RU2777144C1 - Method for creating a holding device - Google Patents

Abstract

FIELD: aviation and rocketry.

SUBSTANCE: invention relates to the field of aviation and rocketry. The method for creating a holding device includes manufacturing a holding device detachable with a pyro lock. When an electrical signal is applied, an excess pressure arises in the pyrolock, at which the piston, plunging into the response cutout (20) on the payload frame (2), moves along the body (14) of the pyrolock, rotating it due to sliding rollers (21), moving at one end along the spiral groove (22), and with the other end along straight cutouts (23), while the lever of the pyrolock body rotates the disk (12) with the locking pin shear, which leads to the rotation of the levers of the retaining links, releasing the one-sided protrusions of the rods from engagement along the mating surface, ensuring the separation of the frames. In the final section of the movement, the membrane (24), fixed in the piston (19), is cut against the knife (25), releasing the excess pressure that has arisen in the pyrolock into the cavity of the reciprocal cutout (20) of the payload frame (2), which leads to the occurrence of force, repelling the payload frame (2) from the frame of the supporting structure (1).

EFFECT: increased packing density and increased aircraft reliability.

1 cl, 10 dwg

Description

The invention relates to methods for dropping or separating objects, mainly rocket stages, compartments, warheads and other payloads from the supporting structures of aircraft, in any calculated sections of the flight path, and can be used in the field of aviation and rocketry.

The closest technical solution chosen as a prototype is the payload separation system - patent RU 2268208, containing a detachable holding device installed between the supporting structure and the payload and including mechanical locks discretely located on the supporting structure, each of which contains a rod, retaining and fixing links, wherein the lock rod is fixed at one end to the payload, and the other end, made in the form of a one-sided protrusion, contacts with the retaining link of the lock, a lock fixing device containing a multi-beam sprocket fixed with the possibility of rotation on the supporting structure in the center of the installation circumference locks and kept from turning by pyrotechnics, while the rays of the sprocket are connected to the fixing links of the corresponding locks by radially tensioned cables, the connection of the ends of which with the rays of the sprocket is made with eccentricity with respect to the axis of its rotation, while ohm, the system contains pushers for separating the payload from the supporting structure.

The common essential features of the prototype - the payload separation system, coinciding with the essential features of the proposed method are the following: the joint provides for the manufacture of a holding device that can be separated using a pyrolock, the installation of which is performed between the frame of the supporting structure and the payload frame, which includes mechanical locks that are distributed on frame of the supporting structure, containing a rod and a retaining link, and the lock rod is fixed at one end on the payload frame, and the other end, made in the form of a one-sided protrusion, abuts against the mating surface of the retaining link of the lock.

A feature of the known prototype system is that this payload separation system significantly overlaps the cross section of the junction of the frames of the separated structures, which reduces the useful internal volume and excludes the possibility of through inter-compartment placement of aircraft units. Branch pushers are separate structural elements, the presence of which reduces the reliability of the aircraft as a whole. The tensioned cables used do not allow the use of the payload separation system in a wide temperature range due to different coefficients of thermal expansion of the frames of the structures to be separated and the cables themselves. When the temperature of the structure changes in one direction, the tensioned cables loosen and the tightening force of the joint of the frames of the separated structures decreases, in the other direction, the tension of the cables increases and their safety margin decreases.

The present invention - a method of creating a holding device allows you to place various units of the aircraft passing through the plane of the junction of the frames of the separated structures, which increases the density of the layout of the aircraft as a whole. The operating temperature at which the method of creating a holding device allows you to maintain the performance of the structure is limited only by the operating temperatures of the materials from which its elements are made. The function of the branch pusher is performed by a pyro-lock, which makes it possible to increase the reliability of the aircraft as a whole.

To achieve the above technical result, the method of creating a holding device includes: manufacturing a holding device that can be detached using a pyrolock, the installation of which is performed between the frame of the supporting structure and the frame of the payload, including mechanical locks that are distributed on the frame of the supporting structure, containing a rod and a holding link, moreover, the lock rod with one end is fixed on the payload frame, and the other end, made in the form of a one-sided protrusion, abuts against the mating surface of the retaining link of the lock, while the lock rod is passed through the hole made in the payload frame, and is provided with a spring with an emphasis on the frame payload on one side, and the stop of the adjusting nut on the other side, and the retaining link of the lock is made in the form of a lever with an axis of rotation, and installed in the frame of the supporting structure, while at one end of the lever, the specified mating surface, and the other end is made in the form of an axis, which is installed in the oval cutout of the lock fixing device, made in the form of a disk, which is installed in the frame of the supporting structure with the possibility of rotation relative to the longitudinal axis, and fixed in the initial position with a shear pin, and the pyro-lock is made in in the form of a body, which is installed in the frame of the supporting structure, and is fixed from movement in the direction of the longitudinal axis with protrusions made on the frame of the supporting structure, while the body of the pyrolock is provided with a lever with an axis that is installed in the oval cutout of the disk enclosing the piston body, partially immersed in the return a cutout on the payload frame, which fixes the frames from rotation around the longitudinal axis relative to each other, while sliding rollers are installed in the piston, moving at one end along a spiral groove, which is made in the pyrolock body, and at the other end along straight cutouts, which are made in sh frame of the supporting structure, a membrane is also installed in the piston, which is cut in the final section of the piston movement against a knife, which is installed in the payload frame.

A distinctive feature of the proposed method for creating a holding device is that the lock rod is passed through a hole made in the payload frame and provided with a spring with a stop against the payload frame on one side and an adjusting nut stop on the other side, and the retaining link of the lock is made in in the form of a lever with an axis of rotation, and install it in the frame of the supporting structure, while at one end of the lever, the specified mating surface is made, and the other end is made in the form of an axis, which is installed in the oval cutout of the lock fixing device, made in the form of a disk, which is installed in frame of the supporting structure with the possibility of rotation relative to the longitudinal axis, and fixed in the initial position with a shear pin, and the pyro-lock is made in the form of a body, which is installed in the frame of the supporting structure, and is fixed from moving in the direction of the longitudinal axis with protrusions made on the frame of the supporting structure , while the body of the pyrolock is provided with a lever with an axis, which is installed in the oval cutout of the disk, enclosing the piston body, partially immersed in the reciprocal cutout on the payload frame, fixing the frames from rotation around the longitudinal axis relative to each other, while sliding rollers are installed in the piston, With one end moving along a spiral groove, which is made in the body of the pyrolock, and with the other end along straight cuts, which are made in the frame of the supporting structure, a membrane is also installed in the piston, which is cut at the end section of the piston movement against a knife, which is installed in the payload frame.

Due to the presence of these distinguishing features in conjunction with the known, the following is achieved: this method allows you to place various aircraft units passing through the plane of the junction of the frames of the separated structures, which helps to increase the density of the aircraft layout, while the operating temperature at which the method of creating a holding device remains operable design, is limited only by the operating temperatures of the materials from which its elements are made, and the function of the compartment pusher is performed by a pyrolock, which makes it possible to reduce the number of actuators with an increase in the reliability of the aircraft as a whole.

This method can be used as a docking unit for rocket stages, compartments, warheads and other payloads that need to be separated during the flight.

The invention is illustrated in FIG. 1…10:

In FIG. 1 shows a way to create a holding device in isometric view.

In FIG. 2 is a front view of the payload drop method.

In FIG. 3 - sec. A-A (Fig. 2), a knife, a body of a pyro-lock, a piston with a membrane, sliding rollers immersed with their ends into straight cutouts of the frame of the supporting structure and spiral grooves of the body of the pyro-lock are presented.

In FIG. 4 - sec. B-B (Fig. 2), the body of the pyro-lock is shown, fixed from movement in the direction of the longitudinal axis by protrusions.

In FIG. 5 - sec. В-В (Fig. 2), the lever of the pyrolock housing is provided with an axis, installed in the oval cutout of the disk.

In FIG. 6 - sec. Г-Г (Fig. 2), a shear hairpin is shown.

In FIG. 7 - sec. D-D (Fig. 2), the lock rod, spring, adjusting nut and mating surface of the lever are presented.

In FIG. 8 - sec. E-E (Fig. 2), the attachment of the lever axes to the frame of the supporting structure and to the disk is shown.

In FIG. 9 shows the body of the pyrolock with spiral grooves in isometry.

In FIG. 10 shows a seat for the body of the pyrolock.

The payload drop method shown in FIG. 1 ... 10 includes the manufacture of a holding device detachable with a pyrolock, the installation of which is performed between the frame of the supporting structure 1 (Fig. 1, 2, 3, 4, 5, 6, 7, 8, 10) and the payload frame 2 (Fig. 1 , 3, 4, 5, 6, 7, 8), which includes mechanical locks that are distributed on the frame of the supporting structure, containing a rod 3 (Fig. 2, 7) and a holding link, and the lock rod at one end is fixed on the frame of the useful load, and the other end, made in the form of a one-sided protrusion 4 (Fig. 7), abut against the mating surface 5 (Fig. 7) of the retaining link of the lock, while the lock rod is passed through the hole made in the payload frame, and supplied with a spring 6 (Fig. 7) with an emphasis on the payload frame on one side, and an emphasis on the adjusting nut 7 (Fig. 7) on the other side, and the retaining link of the lock is made in the form of a lever 8 (Fig. 2, 7, 8) with an axis of rotation 9 (Fig. 8), and install it in the carrier frame structures, while at one end of the lever, the specified mating surface is made, and the other end is made in the form of an axis 10 (Fig. 8), which is installed in the oval cutout 11 (Fig. 8) of the device for fixing locks, made in the form of a disk 12 (Fig. 2, 3, 4, 5, 6, 7, 8), which is installed in the frame of the supporting structure with the possibility of rotation relative to the longitudinal axis, and fixed in the initial position with a shear pin 13 (Fig. 6), and the pyro-lock is made in the form of a body 14 (Fig. 2, 3, 4, 5, 9), which is installed in the frame of the supporting structure, and fixed from movement in the direction of the longitudinal axis with protrusions 15 (Fig. 4, 10), performed on the frame of the supporting structure, while the body of the pyrolock is provided with a lever 16 (Fig. 5, 9) with an axis 17 (Fig. 5, 9), which is installed in an oval cutout 18 (Fig. 5) of a disc enclosing the piston body 19 (Fig. 3, 4, 5), partially immersed in a reciprocal cutout 20 (Fig. 3, 4, 5) on the payload frame, fixing the frames from rotation around the longitudinal axis relative to each other, while sliding rollers 21 are installed in the piston (Fig. 3), with one end I move running along a spiral groove 22 (Fig. 3, 9), which is performed in the body of the pyrolock, and with the other end along straight cuts 23 (Fig. 3, 10), which are performed in the frame of the supporting structure, a membrane 24 is also installed in the piston (Fig. 3, 4, 5), which is cut in the final section of the movement of the piston against the knife 25 (Fig. 3, 4, 5), which is installed in the payload frame.

The way to create a holding device works like this:

When an electrical signal is applied, excess pressure arises in the pyrolock, at which the piston, plunging into the response cutout on the payload frame, moves along the pyrolock body, rotating it due to sliding rollers, moving at one end along the spiral groove, and at the other end along straight cutouts, while the lever body of the pyrolock rotates the disk with the shear of the fixing pin, which leads to the rotation of the levers of the retaining links, releasing the one-sided protrusions of the rods from engagement along the mating surface, ensuring the separation of the frames. At the final section of the movement, the membrane fixed in the piston is cut against the knife, releasing the excess pressure that has arisen in the pyrolock into the cavity of the return cutout of the payload frame, which leads to the emergence of a force that repels the payload frame from the frame of the supporting structure.

Claims (1)

A method for creating a holding device, including manufacturing a holding device detachable with a pyro-lock, the installation of which is performed between the frame of the supporting structure and the payload frame, including mechanical locks that are distributed on the frame of the supporting structure, containing a rod and a retaining link, and the lock rod at one end is fixed on the payload frame, and the other end, made in the form of a one-sided protrusion, abuts against the mating surface of the retaining link of the lock, characterized in that the lock rod is passed through the hole made in the payload frame, and is provided with a spring with an emphasis on the payload frame with one side, and the stop of the adjusting nut on the other side, and the retaining link of the lock is made in the form of a lever with an axis of rotation and installed in the frame of the supporting structure, while at one end of the lever, the specified mating surface is made, and the other the end is made in the form of an axis, which is installed in the oval cutout of the lock fixing device, made in the form of a disk, which is installed in the frame of the supporting structure with the possibility of rotation relative to the longitudinal axis, and fixed in the initial position with a shear pin, and the pyro-lock is made in the form of a body, which is installed into the frame of the supporting structure, and is fixed from movement in the direction of the longitudinal axis with protrusions made on the frame of the supporting structure, while the body of the pyrolock is provided with a lever with an axis that is installed in the oval cutout of the disk enclosing the piston body, partially immersed in the response cutout on the payload frame , which fixes the frames from rotation around the longitudinal axis relative to each other, while sliding rollers are installed in the piston, moving at one end along a spiral groove, which is made in the body of the pyrolock, and at the other end along straight cuts that are made in the frame of the supporting structure, also a membrane is installed in the piston, which is cut in the final section of the piston movement against a knife, which is installed in the payload frame.

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