RU60062U1 - DEVICE FOR CAPTURE OF THE OBJECT RETURNING FROM SPACE ORBIT - Google Patents

Abstract

The utility model relates to rocket technology, in particular, to intercept devices returned to the earth from the space orbits of objects. The technical result is the creation of a device that allows you to pick up parachute small-sized objects returned from space orbit to earth after they complete their tasks in orbit. This allows you to maintain the integrity of the object, as well as to simplify the design and to prevent the creation of braking devices on the object, such as a parachute and extendable brake blades. For this, an airship with a shell made in the form of a torus and mounted on a platform with a through hole along the axis of the shell was created. A network is located inside the hole, on the pull-out ropes of the winches, while the orientation system is made in the form of a radiator mounted on a rack and a reflector of a parabolic antenna laid at the bottom of the network. 1 pf, 2 ill.

Description

The utility model relates to devices for picking up objects returned to earth from space orbits.

A device for picking up cargo, described in the invention by AS No. 1784527 IPC 5 B 64 D 9/00 with a priority dated June 21, 1990. The device contains a load, using a cable connected to a parachute, an aircraft with devices for adjusting the parameters of the aircraft’s movement, a cable to pick up a rope, a damper for damping shock force on the cargo. This device is able to work only in dense layers of the atmosphere and with sufficient dimensions.

Known dumped cargo container with a means of slowing the descent and orientation (US patent 6712317 VA, IPC 7 64 D 1/08, published March 30, 2004). In it, the container contains a cargo compartment with several blades, which, when folded, adjoin the side walls of the compartment, and in working condition radially protrude from the compartment. There is a braking and orientation system that provides a slower descent of the container and sets it in the direction of flow. Thus, the damage to the blades is reduced when they are deployed in the working position. There is also a brake parachute. This device is selected as a prototype.

The disadvantage of the prototype is its low efficiency in rarefied space and the inability to use this design to provide orientation and braking in small objects.

The task of the application for a utility model is to pick up a small-sized object returned from space orbit before it enters into dense

atmospheric layers, which greatly simplifies the design, eliminates the ablation of the outer layers of the object when it enters into dense layers.

The problem is solved in that in the device for picking up a flying object, including an aircraft with a gripping device and an aircraft orientation system, it is made in the form of an airship with a toroidal shell mounted on a platform with a through hole along the axis of the shell, inside of which is located on extendable ropes winches, net. In this case, the orientation system is made in the form of a retractable radiator mounted on the platform, and a reflector of a parabolic antenna laid at the bottom of the network.

Figure 1 and figure 2 schematically shows a device for picking up an object returned from space orbit, including an aircraft in the form of an airship containing a toroidal shell 1 mounted on a platform 2, engines 3 and a landing pad 4; returned object 5; a gripping device in the form of a network 6 located in the center of the shell in the hole of the airship platform and secured by cables 7 to the drums of the winches 8; the system of orientation of the airship relative to a flying object in the form of a dish antenna with an emitter 9 mounted on a stand 10, and a plate 11 (reflector) laid on the bottom of the network 6. The radio equipment to which the antenna is connected is not shown.

Catching a flying object is as follows. The airship flies to the planned landing site of the object. Before the object lands, it rises to the maximum permissible height, which is, as a rule, heights with low air density. The antenna is turned on and a search and radar is performed for a flying object. Having discovered the object, the airship makes adjustments to its location relative to the flying object. When approaching an object to the airship, the airship approaches the object, and the object enters the network 6 of the airship, hitting the reflector 11. The reflector 11 is made of soft material, for example,

aluminum sheet in the form of a paraboloid. When an object hits the reflector, it is crushed, clasping the object. When the object enters the network, it pulls out the cables of the 7 winches 8, spinning the winch drums, which are then unbraked. As the cables are pulled out, the winch drums gradually brake, stopping the object. After the object stops, winches are turned on to lift the object aboard the airship. When the object enters the shell 1, the antenna emitter 9 is rotated sideways to the shell so as not to interfere with the object.

This device will allow you to pick up small-sized satellites or warheads of missiles flying toward the ground when developing the latter. Such a pickup is necessary when it is necessary to preserve confidential accumulated information at the facility or to study the state of the facility after completion of the tasks assigned to it. It is advisable to pick up such objects in a rarefied space when their surfaces are not heated to high temperatures.

Thus, the proposed utility model provides the interception of small-sized non-parasite flying objects, which allows to maintain the integrity of the object.

Claims (1)

A device for picking up an object being returned from space orbit, including an aircraft with a gripping device and an aircraft orientation system relative to the object, characterized in that the aircraft is made in the form of an airship with a toroidal shell mounted on a platform with a through hole along the axis of the shell inside which is located , on the pull ropes of winches, a network, while the orientation system is made in the form of a radiator mounted on a rack, and a parabolic reflector antennas laid at the bottom of the net.