KR101466587B1 - Forced air exhaust structure of cleanroom - Google Patents

Abstract

The present invention relates to a forced exhaust structure of a clean room, comprising: a first zone; A second zone spatially separated from the first zone by a partition wall; An opening formed on the partition wall so as to allow movement of the object and air between the first and second areas; A blowing fan installed at an upper portion of the first zone and / or the second zone to blow clean air into the first zone and / or the second zone; A forced exhaust fan installed in the second zone for forcibly exhausting the air in the first zone through the opening; And an airflow guiding partition wall adjacent to the forced exhaust fan so that the air flow from the atmospheric air in the first and second zones to the forced exhaust fan side can be formed in a specific shape and strength. It is possible to increase the air circulation amount per unit time in the first zone to more than the air circulation amount that can be formed in the floor area of the first zone and to increase the air circulation amount in the first zone to the extra floor area The present invention relates to a forced exhaust structure of a clean room capable of simultaneously adjusting and maintaining the cleanliness of the first zone and the second zone without further expanding the spaces of the first zone and the second zone.

Clean room clean room clean exhaust forced air fan

Description

[0001] The present invention relates to a forced air exhaust structure of a clean room,

The present invention relates to a forced exhaust structure of a clean room, and more particularly, to a forced exhaust structure of a clean room in which, in a clean room having a plurality of divided areas, Structure.

In general, objects to be processed such as semiconductors and LCDs that require ultra-precision and fine processing are processed in a clean space such as a clean room (clean room) to prevent contamination of the surface due to pollutants in the air. The clean air is supplied to the interior through the air inlet of the clean room and the air circulation structure is maintained so that the air is continuously exhausted through the access floor.

FIG. 1 is a side view showing a first embodiment of a clean room according to the related art. FIG. 1 is a side view illustrating a clean room according to the prior art, in which a fab layer (fabrication layer) And a plenum layer (an auxiliary facility installation layer) having an air passage that can be installed in the floor. The Fab layer has a structure in which a divided work space for performing a separate operation is horizontally and continuously arranged.

In the first embodiment of the prior art, the Fab layer is divided into three zones, and the central zone 20 is provided with a coating device 21 for spraying the coating liquid onto the surface of the object to be processed, A transfer robot (11) for automatically transferring an object to be processed in and out of the central zone (20) is provided in the zone (10, 30), and an opening (41) is provided between the divided zones for transferring the object Structure.

The central zone 20 is a space in which air contamination is rapidly performed as the coating liquid is sprayed. In order to maintain a constant coating quality, the air circulation by the supply of clean air and the discharge of polluted air is performed at a designated speed The flow rate shall be maintained continuously.

The air circulation in the central zone 20 is performed by introducing the clean air downward through the air inlet 50 provided on the upper side of the application device 21 and introducing clean air into the upper part of the application device 21, And then exhausted through the floor panel 60 corresponding to the remaining floor area excluding the floor area occupied by the application device 21, so as to maintain cleanliness do.

In the above-described air circulation structure, the amount of exhaust, that is, the amount of circulation of air per unit time is limited by the extra size of the floor area, as the exhaust is performed only through the remaining portion excluding the floor area of the application device. The pollution rate of the air becomes more rapid and the air circulation amount per unit time is required to be increased. However, there is a limit to increase the air circulation amount by using the extra floor area, so that the cleanliness can not be maintained at the same level there was.

In order to further provide an exhaust device for forced exhaust in the central area, the size of the central area must be enlarged. In addition, there is another problem that space utilization is reduced in the provision of a clean room in a limited working space.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to increase the air circulation amount per unit time within a limited processing space to more than the air circulation amount that can be formed with an extra floor area, It is an object of the present invention to provide a forced exhaust structure of a clean room as much as possible.

According to an aspect of the present invention, A second zone spatially separated from the first zone by a partition wall; An opening formed on the partition wall so as to allow movement of the object and air between the first and second areas; A blowing fan installed at an upper portion of the first zone and / or the second zone to blow clean air into the first zone and / or the second zone; A forced exhaust fan installed in the second zone for forcibly exhausting the air in the first zone through the opening; And an air flow induction partition wall provided adjacent to the forced exhaust fan so that the air flow from the atmospheric air in the first and second zones to the forced exhaust fan can be formed in a specific shape and strength, The forced exhaust structure of the engine is regarded as a technical point.

Here, the opening portion may include a main opening portion formed so as to allow movement of the object to be processed between the first and second regions, and a dehumidifying portion formed to penetrate through the first portion to the forced exhaust fan side smoothly, As shown in FIG.

In addition, it is preferable that the forced exhaust fan is installed at a position adjacent to the first zone and the partition wall.

Preferably, the airflow guiding partition wall is provided so as to be spaced apart from the partitioning partition wall with the forced exhaust fan therebetween so as to induce a specific air flow to the forced exhaust fan side together with the partition wall.

According to the present invention, there is provided a clean room having a plurality of divided compartments in a limited space, wherein the polluted air in the first compartment, which does not have an exhaust capacity and air circulation amount sufficient to maintain cleanliness, It is possible to increase the air circulation amount per unit time in the first zone to more than the air circulation amount that can be formed in the bottom area of the first zone.

By providing the forced exhaust system for increasing the air circulation amount in the first zone in the second zone having the extra floor area, the first zone and the second zone can be expanded without further expanding the space of the first zone and the second zone. There is another effect that the cleanliness of the second zone can be adjusted and maintained at the same time.

Further, by adjusting the position and shape and opening area of the dimple storage portion, the shape and the installation form of the airflow guiding partition, the operation and rotation speed of the forced air discharge fan, and the processing device installed inside the first and second areas, It is possible to efficiently adjust and maintain the cleanliness by appropriately forming the air flow with a specific shape and intensity within the first and second zones according to the objects and the processing conditions.

The present invention having the above-described structure will be described in detail with reference to the following drawings. FIG. 2 is a side view showing a first embodiment of a forced exhaust structure of a clean room according to the present invention, and FIG. 3 is a perspective view of FIG.

The forced exhaust structure of the clean room according to the present invention includes a first zone 100, a second zone 200, an opening 310, a blowing fan 400, a forced exhaust fan 500, And the clean air is supplied to the first zone 100 and the second zone 200 by the blowing fan 400 so that the contaminated air in the first zone 100 flows into the opening 310, And the airflow guiding partition wall 600 to the forced exhaust fan 500 installed in the second zone 200 in a specific form.

The first zone 100 and the second zone 200 are spaces spatially separated from the first zone 100 by the partitioning wall 300. In the following description of the present invention, (100) and the first zone (100), a zone having a sufficient floor area with respect to the installation area of the equipment installed therein is referred to as a second zone (200) Quot;

The opening 310 is formed on the partition wall 300 so as to enable movement of the object and air from the first zone 100 to the second zone 200, A main opening 311 having a main function to allow the object to be transferred from the first section 100 to the second section 200 to be transferred, And a dimple storage 312 having a main function to make it smooth.

The opening 310 may be provided only with the main opening 311 as long as the air can be sufficiently flowed by the main opening 311, 100) to the side of the forced exhaust fan 500 (described below), it is also possible to further include the deodorizing unit 312.

The blowing fan 400 is a component for supplying clean air into the first zone 100 and / or the second zone 200. The clean air introduced into the inside of the second zone 200 flows toward the forced exhaust fan 500 The polluted air passes naturally through the pollution concentration space where air pollution mainly occurs in the first zone 100 and the second zone 200 while passing through the pollution concentration space, (100) and the second section (200) so as to push the first section (100) and the second section (200).

The air blowing fan 400 is not limited to a specific structure and installation type as long as it can continuously supply clean air to the first zone 100 and the second zone 200. For example, HEPA (High Efficiency Particulate Arrestor) filter which is composed of syntheric fiber and has efficacy range of removing 0.3 micron or more particles, induces air flow to one side by rotation of wings, And a fan filter unit to be operated at the same time.

The forced exhaust fan 500 is a component installed in the second zone 200 to forcibly exhaust air in the first zone 100 through the opening 310, To force the polluted air in the second zone 200 to be forcibly discharged, or to substantially remove the polluted air in the first zone 100, And is disposed at a position adjacent to the partitioning wall 300.

The compulsory exhaust fan 500 itself merely forcibly discharges the adjacent air without distinguishing the clean state of the first zone 100 and the second zone 200, It is difficult to differentially adjust the amount of circulation of air between the first zone 100 and the second zone 200. In this case,

The airflow guiding partition wall 600 may be formed in the first zone 100 and the second zone 200 so that the air flow from the atmosphere of the first zone 100 to the forced exhaust fan 500 can be formed in a specific shape and strength. (500), and the air in the vicinity of the distal end of the airflow guiding partition wall (600) is guided to be supplied to the forced air exhaust fan (500) side in accordance with its shape and installation form. The closer the width is formed, the stronger the air flow close to the small point can be formed.

In the construction of the airflow induction partition 600, if it is possible to form an appropriate airflow pattern to maintain the cleanliness of the first area 100 and the second area 200, And an air flow path having a shape in which the distal end portion is bent toward the first section 100 and the second section 200 side.

Hereinafter, the first embodiment of the present invention shown in FIGS. 2 and 3 will be described in detail.

In the first zone 100, a coating device 110 for spraying a coating liquid onto the surface of the object to be processed is provided. As the processing area of the object to be processed becomes larger, as the spray amount and the volatilization amount of the coating liquid increase, The floor space corresponding to the excess of the floor area occupied by the coating device 110 is provided in the first area 100 so that the air circulation is not sufficiently performed.

A transfer robot 210 for transferring an object to be processed is installed in the second area 200. The second area 200 is not limited to the installation space of the transfer robot 210, Since it is required to provide an installation space capable of transferring the object to be processed from the first zone 100 into the second zone 200 and securing a copper line capable of transferring the object to the other third zone (not shown) And has a relatively large floor area margin as compared with the first zone 100. [

The opening 310 has a structure in which a plurality of dimples 312 are disposed below the main opening 311. The forced exhaust fan 500 is disposed at a position adjacent to the dimple 312, And the airflow guiding partition 600 is formed of a single plate member and is installed to be spaced apart from the partition partition 300 with the forced air exhaust fan 500 interposed therebetween.

As described above, the airflow induction partition 600 is formed as a plate member extending along the lateral width of the partition wall 300, and is separated from the partition wall 300 with the forced air exhaust fan 500 therebetween The partition wall 300 functions to guide the airflow toward the forced exhaust fan 500 together with the airflow induction partition wall 600.

According to the forced exhaust structure of the clean room according to the present invention, in the clean room divided into the first zone 100, the second zone 200, and the like, the contamination of the inside of the first zone 100 By providing an accessory device capable of forcibly discharging the air in the second zone 100 having an allowable installation area, the space of the first zone 100 and the second zone 200 can be expanded to a limited space The amount of air circulation per unit time in the first zone 100 can be increased to be greater than the amount of air circulation that can be formed in the bottom zone of the first zone 100. [

The position, shape and open area of the dimple reservoir 311, the operation and rotation speed of the forced exhaust fan 500, the shape and the installation form of the airflow induction partition 600 are shown in the first section 100 And the second space 200 are formed or adjusted in accordance with the processing apparatus, the object to be processed, and the processing conditions installed in the first space 100 and the second space 200, It is possible to simultaneously adjust and maintain the degree of cleanliness by properly forming the air flow with a specific shape and strength.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of illustration, It should be understood that equivalents of the technical scope of the present invention can be modified and utilized by those skilled in the art.

1 is a side view showing a first embodiment of a clean room according to the prior art;

2 is a side view showing a first embodiment of a forced exhaust structure of a clean room according to the present invention

3 - Fig. 2

DESCRIPTION OF THE REFERENCE SYMBOLS USED IN THE DRAWINGS

100: first zone 110: dispensing device

200: second zone 210: transfer robot

300: partitioning barrier rib 310:

311: main opening part 312: dimple preservation part

400: blower fan 500: forced exhaust fan

600: Airflow Induction Barrier 700: Floor Panel

Claims (4)

A first zone; A second zone spatially separated from the first zone by a partition wall; An opening formed on the partition wall so as to allow movement of the object and air between the first and second areas; A blowing fan installed at an upper portion of the first zone and / or the second zone to blow clean air into the first zone and / or the second zone; A forced exhaust fan installed in the second zone for forcibly exhausting the air in the first zone through the opening; And An airflow guiding partition wall adjacent to the forced exhaust fan so that the air flow from the atmospheric air in the first and second zones to the forced exhaust fan can be formed in a specific shape and strength; Wherein the clean room comprises a plurality of compartments The apparatus according to claim 1, A main opening formed to penetrate the object to be processed between the first and second areas and a dehumidifier protruding from the first area to smoothly guide the air flow from the first area to the forced exhaust fan. Forced exhaust structure of clean room The apparatus according to claim 1, wherein the forced exhaust fan Wherein the first compartment and the second compartment are located adjacent to the first compartment and the partition wall. The air conditioner of claim 1, Wherein the partition wall is spaced apart from the compartment partition wall with the forced exhaust fan therebetween so as to induce a specific air flow to the compulsory exhaust fan side together with the partition wall.

Images