KR100639151B1 - Liquid suction and exhaust equipment use of pneumatic ejector - Google Patents

Abstract

The present invention relates to a liquid intake and exhaust device using a pneumatic and ejector to recover the chemicals used in the production of semiconductor chips through a semiconductor manufacturing process.

In the present invention, the injection port 22 of the gun 20 to which compressed air is supplied is connected to the coupler 31 of the air introducing body 30, and the first air transfer to which the compressed air supplied through the injection port 22 is transferred. The furnace 32 and the second air transfer path 33 are formed in communication in the horizontal and vertical directions, but the first air transfer path 32 is opened and closed by an air shutoff valve 32a and chemically formed at the end thereof. A carbon filter 34a for purifying toxic gases to prevent secondary contamination by chemicals is provided via a filter cover 34b screwed to the screw fastening portion 34, and an air control valve 33a. In the lower portion of the second air transfer path 33 including a second air transfer path 33 while floating by the water level and sound pressure of the chemical stored in the container 40 fastened to the container fastening portion 35 The opening and closing hole (33c) is installed in the lower portion having the air transfer hole (33b), and stores the liquid in the container (40) An intake and exhaust pipe 36 for discharging the stored liquid is installed in the container fastening portion 35, and an intake and exhaust nozzle 37a communicating with the intake and exhaust pipe 36 is fixed by the nut 37. It is characterized by being installed.

Gun, air inductor, first air feed path, second air feed path, carbon filter, container, intake, exhaust pipe, intake, exhaust nozzle, air shutoff valve, air control valve, float

Description

Liquid suction and exhaust equipment use of pneumatic ejector

1 is a side configuration diagram illustrating an embodiment of the present invention.

Figure 2 is an exploded perspective view of the main portion of the present invention.

Figure 3 is a partial cross-sectional view of the main part of the present invention.

4 is an enlarged cross sectional view of a main part of the present invention;

5 is an exemplary view showing an example of a state in which a liquid is stored in the container as an embodiment of the present invention.

6 is an exemplary embodiment of the present invention, a state in which the second air transport path is blocked by the rise of the float by the full water level and the negative pressure of the liquid stored in the container.

Figure 7 is an embodiment of the present invention, an exemplary view showing a state of spraying the liquid stored in the container through the intake, exhaust nozzle.

8 is an exemplary view showing a state in which the air control valve of the second air transfer path is adjusted according to the embodiment of the present invention.

Figure 9 is an illustration showing a state using the apparatus of the present invention as a spray gun.

Figure 10 is an illustration showing a state using the device of the present invention as an air gun.

※ Explanation of code for main part of drawing ※

20: Case 21: Opening and closing handle

22: injection hole 30: air inlet

31: Coupler 32: First air transfer path

32a: Air shutoff valve 33 Second air transfer path

33a: air control valve 33b: air transfer hole

33c: Sphere 34: Screw connection part

34a: carbon filter 34b: filter cover

35: container fastening part 36: intake, exhaust pipe

37: nut 37a: intake and exhaust nozzle

50: spray nozzle 60: air nozzle

The present invention relates to a liquid intake and exhaust device using a pneumatic and ejector to recover the chemicals used in the production of semiconductor chips through a semiconductor manufacturing process.

In general, semiconductor manufacturing processes use many chemicals to make semiconductor chips.

When using chemicals as described above When chemicals leak or drop containers, various chemical reactions occur and toxic gases or fumes are generated, resulting in direct disasters as well as cleanliness. Clean room environmental pollution can occur.

In order to solve this problem, it is necessary to properly treat the leaked chemicals, but when treating chemicals, adsorption treatment is performed using a pump or an adsorption cloth.

The treatment method using the pump of the chemical treatment method has a disadvantage that it is not possible to inhale and discharge a small amount of chemicals because the pump is driven, using electricity, and using a motor or a fan.

Therefore, when treating a small amount of chemicals, either wipe with an absorbent cloth or neutralize with a neutralizer first, and then wipe off.

In the case of using the above-mentioned adsorption cloth, the dust particles generated from the adsorption cloth contaminate the FAB or are inevitably used because of the greater contamination and disasters from chemicals.

The present invention has been made to solve the above problems, it is possible to easily recover the chemicals used in the production of semiconductor chips, as well as to prevent secondary pollution that may occur during the recovery of chemicals The purpose is to provide a liquid intake and exhaust device using pneumatic and ejector.

The configuration of the present invention for achieving the above object has an opening and closing handle 21 for selectively discharging the compressed air generated from the compressed air generating unit, the coupler (31) of the air introducing body (30) A gun (20) having a dispensing port (22) connected by the tip;

The first air transfer path 32 and the second air transfer path having a coupler 31 on one side to which the injection port 22 of the gun 20 is fastened, and to which compressed air supplied through the injection port 22 is transferred. (33) is formed in communication in the horizontal and vertical direction, the first air transfer path 32 is blocked by opening and closing by the air shut-off valve 32a and at the same time can prevent secondary pollution by chemicals at the end. Carbon filter 34a for purifying the noxious gas is installed through the filter cover 34b which is screwed to the screw fastening portion 34, and the second air transfer path 33 including the air control valve 33a. In the lower part of the), a float 33c for opening and closing the second air transfer path 33 while floating by the water level and the negative pressure of the chemical stored in the container 40 fastened to the container fastening part 35 is air transferred. It is installed in the lower part having the hole 33b, and stores the liquid in the container 40 or discharges the stored liquid. The intake and exhaust pipes 36 are provided to be located at the container fastening portion 35, and the intake and exhaust nozzles 37a communicating with the intake and exhaust pipes 36 are fixed by the nuts 37. It is done.

The intake and exhaust device using the pneumatic and ejector of the present invention is characterized in that the air gun body 30 and the air gun can be used independently or as a part by separate coupling by a one-touch coupler.

The liquid intake and exhaust device using the pneumatic and ejector of the present invention can be used as a spray gun by replacing the carbon filter 24a and the filter cover 34b with the spray nozzle 50 to the screw fastening portion 34. It is done.

The liquid intake and exhaust device using the pneumatic and ejector of the present invention is characterized in that it can be used as an air gun by mounting the air nozzle 60 on the carbon filter 34a mounting portion of the air introducing body (30).

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

When using the liquid intake and exhaust device 10 using the pneumatic and ejector according to the present invention is connected to the compressed air generating unit and the hose connected to the hose 20 and the air introducing body (30).

When the gun 20 and the air introducer 30 are connected, the injection port 22 of the gun 20 is plugged into the coupler 31 of the air introducer 30.

As described above, in the state where the gun 20 is connected to the air introducer 30, the air introducer 30 is adjusted according to the purpose of use.

FIG. 5 is an exemplary view showing a state in which a chemical (liquid) is stored in the container 40. When the handle 20 of the gun 20 is pulled, compressed air is introduced through the injection hole 22. Is supplied.

The compressed air supplied to the air introducing body 30 is transported at high speed along the first air transfer path 32 in which the air shutoff valve 32a is opened in parallel with the injection port 22.

As described above, a negative pressure is generated when the compressed air is conveyed at a high speed, and the negative pressure generated as described above is in communication with the first air path 32. Through the 33 is delivered into the container 40 screwed to the lower portion of the air introducer (30).

The negative pressure transmitted into the container 40 is delivered to the intake and exhaust pipes 36 connected to the air introducing body 30 so as to be located in the container 40, and is fastened by the nut 37 to be connected to the intake and exhaust pipes. A negative pressure is transmitted to the intake and exhaust nozzles 37a installed to communicate with 36, so that chemicals are sucked through the intake and exhaust nozzles 37a and stored in the container 40.

As described above, when a chemical is stored and recovered, noxious gases such as fumes generated from chemicals are filtered by a carbon filter 34a installed to be parallel to the first air transfer path 32, thereby preventing the chemicals from being stored. It is possible to prevent the spread of secondary pollution.

When the chemicals stored as described above are stored at the full water level in the container 40, the floats 33c installed on the second air transfer path 33 are raised by the water level of the chemicals stored with the negative pressure. The second air transfer path 33 is blocked as shown in FIG.

As described above, since the second air transfer path 33 is blocked by the buckle 33c, when the chemical is stored in the container 40, it is possible to fundamentally prevent the chemical from being discharged toward the carbon filter 34a. will be.

7 is an exemplary view showing a state of discharging the chemical stored in the container 40, the first air transfer path 32 by using the air shut-off valve (32a) installed on the first air transfer path (32) ).

When operating the opening / closing handle 21 of the gun 20 in a state where the first air transfer path 32 is blocked by the air shutoff valve 32a, the compressed air is transferred along the second air transfer path 33. .

Compressed air transported along the second air transfer path 33 as described above, the pressure is applied evenly to the surface of the chemical in the container 40, the chemical (liquid) by the pressure intake, exhaust pipe 36 It is to be ejected through the intake, exhaust nozzle (37a) through.

As described above, when the ejection pressure is too strong, the liquid ejected through the intake and exhaust nozzles 37a may cause a safety accident due to splashing or splashing to the outside.

The air pressure control valve 33a installed in the second air transfer path 33 is adjusted as shown in FIG. 8 so as to prevent a safety accident caused by chemical splashing or splashing, thereby controlling the discharge pressure and speed of the chemical. It can be.

As described above, the present invention is mainly used when ejecting or recovering chemicals used in the production of semiconductor chips through a semiconductor manufacturing process, but using compressed air to remove dust from electronic components produced in the production line. You can also shake it off.

FIG. 9 shows that the spray nozzle 50 is installed on the mounting portion where the carbon filter 34a and the carbon filter cover 34b are installed.

When spraying the coating material while the spray nozzle 50 is engaged, the air shutoff valve 32a installed in the first air transfer path 32 is adjusted to an open state and installed in the second air transfer path 33. The air control valve 33a is also adjusted to the open state, and the suction port 33c is removed and the intake and exhaust pipes (the technology of attaching and detaching the intake and exhaust pipes in place are conventional techniques and are not specifically shown in the drawings). After connecting, pull the opening and closing handle 21 of the gun (20).

Pulling the opening / closing handle 21 causes the compressed air to be quickly transferred along the first air path 32, and at this time, a negative pressure is generated, and this sound pressure is applied to the sound pressure delivered to the intake and exhaust pipes connected to the second air path 33. The sucked paint is pushed through the sprayed air pressure to be sprayed through the spray nozzle 50.

10 is a view illustrating an example of using compressed air, and after removing the carbon filter 34a installed through the filter cover 34b on the screw fastening portion 34 of the air introducing body 30, air is removed. The nozzle 60 is mounted.

As described above, the compressed air is ejected through the air nozzle in the state where the air nozzle 60 is mounted, and the parts can be cleaned using the air.

As described above, the present invention,

First, not only the recovery of chemicals (liquids) used in the production of semiconductor chips through the semiconductor manufacturing process using the air pressure blown out through the gun 20 can be prevented, but also the safety accidents caused by the recovery of chemicals can be prevented. Has an effect;

Second, by solving the problem that each of the air gun, spray gun, chemical intake, exhaust device, etc. in the semiconductor manufacturing process by the liquid intake, exhaust device using the pneumatic and ejector of the present invention, reducing the equipment cost according to the equipment purchase It is a very useful invention that can be done.

Claims (3)

It has an opening and closing handle 21 for selectively discharging the compressed air generated from the compressed air generating unit, and has a injection port 22 connected to the front end by a coupler 31 of the air introducer 30 Gun 20; The first air transfer path 32 and the second air transfer path having a coupler 31 on one side to which the injection port 22 of the gun 20 is fastened, and to which compressed air supplied through the injection port 22 is transferred. (33) is formed in communication in the horizontal and vertical direction, the first air transfer path 32 is blocked by opening and closing by the air shut-off valve 32a and at the same time can prevent secondary pollution by chemicals at the end. Carbon filter 34a for purifying the noxious gas is installed through the filter cover 34b which is screwed to the screw fastening portion 34, and the second air transfer path 33 including the air control valve 33a. In the lower part of the), a float 33c for opening and closing the second air transfer path 33 while floating by the water level and the negative pressure of the chemical stored in the container 40 fastened to the container fastening part 35 is air transferred. It is installed in the lower part having the hole 33b, and stores the liquid in the container 40 or discharges the stored liquid. The intake and exhaust pipes 36 are provided to be located at the container fastening portion 35, and the intake and exhaust nozzles 37a communicating with the intake and exhaust pipes 36 are fixed by the nuts 37. Liquid intake and exhaust system using pneumatic and ejector.  According to claim 1, The liquid intake and exhaust device using the pneumatic and ejector air inlet 30. The liquid suction and exhaust device using pneumatic and ejector, characterized in that the spray nozzle 50 is installed on the carbon filter 34a and the carbon filter cover 34b mounting portion of the 30 and can be used as a spray gun. The pneumatic and pneumatic device according to claim 1, wherein the liquid intake / exhaust system using the pneumatic pressure and the ejector can be used as an air gun by mounting the air nozzle 60 on the mounting portion of the carbon filter 34a of the air introducing body 30. Liquid intake / exhaust system using air and ejector.

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