Microwave-assisted steam sterilization of dental and surgical instruments
First Claim
1. A sterilization apparatus comprising in combination:
- (a) a sealed first chamber capable of withstanding internal pressure and vacuum and having a sealable opening for introducing and removing articles to be sterilized;
(b) at least one tray disposed within said first chamber for holding items to be sterilized;
(c) a first microwave radiation generator;
(d) a first waveguide for directing microwave radiation generated by said first microwave radiation generator onto the articles to be sterilized;
(e) a sprayer for directing droplets of water onto the articles to be sterilized;
(f) means for generating steam at greater than one atmosphere of pressure and for introducing the steam into said first chamber; and
(g) a pump for evacuating said first chamber before the steam is introduced thereto and for removing the steam after the sterilization process is completed.
1 Assignment
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Accused Products
Abstract
A surgical and dental instrument sterilizer is described. Liquid water is rapidly vaporized by microwave heating and steam is generated to attain a steam pressure of approximately 47 psi and a temperature of approximately 135° C. in the region of the articles to be sterilized. Micron-size water-droplets are intermittently sprayed onto the articles which are arranged on a tray, from both the top and from underneath thereof so as to thoroughly wet the surfaces. A 30-90 s duration of droplet spray is followed by pulsed microwave irradiation of the top and underneath surfaces for a similar period, as an example; this is followed by a plurality of spray/microwave cycles. Sterilizing conditions in the sterilizer chamber are maintained in the presence of the water spray/microwave flashing cycles since introducing small aliquots of water will not affect the desired sterilizing condition provided by superheated steam augmented by microwave radiation necessary to kill microbes including spores; however arcing from metal instruments when subjected to microwave radiation is substantially reduced.
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Citations
39 Claims
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1. A sterilization apparatus comprising in combination:
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(a) a sealed first chamber capable of withstanding internal pressure and vacuum and having a sealable opening for introducing and removing articles to be sterilized;
(b) at least one tray disposed within said first chamber for holding items to be sterilized;
(c) a first microwave radiation generator;
(d) a first waveguide for directing microwave radiation generated by said first microwave radiation generator onto the articles to be sterilized;
(e) a sprayer for directing droplets of water onto the articles to be sterilized;
(f) means for generating steam at greater than one atmosphere of pressure and for introducing the steam into said first chamber; and
(g) a pump for evacuating said first chamber before the steam is introduced thereto and for removing the steam after the sterilization process is completed. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30)
(a) a third rectangular waveguide having walls, for receiving a first portion of microwave radiation and for directing the first portion of the microwave radiation into said first chamber and onto the articles to be sterilized;
(b) a fourth rectangular waveguide having walls, for receiving microwave radiation generated by said first microwave generator and directing a second portion of the microwave radiation into said second chamber and onto the open vessel for containing water, said third waveguide and said fourth waveguide sharing a common wall;
(c) a mechanical shutter for periodically opening and closing an opening in the wall shared by said third waveguide and said fourth waveguide, thereby switching the first portion of microwave radiation received by said third waveguide on and off such that the microwave radiation reaching the articles to be sterilized is pulsed; and
(d) an electrical motor for driving said mechanical shutter.
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19. The apparatus as described in claim 18, wherein said microwave beamsplitter further comprises:
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(a) a third microwave window adapted to transmit the first portion of microwave radiation and disposed between said first chamber and said third waveguide; and
(b) a fourth microwave window adapted to transmit the second portion of microwave radiation and disposed between said second chamber and said fourth waveguide, said third microwave window and said fourth microwave window being capable of isolating said third waveguide and said fourth waveguide from the pressure, temperature and vacuum within said first chamber and said second chamber, respectively.
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20. The apparatus as described in claim 19, wherein said first window and said second window comprise fused silica.
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21. The apparatus as described in claim 17, further comprising a layer of SiC in thermal contact with said vessel for containing water for enhancing the absorption of microwave energy from said second microwave radiation generator.
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22. The apparatus as described in claim 17, further comprising a layer of Fe3O4 in thermal contact with said vessel for containing water for enhancing the absorption of microwave energy from said second microwave radiation generator.
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23. The apparatus as described in claim 17, wherein steam is generated at a pressure of >
- 47 psi and a temperature of ≧
135°
C.
- 47 psi and a temperature of ≧
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24. The apparatus as described in claim 17, wherein the articles to be sterilized are constructed from materials selected from the group consisting of metallic, ceramic and plastic materials.
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25. The apparatus as described in claim 1, wherein said first microwave radiation generator is a pulsed microwave radiation generator.
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26. The apparatus as described in claim 1, wherein steam is generated at a pressure of ≧
- 47 psi and a temperature of ≧
135°
C.
- 47 psi and a temperature of ≧
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27. The apparatus as described in claim 1, wherein the articles to be sterilized are constructed from materials selected from the group consisting of metallic, ceramic and plastic materials.
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28. The apparatus as described in claim 1, wherein said first chamber further comprises:
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(a) an outer cylindrical wall having an upper portion containing a first groove and a second groove located below the first groove in the inside surface of said outer cylindrical wall, the upper portion of said wall being cut away in a chosen number of places above the first groove, and the second groove being adapted to receive a sealing o-ring; and
(b) an o-ring, said sealable opening comprising;
(a) a circular lid having a segmented lip adapted to be received and captured by the first groove when the segments of said segmented lip of said lid are correctly oriented with the chosen number of cut away portions of the upper portion of said cylindrical chamber wall, and having a cylindrical wall adapted to sealably contact said o-ring; and
(b) means for rotating said circular lid.
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29. The apparatus as described in claim 28, wherein said first chamber, said second chamber and said circular lid are fabricated out of stainless steel.
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30. The apparatus as described in claim 28, wherein said circular lid is dish-shaped.
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31. A method for sterilizing articles which comprises in order the steps of:
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(a) placing the articles to be sterilized in a sealed chamber capable of withstanding internal pressure and vacuum;
(b) evacuating the chamber;
(c) introducing steam at greater than one atmosphere of pressure into the chamber;
(d) directing droplets of water onto the articles to be sterilized for a first chosen time period; and
(e) directing pulsed microwave radiation onto the articles to be sterilized for a second chosen time period after said first time period is completed, thereby producing sterilized articles. - View Dependent Claims (32, 33, 34, 35, 36, 37, 38, 39)
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Specification