Shock shielding structure and method
阅读:359发布:2023-07-20
专利汇可以提供Shock shielding structure and method专利检索,专利查询,专利分析的服务。并且A shock shielding structure and method for shielding against shock by the use of inflated envelopes wherein said shielding is capable of functioning at peak reflected shocks of over 2,000 pounds per square inch to reduce the peak transmitted force by 70-90 percent or more. Still further, the shielding invention herein comprises a sheltering method and structure for use against the dangers incident to war and, more specifically, relates to a method or structure for use in shielding persons or equipment against the effects of nuclear explosion, and also toxic or corrosive gases and bacteria.,下面是Shock shielding structure and method专利的具体信息内容。
1. A shelter for protecting personnel and/or equipment from the effects of an explosion having a shock wave pressure comprising: a metal dome-like inner liner formed generally hemispherical in shape and having its edges sealed to a surface, a flexible dome-like outer liner formed generally hemispherical in shape having at least a portion thereof disposed spaced from said metal inner liner and having its edges sealed to the surface, and means pressurizing the space between said inner and outer liner to a pressure at least as great as the shock wave pressure.
2. The shelter of claim 1 further including a door for gaining access to the interior of the shelter having an interior metal liner and an outer structure formed of an outer flexible wall, an inner flexible wall spaced from said outer wall and disposed adjacent said interior metal liner, flexible web means interconnecting said inner and outer flexible walls forming cavities for compartmentalizing said space, and compressible fluid means pressurizing said cavities to a pressure at least as great as said shock wave pressure.
3. A structure, for protecting personnel and/or equipment from the effects of explosion having a shock wave pressure, comprising: a metal inner liner means for partially carrying out said protecting and being formed generally of a protective shape and having its edges sealed to a surface, a flexible outer liner means for partially carrying out said protecting and being formed generally of a protective shape having at least a portion thereof disposed spaced from said metal inner liner means and said outer liner means having its edges sealed to a surface, and means pressurizing the space between said inner and outer liner means to a pressure at least as great as the shock wave pressure.
4. A shelter for protecting personnel and/or equipment from the effects of an explosion having a shock wave pressure comprising: a metal dome-like inner liner formed generally hemispherical in shape and having its edges sealed to a surface, a flexible dome-like outer liner formed generally hemispherical in shape having at least a portion thereof disposed spaced from said metal inner liner and having its edges sealed to the surface, and means pressurizing the space between said inner and outer liner to a pressure between about 5 and about 3,000 pounds per square inch.
5. A structure as in claim 3 wherein said means pressurizing the space between said inner and outer liner means is pressurized to a pressure between about 5 and about 3,000 pounds per square inch.
6. A structure for protecting personnel and/or equipment from the effects of an explosion having a shock wave pressure comprising: a first high strength, relatively rigid, material liner means for partially carrying out said protecting and being formed generally of a protective shape and having its general extremities sealed to a surface, a second flexible resilient liner means for partially carrying out said protecting and being formed generally of a protective shape having at least a portion thereof disposed spaced from said first liner means and said second liner means having its general extremities sealed to a surface, and means pressurizing the space between said first and second liner means to a pressure at least as great as the shock wave pressure.
7. A structure as in claim 6 wherein said means pressurizing the space between said first and second liner means is pressurized to a pressure between about 5 and about 3,000 pounds per square inch.
8. The structure of claim 1 further including a door for gaining access to the interior of the shelter having an interior metal liner and an outer structure formed of an outer flexible wall, an inner flexible wall spaced from said outer wall and disposed adjacent said interior metal liner, flexible web means interconnecting said inner and outer flexible walls forming cavities for compartmentalizing said space, and compressible fluid means pressurizing said cavities to a pressure at least as great as said shock wave pressure.
9. A method of using a structure to protect against the effects of a nuclear explosion having a shock wave pressure, said structure being comprised of: a metal dome-like inner liner formed generally hemispherical in shape and having its edges sealed to a surface, a flexible dome-like outer liner formed generally hemispherical in shape having at least a portion thereof disposed spaced from said metal inner liner and havings its edges sealed to the surface, and means pressurizing the space between said inner and outer liner to a pressure at least as great as the shock wave pressure, said method comprising the steps of: A. assemblying said structure in a desired orientation and environment, and B. using said structure to protect personnel and/or equipment from said effects of explosion.
10. A method of using a structure to protect against the effects of a nuclear explosion having a shock wave pressure, said structure being comprised of: a first high strength, relatively rigid, material liner means for partially carrying out said protecting and being formed generally of a protective shape and having its general extremities sealed to a surface, a second flexible resilient liner means for partially carrying out said protecting and being formed generally of a protective shape having at least a portion thereof disposed spaced from said first liner means and said second liner means having its general extremities sealed to a surface, and means pressurizing the space between said first and second liner means to a pressure at least as great as the shock wave pressure, said method comprising the steps of: A. assembling said structure in a desired orientation and environment, and B. using said structure to protect personnel and/or equipment from said effects of explosion.
11. The method of claim 10 wherein said means pressurizing the space between said first and second liner means is pressurized to a pressure between about 5 and about 3,000 pounds per square inch.
12. The structure of claim 1 further including a soft envelope, containing pressurized fluid, and formed at least partially of flexible resilient resilient material, said soft envelope generally overlaying the exterior of said space which is pressurized between said inner and outer liner, said space constituting a hard envelope containing pressurized fluid, said hard envelope being pressurized to a pressure significantly higher than the pressure of said soft envelope.
13. The structure of claim 12 wherein said hard envelope is pressurized to a pressure between 100 and about 3,000 pounds per square inch, and said soft envelope is pressurized to a pressure between about 5 and less than 100 pounds per square inch.
14. The structure of claim 6 further including a soft envelope, containing pressurized fluid, and formed at least partially of flexible resilient material, said soft envelope generally overlaying the exterior of said space which is pressurized between said first and second liner means, said space constituting a hard envelope containing pressurized fluid, said hard envelope being pressurized to a pressure significantly higher than the pressure of said soft envelope.
15. The structure of claim 14 wherein said hard envelope is pressurized to a pressure between 100 and about 3,000 pounds per square inch, and said soft envelope is pressurized to a prEssure between about 5 and less than 100 pounds per square inch.
16. A A method of using a structure to protect against the effects of an explosion having a shock wave pressure, said structure being comprised of: a first high strength, relatively rigid, material liner means for partially carrying out said protecting and being formed generally of a protective shape, a second flexible resilient liner means for partially carrying out said protecting and being formed generally of a protective shape having at least a portion thereof disposed spaced from said first liner means, means pressurizing the space between said first and second liner means to a pressure between about 5 and about 3,000 pounds per square inch, to thereby form a pressurized envelope, said method comprising the steps of: A. assemblying said structure in a desired orientation and environment, and B. using said structure to protect personnel and/or equipment from said effects of explosion.
17. The method of claim 16 wherein said space is pressurized to between 100 and 3,000 pounds per square inch.
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