KR101260943B1 - Hepa filter unit for clean room - Google Patents

Abstract

The present invention relates to a fan filter unit for a clean room having a downward direct current blowing function, which can fundamentally prevent turbulence, turbulence, and serious noise caused by a BFU-type blower according to the prior art. It is designed to provide the FFU-type cleanliness and vertical laminar flow without changing the airflow inside the clean room. An air chamber in which one open passage of the upper part protrudes in the lateral direction to communicate with the air conditioning pipe, and the lower part of the clean room are opened. A filter housing having a hollow structure and a blower fan assembly fixed to the filter housing via a mounting bracket; A filter assembly installed in a lower part of the filter housing corresponding to the lower part of the blower fan assembly, wherein a discharge opening is formed at a lower end of the filter housing, and one open passage formed in the air chamber It is configured to be in communication with the inlet of the size corresponding to the diameter of the blower fan assembly formed through the upper wall, the entire upper edge portion of the inner wall of the air chamber to increase the flow of air flowing through the one open passage and the inlet It characterized in that the first curved portion is formed as a whole to reduce the noise.

Description

Fan filter unit for clean room {Hepa filter unit for clean room}

The present invention relates to a fan filter unit for a clean room, and more particularly, it is possible to prevent turbulence, airflow confusion and serious noise caused by a conventional BFU blower (BLOWER) inherently prevents airflow inside the clean room. The present invention relates to a fan filter unit for a clean room having a downward direct current blowing function to provide FFU type cleanliness and vertical laminar flow without change.

In general, clean rooms are completely dust-free, isolated or isolated from the outside, and are widely used in areas where environmental conditions have a significant impact on quality, such as where ultra-dense integrated circuits or genetic manipulations handle small genes in cells. Is applied.

This clean room is one of environmental conditions, the presence of dust is a problem, there should not be anything too small to be visible. Therefore, the clean room should be equipped with a device that isolates the room from the outside to remove dust from outside the door, wears special clothing that does not dust the room, or essentially removes dust from the room.

The cleanliness of the cleanroom described above is highly dependent on the air conditioning system. Currently, the air conditioning system of the clean room is largely divided into a fan filter unit method (hereinafter referred to as "FFU") and a blower filter unit method.

The FFU method is a vertical laminar flow type of individual method, which does not need an air conditioner and can self-circulate, and has the characteristics of realizing a super clean room such as low noise, low vibration, and low energy. In addition, the fan filter unit type is a method of supplying the air volume required for cooling, heating load and cleanliness through an air conditioner through a Hepa Filter Box and circulating only the air volume necessary for cleanliness.

Here, the fan filter unit method has the following advantages.

1. The structure of the system is simple, and the running cost and equipment cost are low.

2. It is the most used system in general clean room.

3. Circulate air by installing a return box on the ceiling or by installing return airways in the room, depending on the structure and equipment layout of the room.

4. It is relatively convenient to expand the cleanroom within the air conditioner capacity range.

5. Local cleanliness can be formed by using a clean bench and a clean booth.

The fan filter unit according to the prior art is as follows.

The fan filter unit according to the related art is generally, a fan filter unit for a clean room, the blower chamber 11 and the filter chamber 12, the case 10 is provided outside the clean room; A blower (20) mounted to the blowing chamber of the case and blowing contaminated air circulating through the clean room to the filter chamber of the case; A filter (30) mounted to the blower of the case and filtering air supplied by the blower to the clean room; The air discharged through the through-air spaced one side is connected to the through-hole of the case while the other side is spaced apart so that the turning hole 18 is formed between the inner wall of the filter chamber and the other side is arranged in the filter chamber of the case. A plate-shaped guide (16) for guiding the pivot to the filter side along the pivot hole; It is mounted to the bottom of the guide is configured to include a UV assembly 40 for emitting power under UV light.

The fan filter unit having such a structure is installed outside the clean room to be in fluid communication through a hole and the like, and continuously supplies the filtered air in the clean room.

On the other hand, the filter 30 applied to the conventional fan filter unit is attached to the filter chamber 12 in a double large space divided into a blowing chamber 11 and a filter chamber 12 made of a casing made of iron plate material, The filter 30 is equipped with a HEPA (High Efficiency Particulate Air), a filter paper made of asbestos fiber, which is a special antistatic fiber, which filters even harmful microorganisms and contaminated dust. It has the ability to purify polluted air to a fairly clean state by having a purifying power that cleans up to 99.97% of dust, which is about 0.3 micron, which is the most harmful particles.

However, as the large required installation space divided into two spaces is quadrupled, a problem of low efficiency in installation such as unnecessarily occupying most of the space of the ceiling room is derived.

Moreover, while the BFU method has the above-mentioned advantages, it is difficult to apply to a high clean room in which a blower is used to provide a flow rate for maintaining cleanliness, which causes confusion of vortices or air flows within the clean room, and thus maintains high cleanliness. There is this.

Basically, HFU and BFU are applied to 1000 ~ 100000CLASS to form turbulence and maintain the cleanliness of a wide area by using the equipment for a relatively common clean room. The degree of diffusion is very weak. As a result, HFU (BFU) is installed at unnecessarily narrow intervals, and after clean room construction, it maintains high cleanliness (200 ~ 300CLASS) unnecessarily.

In the conventional case, the product is manufactured by cutting, bending, and welding the iron plate, and additionally, riveting and bonding the insulation to the inside (or outside) to complete the production of the product. In this case, due to condensation between the iron plate and the insulation, mold may grow inside, which may cause odor when used for a long time. In addition, due to the manufacturing characteristics, an angle is formed inside, which causes resistance to air flow, resulting in pressure loss and noise.

In fixing the filter, it takes a long time to replace the filter in fixing the filter by inserting it into six threaded bolts and binding it with bolts, and air leakage may occur due to the different fixation accuracy of the six points.

In addition, in the conventional case, the weight is heavy and the installation is complicated, so at least four persons need to make one set for installation, which requires a lot of time.

The present invention has been made to solve the above problems, an object of the present invention is to maintain high cleanliness without causing turbulence or air current confusion in the clean room, and at the same time the efficiency of the installation space and It is to provide a fan filter unit device for installing a clean room ceiling to solve the problem that is difficult to apply to a high clean room in which confusion of airflow is required to maintain high cleanliness.

In other words, according to the present invention, HEPA FILTER UNIT (hereinafter referred to as HFU), which is installed in the final discharge part of the air in the equipment constituting the clean room and maintains the cleanliness inside the clean room, discharges air by forming a positive pressure with the help of an air conditioner. And the turbo fan built-in to provide a blower filter unit (hereinafter referred to as BFU) that discharges air by forming a static pressure in the vehicle body.

In order to achieve the above object, the present invention is a fan filter unit for a clean room,

An air chamber in which one open passage of the upper side protrudes in a lateral direction so as to communicate with the air conditioning pipe, a filter housing having a hollow structure with an open lower portion, and a blower fan assembly fixed to the filter housing via a mounting bracket; A filter assembly installed in a lower part of the filter housing corresponding to the lower part of the blower fan assembly,

A discharge opening is formed at the lower end of the filter housing,

One open passage formed in the air chamber is configured to be in communication with the inlet of the size corresponding to the diameter of the blower fan assembly formed through the upper wall of the air chamber,

The entire upper edge portion of the inner wall of the air chamber is characterized in that the first curved portion is formed as a whole to reduce the noise by increasing the fluidity of the air flowing through the one open passage and the inlet.

As described above, according to the present invention, it is possible to maintain high cleanliness since no disturbance of vortex or airflow occurs in the clean room, and at the same time, efficiency of installation space and confusion of vortex or airflow inside cause high cleanliness. The high clean room to be done has advantages such as being able to solve a problem that is difficult to apply.

1 is an internal structure diagram of a blow fan filter unit according to a conventional example,
Figure 2 is a perspective structural view showing a clean room fan filter unit according to the present invention from the top direction,
3 is a perspective structural diagram illustrating a fan filter unit in an opposite direction of FIG. 2;
FIG. 4 is an exploded perspective perspective structural view showing the components of the fan filter unit of FIG.
5 is an enlarged perspective view illustrating an enlarged individually the air chamber 110 in the fan filter unit of FIG.
6 is a front structural diagram of the fan filter unit of FIG.
7 is a plan view of the fan filter unit of Figure 2, and
8 is a vertical cross-sectional view of the fan filter unit according to the line AA of FIG.

Hereinafter, with reference to the accompanying drawings the configuration of the present invention, Figure 1 is an internal structural view of a blow fan filter unit according to the prior art, Figure 2 is a clean room fan filter unit according to the present invention from the top direction FIG. 3 is a perspective structural diagram illustrating a fan filter unit in an opposite direction of FIG. 2, and FIG. 4 is an exploded assembled perspective structural diagram illustrating the disassembled components of the fan filter unit of FIG. 3. 5 is an enlarged perspective view illustrating an enlarged air chamber individually in the fan filter unit of FIG. 4, FIG. 6 is a front structural view of the fan filter unit of FIG. 2, and FIG. 7 is a plan view of the fan filter unit of FIG. 8 is a longitudinal sectional structural view of the fan filter unit according to the line AA in FIG. 7.

1 and 2, the fan filter unit for a clean room according to the present invention uniformly distributes the air forcedly sucked by the blower fan assembly through the first and second expansion-open air flow ports and the first curved portion. For example, it has been derived as a part of a fan filter unit for a clean room which functions to reduce the variation of the blowing pressure to minimize the air flow change of the entire clean room, thereby preventing turbulence or air flow disturbance caused by the conventional blower.

Clean room fan filter unit according to an embodiment of the present invention, the air conditioning tube (14); An air chamber 110 in which an upper side opening passage 110a of the upper side protrudes in a lateral direction so as to communicate with the air conditioning tube 14, a filter housing 130 having a hollow structure with an open lower portion, and the air chamber ( A blowing fan assembly 140 fixed to the mounting bracket 141 by a medium; It is configured to include a filter 30 that is airtightly installed in the lower portion of the filter housing 130 corresponding to the lower portion of the blowing fan assembly 140.

In addition, a discharge opening 131 is formed at a lower end of the filter housing 130, and the air direct current discharge type air blade 150 is connected downward through the hinge means 160 in the discharge opening 131. The hinge is rotatably supported.

In addition, the one open passage (110a) formed in the air chamber 110 is in communication with the bell mouth 111 of the size corresponding to the diameter of the blowing fan assembly 140 formed through the upper wall of the air chamber (110). It is possible.

That is, the upper part of the chamber constitutes a duct and has a structure in which the air inlet and the outlet of the blower fan are separated when the fan filter unit is manufactured.

In addition, the first curved portion 113 for reducing noise by increasing the fluidity of the air flowing through the one open passage (110a) and the inlet 111 in the entire upper edge portion of the inner wall of the air chamber 110. Is formed as a whole.

In addition, the one side open passage 111 is such that the first extended open air flow port 171 extends to the first curved portion 1130 having a predetermined curvature on the inner wall of the air chamber 110. It has a structure formed by the flow cover 170 is formed in a hemispherical cross-section so as to surround the expansion open-type air flow port 171.

In addition, an end side of the flow cover 170 surrounds the inlet of the upper wall of the air chamber 110, and the air introduced through the first expansion open air flow port 171 is introduced into the air chamber 110. The second expanded open air flow port 173 having a set radius of curvature is formed on the inner wall to increase the fluidity of the air flowing into the inlet.

Thus, the inside of the air chamber 110 is to be configured in a curved shape that can smoothly guide the flow of air to prevent static pressure loss and noise.

The air chamber 110 has the effect of heat insulation to block heat due to the air layer, and provides a non-combustible and lightweight, reconsidering safety, easy installation and repair, durability, that is, chemical resistance and oil resistance, weather resistance By using EPP material, which has strong and warm insulation performance and reduces noise, it has a structure to shorten the manufacturing process and time and improve the workability due to light weight for strength.

In addition, a plurality of deformation preventing ribs 119 are formed on the outer surface and each corner portion of the air chamber 110 in which the deformation occurs due to the binding force of the bolts when assembled with the filter housing 130. Is formed to protrude.

In addition, the inner side of the filter housing 130 has a configuration in which the elastic fixing lever means 180 is fixed to the upper and lower rotations so that the filter 30 is detachable from below.

In addition, a damper 190 is installed at an inflow side of the one side open passage 110a to perform an inflow and blocking function of air.

In addition, the damper 190 is preferably composed of a mechanical type that is opened and closed by a rotary drive shaft protruding extending up and down with the electronic opening or closing bevel gear.

The air fumber 190 has an air conditioner tube 14 connector formed at one side thereof so as to communicate with the air conditioner tube 14, and has an open hollow structure at the bottom thereof.

Here, the air conditioning tube 14 means a duct or a pipe, and an air control damper may be provided. At this time, the air regulator is connected to adjust the amount of air by the operation of the control handle and the control handle attached to the outside of the air conditioning tube (14).

The present invention basically consists of the air chamber 110, the filter housing 130 and the air blade 150, three components have a structure that can be assembled, disassembled at any time. The air chamber 110 is equipped with a rotary damper 190 for adjusting the discharge air volume, it is preferable that the filter housing 130 is composed of six fixing lever means 180 as a cam lock device for fixing the filter.

delete

Outside the air chamber 110, a plurality of anti-deformation protrusion ribs 119 are formed in each corner portion where deformation occurs due to the binding force of the bolts when assembled with the filter housing 130, which may cause air leakage. Thus, it is possible to simultaneously increase rigidity and suppress deformation.

In addition, the inside of the air chamber 110 has a curved shape to smoothly guide the flow of air to prevent static pressure loss and noise, and, in the upper portion of the air chamber 110 to form a duct BFU When manufacturing, the air inlet 111 and the outlet of the FAN have a separate structure, and the bell mouth type inlet 111 is formed at the part close to the suction side of the FAN to be configured to assist the air flow as much as possible. .

In addition, the air chamber 110 has the effect of thermal insulation to block the heat of the lower heater due to the air layer, providing non-combustibility and light weight, reconsidering the safety of the installer, easy to install and repair, and chemical resistance And by using EPP material which is strong in oil resistance and weather resistance and keeps heat insulation and reduces noise, it is configured to shorten the manufacturing process and time and improve construction performance by light weight for strength.

In addition, at least one contact type protrusion 118 is continuously formed at the lower end of the air chamber 110 corresponding to the contact surface of the upper portion of the filter 30 to prevent leakage during assembly of the filter 30.

In addition, a flow opening is formed in an upper wall of the air chamber 110, and the amount of air flowing into the air chamber 110 is evenly distributed through a flow hole formed in the center portion of the bent portion of the flow-type cover end side. Configured to be dispensed.

In addition, the filter 30 is embedded in the filter housing 130 corresponding to the lower portion of the blower fan assembly 140.

Here, the filter 30, there is a feature that is configured to be detachable in the downward direction through the fixing lever means 180 for fixing the filter.

In addition, the expansion part 117 is widened in the outward direction of the lower side of the air chamber 110, and functions to accurately and evenly distribute the air introduced through the inlet 111 in the downward direction.

Fan filter unit according to the present invention having such a configuration is to be supplied vertically to the filter after the air forcibly sucked through the upper portion of the blowing fan assembly 140 is discharged vertically downward through the inlet (111). Therefore, it is configured to flow flexibly through the first curved portion 113, it is configured to be uniformly distributed to the lower portion of the clean room in the state in which the blown air forms a vertical laminar flow similar to the FFU method.

In addition, the filter housing 120 may be configured to include a boss with an insert inserted to form a large R in a portion inserted into the panel upper square perforation during construction and to connect a wire to a portion where R is formed.

In addition, the upper outer portion of the filter housing 120, by forming a step 121 in the binding portion with the air chamber 110 is characterized by having a structure to prevent air leakage by minimizing the assembly tolerance.

8A is an enlarged view and B is an elastic fixing lever means as a cam lock device as a one-touch type cam lock device for fixing the filter 30 inside the filter housing 130 as shown in the plan view of A. 180 is provided, the fixed lever means 180 as the cam lock device is composed of a CAM BRACKET 181 hinged to the filter housing 130 and a CAM 182 hinged to the CAM BRACKET 181 It is composed of a structure that rotates in two axes, the center of the filter 30 by the first axis of rotation of the CAM BRACKET 181, and the filter 30 is pressed and fixed by the second axis of rotation of the CAM 182. It is configured to prevent interference between filter and CAM LOCK when inserting filter by making a fixed structure by corner formation on the first axis.

In addition, the air blade 150 is to maintain the same volume in a clean space with a smaller number of HFU (BFU) by expanding the diffusion range of air when the air passing through the filter 30 enters the clean room. In the air outflow angle is characterized by having a structure that can be combined with the three blades and the resistance plate in the center to adjust the diffusion range. In addition, the end shape of the innermost blade is designed to eliminate the dead space between the center punching portion and the blade toward the ground.

In addition, in combination with the filter housing 130, the air blade 150 has a two-stage hinge structure to completely wrap the filter housing 120, characterized in that four corners are fixed with a toggle clamp It is easy to open and close at any time.

The present invention having the above configuration can prevent the turbulence caused by the conventional BFU blower (BLOWER), turbulence of the air flow and serious noise, etc. at the source, the cleanliness of the FFU method without changing the air flow inside the clean room And the effect of providing vertical laminar flow.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and variations without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

Claims (5)

An air chamber in which an open passage on one side of the upper portion protrudes in a lateral direction so as to communicate with the air conditioning pipe;
A filter housing having a hollow structure with an open bottom,
A blowing fan assembly fixed to the filter housing via a mounting bracket;
A filter assembly hermetically installed at a lower portion of the filter housing corresponding to a lower portion of the blower fan assembly;
A filter hermetically installed under the filter housing,
The first curved portion is formed on the entire upper edge portion of the inner wall of the air chamber,
The one side open passage is composed of the first curved portion and the first expansion open air flow port,
Is formed by a flow cover formed in a hemispherical cross section to surround the first expansion open air flow port,
A discharge opening is formed at a lower end of the filter housing, and an air direct current discharge type air blade is supported by the discharge opening in a downward direction by a hinge means.
An elastic fixing lever means is fixed to the inner wall of the filter housing so as to be detachable from below, and to be rotatable vertically.
The elastic fixing lever means is composed of a CAM BRACKET rotated by a first axis, the CAM BRACKET and a CAM rotated by a second axis,
A damper is installed at the inflow side of the one side open passage to perform the inflow and blocking function of air,
An end side of the flow cover surrounds the inlet of the upper wall of the air chamber, and has a curvature to increase the fluidity of the air introduced into the inlet of the air chamber by the air introduced through the first expansion open air flow port. A fan filter unit for a clean room, characterized in that the second expansion open air flow port is formed on the inner wall.
delete The method of claim 1,
The air chamber is a clean room fan filter unit, characterized in that the polypropylene (EPP) material.
The method of claim 1,
Clean room fan filter, characterized in that a plurality of deformation preventing ribs protruded on the outer surface and each corner portion where the deformation occurs due to the binding force of the bolt when assembled with the filter housing on the outside of the air chamber. unit.
The method of claim 1,
Cleaner fan filter unit for the lower end of the air chamber corresponding to the contact surface of the upper filter in order to prevent leakage when assembling the filter, characterized in that at least one contact protrusion is continuously formed.

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