초록 ▼

A leak detector for an insulated duct carrying pressurized hot air comprises a cover secured over a circumferential cut in the insulation of the duct, or over a joint connecting duct sections, thereby creating a reservoir of hot air which has leaked from the duct or joint, a manifold block defining

A leak detector for an insulated duct carrying pressurized hot air comprises a cover secured over a circumferential cut in the insulation of the duct, or over a joint connecting duct sections, thereby creating a reservoir of hot air which has leaked from the duct or joint, a manifold block defining a conduit therein in communication with the hot air reservoir and a cap for securing heat sensitive wires to manifold at the end of the conduit such that the hot air from the hot air reservoir impinges directly on the heat sensitive wires. The leak detector includes flow control mechanisms in the body of the manifold block, to prevent false alarms arising from nominal leakage resulting from ordinary operation of the duct system.

대표청구항 ▼

1. A joint cover apparatus, for aircraft ducting systems that transport high temperature pressurized aircraft exhaust gases for re-use in various on-board functions, the apparatus being utilized to-cover a joint between abutting duct sections, wherein the ducting system is provided with a leak detec

1. A joint cover apparatus, for aircraft ducting systems that transport high temperature pressurized aircraft exhaust gases for re-use in various on-board functions, the apparatus being utilized to-cover a joint between abutting duct sections, wherein the ducting system is provided with a leak detection system using one or more temperature-responsive sensor wires, the joint cover apparatus comprising: a split joint cover body having an annular shape, for covering a joint formed by the ends of abutting duct sections, said duct sections forming a first contained environment, and for collecting gases emanating from the joint between said abutting duct sections;said split joint cover body including an internal gas collection region defining a second contained environment, said split joint cover body being positionable circumferentially around the joint between said abutting duct sections, and having an aperture therethrough, to permit the passage of gases from said internal gas collection region to a third contained environment external to the split joint cover body, said leak detection system being positioned within said third contained environment;at least one adjustable clamp assembly releasably engaging the split joint cover body to bind the split joint cover body around the joint between said abutting duct sections to inhibit the leakage of said emanating gases from said joint without taping, said at least one adjustable clamp assembly facilitating the removal and replacement of said split joint cover body from the joint;said third contained environment including a manifold block, said manifold block being operably connected to the aperture of the split joint cover body, for receiving and redirecting said emanating gases, said manifold block maintaining the one or more sensor wires in fixed position, relative to the aperture in the split joint cover body, for redirecting gases from the second contained environment formed by the internal gas collection region into contact with the sensor wires positioned therewithin said third contained environment, the manifold block having one or more gas passages disposed therewithin to conduct gases through the block and into contact with the one or more temperature-responsive sensor wires;said manifold block further including a flow control valve operably positioned between the aperture and the one or more sensor wires to discriminate between acceptable and unacceptable leakage levels, by precluding the flow of gases through the one or more gas passages until said gases reach a pressure corresponding to a preselected numerical value. 2. The joint cover apparatus according to claim 1, wherein the flow control valve comprises a one-way check valve. 3. The joint cover apparatus according to claim 2, wherein the one-way check valve further comprises a spring-biased ball valve. 4. The joint cover apparatus according to claim 1, further comprising: a spring-receiving pocket disposed in the manifold block;a coil spring disposed in the spring-receiving pocket;a ball positioned against the compressed coil spring; anda manifold block insert, fixedly received within a recess in the manifold block, and having a gas passage aperture disposed therein, the gas passage aperture having a peripheral edge surface having a diameter less than a maximum diameter of the ball,the coil spring being disposed in a partially compressed state, so as to maintain the ball in a substantially fluid-tight position against the peripheral edge surface of the gas passage aperture, so as to preclude the passage of leaking gases through the gas passages in the manifold block, unless the pressure of the gases exceeds a said preselected numerical value. 5. The joint cover apparatus according to claim 1, in which said manifold block further comprises a manifold block flange extending outwardly from the manifold block, for facilitating attachment of the manifold block to the split joint cover body, said manifold block flange being positionable within, and securely captured by, a portion of said split joint cover body. 6. A manifold block, for aircraft ducting systems that transport high temperature pressurized aircraft exhaust gases for re-use in various on-board functions, the manifold block for insertion into an opening in a split joint cover, which split joint cover collects gases leaking from within a first contained environment into a second contained environment, and for channeling said leaked gases to a third contained environment external to the split joint cover, said ducting system including a leak detection system using one or more temperature-responsive sensor wires positioned within said third contained environment, the manifold block comprising: a manifold block body for positioning within said third contained environment;at least one block flange emanating from said manifold block body, said manifold block body being capable of being inserted into and through said opening in said split joint cover, so as to enable the sealed affixation of said manifold block body to said split joint cover;exposed portions of said one or more temperature-responsive sensor wires being operably positioned within the manifold block body for monitoring the temperature of leaked gases accumulated within said manifold block body as they are channeled from said second contained environment to said third contained environment; andone or more gas passages disposed within the manifold block body and forming a gas path that extends from said cover to said exposed portions of said one or more sensor wires, the gas passages directing said leaked gases to said sensor wires;said manifold block further comprising a flow control valve operably disposed in the gas path, the flow control valve being used to discriminate between acceptable and unacceptable leakage levels, by precluding the flow of gases through said one or more gas passages until said gases reach a pressure corresponding to a preselected numerical value. 7. The manifold block according to claim 6, wherein the flow control valve comprises a one-way check valve. 8. The manifold block according to claim 7, wherein the one-way check valve further comprises a spring-biased ball valve. 9. The manifold block according to claim 6, further comprising: a spring-receiving pocket disposed in the manifold block body;a coil spring disposed in the spring-receiving pocket;a ball positioned against the compressed coil spring; anda manifold block insert, fixedly received within a recess in the manifold block body, and having a gas passage aperture disposed therein, the gas passage aperture having a peripheral edge surface having a diameter less than a maximum diameter of the ball,the coil spring being disposed in a partially compressed state, so as to maintain the ball in a substantially fluid-tight position against the peripheral edge surface of the gas passage aperture, so as to preclude the passage of leaking gases through the gas passages in the manifold block body, unless the pressure of the high temperature, highly pressurized gases exceeds said preselected numerical value.