RU197363U1 - Resettable pyrodrive with plug for air intake devices of unmanned aerial vehicles with an air-jet engine - Google Patents

Abstract

A resettable pyrodrive with a plug for the air intake devices of unmanned aerial vehicles with an air-jet engine consists of a body containing a gas generator, a piston and an emphasis, and a cup containing a spring-loaded closing rod with spring-loaded clamps and an annular groove with a chamfer for the clamps. A gas channel is made in the pyro-pusher body. The pusher body is located in the zone between the inner surface of the air intake device and the plug being discharged, and the glass is located in a sealed niche, which is an element of the air intake device design, the glass is connected to the body by a destructible element. The proposed technical solution can be used in aviation for air intake devices of unmanned aerial vehicles with air-jet engines. 3 s.p. f-ly, 6 ill.

Description

The utility model relates to aviation technology, to the structural elements of unmanned aerial vehicle engines (UAVs), in particular to such as air intake devices (VZU) and protective devices of various types of jet engines.

Known adopted for the prototype "Pyrodrive resettable plugs of the intake device of an air-jet engine" - utility model No. 161930 (application No. 2014144357 from 11/06/14).

General essential features of the prototype, coinciding with the essential features of the proposed device is the presence of a housing, a gas generator, located in the area between the housing of the air intake device and the resetting plug, discharged with the plug of the piston with a gas channel.

A peculiarity of the prototype pyrodrive is a large volume of a sealed niche in which the pyrodrive housing with incoming elements is located, which reduces the useful volume of the compartment and increases the mass of the UAV compartment, and if the compartment is a fuel tank, it reduces the amount of refuelable fuel, the complexity of the pyrodrive design for two interconnected pistons and the presence of a bypass channel, etc.

The proposed utility model solves the technical problem of increasing the useful volume of the aircraft compartment (increasing the amount of fuel to be refilled), reducing its mass, simplifying the design and assembly, and increasing the reliability of the separation of the plug.

To solve this technical problem, a resettable pyrodrive with a plug for the air intake device of an unmanned aerial vehicle with an air-jet engine consists of a body containing a gas generator, a piston and an emphasis, and a glass containing a spring-loaded closing rod with spring-loaded clamps and an annular groove with a chamfer for the clamps. The gas channel is made in the pyrodrive body. The pyrodrive casing is located in the zone between the inner surface of the air intake device and the discharge plug, and the glass is located in a sealed niche, which is a structural element of the air intake device. The glass is connected to the housing by a destructible element.

Distinctive features of the proposed technical solution is that the pyrodrive contains a cup in which a spring-loaded closing rod with spring-loaded clamps and an annular groove with a chamfer for the clamps, and the pyrodrive body with a gas generator, a piston and a piston stop are located in the area between the inner surface of the air intake device and the triggered plug and the glass is located in a sealed niche, which is an element of the design of the air intake device, the glass is connected to the housing by a destructible element th.

The utility model is illustrated by the drawings of FIG. 1-6.

In FIG. 1 shows a longitudinal section of a VZU and a discharged pyrodrive with a plug of an OZU UAV with an air-jet engine (hereinafter - pyrodrive).

In FIG. 2 shows a longitudinal section of the OVC pyrodrive after resetting the pyrodrive housing with plug

In FIG. 3 shows a section AA along the pyrodrive housing.

In FIG. 4 shows a section DD on a sealed niche, a glass and a closing rod with clamps.

In FIG. 5 shows a section B-B at the junction of the pyrodrive casing with a sealed niche of the compartment and an external element G with a clamp of the closing rod and with a tube for laying an electric harness for a gas generator.

In FIG. 6 shows a remote element E with a latch in the initial position and a remote element D of the joint of the piston pushing the plug with the plug.

Presented in FIG. 1-6, the pyrodrive consists of a housing 1 with a gas channel 2, a gas generator 3, a piston 4, an abutment 5, a first destructible fixing element 6, a cup 7 with a second destructible fixing element 8, a closing rod 9, a spring 10, latches 11 with springs 12, an annular groove 13 with a chamfer 14 (see Fig. 4, 5, 6). In the closing rod 9 there are samples 15 made to reduce its mass (see Fig. 4).

The housing 1, the piston 4, the stop 5, the gas generator 3, the closing rod 9 are provided with corresponding o-rings 16 (see Fig. 3, 5, 6).

The glass 7 is attached to the sealed niche 17 with screws 18 (see Fig. 2, 5), in the sealed niche 17 there is a tube 19 for laying the electric harness for the gas generator 3.

The electrical connector and electrical harness for the gas generator are not considered and not shown.

The piston 4 is attached to the plug 20 by an ear-to-plug connection using a “plug” 21 with a threaded part and a threaded sleeve 22 with a lock washer 23 (see Figs. 1, 6).

The device operates as follows.

In the initial position, the piston 4 is fixed in the housing 1 using the first destructible locking element 6, the stop 5 ensures the immobility of the piston 4 during operation. The housing 1 is fixed in the glass 7 using the second destructible locking element 8.

After installing the pyrodrive, the tightening of the plug 20 to the housing of the VZU is performed using a threaded sleeve 22, which is mounted by a lock washer 23.

After actuation of the gas generator 3, the combustion products of the powder under pressure enter the piston cavity above the piston 4. Under their influence, the first fixation element 6 is destroyed and the piston 4 moves with the plug 20 until it stops against the flange of the pyrodrive housing 1. Next, the combustion products enter the gas channel 2 of the housing 1, under their influence, the second fixing element 8 is destroyed and the housing 1 is pushed out together with the plug 20 from the glass 7. The plug 20 is shocklessly separated from the pyrodrive housing 1 together with the piston 5, stop 6 and the gas generator 3.

After the housing 1 leaves the cup 7, the closing rod 9 is moved under the influence of the spring 10, at the end of the closing rod 9, the clamps 11 under the action of the springs 12 fall into the annular groove 13, the closing rod 9 is fixed in the cup 7, closing the inner cavity of the cup 7. Chamfers 14 of the annular groove 13 provide entry latch 11 in the annular groove 13.

In this case, the outer surface of the flange of the glass 7 and the outer surface of the closing rod 9 are made corresponding to the surface (theoretical contour) VZU.

The proposed technical solution can be used in aviation for air intake devices of unmanned aerial vehicles with air-jet engines.

Claims (4)

1. A resettable pyrodrive with a plug for an air intake device of an unmanned aerial vehicle with an air-jet engine, including a housing, a gas generator and a piston reset with a plug, characterized in that it contains a cup containing a spring-loaded closing rod with spring-loaded clamps and an annular groove with a chamfer for clamps, and the pyrodrive housing with a gas generator, a piston and a piston stop are located in the area between the inner surface of the air intake device and the triggered plug. 2. A resettable pyrodrive with a plug for the air intake device of an unmanned aerial vehicle with an air-jet engine according to claim 1, characterized in that the gas channel is made in the pyrodrive body. 3. A resettable pyrodrive with a plug for the air intake device of an unmanned aerial vehicle with an air-jet engine according to claim 1, characterized in that the glass is located in a sealed niche, which is an element of the structure of the air intake device. 4. A resettable pyrodrive with a plug for an air intake device of an unmanned aerial vehicle with an air-jet engine according to claim 1, characterized in that the glass is connected to the body by a destructible element.

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