RU99106659A - ANTENNA REFLECTOR FOR SPACE VEHICLE - Google Patents

Claims (15)

1. Antenna reflector (1, 1.1, 1.2, 1.3) for a spacecraft located in a container (12) of a cylindrical-conical shape along one of the axes (XX) so that this reflector is in a limited area near the side surface of the hull (14) said spacecraft at the periphery (13) of the container in its cylindrical part (12A), wherein said reflector has an extreme part (1S) protruding with respect to the longitudinal end (14S) of said body (14) in the conical part (12B) ) container in the longitudinal direction, and this reflection The holder is at least partially capable of elastic deformation so that: outside the specified container (12), this reflector is able to take a stable unfolded shape without residual stresses, which corresponds to its working position, inside this compartment, this reflector is folded around the axis of the container (X-X) within its elastic deformation is able to take a rolled shape, while the reflector is located along the side wall of the housing (14), and this reflector is held in this rolled state for the holders triggered by the command (15, 16), and the transition of the reflector from the rolled state to the expanded state, at least partially, is carried out by using elastic energy stored in the reflector itself in the process of its transfer from the expanded state to the rolled state, characterized in that this the reflector is divided into two parts (1A, 1B; 23A, 23B; 28A, 28B) with a slot with the edges facing each other (5A, 5B) and in the rolled-up state of the reflector, these facing edges (5A, 5B) move relative to each other so as to bring the peripheral protruding towards the longitudinal edge (14S) of the housing part (1S) of the reflector (1).  2. The antenna reflector according to claim 1, characterized in that said edges (5A, 5B) facing each other form a slit (2) that intersects the entire reflector from one edge to another and is oriented generally perpendicular to the axis (X-X) of the container.  3. The antenna reflector according to claim 1, characterized in that the edges facing each other (19A1, 19A2) determine the position of the slit (18) in the radius direction, and the overall radial direction of this slit is approximately parallel to the axis (X-X) of the compartment.  4. The antenna reflector according to claims 2 and 3, characterized in that at least one of the indicated parts (1A) bounded in the reflector (1) by a slit (2) intersecting the entire reflector from edge to edge includes at least one radially located slot (18) dividing it into separate parts (1A1 and 1A2), with the edges facing each other (19A1, 19A2) being able to overlap.  5. The antenna reflector according to claim 2, characterized in that said parts of the reflector (1A, 1B) in the middle of the gap separating them (2) are connected to each other, and the edges (5A, 5B) of these parts of the reflector facing each other overlap ( 11) so that the protruding peripheral part (1S) of the reflector (1) approaches the longitudinal edge (14S) of this housing.  6. The antenna reflector according to claim 5, characterized in that said slit (2) coincides with the diameter of the reflector so that its said parts (1A, 1B) are the halves (1A, 1B) of the reflector, while these halves are near the center of the device bonded to each other.  7. The antenna reflector according to claim 5, characterized in that said slit crossing the reflector (24) is eccentric with respect to the axis of the reflector so that its parts (23A, 23B) are not the same, and these parts of the reflector are interconnected by hinge (26).  8. The antenna reflector according to claim 2, characterized in that said parts of the reflector (28A, 28B) are interconnected at its periphery, and the edges of these parts facing each other are spaced apart (at 31) so that the peripheral protruding part (1S) of the reflector approaches the longitudinal edge of the housing (14S).  9. The antenna reflector according to claim 8, characterized in that said parts of the reflector (28A, 28B) are interconnected by peripheral hinges (29, 30) located at the ends of the slit (27).  10. The antenna reflector according to one of claims 1 to 9, characterized in that the described means for fixing (15), triggered by a command, connect the edges facing each other and fix them on the spacecraft body.  11. The antenna reflector according to one of claims 1 to 10, characterized in that the means for securing (16), triggered by the command, fix parts of the reflector independently on the spacecraft body.  12. The antenna reflector according to claim 3, characterized in that it comprises, upon command, unsecured means for fixing (22) the edges (19A1, 19A2) of the specified slit facing each other radially when they are in the closed state, facing each other .  13. The antenna reflector according to one of claims 1 to 12, characterized in that it contains ties (6, 7, 8) that provide relative movement of the edges (5A, 5B, 19A1, 19A2) of the indicated parts (1A, 1B; 1A1, 1A2 ; 23A, 23B) in the collapsed position of the reflector, but connecting the indicated parts when the reflector is in the expanded position.  14. The antenna reflector according to item 12 and one of claims 1 to 7, characterized in that each of these screeds includes a tape (6) capable of maintaining stiffness, but folding under compression, located across the corresponding slit (2, 18 , 23) and mounted on the reflector on both sides.  15. The antenna reflector according to claim 13 and one of claims 8 or 9, characterized in that at least one tensile spring is included in each of the couplers (32).