An airtight telescoping rigid conduit is disclosed which includes rigid tubular sections which are coupled together using multiple bearings and a pressure actuated resilient seal ring. The tubular sections are constructed with a heat insulating foam core to minimize losses to, or gains from, the atm
An airtight telescoping rigid conduit is disclosed which includes rigid tubular sections which are coupled together using multiple bearings and a pressure actuated resilient seal ring. The tubular sections are constructed with a heat insulating foam core to minimize losses to, or gains from, the atmosphere. The conduit is designed to be attached to a telescoping passenger loading bridge which connects an airport terminal to an aircraft. The conduit provides preconditioned cooling or heating air from the terminal to the aircraft.
대표청구항▼
1. Telescoping rigid conduit, comprising: a first section of rigid tubing; a scond section of rigid tubing having an outside diameter which is less than the inside diameter of the first section, whereby one end of the second section fits within one end of the first section, forming an annular sp
1. Telescoping rigid conduit, comprising: a first section of rigid tubing; a scond section of rigid tubing having an outside diameter which is less than the inside diameter of the first section, whereby one end of the second section fits within one end of the first section, forming an annular space between the inner surface of the first section and the outer surface of the second section, where the width of the annular space is one-half the difference between the inside diameter of the first section and the outside diameter of the second section, and where the first and second sections of rigid tubing are each formed of a layer of heat insulating foam sandwiched between two layers of fiber reinforced plastic; a first bearing in the shape of a first ring which is affixed around the outer surface of the second section adjacent the one end of the second section, in which the thickness of the first ring is slightly less than the width of the annular space, and in which the outer surface of the first ring is sufficiently smooth to slide freely along the inner surface of the first section; a second bearing in the shape of a second ring which is affixed around the outer surface of the second section at a predetermined distance from the first bearing, in which the thickness of the second ring is slightly less than the width of the annular space, and in which the outer surface of the second ring is sufficiently smooth to slide freely along the inner surface of the first section; a third bearing in the shape of a third ring which is affixed to the inner surface within the first section adjacent the one end of the first section, in which the thickness of the third ring is slightly less than the width of the annular space, and in which the inner surface of the third ring is sufficiently smooth to slide freely along the outer surface of the second section; and a resilient seal formed in the shape of a seal ring having a generally V-shaped cross-section, where the outside surface of one leg of the V forms the inner surface of the seal ring which is positioned around the outer surface of the second section between the first and second bearings, where the width of the one leg of the V is approximately equal to the predetermined distance, where the open end of the V is oriented toward the first bearing, and where the other leg of the V extends into contact with the inner surface of the first section, whereby pressurized gas flowing through the first section into the second section is prevented from leaking out of the first section by the V-shaped resilient seal ring, which expands to seal the annular space in response to the force generated by the pressurized gas. 2. Telescoping rigid conduit, comprising: a first section of rigid tubing; a second section of rigid tubing having an outside diameter which is less than the inside diameter of the first section, whereby one end of the second section fits within one end of the first section, forming an annular space between the inner surface of the first section and the outer surface of the second section, where the width of the annular space is one-half the difference between the inside diameter of the first section and the outside diameter of the second section, and where the first and second sections of rigid tubing are fastened to adjacent sections of a telescoping passenger loading bridge used to connect between an airline terminal and a parked aircraft; a first bearing in the shape of a first ring which is affixed around the outer surface of the second section adjacent the one end of the second section, in which the thickness of the first ring is slightly less than the width of the annular space, and in which the outer surface of the first ring is sufficienty smooth to slide freely along the inner surface of the first section; a second bearing in the shape of a second ring which is affixed around the outer surface of the second section at a predetermined distance from the first bearing, in which the thickness of the second ring is slightly less than the width of the annular space, and in which the outer surface of the second ring is sufficiently smooth to slide freely along the inner surface of the first section; a third bearing in the shape of a third ring which is affixed to the inner surface within the first section adjacent the one end of the first section, in which the thickness of the third ring is slightly less than the width of the annular space, and in which the inner surface of the third ring is sufficiently smooth to slide freely along the outer surface of the second section; and a resilient seal formed in the shape of a seal ring having a generally V-shaped cross-section, where the outside surface of one leg of the V forms the inner surface of the seal ring which is positioned around the outer surface of the second section between the first and second bearings, where the width of the one leg of the V is approximately equal to the predetermined distance, where the open end of the V is oriented toward the first bearing, and where the other leg of the V extends into contact with the inner surface of the first section, whereby pressurized gas flowing through the first section into the second section is prevented from leaking out of the first section by the V-shaped resilient seal ring, which expands to seal the annular space in response to the force generated by the pressurized gas. 3. The conduit of claim 2 in which the pressurized gas is low pressure air used to condition the cabin of the parked aircraft. 4. The conduit of claim 3 in which the pressure of the air is less than one pound per square inch.
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이 특허에 인용된 특허 (3)
Chambless Joe G. (Shreveport LA) Freeman John W. (Houston TX), Packing means for a wellhead assembly.
Hone George Dean (Roy UT) Mitchell Gary Ronald (Salt Lake City UT), Fire control foam distribution system for use in distributing foam beneath a passenger boarding bridge.
Gosis, Anatoly; Koizumi, Scott Takayuki; Koch, Folkert Fred; Piety, Brian Michael; Resendes, Mark David; Miller, Dale Arnold, Self-positioning adapting system between aircraft and preconditioned-air supply hose.
Kim, Dong Soo; Cho, Seung Sang; Yang, Seok Cheol, Tunnel air-conditioning apparatus, passenger boarding bridge including the apparatus, passenger boarding bridge air-conditioning system, and system for controlling same.
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