JP2005201722A - Leak inspection device for high performance air filter - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a device capable of performing leak inspection accurately and automatically in the state where a diffuser is installed in a non-single directional flow type clean room. <P>SOLUTION: A masker having a dividing wall stickable onto the ceiling surface in the state where the under surface of at least one air filter is completely enclosed, a suction probe, a traverse mechanism, a particle counter, a lifting mechanism, a driving motor, and a central control part for operating and controlling each part are loaded on a moving truck. The moving truck is stopped under the air filter which is a measuring object, and the suction probe is scanned in the state where the masker is stuck onto the ceiling surface to enclose the air filter, and the number of particles are measured by the particle counter, to thereby detect a leak and to specify a leak spot. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to an apparatus for inspecting leakage from a high-performance air filter in a clean room used in a semiconductor manufacturing apparatus or the like.

  As a clean room system, there are a unidirectional flow type (laminar flow type) and a non-unidirectional flow type (turbulent flow type). In both cases, clean air is sucked in from the ceiling from the ceiling, but the single-direction flow type has high performance filters (HEPA filters) or ultra high performance filters (ULPA filters) arranged side by side and sent from the upstream side. In this method, the air is filtered and blown directly into the room. In contrast, the non-unidirectional flow type is a system in which filters are arranged at arbitrary intervals, a diffusion plate using a punching plate or the like is attached directly below the filter, and the blown air is supplied to a space larger than the filter area. is there. In general, the unidirectional flow type is used when high cleanliness is required, and the non-unidirectional flow type is used when the cleanness is lower than the unidirectional flow type.

  The leak inspection is an inspection in which the air blown directly under the filter is sucked with a sampling probe of a particle counter and the number of dust is measured to confirm that it is equal to or less than a predetermined number. In general, the probe is scanned in the manner indicated in the “Clean Room Performance Evaluation Guidelines” of the Japan Air Cleaning Association. Conventional filter leak inspection is performed by scanning the probe while visually confirming the display of the particle counter, but in a clean room such as a semiconductor manufacturing factory, the number of filters to be inspected reaches thousands, Furthermore, since the ceiling height is higher than that of a general office and may be 4 m or more, it is a heavy labor for the inspector, and the work is heavy in both work time and cost.

  4 to 6 show the side surfaces of a conventional non-unidirectional flow type filter, and a diffusion plate 12 for expanding a downward air flow is attached directly below the filter 10 housed in the chamber 20. As shown in FIG. 4, in the method of attaching the diffusion plate 12 from below with bolts (set screws) 14 or the like, if a leak inspection is performed directly under the filter before the diffusion plate 12 is installed, a normal leak inspection apparatus can be used. However, in the method in which the diffusion plate 12 is first installed on the ceiling frame 22 as shown in FIG. 5 and the filter 10 is placed thereon, removing the diffusion plate 12 for inspection increases work time and cost. Therefore, the leak inspection is performed with the diffusion plate 12 attached. FIG. 6 shows a state in which the state where the diffusion plate 12 is attached is viewed from below. As shown in the figure, air is blown out radially from the diffusion plate 12 obliquely downward. If a normal leak test is performed in this state (scanning the entire area directly under the filter), the air blown out may not be collected due to the diffusion of the air flow. Conversely, other than the air blown out by attracting the surrounding air It is difficult to guarantee the accuracy of the inspection.

  Therefore, recently, in order to isolate the air blown out from the filter to be inspected from the surroundings, a cover (called a masker) using a polyethylene sheet or the like is temporarily attached so as to cover the filter 10 or the diffusion plate 12 and inspected. Is often done. The masker needs to be installed so as to form a partition wall having a vertical height of about 500 mm to 1000 mm along the entire circumference of the filter, and needs to adhere to the ceiling surface with an adhesive tape or the like. For this reason, the ceiling must be approached using a stepladder or a scaffold, and it must be carried out for all the filters to be inspected. Therefore, the burden of attaching the masker is very large.

Conventional automatic inspection apparatuses or robots generally assume a unidirectional flow filter as described in the following patent document.
JP-A-60-21113 “Clean room inspection device”, JP-A 63-7820 “Clean room dustproof filter inspection device”, JP-A-2-71982 “Cleanroom measuring robot”, JP-A-2-129533 “Cleanroom inspection robot” , JP 2000-206031 “Dust-proof filter leak detection device”, Japanese Utility Model Laid-Open No. 4-21954 “Ceiling surface filter scanning test device” and the like are equipped with a suction probe on a hand-held or automatic traveling vehicle. It has a mechanism that automatically scans by approaching the lower surface of the filter. However, since these inspection apparatuses are all intended for a unidirectional flow type filter, a masker or the like covering the filter is not shown. In the leak inspection of a non-unidirectional flow type filter, it is necessary to install a masker in order to ensure the accuracy of the inspection. Japanese Utility Model Application No. Sho 63-27855 “Leak inspection device for air filter for clean room” uses a non-charging tray (hopper) to enclose the filter in a hermetically sealed manner, and sucks the air in the tray to measure the amount of particulates passing through. An apparatus is described. However, there are disadvantages that fine particles may adhere to such a saucer and measurement may not be performed correctly, and that the leak location cannot be specified because the probe is not scanned.

  An object of the present invention is to provide an apparatus capable of accurately and automatically performing a leak inspection with a diffusion plate attached in a non-unidirectional flow type clean room.

  The above-described problem of the present invention is an apparatus for inspecting leaks from a large number of high-performance air filters installed at arbitrary intervals on the ceiling surface of a clean room. Further, a masker having a partition wall that can be in close contact with the ceiling surface in a state of completely surrounding the lower surface of at least one air filter, a suction probe that is located in the masker and sucks air from the air filter, and A traverse mechanism that scans the suction probe in the horizontal direction left and right and / or front and rear, a particle counter that measures the number of particles in the air sucked by the suction probe, a lifting mechanism that moves the masker and the suction probe in the vertical direction, and A motor for driving the traverse mechanism and a central control unit for operating and controlling the above-described units are mounted. Leakage is detected by stopping the moving carriage underneath, scanning the suction probe horizontally and / or back and forth in the horizontal direction with the masker in close contact with the ceiling and surrounding the air filter, and measuring the number of particles with a particle counter. This is achieved by a leak inspection apparatus for a high performance air filter that detects and identifies the leak location.

  As the operation method, the moving carriage is stopped under the air filter to be measured, and the suction probe is scanned horizontally and / or back and forth in the horizontal direction with the masker in close contact with the ceiling surface by the elevating mechanism and surrounding the air filter. By detecting the number of particles with a particle counter, the leak is detected and the location of the leak is specified.

  As a preferred embodiment, a biaxial traverse mechanism for inspecting the probe is provided, and a masker (cover) having an opening size adapted to the filter size is attached thereto, and these are raised by an elevating mechanism, and the upper surface of the masker Is in contact with the ceiling surface. In order to bring the masker into close contact with the ceiling surface, a packing with a low dust generation material is provided on the upper surface. By scanning the entire inner surface of the masker with a probe, it is possible to perform an accurate leak inspection without losing the trapped air in a state in which ambient air is prevented from being mixed. The material of the masker is a non-chargeable material, and the height of the masker is set to a height that takes into account the attraction from below by analyzing the airflow by simulation etc. for each specification of the diffusion plate.

  As a more preferred aspect, if a shift mechanism for moving the masker horizontally in the horizontal direction and / or back and forth is arranged adjacent to the traverse mechanism, the masker is shifted horizontally when the movable carriage comes to the corner of the room. Thus, it is possible to inspect a filter located in the corner of the room. This shift mechanism may be a mechanism similar to the traverse mechanism.

In the leak inspection apparatus according to the present invention, since the masker is integrated with the apparatus, the complicated work of attaching the masker to the ceiling surface is unnecessary, and labor saving and cost reduction can be realized at the same time. Further, since only the air that has passed through the filter can be inspected while being isolated from the surrounding air, high reliability can be obtained. Furthermore, by scanning the probe at a distance close to the diffuser plate, it is possible to specify a leak point on the filter surface, and the efficiency of repair work is improved.
If a shift mechanism that moves the masker in the horizontal direction is placed adjacent to the traverse mechanism, it is possible to inspect the filter located in the corner of the room by shifting the masker when the moving carriage reaches the corner of the room. become.
Hereinafter, the present invention will be described in more detail with reference to embodiments of the accompanying drawings.

  1 to 3 show a leak inspection apparatus according to a preferred embodiment of the present invention. This device is a device for inspecting leaks from a large number of high-performance air filters installed on the ceiling surface of a clean room at an arbitrary interval, and has at least one air on a hand-held mobile carriage 30. A masker 32 having a partition wall (vertical wall) that can be in close contact with the ceiling surface in a state of completely surrounding the lower surface of the filter, a suction probe 34 that is located in the masker 32 and sucks air from the air filter, and a suction probe Traverse mechanism 36 that scans 34 horizontally and / or forward and backward in the horizontal direction, particle counter 38 that measures the number of particles in the air sucked by suction probe 34, and lift mechanism 50 that moves masker 32 and suction probe 34 in the vertical direction. A motor 66 for driving the traverse mechanism 36, a manual shift mechanism 70, and a center for operating and controlling the respective parts. And the control unit 60 is mounted.

As shown in FIGS. 1A and 1B, a packing 33 that can be in close contact with the ceiling surface is attached to the upper end of the masker 32. The movable carriage 30 has a caster 44 attached to the bottom surface, and can be moved and rotated in all directions by operating a hand handle 42. In addition, the push handle is removable and can be attached to either the left or right.
The elevating mechanism 50 can move the masker 32 and the suction probe 34 in the vertical direction via the timing belt 54 and the pulley by operating the elevating handle 52. A motor 66 for driving the traverse mechanism is driven by an external power source, and a central control unit 60 for controlling the motor 66 is constituted by a personal computer or the like. A battery can be mounted on the mobile carriage 30.

Since the opening area of the suction probe 34 affects the suction wind speed, it is desirable to determine the probe opening size so that suction is performed at substantially the same speed as the blowing air speed from the scanning height of the probe and the blowing wind speed distribution. As shown in FIG. 2, scanning of the probe by the traverse mechanism 36 scans the entire masker along the guide rail 37, and determines the scanning interval so that there is no gap according to the opening area of the probe.
As shown in FIG. 1B, the masker 32 can be moved left and right in the horizontal direction by a manual shift mechanism 70 provided at the upper part of the traverse mechanism 36, thereby inspecting a filter arranged at the corner of the room. In doing so, the device can be moved up against the wall.

  FIG. 3 shows the configuration of the central control unit 60, which includes a particle counter 38, a sequencer 61, a touch panel 62, a flash memory 64, a motor 66 for driving a traverse mechanism, and a servo driver 68. Various settings relating to the operation and measurement of the traverse mechanism 36, the shift mechanism 70, and the particle counter 38 (scanning speed, leak determination reference value, etc.) are performed on the touch panel 62. The number of dust measured by the particle counter 38 is taken into the sequencer 61 at the start of probe scanning. After the measurement of the entire surface is completed, the presence or absence of a leak is automatically determined, and the filter management number, inspection date and time, determination result, and the number of measured dust are displayed on the touch panel 62 and stored in a storage medium (flash memory or the like) 64. Record as data. In this example, the measurement value of the particle counter is captured in real time, the probe scan is stopped when the number of measurements per unit time exceeds the set value (continuous count), the probe is returned a certain distance, and then rescanned. When a continuous count is detected again in the same section, scanning is terminated and it is determined that there is a leak.

The specific operation procedure of the leak inspection apparatus according to the present invention is as follows.
(1) The apparatus main body is moved immediately below the filter to be inspected. (2) The probe, traverse mechanism, shift mechanism, and masker are raised by the lifting mechanism, and the packing on the masker upper surface is brought into contact with the periphery of the diffusion plate of the filter (3 ) The probe is automatically scanned by operating the touch panel. (4) The particle counter is activated simultaneously with the start of scanning. (5) If the counter value exceeds a preset condition, it is determined that there is a leak and the inspection is interrupted and displayed on the operation screen. (6) Measurement data (date and time, filter number, count value, determination result) is stored in a storage medium.
If necessary, the masker is moved horizontally by manually operating the shift mechanism.

  As an example, the size of the leak inspection apparatus of FIG. 1 can be about 4800 mm in total length when stretched, about 1000 mm in width, and about 700 mm in depth.

  As described above in detail, according to the present invention, in a non-unidirectional flow type clean room, there is provided an apparatus capable of accurately and automatically performing a leak inspection with a diffusion plate attached thereto. The effects are very significant.

The front view and side view of the leak inspection apparatus by this invention. The perspective view of the masker by the present invention, a probe, and a traverse mechanism. The schematic block diagram of the central control part in this invention. The side view showing the conventional filter and diffusion plate. The side view showing the conventional filter and diffusion plate by other installation methods. The perspective view which looked up the conventional filter and the diffusion plate from the downward direction.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Filter 12 Diffusion plate 20 Chamber 30 Moving carriage 32 Masker 34 Suction probe 36 Traverse mechanism 38 Particle counter 50 Lifting mechanism 60 Central control part 66 Motor 70 Shift mechanism

Claims (2)

A device for inspecting leaks from a large number of high-performance air filters installed at arbitrary intervals on the ceiling surface of a clean room,
On a hand-held or self-propelled mobile trolley,
A masker having a partition wall which can be in close contact with the ceiling surface in a state of completely surrounding the lower surface of at least one air filter;
A suction probe which is located in the masker and sucks air from an air filter;
A traverse mechanism that scans the suction probe horizontally in the horizontal direction and / or in the front-rear direction;
A particle counter for measuring the number of particles in the air sucked by the suction probe;
An elevating mechanism for moving the masker and the suction probe vertically;
A motor for driving the traverse mechanism;
A central control unit for operating and controlling each unit is mounted,
The moving carriage is stopped under the air filter to be measured, and the suction probe is scanned horizontally and / or back and forth in the horizontal direction with the masker in close contact with the ceiling surface and surrounding the air filter, and the particle counter measures the number of particles. Thus, a leak inspection apparatus for a high-performance air filter that detects a leak and identifies a leak location. The leak inspection apparatus according to claim 1, wherein a shift mechanism that scans the masker horizontally in the horizontal direction and / or forward and backward is provided adjacent to the traverse mechanism.

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