Trap apparatus

Measuring and testing – With fluid pressure – Leakage

Reexamination Certificate

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Reexamination Certificate

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06553811

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a trap apparatus for use in an evacuating system for evacuating a vacuum chamber in a semiconductor fabrication apparatus or the like, and more particularly to a continuous processing trap apparatus having trap units disposed to switch between an exhaust path and a regeneration path.
2. Description of the Related Art
One conventional evacuating system will be described below with reference to
FIG. 14
of the accompanying drawings. In
FIG. 14
, a vacuum chamber
121
serves as a process chamber for use in a semiconductor fabrication process that is carried out by an etching apparatus, a chemical vapor deposition apparatus (CVD), or the like. The vacuum chamber
121
is connected to a vacuum pump
123
by a pipe
122
. The vacuum pump
123
serves to increase the pressure of a process exhaust gas from the vacuum chamber
121
to the atmospheric pressure. The vacuum pump
123
has heretofore been composed of an oil rotary pump, but mainly comprises a dry pump at present.
If the level of vacuum required by the vacuum chamber
121
is higher than the level of vacuum that can be achieved by the vacuum pump
121
, then an ultrahigh vacuum pump such as a turbo-molecular pump or the like is disposed upstream of the vacuum pump
123
. An exhaust gas processing apparatus
124
is disposed downstream of the vacuum pump
123
, and gas components that cannot be directly discharged into the atmosphere because of their toxicity and explosibility depending on the process are treated by a process such as adsorption, decomposition, absorption by the exhaust gas processing apparatus
124
, from which only harmless gases are discharged into the atmosphere. Necessary values are provided at appropriate positions of the pipe
122
.
The conventional evacuating system is disadvantageous in that if a substance having a high sublimation temperature is contained in the reaction by-products contained in the exhaust gas, then the gas is solidified while its pressure is being increased, and deposited in the vacuum pump, thus tending to cause a failure of the vacuum pump.
For example, if BCl
3
or Cl
2
which is a typical process gas for aluminum etching is used, then the remainder of the process gas of BCl
3
or Cl
2
and a reaction by-product of AlCl
3
are discharged from the process chamber by the vacuum pump. AlCl
3
is not deposited in the suction side of the vacuum pump because its partial pressure is low. However, while AlCl
3
is being discharged under pressure, its partial pressure rises, and it is deposited, solidified, and attached to the inner pump wall, resulting in a failure of the vacuum pump. The same problem occurs with reaction by-products of (NH
4
)
2
SiF
6
and NH
4
Cl that are produced from a CVD apparatus for depositing films of SiN.
It has heretofore been attempted to heat the vacuum pump in its entirety to pass the reaction by-products in a gaseous state through the vacuum pump so that no solid substance is deposited in the vacuum pump. This attempt has been effective to prevent a solid substance from being deposited in the vacuum pump, but has been problematic in that a solid substance is deposited in the exhaust gas processing apparatus disposed downstream of the vacuum pump, thereby clogging a filled layer in the exhaust gas processing apparatus.
One solution is to install a trap apparatus upstream or downstream of the vacuum pump for trapping products for removal of components which will generate solid substances for thereby protecting various devices provided at the discharge path. The conventional trap apparatuses generally have such a poor trapping efficiency that about 60% of the components of the exhaust gas flows through the trap apparatus without being deposited in the trap unit. Those components flowing through the trap apparatus are deposited in downstream pipes and various devices. The reasons for the poor trapping efficiency are considered to be the fact that the exhaust gas flows in regions where the trapping efficiency is poor between an inner wall surface of the casing and the trap unit in the trap apparatus, and is unprocessed and discharged therefrom.
SUMMARY OF THE INVENTION
It is therefore an object of the present invention to provide a continuous processing trap apparatus which is capable of increasing the trapping efficiency while maintaining conductance required by a vacuum chamber and also of stably regenerating a trap unit by removing trapped reaction by-products in inline arrangements.
According to the present invention, there is provided a trap apparatus including an exhaust passage for evacuating a hermetically sealed chamber by a vacuum pump, a hermetically sealed trapping and regenerating casing extending across the exhaust passage and a regenerating passage adjacent to the exhaust passage, a trap unit movably housed in the trapping and regenerating casing for selective movement between a trapping position connected to the exhaust passage and a regenerating position connected to the regenerating passage, valve bodies disposed one on each side of the trap unit and supporting seals on outer circumferential surfaces thereof which are held in contact with an inner circumferential surface of the trapping and regenerating casing for sealing the exhaust passage and the regenerating passage from each other, and a monitoring device for monitoring whether the seals are functioning normally.
The continuous processing trap apparatus thus constructed is capable of increasing the trapping efficiency while maintaining conductance required by a vacuum chamber and also of performing a regenerating process in inline arrangements. The continuous processing trap apparatus has seals capable of hermetically sealing trapping and regenerating chambers from each other in the trapping and regenerating casing, and also a monitoring mechanism for monitoring whether the seals are functioning normally. The continuous processing trap apparatus can thus simultaneously and stably trap, and remove reaction by-products in exhaust gases, i.e. regenerate the trap unit. Consequently, the burden on the operator who performs maintenance of the trap apparatus is greatly lightened.
It is preferable to provide double seals disposed on each of the outer circumferential surfaces of the valve bodies, and a seal monitoring mechanism for monitoring pressure variations or flow rate variations in hermetically sealed spaces between the double seals. It is also preferably to provide a pressure sensor for detecting such pressure variations or flow rate variations. Flow rate variations may be detected by a mass flow meter.
The seal monitoring mechanism may preferably comprise a device for creating a vacuum or pressurization in the hermetically sealed spaces and monitoring a sealing capability of the seals based on a variation in the vacuum or pressurization.


REFERENCES:
patent: 3719070 (1973-03-01), Hanes
patent: 3894741 (1975-07-01), McHugh
patent: 4268329 (1981-05-01), Jervis
patent: 4831875 (1989-05-01), Twerdochlib
patent: 4835974 (1989-06-01), Spahn
patent: 5515734 (1996-05-01), Malminen
patent: 5758882 (1998-06-01), Torzewski
patent: 6149130 (2000-11-01), Thurston et al.
patent: 6158226 (2000-12-01), Noji et al.
patent: 6244099 (2001-06-01), Ball et al.
patent: 6334928 (2002-01-01), Sekine et al.
patent: 0 811 413 (1997-12-01), None
patent: 0 823 279 (1998-02-01), None
patent: 0 847 789 (1998-06-01), None
patent: 0 847 790 (1998-06-01), None
patent: 1 050 681 (2000-11-01), None
US 6,398,831, 6/2002, Nomura (withdrawn)*
Patent Abstracts of Japan, vol. 007, No. 211 (M-243), Sep. 17, 1983 & JP 58 106186 A (Hitachi Seisakusho KK), Jun. 24, 1983.

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