KR100280011B1 - Bubble separator for manufacturing semiconductor device, liquid supply device using same and driving method thereof - Google Patents

Abstract

The present invention relates to a bubble separator for manufacturing a semiconductor device, a liquid supply device using the same, and a driving method thereof.

The present invention is provided with a liquid container for receiving a liquid flowing from the inlet formed in the side wall and an inner tube which is installed in the liquid container, the lower end of which is located below the vertical position of the inlet so as to be immersed in the received liquid. Characterized in that made.

Therefore, it is possible to suppress the defects caused by the malfunction of the sensing unit and to improve the productivity by supplying the liquid from which the bubbles are separated and removed.

Description

Bubble separator for manufacturing semiconductor device, liquid supply device using same and driving method thereof

The present invention relates to a bubble separator for manufacturing a semiconductor device, a liquid supply device using the same, and a driving method thereof, and more particularly, to a bubble separator for manufacturing a semiconductor device, and a liquid supply device using the same, and driving the same. It is about a method.

In general, in the manufacture of semiconductor devices, various types of liquids, such as deionized water or chemical, are used in each unit process.

Liquids such as deionized water or chemicals used in the manufacture of such semiconductor devices should be purified and used with high purity, and the liquid reservoir that temporarily stores the purified liquid with high purity and supplies it to the manufacturing equipment of the semiconductor device, that is, Supply by using storage tank.

In the manufacture of a conventional semiconductor device, which has been performed on a small scale, the liquid is directly supplied to a manufacturing facility. In the manufacture of a semiconductor device of a large-scale mass production system, a filter or the like is used to filter, or refine, a recent production of a semiconductor device. After the liquid was supplied, the liquid was supplied to the manufacturing facility by a central supply method using the liquid reservoir.

1 is a block diagram showing a conventional liquid supply apparatus for manufacturing a semiconductor device.

First, a liquid container 10 containing a liquid such as deionized water or a chemical is provided, the liquid reservoir 12 receiving and storing the liquid from the liquid container 10, and then supplying the liquid to the manufacturing facility during the process. Is provided.

In addition, a pump 14 for supplying the liquid of the liquid container 10 to the liquid reservoir 12 by performing a pumping operation is provided, and the liquid reservoir 12 using the pump 14 is provided. The filter 16 for filtering the liquid is provided on the line for supplying the liquid.

In addition, there is a detector 18 for detecting the residual amount of liquid in the liquid container 10 by using nitrogen gas (N ₂ Gas), which is the liquid phase of the liquid contained in the liquid container 10 in the nitrogen gas The amount of residual liquid is sensed by releasing it.

The conventional liquid supply device having such a configuration is supplied to the liquid reservoir 12 while filtering the liquid in the liquid container 10 using the filter 16.

Here, the detector 18 detects the residual amount by using nitrogen gas emitted to the liquid level of the liquid.

However, malfunction of the detector 18 frequently occurs due to the flow of a tube provided in the detector 18 that emits nitrogen gas.

Accordingly, the liquid remaining in the liquid container 10 was treated as a waste liquid by detecting that there is no residual amount of the liquid container 10 even though the liquid remains in the liquid container 10, that is, the received state.

In addition, the air is frequently generated when bubbles are included in the liquid due to the generation of bubbles due to the release of the nitrogen gas and the driving of the pump 14.

Accordingly, the life of the filter 16 is shortened in the process of being supplied to the liquid reservoir 12 due to the bubbles, and the bubbles introduced into the filter 16 are used as the source of the particles. And the generation of these particles caused defects in the performance of the manufacturing process.

Therefore, the conventional liquid supply device has a problem that the productivity is lowered due to a malfunction due to the malfunction of the sensor or the generation of bubbles.

Disclosure of Invention An object of the present invention is to provide a bubble separator for manufacturing a semiconductor device, a liquid supply device using the same, and a driving method thereof for improving productivity by completely supplying a liquid contained in a liquid container and separating and removing bubbles from the liquid. .

1 is a block diagram showing a conventional liquid supply apparatus for manufacturing a semiconductor device.

2 is a block diagram showing an embodiment of a liquid supply apparatus for manufacturing a semiconductor device according to the present invention.

3 is a process diagram showing an embodiment of a method of driving a liquid supply apparatus for manufacturing a semiconductor device according to the present invention.

※ Explanation of symbols for main parts of drawing

2: bubble separator 10, 20: liquid container

12, 22: liquid reservoir 14, 30: pump

16, 38: filter 18, 34: detector

24: inlet 26: liquid container

28: inner tube 32: bure

36: exhaust port

The bubble separator for manufacturing a semiconductor device according to the present invention for achieving the above object is provided in the liquid container and the liquid container for receiving the liquid flowing from the inlet formed in the side wall, the lower end is located below the vertical position of the inlet It is characterized by consisting of an inner tube that can be immersed in the liquid received.

The liquid container and the inner tube are preferably formed of Teflon material.

Preferably between the liquid container and the inner tube is provided with a bub which is operated by the buoyancy of the liquid, it is efficient to form the bottom surface in the form of an arc.

The bure is preferably formed of a Teflon material.

The upper end side of the liquid container is preferably provided with an exhaust port for exhausting the bubbles separated from the liquid.

The upper and lower sides of the inlet is preferably provided with a detector for detecting the operation of the beret.

Liquid supply apparatus for manufacturing a semiconductor device according to the present invention, a liquid container; Pumping means for transferring liquid from said liquid container; A bubble separator capable of separating and removing bubbles from the liquid by using a load of the liquid introduced by the pumping means; And a liquid reservoir for introducing and storing the liquid separated and removed by the bubble separator.

The bubble separator is formed of a liquid container for receiving the liquid flowing from the inlet formed in the side wall and an inner tube which is installed in the liquid container, the lower end of which is submerged below the vertical position of the inlet. desirable.

Between the liquid container and the inner tube is provided with a buckle operating by the buoyancy of the incoming liquid, it is preferable that the upper side of the liquid container is further provided with an exhaust port for exhausting the bubbles separated from the incoming liquid.

It is preferable that the upper and lower sides of the inlet is further provided with a detector for controlling the pumping means and the exhaust port by detecting the operation of the beret.

It is preferable that a filter for filtering the liquid is further provided between the bubble separator and the liquid storage part.

In the method of driving a liquid supply apparatus for manufacturing a semiconductor device according to the present invention, a liquid container capable of receiving a liquid flowing from an inlet formed in a sidewall thereof is provided in the liquid container, and a lower end thereof is positioned below a vertical position of the inlet. A liquid inflow step of introducing liquid into the liquid container of the bubble separator having an inner tube which can be immersed in the liquid introduced into the liquid container; A boolean operation step in which a bub formed between the liquid container and the inner tube is operated by buoyancy of the liquid introduced into the liquid container; Sensing step of detecting the operation of the bure using a sensor formed on the upper, lower side of the inlet of the bubble separator; And a control step of controlling a pump for introducing the liquid into the liquid container of the bubble separator and an exhaust part formed at one side of the upper end of the liquid container so as to exhaust the bubbles separated from the incoming liquid. Characterized in that it is made.

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

2 is a block diagram showing an embodiment of a liquid supply apparatus for manufacturing a semiconductor device according to the present invention, Figure 3 is a process diagram showing an embodiment of a method of driving a liquid supply apparatus for manufacturing a semiconductor device according to the present invention.

First, FIG. 2 is supplied with a liquid container 20 containing a liquid used in a manufacturing process of a semiconductor device, that is, deionized water or a chemical, and a liquid of the liquid container 20, and then stored in each manufacturing facility during the process. A liquid reservoir 22 for supplying the liquid to the furnace is provided.

Wherein the liquid reservoir 22 of the present invention is efficient storage tank of the central supply system.

And the present invention is installed in the liquid container 26 and the liquid container 26 is provided with the inlet 24 for receiving the liquid contained in the liquid container 20 on the side wall, the lower end of the inlet 24 Between the liquid container 20 and the liquid reservoir 22 is a bubble separator (2) consisting of an inner tube (28) which is located below the vertical position of the liquid container (26) to be immersed in the liquid contained in the liquid container (26). It is provided.

Here, the bubble separator 2 separates and removes the bubbles from the liquid by using the load of the liquid, thereby dropping the liquid dropped on the bottom surface of the liquid container 26 into the inner tube 28. Supply to the liquid reservoir 22 through.

That is, the present invention connects and includes the bubble separator 2 between the liquid container 20 and the liquid reservoir 22 to separate and remove bubbles from the liquid when the liquid is supplied.

Here, the bubble separator 2 including the liquid container 26 and the inner tube 28 may be formed of Teflon resin, which is a synthetic resin.

The liquid contained in the liquid container 20 is supplied using a pump 30 which is a pumping means for pumping and introducing the liquid.

In addition, the present invention is provided between the liquid container 26 and the inner tube 28, a float 32, which is a buoy means that operates by buoyancy of liquid dropped to the bottom of the liquid container 26.

Here, the bridle 32 may be formed of Teflon resin or the like, and the bottom surface thereof is formed in an arc shape in order to improve floating pressure.

And the upper and lower sides of the inlet 24 of the present invention is provided with a detector 34 which is a sensing means for detecting the operation of the bridle 32, and also one side of the liquid container 26 is separated from the liquid An exhaust port 36 serving as an exhaust means for exhausting the bubbles to be provided is provided.

The exhaust port 36 is composed of a pipe and a valve provided on the pipe.

In addition, the exhaust port 36 performs the opening and closing operation by the signal input of the sensing unit 34.

Accordingly, the flow rate of the liquid is controlled by using the detector 34, and the valve of the exhaust unit 36 is opened and closed by the signal input of the detector 34 to remove bubbles separated from the liquid. To the outside to make it work.

In addition, the present invention provides a filter 38 which is a filtration means for filtering the liquid supplied to the liquid reservoir 22 through the inner tube 28 of the bubble separator 2, and the bubble separator 2 and the liquid reservoir. It is provided on the line of (22).

That is, according to the present invention, the filter 38 is provided to the liquid reservoir 22 while the liquid is filtered, that is, purified.

The present invention having such a configuration can prevent defects caused by particles caused by the bubbles by separating, removing and supplying bubbles from the liquid by using the load of the liquid, and also filter 38 as a filtration means. Can extend the life of the product.

And the present invention can be provided to the outside of the bubble separator 2 by the sensor 34 can prevent the malfunction of the sensor 34, such as when the liquid supply.

Accordingly, since the liquid in the liquid container 20 can be completely supplied to the liquid reservoir 22, the liquid can be prevented from being exchanged in the state in which the liquid is received in the liquid container 20, and the detector 34 It is possible to prevent the defects caused by malfunctions.

Actions and effects of specific embodiments of the present invention having the above-described configuration will be described.

In the present invention, in order to supply the liquid to the liquid reservoir 22, first, the liquid container 20 containing the liquid is transferred and connected on the line of the inlet.

The liquid is introduced into the liquid container 26 of the bubble separator 2 by performing the pumping operation of the pump 30.

The liquid introduced into the liquid container 26 is dropped into the bottom surface of the liquid container 26.

Herein, the liquid flowing into the liquid container 26 is dropped into the bottom surface of the liquid container 26 while separating bubbles from the liquid at the end of the inlet 24 at the point where the liquid is dropped.

That is, the bubble is separated and removed from the liquid by using the load of the liquid containing bubbles generated by the pumping of the pump 30 or the like.

The bubbles separated and removed in the liquid are exhausted to the outside through the exhaust port 36.

In addition, the present invention controls the air outlet 36 for exhausting the bubble to the outside by using the beret 32 that operates under the load of the liquid and the detector 34 that detects the operation of the beret 32.

In addition, the detector 34 controls the pump 30 or the like to control the amount of liquid flowing into the liquid container 26 of the bubble separator 2.

That is, when the bladder 32 is detected at the lower side of the inlet 24, the exhaust port 36 is closed and the pump 30 performs the continuous pumping, while the blare 32 supplies the supply pipe 24. When detected from the upper side of the exhaust port 36 is opened to exhaust the bubbles separated from the liquid to the outside and the pump 30 stops the pumping operation to stop the inflow of the liquid.

Accordingly, the liquid from which the bubbles are separated and removed is supplied to the liquid reservoir 22 through the inner tube 28.

Here, the liquid is supplied while being filtered, i.e., purified, using a filter 38, which is a filtering means provided on the line supplied to the liquid reservoir 22 through the inner tube 28.

Accordingly, the present invention stores the liquid supplied by separating the bubbles in the liquid storage unit 22, and supplies the liquid to the respective manufacturing facilities during the process.

The present invention having such a configuration is provided with a detector 34 for controlling the inflow of the liquid, etc. outside of the bubble separator 2 to prevent the malfunction of the detector 34 in advance to malfunction of the detector 34 It is possible to prevent the defect caused by.

Accordingly, since the liquid can be prevented from being exchanged in the liquid container 20 in a state in which the liquid is contained, it is possible to reduce the generation of waste liquid.

In addition, the present invention can prevent the defect caused by the bubbles due to the bubble separator (2) can be supplied in a state in which the bubble is separated, removed.

That is, generation of particles due to the bubbles can be prevented, and the life of the filter 38, which is the filtering means, can be extended.

Accordingly, in the present invention, the liquid in the container portion can be completely supplied to the liquid reservoir 22 in a state where bubbles are separated and removed.

Therefore, according to the present invention, it is possible to suppress the malfunction caused by the malfunction of the sensing unit and to improve the productivity by supplying a liquid in which bubbles are separated and removed.

Although the present invention has been described in detail only with respect to the described embodiments, it will be apparent to those skilled in the art that various modifications and variations are possible within the technical scope of the present invention, and such modifications and modifications are within the scope of the appended claims.

Claims (4)

Liquid containers; Pumping means for transferring liquid from said liquid container; It is installed in the liquid container containing the liquid flowing from the inlet to remove and remove bubbles from the liquid by using the load of the liquid introduced into the inlet provided on the side wall by the pumping means, the lower end A bubble separator provided between the liquid container and the inner tube including an inner tube positioned below the vertical position of the inlet to be submerged in a liquid to be received; ; A liquid reservoir for introducing and storing a liquid in which bubbles are separated and removed by the bubble separator; And a detector disposed above and below the inlet to control the pumping means by sensing the operation of the beret. Liquid supply device for manufacturing a semiconductor device, characterized in that comprises a. 2. The liquid supply apparatus of claim 1, wherein an exhaust port for exhausting air bubbles separated from the incoming liquid is further provided at an upper end side of the liquid container. The liquid supply apparatus of claim 1, further comprising a filter for filtering the liquid between the bubble separator and the liquid storage unit. A liquid container capable of accommodating the liquid flowing from the inlet formed in the side wall and an inner tube installed in the liquid container, the lower end of which is located below the vertical position of the inlet so as to be immersed in the liquid flowing into the liquid container A liquid inflow step of introducing liquid into the liquid container of the bubble separator; A boolean operation step in which a bub formed between the liquid container and the inner tube is operated by buoyancy of the liquid introduced into the liquid container; Sensing step of detecting the operation of the bure using a sensor formed on the upper, lower side of the inlet of the bubble separator; And a control step of controlling a pump for introducing the liquid into the liquid container of the bubble separator and an exhaust part formed on one side of the upper end of the liquid container so as to exhaust the bubbles separated from the incoming liquid; Method of driving a liquid supply device for manufacturing a semiconductor device, characterized in that comprises a.

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