RU2739449C1 - Air intake device with drop plug of unmanned aerial vehicle with air-jet engine - Google Patents

Abstract

FIELD: aviation.

SUBSTANCE: invention relates to aircraft engineering, to structural elements for engines of unmanned aerial vehicles (hereinafter UAV), in particular to such as air intake devices and protective devices of various types of air-jet engines - turbojet, ramjet engines, and so forth. Air-intake device with a drop-off plug of an unmanned aerial vehicle with an air-jet engine has a drop-off plug at the inlet of the air intake device, pyro pusher with gas generator, located in sealed niche, which is element of air intake device surface, destructible fixation element, piston in housing and pushing piston, surface of end face of which coincides with outer surface of air intake device, wherein pyro pusher gas generator is located in one housing with pyro pusher parallel to pyro pusher longitudinal axis. Proposed technical solution can be used in aviation for air intake devices and protective devices for various types of UAV air-jet engines.

EFFECT: technical task of invention consists in increase of effective volume of UAV compartment.

4 cl, 4 dwg

Description

The invention relates to aeronautical engineering, to structural elements for engines of unmanned aerial vehicles (hereinafter - UAVs), in particular to such as air intakes and protective devices of various types of air-jet engines - turbojets, ramjets, etc.

Known air intake device with a plug of an air-jet engine (hereinafter - WFD), (patent No. 137 339 dated 02/10/2014), in which the plug is located at the entrance to the air intake device, has a streamlined aerodynamic shape, is discharged and contains a pyro pusher for it discharge, the pyro-pusher consists of a body, a gas generator with a throttle washer, dumped with a piston plug, a destructible fixation element and a pushing piston, while the pushing piston at the end of the stroke closes the channel for the location of the piston discharged with the plug, and the end surface coincides with the outer surface of the air intake device ...

The general essential features that coincide with the proposed technical solution are that the device contains a plug located at the inlet to the air intake device, the plug is made to be ejected and contains a pyro-pusher for its release. The pyro-pusher consists of a body, a gas generator discharged with a piston plug, a destructible fixing element and a pushing piston.

A feature of this air intake device with a VFD plug is that this device with a gas generator located perpendicular to the longitudinal axis of the pyro pusher occupies a large space in the UAV compartment, it cannot be used if the compartment in which this device is located is, for example, a fuel tank. In addition, installation of the device or replacement of the gas generator requires a hatch on the compartment, which complicates the design of the compartment, assembly of the compartment and degrades the operational characteristics of the aircraft. In addition, the reset piston has only one guide element, which can lead to distortions or jamming, and the pushing piston is not fixed in the pyro pusher body.

The proposed invention solves the technical problem of increasing the usable volume of the UAV compartment, the possibility of placing a pyro-pusher with a gas generator in the fuel tank compartment of the UAV, providing a given surface of the air intake device (theoretical circuit) in the installation zone of a niche and a pyro-pusher with a gas generator, increasing the reliability of the pyro-pusher operation, improving the operational characteristics of the UAV.

To solve this technical problem in an air intake UAV with an air-breathing engine, the plug is located at the inlet to the air intake device, it is made to be discharged, contains a pyro-pusher which consists of a body, a gas generator discharged with a piston plug, a destructible fixing element and a pushing piston, while the pushing piston at the end of the stroke closes its end face is the channel for the location of the piston dumped with the plug, while the end face of the pushing piston coincides with the outer surface of the air intake device. The pyro-pusher gas generator is located in the same housing with the pyro-pusher parallel to the longitudinal axis of the pyro-pusher.

A distinctive feature of the proposed device is that the pyro-pusher gas generator is located in the same housing with the pyro-pusher parallel to the longitudinal axis of the pyro-pusher, in the pyro-pusher body there is a thrust sleeve connected to the pushing piston with a destructible element and a stop, the pyro-pusher with the gas generator are located in a sealed niche fixed to the air intake device being a structural element of the air intake device, the flange of the pyro-pusher body is fixed on a sealed niche and is an element of the surface of the air intake device.

Due to the presence of these distinctive features in conjunction with the known ones, the following technical result is achieved - an increase in the useful volume of the UAV compartment (by placing the gas generator in the same housing with the pyro pusher parallel to the longitudinal axis of the pyro pusher), the possibility of placing the pyro pusher with the gas generator in the devices (theoretical circuit) in the area of installation of a niche and a pyro-pusher with a gas generator, increasing the reliability of the pyro-pusher operation, improving the operational characteristics of the UAV.

The proposed technical solution can find application in aviation for air intake devices and protective devices for various types of air-launched jet engines of UAVs.

An air intake with a dump plug for a jet-powered UAV is shown in FIG. 1, 2, 3.4.

FIG. 1 shows a longitudinal section of an air intake device with a resettable plug and a pyro pusher.

FIG. 2 shows a longitudinal section of the air intake after the plug has been reset.

FIG. 3 shows a remote element A on an enlarged scale, which shows a sealed niche and a pyro pusher with a gas generator placed in it.

FIG. 4 shows the remote element B on an enlarged scale, which shows the attachment of the reset plug to the pyro pusher.

Shown in FIG. 1 air intake device (hereinafter referred to as VCU) has a resettable plug 1, a pyro pusher 2 with a gas generator 3, a sealed niche 4 and a tube 5 for laying an electric harness for a gas generator 3. The electrical connector and an electrical harness for the gas generator are not shown. In this case, the flange of the body 6 of the pyro pusher 2 has threaded holes 17, is attached to the sealed niche 4 with screws 16 and is an element of the surface of the VCU.

Shown in FIG. 3 pyro-pusher 2 consists of a body 6 with a throttle hole 7, a reset piston 8 with a shear element 9, and a fork 10, a pushing piston 11 with O-rings 12, a thrust sleeve 13 and a shear element 14, a stop 15 with O-rings 12. The thrust sleeve 13 is a guide element for the dumped piston 8 during its movement in the body 6 of the pyro pusher 2, and after leaving the dumped piston 8, it closes the hole in the body 6 of the pyro pusher, and the stop 15 ensures the immobility of the pushing piston during operation.

Shown in FIG. 4, the plug 1 has a threaded bushing 18, an ear 19 with a threaded part and a lock washer 20.

The ear 19 is docked with the plug 10 of the reset piston 8, and with the help of the threaded bushing 18, the reset plug 1 is tightened to the VCU body.

The device works as follows.

After operation of the gas generator 3, the combustion products of the powder under pressure enter through the throttle hole 7 into the above-piston cavity of the pushing piston 11. Under their influence, the shear element 9 is destroyed and then the joint movement of the pushing piston 11 with the ejected piston 8 and the plug 1. There is a shockless separation of the plug 1. with a reset piston 8 from the air intake. After that, the thrust sleeve 13 abuts against the shoulder of the body 6 of the pyro pusher 2, the shear element 14 is destroyed, the pushing piston 11 moves to the stop against the thrust sleeve 13 and closes the hole in the body of the pyro pusher.

Claims (4)

1. An air intake device with a dumping plug of an unmanned aerial vehicle with an air-jet engine, in which the plug is located at the inlet to the air intake device, is made dumpable, contains a pyro-pusher, which consists of a body, a gas generator dumped with a piston plug, a destructible fixing element, a piston in the housing and the pushing piston, while the pushing piston at the end of the stroke closes with its end the channel for the location of the piston dumped with the plug, while the surface of the pushing piston end coincides with the outer surface of the air intake device, characterized in that the pyro pusher gas generator is located in the same body with the pyro pusher parallel to the longitudinal axis pyro pusher. 2. An air intake device with a dumping plug of an unmanned aerial vehicle with an air-jet engine according to claim 1, characterized in that the pyro-pusher body has a thrust bushing connected to a pushing piston, a destructible element, and a stop. 3. An air intake device with a dumped plug of an unmanned aerial vehicle with an air-jet engine according to claim 1, characterized in that the pyro-pusher with a gas generator is located in a sealed niche fixed to the air intake device and is a structural element of the air intake device. 4. An air intake device with a dumped plug of an unmanned aerial vehicle with an air-jet engine according to claim 1, characterized in that the flange of the pyro-pusher body is fixed on a sealed niche and is an element of the surface of the air intake device.

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