CN202422684U - Double-screen embedded equipment - Google Patents

Abstract

The utility model discloses double-screen embedded equipment and aims to solve the problems of small display picture or complicated operation of the double-screen embedded equipment in the prior art. The double-screen embedded equipment comprises a body and a display screen which is positioned on the body, wherein the body comprises a main processor; the display screen comprises a transparent display screen and a reflecting display screen; the transparent display screen is positioned on the uppermost layer; the reflecting display screen is laminated with the transparent display screen and positioned below the transparent display screen; and the main processor is respectively connected with the transparent display screen and the reflecting display screen. According to the embodiment of the utility model, the transparent display screen and the reflecting display screen of the double-screen embedded equipment are laminated, so the whole display screen area of the embedded equipment can be fully utilized regardless of use of the transparent display screen or the reflecting display screen, and the double-screen embedded equipment has a large display picture, is convenient to use and improves user experience.

Description

A kind of double screen embedded device

Technical field

The utility model relates to the embedded device field, particularly a kind of embedded device that uses double-display screen.

Background technology

At present, the display screen that is applied to embedded device mainly comprises three kinds, that is, and and the opaque colored display screen and the transparent color display screen of reflective display screen, routine.Reflective display screen self is not with backlight, but relies on reflect ambient light source displaying contents, because of the similar paper of its display effect, can vision protection and energy-conserving and environment-protective, and therefore, obtained a lot of users' approval.But the refresh rate of reflective display screen is low, dynamic response slowly, does not possess realistic colour, and therefore be not suitable for movie, play games etc. needs the occasion of higher refresh rate, can't satisfy many-sided demand of user.Demands such as though conventional colorful display screen and transparent color display screen can satisfy user's movie, play games,, can't obtain the display effect of similar paper when utilizing colorful display screen to read, can't satisfy user's reading requirement.

In order to satisfy many-sided demand that the user reads, sees a film and play games simultaneously, at present, some embedded device has adopted the double screen scheme.In existing double screen embedded device, generally all be to have reflective display screen and conventional colorful display screen simultaneously.When the user reads, reflective display screen can be used, and when the user wants to see a film or plays games, then colorful display screen can be used.But, on present double screen embedded device, be reflective display screen and conventional colorful display screen because prior art generally adopts; Therefore; The two can not range upon range ofly be placed, and in existing implementation, or is that reflective display screen and conventional colorful display screen are arranged side by side; That is: reflective display screen and colorful display screen all are positioned at on one deck, are arranged side by side or are arranged side by side up and down about being between the two; Be display screen to be designed to dismountable, the user can install reflective display screen or conventional colorful display screen as required.But when reflective display screen and conventional colorful display screen are arranged side by side, the reflective display screen that is adopted and the size of colorful display screen will receive the restriction of whole embedded device size, will cause display frame less, reduce user experience; When display screen is designed to demountable structure; Though the user can select to install reflective display screen or conventional colorful display screen as required; But, when the user need change display screen, need to carry out the loaded down with trivial details operation that removes and installs; Cause user's complex operation, and frequent plug will cause the equipment interface fault easily.

The utility model content

The utility model provides a kind of double screen embedded device, in order to solve the problem of the less or complex operation of double screen embedded device of the prior art display frame.

A kind of double screen embedded device; Comprise fuselage and be positioned at the display screen on the fuselage; Comprise primary processor in the said fuselage; Said display screen comprises: be positioned at the transparent display screen of the superiors and with transparent display screen range upon range of and be positioned at its below reflective display screen, said primary processor is connected with reflective display screen with said transparent display screen respectively.

Preferable, said primary processor comprises the reflective displaying screen controller that links to each other with reflective display screen, and the transparent display screen controller that links to each other with transparent display screen.

Preferable, the size of said transparent display screen is not less than the size of said reflective display screen.

Preferable, said transparent display screen comprises: black and white transparent display screen or colourful transparent display screen.

Preferable; When said transparent display screen is the colourful transparent display screen; Said colourful transparent display screen comprise transparent base with and on the Organic Light Emitting Diode coating, wherein the Organic Light Emitting Diode of predeterminated position is used to illuminate said reflective display screen in the Organic Light Emitting Diode coating.

Preferable, the Organic Light Emitting Diode of said predeterminated position is left side, right side, upside, a side of downside or the Organic Light Emitting Diode of many sides that is arranged in said transparent display screen in the said Organic Light Emitting Diode coating.

Preferable, said transparent display screen is provided with light shield, and said light shield covers the Organic Light Emitting Diode of said predeterminated position.

Preferable, the surface of said transparent display screen is provided with LGP.

Preferable, said LGP covers the Organic Light Emitting Diode of said predeterminated position, and perhaps, it is whole that said LGP covers said transparent display screen.

Preferable, being filled with foam between said reflective display screen and the said transparent display screen, said foam is positioned at the bezel locations all around of said reflective display screen and said transparent display screen.

Among the utility model embodiment, the transparent display screen of double screen embedded device and the range upon range of placement of reflective display screen, therefore; No matter be to use transparent display screen; Also be to use reflective display screen, can make full use of the entire display screen area of embedded device, display frame is bigger; And easy to use, improved user experience.

Description of drawings

Fig. 1 is the side view of the double screen embedded device among the utility model embodiment;

Fig. 2 is the structural drawing when being provided with the OLED that is used to throw light in the double screen embedded device among the utility model embodiment;

Side view when Fig. 3 is provided with light shield for the double screen embedded device among the utility model embodiment.

Description of reference numerals:

11 transparent display screens; 111 OLED; 12 reflective display screens; 13 primary processors; 16 light shields.

Embodiment

Through embodiment the utility model is described in further detail below in conjunction with accompanying drawing, but the utility model is not restricted to this.

The utility model embodiment provides a kind of double screen embedded device, can solve the problem of the less or complex operation of double screen embedded device of the prior art display frame.

The double screen embedded device that the utility model embodiment provides; As shown in Figure 1; Comprise: fuselage be positioned at the display screen on the fuselage; Comprise primary processor 13 in the said fuselage, said display screen comprises: be positioned at the transparent display screen 11 of the superiors and range upon range of and be positioned at the reflective display screen 12 of its below with transparent display screen 11.Said primary processor 13 is connected with reflective display screen 12 with said transparent display screen 11 respectively.

Among the utility model embodiment, the transparent display screen of double screen embedded device and the range upon range of placement of reflective display screen, therefore; No matter be to use transparent display screen, also be to use reflective display screen, can make full use of the entire display screen curtain area of embedded device; Display frame is bigger; And avoided the problem of repeated disassembled and assembled, and user-friendly, improved user experience.

Introduce the double screen embedded device that the utility model embodiment provides in detail below in conjunction with accompanying drawing.As shown in Figure 1, this double screen embedded device comprises the transparent display screen 11 and reflective display screen 12 of up and down two-layer placement, and wherein, when this embedded device level and display screen were placed up, transparent display screen 11 was layered in the top of reflective display screen 12.In order to realize that this embedded device also comprises to the control of transparent display screen 11 and reflective display screen 12: the primary processor 13 that links to each other respectively with transparent display screen 11 and reflective display screen 12.Though in Fig. 1, when this embedded device level and display screen were placed up, primary processor 13 was positioned at the below of reflective display screen 12; But; In the actual conditions, primary processor 13 also can be positioned at other positions, for example; Be positioned at the left side or the right side of transparent display screen 11 and reflective display screen 12, as long as can realize control to transparent display screen 11 and reflective display screen 12 through internal circuit.

For the ease of user's switching displayed screen state; Promptly select to use transparent display screen or reflective display screen; Also be provided with a switching key in this double screen embedded device outside, this switching key can be two buttons of controlling transparent display screen and reflective display screen respectively, also can be a slide block that can slide; When this slide block slides into different positions, trigger corresponding display screen work.This switching key links to each other with primary processor through internal circuit, and the user can trigger primary processor through this switching key and handle accordingly.Further, the display screen handoff functionality also can be combined corresponding software to control by the primary processor of embedded device.

When the user need use transparent display screen 11 to show, because transparent display screen 11 is positioned at the superiors of display screen, promptly; Be positioned at the top of reflective display screen 12; Therefore, after the user sent the steering order of using transparent display screen 11 through switching key or corresponding software to primary processor 13, primary processor 13 promptly can be controlled reflective display screen 12 and quit work; And open transparent display screen 11, make transparent display screen 11 work.Particularly, when controlling reflective display screen 12 and quitting work, can thoroughly close reflective display screen 12, make that content displayed disappears on the reflective display screen 12; Also can break off the power supply of reflective display screen 12 and related device, make that content displayed still keeps on the reflective display screen 12.In addition, transparent display screen 11 can also be by the transparency of primary processor 13 control transparent display screens 11, to satisfy requirements of different users when work.Further, the main duty that also can control reflective display screen and transparent display screen flexibly of handling is such as reflective display screen and transparent display screen are worked simultaneously.

When the user need use reflective display screen 12 to show; Because reflective display screen 12 is positioned at the below of transparent display screen 11; Therefore, after the user sent the steering order of using reflective display screen 12 through switching key to primary processor 13, primary processor 13 not only will be opened reflective display screen 12; Make reflective display screen 12 work; And, also to control transparent display screen 11 and be in pellucidity, can see through the displaying contents on the reflective display screen 12 of transparent display screen 11 normal readings to guarantee the user.Particularly, dissimilar according to transparent display screen 11 can have different processing modes.For example, some transparent display screen 11 is in pellucidity when closing, and to this type transparent display screen 11, directly it is closed and gets final product; And some transparent display screen 11 is in non-transparent state when closing, and the time just can be adjusted to pellucidity or translucent etc. in work, to this type transparent display screen 11, need its normal unlatching be adjusted to pellucidity after making its work.In addition, if some user hopes to change background color when using reflective display screen 12; For example, hope display background is adjusted into light green color, with vision protection; At this moment; Also can control the display color and the transparency of transparent display screen 11, make transparent display screen 11 show light green, to satisfy user's demand.Perhaps, also can transparent display screen 11 be adjusted into other colors, to satisfy the different needs of user.

In the present embodiment, the primary processor 13 of control transparent display screen 11 and reflective display screen 12 can adopt multiple mode to realize, any mode that can accomplish control function can adopt.On mainboard except being provided with primary processor; Also comprise custom circuit; Be used to realize outside the functions such as power management module, RAM, FLASH memory module and peripheral crystal oscillator, capacitance-resistance; Also be provided with the control device that is used to control transparent display screen 11 and reflective display screen 12, this control device can be realized by independent chip, also can directly realize through the internal circuit of primary processor.In addition; This control device can be realized by the controller that can control transparent display screen 11 and reflective display screen 12 simultaneously, also can be realized by two transparent display screen controller and reflective displaying screen controllers of controlling transparent display screen 11 and reflective display screen 12 respectively.In a word, the way of realization of this control device is versatile and flexible, as long as can realize controlling the purpose of transparent display screen 11 and reflective display screen 12.

Transparent display screen 11 in the present embodiment can adopt colourful transparent display screen or black and white transparent display screen to realize.Wherein, the black and white transparent display screen generally is on green or jade-green transparent base, and the liquid crystal material of use black shows; The colourful transparent display screen generally is on transparent base, to use Organic Light Emitting Diode (Organic Light-Emitting Diode, OLED) coating shows.The colourful transparent display screen also comprises the OLED control section, can make OLED coating transparence, thereby realizes transparent colorful display screen; Can also control the OLED coating, it is shown according to preset image or dynamic image.Wherein, the OLED coating comprises some OLED, through regulating the state of each OLED, and as transparent, luminous etc., i.e. the display effect of may command OLED coating.

When transparent display screen 11 adopts the colourful transparent display screen to realize, can be as required, the OLED that makes the predeterminated position in the colourful transparent display screen is that reflective display screen 12 provides illumination.When the user selects to use reflective display screen 12, because that reflective display screen 12 self is not with is backlight, can only reflect extraneous light, therefore, when external ambient light is dark, can have a strong impact on the display effect of reflective display screen 12.At this moment; Can be at an illumination of this double screen embedded device outer setting button; This illumination button links to each other with primary processor 13; The user is luminous, as shown in Figure 2 through the OLED111 that this illumination button can trigger predeterminated position in the primary processor 13 control transparent display screens 11, thus reflective display screen 12 illuminations for working.Wherein, the position of the OLED111 of predeterminated position can be provided with arbitrarily as required, as long as can realize illumination purposes.Preferably, the OLED111 of this predeterminated position can be positioned at the left side and/or the right side of said transparent display screen 11, and is as shown in Figure 2, perhaps, also can be positioned at the top and/or the below of said transparent display screen 11.In addition; The working state administration software of the embedded device internal operation that this illumination button also can provide through the utility model realizes that this working state administration software can be controlled the duty of embedded device, for example; Options such as " opening reflective display screen ", " opening the colourful transparent display screen ", " opening the illumination of colourful transparent display screen " can be provided on software interface; When the user needs the colourful transparent display screen that illumination is provided, only need open this software, click " opening the illumination of colourful transparent display screen " option; Can pass through this software control embedded device, and then realize that the user hopes the function that realizes.Further, can be through software control colourful transparent display screen lighting position.

In addition, when the OLED111 in utilizing transparent display screen 11 throws light on, go into human eye, dazzling phenomenon may occur by the light direct projection that OLED111 sends.In order to address this problem, can on the transparent display screen 11 of this double screen embedded device, light shield 16 be set further, as shown in Figure 3, this light shield 16 is positioned at the top of the OLED111 of predeterminated position.In Fig. 3, only show the cut-open view of the embedded device that light shield 16 is installed, in the actual conditions, because the OLED111 that is used to throw light on is generally strip; Therefore, correspondingly, this light shield 16 generally also is a strip; And strong excessively in order to prevent the light that OLED111 sends, produce dazzling phenomenon, these light shield 16 1 ends are fixed on the transparent display screen 11; Other end protuberance, and slight curving towards the center position of transparent display screen 11, on a part of reflected back transparent display screen 11 that OLED111 is emitted beam; Thereby both improved illuminating effect, avoided dazzling phenomenon again.In Fig. 2 and Fig. 3; The OLED111 of predeterminated position is positioned at the left and right sides of transparent display screen 11, therefore, and in Fig. 3; The quantity of light shield 16 is two also, the light-emitting zone of OLED that is respectively applied for the light-emitting zone of the OLED that covers the predeterminated position be positioned at the left side and is positioned at the predeterminated position on right side.In the actual conditions, the position of the OLED111 of the predeterminated position that is used to throw light on can be provided with arbitrarily as required, and therefore, light shield 16 positions need not be confined to mode shown in Figure 3 as long as be complementary with the zone of the OLED111 of predeterminated position.

Perhaps, also can 16 usefulness of the light shield among Fig. 3 be arranged on the LGP replacement on transparent display screen 11 surfaces.Particularly, LGP can only cover the zone of the OLED111 that is used to throw light on of predeterminated positions in the transparent display screen 11, and at this moment, the quantity of LGP and shape can adapt with the quantity and the shape in the zone of the OLED111 that is used to throw light on of predeterminated position.This LGP also can cover said transparent display screen 11 integral body, at this moment, only needs LGP to be set to and consistent the getting final product of transparent display screen 11 sizes.LGP can replace light shield 16, and the light path of the light that OLED111 sends is changed, and light is reflexed on the transparent display screen, thereby avoid the generation of dazzling phenomenon.

Though in the above-described embodiments, what the colourful transparent display screen adopted is the OLED display screen,, when transparent display screen adopts the transparent display screen of other type to realize, also can adopt in the same way reflective display screen is thrown light on.In addition, in order farthest to utilize the screen size of reflective display screen 12, the size of this transparent display screen 11 should be not less than the size of reflective display screen 12.Reason is; Transparent display screen 11 is positioned at the superiors of display screen; Reflective display screen 12 is positioned at respect to transparent display screen 11 and more leans on fuselage one side, when reflective display screen 12 is worked, need make transparent display screen 11 be in pellucidity; Can make the user clearly see the displaying contents on the reflective display screen 12 like this; And if the size of transparent display screen 11 is less than reflective display screen 12, the user also can only clearly see the regional institute content displayed that is positioned at transparent display screen 11 belows on the reflective display screen 12, reflective display screen 12 greater than content displayed on the zone of transparent display screen 11 then because blocking of transparent display screen 11 and can't clearly be shown to the user; Therefore, can influence the display effect of reflective display screen 12.

In the present embodiment; In order to prevent that 11 pairs of reflective display screens 12 of transparent display screen from producing extrusion stress; Can also further fill foam between said reflective display screen 12 and the said transparent display screen 11, said foam is positioned at the bezel locations all around of said reflective display screen 12 and said transparent display screen 11.

Though top combination embodiment is described the utility model, to those skilled in the art, it is understandable that the foregoing description should not thought the protection domain that limits the utility model with this only for example purposes.The protection domain of the utility model is only limited by accompanying Claim.In addition; Parts are not limited to realized by hardware fully in the foregoing description; The part parts also can be realized by software or software and hardware combining; For example the part unit is to instruct relevant hardware to accomplish through program, and this program can be stored in the computer read/write memory medium, as: ROM/RAM, magnetic disc, CD etc.Also have, the apparatus structure shown in accompanying drawing or the embodiment only is to schematically show logical organization.The module that wherein shows as separating component maybe or possibly not be physically to separate, and the parts that show as module also possibly be possibly not be physical module perhaps.

In addition, in claims, term " comprises " does not get rid of other parts of existence or step.In addition, although in different claims, comprised each characteristic, these characteristics can be by advantageously combination, and each characteristic is included in the different claims and does not mean that these combination of features are infeasible and/or disadvantageous.In addition, single implication is not got rid of a plurality of.Therefore, the implication of " " etc. is not got rid of a plurality of.

In addition, those skilled in the art can make amendment, change or replace under the prerequisite that does not break away from the utility model spirit it, and still, the various equivalent variations according to the utility model is done still belong to the scope that the utility model is contained.

Claims (10)

1. a double screen embedded device comprises fuselage and is positioned at the display screen on the fuselage, comprises primary processor in the said fuselage, it is characterized in that,

Said display screen comprises: be positioned at the transparent display screen of the superiors and with transparent display screen range upon range of and be positioned at its below reflective display screen,

Said primary processor is connected with reflective display screen with said transparent display screen respectively.

2. double screen embedded device as claimed in claim 1 is characterized in that, said primary processor comprises the reflective displaying screen controller that links to each other with reflective display screen, and the transparent display screen controller that links to each other with transparent display screen.

3. double screen embedded device as claimed in claim 1 is characterized in that, the size of said transparent display screen is not less than the size of said reflective display screen.

4. double screen embedded device as claimed in claim 1 is characterized in that, said transparent display screen comprises: black and white transparent display screen or colourful transparent display screen.

5. double screen embedded device as claimed in claim 4; It is characterized in that; When said transparent display screen is the colourful transparent display screen; Said colourful transparent display screen comprise transparent base with and on the Organic Light Emitting Diode coating, wherein the Organic Light Emitting Diode of predeterminated position is used to illuminate said reflective display screen in the Organic Light Emitting Diode coating.

6. double screen embedded device as claimed in claim 5; It is characterized in that the Organic Light Emitting Diode of said predeterminated position is left side, right side, upside, a side of downside or the Organic Light Emitting Diode of many sides that is arranged in said transparent display screen in the said Organic Light Emitting Diode coating.

7. double screen embedded device as claimed in claim 5 is characterized in that said transparent display screen is provided with light shield, and said light shield covers the Organic Light Emitting Diode of said predeterminated position.

8. double screen embedded device as claimed in claim 5 is characterized in that the surface of said transparent display screen is provided with LGP.

9. double screen embedded device as claimed in claim 8 is characterized in that said LGP covers the Organic Light Emitting Diode of said predeterminated position, and perhaps, it is whole that said LGP covers said transparent display screen.

10. double screen embedded device as claimed in claim 1 is characterized in that, is filled with foam between said reflective display screen and the said transparent display screen, and said foam is positioned at the bezel locations all around of said reflective display screen and said transparent display screen.

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