System for detecting the presence of liquid in a vapor phase sterilization system
First Claim
1. A system for detecting the presence of liquid, having a saturation pressure, in an enclosure, comprising:
- (a) an enclosure having at least one exhaust port;
(b) a vacuum source fluidly coupled to the exhaust port of said enclosure;
(c) a microprocessor programmed to store a first predetermined reference time period, and a predetermined subatmospheric pressure that is below the saturation pressure of the liquid;
(d) a pressure sensing means for sensing the pressure in said enclosure, electrically interconnected to said microprocessor;
(e) said microprocessor further programmed to measure a time period in which the enclosure pressure is reduced from the starting pressure to the stored predetermined subatmospheric pressure;
(f) said microprocessor further programmed to compare the measured time period with the stored predetermined reference time period, wherein a difference between the measured time period and the stored predetermined reference time period provides a detection of the presence of liquid in said enclosure.
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Accused Products
Abstract
A method is provided for detecting moisture in a sterilization chamber or other enclosure (including moisture present on the external or lumened surfaces of an instrument or other load placed in the enclosure). The method includes the steps of exhausting air from the enclosure under vacuum until the pressure in the enclosure is reduced from a starting pressure to a predetermined subatmospheric pressure which is above the saturation pressure of water, and then a second predetermined subatmospheric pressure which is below the saturation pressure of water or other liquid. The times taken to reach each pressure from the starting pressure are measured and their difference is calculated and compared to a reference time difference pre-established for a dry system (or, alternatively, in a known, leak-free system, only the pull-down time period to reach the second subatmospheric pressure is measured and compared to a pre-recorded reference pull-down time for a dry system). When the enclosure contains a lumened instrument, such as an endoscope, fluidly coupled to the exhaust port of the enclosure, the method preferably includes the steps of sensing the temperature in an exhaust conduit fluidly coupled to the exhaust port, during a time period in which the enclosure is evacuated, measuring the minimum temperature reached during the time period and comparing it to a reference minimum temperature pre-established for a dry system.
90 Citations
24 Claims
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1. A system for detecting the presence of liquid, having a saturation pressure, in an enclosure, comprising:
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(a) an enclosure having at least one exhaust port; (b) a vacuum source fluidly coupled to the exhaust port of said enclosure; (c) a microprocessor programmed to store a first predetermined reference time period, and a predetermined subatmospheric pressure that is below the saturation pressure of the liquid; (d) a pressure sensing means for sensing the pressure in said enclosure, electrically interconnected to said microprocessor; (e) said microprocessor further programmed to measure a time period in which the enclosure pressure is reduced from the starting pressure to the stored predetermined subatmospheric pressure; (f) said microprocessor further programmed to compare the measured time period with the stored predetermined reference time period, wherein a difference between the measured time period and the stored predetermined reference time period provides a detection of the presence of liquid in said enclosure. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A system for detecting the presence of liquid, having a saturation pressure, in an enclosure, comprising:
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(a) an enclosure having at least one exhaust port; (b) a vacuum source fluidly coupled to the exhaust port of said enclosure; (c) a microprocessor programmed to store a predetermined reference time period, a first predetermined subatmospheric pressure that is above the saturation pressure of the liquid, and a second predetermined subatmospheric pressure that is below the saturation pressure of the liquid; (d) a pressure sensing means for sensing the pressure in said enclosure, electrically interconnected to said microprocessor; (e) said microprocessor further programmed to measure a first time period in which the enclosure pressure is reduced from the starting pressure to the first stored predetermined subatmospheric pressure; (f) said microprocessor further programmed to store the first measured time period; (g) said microprocessor further programmed to measure a second time period in which the enclosure pressure is reduced from the starting pressure to the second stored predetermined subatmospheric pressure; (h) said microprocessor further programmed to calculate the difference between the first measured time period and the second measured time period; (i) said microprocessor further programmed to compare the calculated time difference with the stored predetermined reference time period, wherein a difference between the calculated time difference and the stored predetermined reference time period provides a detection of the presence of liquid in said enclosure. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17)
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18. A system for detecting the presence of liquid, having a saturation pressure, in an enclosure, comprising:
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(a) an enclosure having at least one exhaust port; (b) an exhaust conduit having a first and a second end, the first end being fluidly connected to the exhaust port of said enclosure, and the second end being fluidly connected to a vacuum means for exhausting air from said enclosure through the exhaust port of said enclosure; (c) a microprocessor programmed to store a predetermined reference temperature and a predetermined reference time period; (d) a temperature sensor positioned within said exhaust conduit, electrically interconnected to said microprocessor; (e) said microprocessor further programmed to store the minimum measured temperature in the exhaust conduit for the stored predetermined reference time period while the vacuum means is exhausting air from said enclosure; (f) said microprocessor further programmed to compare the minimum measured temperature with the stored predetermined reference temperature, wherein a difference between the minimum measured temperature and the stored predetermined reference temperature provides a detection of the presence of liquid in said enclosure. - View Dependent Claims (19, 20, 21, 22, 23, 24)
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Specification