KR20170025294A - The displaying apparatus for a electrical device - Google Patents

Abstract

The present invention relates to a display apparatus for an electronic device. According to the present invention, a structure capable of producing electric power according to dynamic stress applied when a user using the electronic device touches a display panel is additionally arranged in a display panel structure of the electronic device, so that energy (for example, dynamic energy naturally generated when the user touches the display apparatus) which is imprudently wasted is widely recycled for various purposes (for example, electric power for driving a device, standby power, etc.) without any difficulty in the electronic device. Accordingly, manufacturers of the electronic device and the user of the electronic device are guided to easily avoid unnecessary deterioration damage of a product due to an inefficient power operation of an existing electronic device.

Description

TECHNICAL FIELD [0001] The present invention relates to a display apparatus for an electronic device,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a display device installed in an electronic device (e.g., a smart phone, a tablet PC, a TV, a monitor, and the like) A structure capable of producing electric power in accordance with the mechanical stress applied when the panel is touched is provided so that the energy that is recklessly stored on the side of the electronic device (for example, (Mechanical energy that is naturally generated when touching) can be widely recycled for various purposes (for example, electric power for driving the apparatus, standby power, etc.), and thus, An electronic device that can guide users to avoid unnecessary deterioration of product due to power operation It relates to a display device.

2. Description of the Related Art In recent years, as the demand for electronic devices (e.g., smart phones, tablet PCs, TVs, monitors, etc.) has surged, the functions of various display devices such as LCDs, PDPs, OLEDs,

For example, Japanese Laid-Open Patent Publication No. 10-2013-27008 (name: a method of manufacturing a plasma display panel) (published on March 13, 2013), Korean Patent Publication No. 10-2013-28220 (liquid crystal display device) (Japanese Patent Application Laid-Open Publication No. Hei 10-110777, published on March 19, 2013), and Japanese Laid-Open Patent Application No. 10-2012-110777 .

In recent years, as the issue of energy saving has become widely publicized, the problem of how to efficiently operate the consumed electric power of the electronic device having the display device is a problem in determining the quality of the electronic device It is becoming a very important variable.

However, in spite of this situation, conventionally, only the passive measures such as improvement of the performance of the battery and improvement of the performance of the circuit have been actively made, and the energy that is recklessly consumed (for example, The mechanical energy that is naturally generated when the display device is touched) is not recycled to produce new electric power. Thus, under the conventional system, the subject of electronic device production, the subject of electronic device use, A battery performance improvement measure and a circuit performance improvement measure have been implemented, it has been impossible to completely eliminate the product degradation caused by inefficient power operation of the electronic device.

Korean Patent Laid-Open No. 10-2013-27008 (Name: Manufacturing Method of Plasma Display Panel) (published on March 13, 2013) Korean Patent Laid-Open No. 10-2013-28220 (name: liquid crystal display device) (published on March 19, 2013) Korean Patent Laid-Open Publication No. 10-2012-110777 (titled "OIDI device") (Oct. 19, 2012)

Accordingly, it is an object of the present invention to provide a structure capable of producing electric power in accordance with the mechanical stress applied when a user using an electronic device touches the display panel, (For example, power for driving a device, standby power, or the like) to energy (for example, energy that is naturally generated when a user touches a display device) without any difficulty on the electronic device side It is possible to easily prevent the unnecessary deterioration of the product due to the inefficient power operation of the existing electronic device at the side of the producer of the electronic device and the user of the electronic device.

Other objects of the present invention will become more apparent from the following detailed description and the accompanying drawings.

According to an aspect of the present invention, there is provided a display device installed in an electronic device, the display device comprising: a window panel; A sensing panel disposed under the window panel with sensing patterns for X coordinate and sensing patterns for Y coordinate; A micro-lens panel disposed at a lower portion of the sensing panel with a microlens; A power generation panel disposed at a lower portion of the microlens panel and generating electric power according to dynamic stress applied when a user using the electronic device touches the window panel; And a display information display panel for displaying display information output from the electronic equipment in a state of being disposed at a lower portion of the power generation panel.

In the present invention, since a structure capable of producing electric power according to the mechanical stress applied when a user using the electronic device touches the display panel is additionally arranged in the display panel structure of the electronic device, (For example, mechanical energy that is naturally generated when a user touches a display device) is used for various purposes (for example, power for driving a device, standby power, etc.) As a result, it is possible to easily avoid the unnecessary deterioration of the product due to the ineffective power operation of the existing electronic device on the side of the electronic device maker or the electronic device maker.

1 is an exploded perspective view of a display device for an electronic device according to an embodiment of the present invention;
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]

Hereinafter, a display device for an electronic device according to the present invention will be described in more detail with reference to the accompanying drawings.

1, a display device 10 for an electronic device according to an embodiment of the present invention includes a window panel 17 having a tempered glass material, sensing patterns 16a for X coordinates, The sensing panel 16 having the sensing patterns 16b and the ITO material disposed at the lower portion of the window panel 17 and the sensing panel 16 having the microlenses (not shown) A power generation panel 13 disposed at a lower portion of the microlens panel 14 and a display panel 12 disposed in a lower portion of the power generation panel 13, A display information display panel 11 (for example, an LCD panel) that displays the display information is systematically combined.

In this case, a sheet-like joint tape 15 for integrally joining them is further disposed on the interface between the sensing panel 16 and the microlens panel 14, and the power generation panel 13 and the display information display panel 11, And a double-sided tape 12 for joining them integrally is further disposed.

At this time, by performing the action of refracting sunlight on the microlens panel 14 side, the user of the electronic device feels a series of transparency according to his / her viewing angle despite the arrangement of the power generation panel 13 To support the role of support.

Here, the X-coordinate sensing patterns 16a and the Y-coordinate sensing patterns 16b included in the sensing panel 16 are arranged in opposite directions to each other (for example, the X- When the patterns 16a take an array structure in the horizontal direction, the Y-coordinate sensing patterns 16b take a vertical arrangement structure).

At this time, the X-coordinate sensing patterns 16a provided on the sensing panel 16 are electrically connected to the control circuit of the printed circuit board on the electronic device side through an electrical connection pattern (not shown) Touches the window panel 17 through a part of his / her body, for example, a finger, thereby causing a series of electrostatic capacitance changes between the < circuit terminal & Axis X-coordinate signal corresponding to the sensed position is sensed, and the X-axis coordinate signal for position sensing, which has been generated, is sent to the printed circuit board To the control circuit side of the electronic apparatus, thereby assisting the electronic apparatus to appropriately take a series of operations corresponding to the intention of the user to operate.

The sensing patterns 16b for Y coordinates arranged in the sensing panel 16 in the direction opposite to the arrangement direction of the sensing patterns 16a for the X coordinate are electrically connected to the electronic circuit- The user touches the window panel 17 through a part of his / her body, for example, a finger, and thereby, the circuit terminal in the electronic device connected to the user, When a series of electrostatic capacitance changes (that is, electrostatic capacitance change of the electronic device) occurs between the X-coordinate sensing patterns 16a and the user, Axis coordinate signal for position sensing, and transmits the position-sensing Y-axis coordinate signal for position sensing to the control circuit side of the printed circuit board. A series of operations corresponding to the operating physician's assistance is to be appropriately taken.

Meanwhile, even in the system of the present invention, how to effectively operate the consumed electric power of the electronic device is a very important variable in determining the quality of the electronic device.

Under such a sensitive situation, in the present invention, within the display panel structure of the electronic apparatus, the power generation panel 13 capable of producing electric power according to the mechanical stress applied when a user using the electronic apparatus touches the display panel We will take measures to further deploy.

At this time, the power generation panel 13 includes an upper flexible sheet 13a and a lower flexible sheet 13e which are coupled to each other with facing each other, an upper electrode layer 13b disposed on the surface of the upper flexible sheet 13a, The upper flexible sheet 13a and the lower flexible sheet 13e in contact with the lower electrode layer 13d, the upper electrode layer 13b and the lower electrode layer 13d disposed on the surface of the lower flexible sheet 13e, Layer 13c and the like are systematically combined.

2, the user of the electronic device touches the window panel 17 via the touching means F (for example, a finger, a touch pen, or the like) Thus, when a series of mechanical stresses are applied to change the shapes of the upper flexible sheet 13a and the lower flexible sheet 13e, a change in the self-dipole moment is caused to occur in the upper electrode layer 13b and the lower electrode layer 13d Thereby generating an output voltage necessary for the electronic device.

Here, the piezoelectric layer 13c has a characteristic of being formed of a cured structure after the piezoelectric nanoparticles and the carbon nanostructure are mixed. In this case, the piezoelectric nanoparticles may be selected from BTO nanoparticles, As the carbon nano structure, carbon nanotubes may be selected.

2, when the user touches the window panel 17 through the touch means F (e.g., a finger, a touch pen, etc.) under the system of the display device for an electronic device according to the present invention, The mechanical stress generated thereby affects the power generation panel 13 to deform the shapes of the upper flexible sheet 13a and the lower flexible sheet 13e constituting the power generation panel 13 into a bent shape do.

The piezoelectric layer 13c sandwiched between the upper flexible sheet 13a and the lower piezoelectric sheet 13e in contact with the upper electrode layer 13b and the lower electrode layer 13d is made of piezoelectric nanoparticles and carbon nanostructure When the upper flexible sheet 13a and the lower flexible sheet 13e are bent by the mechanical stress caused by the previous user-side touching operation, A series of positive electrode potentials and negative electrode potentials are generated in the upper electrode layer 13b and the lower electrode layer 13d which are in contact with the layer 13c.

Through the above procedure, under the situation where a series of positive electrode potentials and negative electrode potentials are generated in the upper electrode layer 13b and the lower electrode layer 13d, the generated electrons are injected into the lower electrode layer 13d to the upper electrode layer 13b so that a series of output voltages are generated between the upper electrode layer 13b and the lower electrode layer 13d.

Of course, it is possible to easily obtain a series of additional electric power without difficulty on the side of the electronic device which has formed the electric circuit relation with the power generation panel 13 under such output voltage generation situation. As a result, (For example, electric power for driving the apparatus, standby power, etc.).

On the other hand, when the user releases the touch operation of the window panel 17 by the touch means F (e.g., a finger, a touch pen, etc.), the change of the mechanical stress caused thereby affects the power generation panel 13 , The shape of the upper flexible sheet 13a and the lower flexible sheet 13e constituting the power generation panel 13 is deformed into a flattened shape.

The piezoelectric layer 13c interposed between the upper flexible sheet 13a and the lower piezoelectric sheet 13e in contact with the upper electrode layer 13b and the lower electrode layer 13d can be formed by the piezoelectric nanoparticles and the carbon nanostructure The upper flexible sheet 13a and the lower flexible sheet 13e are moved in the original state by the mechanical stress change caused by the previous user-side touch operation cancellation, because the combination of the upper flexible sheet 13a and the lower flexible sheet 13e has a series of dipole moments. The series of anode potentials and cathode potentials generated in the upper electrode layer 13b and the lower electrode layer 13d show a natural disappearance state.

The electrons accumulated in the upper electrode layer 13b in the upper electrode layer 13b and the lower electrode layer 13d under the circumstance where the cathode potential and the cathode potential generated in the upper electrode layer 13b are eliminated, A mechanism for moving to the lower electrode layer 13d through the external circuit is shown so that a series of output voltages are generated between the upper electrode layer 13b and the lower electrode layer 13d.

Of course, even under such an output voltage situation, a series of additional electric power can be easily obtained without difficulty on the side of the electronic apparatus which has formed the electric circuit relation with the power generation panel 13, and as a result, And can be widely used for various purposes (for example, power for driving a device, standby power, etc.).

As described above, in the present invention, a structure capable of producing electric power is additionally arranged in accordance with the dynamic stress applied when a user using the electronic device touches the display panel, within the display panel structure of the electronic device. (For example, mechanical energy that is naturally generated when a user touches a display device) can be used for various purposes (for example, power for driving a device, standby power, etc.) without any difficulty on the electronic device side As a result, unnecessary deterioration of products due to inefficient power operation of existing electronic devices can be easily avoided on the side of the electronic device maker or the electronic device maker.

The present invention can be variously modified depending on the situation.

For example, in the present invention, the changed action of transferring the sensing patterns 16A for X coordinate and the sensing patterns 16b for Y coordinate to the upper / lower flexible sheets 13a, 13e on the power generation panel 13 side (In this case, the arrangement of the sensing panel 16 described above is naturally omitted).

Of course, even in this case, a series of additional electric power can be easily obtained without difficulty on the side of the electronic apparatus which has formed the electric circuit relation with the electric power generation panel 13, and the additional electric power can be used for various purposes (for example, Standby power, etc.).

As another example, as shown in FIG. 3, in the present invention, the power generation panel 13 capable of generating electric power is connected to a window panel (not shown) according to the mechanical stress applied when a user using the electronic device touches the display panel Lt; RTI ID = 0.0 &gt; 17). &Lt; / RTI &gt;

Of course, even in this case, a series of additional electric power can be easily obtained without difficulty on the side of the electronic apparatus which has formed the electric circuit relation with the electric power generation panel 13, and the additional electric power can be used for various purposes (for example, Standby power, etc.).

The present invention is not limited to a specific field, and exhibits a generally useful effect in various fields in which efficient use of electricity is required.

Although specific embodiments of the present invention have been described and illustrated above, it is to be understood that the present invention may be embodied in many other specific forms without departing from the spirit or essential characteristics thereof.

Such modified embodiments should not be understood individually from the technical idea and viewpoint of the present invention, and such modified embodiments should be included in the appended claims of the present invention.

10: Display device for an electronic device
11: Display Information Display Panel
12: Double-sided tape
13: Power generation panel
13a: upper flexible sheet
13b: upper electrode
13c: piezoelectric layer
13d: lower electrode
13e: Lower flexible sheet
14: Micro lens panel
15: sheet-like bonding tape
16: Sensing panel
16a: Sensing pattern for X coordinate
16b: Sensing pattern for Y coordinate
17: Window panel

Claims (4)

A display device installed in an electronic device,
A window panel;
A sensing panel disposed under the window panel with sensing patterns for X coordinate and sensing patterns for Y coordinate;
A micro-lens panel disposed at a lower portion of the sensing panel with a microlens;
A power generation panel disposed at a lower portion of the microlens panel and generating electric power according to dynamic stress applied when a user using the electronic device touches the window panel;
And a display information display panel for displaying display information output from the electronic device in a state of being disposed under the power generation panel. The power generating panel according to claim 1, wherein the power generation panel comprises: an upper flexible sheet and a lower flexible sheet coupled to each other;
An upper electrode layer disposed on a surface of the upper flexible sheet;
A lower electrode layer disposed on a surface of the lower flexible sheet;
Wherein the upper flexible sheet and the lower flexible sheet are interposed between the upper flexible sheet and the lower flexible sheet in a state of being in contact with the upper electrode layer and the lower electrode layer and the shape of the upper flexible sheet and the lower flexible sheet is changed according to the mechanical stress, And generating a potential in the upper electrode layer and the lower electrode layer, thereby producing an output voltage. The display device for an electronic device according to claim 2, wherein the piezoelectric layer has a cured structure after the piezoelectric nanoparticles and the carbon nanostructure are mixed. The display device of claim 3, wherein the piezoelectric nanoparticles are BTO nanoparticles, and the carbon nanostructure is a carbon nanotube.

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