RU203899U1 - Inflatable device for deploying a transformable umbrella-type reflector - Google Patents

Abstract

The utility model relates to the field of space technology, in particular to the design of transformable reflectors. The technical result of the utility model is the creation of an inflatable device design for opening a transformable umbrella-type reflector with increased rigidity. The technical result is achieved due to the fact that an inflatable device for opening a transformable umbrella-type reflector is proposed, including power spokes pivotally fixed on the base of the reflector with a radio-reflecting set-leaf, an opening mechanism reflector from the transport position to the working position, mechanically connected to each spoke, characterized in that the opening mechanism is represented by a torus hollow flexible transformable inflatable rim located in the upper part of the power spokes of the reflector and made with the possibility of uniform pressurization using a gas source, subsequent straightening of the rim and bringing power spokes into working position, followed by curing of the rim under the influence of sunlight. 4 ill.

Description

The utility model relates to the field of space technology, in particular to the design of transformable reflectors.

Known patent for an inflatable reflector (WO 036690 A2). The inflatable reflector includes a number of inflatable tori with different radii of cross-section, arranged radially within one another to form a semi-rigid structure. Each of the inflatable tori is made of a thin flexible gas-tight membrane. Adjacent inflatable tori can be glued together or welded together at selected locations. The radio reflective membrane is attached to the front side of the inflatable tori to form a reflective surface, and the shaping membrane is attached to the rear side of the inflatable tori to form a support structure. The membranes are glued or welded to the torus. The tori are inflated with compressed gas, which gives the reflector the desired shape. In working position, the reflector has a double concave shape. The reflector can be folded by deflating the tori. Each torus can be inflated separately from one or several gas sources. The boost provides sufficient rigidity to ensure the accuracy of the radio reflective surface in the operating position.

The main disadvantages of this device are the presence of a large number of torus elements, which increases the mass of the launched satellite, the irregularity of the pressurization of the torus shells leads to a decrease in the accuracy of the working surface of the reflector, gas pressurization from several independent sources reduces the reliability of the reflector.

Also known is a patent for a deployable large space reflector (RU 2436208 C1).

The reflector contains means to ensure deployment from the transport position to the working position, as well as two mirror-symmetrical profiled grids, on one of which or on each of which a flexible radio-reflecting element is fixed. The grids are interconnected at their nodes by parallel threads. The specified tool is made in the form of a sealed inflatable shell made of a flexible radio-transparent film. The casing is equipped with reinforcing elements to give it an isotensoidal form in the gas-filled state. The elements are made in the form of threads laid from the outer side of the shell with a constant pitch along the meridian lines. There are pairs of identical stretch marks inside the shell. Stretch wires are attached at their ends to threads on the equatorial line of the shell. Rigid posts are attached to the other ends of the guy ropes. The edges of the two profiled meshes are fastened to the opposite ends of the posts.

The disadvantages of this device include: low reliability of the reflector due to the lack of support for the pressurization of the reflector in the working position, or the guarantee of the constancy of ensuring the shape of the radio-reflecting surface, as well as due to the large number of reinforcing elements, which also increases the likelihood of the thread elements catching on the inflated shell and increasing the mass of the reflector ...

Known patent US 6373449 B1 for an inflatable antenna system, combining a fixed aperture with an inflatable aperture, which significantly increases the size of the reflector of the antenna system. An inflatable parabolic reflector ring is positioned under a fixed parabolic radio-reflecting surface. Moderate gas pressure leads to the deployment of the inflatable part, which forms the surface of the reflector. After inflation of the annular rim, the parabolic surface is hardened by any curing method (UV radiation, temperature).

The disadvantages of this device include: large errors in ensuring the exact geometric shape of the radio-reflecting surface of the reflector due to an inflatable load-bearing structure without additional power elements (such as spokes), as well as due to the lack of control over the stiffness parameters of the light-cured coating.

As the closest analogue, a device for disclosing a transformable umbrella-type reflector according to patent RU 191053 U1, IPC H01Q 15/16, B64G 1/22, which is taken as a prototype of a utility model, was chosen.

The device for opening a transformable umbrella-type reflector includes power spokes pivotally fixed on the base of the reflector with a radio-reflecting set-cloth and a mechanism for opening the reflector from the transport position to the working one, connected to each power spoke. In this case, the opening mechanism is represented by a torus hollow transformable rim located in the upper part of the power spokes of the reflector and including flexible hinges in the form of through holes evenly spaced along the generatrix of the hollow transformable rim. The spokes hinged on the base of the reflector are transferred to the working position due to the stored deformation energy of the rim.

The main disadvantages of the prototype are: low rigidity of the rim, which brings the spokes to the working position, due to the large number of flexible joints in the form of through holes.

The technical problem of the utility model is the elimination of the above-mentioned disadvantage of the prototype.

For the developed design of an inflatable device for disclosing a transformable umbrella-type reflector and for the closest prototype - a device for disclosing a transformable umbrella-type reflector according to patent RU 191053 U1, the main common essential features have been identified, such as: the use of an opening mechanism on an umbrella-type reflector, the spokes are brought into the working position and are held in place by a power rim.

The specified technical problem is solved by the fact that an inflatable device for opening a transformable umbrella-type reflector has been created, including power spokes pivotally fixed on the base of the reflector with a radio-reflecting set-cloth, a mechanism for opening the reflector from the transport position to the working one, associated with each power spoke. In this case, the opening mechanism is represented by a torus hollow flexible transformable rim located in the upper part of the power spokes of the reflector, and made with the possibility of uniform pressurization using a gas source, subsequent straightening of the rim and bringing the power spokes to the working position, followed by curing of the rim under the influence of sunlight.

An inflatable device for opening a transformable umbrella-type reflector contains the following features distinguishing it from the prototype: the opening mechanism itself is represented by a torus hollow transformable rim located in the upper part of the power spokes of the reflector and made with the possibility of uniform pressurization using a gas source, subsequent straightening of the rim and bringing the power spokes into working position followed by sun hardening of the rim. The opening is carried out by injecting gas using any gas source into the torus rim, which expands and brings the spokes to the working position. In the open position, the reflector spokes are held due to the stiffness characteristics of the inflated rim, the design of which uses a light-curing coating, which solidifies when the reflector is brought into the working position and the subsequent exposure to ultraviolet radiation, thereby providing the required stiffness and strength parameters of the reflector rim.

In addition, the proposed inflatable device for opening a transformable reflector is characterized by an increased rigidity of the power rim due to the absence of flexible hinged joints in the form of through holes, which provides an increased accuracy of the root-mean-square deviation of the radio-reflecting surface of the reflector.

The technical essence and principle of operation of the proposed device are illustrated by drawings, which show:

in fig. 1 is a general view of an inflatable device for opening a transformable umbrella-type reflector in a working position;

in fig. 2 is a front view of an inflatable device for opening a transformable umbrella-type reflector in an operating position;

in fig. 3 is a general view of an inflatable device for opening a transformable umbrella-type reflector in a transport position;

in fig. 4 is a general view of a part of the rim of an inflatable device for opening a transformable umbrella-type reflector in a transport position.

The above figures show the design of the proposed inflatable device for opening a transformable umbrella-type reflector using the following elements: 1 - a torus hollow transformable inflatable rim; the design of the umbrella reflector is represented schematically by the elements: 2 - reflector spokes, hinged on 3 - the base of the reflector; 4 - radio-reflecting set-cloth, the paraboloid shape of which is determined by the shape of the spokes 2 on which it is fixed.

The proposed device for the design of the opening mechanism of the transformable umbrella-type reflector, shown in the figures, consists of the following elements:

- a torus hollow transformable inflatable rim 1, with a light-curing coating, located in the upper part of the reflector spokes 2; which transfers the reflector from the transport position to the working position due to the injection of gas from the source into the hollow sealed torus shell of the rim and its subsequent straightening and solidification in the working position.

The device described above for opening a transformable umbrella-type reflector transfers the reflector from the transport position to the working position as follows:

In the transport position, the inflatable device for opening the umbrella-type reflector is a folded flexible torus inflatable rim, fixed in the upper part of the reflector spokes, fixed in this position. After launching the target satellite into orbit, the reflector is released from its attachment in the folded position. Under the action of the incoming gas from the gas source into the hollow sealed torus shell, the rim 1 begins to straighten at a certain speed, which is ensured by a uniform gas pressurization. The spokes 2, hinged on the base 3 of the reflector, are transferred to the working position, thanks to the rigid connection with the transformable rim. Fixed on the spokes of the umbrella reflector, the radio-reflecting net 4 is transferred from the transport position to the working position.

Thus, the problem of low rigidity of the rim that brings the spokes to the working position is solved by introducing into the structure of an inflatable device for opening a transformable umbrella-type reflector of a one-piece sealed hollow torus rim (eliminating a large number of flexible hinges in the form of through-holes of the device for opening the reflector), as well as the problem eliminated by the use of a light-curing coating for a transformable rim, which, when cured in a working position under the influence of solar ultraviolet radiation, provides additional stiffness and strength characteristics for the rim structure.

The technical result of the utility model is the creation of an inflatable device design for opening a transformable umbrella-type reflector with increased rigidity.

Claims (1)

An inflatable device for opening a transformable umbrella-type reflector, including power spokes pivotally fixed on the base of the reflector with a radio-reflecting set-leaf, a mechanism for opening the reflector from the transport position to the working position, mechanically connected to each spoke, characterized in that the opening mechanism is represented by a torus hollow flexible transformable inflatable rim, located in the upper part of the power spokes of the reflector and made with the possibility of uniform pressurization using a gas source, subsequent straightening of the rim and bringing the power spokes to the working position, followed by curing of the rim under the influence of sunlight.

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