KR100981773B1 - Aging system for liquid crystal display - Google Patents

Abstract

PURPOSE: An LCD aging system is provided to concentratedly discharge cool air to the inside of an LCD. CONSTITUTION: A cooling unit(30) is installed in one side of a cooling room opposite to an air conditioner so that the cooling unit faces the air conditioner. The cooling unit inhales cool air provided from the air conditioner. The cooling unit discharges cool air, which is inhaled to cool an LCD, to the LCD. A temperature measurement sensor(50) is installed in one side of the cooling room. The temperature measurement sensor measures the temperature of the LCD in the cooling room.

Description

LCD Aging System {AGING SYSTEM FOR LIQUID CRYSTAL DISPLAY}

The present invention provides an LCD aging system that significantly improves the cooling efficiency by installing air conditioners and cooling units in the cooling room and forcing convection of cold air by driving them to cool the liquid crystal display to lower the temperature to a proper temperature in a short time. It is about.

In general, a liquid crystal display (LCD), which is an electric element that changes and transmits various electrical information generated by various devices to visual information by using a change in transmittance of liquid crystal according to an applied voltage, is illustrated in FIG. 1. Aging test is conducted as shown in the figure. This test is to detect defects by making the panel's operating environment as severe as possible by finding out whether there is a defect in the liquid crystal display for 2 hours in a space where the temperature is increased to 45 degrees. .

If the liquid crystal display with its own temperature is left intact through this aging test process, heat deformation will occur in the liquid crystal display. Therefore, the temperature of the liquid crystal display should be dropped quickly to reduce the appropriate temperature.

As an example of an aging apparatus for such an aging test, Japanese Laid-Open Patent Publication No. 5-218158 discloses `` liquid crystal aging that enables high temperature and low temperature aging of the liquid crystal display while raising and lowering the room temperature of the aging chamber by a heater and a cooler. A device has been disclosed.

In addition, the Republic of Korea Utility Model Registration No. 015055, "An aging chamber formed with a closed predetermined space portion, a heater and cooler that is controlled to be heated and lowered temperature so that the space portion of the aging chamber can be maintained at a predetermined range of temperature, LCD module Power is intermittently applied to the conveying means provided in the space portion and the LCD module to be conveyed by a predetermined pitch by the conveying means so that the loaded pallet can continuously convey the cassettes stacked in one direction by a predetermined pitch in one direction. In order to enable the electrical connection and detachment with the LCD module in order to enable the LCD module aging device characterized in that it comprises a power supply means installed in the space portion.

However, the conventional aging device does not drop the temperature of the liquid crystal display to a proper temperature by intensively injecting air into the liquid crystal display, but blows air into the aging chamber by a cooler to reduce the temperature of the liquid crystal display by air cooling. Therefore, there is a disadvantage in that the cooling efficiency is low, such as the temperature of the liquid crystal display can not be dropped quickly in a short time.

The present invention has been invented to solve the above problems, by installing an air conditioner and a cooling unit inside the cooling room, by forced convection of cold air to discharge the cold air to the liquid crystal display in the cooling room to dissipate heat of the liquid crystal display The problem to be solved is to provide an LCD aging system that can be cooled in a short time.

In addition, by installing an infrared temperature sensor at one end of the cooling room, the temperature of the liquid crystal display in the cooling room is measured by using infrared rays, and then the temperature measurement data is sent to the control unit until the temperature of the liquid crystal display is lower than the preset temperature. An object of the present invention is to provide an LCD aging system that allows the operation of the air conditioner and the cooling unit to continue.

The present invention to solve the above technical problem, the cooling room is formed into a space in a closed type; An air conditioner installed at an upper end of the cooling room to supply cold air into the cooling room to cool the liquid crystal display; A cooling unit installed at one side of a cooling room opposite to the air conditioner to suck the cold air supplied from the air conditioner into the inside, and to discharge the sucked cold air to the liquid crystal display to cool the liquid crystal display; A temperature measuring sensor installed at one side of the cooling room to measure a temperature of the liquid crystal display in the cooling room; An LCD aging system characterized in that the configuration, including as a solution to the problem.

The air conditioner may include: an air guide casing having an air guide grille configured to communicate with the inside of the front upper portion to discharge cold air, and an air filter for filtering external air at the front lower portion; A blower installed at an upper portion of the inside of the air conditioner casing so as to communicate with the air guide grill of the air conditioner casing and supplying cool air heat exchanged through the air guide grill into the cooling room through the cooling coil installed in the air conditioner casing; A cooling coil installed under the air conditioner casing; A drain pan installed at a lower portion of the cooling coil to recover water droplets flowing downward along the surface of the cooling coil; An LCD aging system characterized in that the configuration, including as a solution to the problem.

In addition, the cooling unit is installed on one side of the cooling room so as to face the air conditioner is a hollow cooling that is installed in the upper inlet in communication with the inside so as to suck the cold air supplied from the air conditioner into the cooling room therein. A unit casing; A fan motor installed at an upper portion of the cooling unit casing so as to correspond to a position of an intake port of the cooling unit casing, and a fan configured to suck cooling air discharged through the air conditioner into the cooling unit casing; A jet nozzle which is formed in front of the cooling unit casing below the suction port and discharges air sucked into the cooling unit casing to the liquid crystal display in the cooling room; An LCD aging system characterized in that the configuration, including as a solution to the problem.

In addition, the LCD aging system, characterized in that the liquid crystal display mounting table formed with a partition space partitioned into a plurality of layers in which the liquid crystal display can be installed in a multi-layer in the cooling room is provided as a solution to the problem.

In addition, the air guide grille of the air conditioner and the inlet of the cooling unit are installed to face each other, and the cold air supplied through the air guide grille is sucked into the cooling unit casing through the inlet by the drive of the fan motor, and then through the jet nozzle. An LCD aging system characterized by cooling the liquid crystal display by discharging the liquid crystal display is a solution to the problem.

In addition, the installation width of the jet nozzle is an installation width corresponding to the width of the partition space of the liquid crystal display mounting stage, so that the air discharged from the jet nozzle is concentrated on each liquid crystal display stacked on the liquid crystal display mounting stage so that the temperature of the liquid crystal display The LCD aging system characterized in that it can be dropped in a short time as a solution to the problem.

In addition, the temperature measuring sensor measures the temperature of the liquid crystal display in the cooling room by using infrared rays, and then sends the temperature measurement data to the controller to operate the air conditioner and the cooling unit until the temperature of the liquid crystal display is lower than the preset temperature. An LCD aging system composed of an infrared temperature measuring sensor which is continuously made is a solution to the problem.

In addition, the temperature measuring sensor, the LCD aging system, characterized in that each corresponding to the liquid crystal display installed on the liquid crystal display mounting table is installed as a solution to the problem.

In the LCD aging system according to the present invention, by installing an air conditioner and a cooling unit inside the cooling room, condensation of cold air may be performed by intensively discharging the cold air to the liquid crystal display in the cooling room to cool the heat of the liquid crystal display in a short time.

In addition, by installing an infrared temperature measuring sensor in one end of the cooling room, the temperature of the liquid crystal display in the cooling room is measured by using infrared rays, and then the temperature measurement data is sent to the control unit so that the control unit has a temperature below the preset temperature. The operation of the air conditioner and the cooling unit can be continued until it is done.

1 is an illustration of a conventional aging test.
2 is a block diagram according to an embodiment of the present invention.
3 is a front view of the air conditioner according to the embodiment of the present invention.
4 is a plan view of an air conditioner according to an embodiment of the present invention.
5 is a side cross-sectional view of an air conditioner according to an embodiment of the present invention.
Figure 6 is a ceiling installation state of the air conditioner according to an embodiment of the present invention.
7 is a front view of the cooling unit according to the embodiment of the present invention.
8 is a rear view of the cooling unit according to the embodiment of the present invention.
9 is a side cross-sectional view of a cooling unit according to an embodiment of the present invention.

The present invention, the cooling room is formed into a space in a closed type; An air conditioner installed at an upper end of the cooling room to supply cold air into the cooling room to cool the liquid crystal display; A cooling unit installed at one side of a cooling room opposite to the air conditioner to suck the cold air supplied from the air conditioner into the inside, and to discharge the sucked cold air to the liquid crystal display to cool the liquid crystal display; A temperature measuring sensor installed at one side of the cooling room to measure a temperature of the liquid crystal display in the cooling room; LCD aging system is configured to include a feature of the technical configuration.

The air conditioner may include: an air guide casing having an air guide grille configured to communicate with the inside of the front upper portion to discharge cold air, and an air filter for filtering external air at the front lower portion; A blower installed at an upper portion of the inside of the air conditioner casing so as to communicate with the air guide grill of the air conditioner casing and supplying cool air heat exchanged through the air guide grill into the cooling room through the cooling coil installed in the air conditioner casing; A cooling coil installed under the air conditioner casing; A drain pan installed at a lower portion of the cooling coil to recover water droplets flowing downward along the surface of the cooling coil; LCD aging system is configured to include a feature of the technical configuration.

In addition, the cooling unit is installed on one side of the cooling room so as to face the air conditioner is a hollow cooling that is installed in the upper inlet in communication with the inside so as to suck the cold air supplied from the air conditioner into the cooling room therein. A unit casing; A fan motor installed at an upper portion of the cooling unit casing so as to correspond to a position of an intake port of the cooling unit casing, and a fan configured to suck cooling air discharged through the air conditioner into the cooling unit casing; A jet nozzle which is formed in front of the cooling unit casing below the suction port and discharges air sucked into the cooling unit casing to the liquid crystal display in the cooling room; LCD aging system is configured to include a feature of the technical configuration.

In addition, the inside of the cooling room, the LCD aging system is provided with a liquid crystal display mounting table formed with a partition space partitioned into a plurality of layers that can be installed in a multi-layer liquid crystal display is characterized by a technical configuration.

In addition, the air guide grille of the air conditioner and the inlet of the cooling unit are installed to face each other, and the cold air supplied through the air guide grille is sucked into the cooling unit casing through the inlet by the drive of the fan motor, and then through the jet nozzle. An LCD aging system that cools a liquid crystal display by discharging it to a liquid crystal display is characterized by a technical configuration.

In addition, the installation width of the jet nozzle is an installation width corresponding to the width of the partition space of the liquid crystal display mounting stage, so that the air discharged from the jet nozzle is concentrated on each liquid crystal display stacked on the liquid crystal display mounting stage so that the temperature of the liquid crystal display The LCD aging system is characterized by a technology configuration that allows it to be dropped in a short time.

In addition, the temperature measuring sensor measures the temperature of the liquid crystal display in the cooling room by using infrared rays, and then sends the temperature measurement data to the controller to operate the air conditioner and the cooling unit until the temperature of the liquid crystal display is lower than the preset temperature. The LCD aging system, which consists of infrared temperature measuring sensors, which is made continuously, is a feature of the technical configuration.

In addition, the temperature measuring sensor is characterized by a technical configuration of the LCD aging system that is provided correspondingly for each liquid crystal display installed on the liquid crystal display mounting table.

Referring to the configuration of the LCD aging system according to the present invention with reference to the accompanying drawings as follows.

2 is a configuration diagram according to an embodiment of the present invention, the LCD aging system according to the present invention, the cooling room 10 is formed into a closed space and the upper side of the cooling room (10) An air conditioner 20 to be installed, a cooling unit 30 installed to one side of the cooling room 10 so as to face the air conditioner 20, and a cooling room to be located between the air conditioner 20 and the cooling unit 30 ( 10) to measure the temperature of the liquid crystal display mounting table 60 is installed in the inner center and the liquid crystal display 70 is installed in one side of the cooling room 10, the partition space of the liquid crystal display mounting table 60 It consists of a temperature measuring sensor (50).

The air conditioner 20 is for supplying cold air into the cooling room 10, and supplies cooling air to the cooling room 10, but increases the cooling efficiency of the liquid crystal display 70. ) Installed on the top side of the cooling room 10 rather than the lower side of the inside.

In addition, the cooling unit 30 is installed at one side of the cooling room 10 on the opposite side to which the air conditioner 20 is installed so as to face the air conditioner 20, thereby cooling the cold air supplied from the air conditioner 20 into the cooling unit 30. By absorbing and discharging the liquid crystal display 70 intensively, the liquid crystal display 70 can be quenched in a short time.

The temperature measuring sensor 50 measures the temperature of the liquid crystal display 70 installed in the compartment of the liquid crystal display mounting table 60 in the cooling room 10 and sends the measured temperature data to the control unit 40 to display the liquid crystal display ( The air conditioner 20 and the cooling unit 30 continue to drive until the temperature of 70 is less than or equal to a preset temperature.

At this time, the temperature measuring sensor 50 is preferably using an infrared temperature measuring sensor for measuring the temperature of the liquid crystal display 70 by using infrared rays, the temperature measuring sensor 50 is stacked on the liquid crystal display mounting table 60 It is preferable to be connected to the control unit 40 while installing one corresponding to each liquid crystal display 70.

As the infrared temperature measuring sensor, a photonic type sensor using a photovoltaic effect or a photoconductive effect, a bolometer, a pyroelectric sensor, and a thermopile sensor ( A thermal type sensor such as a thermopile sensor or an infrared sensor may be used.

The liquid crystal display mounting table 60 is partitioned by providing a partition space for installing the liquid crystal display 70 up, down, left, and right to form a layer, but formed vertically longer than horizontal so as to install as many liquid crystal display 70 as possible. It is best to create as much space as possible.

When the partition space is formed as described above, the liquid crystal display 70 is installed to correspond to the partition space, thereby cooling the liquid crystal display 70 in a more safe state.

3 is a front view of the air conditioner according to the embodiment of the present invention, FIG. 4 is a plan view of the air conditioner according to the embodiment of the present invention, FIG. 5 is a side cross-sectional view of the air conditioner according to the embodiment of the present invention, and FIG. With reference to the accompanying drawings showing a ceiling installation state diagram of the air conditioner according to an embodiment of the present invention in more detail look at the configuration of the air conditioner as follows.

The air conditioner 20 is installed on one side of the upper portion of the cooling room 10, and is formed in a hollow shape so that the cooling coil 23, the drain pan 24, the blower 22, and the like can be installed therein. It consists of a casing 21, a blower 22 installed in the upper portion of the inside of the air conditioner casing 21, and a cooling coil 23 installed in the lower portion of the inside of the air conditioner casing 21.

The air conditioner casing 21 is formed in a hollow shape, the front upper air guide grill 211 is formed in communication with the inside to discharge the cold air while adjusting the direction of the cold air, the lower portion of the cooling room ( The air filter 212 which filters the air in 10) is provided.

The blower 22 is installed in the upper portion of the air conditioner casing 21 so as to be connected to the air guide grill 211. The air conditioner casing 21 is cooled while passing through the cooling coil 23 by the blower 22. The cold air inside) is discharged to the cooling room 10 through the air guide grill 211.

The cooling coil 23 is installed under the air conditioner casing 21 so as to be positioned under the blower 22 so that air in the cooling room 10 passes through the air filter 212 into the air conditioner casing 21. Cold air is formed by heat exchange with the incoming air.

The cool air formed by the heat exchange of the cooling coil 23 is discharged into the cooling room 10 through the air guide grill 211 by driving the blower 22.

Here, during the heat exchange of the cooling coil 23, the surrounding heat is taken away, so that water droplets form on the surface of the cooling coil 23, and the water droplets flow downward along the surface of the cooling coil 23, so that the drain is disposed on the lower portion of the cooling coil 23. A fan 24 is installed to collect the droplets.

As shown in FIG. 6, the air conditioner 20 is fixed to the ceiling of the cooling room 10 by connecting the upper surface of the air conditioner casing 21 and the ceiling of the cooling room 10 with a support rope.

At this time, one end of the support rope to install a turnbuckle (TURNBUCKLE) to pull or slow down the support rope to adjust the length of the support rope.

7 is a front view of a cooling unit according to an embodiment of the present invention, Figure 8 is a rear view of the cooling unit according to an embodiment of the present invention, Figure 9 is a side cross-sectional view of the cooling unit according to an embodiment of the present invention, respectively As shown, with reference to the accompanying drawings look at the configuration of the cooling unit in more detail as follows.

The cooling unit 30 is installed on one side of the cooling room 10 so as to face the air conditioner 20, and the cooling unit 30 is formed in a hollow form to install the fan motor 32 and the jet nozzle 33 therein. A casing 31, a fan motor 32 installed in the upper portion of the cooling unit casing 31, and a jet nozzle 33 attached to the front of the cooling unit casing 31 under the fan motor 32. It is composed.

The cooling unit casing 31 is formed to have a space for installing the fan motor 32 and the jet nozzle 33 therein, facing the air guide drill 211 of the air conditioner 20 in the front upper portion A suction port 311 communicating with the inside is formed.

The fan motor 32 is installed in the upper portion of the cooling unit casing 31 to drive a fan, which is built in, to cool the air discharged from the air guide grill 211 of the air conditioner 20 inside the cooling unit casing 31. Absorbed into and then supplied to the jet nozzle 33 installed below the fan motor 32.

The jet nozzle 33 is installed in front of the cooling unit casing 31 so as to be positioned below the fan motor 32, but communicates with the inside of the cooling unit casing 31 so that the cooling unit is driven by the fan motor 32. The air absorbed into the casing 31 is rapidly discharged to the liquid crystal display 70 in the cooling room 10 so that the temperature of the liquid crystal display 70 can be dropped in a proper temperature in a short time.

The installation width of the jet nozzle 33 corresponds to the height of the liquid crystal display mounting table 60 so that cold air may be evenly sprayed to the liquid crystal display 70 installed in each installation space of the liquid crystal display mounting table 60.

In addition, the jet nozzle 33 is installed horizontally and horizontally at a predetermined interval on the entire front surface of the cooling unit casing 31 below the inlet port 311 so as to be located below the fan motor 32, and the fan motor 32 is Although it depends on the cooling capacity, it is preferable to install two in the cooling unit casing 31 normally, and the air conditioner 20 and the cooling unit 30 which are installed in the cooling room 10 have an area of the cooling room 10. Depending on the installation, at least one or more of them should be installed.

As described above, the LCD aging system according to the present invention installs an air conditioner 20 and a cooling unit 30 inside the cooling room 10 to force convection of cold air by driving the liquid crystal display 70. As it is cooled to be lowered to an appropriate temperature in a short time, the operation of the LCD aging system according to the present invention with reference to the accompanying drawings as follows.

As shown in Figure 2, by driving the air conditioner 20 installed in the closed space of the cooling room 10 to supply the cool air into the cooling room 10 and at the same time the cooling unit installed opposite the air conditioner 20 Drive 30 to draw the cold air supplied from the air conditioner 20 to the inside, and concentrated high-speed cold air to the liquid crystal display 70 installed in the compartment of the liquid crystal display mounting table 60 in the cooling room 10 Is discharged to cool the temperature of the liquid crystal display 70 in a short time.

The temperature measuring sensor 50 installed at one end of the cooling room 10 measures the temperature of the liquid crystal display 70 and sends this data to the control unit 40 until the liquid crystal display 70 is below a predetermined appropriate temperature. To control the air conditioner 20 and the cooling unit 30.

Looking at the operation of the air conditioner 20 and the cooling unit 30 in more detail, when the air conditioner 20 is driven as shown in Figures 3 to 6 blower 22 is driven while the air in the cooling room (10) air conditioning casing 21 It enters into the air conditioner casing 21 in a filtered state through the air filter 212 at the bottom.

In this way, the air entering the air conditioner casing 21 passes through the cooling coil 23 and undergoes heat exchange to be turned into cold air. The cold air is blown through the air guide grill 211 by the blower 22. Discharged into the cooling room 10.

The cool air discharged into the cooling room 10 through the air conditioner 20 is sucked into the cooling unit casing 31 by the driving of the cooling unit 30.

That is, when the fan motor 32 of the cooling unit 30 is driven to rotate the built-in fan, the cold air discharged through the air conditioner 20 is cooled through the inlet 311 of the upper part of the cooling unit casing 31. 31 is sucked into the inside and is discharged from the inside of the cooling unit casing 31 through the jet nozzle 33 installed under the fan motor 32.

Since the cooling air inside the cooling unit casing 31 passes through the jet nozzle 33, the velocity increases and is discharged at a high speed to the liquid crystal display 70, thereby lowering the temperature of the liquid crystal display 70 to an appropriate temperature in a short time. .

At this time, the installation width of the jet nozzle 33 is the same as the height of the liquid crystal display mounting table 60, the cold air injected from the jet nozzle 33 is the liquid crystal display 70 installed in each compartment of the liquid crystal display mounting table 60 In this case, the temperature of the liquid crystal display 70 is dropped in a short time.

As described above, the LCD aging system according to the present invention receives an air conditioner 20 for supplying cold air into the cooling room 10 and cold air supplied from the air conditioner 20, and discharges the liquid to the liquid crystal display 70 at high speed. Cold air is intensively discharged to the liquid crystal display 70 through a forced convection, thereby reducing the temperature of the liquid crystal display 70 in a short time to prevent thermal deformation of the liquid crystal display 70.

10: cooling room 20: air conditioner 21: air conditioner casing
22: blower 23: cooling coil 24: drain fan
30: cooling unit 31: cooling unit casing 32: fan motor
33: jet nozzle 40: control unit 50: temperature measuring sensor
60: liquid crystal display mounting base 70: liquid crystal display 211: air guide grill
212: Air filter 311: Inlet

Claims (8)

A cooling room formed in a hermetically sealed space; An air conditioner installed at an upper end of the cooling room to supply cold air into the cooling room to cool the liquid crystal display; A cooling unit installed at one side of a cooling room opposite to the air conditioner to suck the cold air supplied from the air conditioner into the inside, and to discharge the sucked cold air to the liquid crystal display to cool the liquid crystal display; A temperature measuring sensor installed at one side of the cooling room to measure a temperature of the liquid crystal display in the cooling room; Including,
The cooling unit is installed on one side of the cooling room so as to face the air conditioner is a hollow cooling unit casing is installed in the upper inlet in communication with the inside so as to suck the cold air supplied from the air conditioner into the cooling room inside. and; A fan motor installed at an upper portion of the cooling unit casing so as to correspond to a position of an intake port of the cooling unit casing, and a fan configured to suck cooling air discharged through the air conditioner into the cooling unit casing; A jet nozzle which is formed in front of the cooling unit casing below the suction port and discharges air sucked into the cooling unit casing to the liquid crystal display in the cooling room; LCD aging system, characterized in that configured to include
The method according to claim 1,
The air conditioner,
A hollow air conditioner casing having an air guide grill in which cold air is discharged while communicating with the inside of the front upper portion, and an air filter for filtering external air is installed in the front lower portion;
A blower installed at an upper portion of the inside of the air conditioner casing so as to communicate with the air guide grill of the air conditioner casing and supplying cool air heat exchanged through the air guide grill into the cooling room through the cooling coil installed in the air conditioner casing;
A cooling coil installed under the air conditioner casing;
A drain pan installed at a lower portion of the cooling coil to recover water droplets flowing downward along the surface of the cooling coil; LCD aging system, characterized in that configured to include
delete The method according to claim 1 or 2,
The LCD aging system, characterized in that the liquid crystal display mounting table formed with a partition space partitioned into a plurality of layers to install a multi-layer liquid crystal display in the interior of the cooling room is installed.
The method according to claim 4,
The air guide grille of the air conditioner and the inlet of the cooling unit are installed to face each other so that the cold air supplied through the air guide grille is sucked into the cooling unit casing through the inlet by the fan motor, and then the liquid crystal display through the jet nozzle. LCD aging system, characterized in that to cool the liquid crystal display by discharging
The method according to claim 5,
The installation width of the jet nozzle is an installation width corresponding to the width of the partition space of the liquid crystal display mounting stage, and the air discharged from the jet nozzle is concentrated on each liquid crystal display stacked on the liquid crystal display mounting stage to shorten the temperature of the liquid crystal display for a short time. LCD aging system characterized by being dropped on
The method of claim 6,
The temperature measuring sensor measures the temperature of the liquid crystal display in the cooling room by using infrared rays, and then sends the temperature measurement data to the controller so that the operation of the air conditioner and the cooling unit is continued until the temperature of the liquid crystal display is lower than the preset temperature. LCD aging system characterized in that the infrared temperature sensor
The method according to claim 7,
The temperature measuring sensor, the LCD aging system, characterized in that each corresponding to each of the liquid crystal display installed on the liquid crystal display mounting table is installed

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