is reduced, and glare is reduced.

The anti-dazzle film layer 10 is internally provided with nano-scale scattering particles, and a scattering material or structure is introduced into the anti-dazzle film layer 10 to scatter incident light, so that the light can be scattered from different angles, and the direct reflection of the light is reduced, thereby reducing the effect of glare.

The screen shell comprises a shell body 2, a high-color-gamut display panel 1 is arranged in the shell body 2, and a plurality of upper radiating holes 201 and a plurality of lower radiating holes 202 are respectively formed in a top plate and a bottom plate of the shell body 2; the back plate of the shell body 2 is movably connected with an upper plugging frame 4 and a lower plugging frame 5, the inner end of the upper plugging frame 4 can be plugged inside a plurality of upper radiating holes 201, and the inner end of the lower plugging frame 5 can be plugged inside a plurality of lower radiating holes 202.

A mobile phone screen comprises the anti-dazzle high-color-gamut eye-protection screen based on self-adaptive adjustment.

Example two

As shown in fig. 1-15, the screen housing includes a housing body 2, and a high color gamut display panel 1 is installed in the housing body 2; the top plate and the bottom plate of the shell body 2 are respectively provided with a plurality of upper radiating holes 201 and a plurality of lower radiating holes 202, the back plate of the shell body 2 is movably connected with an upper plugging frame 4 and a lower plugging frame 5, the inner ends of the upper plugging frames 4 can be plugged at the inner sides of the plurality of upper radiating holes 201, and the inner ends of the lower plugging frames 5 can be plugged at the inner sides of the plurality of lower radiating holes 202.

The working principle and beneficial effects of the technical scheme are as follows:

in the anti-dazzle high-color-gamut eye-protection screen based on self-adaptive adjustment, the top plate and the bottom plate of the shell body 2 are respectively provided with the plurality of upper radiating holes 201 and the plurality of lower radiating holes 202, and the upper plugging frame 4 and the lower plugging frame 5 for opening and closing the upper radiating holes 201 and the lower radiating holes 202 are matched, so that the anti-dazzle high-color-gamut eye-protection screen is beneficial to improving the radiating effect when the anti-dazzle high-color-gamut eye-protection screen is used, plays a role of dust prevention when the anti-dazzle high-color-gamut eye-protection screen is not used, reduces dust entering the shell body 2, and reduces the failure rate of the anti-dazzle high-color-gamut eye-protection screen.

The anti-dazzle high-color-gamut eye-protection screen based on self-adaptive adjustment further comprises a cooling fan arranged in the shell body 2, so that the high-color-gamut display panel 1 is subjected to air cooling heat dissipation through the cooling fan, a heat dissipation air channel can be formed through the cooperation of the plurality of upper heat dissipation holes 201, the plurality of lower heat dissipation holes 202 and the cooling fan, the heat dissipation effect on the electronic components inside the anti-dazzle high-color-gamut eye-protection screen is improved, and nylon dust-blocking filter screens are arranged in the plurality of upper heat dissipation holes 201 and the plurality of lower heat dissipation holes 202, so that dust is effectively blocked.

The controller can adopt a Himax HX8264D chip for processing data of the light sensor 9, and calculate optimal display parameters according to a preset algorithm, the controller is communicated with the high-color-gamut display panel 1, adjustment of parameters and control of display effects are achieved, the light sensor 9 can adopt a BH1750 digital light intensity sensor, the perception effect of light is good, the high-color-gamut display panel 1 adopts a BenQ SW2700PT display panel, more true and full color expression can be provided, visual fatigue is reduced, and quality and definition of images are improved.

Example III

As shown in fig. 1-15, the anti-dazzle high color gamut eye-protection screen based on self-adaptive adjustment further comprises a shading component 6, the shading component 6 comprises an upper sliding frame 601 arranged at the top of the shell body 2, a storage groove at the front part of the upper sliding frame 601 is rotationally connected with a first rolling and discharging shaft 602, one end of the first rolling and discharging shaft 602 is connected with a rolling and discharging machine fixed at the outer part of the upper sliding frame 601, one end of a flexible shading curtain 603 is wound and fixed on the first rolling and discharging shaft 602, the other end of the flexible shading curtain 603 is fixed on a movable frame 604, the upper end of the movable frame 604 is rotationally connected with one end of a horizontal cross rod 605, the other end of the horizontal cross rod 605 is rotationally connected with a sliding column 606, the sliding column 606 slides in a horizontal sliding way at the top of the upper sliding frame 601, a limit transverse hole is arranged in the middle of the sliding column 606, and the limit transverse hole is in sliding fit with a transverse shaft fixed in the horizontal sliding way; a first tension spring 607 is fixed between the slide column 606 and the side surface of one side of the inner part of the horizontal slideway; when the flexible window shade 603 is wound on the first winding and unwinding shaft 602, the first tension spring 607 is in a stretched state.

The working principle and beneficial effects of the technical scheme are as follows:

in the anti-dazzle high-color-gamut eye-protection screen based on self-adaptive adjustment, the shading component 6 is further arranged, and in an environment with stronger light rays, the light rays above the high-color-gamut display panel 1 can be shaded through the shading component 6; one end of the first rolling and discharging shaft 602 is connected with a rolling and discharging machine fixed on the outer part of the upper sliding frame 601, the other end of the first rolling and discharging shaft 602 can be fixedly connected with a hand wheel, the first rolling and discharging shaft 602 can be controlled to rotate through the rolling and discharging machine, the first rolling and discharging shaft 602 can roll or spread the flexible shade 603 when rotating, as shown in fig. 7, the first rolling and discharging shaft 602 is in a state of spreading the flexible shade 603, when the flexible shade 603 is rolled on the first rolling and discharging shaft 602, the first tension spring 607 is in a stretching state, when the flexible shade 603 is spread by the first rolling and discharging shaft 602, the first tension spring 607 is gradually reset, so as to drive the sliding column 606 to slide in a horizontal slideway on the top of the upper sliding frame 601, when the sliding column 606 slides, one end of the horizontal cross rod 605 can be driven to slide, so that the other end of the horizontal cross rod 605 pushes the movable frame 604 to move away from the upper sliding frame 601, and at the moment, the upper sliding frame 601 can drive the flexible shade 603 to spread out when moving outwards, so that the flexible shade 603 is in a state of being stretched, the flexible shade 603 is guaranteed, and the flexible shade 603 is blocked and the flexible shade 603 is spread out, and the horizontal cross rod 605 is kept in a state of being parallel to the upper sliding frame, and the flexible shade 1 is effectively kept in a state; when the first rolling shaft 602 rolls up the flexible window shade 603, along with the rolling of the flexible window shade 603, the flexible window shade 603 can pull the movable frame 604 to move towards the direction close to the upper sliding frame 601, one end of the horizontal cross rod 605 is driven to move towards the direction close to the upper sliding frame 601 when the movable frame 604 moves, the other end of the horizontal cross rod 605 drives the sliding column 606 to slide in the horizontal slideway at the top of the upper sliding frame 601, the first tension spring 607 stretches, the effect of the first tension spring 607 is rich, firstly, the horizontal cross rod 605 can move along with the unfolding of the flexible window shade 603 through the first tension spring 607, smooth unfolding of the flexible window shade 603 is guaranteed, secondly, when the flexible window shade 603 is rolled up, the stretching of the first tension spring 607 can play a role of tensioning and limiting to a certain extent, and the rolling compactness of the flexible window shade 603 is improved.

Example IV

As shown in fig. 1-15, the anti-dazzle high color gamut eye-protection screen based on self-adaptation adjustment further comprises a linkage assembly 7, the linkage assembly 7 comprises a main belt wheel 701 fixed on a first reel-off shaft 602, the main belt wheel 701 is connected with a slave belt wheel 702 through a synchronous belt transmission, the slave belt wheel 702 is fixed on a worm 703, both ends of the worm 703 rotate at the rear part of an upper sliding frame 601 through a rod seat, a worm wheel 704 is connected in a meshed manner in the middle of the worm 703, the worm wheel 704 is fixed on a rotary tube 705, the rotary tube 705 rotates on the upper sliding frame 601, one end of a transverse screw rod 706 is connected in an internal thread manner of the rotary tube 705, the other end of the transverse screw rod 706 is fixed at one end of a linkage plate 707, and the other end of the linkage plate 707 is fixedly connected with an upper blocking frame 4 so as to drive the upper blocking frame 4 to slide outwards to release blocking of a plurality of upper heat dissipation holes 201 or slide inwards to block the upper heat dissipation holes 201.

The working principle and beneficial effects of the technical scheme are as follows:

in the anti-dazzle high-color-gamut eye-protection screen based on self-adaptive adjustment, the anti-dazzle high-color-gamut eye-protection screen based on self-adaptive adjustment further comprises a linkage assembly 7, when the flexible window shade 603 is unfolded in a strong light state, the linkage assembly 7 with synchronous control values drives the upper blocking frame 4 to slide outwards to remove blocking of the plurality of upper radiating holes 201, when the flexible window shade 603 is rolled, the linkage assembly 7 with synchronous control values drives the upper blocking frame 4 to slide inwards to block the inner sides of the plurality of upper radiating holes 201, particularly when strong light is sunlight, the light is relatively sufficient and the heat is relatively large, and when the anti-dazzle high-color-gamut eye-protection screen is used, the temperature of the anti-dazzle high-color-gamut eye-protection screen is raised to a certain extent, and the plurality of upper radiating holes 201 are opened at the moment, so that the radiating effect is improved; the first reel-off shaft 602 can drive the main belt pulley 701 to rotate when rotating, the main belt pulley 701 drives the slave belt pulley 702 to rotate through synchronous belt transmission, so that the worm 703 is controlled to rotate, the worm 703 can be meshed with the worm wheel 704 to rotate when rotating, the rotating pipe 705 is driven to rotate through the worm wheel 704, the contact position of the rotating pipe 705 and the transverse screw 706 can be changed when rotating, the transverse screw 706 is controlled to perform horizontal displacement movement, the upper blocking frame 4 is driven to slide outwards through the linkage plate 707 to release blocking of the plurality of upper heat dissipation holes 201 or slide inwards to block the inner sides of the plurality of upper heat dissipation holes 201 when the transverse screw 706 moves, and synchronous control and convenient operation are realized.

Example five

As shown in fig. 1-15, the upper plugging frame 4 includes a push-pull shaft 401, the middle part of the push-pull shaft 401 slides on the back plate of the housing body 2, one end of the push-pull shaft 401 is fixed on a linkage plate 707, the other end of the push-pull shaft 401 is connected with one end of an upper plugging plate 403 through a vertical plate 402, the other end of the upper plugging plate 403 slides in an upper slideway of the back plate of the housing body 2, and the vertical plate 402 is connected with the back plate of the housing body 2 through a first compression spring 404 sleeved on the push-pull shaft 401.

The working principle and beneficial effects of the technical scheme are as follows:

in the anti-dazzle high-color-gamut eye-protection screen based on self-adaptive adjustment, the linkage plate 707 can drive the push-pull shaft 401 to slide on the backboard of the shell body 2 when moving, so that the push-pull shaft 401 drives the vertical plate 402 to move, and the vertical plate 402 moves to drive the upper plugging plate 403 to move, thereby controlling the upper plugging plate 403 to slide outwards to release the plugging of the plurality of upper heat dissipation holes 201 or slide inwards to plug the inner sides of the plurality of upper heat dissipation holes 201; the vertical plate 402 is connected with the back plate of the shell body 2 through a first pressure spring 404 sleeved on the push-pull shaft 401, and the relative stability between the vertical plate 402 and the back plate of the shell body 2 can be improved through the first pressure spring 404, so that the upper plugging plate 403 is prevented from loosening.

Example six

As shown in fig. 1-15, the anti-dazzle high color gamut eye-protection screen based on self-adaptive adjustment further comprises a screen protection component 8, the screen protection component 8 comprises a rolling protection film 801, the upper end of the rolling protection film 801 is fixed on a strip-shaped plate, the strip-shaped plate is arranged at the upper end of the front side plate of the shell body 2, the other end of the rolling protection film 801 is fixed on a second rolling shaft 802, two ends of the second rolling shaft 802 rotate on two displacement sliding seats 803, the two displacement sliding seats 803 slide in vertical sliding grooves of two vertical sliding groove frames 804, the two vertical sliding groove frames 804 are relatively fixed at the left end and the right end of the shell body 2, two ends of the second rolling shaft 802 are rotatably connected with one end of two inclined connecting rods 805, and the other ends of the two inclined connecting rods 805 are relatively rotated at two ends of the movable frame 604; a gear 806 is fixed on the second reel shaft 802, and the gear 806 is meshed with a rack fixed on the front side surface of the vertical chute frame 804; a second tension spring 807 is fixed between the two displacement slide seats 803 and the inner top surfaces of the two vertical slide groove frames 804, and the second tension spring 807 is in a stretching state when the rolling protective film 801 is unfolded and shielded in front of the high color gamut display panel 1.

The working principle and beneficial effects of the technical scheme are as follows:

the application relates to an anti-dazzle high-color-gamut eye-protection screen based on self-adaptive adjustment, which also comprises a screen protection component 8, wherein when the anti-dazzle high-color-gamut eye-protection screen is not used, a rolling protection film 801 is shielded in front of a high-color-gamut display panel 1 to play roles of protection and dust prevention, and when the anti-dazzle high-color-gamut eye-protection screen is used, the rolling protection film 801 is gradually rolled along with the unfolding of a flexible window shade 603, and the anti-dazzle high-color-gamut eye-protection screen is specifically as follows: when the movable frame 604 is far away from the upper sliding frame 601 to spread the flexible window shade 603, the movable frame 604 can drive one end of the two inclined connecting rods 805 to move away from the upper sliding frame 601, the other end of the two inclined connecting rods 805 can drive the two sliding seats 803 to slide upwards in the vertical sliding grooves of the two vertical sliding groove frames 804, and when the rolling protective film 801 is spread and shielded in front of the high color gamut display panel 1, the second tension spring 807 is in a stretching state, the second tension spring 807 plays an auxiliary role in upwards sliding of the two sliding seats 803 in the vertical sliding grooves of the two vertical sliding groove frames 804, and when the two sliding seats 803 slide upwards, the second rolling shaft 802 can be driven to slide upwards, and as the gear 806 fixed on the second rolling shaft 802 is meshed with the rack fixed on the front side surface of the vertical sliding groove frames 804, the second rolling shaft 802 can rotate around the axis of the second rolling protective film 801, so that the rolling protective film 801 can roll up, and shielding of the high color gamut display panel 1 is relieved.

Example seven

As shown in fig. 1-15, the front side of the upper carriage 601 is provided with one or more front sliding grooves, each front sliding groove is slidably matched with a buffer pressing block 3, a buffer pressure spring is fixed between the inner end of the buffer pressing block 3 and the inner side of the front sliding groove, and a rubber buffer pad is fixed at the outer end of the buffer pressing block 3; the buffer press 3 is located between the movable frame 604 and the upper carriage 601.

The winding protective film 801 is a flexible windable anti-glare film.

The working principle and beneficial effects of the technical scheme are as follows:

in the anti-dazzle high-color-gamut eye-protection screen based on self-adaptive adjustment, the buffer pressing block 3 can play a role in blocking and buffering, and the stability of the movable frame 604 when being attached to the front end of the upper sliding frame 601 can be improved.

In the application, the shading component 6 has the function of shading and buffering protection, when the application is tilted forwards, the movable frame 604 in the shading component 6 is firstly contacted with the platform for placing the application, at the moment, the space between the movable frame 604 and the upper sliding frame 601 is reduced, the movable frame 604 drives one end of the horizontal cross rod 605 to move, the other end of the horizontal cross rod 605 drives the sliding column 606 to slide in the horizontal slideway at the top of the upper sliding frame 601, the sliding column 606 compresses the first tension spring 607, thereby playing the role of buffering and damping through the first tension spring 607, and the buffer pressing block 3 is matched in the front sliding chute of the upper sliding frame 601 in a sliding way, when the movable frame 604 moves to be contacted with the buffer pressing block 3, the buffer pressing block 3 can be controlled to compress the buffer pressing spring in the front sliding chute, the buffer pressing spring plays the role of secondary buffering and damping through the buffer pressing spring, the damage generated when the application is tilted forwards is reduced, the outer end of the buffer pressing block 3 is fixed with the rubber buffer cushion, and the buffer effect can be further enhanced; in addition, when the movable frame 604 moves towards the direction of the carriage 601, the movable frame 604 can also drive one ends of the two inclined connecting rods 805 to move, the other ends of the two inclined connecting rods 805 drive the two displacement sliding seats 803 to slide in the vertical sliding grooves of the two vertical sliding groove frames 804, and the two second tension springs 807 are stretched by the two displacement sliding seats 803, so that the impact buffering effect is further improved by the second tension springs 807.

In the description of the present application, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present application and simplifying the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present application.

In the present application, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; may be mechanically connected, may be electrically connected or may be in communication with each other; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art according to the specific circumstances.

Although embodiments of the present application have been disclosed above, it is not limited to the details and embodiments shown and described, it is well suited to various fields of use for which the application would be readily apparent to those skilled in the art, and accordingly, the application is not limited to the specific details and illustrations shown and described herein, without departing from the general concepts defined in the claims and their equivalents.

Claims (10)

1. Anti-dazzle high colour gamut eyeshield screen based on self-adaptation is adjusted, its characterized in that includes high colour gamut display panel (1), and high colour gamut display panel (1) surface is equipped with anti-dazzle rete (10), and high colour gamut display panel (1) are installed in the screen shell, and the controller in the screen shell is connected to high colour gamut display panel (1) electricity, and light sensor (9) on the screen shell are connected to the controller electricity.

2. The adaptively adjusted antiglare high color gamut eyeshield screen of claim 1, wherein the antiglare film layer (10) is an antireflective coating or an antiglare filter.

3. The adaptively adjusted antiglare high color gamut eyeshield screen of claim 1, further comprising a blue light preventing film layer (11); the blue light prevention film layer (11) is arranged between the anti-glare film layer (10) and the high-color-gamut display panel (1).

4. The adaptively adjusted antiglare high color gamut eyeshield screen of claim 1 further comprising an abrasion resistant protective layer (12); the wear-resistant protective layer (12) is arranged on one side of the anti-glare film layer (10) far away from the high-color-gamut display panel (1).

5. The adaptively adjusted antiglare high color gamut eye-shield according to claim 4, further comprising an antistatic coating (13); the anti-static coating (13) is arranged on one side of the wear-resistant protective layer (12) away from the anti-glare film layer (10).

6. The adaptively adjusted antiglare high color gamut eyeshield of claim 1, characterized in that the antiglare film layer (10) has a refractive index between 1.5-1.7.

7. The adaptively adjusted antiglare high color gamut eyeshield screen of claim 1, the antiglare film layer (10) comprising a reflective film layer (14) and a light absorbing film layer (15) connected; the light absorbing film layer (15) is connected to the high color gamut display panel (1).

8. The adaptively adjusted antiglare high color gamut eyeshield screen as defined in claim 1 wherein nanoscale scattering particles are disposed within the antiglare film layer (10).

9. The self-adaptive adjustment-based anti-dazzle high-color-gamut eye-protection screen according to claim 1, wherein the screen shell comprises a shell body (2), a high-color-gamut display panel (1) is arranged in the shell body (2), and a plurality of upper radiating holes (201) and a plurality of lower radiating holes (202) are respectively arranged on a top plate and a bottom plate of the shell body (2); the back plate of the shell body (2) is movably connected with an upper blocking frame (4) and a lower blocking frame (5), the inner ends of the upper blocking frame (4) can be blocked at the inner sides of a plurality of upper radiating holes (201), and the inner ends of the lower blocking frame (5) can be blocked at the inner sides of a plurality of lower radiating holes (202).

10. A mobile phone screen, characterized in that: an antiglare high color gamut eyeshield screen comprising the adaptive adjustment-based antiglare high color gamut eyeshield of any one of claims 1-9.