RU2671703C1 - Balloon - Google Patents

Abstract

FIELD: aeronautics.SUBSTANCE: invention relates to the field of aeronautics and relates to balloons with a shell filled with heated air, equipped with signaling and navigation equipment. In a balloon containing a shell, forming a cavity filled with heated air, attached to the shell below the gondola, a gas cylinder lighter than air is attached to the top of the shell with the possibility of detaching the gas tethered on the cord, with the cylinder wall on the outside having hooks bent down with rounded ends. Cord is attached at one end to the drum with a ratchet wheel.EFFECT: invention provides the possibility of forced movement of a balloon in flight to the landing site.1 cl, 4 dwg

Description

The invention relates to the field of aeronautics and relates to balloons with a shell filled with heated air, equipped with signaling and navigation equipment.

Known aeronautical apparatus (balloon) containing a shell forming a cavity filled with heated air, attached to the shell from the bottom of the nacelle [1]. Such balloons are quite well controlled during vertical movement, but are practically uncontrollable with lateral flows of air masses. When the balloon moves from west to east over long distances, its significant deviations from the place of intended landing are possible.

The objective of the invention is the possibility of forced movement of a balloon in flight to the landing site.

The technical result is achieved in that in a balloon containing a shell forming a cavity filled with heated air, attached to the shell from below the nacelle, attached to the top of the shell is a gas cylinder lighter than air that is attached to the cord and the wall of the cylinder has bent down hooks with rounded ends. The cord is attached at one end to a drum with a ratchet wheel.

In FIG. 1 shows a balloon with a gas cylinder attached to its apex lighter than air, the wall of which has hooks on the outside; in FIG. 2 is a view of FIG. 1 on top; in FIG. 3 is the same as in FIG. 1 when the gas cylinder is disconnected, it is lighter than air to capture it with a net lowered from the helicopter; in FIG. 4 - shows the option of attaching a gas cylinder lighter than air on a cord to a drum with a ratchet wheel.

The balloon contains a shell 1, forming a cavity 2, filled through the bottom hole 3 with a heated burner 4 air. A nacelle is attached to the bottom of the casing 5 by cables 5. A balloon 8 with gas lighter than air is attached to the top of the shell with the possibility of disconnecting the cable attached to the cord 7. Hooks are made on the wall 9 of the tethered elastic balloon from the outside. Hooks can be made of light and durable material, the hook bent down is rounded off. Hooks can be attached, for example, glued, welded to the wall of the cylinder. The cord holding device 11 is located on the top of the shell (Fig. 1, 2). The holding device can be made, for example, in the form of a clip, automatically triggered by a radio signal and releasing the cord (Fig. 3). The cord can also be attached at one end to the drum 12 with the ratchet wheel 13 (FIG. 4).

Forced movement of a balloon in flight to the landing site is carried out using an aircraft moving at low speeds, for example, a drone, a single-seat helicopter (Fig. 3). In this case, the helicopter A has a rope B lowered downwards, at the end of which an elastic net C is attached to grab the tethered balloon by hooks.

Forward movement is subject to an in-flight balloon, comprising a shell 1 in a cavity 2, which contains air heated through a hole 3 located below and heated by a burner 4. The shell carries a nacelle 6 attached to it from below by cables 5.

To carry out the operation of forced movement of the balloon, the holding device 11 (Fig. 1, 2) releases the cord 7 (the length of which may be, for example, 15-25 m). When this cylinder 8 with gas lighter than air rises. The lifting force of the gas in the cylinder must be sufficient to lift the tension of the cord to which it is tied. When the helicopter A approaches the balloon, the mesh C attached at the end of the rope B grabs the balloon 8 by the hooks 10 located on its wall 9, which makes it possible to force the balloon to move in the desired direction. In the place of the balloon landing, the helicopter A carries out the discharge of the rope B with the net C. In this case, under the influence of the mass of the rope and the net, the balloon with hooks drops down. After that, the balloon has the ability to freely land at a given point. After landing the balloon, the net with the rope is manually separated from the balloon, while the balloon rises again, after which the cord holding it is returned to its original position (wound up). Attaching the cord at one end to the drum 12 with the ratchet wheel 13 allows you to quickly return the cord with the balloon to its original position after landing the balloon.

The invention provides the ability to force the in-flight balloon to the landing site.

The source of information:

1. RU 2641986, 2018.

Claims (2)

1. A balloon containing a shell forming a cavity filled with heated air / gas lighter than air, attached to the shell from the bottom of the nacelle, characterized in that the gas cylinder attached to the top of the shell is detachable with a lighter connection than the air, the cylinder wall being external side has hooks bent down with rounded ends. 2. The balloon according to claim 1, characterized in that the cord is attached at one end to a drum with a ratchet wheel.

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