RU2130879C1 - Complex for delivery of rocket to design point of its launch - Google Patents

Abstract

FIELD: rocketry and space engineering. SUBSTANCE: complex for delivery of rocket to design point of its launch includes rockets located on flying vehicle in form of glider and held on its upper surface by means of guides. Provision is made for several additional flying vehicles connected with glider by means of swivel rods and controllable rod with rope which is connected with glider in its lower portion of by means of hinge and may be attached. EFFECT: reduced consumption of power required for launch; possibility of launching rocket without preliminary transportation of it to launch site. 3 cl, 7 dwg

Description

 The invention can be used in astronautics to put a spacecraft into orbit.

 The system for launching rockets into near-Earth orbit from a stationary installation of a testing ground with a full supply of energy to widely launch a rocket with all its components into near-Earth orbit is widely known (Elementary Physics Textbook edited by Landsberg, Volume 1, p. 403).

The disadvantages of this technical solution include:
- the launch is carried out from one point on the earth's surface, which determines the exact trajectory of the rocket and, therefore, the spacecraft,
- the need to have on board a full supply of energy for all phases of rocket movement, which reduces its efficiency, because part of the mass will be used irrationally.

 It is widely known complex for launching a rocket with a spacecraft, including an aircraft ("Buran"), which is connected to the rocket and the spacecraft. Similarly, the complex is arranged according to US patent N 5137193, class. B 64 D 1/00, 1992).

The disadvantages of this technical solution can be considered:
- the need for transportation operations over significant distances to launch from stationary launchers (complexes);
- significant energy costs to exit the atmosphere.

The aim of the invention is:
- launch production into any orbit from the calculated point of the earth's space,
- the exclusion of transport work and the assembly of space objects at landfills, because the dimensions do not allow transport work in assembled form, and a different type of transport with overload is used,
- the exclusion of unproductive costs for the launch of a rocket with a payload per atmosphere,
- the exclusion of dependence on fixed launchers and systems, which are both expensive and not always available.

 This goal is achieved by the fact that in the delivery complex of the rocket to the calculated point of its launch, including an aircraft connected by a rocket with the possibility of separation, the rocket is placed on the aircraft in the form of a glider and is held on its upper surface by guides, in addition, several flying devices with which the glider is connected by rotary rods and a controlled rod with a cable that is connected to the glider in the lower part of the front end of the glider pivotally with the possibility of fixing eniya.

 The rod is equipped with a drive with a self-braking pair and a pulley, which is connected to the cable to change its length.

 The swivel connection of the cable to the glider is made in the form of a rotary sleeve, on which several turns of the cable are located for its fastening, and contains a controlled magnet in the form of a coil, which is made with the ability to brake the cable or let it go when the core is displaced.

 In FIG. Figures 1 and 2 show a top view of the complex at different positions of the boom (perpendicular to the axis of the glider and when the axes coincide); in FIG. 3 - side view of the complex; in FIG. 4 - section along aa; Fig. 5 is a section along BB; in FIG. 6 is a section along BB; in FIG. 7 - section along G-G.

 The complex contains a glider 1 with planes for its stable position in the airspace under load, a rocket 2. which rests on the stops 3 at the rear end of the glider 1. The rocket 2 has longitudinal cutouts 4 that are movably mated with the guide plates 5. These plates 5 are spring loaded and can be folded out by a smooth exit 6 from the cutout 4. The plates are placed on the rack 7 of the glider 1. In the front of the glider is a hinge 8, consisting of a pin 9, a movable core 10, a coil 11 and a sleeve 12 to which the cable 13 is attached. The cable 13 passes it is pulled through the rollers 14 into the inner cavity of the rod 15, in the middle of which there is a drive 16 with a self-braking pair (not shown conditionally, this may be a worm pair) and a pulley 17 on which the cable 13 is fixed and screwed in one direction. The rod 15 is connected to the aircraft 18 by rotary rods 19, the ends of which are movably connected to the rod 15 and the aircraft 18. The rod has around its edges supports 20, sliding for the rod 15.

 The complex operates as follows.

 After takeoff 11 is turned on and the sleeve 12 with the cable 13 is inhibited. The cable 13 cannot rotate, because is held by several revolutions of the cable 13 around the sleeve 12. When braking the sleeve 12, it is clamped between the airframe 1 and the annular protrusion of the core 10 and the cable 13 is held by friction on the sleeve 12.

 After reaching the calculated launch point of rocket 2, the rocket engines are turned on. When the thrust of the rocket allows it to be informed of sufficient speed to move relative to the glider 2, it begins to move, moves away from the stops 3 and continues to slide along the annular stop 3 and along the guide plates 5, which are wrung out and the rocket is separated from the complex.

Claims (3)

 1. A complex for delivering a rocket to the calculated point of its launch, including an aircraft connected by a rocket with the possibility of separation, characterized in that the rocket is placed on the aircraft in the form of a glider and is held on its upper surface by guides, in addition, several aircraft are additionally introduced with which the glider is connected by rotary rods and a controlled rod with a cable, which is connected to the glider in the lower part of the front end of the glider pivotally with the possibility of fixing.  2. The complex according to p. 1, characterized in that the rod is equipped with a drive with a self-braking pair and a pulley, which is connected to a cable to change its length.  3. The complex according to claim 1, characterized in that the hinge connection of the cable to the glider is made in the form of a rotary sleeve, on which several turns of the cable are located to secure it, and contains a controlled magnet in the form of a coil, which is able to brake the cable when the core is displaced or let it go.

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