RU63874U1 - TURBOJET ENGINE NOZZLE BLOCK WITH STARTED POWDER GAS GENERATOR - Google Patents

Abstract

The utility model relates to aircraft and can be used for turbojet engines (turbojet engines) with a starting powder gas generator used for unmanned aerial vehicles (UAVs). The proposed utility model solves the technical problem of increasing the reliability of the nozzle block of the turbojet engine and reducing the time of preparation of the UAV for the main application. To achieve the named technical result in the nozzle block of the turbojet engine with a starting powder gas generator, including a nozzle, a plug made in the form of a metal cone hermetically fixed on the engine nozzle with a bottom and an intermediate partition with holes closed by a mesh and a polymer film fixed to the partition, while in the surface the cylinder between the bottom and the partition also made holes closed by a mesh and a film, the area of which is not less than the area of the holes of the partition, as well as the fixation device and plugs, the locking device is made according to option 1 in the form of a collet lock containing a rod, collet cams, an expanding ring, a restrictive mounting ring, a spring and a socket for collet cams in the central body of the nozzle; according to option 2 - in the form of a bayonet lock containing a rod with slots, a spring, a restrictive pin and a socket for rod slots in the central body of the nozzle.

Description

The utility model relates to aircraft and can be used for turbojet engines (turbojet engines) with a starting powder gas generator used for unmanned aerial vehicles (UAVs).

Known nozzle block of a turbojet engine with a starting powder gas generator (utility model of the Russian Federation No. 27410), which is taken as a prototype including a nozzle; a plug made in the form of a metal cylinder hermetically fixed on the engine nozzle with a bottom and an intermediate partition with holes closed by a mesh and a polymer film fixed to the partition, while in the surface of the cylinder between the bottom and the partition there are also holes made with a mesh and a film, the area of which is not less than the area of the bore holes, as well as containing a fixing device in the form of a fixing screw screwed into the threaded hole in the end of the central body of the engine nozzle and guide cap to the nozzle.

Common features with the proposed technical solution are everything except the implementation of the fixing device in the form of a fixing screw and a threaded hole in the central body of the engine nozzle.

The disadvantage of this design is the fastening of the plug with a screw screwed into the end of the central body of the nozzle of the turbojet engine: when installing or tightening the fastening screw, it is possible to break or crush the threads (which will lead to failure to fulfill the basic protective functions of the plug in case of unauthorized actuation of the trigger powder gas generator of the turbojet engine replacing the fixing screw and

expensive repair of turbojet engines); a long time for unscrewing the fixing screw when removing the plug (which increases the preparation time for UAVs with a turbojet engine of this type for main use).

The proposed utility model solves the technical problem of increasing the reliability of the nozzle block of the turbojet engine and reducing the time of preparation of the UAV for the main application.

To achieve the named technical result in the nozzle block of the turbojet engine with a starting powder gas generator, including a nozzle, a plug made in the form of a metal cone hermetically fixed on the engine nozzle with a bottom and an intermediate partition with holes closed by a mesh and a polymer film fixed to the partition, while in the surface the cylinder between the bottom and the partition also made holes closed by a mesh and a film, the area of which is not less than the area of the holes of the partition, as well as the fixation device and plugs, the locking device is made according to option 1 in the form of a collet lock containing a spring-loaded rod, collet cams and an expanding ring, while the counterpart is made in the form of a socket for collet cams in the central body of the nozzle; according to option 2 - in the form of a bayonet lock containing a spring-loaded rod with splines and a restrictive pin, while the counterpart is made in the form of a slot for rod splines in the central body of the nozzle.

Distinctive features of the proposed technical solution from the well-known are the following: according to option 1, the fixing part of the staple fixing device is made in the form of a collet lock containing a spring-loaded rod, collet cams and an expanding ring, while the counterpart is made in the form of a socket for collet cams in the central nozzle body; according to option 2, the fixing part of the locking device of the plug is made in the form of a bayonet lock containing a spring-loaded rod with slots and a restrictive pin, while

the counterpart is made in the form of a slot for the splines of the rod in the central body of the nozzle.

Due to the presence of the indicated distinctive features, together with the known ones, the following technical result is achieved due to the fact that the locking device is quick-detachable and does not have a detachable threaded connection with the central nozzle body of the turbojet engine, the reliability of the nozzle block of the turbojet engine with a starting powder gas generator is increased, and the preparation time of the UAV for main application.

The proposed technical solution can find application in the storage, transportation, installation of turbofan engines and the operation of UAVs as a protective device for turbofan engines.

The presented device is illustrated in figure 1-2.

Figure 1 shows a longitudinal section of the nozzle block of the turbojet engine with a starting powder gas generator with a locking device with a collet lock.

Figure 2 shows a longitudinal section of a nozzle block turbofan engine with a starting powder gas generator with a locking device with a bayonet lock.

The nozzle block of the turbojet engine with a starting powder gas generator shown in Fig. 1 comprises a nozzle 1, a plug consisting of a cone 2 with an intermediate partition 3 with holes closed by a mesh 4 with a polymer film fixed to it. On the surface of the cone 2 between the bottom and the partition 4 holes are made, also closed by a mesh 5 with a polymer film. The plug is sealed in the engine casing 6 with a powder gas generator (not shown in FIG. 1) with a seal 7, and in the nozzle 1 with a seal 8. The nozzle block also includes a plug fixation device, consisting of a fastener made in the form of a collet lock containing a rod 9, collet jaws 10, expansion ring 11, restrictive mounting ring 14

and a spring 15, and a mate, made in the form of a socket 13 for collet cams 10 in the Central body of the nozzle 12.

The nozzle block of the turbojet engine with a starting powder gas generator shown in Fig. 2 comprises a nozzle 1, a plug consisting of a cone 2 with an intermediate partition 3 with holes closed by a mesh 4 with a polymer film fixed to it. On the surface of the cone 2 between the bottom and the partition 4 holes are made, also closed by a mesh 5 with a polymer film. The plug is sealed in the engine casing 6 with a powder gas generator (not shown in FIG. 2) with a seal 7, and in the nozzle 1 with a seal 8. The nozzle block also contains a plug fixing device consisting of a fastener made in the form of a bayonet lock containing a rod 9 with splines, a spring 10 and a restrictive pin 3, and a mating part made in the form of a slot 13 for the splines of the rod 9 in the Central body of the nozzle 12.

The device shown in figure 1, operates as follows: when pulling the rod 9 collet cams 10 are compressed under the influence of the expanding ring 11, providing the output of the collet cams 10 from the slot 13 of the Central body of the nozzle 12 and the disconnection of the lock.

When installing the plug stem 9 under the influence of the spring 15 returns to its original position, unclenching the collet cams 10 in the socket 13 of the Central body of the nozzle 12 and securing the fixation of the plug.

The device shown in Fig. 2 works as follows: when removing the plug, the rod 9 is rotated to align the splines of the rod with the grooves in the socket 13 of the central body of the nozzle 12, while the spring 10 pushes the rod 9 out of the connection.

When installing the plug stem 9 is rotated in the socket 13 of the Central body of the nozzle 12 until it stops in the restrictive pin 11.

Claims (2)

1. The nozzle block of a turbojet engine with a starting powder gas generator, including a nozzle with a central body, a plug made in the form of a metal cone hermetically attached to the engine nozzle with a bottom and an intermediate partition with holes closed by a mesh and a polymer film fixed to the partition, while in the surface the cylinder between the bottom and the partition also made holes closed by a mesh and a film, the area of which is not less than the area of the holes of the partition, as well as a locking device ki, consisting of a mounting part located on the plug and a mating part located on the central body of the nozzle, characterized in that the mounting part of the fixing device of the plug is made in the form of a collet lock containing a spring-loaded rod, collet cams and an expanding ring, while the mating part is made in the form of a socket for collet cams in the central body of the nozzle. 2. The nozzle block of a turbojet engine with a starting powder gas generator, including a nozzle with a central body, a plug made in the form of a metal cone hermetically fixed on the engine nozzle with a bottom and an intermediate partition with holes closed by a mesh and a polymer film fixed to the partition, while in the surface the cylinder between the bottom and the partition also made holes closed with a mesh and a film, the area of which is not less than the area of the holes of the partition, as well as a device for fixing plugs ki, a mounting part located on the plug and a mating part located on the central body of the nozzle, characterized in that the mounting part of the fixing device of the plug is made in the form of a bayonet lock containing a spring-loaded rod with slots and a restrictive pin, while the mating part is made in the form of a socket for stem splines in the central body of the nozzle.