Trace chemical particle release nozzle
First Claim
1. A method for dislodging and releasing particles of explosives or narcotics from a target surface, comprising:
- providing at least one nozzle, the nozzle including a first orifice for the emission of a first jet of pressurized gas directed towards said target surface and at least one second orifice for the emission of a second jet of pressurized gas directed towards said target surface, wherein a velocity of gas emitted by said second jet is equal to or greater than a velocity of gas emitted in said first jet;
controlling at least one of;
the first jet and the second jet using at least one controller, wherein controlling the at least one of;
the first jet and the second jet includes emitting the pulse of said second jet at less than one second prior to the emission of the pulse from said first jet, and maintaining the pulse of said second jet during the pulse of said first jet, and wherein said velocity of said at least one second jet is controlled by the ratio of the cross section of the orifice of said at least one second jet compared to the cross section of the orifice of said first jet.
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Accused Products
Abstract
An explosive and narcotics detection system detects the presence of trace particles of those materials that are adhering to surfaces. In order to detect such particles, it is necessary to first dislodge or release them from the surface, next to transport them to the detection instrument, and last to accumulate them on or in a particle collection device associated with the instrument. Narcotics and explosive particles are often bound tenaciously to the surface, and simple techniques, such as blowing air, will either remove only the largest particles or none at all. A nozzle to release particles of narcotics and explosives employs a coaxial configuration that permits particle release at an increased distance from the nozzle compared to existing devices.
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Citations
13 Claims
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1. A method for dislodging and releasing particles of explosives or narcotics from a target surface, comprising:
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providing at least one nozzle, the nozzle including a first orifice for the emission of a first jet of pressurized gas directed towards said target surface and at least one second orifice for the emission of a second jet of pressurized gas directed towards said target surface, wherein a velocity of gas emitted by said second jet is equal to or greater than a velocity of gas emitted in said first jet; controlling at least one of;
the first jet and the second jet using at least one controller, wherein controlling the at least one of;
the first jet and the second jet includes emitting the pulse of said second jet at less than one second prior to the emission of the pulse from said first jet, and maintaining the pulse of said second jet during the pulse of said first jet, and wherein said velocity of said at least one second jet is controlled by the ratio of the cross section of the orifice of said at least one second jet compared to the cross section of the orifice of said first jet. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 13)
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11. A chemical detection system, comprising:
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a particle release component that releases particles from a target surface; a particle collection component that collects the particles; and a particle transport component that transports the particles from the target surface to the particle collection component, wherein the particle release component includes; at least one nozzle, the at least one nozzle including; a first orifice for the emission of a first jet of pressurized gas directed towards said target surface; and at least one second orifice for the emission of a second jet of pressurized gas directed towards said target surface, wherein a velocity of gas emitted by said second jet is equal to or greater than a velocity of gas emitted in said first jet; at least one controller that controls at least one of;
the first jet and the second jet, wherein the pulse of said second jet is emitted less than one second prior to the emission of the pulse from said first jet, and the pulse of said second jet is on during the pulse of said first jet, and wherein said velocity of said at least one second jet is controlled by the ratio of the cross section of the orifice of said at least one second jet compared to the cross section of the orifice of said first jet. - View Dependent Claims (12)
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Specification