KR19990030250A - Heat treatment device for sheet metal work - Google Patents

Abstract

In the lower part of the heat transfer plate for transferring heat to a thin-shaped workpiece, a plurality of parte elements are arranged through an electric heater and a cooling unit is arranged.

Description

Heat treatment device for sheet metal work

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat treatment apparatus for performing heat treatment on a thin plate-like workpiece such as a semiconductor wafer, an optical disk substrate, or a liquid crystal display substrate.

The present applicant first proposed a heat treatment apparatus in accordance with Japanese Patent Application No. 9-140492, in which a plate-shaped workpiece is heated by using a parte element.

As shown in FIG. 4, the heat treatment apparatus includes a plurality of auxiliary heating partes 22 and a main heating unit at a lower portion of the heat transfer plate 21 for placing the work W thereon. The means 23 and the cooling means 25 located through the heat exchange part 24 are provided in this order. In addition, when heating the work W supported by the small gap on the heat transfer plate 21, the heat from the main heating means 23 is transferred to the heat transfer plate 21 through the parte element 22. The workpiece W is heated to a predetermined temperature by radiant heat in the heat transfer surface 21a. When the temperature of the work W is reduced (cooled), the heat of the heat transfer plate 21 is transferred from the parte element 22 to the main heating means 23 and the parte element 24 for heat exchange. It is to move to the cooling means 25 via).

Thus, the heat treatment apparatus using the parte element has the advantage that the processing efficiency is excellent because the heat transfer during the heating and cooling can be performed quickly. However, in the case of assembling and attaching the plurality of parte elements 22 to the heat transfer plate 21, the parte elements 22 may be completely removed in accordance with limitations or practical problems due to the shape and size of the parte elements 22, and the like. It is difficult to fill in airtight so that there is no gap, and formation of a gap mutually cannot be avoided. Therefore, it is difficult to make the temperature distribution of the heat transfer plate 21 completely uniform, so that a slight temperature difference is likely to occur between the part where the parte element 22 is present and the part where the part is not. In the normal heat treatment, such a temperature difference does not cause such a problem, but depending on the type of the workpiece, a precise heat treatment may be required. In such a case, it is preferable that the temperature difference is uniform so that there is no temperature difference. .

The main technical problem of the present invention is to provide a heat treatment apparatus having a good heating precision, which can reliably uniformize the temperature distribution of the heat transfer plate when heat-treating a workpiece by a simple structure.

Another technical problem of the present invention is to improve the heating and cooling efficiency of a workpiece by allowing the temperature of the heat transfer plate to be moved up and down quickly in the heat treatment apparatus.

MEANS TO SOLVE THE PROBLEM In order to solve the said subject, according to this invention, the heat processing which assembles and attaches a some parte element and a cooling part to the lower part of the heat-transfer plate provided in the upper surface with the heat-transfer surface for heat transfer to a workpiece through an electric heater. An apparatus is provided. The electric heater is provided to evenly heat the entire heat transfer surface of the heat transfer plate.

According to the heat treatment apparatus having the above-described structure, the electric heater is interposed between the plurality of parte elements and the heat transfer plate, and when the heat treatment of the work is performed, the parte elements and the electric heater are used together to heat the heat transfer plate. Therefore, the above-described electric heater compensates for the difference in temperature between the heat transfer plate in the part where the parte element is present and the part that does not exist, and makes it possible to substantially uniform the temperature distribution of the entire heat transfer surface in the heat transfer plate. have. In addition, since the temperature of the heat transfer plate can be easily adjusted by increasing or decreasing the amount of current supplied to the parte element, the temperature setting and adjustment of the heat transfer plate are easy.

When the workpiece is cooled, the electric heater is turned off and a direct current flows in the reverse direction to the parte element, so that the heat transfer plate side of the parte element becomes the cooling side. The heat is transferred to the cooling unit through the parte element, and the temperature of the heat transfer plate is rapidly lowered.

Therefore, when the temperature of the workpiece is higher than the set temperature of the heat transfer plate or when the workpiece heated by the heat transfer plate is cooled, the electricity supply to the electric heater is cut off as described above, and the plurality of parte elements By reversing the energization direction, the heat transfer plate is cooled by the parte element, so that the temperature of the heat transfer plate can be lowered quickly.

In addition, since the heating side of the parte element is radiated by the cooling unit, the cooling efficiency of the parte element is increased.

According to a specific embodiment of the present invention, the electric heater is formed in a sheet shape having a size corresponding to the entire heat transfer surface of the heat transfer plate by embedding a heating element in an outer shell having heat resistance, heat resistance, and electrical insulation. have.

According to another specific embodiment of the present invention, an intermediate plate made of a material having good heat conductivity is provided between the electric heater and the parte element so as to cover the entire electric heater. The intermediate plate is a means for pressing and supporting the electric heater and a means for diffusing heat from the plurality of parte elements and transmitting the same evenly to the entire heat transfer plate, with the intermediate plate sandwiched therebetween. As a result, the temperature distribution of the heat transfer plate can be realized more reliably.

In the present invention, the parte elements described above can be provided in a plurality in the thickness direction.

According to a specific embodiment of the present invention, the heat treatment apparatus detects the temperature of the heat transfer plate and outputs a signal to the electric heater and the parte element by the output signal of the temperature sensor. It is provided with the controller which controls an electricity supply.

1 is a cross-sectional view showing one embodiment of a heat treatment apparatus according to the present invention.

2 is a rear view of the electric heater attached to the heat transfer plate.

3 is a plan view showing an excretion state of the parte element.

4 is a cross-sectional view of a previously proposed heat treatment apparatus.

1 shows a representative embodiment of a heat treatment apparatus according to the present invention. This heat treatment apparatus 1 includes a heat transfer plate 2 having a heat transfer surface 2a for transferring heat to a thin plate-shaped workpiece W, and a heat transfer surface (described above at a lower portion of the heat transfer plate 2). 2a) The electric heater 3 provided so that the whole can be heated evenly, the intermediate plate 4 provided in the lower part of the electric heater 3, and the intermediate plate 4 in the lower part of the intermediate plate 4 And a plurality of parte elements 5 installed side by side so as to be able to heat the heat transfer plate 2 through the electric heater 3, and a cooling part 6 provided under the parte element 5; have.

The heat transfer plate 2 is placed on the work W and heated and / or cooled to a predetermined set temperature, and has a circular shape with a diameter slightly larger than the work W being laid (for example, 200 to 300 mm). As shown in FIG. 2, an edge 2b is formed on the outer periphery of the lower surface so as to surround the electric heater 3. The inner diameter of this edge 2b is slightly larger than the outer diameter of the work W. FIG.

The electric heater 3 is formed in a thin sheet shape by embedding a heating element in a shell having heat resistance, heat transfer, and electrical insulation, and at the same time corresponds to the entire heat transfer surface 2a of the heat transfer plate 2. It is formed to form a circle. The heating element is formed by cutting a thin metal piece made of a material that generates heat by electric resistance in a predetermined pattern, or by bending a linear material in a predetermined pattern. The outer shell is formed of silicone rubber or the like.

In addition, the intermediate plate 4 is equally transmitted to the entire heat transfer plate 2 by diffusing heat from the means for pressing and supporting the electric heater 3 and the plurality of parte elements 5. It combines a means for forming, and is formed of a material with good heat conductivity, such as aluminum and copper, and is provided so that the said electric heater 3 whole may be covered. The thickness of the intermediate plate 4 may be, for example, about 5 mm.

As shown in Fig. 3, the parte element 5 is arranged in a radial state at equal angle intervals around the center of the heat transfer plate 2 described above. In addition, in order to ensure the temperature difference between the upper and lower surfaces, this part 5 is preferably piled up and installed as shown in the figure.

The cooling unit 6 includes a cooling fluid passage 6a for flowing cooling water, which is connected to a cooling supply source.

The heat treatment apparatus 1 described above is further provided with a temperature sensor 8 for detecting the temperature of the heat transfer plate 2 and outputting a signal, and a controller 9. The controller 9 controls the amount of electricity supplied to the electric heater 3 and each part 5 by the output signal of the temperature sensor 8, thereby adjusting the temperature of the heat transfer plate 2, An AC current is supplied to the electric heater 3 and a DC current is supplied to the parte element 5. In addition, the flow direction of the direct current supplied to the part 5 is changed.

In the above heat transfer plate 2, a spacer 10 having a spherical tip for supporting the workpiece W to be heat-treated in a state where a small gap is maintained between the heat transfer surface 2a is formed in an equilateral triangle. Are installed. These spacers 10 are able to ascend to a position protruding further upward than the positions shown by suitable lifting means (not shown).

By providing such a spacer 10, since a small gap is formed between the upper surface of the heat transfer plate 2 and the work W, the amount of heat transfer to the work W is slightly reduced, but the work W is caused by this gap. Heating or cooling can be made more uniform.

In the heat treatment apparatus having the above-described configuration, when the workpiece W is heated, a direct current in the direction in which the heat transfer plate 2 side becomes the heating side flows to the parte element 5 and the electric heater ( 3) flows an alternating current. Thereby, the heat transfer plate 2 is heated by the electric heater 3 and the parte element 5 mentioned above, and the workpiece | work W on the heat transfer surface 2a is heated uniformly. In this case, appropriate cooling water flows through the cooling fluid passage 6a of the cooling unit 6.

The temperature of the heat transfer plate 2 is precisely controlled by the controller 9 adjusting the amount of current supplied to the electric heater 3 and the part 5 by the signal output from the temperature sensor 8. do.

In this way, the above-mentioned electric heater 3 is disposed on the heat transfer plate 2 side rather than the parte element 5, and the parte 5 is provided outside the electric heater 3, thereby providing the above-mentioned electric heater. The heat transfer plate 2 is directly heated by (3), so that a difference in temperature is prevented from occurring in the heat transfer plate 2 in a portion where the parte element 5 is present and in a non-existent portion. The temperature distribution of the whole heat transfer surface 2a in the plate 2 can be reliably uniformized. In addition, since the heat from the plurality of parte elements 5 described above is diffused by the intermediate plate 4 and is evenly transmitted to the entire heat transfer plate 2, the temperature distribution of the heat transfer plate 2 is thereby also reduced. Uniformity is further promoted.

In addition, since the temperature of the heat transfer plate 2 can be easily adjusted in accordance with the increase or decrease in the amount of current supplied to the parte element 5, the temperature setting and adjustment of the heat transfer plate 2 are easy.

When adjusting the heating temperature of the workpiece | work W low, what is necessary is just to flow a current in a reverse direction to the said parte element 5, and the heat transfer plate 2 side of the parte element 5 becomes a cooling side by this. The temperature of the heat transfer plate 2 can be lowered.

In addition, when cooling the workpiece | work W which was heat-processed, the electric heater 3 is turned off and a current of reverse direction is made to flow to the said parte element 5 as mentioned above. Since the heat transfer plate 2 side of the parte element 5 becomes the cooling side, the heat of the heat transfer plate 2 moves to the cooling unit 6 through the parte element 5, and the heat transfer plate ( The temperature of 2) decreases quickly.

Therefore, when the temperature of the work W is higher than the set temperature of the heat transfer plate 2 or when the work W heated by the heat transfer plate 2 is cooled, as described above, the electric heater ( The power supply to 3) may be interrupted and the operation of reversing the direction of energization to the plurality of parte elements 5 may be performed.

In this case, since the heating side of the parte element 5 is radiated by the cooling part 6, the cooling efficiency by the parte element 5 becomes high.

According to the heat treatment apparatus having the above-described structure, the electric heater is interposed between the plurality of parte elements and the heat transfer plate, and when the heat treatment of the work is performed, the parte elements and the electric heater are used together to heat the heat transfer plate. Therefore, the above-described electric heater compensates for the difference in temperature between the heat transfer plate in the part where the parte element is present and the part that does not exist, and makes it possible to substantially uniform the temperature distribution of the entire heat transfer surface in the heat transfer plate. have. In addition, since the temperature of the heat transfer plate can be easily adjusted by increasing or decreasing the amount of current supplied to the parte element, the temperature setting and adjustment of the heat transfer plate are easy.

When the workpiece is cooled, the electric heater is turned off and a direct current flows in the reverse direction to the parte element, so that the heat transfer plate side of the parte element becomes the cooling side. The heat is transferred to the cooling unit through the parte element, and the temperature of the heat transfer plate is rapidly lowered.

Therefore, when the temperature of the workpiece is higher than the set temperature of the heat transfer plate or when the workpiece heated by the heat transfer plate is cooled, the electricity supply to the electric heater is cut off as described above, and the plurality of parte elements By reversing the energization direction, the heat transfer plate is cooled by the parte element, so that the temperature of the heat transfer plate can be lowered quickly.

In addition, since the heating side of the parte element is radiated by the cooling unit, the cooling efficiency of the parte element is increased.

Claims (5)

A heat transfer plate having a heat transfer surface on the top surface for transferring heat to the thin-shaped workpiece, An electric heater installed at a lower portion of the heat transfer plate so that the entire heat transfer surface can be heated evenly; A plurality of parte elements installed in a lower portion of the electric heater so as to be able to heat the heat transfer plate through the electric heater; And a cooling unit provided below the parte element. The electric heater according to claim 1, wherein the electric heater is formed in a sheet shape by embedding a heating element in an outer shell having heat resistance, heat resistance, and electrical insulation, and is formed in a size corresponding to the entire heat transfer surface of the heat transfer plate. Heat treatment apparatus for a thin plate-shaped workpiece, characterized in that. 3. An intermediate plate made of a material having good heat conductivity is disposed between the electric heater and the parte element so as to cover the entire electric heater, and the intermediate plate presses and supports the electric heater. And a means for diffusing heat from the plurality of parte elements and transmitting the same evenly to the entire heat transfer plate. 2. The apparatus for heat treatment of a thin plate-shaped workpiece according to claim 1, wherein the parte elements are provided in plural in the thickness direction. The heat treatment apparatus according to claim 1, wherein the heat treatment apparatus controls the energization of the electric heater and the parte element according to the temperature sensor which detects the temperature of the heat transfer plate and outputs a signal, and the output signal of the temperature sensor. A heat treatment apparatus for a thin plate-shaped workpiece, comprising a controller.