RU2774635C1 - Backlight module with liquid cooling - Google Patents

Abstract

FIELD: displays.

SUBSTANCE: invention relates to backlight apparatus for display means using primarily liquid crystal displays. Claimed backlight module with liquid cooling, used jointly with display apparatus, comprises a sheet with an array of light-emitting elements installed thereon. Module also comprises a body installed on the sheet with an array of light-emitting elements installed thereon, said body forming at least one open cavity and at least one circuit for the flow of cooling liquid due to at least one recess provided in the body structure and at least one elastic distancing element located between the body and the sheet with the array of light-emitting elements installed thereon; or comprises a flat back sheet of a liquid cooling backlight module, installed on the sheet with an array of light-emitting elements installed thereon, and at least one open cavity and at least one circuit for the flow of cooling liquid are formed by one or more distancing elements located between the flat back sheet of the liquid cooling backlight module and the sheet with an array of light-emitting elements installed thereon, said sheets being tightly connected by means of a lining pad.

EFFECT: increase in the image quality due to the cooling of powerful backlights for display apparatus.

4 cl, 5 dwg

Description

Technical field

SUBSTANCE: invention relates to illumination devices for display means using predominantly liquid crystal displays.

Prior Art

1) A backlight for a liquid crystal display is known, consisting of an array of light emitting elements, for example in the form of LEDs, located on the housing of the display means so as to illuminate the liquid crystal display through a diffuser from its back side, while the housing is a component that dissipates heat generated by light emitting elements [one].

2) A backlight for a liquid crystal display is known, consisting of light-emitting elements, for example, in the form of LED lines, located on the housing of the display means so that the light from the light-emitting element falls on the edge of the diffuser, while the housing is a component that dissipates heat generated by light-emitting elements [ 2].

To achieve greater brightness of the display means, it is necessary to increase the number of light emitting elements or use more powerful light sources, which leads to excessive heating of the backlight, to a temperature higher than the operating temperature of liquid crystal displays. Exceeding the operating temperature of liquid crystal displays causes dark spots to appear on the liquid crystal display as the liquid crystals lose their ability to change their orientation. The above devices cannot effectively remove heat from the light emitting components, therefore, there is a need to use a cooling system for the backlight module of the display means consisting mainly of a liquid crystal display.

Brief description of the drawings

In FIG. 1 shows the 1st version of the liquid-cooled backlight module

In FIG. 2 shows the 2nd version of the liquid-cooled backlight module

In FIG. 3 shows the 3rd version of the liquid-cooled backlight module

In FIG. Figure 4 shows the 4th version of the liquid-cooled backlight module

In FIG. 5 shows a liquid-cooled backlight module assembled with a display device.

In figures 1-5, the following designations are adopted:

1 - sheet for installing light emitting elements

2 - light emitting element

3 - housing forming a cavity for the coolant

4 - back sheet of the liquid cooling backlight module

5 - cavity filled with coolant

6 - spacer element

7 - sealant

8 - gasket

9 - welding seam

10 - coolant inlet

11 - coolant outlet

12 - diffuser

13 - liquid crystal display

14 - housing of the display device

Disclosure of invention

Known LED screens for outdoor use, which are assemblies of modules with colored LEDs installed on it [3]. These screens are widely used in outdoor advertising and it is believed that the brightness required for images to be visible on a sunny day should be at least 5000 cd/m2. To achieve this brightness when using LED backlight in conjunction with a liquid crystal display, super-bright LEDs and a high density of their arrangement are required, since the typical light transmission of liquid crystal matrices is 4-7% and, in addition to the liquid crystal display, diffusers are used in the display device, whose light transmission can reach 65% and protective glass, whose light transmission is at least 70%.

In the experimental sample, LEDs with a maximum brightness of 36 cd were used, located on a tape with a density of 144 LEDs per meter, the number of tapes is 68 pieces, the length of the tapes is 945 mm, therefore one tape contains 135 diodes. The entire array of tapes contains 9180 LEDs, the brightness of which is 330480 cd. Given the length of the tapes equal to 945mm and the width of the tapes equal to 8mm, whose number is 68 pieces, the area of such lighting is 0.514 m2. Knowing these data, it is assumed that the brightness of such a backlight is 642957 cd/m ² . Taking into account the light transmission of the diffuser located in front of the liquid crystal display, the liquid crystal display itself and the protective glass located after the liquid crystal matrix, we obtain that the final maximum brightness emitted by the outdoor display device is 14627 cd/m ² .

But such a strong increase in brightness entails a strong heating of the backlight, since the LED lines used in the experimental sample have a power of 14.4 watts per meter. The total power consumption of such a backlight is at least 925 watts. Knowing the efficiency of LEDs, it reaches 60%, therefore, at least 370 watts of generated heat is released into the environment. According to experimental data, this leads to heating of the backlight surfaces up to 70 - 90°C, which is higher than the operating temperature of liquid crystal displays.

Therefore, the technical problem to be solved by the claimed invention is to expand the functionality of display means consisting mainly of a liquid crystal display and improve image quality through the use of liquid cooling in the backlight of the display device.

The phrase "image quality" refers to the combination of the characteristics of the image received from the display device, which are brightness, brightness uniformity, image contrast and viewing angle of the image from the display device, as well as the absence of display artifacts that occur when the liquid crystal display overheats, such as the appearance of black spots on it .

By extending the functionality, it is meant to ensure that the display means consisting of the liquid crystal display is operable when using a backlight with a high heat dissipation and operating the display device in direct sunlight.

The technical result obtained in the implementation of this product is the cooling of powerful backlights for display devices.

There are 4 options for implementing the liquid-cooled backlight module.

The 1st embodiment of the liquid-cooled backlight module is shown in FIG. 1. The liquid-cooled backlight module consists of a sheet (1), which can be made of a heat-conducting alloy, such as aluminum, and / or a composite material, this sheet (1) is designed to install an array of light emitting elements (2) on it, which can represent separate LEDs, a set of LED panels, rulers or tapes. On the opposite side of the sheet (1), spacer elements (6) are located, having a height corresponding to the height of the cavity between the sheet (1) and the body (3), forming a cavity for the coolant, which can be water, antifreeze, alcohol, and other heat transfer fluids. liquids. Spacer elements (6) can be made of an elastic material, for example, rubber, silicone or other elastic polymer, formed using an adhesive composition, such as a polyurethane sealant, and are designed to form a coolant flow path and/or delimit cavities to form several circuits, in which coolant circulates. The housing (3) forming the cavity for the coolant may be a sheet of heat-conducting material, such as aluminum, or a heat-conducting composite, molded in such a way as to form at least one cavity when assembled with the sheet (1) for installing light-emitting elements. The cavities are formed due to the fact that the body (3) has at least one recess, and for connection with the sheet (1) the body (3) has molded areas around its perimeter. The housing (3) has at least one coolant inlet (10) and one coolant outlet (11) located in such a way as to ensure circulation of the coolant inside the cavities. The sheet (1) and the body (3) are interconnected by means of a welding seam or sealant (7).

It is understood that a tube will be connected to the coolant inlet coming from a liquid pump that pumps coolant out of the storage tank, and a tube will be connected to the coolant outlet that leads to a cooler, which can be a product that cools liquid using Peltier elements or using a liquid heatsink with a fan.

The 2nd embodiment of the liquid-cooled backlight module is shown in FIG. 2, this variant is characterized in that the housing (3) contains recesses that form the trajectory of the liquid and can create several cooling circuits. In this case, the body (3) and sheet (1) can be glued to each other using a sealant, or welded together at the contact point of the body (3) and sheet (1), thereby ensuring the tightness of the cavities in which the coolant circulates and forming at least one coolant circulation circuit and its path.

A 3rd embodiment of a liquid-cooled backlight module is shown in FIG. 3, this option differs from the above in that the body (3) is replaced by a back sheet (4), which, like the sheet (1) on which the light emitting elements are installed, can be made of a heat-conducting alloy, for example aluminum, and / or composite material. Between the sheet (1) and the back sheet (4) there is a gasket (8), which can be made of a flexible and elastic polymeric material, for example, silicone, rubber or polyurethane, which will allow the backlight module to be bent to fit the geometry of the liquid crystal display. The gasket (8) is connected to the sheets (1, 4) by means of an adhesive joint. Between the sheets (1, 4) there are spacer elements (6) forming the trajectory of the coolant movement path and at least one coolant circulation circuit. This embodiment of the liquid-cooled backlight module can be bent through the use of flexible and resilient materials in the structure, and the spacers (6) prevent the cavities between the sheets (1, 4) from collapsing, making this invention suitable for use with mobile displays [ 4, 5, 6] and be used in a mobile information system [8].

A 4th embodiment of a liquid-cooled backlight module is shown in FIG. 4, this option is similar to the third option, but the gasket (8), in addition to being a sealing element and allowing the module to bend, forms a trajectory for the coolant flow path and at least one coolant circulation circuit.

In FIG. 5 shows one of the options for a liquid-cooled backlight module assembled together with a display device consisting of a housing (14), a diffuser (13) and a liquid crystal matrix (12) in section.

Used sources:

1. EN 2451237 C2, Lighting device and display device in which it is used;

2. RU 2605781 C2, Illumination device and display;

3. MediaScreen website. URL: https://mediascreen.pro/resheniya/videoekrany-dlya-ulicy (accessed 06/01/2021);

4. RU 2671053 C1, Mobile display

5. RU 2664822 C1, Mobile flexible display

6. RU 2748197 C1, Mobile display

7. RU 2659956 C1, Mobile information system

Claims (4)

1. A liquid-cooled backlight module, characterized in that it is used in conjunction with display devices and contains a sheet with an array of light emitting elements mounted on it, characterized in that it contains a housing mounted on a sheet with an array of light emitting elements installed on it, the housing forms at least one open cavity and at least one circuit for coolant flow due to at least one recess in the housing structure and at least one elastic spacer located between the housing and the sheet with the array of light-emitting elements mounted on it. 2. A liquid-cooled backlight module, characterized in that it is used in conjunction with display devices, containing a sheet with an array of light emitting elements installed on it, characterized in that it contains a housing mounted on a sheet with an array of light emitting elements installed on it, the housing has at least one recess, so that when the body is connected to the sheet with the array of light emitting elements mounted on it, to form at least one open cavity and at least one circuit for the flow of coolant. 3. A liquid-cooled backlight module, characterized in that it is used in conjunction with display devices, comprising a sheet with an array of light-emitting elements installed on it, characterized in that it contains a flat back sheet of the liquid-cooled backlight module installed on a sheet with an array installed on it of light-emitting elements, and at least one open cavity and at least one circuit for the flow of a coolant are formed by one or more spacer elements located between the flat back sheet of the liquid cooling backlight module, hermetically connected by means of a gasket, and the sheet with the array of light-emitting elements installed on it . 4. A liquid-cooled backlight module, characterized in that it is used in conjunction with display devices, comprising a sheet with an array of light emitting elements mounted thereon, characterized in that it contains a flat back sheet of a liquid-cooled backlight module mounted on a sheet with a an array of light-emitting elements, and at least one open cavity and at least one circuit for the flow of a coolant are formed using a gasket located between the flat back sheet of the liquid cooling backlight module and the sheet with the array of light-emitting elements installed on it.

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