KR20100007637U - Electronic type small heater unit for aging process - Google Patents

Abstract

The present invention relates to an electronic small heater unit for an aging process belonging to a high temperature chamber, the aging small heater unit for heating the aging room for the reliability test for the LCD panel, connected to a power source for heating the aging room A ceramic heater made of PTC (Positive Temperature Coefficient) and a blower fan are integrally provided, and a display unit is installed on the outside part to detect the operation state of the heater and display it to the outside, and the blower fan when the heater is operated. Equipped with an electronic sensing PCB that detects the operation of the sensor, it is possible to reduce the size of the chamber equipment by installing several existing large heaters in a small size, and also manufacture costs related to the large current wiring of the existing large heater. It has an effect to reduce.

Heater, Blower Fan, Electronic Sensing, Display

Description

Electronic type small heater unit for aging process

The present invention relates to an electronic small heater unit for aging that is used in the Aging process, which is a process of performing a reliability test for a predetermined time at a high temperature in the production process of a display panel, and has a structure that can be used in a mobile small chamber.

In general, aging in the LCD panel manufacturing step is performed to select a defective state of an attached circuit in the module process in the manufacturing step, but stabilizes the LCD alignment characteristic to improve the deflection characteristics of the liquid crystal under the same voltage driving environment. Refers to a process of improving the uniformity of the product by making it uniform.

Aging stability is very important in this LCD process, and temperature control is a very important factor and must maintain precise characteristics. In particular, when a certain temperature of the LCD is applied above the allowable temperature, the temperature uniformity in the aging room is very important because the alignment film may be destroyed.

1 is a view showing a large heater and fan blower installation of the conventional chamber.

1, in order to install a large heater 20 and a fan blower installed in a large aging chamber 10 having a plurality of pallets 12 and an aging block 11, an upper portion of the aging chamber 10 may be disposed in an upper portion of the aging chamber 10. At least two units are to be installed, and the working environment is to be spaced apart from the heater unit for heating heated air circulation and convection. Therefore, there is a problem inevitably limited to the place to be installed because of restrictions on the heater 20 size and fan blower installation.

In addition, it was necessary to install a large fan blower that changes the air flow, such as calculating the period by considering it as a separate construction, in a position close to the heater, which caused the consumption of a large fan blower for noise in the chamber and air convection. It has the disadvantage that the loss of power, etc. is too large.

In addition, the centralized heating method through the large heater 20 generates a blind spot in which heat is not uniformly transmitted therein, and thus, a large temperature difference is difficult to implement a temperature environment that can provide a uniform temperature. Disadvantages and limitations of installation space in general application of aging room according to LCD module manufacturing.

In addition, since the conventional aging chamber 10 requires a separate space in which the heater 20 is installed in addition to the space of the equipment in the chamber, the chamber has a larger portion than the space actually required. In addition, as the large heater 20 consumes a lot of power, it was necessary to use a thick wire from the basic wiring.

For this purpose, although a small heater unit incorporating a heater and a cooling fan has been disclosed, there is also a monitoring of temperature and fan operation through a plurality of sensors, but the detection method of whether the fan is driven depends on the fan driving. As it can be recognized by the movement of the sensor due to the generated wind, there was no problem in terms of space constraint and sensing efficiency due to the installation of the sensor.

The purpose according to the present invention for solving the above-mentioned conventional problems, by providing a heater and a fan for the blower integrally, does not require the installation of a large fan blower for power consumption and air circulation, a large number in the same building area It is possible to install a large amount of equipment, thereby increasing production to area.

In addition, the built-in type of the electronic safety detection sensor has another purpose to improve the space efficiency by eliminating the need to install the existing large control panel.

Another object is to reduce the aging chamber space used in the LCD panel manufacturing process, to achieve a uniform temperature distribution by taking a separate heating method, and to provide a small aging heater unit is easy to replace in case of failure An object of the present invention is to provide a small heater unit for aging that prevents a loss such as an aging process inoperable.

The heater unit configuration according to the present invention for solving the above-described conventional problems, in the small heater unit for the aging process for heating the aging room for the reliability test for the LCD panel, connected to the main power supply to heat the aging room A ceramic heater made of PTC (Positive Temperature Coefficient); A blowing fan for heating heated air circulation, convection and cooling; A drive controller which controls temperature conditions and time so as to satisfy an aging atmosphere in the chamber, and drives a blowing fan when overheated; A heater overheat sensor connected to the drive controller to sense the chamber room temperature; An overheat prevention temperature controller connected to the heater unit and installed in one or more units to prevent aging room overheating; A main controller interworking with a plurality of sensors and circuits to mediate driving of the heater and the fan; And an electronic sensing PCB configured to detect whether the temperature is set in the temperature controller and whether the fan is operated when the heater is operated. The ceramic heater and the fan for fan are integrally configured. Characterized in that.

Here, the electronic sensing PCB is characterized in that by periodically checking the amount of current applied to the blowing fan to transmit the detected abnormal signal to the drive controller in the event of a fan operation is characterized in that for driving the blowing fan.

In addition, disconnection of the ceramic heater is sensed by using a CT (current transformer), and an abnormal signal is transmitted to the main controller when there is a risk of fire due to overcurrent due to an overload or an operation of the heater due to disconnection. Characterized in that.

The display unit may further include a display unit configured to detect an operation state of the ceramic heater and display it to the outside.

In this case, the display unit is composed of LCD or LED, it is characterized in that the abnormal signal to the user by the lighting of a plurality of colors, and the display window for displaying data and status is selectively added.

As described above, the effect of the present invention is to provide a heater and a blower fan integrally to provide a large amount of equipment in the same building area without requiring the installation of a large fan blower for power consumption and air circulation It can be installed to increase the output compared to the area has the effect.

In addition, as a built-in type of the electronic safety sensor, the existing large control panel is unnecessary.

In addition, it is possible to realize uniform temperature distribution by reducing the aging room space used in the LCD panel manufacturing process and taking a separate heating method, and by providing a small aging heater unit, it is easy to replace when a defect occurs, and thus the aging process It has the effect which can provide the heater unit for aging which prevents loss, such as a non-movement.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a configuration of the aging chamber is installed a small heater unit according to the present invention, Figure 3 is a block diagram showing the overall configuration of the aging process using a small heater unit for aging according to the present invention, Figure 4 is a small according to the present invention Top view of the heater unit, Figure 5 is a front view of a small heater unit according to the present invention.

The present invention is a device that can control the temperature in the chamber to install a small heater in the high-temperature chamber without securing a separate space, and solves the disconnection of the heater, the operation of the fan, the sensing of the heater and heat electronically, It is configured so that a separate large control panel is unnecessary.

First, the installation environment and its configuration of the aging chamber constituting the small heater unit for aging according to the present invention will be described with reference to FIG. 2.

As shown, a plurality of aging blocks 110 in which a plurality of pallets 120 for carrying out a reliability test by mounting a plurality of display modules for the aging process and an aging block 110 for accommodating the same are lined and grouped in layers and columns. It is provided with an aging chamber 100 for receiving it.

As can be seen in the drawing, each of the aging chamber is mounted on the upper side of the small heater unit 200 according to the present invention, according to the installation problem and efficiency aspects due to not only the thermal efficiency, but also the need for space for blowing the above-mentioned existing problem Will have a much better effect.

Of course, the drawing shows a state in which the heater unit 200 is installed one by one in each aging block 110, but is not limited to this, the installation position, number and appearance can be variously configured according to the display module size and aging environment configuration It can be taken for granted.

First, a temperature-related process flow during the process of loading the display device or module for reliability test into the aging chamber 100 is briefly described as follows.

First, an external counting device, a PC, and a process main device (not shown) that controls the aging process flow may set a variable time of internal temperature setting and temperature maintenance / heating / cooling. At this time, the said temperature rising is 30-80 degreeC normally, and isothermal is set to 60 degreeC normally.

In this case, the temperature and isothermal temperature is continuously checked by a temperature sensor (not shown). When temperature is checked by the temperature sensor, data information and test results of the temperature are recorded on a PC, which is an external counting device, or a process main device. Start sending.

Here, the process flow of the process main unit transmits a real time process as a control signal. At this time, the cooling unit turns off the heater, starts cooling, and lowers it to a predetermined temperature.

If an error occurs in the display display module while the heater and the cooling unit are in operation, the alarm is recorded on the external counting device or transmitted to the process main device to generate an alarm signal.

Next, the configuration and system for the small heater unit 200 for aging according to the present invention will be described in detail with reference to FIGS. 3 to 5.

As shown in Figure 3, the system configuration for performing a heating (heating) and blowing fan (fan) operation according to the present invention is as follows.

First, the power supply unit 290 for supplying power for operating the heater unit 200 from the outside is provided, and the ceramic heater 210 and the blowing fan 220 are integrally provided and installed.

In accordance with the heater operation, according to the transmission of the detection signal by the heater overheat sensor 240 to detect the temperature when the heater 210 is overheated, it is possible to prevent the motor overheating to mediate the heater driving in accordance with the overheat prevention TC operation.

Meanwhile, the blowing fan 220 transmits a signal sensed and commanded through the fan driving sensor and the control unit to the driving controller 270. Accordingly, the drive controller 270 that controls the temperature conditions and time so as to satisfy the aging atmosphere in the chamber 100 and drives the blowing fan when overheated is operated.

In this case, it is connected to the fan driving sensor 250 to configure the electronic sensing PCB 260 to detect whether the fan operation.

The above description of the system merely illustrates the main configuration and its connection relationship, and does not show all the configurations of the heater unit 200 of the present invention, which will be apparent according to the description of the heater unit 200 described below.

4 and 5, the small heater unit 200 according to the present invention is an aging small heater unit 200 for heating the aging chamber for the reliability test for the LCD panel, is connected to the power supply aging A ceramic heater 210 and a blowing fan 220 of PTC (Positive Temperature Coefficient) material for heating the chamber are integrally provided.

At this time, a small ceramic heater 210 is provided on one side of the front and rear spaces of the entire unit 200, and a small fan blower 220 is installed on the other side of the front and rear spaces, and the fan blower is directed toward the mounted product for testing. Preferably, the war 220 constitutes a front portion.

In the drawing, the ceramic heater 210 is configured to be disposed in the upper direction rather than the fan blower 220, which is not only limited to the effective arrangement due to the convective direction of heat that is overheated by the heater 210.

First, the part to be detected in the present invention is whether the fan is driven according to the heater overheat and internal temperature, the heater overheat, and for this purpose, the heater overheat sensor 240 and the electronic sensing PCB 260 is configured in the unit.

The controller by the detected signal operates the heater when overheating is detected.

One or two or more overheating temperature controller 235 and the temperature control to control the temperature conditions and time to meet the aging atmosphere in the chamber 100 to control the set temperature, and to drive the blowing fan 220 when overheating The drive controller 270 is provided.

Here, the electronically-sensing PCB 260 periodically checks and detects the amount of current applied to the blowing fan 220, and transmits the detected abnormal signal to the driving controller 270 when the fan 220 is abnormally operated. It is possible to drive the fan 220.

In addition, disconnection of the ceramic heater 210 is sensed by using a CT (current transformer), and when the heater 210 is unable to operate due to disconnection or an overcurrent occurs due to an overload, the main circuit may occur. Preferably, the controller 280 is configured to transmit an abnormal signal.

In addition, the operation of the fan 220 detects a current of the fan 220 and detects when the fan stops operating or overload, and transmits the detected current to the main controller 280.

In addition, when the heater 210 is excessively heated (overheating), the heater overheat detection sensor 240 detects a fire risk and functions to transmit a detected signal to the main controller 280.

On the other hand, it is possible to further configure the display unit 280 to detect the operation state of the heater 210 to display to the outside, which can alert the operator of the abnormal signal for each temperature, time, whether the fan is driven or the like. It will perform the function. Of course, in this case, it may be configured as an alarm sound like an alarm.

At this time, the display unit 280 is composed of an LCD or LED, it is preferable to configure the display to the user to recognize the abnormal signal by the illumination of a plurality of colors, and to display the data and status selectively.

Referring to the operation of the heater unit 200 according to the present invention having the above configuration in detail as follows.

First, an LCD panel for reliability test is mounted in the aging chamber 100. In this case, the setting conditions of the aging chamber 100 are set in the controller.

Subsequently, after setting an appropriate temperature (for example, 56 degreeC), the heater built in the heater unit 200 is operated, and temperature is raised.

Here, it is preferable to mount the heater unit 200 configured to be compact so that it can be heated in a position where the temperature distribution can be uniformly supplied so that the heated energy can be sufficiently supplied.

In order to maintain the set temperature, the controller continuously controls the On / Off, and if the temperature rise (overheating) occurs in the controller abnormal situation, the heater is stopped by the overheat prevention temperature controller 235 (power off). .

In this case, it is possible to stop the operation of all or a part of the plurality of heater unit 200 in operation, which can be variously controlled according to the atmosphere and work settings of the aging chamber 100.

In addition, the room temperature for meeting the temperature conditions of the aging chamber 100 can be continuously detected through the temperature sensor.

When the fan 220 is not driven when the fan 220 is driven by the driving fan 220 driving signal, the sensing and abnormal signals are transmitted by the electronic sensing PCB 260.

Small heater unit 200 according to the present invention having the configuration and operation described above is installed in a temperature blind spot possible, for example, near the door during the heating process to maximize the uniform temperature distribution effect, waste unnecessary It is possible to implement an effect that can reduce the thermal energy.

As described above, although the present invention has been described by means of a limited embodiment and drawings, the present invention is not limited thereto and is intended by those skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of equivalents of the claims to be described.

1 is a view showing a large heater and fan blower installation of a conventional chamber

2 is an aging chamber configuration in which a small heater unit according to the present invention is installed

3 is a configuration diagram showing the overall configuration of an aging process using a small heater unit for aging according to the present invention.

4 is a plan view of a small heater unit according to the present invention;

5 is a front view of the small heater unit according to the present invention;

*** Description of the main parts of the drawing ***

100; Aging Chamber 110: Aging Block

200: heater unit 210: ceramic heater

220: blowing fan 230: main controller

235: overheat prevention temperature controller 240: heater overheat sensor

250: fan drive sensor 260: electronic sensing PCB

270: drive controller 280: display unit

290: power supply

Claims (5)

In the electronic small heater unit for the aging process for heating the aging room for reliability test on the LCD panel, The heater unit is; A ceramic heater made of PTC (Positive Temperature Coefficient) for connecting the main power supply to heat the aging room; A blowing fan for heating heated air circulation, convection and cooling; A drive controller which controls temperature conditions and time so as to satisfy an aging atmosphere in the chamber, and drives a blowing fan when overheated; A heater overheat sensor connected to the drive controller to sense the chamber room temperature; An overheat prevention temperature controller connected to the heater unit and installed in one or more units to prevent aging room overheating; A main controller interworking with a plurality of sensors and circuits to mediate driving of the heater and the fan; And And an electronic sensing PCB configured to detect whether the temperature controller is set to the temperature controller and whether the fan is operated when the heater is operated. Electronic ceramic heater unit for the aging process, characterized in that the ceramic heater and the blowing fan is configured integrally The method of claim 1, The electronic sensing PCB periodically checks and detects the amount of current applied to the blowing fan, and transmits the abnormal signal detected to the drive controller when the fan malfunctions, thereby driving the blowing fan. unit The method of claim 1, The disconnection of the ceramic heater is sensed by using a CT (current transformer), and when an abnormal operation of the heater due to disconnection or an overcurrent occurs due to overload occurs, an abnormal signal is transmitted to the main controller. Electronic small heater unit for aging process The method according to any one of claims 1 to 3, Electronic small heater unit for the aging process, characterized in that further configured display unit for detecting the operation state of the heater and display to the outside The method of claim 4, wherein The display unit comprises an LCD or an LED, and recognizes an abnormal signal to the user by lighting a plurality of colors, and a display window for displaying data and status is optionally added.

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