KR20110091319A - Display element operated during off status of mobile communication device and display apparatus therewith - Google Patents

Abstract

PURPOSE: An electro-chromic display window is provided to offer design sense to a user in a stopping state of a main display device. CONSTITUTION: An upper transparent substrate(71) and a lower transparent substrate(61) equips an upper transparent electrode and a lower transparent electrode. An electrolyte layer(65) and an electro-chromic layer(67) are included between the upper transparent electrode and the lower transparent electrode.

Description

END ELEMENT OPERATED DURING OFF STATUS OF MOBILE COMMUNICATION DEVICE AND DISPLAY APPARATUS THEREWITH}

The present invention relates to an end screen display device and a display device having the same, and an end GHKASU display device capable of displaying an image to a user when the mobile communication device stops operating, and a display device having the same.

Display devices including screen displays such as mobile phones and home appliances are important in terms of their functional aspects, but design and appearance are particularly important for improving the merchandise of the product. However, when looking at the conventional display devices, there is a limitation that can not overcome the color difference between the appearance of the product and the screen portion to be displayed.

1 and 2 are examples of a conventional display device having a main display element. In FIG. 1 and FIG. 2, the display element is mainly displayed. In FIG. 1 and FIG. 2, a circuit configuration for driving the display element, an input button, a protective case, and the like are omitted for convenience of description. As an example, a representative example of a display device may be a mobile phone. In FIGS. 1 and 2, components including a driving circuit, a memory, a battery, a key input button, and the like are omitted.

1 is an example of a display device including a resistive touch panel. The display device including a resistive touch panel includes a main display element 10 that provides an image to a user when the display device is in operation, and a window 20 formed of a transparent film or transparent glass thereon. A transparent electrode is provided on the upper and lower substrates on the upper part, and the touch panel 30 which grasps the touch point using the pressure applied by the user and the touch panel 30 are stacked on the touch panel 30, and provides only the effective screen to the user. It is provided with a decoration layer 50 in which the company name and the like are printed.

2 is an example of a display device including a capacitive touch panel. The display device having a capacitive touch panel includes a main display element 10 that provides an image to a user when the display device is in operation, and a capacitive capacitor pattern formed on the upper and lower substrates. The touch panel 30 which grasps touch points by change, and a decoration layer 50 provided on the upper part and providing only a valid screen to the user and the company name is printed on the outer border, and laminated on the upper part of the transparent glass. The window 20 provided is provided.

The conventional display device as described above emphasizes the design aspect by putting various colors and patterns on the exterior of the product, but it is a color that appears when the main display element is turned off (when the display is off). There was a problem in that the design was inferior because it was only able to express monotonous colors such as black, gray or white.

The present invention is to solve the above problems, the end screen display element attached to the front of the main display element of the display device to provide a design feeling to the user in a state in which the main display element is stopped operation and a display device having the same The purpose is to provide.

In the present invention, in order to improve the merchandise of display devices including a display such as a mobile phone or home appliances, the appearance and color and design of the display screen portion are more flexible and rich. An object of the present invention is to provide an end screen display device capable of easily processing and a display device having the same.

An object of the present invention is an end screen display device provided on a front surface of a main display device that provides a user with changing image information, and includes an upper transparent substrate, a lower transparent substrate, and an opposite surface of the upper transparent substrate and the lower transparent substrate. A top screen electrode and a bottom transparent electrode, and an electrolyte layer and an electrochromic layer are provided between the top transparent electrode and the bottom transparent electrode, respectively.

According to the end screen display device according to the present invention, it is attached to the front surface of the main display device of the display device to provide a design feeling to the user while the main display device is stopped.

In order to improve the merchandise of display devices including a display such as a mobile phone or a home appliance by the end screen display device according to the present invention, the appearance and color of the display screen portion And design can be processed more flexibly and richly.

1 and 2 show a conventional display device having a main display element.
3 and 4 are exemplary views of a display device having an end screen display element 60 according to the present invention.
5 is an example of an end screen display element 60 of one embodiment according to the present invention.
6 (a) illustrates the 'display off mode' in which the main display element 10 has stopped operating, and FIG. 6 (b) illustrates the 'display on mode' in which the main display element 10 is operating. screen.

Hereinafter, the feature points of the present invention will be described in more detail with reference to the accompanying drawings.

The present invention is an end screen display device provided on the main display device 10 in the display device shown in Figures 1 and 2 to provide an image to the user when the main display device 10 stops operation and a display device having the same It is about.

3 and 4 are exemplary views of a display device having an end screen display element 60 according to the present invention. 3 and 4 focus on the display element, and in FIG. 3 and FIG. 4, a circuit configuration for driving the display element, an input button, a protective case, and the like are omitted for convenience of description. As an example, a representative example of a display device may be a mobile phone. In FIGS. 1 and 2, components including a driving circuit, a memory, a battery, a key input button, and the like are omitted.

3 is a display device according to an embodiment of the present invention having a resistive touch panel. The display device according to the present invention having a resistive touch panel includes a main display element 10 for providing an image to a user when the display device is in operation, and an end screen display 60 according to the present invention. The upper and lower substrates are provided with transparent electrodes, and the touch panel 30 which grasps the touch point using the pressure applied by the user and the touch panel 30 are laminated on the touch panel 30 and provide only the effective screen to the user. The outer border is provided with a decoration layer 50 on which a company name or the like is printed.

4 is a display device according to an embodiment of the present invention having a capacitive touch panel. According to an exemplary embodiment of the present invention, a display device including a capacitive touch panel includes a main display element 10 that provides an image to a user when the display device is in operation, and a capacitive capacitor pattern formed on the upper and lower substrates. And a touch panel 30 which grasps the touch point by the change of capacitance, and a decoration layer 50 provided on the upper part and providing only a valid screen to the user, and the company name or the like printed on the outer edge thereof, When the main display element 10 is in the off state, the end screen display element 60 is provided to provide an image to the user.

5 is an example of the end screen display device 60 of an embodiment according to the present invention. The end screen display device 60 according to the present invention forms an upper transparent electrode 69 and a lower transparent electrode 63 on opposite surfaces of the upper transparent substrate 71 and the lower transparent substrate 61, respectively, and the upper transparent electrode. An electrolyte layer 65 and an electrochromic layer 67 are provided between the 69 and the lower transparent electrode 63.

The present invention provides an electrolyte layer 65 as an end screen display element 60 in order to solve the problem that only a fixed color can be expressed when a display is turned on or off for a product having a display such as a mobile phone or a home appliance. ) And an electrochromism device having the electrochromic layer 67 are used.

Electrochromic means that the color of the material is reversibly changed by the oxidation / reduction reaction when a voltage is applied. The advantage of the electrochromic device is that the contrast is clear at any angle, the intensity can be changed continuously, and the color change speed is very fast, which changes the contrast according to the angle and improves the disadvantage of the slow color change device. There are features that can be done.

Electrochromic materials are referred to as electrochromic materials, and electrochromic materials include inorganic materials and organic materials. As inorganic materials, transition metal oxides deposited in a thin film form are widely used. Examples thereof include a color reducing substance and iridium dioxide, which are colored when electrons are reduced such as tungsten oxide (WO ₃ ) or molybdenum trioxide (MoO ₃ ). An oxide thin material such as IrO ₂ ) or rhodium trioxide (Rh ₂ O ₃ ) loses its color when oxidized due to the loss of electrons. Methods of making thin films of inorganic materials such as these include vacuum evaporation, chemical vapor deposition, sputter deposition, and anodic oxidation. Widely used. Organic electrochromic materials include viologen compounds, diphtahlocyanine compounds, tetrathiafulvalene compounds, and the like. Organic compounds used in electrochromic display devices have a problem in that they can be decomposed by sunlight to shorten their lifespan, but they are widely used because they can give a desired color when properly mixed.

A typical reduced color electrochromic material is WO ₃ amorphous thin film, which is blue when it is combined with alkali metal or hydrogen to reduce its concentration depending on the degree of reduction. The reaction scheme is shown in Chemical Formula 1.

Here, M ⁺ is an ion obtained from an electrolyte and includes hydrogen ions, metal ions such as lithium and sodium, and protons. Currently, lithium ions and the like are used for the purpose of improving device stability over time. . This reaction is reversible depending on the direction of the electric field of the applied voltage, and the amount x of implanted ions is determined by the thickness of the thin film. In Eq. (1), x ≒ 0.5 is the upper limit for both, and x ≒ 0.4 is the upper limit for lithium ions.

While the amorphous WO ₃ thin film is colored by reduction, the V ₂ O ₅ thin film is a representative oxidizing thin material that is oxidatively colored and is completely transparent as a thin film, and the light modulation phenomenon in the visible region is relatively small compared to the amorphous WO ₃ thin film. It is used as a counter electrode of amorphous WO ₃ thin film as a reduced color electrochromic material. The reaction scheme is shown in Formula 2.

In order to use an electrochromic device as an optical shutter device, two basic structures must be provided.

Structure 1:

Upper transparent electrode 69 / electrochromic layer 67 / electrolyte layer 65 / lower transparent electrode 63

Structure 2:

Upper transparent electrode 69 / electrolyte layer 65 / electrochromic layer 67 / lower transparent electrode 63

The upper transparent electrode 69 may be formed by vacuum deposition, printing, or film adhesion method of In ₂ O ₃ , SnO ₂ , Au or indium tin oxide (ITO), conductive polymer, carbon nanotube (CNT), or the like. Can be formed.

Materials for forming the electrochromic layer 65 include inorganic materials such as WO ₃ , MoO ₃ , TiO ₂ , Ir ₂ O ₃ , V ₂ O ₅ , viologens, pyrazolines, Organic materials such as polyaniline;

The electrolyte layer 63 is largely classified into a liquid type and a solid type, and an organic type electrolyte in which LiClO ₄ is dissolved in propylene carbonate (PC) and propylene ethylene glycol (propylene ethyelen glycol); Inorganic electrolytes such as LiI and Li ₃ N are used. In addition, a lot of polymer (polymer) has been studied as a solid electrolyte. The counter electrode is usually made of a transparent electrode or a stable material against electrolytes such as gold, silver, copper, platinum, and carbon. In complementary electrochromic devices, V ₂ O ₅ , IrO ₂ , and Nb ₂ , which are oxidatively developed, are used. O ₅ And the like are used as counter electrodes.

One transparent electrode selected from the upper transparent electrode 69 and the lower transparent electrode 63 is formed as a front electrode, and the other transparent electrode is patterned to form a patterned transparent electrode when the main display element 10 is turned off. It is desirable to allow the image to be displayed in shape. In addition, the electrochromic device used in the present invention is capable of state transition to a relatively low voltage value of about 1 volt when the state changes, and it is possible to lower power consumption since it is not necessary to apply a separate power source to maintain the transition state. It has an effect.

In the present invention, the electrochromic device is used as an optical shutter. That is, it is provided with an end screen display element which maintains the transparent state in the state where power is not applied to the electrochromic element, and provides a color according to the pattern shape of the transparent electrodes 63 and 69 when the power is applied, This may be used in mobile devices, home appliances, industrial devices, etc. having the main display element 10. Hereinafter, a mobile device will be described as an example of a display device having an end screen display element.

An operation of the display apparatus having the end screen display element will be described with reference to FIG. 6. 6 (a) illustrates the 'display off mode' in which the main display element 10 has stopped operating, and FIG. 6 (b) illustrates the 'display on mode' in which the main display element 10 is operating. Screen.

In the present invention, as shown in FIG. 6 (a), in the 'display off mode', the state of the end screen display 60 is changed to display a desired color according to the pattern shape of the transparent electrodes 63 and 69 to the user. In the 'display on mode' as shown in b), the state of the end screen display 60 is changed to be maintained in a transparent state so that the screen of the main display element can be displayed.

By configuring the electrochromic device as described above in a window or a touch window, the user can display a desired pattern even in the display off mode, thereby displaying a luxurious image by adding various design elements.

That is, as shown in FIG. 6, a desired image can be provided by patterning a transparent electrode provided with an electrochromic layer, and a reversible reaction occurs in a transparent state or an image display state by reversibly changing the power source.

The above embodiment is expressed as an example to explain the present invention, and can be applied to a refrigerator, a PDA, a flat-panel television, and the like having a main display element in addition to a mobile phone.

The driving method is briefly described as follows.

1) When the main display element 10 is in the off state, in the structure of FIG. 5, a positive desired power is applied to the transparent electrodes 63 and 69 at both ends and a negative power to the lower side to display a specific desired pattern. And the power supply is removed (or vice versa).

2) When the main display element 10 is in the on state, in the structure of FIG. 5, a positive power supply is applied to the transparent electrodes 63 and 69 at both ends, and a positive power supply is applied to the lower side of the main display element 10, thereby keeping the main display device transparent. Allows the image information provided by the display to be provided (or vice versa).

Although the preferred embodiments of the present invention have been described and described using specific terms, such terms are only for clarity of the present invention, and the embodiments and the described terms of the present invention are defined and the spirit and scope of the following claims. It is obvious that various changes and modifications can be made without departing from the scope of the invention. Such modified embodiments should not be understood individually from the spirit and scope of the present invention, but should fall within the claims appended to the present invention.

10: main display element 20: window
30: touch panel 50: decoration layer
60: end screen display element 61: lower transparent substrate
63: lower transparent electrode 65: electrolyte layer
67: electrochromic layer 69: upper transparent electrode
71: upper transparent substrate

Claims (8)

An end screen display device provided in front of a main display device for providing a user with changing image information.
An upper transparent substrate and a lower transparent substrate,
An upper transparent electrode and a lower transparent electrode respectively provided on opposing surfaces of the upper transparent substrate and the lower transparent substrate;
And an electrolyte layer and an electrochromic layer laminated between the upper transparent electrode and the lower transparent electrode.
The method of claim 1,
The electrolyte layer is selected from a dielectric type including SiO and LiF, an organic electrolyte in which LiClO ₄ is dissolved in propylene carbonate (PC), and propylene ethylene glycol (propylene ethyelen glycol), and an inorganic electrolyte such as LiI and Li ₃ N. At least one end screen display device, characterized in that consisting of.
The method of claim 1,
And the electrochromic layer is formed of a reduced color inorganic material or an oxidized color inorganic material.
The method of claim 3, wherein
And the reduced color developing inorganic material is selected from tungsten oxide (WO ₃ ) and molybdenum trioxide (MoO ₃ ).
The method of claim 4, wherein
And the oxidatively colored inorganic material is selected from a reduced-colored inorganic material and iridium dioxide (IrO ₂ ).
The method of claim 1,
And the electrochromic layer comprises at least one organic material selected from a viologen compound, a diphtahlocyanine compound, and a tetrathiafulvalene compound.
The method of claim 1,
The end screen display device, characterized in that any one of the upper transparent electrode and the lower transparent electrode is a pattern formed.
A main display element for providing a user with changing image information,
The display device of claim 1, further comprising an end screen display element of any one of claims 1 to 7 disposed above the main display element.

Images