RU2199623C1 - Gas-jet machine - Google Patents

Abstract

FIELD: cleaning and anti-icing treatment of airfield and rod coats. SUBSTANCE: mounted on self-propelled chassis 1 is air flow generator 2 and anti-icing agent spraying system including reservoir 11 connected with ejection injector 17 by means of pipe line 15 through proportioner 16. Air flow generator 2 is mounted along axis of self-propelled chassis 1 and is made in form of small-sized aircraft engine 3 with free turbine 4 kinematically linked with air supercharger at whose outlet air receiver 8 is mounted; air receiver is provided with air discharge branch pipe 9 with jet-directing nozzle 10 mounted at its end perpendicularly to axis of chassis 1 and adjustable in angle of air delivery. Ejection injector 17 is fitted on shear of jet-directing nozzle 10. EFFECT: enhanced efficiency at low cost. 3 cl, 1 dwg

Description

 A gas-jet machine refers to devices used for cleaning and de-icing airdrome and road surfaces, and can also be used for sanitary treatment of forest and agricultural land against pests, foot and mouth disease, locust disperse irrigation, protection of heat-loving plantings from short-term frosts, etc.

 The closest analogue (prototype) of the present invention is a gas-jet machine for cleaning airfield coverings from clogging and freshly fallen snow [1], including a self-propelled chassis, on which an air flow generator is mounted, made in the form of a turbojet engine fixed perpendicular to the axis of the chassis with a high-temperature exhaust nozzle for directing high temperature gas jet.

 Significant disadvantages of the prototype is that when blowing the treated surface with a high-temperature gas stream at positive atmospheric air temperatures, the concrete overheats, heats and blows out the expansion joints of the treated surface. When cleaning the surface of snow, the formation of induced ice occurs. In addition, high fuel consumption per surface unit is required.

 The technical problem to which the proposed technical solution is directed is to provide the possibility of cleaning and anti-icing processing of airfield and road surfaces without damaging them at reduced operating costs per unit of the treated surface.

 The specified technical problem is solved in that the gas-jet machine contains a self-propelled chassis with an air flow generator located on it and is equipped with an anti-icing liquid spray system mounted on a self-propelled chassis, made in the form of a tank for anti-icing fluid, connected through a pipeline through a dispenser with an ejection nozzle, while the tank is made with double walls, the internal cavity between which is filled with a heated circulating liquid, and the air generator The flow stream is mounted along the axis of the self-propelled chassis and is made in the form of a small-sized aircraft engine with a free turbine kinematically connected to an air blower, at the outlet of which there is an air intake receiver with an air exhaust pipe, at the end of which a directional nozzle is adjusted perpendicular to the axis of the chassis, moreover, the said ejection nozzle is placed on a section of the jet nozzle.

 In this case, the air blower is made in the form of a centrifugal compressor of a prepared gas turbine engine that has fulfilled its flight life, and the internal cavity between the double walls of the tank for anti-icing liquid is filled with water.

 The drawing shows a General view of a gas-jet machine.

 The proposed gas-jet machine contains a self-propelled chassis 1, an air flow generator 2, which is mounted along the axis of the self-propelled chassis 1. The air flow generator 2 is made in the form of a small aircraft engine 3 with a free turbine 4, which is kinematically connected via a drive shaft 5 via a driveshaft 6 to a supercharger air, made in the form of a centrifugal compressor 7 of the prepared gas turbine engine, spent flight resource. At the outlet of the centrifugal compressor 7, an air intake receiver 8 is installed with an exhaust pipe 9, equipped at the end with a flow nozzle 10, adjustable in angle of air supply, oriented perpendicular to the axis of the chassis.

 The gas-jet machine is additionally equipped with an anti-icing fluid spray system, which includes a container 11 with double walls 12, 13, the inner cavity 14 between which is filled with water, which constantly circulates due to its heating by exhaust gases both from the chassis engine (not shown) and from the aircraft engine 3. The internal cavity 14 is connected via a pipe 15 through a dispenser 16 to an ejector nozzle 17 located in the air stream at a nozzle exit 10.

 Gas-jet machine operates as follows.

 Before starting work, the aircraft engine 3 is started, the rotation of the free turbine 4 of which is transmitted through the output shaft 5 and the driveshaft 6 to the compressor 7. The air from the compressor 7 enters the air intake receiver 8, and then through the air exhaust pipe 9 and the nozzle 10 at a certain angle to the cleaned airfield surface.

 When the machine moves, objects of debris, dry freshly fallen snow and ice formations are blown away from the machine at a given angle.

 The anti-icing fluid spray system is involved in the cleaning of coatings from ice formations. The liquid from the inner cavity 14 through the pipeline 15 enters the dispenser 16, and then into the ejection nozzle 17, which together with the nozzle 10 is installed at a certain angle to the surface to be treated. After surface treatment with anti-icing fluid, dissolved ice is blown out.

Sources of information
1. Recommendations on the use of heat and wind machines for runway cleaning. - M .: Air transport, 1981, p. 39 (prototype).

Claims (3)

 1. A gas-jet machine containing a self-propelled chassis with an air flow generator located on it, characterized in that it is equipped with a defrosting liquid spray system mounted on a self-propelled chassis, made in the form of a tank for anti-icing fluid, connected through a pipeline through a dispenser with an ejection nozzle, while the indicated container is made with double walls, the internal cavity between which is filled with heated circulating fluid, and the air flow generator is It is aligned along the axis of the self-propelled chassis and is made in the form of a small-sized aircraft engine with a free turbine kinematically connected to an air blower, at the outlet of which there is an air intake receiver with an air exhaust pipe, at the end of which a directional nozzle adjustable in angle of air supply is mounted, moreover, The ejection nozzle is located on a section of the jet nozzle.  2. The gas-jet machine according to claim 1, characterized in that the air blower is made in the form of a centrifugal compressor of a prepared gas turbine engine that has fulfilled a flying resource.  3. The gas-jet machine according to claim 1, characterized in that the internal cavity between the double walls of the tank for anti-icing liquid is filled with water.