KR19980029609U - Constant temperature water circulation system - Google Patents

Abstract

The present invention relates to a constant temperature water circulation device of a semiconductor manufacturing apparatus, and detects the temperature of the constant temperature water discharged from the manufacturing apparatus and circulated to the heat exchanger to control the heat exchanger to close the temperature of the constant temperature water to the temperature required by the manufacturing apparatus. The present invention relates to a constant temperature water circulation device that can be controlled in a controlled manner, and that a flow rate sensor is installed between the heat exchange device and the manufacturing device so that an accurate amount of water is supplied.

Description

Constant temperature water circulation system

1 is a view showing a conventional constant temperature water circulation device.

2 is a view showing a constant temperature water circulation device of the present invention.

* Description of the symbols for the main parts of the drawings *

100, 200: heat exchange device 110, 210: temperature control device

120, 220: heating device 121, 221: cooling device

130, 280: temperature detection sensor 140, 240: pump

150, 250: constant temperature water storage tank 160, 260: manufacturing apparatus

270: flow detection sensor

The present invention relates to a constant temperature water circulation device of a semiconductor manufacturing apparatus, and in particular, by detecting the temperature of the constant temperature water discharged from the manufacturing apparatus and circulated to the heat exchange apparatus to control the heat exchange apparatus to adjust the temperature of the constant temperature water in the manufacturing apparatus. The present invention relates to a constant temperature water circulation device which can be controlled in close proximity to the heat exchanger and a flow rate sensor between the heat exchanger and the manufacturing device so that an accurate amount of water is supplied.

The configuration of a general constant temperature water circulation device will be described with reference to FIG.

1 is a view showing a conventional constant temperature water circulation device.

As shown in FIG. 1, the heat exchange apparatus 100 is configured to provide a constant temperature water supply pipe to supply constant temperature water required for the manufacturing apparatus.

As such, the extended portion of the constant temperature water supply pipe is connected to the manufacturing apparatus 160 to perform a predetermined role in the manufacturing apparatus 160 and then circulate back to the heat exchange apparatus 100.

The constant temperature water supply pipe is installed in the constant temperature water storage tank 150 to supply constant temperature water, and is configured to generate a flow of constant temperature water stored in the constant temperature water storage tank 150 through the pump 140.

A portion installed in the heat exchange device 100 of the constant temperature water supply pipe is provided with a heating device 120 for increasing the temperature of the constant temperature water supplied, and the cooling device 121 for preventing overheating is installed in the heating device 120 to provide cooling water. Cooling water is supplied through the supply pipe to dissipate heat.

The temperature detecting sensor 130 is installed in the constant temperature water supply pipe passing through the heating device 120 to detect the temperature of the constant temperature water supplied to the manufacturing apparatus.

The heating device 120 and the temperature detection sensor 130 are connected to the temperature control device 110 to control the operation of the heating device 120 according to the temperature of the constant temperature water detected by the temperature detection sensor 130. Is done.

Referring to the operation of the conventional constant temperature water circulation device made as follows.

When the process starts, the constant temperature water stored in the constant temperature water storage tank 150 is supplied through the constant temperature water supply pipe by the operation of the pump 140.

The constant temperature water supplied through the constant temperature water supply pipe is heated to a predetermined temperature by the heating apparatus 120 while passing through the portion where the heating apparatus 120 is installed, and then supplied to the manufacturing apparatus 160.

The constant temperature water supplied to the manufacturing apparatus 160 and having a predetermined role is circulated again to the constant temperature water storage tank 150 of the heat exchange apparatus 100.

At this time, the temperature of the constant temperature water is detected through the temperature detection sensor 130 before the constant temperature water heated through the heating device 120 is supplied to the manufacturing apparatus 160, and the information about the detected temperature of the constant temperature water is controlled by the control device ( 110).

When the information about the temperature of the constant temperature water is transmitted, the control device 110 sends a predetermined control signal to the heating device 120 and the cooling device 121 to control the heating and cooling appropriately.

This circulation of constant temperature water continues until a separate operation is made to stop the circulation of constant temperature water from the outside.

However, the circulation operation of the constant temperature water is such that the temperature detection sensor 130 for detecting the temperature of the constant temperature water supplied to the manufacturing apparatus 160 is installed in the heat exchange apparatus 100 so that it is actually supplied to the manufacturing apparatus 160. Constant temperature does not detect temperature.

Therefore, a case in which the temperature of the constant temperature water required by the manufacturing apparatus 160 may not be realized accurately may result in mass defects of the manufactured product.

In addition, even when an abnormality occurs in the flow of the constant temperature water, the operation of the manufacturing apparatus continues to be performed even when the amount of the constant temperature water supplied is reduced, which also causes a mass defect of the product.

Therefore, the present invention detects the temperature of the constant temperature water discharged from the manufacturing apparatus and circulates to the heat exchanger to control the heat exchanger, thereby controlling the temperature of the constant temperature water to be close to the temperature required by the manufacturing apparatus. The purpose is to provide a precise amount of water supply by providing a flow rate detection sensor between the devices.

The present invention for this purpose is to install a temperature sensor in the constant temperature water outlet of the semiconductor manufacturing apparatus to detect the temperature of the constant temperature water discharged from the semiconductor manufacturing apparatus, and the flow rate of the constant temperature water supplied to the semiconductor manufacturing apparatus And a flow rate detection sensor for generating an interlock signal for stopping the operation of the semiconductor manufacturing apparatus when the constant temperature water of the proper flow rate is not supplied.

As described above, an embodiment of the present invention will be described with reference to FIG. 2.

2 is a view showing the constant temperature water circulation device of the present invention.

As shown in FIG. 2, the heat exchange device 200 is provided with a constant temperature water supply pipe for supplying constant temperature water required for the manufacturing apparatus.

In this way, the extended portion of the constant temperature water supply pipe is connected to the manufacturing apparatus 260 to perform a predetermined role in the manufacturing apparatus 260 and then to be circulated back to the heat exchange apparatus 200.

Constant temperature water supply pipe is installed in the constant temperature water storage tank 250 is to be supplied to the constant temperature water, it is made to generate a flow of constant temperature water stored in the constant temperature water storage tank 250 through the pump 240.

A portion installed in the heat exchange device 200 of the constant temperature water supply pipe is provided with a heating device 220 to increase the temperature of the constant temperature water supplied, and the heating device 220 is provided with a cooling device 221 for preventing overheating and cooling water. Cooling water is supplied through the supply pipe to dissipate heat.

The constant temperature water supply pipe of the portion connected to the manufacturing apparatus 260 is configured to detect the amount of constant temperature water supplied to the manufacturing apparatus 260 in which the flow rate detection sensor 270 is installed.

The temperature detecting sensor 280 is installed in the constant temperature water supply pipe passing through the manufacturing apparatus 260 to detect the temperature of the constant temperature water discharged from the manufacturing apparatus 260.

The heating device 220 and the temperature detection sensor 280 are connected to the temperature control device 210 to control the operation of the heating device 220 according to the temperature of the constant temperature water detected by the temperature detection sensor 280. Is done.

Referring to the operation of the present invention configured as described above is as follows.

When the process is started, the constant temperature water stored in the constant temperature water storage tank 250 is supplied through the constant temperature water supply pipe by the operation of the pump 240.

The constant temperature water supplied through the constant temperature water supply pipe is heated to a predetermined temperature by the heating apparatus 220 while passing through the portion where the heating apparatus 220 is installed, and then supplied to the manufacturing apparatus 260.

The constant temperature water supplied to the manufacturing apparatus 260 and having a predetermined role is circulated again to the constant temperature water storage tank 250 of the heat exchanger 200.

In this case, the amount of constant temperature water supplied to the manufacturing apparatus 260 is detected through the flow rate detection sensor 270 installed at the inlet at which the constant temperature water heated by the heating apparatus 220 is supplied to the manufacturing apparatus 260. When the flow rate of the constant temperature water is not appropriate, an operation stop signal (Interlock signal) for stopping the operation of the control device 260 is generated.

In addition, when the temperature of the constant temperature water is detected through the temperature detection sensor 280 installed at the constant temperature water outlet of the manufacturing apparatus 260 and the information about the temperature of the constant temperature water is transmitted to the control device 210, the control device 210 is heated. A predetermined control signal is sent to the device 220 and the cooling device 221 to control for proper heating and cooling.

This circulation of constant temperature water continues until a separate operation is made to stop the circulation of constant temperature water from the outside.

Therefore, the present invention detects the temperature of the constant temperature water discharged from the manufacturing apparatus and circulates to the heat exchanger to control the heat exchanger, thereby controlling the temperature of the constant temperature water to be close to the temperature required by the manufacturing apparatus. The effect of providing a precise amount of water supply is provided by installing a flow rate detection sensor between the devices.

Claims (1)

In the constant temperature water circulation device which always supplies a constant temperature constant temperature water to a semiconductor manufacturing apparatus using a heat exchanger, A temperature sensor installed at a constant temperature water outlet of the semiconductor manufacturing apparatus to detect a temperature of the constant temperature water discharged from the semiconductor manufacturing apparatus; And a flow rate detection sensor for detecting a flow rate of the constant temperature water supplied to the semiconductor manufacturing apparatus and generating an interlock signal for stopping the operation of the semiconductor manufacturing apparatus when the constant temperature water of the proper flow rate is not supplied. .