KR101448546B1 - Air circulation unit having a flat display panel, a heat treatment apparatus and a heat treatment method - Google Patents

Abstract

The present invention relates to a heat treating apparatus for heat treating a display panel which comprises: a main body which is composed of an inner chamber and an outer chamber, and has a heat treatment unit in which the display panel is installed in the inner chamber; an air circulation unit which supplies hot air by installing a heater inside a supply duct installed vertically on the bottom surface of the main body, supplies the hot air to the heat treatment unit through a hot air travel path provided between the inner chamber and the outer chamber, and circulates the hot air passed through the heat treatment unit to the supply duct to re-heat in the heater and to be ventilated to the heat-treatment unit again; and a temperature adjustment unit which is retractably installed in the supply duct, and lowers the temperature of the hot air automatically circulating in the supply duct to be supplied when the inner temperature of the heat treatment unit is high.

Description

TECHNICAL FIELD [0001] The present invention relates to a flat display panel having an air circulation unit and a heat treatment method therefor, and an air circulation unit having a flat display panel,

The present invention relates to a heat treatment apparatus for a flat display panel having an air circulation unit and a heat treatment method thereof.

More particularly, the present invention relates to a heat treatment apparatus for improving the quality of a glass or a film coated on a top surface of a panel in a manufacturing process of an LCD or an OLED panel by supplying heat to the heat treatment apparatus, To a heat treatment apparatus for a flat display panel having a circulation unit and a heat treatment method thereof.

The present invention also relates to a thermal processing apparatus and method for a flat display panel having an air circulation unit having a temperature control unit and capable of improving heat treatment efficiency by shortening the heat treatment temperature in a short time in a heat treatment process.

In general, the display can be classified into a cathode ray tube (CRT) and a flat panel display (FPD).

The flat panel display includes a liquid crystal display (LCD), a plasma display panel (PDP), an organic luminescent diode (OLED), a field emission display (FED) And liquid crystal on silicon (LCOS) using a micro electro mechanical system (MEMS).

The flat panel display is subjected to a firing process through a heat treatment in common, though the manufacturing process and the material thereof are different from each other. The amorphous silicon layer having a low electron mobility through a heat treatment is crystallized into a polycrystalline silicon layer having a crystalline structure with high electron mobility and is usually performed at a temperature in the range of 250 ° C to 750 ° C.

In general, as a device for applying heat to the amorphous silicon layer, there is a structure in which a substrate is put into a furnace, heat is applied to the amorphous silicon layer by a heating means such as a heater, and heat treatment is performed on one substrate And a batch type in which a plurality of substrates are stacked vertically in a multi-step manner and heat-treated.

However, it is difficult to secure a space for maintenance of the heater inside the chamber, and it is difficult to secure the space for maintenance of the heater inside the chamber, There is a problem that the distance between the panel and the panel is increased.

An example of a batch type heat treatment apparatus is disclosed in Korean Patent Publication No. 2009-0088282. The apparatus includes a chamber for providing a heat treatment space for a plurality of substrates on which amorphous silicon is formed; And a boat disposed in the chamber and loaded with the plurality of substrates, wherein a thermal barrier is provided between the chamber and the plurality of substrates.

However, such a device has a built-in width of the boat, and the repair is performed according to the size of the substrate, which is costly, and there is a problem that the damaged panel affects other panels during the heat treatment.

In addition, since the heat sink is periodically cleaned during the inspection for maintenance of the apparatus during the manufacturing process, it is difficult to clean the apparatus because the structure is difficult to separate.

Recently, a heat treatment apparatus such as the one disclosed in Korean Patent Laid-Open No. 10-2005-0090917 is used.

The apparatus includes a drying / calcining furnace main body for performing firing and drying of a display flat plate (FPD) inside a firing furnace, the drying / firing furnace main body being provided with inlet and outlet ports for performing a drying or firing operation and for loading or unloading a display plate; A lifting unit for lifting and lowering the display flat plate up and down; And a circulation unit that supplies air and gas to the inside of the drying / firing furnace body and circulates the air / gas.

The lifting / lowering unit includes a main rod for lifting and lowering the display flat plate up and down; A main load arm coupled to the main rod to support the display plate; A rack and pinion for vertically raising and lowering the main rod; A guide rod for rotating when the display flat plate is lifted or lowered; And a guide rod arm coupled to the guide rod and adapted to rotate according to a rotational motion of the guide rod,

The circulation unit comprises: a fan for injecting and circulating heated air or gas into the drying / baking furnace; A duct for injecting the heated air or gas; A heater for heating the heated air or gas; And a fan driving motor for driving the fan.

That is, although the above apparatus is configured to supply air heated by the heater through the circulation unit, the heater is disposed in each of the opposite side surfaces of the body in multiple layers, that is, adjacent to the space in which the heater is heat- There is a problem that the temperature around the heater and the temperature at the heater and the remote area are varied, so that the uniform temperature is distributed throughout the heater, and the heat treatment is not smooth and the defect rate is high.

In addition, in such a device, the heated air can be supplied continuously, but when the internal temperature is too high to lower the temperature, simply discharging the heated air to the outside raises the temperature around the device, There is a problem to give.

SUMMARY OF THE INVENTION The present invention has been made in view of such conventional problems, and it is an object of the present invention to provide a heat treatment apparatus and a heat treatment apparatus which can uniformly supply hot air heated by a heater to a heat treatment unit provided in a main body to improve heat treatment efficiency, And a heat treatment method of the flat display panel having the air circulation unit.

It is another object of the present invention to provide an air circulating unit for rapidly circulating hot air using a temperature control unit installed in a supply duct to maintain a proper heat treatment temperature when hot air or an internal temperature of the chamber is excessively high during a heat treatment process And a heat treatment apparatus for the flat display panel.

It is another object of the present invention to provide a heat treatment apparatus and a heat treatment method for protecting a display panel by providing a mounting pin capable of buffering a shock by allowing a display panel to be packed in a multi-layered structure within a heat treatment unit.

The present invention also provides a heat treatment apparatus for easily cleaning the inside of a main body by opening a shutter provided on the front surface of the main body and preventing foreign matter from being adhered to the display panel due to supplied hot air through the filter, And to provide a heat treatment method.

The present invention relates to a heat treatment apparatus for heat-treating a display panel, comprising: a main body including a heat treatment unit including an inner chamber and an outer chamber surrounding the inner chamber, the display panel being heat treated in the inner chamber; A heater is installed inside the supply duct connected to the main body to supply hot air and the hot air is supplied to the inside of the inner chamber through a hot air flow path provided between the inner chamber and the outer chamber, An air circulation unit which recovers air to cause reheating in the heater and supplies reheated air to the inner chamber again; And the temperature of the air recovered from the inner chamber is lowered through heat exchange by being automatically inserted into the supply duct when the inner temperature of the inner chamber is higher than the heat treatment temperature immediately after the heat treatment is completed or during the heat treatment process, And a temperature control unit for allowing the low-temperature air to be supplied to the inner chamber.
The air circulation unit according to the present invention is provided between an inner chamber and an outer chamber of a main body and comprises a vertical path provided at an inlet path and a side surface provided at a bottom of the main body, Which are provided on the side surfaces of the respective shafts and communicate with each other.
The present invention is characterized in that a plurality of filters are installed on the wall surface of the inner chamber at equal intervals to filter the blown hot air to be supplied to the heat treatment unit and a recirculating duct located inside the outer chamber is installed on each of the left and right sides of the main body Each of the recirculating ducts is provided with an exhaust port communicating with the inner chamber. The exhaust port of one recirculating duct is disposed above the panel to be charged into the heat treatment unit, and the opposite exhaust port is positioned below the panel have.
In addition, the temperature control unit for controlling the internal temperature of the heat treatment unit according to the present invention includes any one of a sensible heat type in which a sensible heat filter is incorporated, a refrigerant type in which a refrigerant pipe is arranged, an air cooling type, or a water- .
According to another aspect of the present invention, there is provided a method of heat-treating a flat panel display panel, the method comprising: Closing the opening, activating the blower fan and the heater to raise the temperature of the hot air to a heat treatment temperature; When the hot air reaches the heat treatment temperature, suspending the operation of the heater and the blower fan or maintaining the temperature of the hot air by lowering the temperature of the heater; And a heat treatment unit for continuously supplying hot air to the heat treatment unit, wherein when the temperature of the hot air is higher than the heat treatment temperature of the hot air, the air recovered in the stopped state of the heater is heat- And a step of maintaining the temperature of the flat display panel.

In the first aspect of the present invention, hot air heated and passed through a heater is uniformly supplied to at least three surfaces of the inner chamber to heat treatment or drying, thereby significantly improving heat treatment efficiency.

Second, the present invention not only supplies hot air by raising the temperature to a temperature required for heat treatment in a short time, but also supplies the hot air even when the internal temperature of the hot air and the inner chamber is too high, It is an invention to be maintained.

Third, the present invention is an invention that can save energy and regulate the temperature required for heat treatment in a short time by collecting and reheating hot air supplied to the heat treatment unit.

Fourth, the heat treatment apparatus of the present invention has a temperature control unit on a path for moving hot air, and the temperature control unit is configured as a retractable type in which the temperature control unit can be drawn in and out, thereby facilitating space utilization and further improving heat treatment efficiency. .

Fifth, according to the present invention, a filter is provided on a wall surface of a heat treatment unit, and air is introduced through the filter, thereby preventing foreign substances from adhering to the display panel and causing defects.

1 is a perspective view of a heat treatment apparatus according to the present invention,
2 is a front view of the heat treatment apparatus according to the present invention,
3 is a front view showing the inside of the heat treatment apparatus according to the present invention,
FIG. 4 is a side view showing a part of a heat treatment apparatus according to the present invention,
5 is a schematic view of a heat treatment apparatus according to the present invention,
FIG. 6 is an enlarged view of a main part of a heat treatment apparatus according to the present invention,
7 is an enlarged view of another part of the heat treatment apparatus according to the present invention,
8A and 8B are enlarged views of another essential part of the heat treatment apparatus according to the present invention,
9 is a schematic view showing a hot air moving path of the heat treatment apparatus according to the present invention,
10 is a block diagram of the present invention;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Prior to the description, the disclosed embodiments are provided so that those skilled in the art can easily understand the spirit of the present invention, and thus the present invention is not limited thereto. The embodiments of the present invention may be modified in other forms within the scope and spirit of the present invention. As used herein, the term " and / or " is used to include at least one of the preceding and following elements. "On" other elements herein means that other elements are directly located on one element and that the third element can be further positioned on the one element . Although each element or portion of the specification is referred to by using the expressions of the first and second expressions, it is not limited thereto. The thicknesses and relative thicknesses of the components shown in the figures may be exaggerated to clearly illustrate the embodiments of the present invention. In addition, the matters described in the attached drawings may be different from those actually implemented by the schematic drawings to easily describe the embodiments of the present invention.

In the drawings, the heat treatment apparatus of the present invention can be utilized as a device for heat-treating a flat panel display panel or a heat treatment apparatus for other panels and glass plates.

1 is a perspective view of a heat treatment apparatus according to the present invention, FIG. 2 is a front view of a heat treatment apparatus according to the present invention, and FIG. 3 is a front view showing the inside of a heat treatment apparatus according to the present invention.

FIG. 4 is a side view of a part of a heat treatment apparatus according to the present invention, FIG. 5 is a schematic view of a heat treatment apparatus according to the present invention, and FIG. 6 is an enlarged view of a main part of a heat treatment apparatus according to the present invention. FIG. 7 is an enlarged view of another embodiment of the heat treatment apparatus according to the present invention, and FIGS. 8A and 8B are enlarged views of another essential part of the heat treatment apparatus according to the present invention.

9 is a schematic view showing a hot air movement path of the heat treatment apparatus according to the present invention, and FIG. 10 is a block diagram of the present invention.

In one aspect, the present invention provides a heat treatment apparatus for heat-treating a display panel, the apparatus comprising: a main body including an inner chamber and an outer chamber surrounding the inner chamber, the inner chamber including a heat treatment unit in which a display panel is installed in a layer; Wherein a heater is installed inside a supply duct vertically installed on a bottom surface of the main body to supply hot air to the inside of the inner chamber through a hot air flow path provided between the inner chamber and the outer chamber, An air circulation unit that recovers air that has passed through the heat treatment unit and reheats it in the heater to be supplied to the inner chamber again; And a temperature control unit installed in the supply duct in a retractable manner to automatically lower the temperature of the recovered air to the inner chamber when the inner temperature of the inner chamber is higher than the heat treatment temperature.

According to still another aspect of the present invention, there is provided a method of heat treating a flat panel display panel, comprising: opening a front opening of a main body to charge a display panel into a partition; Closing the opening, activating the blower fan and the heater to raise the temperature of the hot air to a heat treatment temperature; When the hot air reaches the heat treatment temperature, suspending the operation of the heater and the blower fan or maintaining the temperature of the hot air by lowering the temperature of the heater; And a heat treatment unit for continuously supplying hot air to the heat treatment unit, wherein when the temperature of the hot air is higher than the heat treatment temperature of the hot air, the air recovered in the stopped state of the heater is heat- Thereby maintaining the temperature of the flat display panel.

The heat treatment apparatus 10 according to the present invention includes a main body 100 to which heat treatment is applied, a support frame 20 for positioning the main body 100 at a predetermined height, A shutter 30 for loading a panel (hereinafter abbreviated as a panel), a heat processing unit 200 installed inside the main body 100, and hot or cold air to a panel mounted on the heat processing unit 200 , And an air circulating unit (300) for recovering and recirculating the air.

Frames and shutters

The frame 20 for positioning the main body 100 at a predetermined height according to the present invention is formed in the form of a rectangular support frame and is configured to seat the main body 100 on the upper surface thereof. Shaped steel.

Here, the frame 20 is positioned at a predetermined height so as to facilitate the convenience of the operator, and to allow the supply duct of the air circulation unit, which will be described later, to be connected and installed.

The shutter 30 closes or opens the opening 102 provided on the front surface of the main body 100 so that the panel is loaded into the heat treatment unit 200. When the opening and closing door 32 is opened And has a driver 34 at an upper portion thereof.

The driving unit 34 includes a screw 36 connected to the motor M vertically installed inside the post 40 erected at both sides of the main body 100 and connected to the lifting frame 38 The lifting frame 38 is moved up and down together with the rotation of the screw 36 so that the lifting frame 38 is connected to the opening and closing door 32 so that the lifting and lowering frame 38 moves up and down simultaneously.

Of course, the rotating shaft is extended to both sides of the motor M, and a transmission portion 36a such as a bevel gear box is provided between the rotating shaft and the upper end of the screw to transmit the rotational force of the motor at an angle of 90 degrees, .

In the main body 100,

The main body 100 is composed of a double wall body, and is composed of an inner chamber 120 having an enclosure shape and an outer chamber 140 surrounding the inner chamber. Between the inner and outer chambers 120 and 140, there is provided a hot air movement path 310 through which air or hot air moves. The hot air movement path 310 will be described later.

The inner chamber 120 and the outer chamber 140 are connected to each other by a bracket 160 as shown in the figure so as to be spaced apart from each other so as to provide a hot air flow path and the inner chamber 120 is provided with a heat treatment unit 200) is installed so that the panel can be loaded.

The outer chamber 140 includes at least four or more layers, preferably six layers of heat insulating material, so as not to lower the temperature of supplied hot air as well as the internal heat of the inner chamber during the heat treatment process.

The six-ply wall constituting the outer chamber 140 is made of a heat insulating material. The heat insulating material may be selected from a variety of materials such as a board, a heat reflecting material, EPS, glass wool, polyethylene, stone, synthetic resin, And is installed in a tightly sealed state.

The heat-

The heat treatment unit 200 includes a vertical frame 220, a spacing member 240, a horizontal frame (not shown), and a plurality of panels, each of which is formed as a separate layer inside the inner chamber 120 and is heat- 260 and a seat pin 280. [

The vertical frame 220 is formed at an upper portion from the bottom of the inner chamber 120. The vertical frame 220 includes a plurality of vertical frames 220 disposed at equal intervals on both side edges of the inner chamber 120.

The horizontal frame 260 is fixed to the gap adjusting member 240 at opposite ends thereof across the vertical frame 220 that is erected on both sides of the inner chamber, And this gap adjusting member is fixed to the vertical frame 220. [

In other words, the vertical frame 220 is provided with a plurality of spacing adjusting members 240 at equal intervals in the longitudinal direction. The spacing adjusting member 240 includes vertical And is provided with a groove portion and a cut portion formed on the opposite side to which the horizontal frame 260 is connected to the vertical groove portion so as to be opened or closed. The cut portion and the vertical groove portion are loosely fitted to the vertical frame 220 In the state where the incision is made. In this case, the incision part is dismantled by fastening the bolt, and when the bolt is unscrewed, it can be adjusted up and down.

Of course, it is a matter of course that such a configuration is one practical example, and a horizontal frame can be integrally or integrally welded to a vertical frame.

The horizontal frame 260 is composed of upper and lower frames 262 and 264 as shown in the figure. The upper frame and the lower frame are spaced from each other so that the mounting pins 280 can be stably installed.

The mounting pin 280 is mounted on a top surface of the mounting pin 280. The mounting pin 280 includes a support base 282 installed to pass through the upper and lower frames 262 and 264 constituting the horizontal frame 260, (284).

The air circulation unit (300)

The air circulation unit 300, which is a characteristic feature of the present invention, supplies hot air heated by the heater 320, recovers the hot air, supplies the reheated hot air, and controls the hot air temperature.

The air circulation unit 300 of the present invention includes a hot air movement path 310 provided between the inner chamber 120 and the outer chamber 140 of the main body 100, A heater 320 installed in the supply duct 302 and a temperature control unit 360 and a recirculation duct 340 for recirculating the air passing through the heat treatment unit.

The hot air movement path 310 is constituted by an inflow path 312 provided at the bottom of the main body 100 and a side path 314 provided at the side surface as shown in the figure, And are provided on at least three sides, preferably four sides, when viewed in a plan view, so as to communicate with each other to supply hot air.

In another embodiment, the hot air movement path may be provided on the upper side of the main body as the case may be.

The hot air supplied to the hot air movement path 310 is supplied through the filter 400 installed on the wall surface of the inner chamber 120. The hot air thus supplied circulates through the interior of the inner chamber 120 and passes through the recirculation duct 340.

The supply duct 302 is vertically installed on the bottom surface of the main body 100 so that its upper end is connected to the inflow path 312. An air dispersion unit 304 is provided directly above the supply duct, So that it can be refracted and dispersed. Here, the air dispersing unit 304 is configured in a conical shape so that the supplied hot air is refracted to the left or right or front and back.
In the present invention, the supply duct 302 is not necessarily installed at the bottom of the main body 100. Depending on the environment, it may be selectively installed on the side portion, the upper portion, the front portion, and the rear portion of the main body 100, and accordingly, the position of the inflow path also changes.

The heater 320 and the temperature control unit 360 installed in the supply duct 302 are arranged vertically and the temperature control unit 360 is configured in a retractable manner.

The heater 320 uses electricity, gas, hot water or the like as a heat source, and heats the passing air to supply hot air.

The temperature control unit (360)

The temperature control unit 360, which is another feature of the present invention, is operated by a control unit 500, which will be described later, in which the supplied hot air and the internal temperature of the inner chamber 120 are higher than a predetermined heat treatment temperature. The temperature control unit 360 operates the moving unit 380 to move the temperature control unit 360 so that the temperature control unit 360 is fitted into the supply duct 302 and then the blowing fan 306 is operated to move the inner chamber 120, The cooling air that has been heat-exchanged, that is, the cooled air is supplied to adjust the temperature in a short period of time to improve the productivity.
Another role of the temperature control unit 360 is to facilitate the drawing of the panel after the heat treatment.
That is, even when the heat treatment is completed, the inside of the inner chamber 120 maintains a high temperature, and it is difficult for the operator to take out the heat-treated panel. Accordingly, the present invention uses the temperature control unit 360. That is, the air is sucked into the supply duct through the moving unit 380, which will be described later, and then the air inside the inner chamber is recovered through the blowing fan in the state where the heater is stopped and supplied to the temperature control unit 360, The air is heat-exchanged to lower the temperature, and this air is supplied to the inner chamber, whereby the inner temperature of the inner chamber is rapidly lowered, and the panel subjected to the heat treatment can be quickly drawn out.

The temperature control unit 360 according to the present invention may be configured as a heat exchanger including a sensible heat type in which a sensible heat filter is incorporated, a refrigerant type in which a refrigerant pipe is arranged, a water-cooled type in which water is sprayed, or an air- Cooling is also possible.

Mobile unit 380,

The moving unit 380 for moving the temperature adjusting unit 360 inward or outward of the supply duct 302 includes a motor 382 and a rotating screw 384, a guide member 386, 388).

First, the motor 382 is a forward and reverse rotation motor, and the motor shaft and the rotation screw 384 are directly connected to rotate with the motor. The end of the rotation screw 384 is screwed to the side of the temperature adjustment unit 360 So that the temperature adjusting unit 360 moves along the rotating screw simultaneously with the rotation of the rotating screw.

The guide member 386 guides the temperature adjusting unit 360 to move in the right position and is configured in the form of a rod or a thin steel plate and moves together with the temperature adjusting unit 360.

The guide table 388 is configured to support the bottom surface of the temperature control unit 360 and serves as a guide rail for allowing the temperature control unit 360 to move from its upper surface.

The guide table 388 extends to the outer surface of the supply duct 302 to allow the temperature control unit 360 to completely escape from the supply duct 302. It goes without saying that the motor 382 and the rotary screw 384 are also located on the upper side of the guide table 388.

In another embodiment of the mobile unit 380, a cylinder may be used. And the piston of the cylinder is connected to the temperature control unit 360 to horizontally move the piston.

In another form, rack gears and pinion gears may be used. The rack gear is mounted on the side surface of the temperature control unit 360 and the pinion gear is connected to the motor and the motor is rotated in the forward and reverse directions while the pinion gear and the rack gear are meshed.
In addition, the mobile unit of the present invention may move the temperature control unit using a hoist-gear transmission such as a chain or a belt.

The recirculation duct 340,

The recirculation duct 340 according to the present invention is installed inside the outer chamber 140 as shown in FIG. As shown in the drawing, the recirculation duct 340 is constructed such that the outer surface thereof is vertical and the inner surface facing the inner chamber is formed in a stepped shape, that is, a stepped shape, and the width gradually decreases toward the upper portion.

In other words, such a configuration makes the upper side width of the recirculation duct 340 remote from the blowing fan 306 narrow, so that the air moving speed is made faster than the wide side, so that the same amount of exhaust .

An exhaust port 342 is formed on the inner surface of the recirculation duct 340 at equal intervals and connected to the inner chamber 120. The exhaust ports 342 disposed on the left and right sides are provided in a staggered manner.

For example, when the left exhaust port 342 is located on the upper side of the panel, the exhaust port 342 located on the right side is positioned below the panel, so that the hot air flows out from the upper and lower portions of the panel. (See Figure 9 attached)

In the present invention, it is possible to supply uniform hot air to the entire panel as compared with the conventional simple air flow which flows through one side wall and escapes from the opposite side wall.

That is, the hot air supplied from at least two surfaces flows to the recirculation duct 340 installed at the center of the side of the main body, so that hot air is supplied to the edge of the panel as well as to the center, And the upper and lower airflows are staggered from each other, so that the entire temperature of the inner chamber 120 can be maintained uniformly.

On the other hand, the blowing fan 306 is located at the lower center of the supply duct 302, and circulates the air passing through the recirculating duct frame to reheat or cool.

The filter 400 is a metal filter, and a plurality of filters are disposed at equal intervals on the wall surface of the inner chamber as shown in the drawing. Of course, the filter can be selected in various forms such as a metal sintering or powder sintering filter, a mesh filter and the like, and the tube or the bolt is fixed to the inner chamber 120 and is located on the front side thereof.
In the present invention, a filter may not be provided. In this case, a plurality of inlets, for example, holes or slit-shaped inlets, may be formed at equal intervals on the wall surface of the inner chamber to allow hot air to flow therethrough.

The control unit 500,

Another feature of the present invention is that the control unit 500 is provided.

The control unit 500 controls the blower fan 306, the heater 320 and the moving unit 380 and also controls the shutter 30 and controls the temperature control unit 360 according to the type of the heat exchanger can do.

The controller 500 of the present invention controls the motor M of the shutter 30 to automatically open and close the opening and closing door 32 so that the panel can be placed on the upper surface of the seating pin 280 of the heat processing unit 200 After the panel is charged, the motor M is reversely rotated to move the opening / closing door backward, thereby closing the opening portion 102 of the main body so as to perform heat treatment.

The controller 500 operates the air blower fan 306 and the heater 320 to heat the air and supply the heated air to the inner chamber 120. The temperature of the hot air and the inner temperature of the inner chamber When the temperature for the heat treatment is reached, the operation of the blower fan 306 and the heater 320 is stopped or the temperature of the heater is lowered to maintain the heat treatment temperature.

At this time, the controller 500 controls the blower fan and the heater by comparing the measured temperature input from the temperature sensor 520 installed in the inner chamber 120 with the pre-input reference temperature.

When the heat treatment temperature is higher than the reference temperature, the control unit 500 operates the temperature control unit 360 and the movement unit 380 to adjust the heat treatment temperature.

Hereinafter, the operation of the present invention will be described in detail.

The heat treatment apparatus 10 according to the present invention moves the opening and closing door 32 provided in the front opening portion 102 of the main body 100 through the rotation of the motor M so that the panel is heated by the heat treatment unit 200, So that it is seated on the upper surface of the seat pin 280.

At this time, the mounting pin 280 prevents the panel from being damaged by the elastic force of the receiving portion 284, and the receiving portion is formed in a semicircular shape as shown in the drawing, so that the panel is seated in a point contact manner, thereby minimizing contamination.

When the panel is placed on the upper part of the multi-layered mounting pin 280, the controller 400 reversely rotates the motor M to close the opening part 102.

When the opening and closing door 32 is closed, the controller 400 operates the heater 320 first to preheat the air. When the temperature of the heater 320 rises, the air blowing fan 306 is operated to blow air.

The forced air is heated by passing through the heater 320, and the heated hot air flows into the inflow path 312 through the supply duct 302.

At this time, the temperature control unit 360 installed in the supply duct 302 is smoothly supplied with hot air while being out of the supply duct 302.

The hot air reaching the inflow path 312 is refracted by the cone-shaped air dispersing unit 304 and refracted to the left, right, front and rear sides to move to the vertical path 314 provided on each of the four sides of the main body, 400 are supplied to the inner chamber 120 in a state where the foreign substances are filtered to heat the panel charged in the heat treatment unit 200.

After heating the panel, the hot air exits through the recirculation duct 340, where the present invention is discharged in a staggered direction as shown in the drawing. That is, when the hot air on the upper side of the panel escapes to the exhaust port 342 of the recirculation duct 340 installed on the left side, the hot air on the lower side of the panel escapes to the exhaust port of the recirculation duct 340 installed on the right side, They are uniformly conveyed in a non-overlapping state and heated.

Further, since the recirculation duct 340 of the present invention is located at the center, the edge of the panel is heated at the edge of the panel by the hot air flowing in from the side, and the hottest state is concentrated at the center, You can. Of course, the same effect can be obtained when the panel is dried.

The air that has passed through the recirculation duct 340 is again reheated and supplied by the heater 320, so that the heat treatment temperature can be quickly reached in this configuration.

When the temperature inside the inner chamber 120 and the hot air temperature reach the heat treatment temperature, the controller 500 may lower the temperature of the heater 320 or suspend the operation of the blower fan.

In other words, the controller 500 compares the measured temperature continuously inputted by the temperature sensor 520 installed in the inner chamber 120 with a predetermined reference temperature. When the measured temperature reaches the set range, the controller 500 controls the blower fan 306 and the heater (320). Of course, it is natural to raise the temperature of the heater again when the temperature drops.

In another practical example, when the internal temperature of the inner chamber 120 is higher than the set temperature required for the heat treatment, the control unit 500 operates the mobile unit 380.

The control unit 500 operates the motor 382 of the moving unit 380 to rotate the rotating screw 384 connected to the motor 382 and at the same time, The adjustment unit 360 is fitted into the inside of the supply duct 302.

The control unit 500 stops the operation of the heater 320 and operates the blowing fan 306 to forcibly circulate the air in the inner chamber 120 to the temperature control unit 360 so that the temperature is controlled by flowing the cooling or heat away from the inner chamber 120 through the heat exchange.

The present invention can quickly cope with a temperature change through a temperature control unit 360 which is automatically stored. In particular, by controlling the temperature of the inner chamber in a short time, productivity is improved and at the same time, It is.

When the heat treatment temperature is adjusted by supplying the temperature-controlled air, the control unit 500 again outputs the reverse rotation signal of the motor 382 of the mobile unit 380 to rotate the rotary screw 384, 360 from the supply duct 302 to enable normal air circulation again.

In addition, the present invention can improve the working efficiency by quickly pulling out the heat-treated panel after the heat treatment.
In other words, even after the heat treatment is completed, the internal temperature of the inner chamber 120 is so hot that the operator can not remove the panel. Accordingly, the present invention stops the operation of the heater at the end of the heat treatment and moves the temperature control unit 360 so that the air in the inner chamber recovered through the blowing fan is heat-exchanged in the temperature control unit.
The temperature of the heat exchanged air is lowered and the low temperature air is supplied to the inner chamber so that the panel is taken out by rapidly lowering the internal temperature of the inner chamber in a short time, thereby shortening the working time, And it is possible to greatly improve the working efficiency.

As described above, those skilled in the art will understand that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the embodiments described above are all illustrative and not restrictive. The scope of the present invention should be construed as being included in the scope of the present invention without departing from the scope of the present invention.

10: heat treatment apparatus 100:
120. 140: inner chamber, outer chamber 200: heat treatment unit
300: air circulation unit 302: supply duct
304: air dispersion unit 310: hot air movement path
320: heater 340: recirculating duct
360: temperature control unit 380: mobile unit

Claims (8)

As a heat treatment apparatus for heat-treating a display panel,
A main body including an inner chamber and an outer chamber surrounding the inner chamber, the inner chamber having a heat treatment unit in which a display panel is installed in a layered manner;
A heater is installed in a supply duct connected to the main body to supply hot air and the hot air is supplied to the inside of the inner chamber through a hot air flow path provided between the inner chamber and the outer chamber, An air circulating unit for allowing the heater to reheat the air and supplying the reheated air to the inner chamber again;
And the temperature of the air recovered from the inner chamber is lowered through heat exchange by being automatically inserted into the supply duct when the inner temperature of the inner chamber is higher than the heat treatment temperature immediately after the heat treatment is completed or during the heat treatment process, A temperature regulating unit for allowing the low temperature air to be supplied to the inner chamber; And a heating unit for heating the flat display panel.
The method according to claim 1,
Wherein the air circulation unit is provided between an inner chamber and an outer chamber of the main body, the supply duct being connected to the inflow path through which the hot air flows, and a vertical path formed by the front and rear sides and the side surface, And at least two of the planar display panels are provided.
The method according to claim 1,
And a plurality of filters are installed at equal intervals on the wall surface of the inner chamber to filter and blow the blown hot air.
The method according to claim 1,
A recirculating duct disposed inside the outer chamber on each of the left and right sides of the main body, the exhaust ports extending to communicate with the inner chamber, and the exhaust port of the one recirculating duct being installed in the heat- And the opposing side exhaust port is located at a lower side of the panel.
The method according to claim 1,
Wherein the temperature adjusting unit is horizontally moved by the moving unit and is configured to be retracted into or out of the supply duct.
6. The method of claim 5,
The moving unit has a configuration in which the end of a rotating screw connected to a motor is connected to a side surface of the temperature adjusting unit in a screw-
And rotating the motor such that when the rotating screw rotates, the temperature adjusting unit moves along the rotating screw.
6. The method of claim 5,
Wherein the moving unit comprises a cylinder, the piston of the cylinder pushing or pulling the temperature control unit.
As a method of heat-treating a flat display panel,
Opening the front open portion of the main body to load the flat display panel into the laminate;
Closing the opening, activating the blower fan and the heater to raise the temperature of the hot air to a heat treatment temperature;
When the hot air reaches the heat treatment temperature, suspending the operation of the heater and the blower fan or maintaining the temperature of the hot air by lowering the temperature of the heater;
Continuously supplying hot air to heat treatment;
If the temperature of the hot air is higher than the heat treatment temperature of the hot air, the recovered air in the stopped state is heat-exchanged in the temperature control unit so that the temperature is lowered to maintain the heat treatment temperature; And
When the heat treatment is completed, the operation of the heater is stopped, and the internal air of the main body recovered by the blowing fan is supplied to the main body in a state where the temperature is lowered by the temperature control unit, And allowing the substrate to be drawn out easily.

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