RU2481248C1 - Spacecraft with reference reflectors - Google Patents

Abstract

FIELD: transport.

SUBSTANCE: invention relates to aerospace engineering and may be used at spacecraft for adjustment and calibration of ground and space complexes. Spacecraft comprises body with instrumentation panel, solar cells, reference reflectors, engine compartment, multi-charge launchers for storage and extraction of reference reflectors. Launcher comprises cylindrical container with sets of reference reflectors confined by thrusts, reflector feed rope mechanism, reflector separation speed transducer, launch carriage with electric drive of reflector grip and feed, spring pushers and displacement mechanism. Launch carriage is arranged outside aforesaid container.

EFFECT: improved configuration, increased number of reflectors, decreased structural mass consumption per one reflector.

3 dwg

Description

The invention relates to the construction of spacecraft (SC) and can be used in the development of a SC - carrier of detachable reference reflectors (EO), which can be used for testing, testing and maintaining special combat readiness of special ground-based technical equipment of the Ministry of Defense of the Russian Federation.

Known spacecraft series "Typhoon-2."

A characteristic feature of spacecraft based on the Typhoon-2 platform is to equip them with a system for shooting reference reflectors developed by Yuzhnoye Design Bureau, designed to form multi-element target models according to a given program and a system for determining the speed of shooting of reference reflectors. The spacecraft includes 24 shooting devices with spherical reference reflectors. The reference reflectors are located on the spacecraft with three belts of eight pieces in each belt (see. "Rockets and spacecraft of the Yuzhnoye Design Bureau. Edited by SN Konyukhov. Dnepropetrovsk. Yuzhny Design Bureau named after M.K. Yangel, 2000 g., pp .9898-200).

The principal drawback of the Typhoon-2 spacecraft is the individual installation of each of the 24 reflectors on its hull.

The consequence of this is the need for 24 separate reflector mount devices with electrical circuits attached to each of them. This complicates the design of the spacecraft, reduces the yield of the payload - reference reflectors.

A serious drawback of the spacecraft is also the use of 24 springs, characterized by a large spread in the force of their compression. The consequence of this is a large spread in the speed of separation of reflectors, which reduces the time of functioning of a given multi-element model of the target, reduces the efficiency of the spacecraft.

The aim of the invention is to remedy these disadvantages of the KA - carrier of reference reflectors (see figure 1, figure 2).

The spacecraft includes a body 1 with an instrument compartment 2, a propulsion system 3, and solar panels 4.

The problem is achieved through the use of multi-charged launchers 5 on the spacecraft, designed to store and separate EO 6 located in them. Each of the launchers has a single EO separation device and a single system for measuring the EO separation speed.

A general view of a multiple-charge launcher for storing and separating spherical EOs is shown in FIG. 3.

The launcher consists of a cylindrical container 1, inside which there is a group of EA 2, limited by the rear and front stops 3 and 4. The capture and supply of the next EA to its original position is carried out using the launch carriage 5 with spring pushers 6, spring-loaded stops 7 and the carriage moving mechanism with an electric wire 8. The cable mechanism 9 feeds the EA group forward after separation of the next EA. EO separation rate is measured using sensors 10.

The launcher works as follows: in the initial position, the EA is on the front guided stop 4. The trigger carriage 5 is in the intermediate position, the pushers 6 are partially cocked, the rear guided stop 3 holds the remaining in the EA container.

To start the EO, the mechanism for moving the launch carriage 8 is turned on and feeds it forward, while the pushers are finally cocked, and at the end of the stroke, the front stop 4 is released and the EO is separated.

To prepare the launch of the next EO, the launch carriage is retracted. In this case, the front stop 4 is first fixed in the closed position by the carriage stroke, then the rear stop 4 is released, after which the cable mechanism for feeding the EO group is turned on and they are moved forward by the diameter of the EO. After this, the carriage moves forward to an intermediate position, the rear stop 7 is activated in the closed position, separating the remaining EA in the container from the EA prepared for launch.

In order to reduce the dispersion of the multi-element model of the target, the separation of EO is carried out in a radial direction with respect to the Earth. The stability of the space model of the target in this case increases five or more times.

The use of multiply-charged launchers provides a high density of the spacecraft layout, the installation of a large number of EO, the minimum mass flow of the structure per one EO.

When you install twelve launchers on the spacecraft, as shown in Figs. 1 and 2, with 9 EOs on each installation, the total number of EOs will be 108, which is almost 5 times more than on the Typhoon-type spacecraft 2 ". The number of EO can be significantly increased due to the use of the second layer of launchers on top of the layer located directly on the spacecraft hull.

In addition, the minimum dispersion of EO flight speeds, achieved through the use of a single mechanism for their separation, allows for a high degree of stability of the multi-element target model.

The design of the launcher allows you to create almost any model of the target in the composition of the EA and to predict its transformation.

The combination of the above characteristics ensures high efficiency of the spacecraft flight, designed to determine the resolution of special complexes of the Ministry of Defense of the Russian Federation.

Claims (1)

A spacecraft with reference reflectors, comprising a housing with an instrument compartment, a propulsion system, solar panels, reference reflectors, launchers for storing and separating reference reflectors during the formation of a multi-element target model during the flight of a spacecraft, characterized in that the spacecraft uses multiply-charged launchers installations, inside the cylindrical container of each of which a group of reference reflectors is located, limited by the front and rear stops, and the container snake is equipped with a trigger carriage with spring pushers and a mechanism for moving the trigger carriage with an electric drive to capture and feed the next reference reflector to its original position for its separation, as well as a cable mechanism for supplying a group of reference reflectors and speed sensors for separating the reference reflectors.

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