KR20120111555A - Apparatus for monitoring liquid crystal leakage using liquid crystal detecting sensor - Google Patents

Abstract

PURPOSE: A device for monitoring leakage of liquid crystals using a liquid crystal sensor is provided to effectively prevent incomplete charging phenomena due to lack of a liquid crystal amount when liquid crystals are injected into a liquid crystal panel using capillary phenomena. CONSTITUTION: At least one liquid crystal sensor(300) senses liquid crystals leaked from each liquid crystal container to an upper side of a container transfer panel. The liquid crystal sensor outputs a sensing signal corresponding to the sensing result. An alarm unit(400) alarms leakage of liquid crystals contained in each liquid crystal container. A control unit(500) provides the sensing signal outputted from the liquid crystal sensor. The control unit operates the alarm unit. [Reference numerals] (300) Liquid crystal sensor; (400) Control unit; (500) Alarm unit

Description

Liquid-crystal leak monitoring device using liquid-crystal sensor {APPARATUS FOR MONITORING LIQUID CRYSTAL LEAKAGE USING LIQUID CRYSTAL DETECTING SENSOR}

The present invention relates to a liquid crystal leakage monitoring apparatus using a liquid crystal sensor, and more particularly, after the polymerization of the thin film transistor (TFT) array substrate and the color filter array substrate is completed, the liquid crystal using a capillary phenomenon inside the liquid crystal panel The present invention relates to a liquid crystal leakage monitoring apparatus using a liquid crystal detection sensor that can effectively prevent the unfilled phenomenon caused by the lack of liquid crystal in the process of injecting.

In general, a liquid crystal degassing process for removing impurities in a liquid crystal into a container containing liquid crystal in a manufacturing process of a liquid crystal display (LCD), a thin film transistor (TFT) array substrate, and a color filter Filter) The pumping process is performed to remove impurities such as carbon dioxide (CO ₂ ) and gas inside the liquid crystal panel after the polymerization of the array substrate is completed and to vacuum the inside.

The liquid crystal defoaming process is completed and the liquid crystal panel in which the pumping process is completed is moved through a transfer panel after the process is completed in each vacuum chamber to meet liquid crystals inside the liquid crystal panel by a capillary phenomenon. The liquid crystal injection process is started.

Such a conventional technology has no device capable of monitoring the liquid crystal when liquid defoaming is in progress or when the defoaming process is completed and the liquid crystal flows down the container containing liquid crystal in a moving step to meet the liquid crystal panel. The liquid crystal unfilled phenomenon occurs in which some space inside the liquid crystal panel becomes empty. The reason why the monitoring is difficult even if the liquid crystal flows down is because the process is performed in the vacuum chamber, the inside of the chamber cannot be observed in detail.

On the other hand, the case where liquid crystal overflows to a container upper side is as follows.

First, when liquid crystal defoaming, bubbles inside the liquid crystal burst, a case overflows above the container in which the liquid crystal is contained, and the process is performed in the vacuum chamber.

Second, although the worker supplies the liquid crystal using a pipette (Pipet) that is a supply tool for holding the liquid crystal in a predetermined amount, there is a case in which the supply of the liquid crystal is over-supplied due to the failure of the pipette and the confusion of the number of supply. It is difficult to see with the naked eye and is caused by overflow during liquid crystal defoaming.

Third, when defoaming of the liquid crystal is completed, the liquid crystal often comes up on the upper part of the liquid crystal container, and the liquid crystal flows out of the container while moving to another chamber for meeting the liquid crystal panel and injecting the liquid crystal.

The present invention has been made to solve the above problems, an object of the present invention after the polymerization of the thin film transistor (TFT) array substrate and the color filter array substrate is completed, the liquid crystal is injected into the liquid crystal panel using a capillary phenomenon An object of the present invention is to provide a liquid crystal leakage monitoring apparatus using a liquid crystal detection sensor that can effectively prevent an unfilled phenomenon caused by a lack of liquid crystal in the process.

In order to achieve the above object, an aspect of the present invention, as a device for monitoring the outflow of the liquid crystal from the container containing the liquid crystal in the process of injecting the liquid crystal using a capillary phenomenon inside the liquid crystal panel during the manufacturing process of the liquid crystal display device At least one liquid crystal container containing liquid crystals; Each liquid crystal container is placed on the upper surface spaced apart by a predetermined interval, the container transfer panel for transferring each liquid crystal container in a vacuum chamber; It is installed on the upper surface of the container transfer panel so as to surround the liquid crystal container at regular intervals, and detects the liquid crystal flowing out of the upper surface of the container transport panel among the liquid crystal contained in each liquid crystal container and outputs a corresponding detection signal. At least one liquid crystal sensor; An alarm unit for notifying the outside of the liquid crystal contained in each liquid crystal container; And a control unit for receiving the detection signal output from each liquid crystal detection sensor to control the alarm unit to operate.

Here, the liquid crystal sensor is further installed to be detachable on the open upper surface of each liquid crystal container, the liquid crystal flowing out to the open upper surface of each liquid crystal container among the liquid crystal contained in each liquid crystal container through each liquid crystal sensor. It is desirable to detect.

Preferably, the liquid crystal sensor is a sensor for detecting a liquid component, has a constant resistance value, when the liquid crystal is buried can change the resistance value and output a detection signal corresponding thereto.

According to the liquid crystal leakage monitoring apparatus using the liquid crystal sensor of the present invention as described above, after the polymerization of the thin film transistor (TFT) array substrate and the color filter array substrate is completed, the liquid crystal by using a capillary phenomenon inside the liquid crystal panel In the process of injecting, there is an advantage that can effectively prevent the unfilled phenomenon due to the lack of liquid crystal amount.

In addition, according to the present invention, by mounting the liquid crystal sensor in a process that is difficult to check whether the liquid crystal is leaked out in the vacuum chamber, it is possible to improve productivity by preventing defects in which the liquid crystal is not filled in the liquid crystal panel in advance. In addition, it is possible to monitor the process step by step (Monitoring), there is an advantage that can identify and improve the cause of the liquid crystal overflow.

1 is a block diagram illustrating an overall liquid crystal leakage monitoring apparatus using a liquid crystal sensor according to an embodiment of the present invention.
2 is a perspective view and a plan view showing an example of the installation position of the liquid crystal sensor applied to an embodiment of the present invention.
3 is a perspective view and a plan view showing another example of the installation position of the liquid crystal sensor applied to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the following embodiments of the present invention may be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. The embodiments of the present invention are provided to enable those skilled in the art to more fully understand the present invention.

First, the present invention is equipped with a sensor (Sensor) for detecting the liquid crystal at the bottom of the liquid crystal container for each case that the liquid crystal can overflow, can detect the overflow of the liquid crystal and meet the process before the liquid crystal is injected into the liquid crystal panel It can be used in a liquid crystal injection process to stop and prevent unfilled liquid crystal in advance.

1 is an overall block diagram illustrating a liquid crystal leakage monitoring apparatus using a liquid crystal sensor according to an embodiment of the present invention, Figure 2 is an example of the installation position of the liquid crystal sensor applied to an embodiment of the present invention 3 is a perspective view and a plan view showing another example of the installation position of the liquid crystal sensor applied to an embodiment of the present invention.

1 to 3, a liquid crystal leak monitoring apparatus using a liquid crystal sensor according to an embodiment of the present invention injects liquid crystal using a capillary phenomenon inside a liquid crystal panel during a manufacturing process of a liquid crystal display (LCD). As a device for monitoring the outflow of the liquid crystal from the container containing the liquid crystal in the process, at least one liquid crystal container 100, container transfer panel 200, at least one liquid crystal sensor 300, the alarm unit 400 And the controller 500 and the like.

Here, the liquid crystal container 100 may be, for example, a rectangular cylinder, a triangular cylinder, an elliptic cylinder having an upper side and having a constant height so that the liquid crystal 110 is contained by a predetermined amount using a pipette, which is a conventional liquid crystal supply tool. Or a cylindrical shape is preferable.

The container transfer panel 200 is a transfer panel having a predetermined width for transferring each liquid crystal container 100 in a vacuum chamber, and the liquid crystal container 100 is seated so as to be spaced apart from each other by a predetermined interval. It is.

As shown in FIG. 2, the liquid crystal detection sensor 300 is installed on the upper surface of the container transfer panel 200 so as to surround the liquid crystal container 100 at a predetermined interval, and each liquid crystal container 100. The liquid crystal 110 contained in the liquid crystal 110 detects the liquid crystal 110 'flowing out to the upper surface of the container transport panel 200 and outputs a detection signal corresponding thereto.

The liquid crystal sensor 300 is a sensor for sensing a liquid component. The liquid crystal sensor 300 typically has a constant resistance value. When the liquid crystal 110 is buried, the resistance value is changed and a corresponding detection signal is output.

Optionally, as shown in FIG. 3, the liquid crystal detection sensor 300 ′ may be further installed to be detachably attached to an open upper surface of each liquid crystal container 100, and each of the liquid crystal detection sensors 300 ′ may be installed. The liquid crystal 110 ″ may be detected from the liquid crystals 110 contained in each liquid crystal container 100 to the open upper surface of each liquid crystal container 100.

The alarm unit 400 performs a function of notifying the outflow of the liquid crystals 110 contained in each liquid crystal container 100 to the outside visually (eg, LEDs, lamps, etc.) or acoustically (eg, speakers, etc.).

The controller 500 may be implemented as a conventional micro-processor or a micro-computer, and receives the detection signals output from each of the liquid crystal detection sensors 300 and 300 '. In accordance with the alarm 400 performs a function to control to operate.

On the other hand, it is preferable that the control unit 500 operates the alarm unit 400 by receiving the detection signals output from the respective liquid crystal detection sensors 300 and 300 ', but is not limited thereto, and the control unit 500 detects each liquid crystal. When the measured resistance value and the intrinsic resistance value are changed by receiving the measured resistance value output from the sensors 300 and 300 'and comparing the intrinsic resistance values of the liquid crystal sensor sensors 300 and 300' that are stored in advance, the alarm unit 400 may be implemented to operate.

Looking at the operation of the liquid crystal leakage monitoring device using the liquid crystal sensor according to an embodiment of the present invention configured as described above, first, each liquid crystal container 100 is contained in the liquid crystal, if the degassing of the liquid crystal in the vacuum chamber While the liquid crystal forms bubble bubbles, the impurity gas is discharged, and some of the liquid crystal rises to the upper surface of the liquid crystal container 100 (see FIG. 3), or in some cases, flows down the liquid crystal container 100 to overflow the container transfer panel ( It is detected by the liquid crystal sensor 300 mounted on the 200.

The liquid crystal detection sensor 300 has a constant resistance value, when the liquid crystal 110 flows and the resistance value is changed and detects it and transmits a corresponding detection signal to the control unit 500, the control unit 500 By operating the alarm unit 400 to promptly notify the outside to generate an alarm (alarm) visually or acoustically it is possible to accurately and quickly detect whether the leakage.

In addition, as shown in Figure 2, by mounting the liquid crystal sensor 300 in the lower portion of each liquid crystal container 100, it is possible to easily know in which position the liquid crystal flows overflow.

Furthermore, as shown in FIG. 3, the liquid crystal container 100 and the detachable liquid crystal sensor 300 ′ are additionally mounted on the open upper surface of the liquid crystal container 100 to the upper side of the liquid crystal container 100. It may also accurately detect whether the liquid crystal (110 ") is riding.

That is, by additionally mounting the liquid crystal sensor 300 ′, the liquid crystal 110 ″ may be sensed to the extent that the liquid crystal 110 ″ rises before the liquid crystal 110 ″ flows down so that the liquid crystal 110 ″ may be reused.

Although a preferred embodiment of the liquid crystal outflow monitoring apparatus using the liquid crystal sensor according to the present invention described above has been described, the present invention is not limited to this, but the claims and the detailed description of the invention and the scope of the accompanying drawings It is possible to carry out the transformation to this also belongs to the present invention.

100: liquid crystal container,
200: container transfer panel,
300: liquid crystal sensor,
400: alarm unit,
500:

Claims (3)

An apparatus for monitoring the outflow of liquid crystal from a container containing liquid crystal in a process of injecting liquid crystal using a capillary phenomenon inside the liquid crystal panel during the manufacturing process of the liquid crystal display device,
At least one liquid crystal container containing liquid crystals;
A container transfer panel on which an upper surface of each liquid crystal container is seated at a predetermined interval, and for transferring each liquid crystal container in a vacuum chamber;
It is installed on the upper surface of the container transfer panel so as to surround the liquid crystal container at regular intervals, and detects the liquid crystal flowing out of the upper surface of the container transport panel among the liquid crystal contained in each liquid crystal container and outputs a corresponding detection signal. At least one liquid crystal sensor;
An alarm unit for notifying the outside of the liquid crystal contained in each liquid crystal container; And
And a control unit for receiving the detection signal output from each liquid crystal detection sensor to control the alarm unit to operate.
The method according to claim 1,
The liquid crystal detection sensor is further installed to be detachable on the open upper surface of each liquid crystal container, and detects the liquid crystal flowing out to the open upper surface of each liquid crystal container from the liquid crystal contained in each liquid crystal container through each liquid crystal detection sensor. Liquid crystal outflow monitoring device using a liquid crystal sensor, characterized in that.
The method according to claim 1,
The liquid crystal detection sensor is a sensor for detecting a liquid component, has a constant resistance value, the liquid crystal leakage monitoring device using a liquid crystal detection sensor, characterized in that the resistance value changes when the liquid crystal is buried and outputs a corresponding detection signal .

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