KR100683650B1 - LCD consumed low power - Google Patents

Abstract

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems of the prior art, and the present invention provides a liquid crystal display device that can be operated for a long time with low power and has a large area by adding a solar cell to the bottom of the liquid crystal display device. It is done.

Composition: A liquid crystal display device in which a liquid crystal is injected between opposite surfaces of upper and lower substrates on which a transparent electrode and an alignment layer are patterned, and a polarizing plate is attached to an outer surface of the substrate, wherein the thin film semiconductor is transparent to the bottom or inside of the liquid crystal display device. It forms a layer and consists of a solar cell installed.

Effect: A transparent solar cell is attached to the lower portion of the liquid crystal display to generate a current by using light incident on the liquid crystal display, and the power storage function is added to reduce power loss and to use the battery for a long time.

Solar cell, liquid crystal display device

Description

Low power consumption liquid crystal display device {LCD consumed low power}

1 is a cross-sectional view showing an embodiment of a low power consumption liquid crystal display device according to the present invention.

2 is a cross-sectional view showing another embodiment of a low power consumption liquid crystal display device according to the present invention;

3 is a cross-sectional view showing a conventional liquid crystal display device.

4 is a cross-sectional view schematically showing a solar cell.

5 is a perspective view illustrating a portable display device to which a solar cell is attached.

** Explanation of symbols for main parts of drawings **

2: liquid crystal display device 5, 50: solar cell

4,4 ': Substrate 6,6': Polarizer

8: sealant 10: liquid crystal

20,20 ': low power consumption LCD 51: glass substrate

53: front electrode 55: n-type silicon layer

57: p-type silicon layer 59: back electrode

100,200: portable display device 110,210: key input unit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a low power consumption liquid crystal display device, and more particularly, to a low power consumption liquid crystal display device in which a solar cell is attached to a back surface of a liquid crystal display device to reduce power consumption.

The liquid crystal display device has a regular molecular arrangement such as a liquid crystal along with liquidity of liquid, and has an optical anisotropy. When a voltage is applied, the liquid crystal display device uses a property of a liquid crystal having a characteristic of changing the molecular arrangement along the direction of an electric field. It is a device for flat panel display.

4 is a cross-sectional view of a general liquid crystal display device.

Referring to the drawings, the liquid crystal display device 2 includes a transparent electrode (not shown) and an alignment layer (not shown) formed on opposing surfaces of the upper substrate 4 and the lower substrate 4 'formed of glass or plastic film. On the outer side of the upper substrate 4 and the lower substrate 4 ', polarizing plates 6 and 6' which give directivity to incident light are attached, respectively. The sealant 8 is printed between the upper substrate 4 and the lower substrate 4 'to define a space in which the liquid crystal 10 is to be injected, and after the injection and sealing of the liquid crystal 10 is injected into the liquid crystal injection space, a voltage is applied. To implement the screen.

The above-described liquid crystal display device 2 may employ a battery, implement screens of various sizes, and have been adopted in various portable display devices.

The display apparatuses in which the liquid crystal display device 2 is mounted as described above use a battery as a main power source, and in some cases, a solar cell is mounted to be used with a battery or to drive a display using only a solar cell.

Currently used solar cells are opaque materials using crystalline silicon. The operation of the solar cell 5 is briefly described with reference to FIG. 4 as follows.

When natural light enters through the glass substrate 51, the front electrode 53, and the N-type silicon layer 55, it is absorbed by the silicon layer, and its light energy generates electron-hole pairs. Due to the energy level difference between the N-type silicon layer 55 and the P-type silicon layer 57, the two sides are moved to each side, resulting in the flow of current. The photocurrent generated as described above is taken out through the respective conductive wires of the front electrode 53 and the rear electrode 59 to be charged in the storage battery.

FIG. 5 illustrates a portable display device 100 to which the solar cell 5 is attached.

As shown in the figure, the liquid crystal display device 2 which is a display unit in the portable display device 100 is formed at a predetermined position on the surface of the portable display device 100, and one side of the liquid crystal display device 2 inputs or retrieves information. The key input unit 110 is positioned. An information processing apparatus (not shown) is embedded in the portable display apparatus 100 to process information input by a user or information received by wireless communication and display the same on the liquid crystal display device 2.

Since the solar cell 5 is mounted at a predetermined position of the portable display apparatus 100, a predetermined area is required to mount the solar cell 5. As described above, since the solar cell 5 is formed away from the liquid crystal display device 2 on the surface of the portable display device 100, there is a problem in that a large area of the display cannot be realized.

The present invention has been made in order to solve the problems of the prior art described above is to provide a liquid crystal display device that can be operated for a long time with low power and large area by adding a power storage function by mounting a solar cell on the bottom of the liquid crystal display device. .

To this end, the low-power liquid crystal display device of the present invention is a liquid crystal display device injecting a liquid crystal between the transparent electrode and the opposing surface of the upper and lower substrates patterned alignment layer and a polarizing plate attached to the outer surface of the substrate, respectively, It consists of a solar cell attached to the bottom or inside.

The solar cell uses amorphous silicon and is made of a thin film and employs a transparent one.

The solar cell may be formed between the lower substrate and the lower polarizer.

In the liquid crystal display device having the above-described configuration, visible light or separate light is incident on the liquid crystal display device and stored through a solar cell formed at the lower portion thereof, thereby reducing the power of the main power source such as a battery so that it can be used for a long time. have.

In addition, since the liquid crystal display device is directly attached and manufactured, a large area of the liquid crystal display device can be achieved without reducing the display area.

The structure of this invention is demonstrated in detail, referring an accompanying drawing. For reference, prior to the description of the present invention will be referred to the same reference numerals as for the parts corresponding to the conventional drawings.

Example 1

1 schematically shows an embodiment 20 of a low power liquid crystal display device according to the present invention.

As shown in the drawing, the low power liquid crystal display device 20 according to the present invention has a transparent electrode (not shown) and an alignment film (not shown) on opposite surfaces of the upper and lower substrates 4 and 4 'made of glass or plastic. A pattern is formed and a sealant 8 is applied to edges of the upper substrate 4 and the lower substrate 4 'to define an injection space of the liquid crystal 10.

The upper polarizer 6 and the lower polarizer 6 'are attached to the outer side of the upper substrate 4 and the lower substrate 4', respectively, and the solar cell 50 is attached to the rear surface of the lower polarizer 6. .

Since the manufacturing technology of the solar cell 50 is widely known and known, details thereof will be omitted and the solar cell 50 attached to the low power liquid crystal display device 20 according to the present invention is manufactured using amorphous silicon. do.

When the amorphous silicon is manufactured, the thickness of the solar cell 50 may be manufactured in a thin film form of about 0.2 mm, and impurities may be removed to obtain a transparent solar cell 50.

Looking at the operation of the solar cell 50 schematically as follows.

Light incident through the upper polarizer 6 and the upper substrate 4 reaches the solar cell 50 through the liquid crystal layer 10, the lower substrate 4 ′, and the lower polarizer 6. The solar cell 50 is a structure in which an n-type amorphous silicon and a p-type amorphous silicon layer are formed between upper and lower films. When solar light is incident, electron-hole pairs are formed to flow current.

Unlike the solar cell using crystalline silicon, the solar cell 50 formed of amorphous silicon may be formed into a thin film by using a film without employing a glass substrate, thereby obtaining a transparent solar cell 50.

Example 2

2 is a cross-sectional view showing another embodiment 20 'of a low power liquid crystal display device according to the present invention.

As shown in the figure, this embodiment has a structure in which the above-described solar cell 50 is formed between the lower substrate 4 'and the lower polarizer 6'. Since the solar cell 50 is made of amorphous silicon and is transparent, there is no problem in that light is incident or reflected even when formed on the lower polarizing plate 6 '.

3 illustrates a portable display device 200 to which the low power consumption liquid crystal display device 20 according to the present invention is attached.

As shown in the figure, the portable display apparatus 200 has a low power consumption liquid crystal display device 20 mounted on one surface thereof, and a key input unit 210 formed on the other side thereof. Since the solar cell 50 is attached to the rear surface of the low power consumption liquid crystal display device 20, it is not necessary to separately install the solar cell 50, thereby enabling a large area of the display implemented by the liquid crystal display device.

In addition, if the liquid crystal display device is configured as described above, unlike the conventional liquid crystal display device employing a secondary battery such as a battery, the liquid crystal display device can be driven by sunlight or other light, thereby reducing power. do.

By attaching a solar cell having a transparent semiconductor layer formed under the liquid crystal display device to generate a current by using light incident on the liquid crystal display device, and by adding a power storage function, it is possible to reduce power loss and to use for a long time. .

Claims (5)

In a transmissive liquid crystal display device in which a transparent electrode and an alignment layer are formed on opposite surfaces of upper and lower substrates, liquid crystal is injected between the upper and lower substrates, and a polarizing plate is attached to the outside of the substrate, respectively. Low power consumption liquid crystal display device characterized in that the solar cell is installed by forming a transparent thin film semiconductor layer between the lower substrate and the lower polarizing plate of the liquid crystal display device. The low power consumption liquid crystal display of claim 1, wherein the semiconductor layer is made of amorphous silicon. delete delete In a transmissive liquid crystal display device in which a transparent electrode and an alignment layer are formed on opposite surfaces of upper and lower substrates, liquid crystal is injected between the upper and lower substrates, and a polarizing plate is attached to the outside of the substrate, respectively. Low power consumption liquid crystal display device characterized in that the solar cell is installed by forming a transparent thin film semiconductor layer on the lower polarizer plate of the liquid crystal display device.

Images