EP0234976A1 - Device for reducing the rate of descent of a parachute flare - Google Patents

Abstract

The device makes it possible to slow and regularise the rate of descent of a parachute flare (5) so that it can be operational near the ground for a satisfactory period of time. A parachute which is equipped with a canopy (1) and on which the flare is suspended is used. A skirt (6) is sewn to the periphery of the canopy to form a reservoir of hot gases obtained as a result of the combustion of the flare, in order to obtain a buoyancy effect similar to that employed in a hot air balloon. Gas circulation ensured by means of orifices (7) and cups (8) thus discharges the gases downwards and makes it possible to maintain a constant temperature inside the reservoir. Lateral sails (9) can be sewn to the skirt, their shape being designed to rotate the assembly and cause the side wind to rise. The inner face of the canopy of parabolic shape is covered with an aluminised reflecting surface to increase the reflection of the light rays towards the ground. One use is in the military sector, and more particularly for the parachuting of illuminating or infrared flares. <IMAGE>

Description

The invention relates to the field of pyrotechnic devices, for example military, such as illuminants or infrared, which are ejected on the trajectory of a carrier projectile, at a certain distance from the ground. After ejection, these devices are braked by a parachute to which they are suspended, so as to slow their descent to the ground, in order to allow their operational phase.

The parachutes used until now for these devices are generally circular or polygonal. They have a central opening, called a chimney and lines sewn on the periphery of the wing. This is made of nylon fabric, white in color, and can be made up of several sectors assembled by stitching. The edge of the chimney, the outer edge of the wing, and the fixing of the lines are reinforced with nylon ribbons, sewn on the wing. The lines are made of round nylon halyards. They are joined to the attachment of the device by a metal cable, to prevent their deterioration during the combustion of the device. To avoid the swinging of the device during the descent, the central chimney must have a large surface to allow a sufficient passage of air, and the lines must be of a length approximately equal to the diameter of the wing to flat, which, with the central metal cable, results in significant bulk.

This kind of parachute gives descent speeds that can vary from 5 to 20m per second, depending on the surface of the wing, and the mass of the device to be braked. As the device loses mass as it burns, the speed varies during the descent, sometimes from simple to double, which imposes more opening altitudes high, affecting the lighting performance on the ground of the device.

The main object of the invention is to increase the efficiency on the ground of the device, by slowing the speed of descent and by improving the constancy of this speed, this allowing the parachute to open closer to the ground.

Furthermore, when the airfoil is inflated by the air and takes the form of a basket handle, it is very sensitive to lateral wind. It is not uncommon for a firework, ejected vertically from a target, to be found at the end of combustion, several hundred meters from this target, due to the effects of the side wind. The invention allows, on this particular point, to partially remedy this drawback.

The object of the invention is a device intended to reduce the speed of descent of a pyrotechnic device comprising a parachute, the device being characterized in that the parachute comprises means using the hot gases resulting from the combustion of the device , so as to obtain a levitation effect similar to that used in a hot air balloon.

• - Fig.1, une vue de côté du dispositif selon l'invention, pendant sa descente ;
• - Fig.2, une vue de dessus du dispositif représenté sur la figure 1 ;
• - Fig.3, une vue de côté d'un dispositif conforme à une variante selon l'invention ;
• - Fig.4, une demi-vue de dessus, et une demi-coupe, du dispositif représenté sur la figure 3.

The invention and its various characteristics will be better understood on reading the description which follows, appended to the figures which represent:

• - Fig.1, a side view of the device according to the invention, during its descent;
• - Fig.2, a top view of the device shown in Figure 1;
• - Fig.3, a side view of a device according to a variant according to the invention;
• - Fig.4, a half top view, and a half section, of the device shown in Figure 3.

The device is described deployed, that is to say in the descent position. Its storage position and its deployment are not described because they borrow the techniques known in the prior art. The description below corresponds to a given realization by way of example, but is in no way limiting. The device can be produced from elements different from those described and which would lead to the same results.

The device according to the invention is equipped, like a hot air balloon, with means which use the hot gases resulting from the combustion of the device, so that the speed of descent of the latter is reduced and more constant. These means consist largely of an arrangement of the parachute, and among other things, adding a skirt 6 to the outer part of the wing 1 of the parachute. The skirt associated with the airfoil makes it possible to constitute a reservoir of hot gases, originating from the combustion of the device 5. This skirt has openings 7, which can be in the form of lunules, and intended for the circulation of gases. The size of these openings was calculated according to the desired descent speed. Opposite each of these openings, a cup 8 is sewn on its upper part, its lower part remaining free, thus providing an opening for the circulation of gases. These buckets are intended to bring the hot gases down. This allows a continuous circulation of the gases from the inside to the outside, and a high temperature maintained inside the tank, which has the effect of improving the lift effect. In addition, the evacuation of the gases downwards, gives an additional effect of directed thrust, upwards. The airfoil 1 and the skirt 6 are made of flame-retardant nylon fabric, ensuring high temperature resistance. The outer surface of the fabric is preferably black to avoid loss of calories from the tank.

Hang strands 11 are provided, the number of which is equal to the number of sectors 2 of the airfoil. The ends of these strands are made of flame-retardant materials such as high-performance polyamide. They are sewn on the skirt, at the location of the reinforcing ribbons 12 located on the seams of the sectors. A loop 13, with a knot, preferably at the lark's head, is made in the middle of each strand. These loops are located at a distance of about a third of the diameter of the skirt. They allow each the attachment of a flexible metal cable 14, with sleeved eyes, length of a third of the airfoil. These cables are joined together on a rotary fastener 15 of the device 5. The rotation of this fastener is obtained by an axial ring and a needle bearing stop.

A thread 16, in white nylon halyard, to be broken when deploying the parachute, joins the attachment of the device to the center of the wing. Its length is such that when opening, the parachute comes with a flat blade, which promotes deployment by reducing the traction forces on the lines. A circular piece 17, of nylon fabric, can be arranged to reinforce the blade at the location of the attachment of the wire to be broken.

Thanks to the metal cables 14, the device can be closer to the airfoil, compared to the prior art, the strands of hanger no longer fear deterioration due to the proximity of the device in combustion.

To improve the effect of light on the ground, provision is made to internally cover the airfoil, a reflective surface consisting of an aluminizing layer 4 with a thickness of approximately 0.5 μm. The purpose of this layer is to increase the reflection of the rays from the device. In addition, when the airfoil is inflated, a cutting of the sectors with curved generatrices 3 gives it a parabolic interior shape. The focal point of this parabola is located at a determined distance from the device constituting the light source, so as to allow the reflection of the light rays directed towards the ground.

The fact that the descent speed is reduced means that the device is more sensitive to lateral wind. It is more likely to move away from the vertical of the ejection point during the descent. The invention provides, in an additional feature, a means for winding up, to reduce this drift. Wind up is understood to mean reducing the displacement of a mobile assembly subjected to the lateral effect of the wind. This means consists of a first kind of oblique sails 9 which are located on the skirt 6 of the parachute, at the location of the sectors which do not have buckets 8. The shape of these sails is designed so that when they undergo side-wind swings, they turn the parachute. In the assembly described, these webs 9 are strips of flame-retardant black nylon fabric, sewn obliquely on the skirt, with a separation fabric 10 allowing two air flows in opposite directions. The leading and trailing edges of these sails are reinforced with ribbons. When the parachute turns, the outer edge of the sails, inflated by the swings in the wind, picks up a certain air flow, which has the effect of reducing the effects of the side wind.

The use of fire-retardant fabric and halyard makes it possible to bring the light source closer to the tank constituted by the assembly of the airfoil and the skirt, and thus to make maximum use of the calorific effects of the combustion gases of the device.

In the embodiment which has just been described, the skirt has a cylindrical shape. Referring to Figure 3, the skirt 19 can take a frustoconical shape, and be of a greater height, forming a kind of chimney, the lower edge of which is very close to the device 20. The parabola 18, constituted by the wing, can still be covered with a reflective layer, but its focus is more distant and its diameter larger. In this case the outside of the conical skirt can also be aluminized, which allows an additional effect of circular diffusion of luminosity on the ground. As shown in Figures 3 and 4, one can provide a higher number of sectors, in particular twelve, these projecting from the skirt. Each of these sectors has a bordered opening 21. The lines 22 are fireproof and can be connected to the device in a manner similar to that described in FIG. 1. They can also be joined in pairs, with metal cables 23, as shown in Figure 3. Their length is equal to about a third of the distance from the skirt to the device.

To obtain the effect of winding up, the same number of a second kind of sails 24 connects the outer edge of the sails to the seam line of the sectors of the skirt. The sails are normally inflated under the effect of the ascending air flow during the descent of the device. Their shape is such that they also rotate the parachute. Lateral wind swings inflate the exposed sails. When penetrating into the area opposite to the wind, they attack the air in the form of blades, then close to return to swell in the exposed area. In addition, the swelling of the sails 24 causes a deformation of the airfoil, which gives, by helical penetration effect, additional lift to the system.

The material constituting the flame retardant halyards is preferably the material commonly called kevlar.

It is specified that the side wind swings are sudden air pressures which have the distinction of always being oriented in the direction of the prevailing wind.

Claims (10)

1. Device intended to reduce the descent of a pyrotechnic device (5), comprising a parachute provided with a blade (1), the device being characterized in that the parachute comprises means using the hot gases, resulting from combustion of the device, so as to obtain a lifting effect similar to that used in a hot air balloon. 2. Device according to claim 1, characterized in that the means using the hot gases, consist in equipping the airfoil (1) with a skirt (6) sewn at the periphery of the airfoil to constitute a reservoir of hot gases. 3. Device according to claim 2, characterized in that openings (7) are formed at the top of the skirt (6), and in that, opposite each of said openings, a cup (8) is sewn onto the skirt and covers said opening, the lower part of each of the buckets and of the skirt constituting an opening which folds the hot gases towards the ground. 4. Device according to claim 1, characterized in that the means using the hot gases consist of a skirt (19) of frustoconical shape so as to form a reservoir for storing the hot gases. 5. Device according to claim 4, characterized in that openings (21) are formed at the periphery of the wing (18) and at the top of the skirt (19) to allow hot gases to escape. 6. Device according to claim 2 or 3, characterized in that means allowing the assembly to reduce the drift due to the lateral wind are provided and include sails of a first kind (9), sewn obliquely on the outside of the skirt between the buckets (8), and the shape of which is designed in such a way that when the device undergoes side wind swings, they rotate the airfoil and take up a certain air flow, which has the consequence reduce the effects of side wind. 7. Device according to claim 4 or 5, characterized in that means allowing the assembly to reduce the drift due to the lateral wind consist of sails of a second kind (24) connecting the outer edge of the wing (18 ), and sewn vertically to the skirt (19) and whose shape is designed in such a way that when the device undergoes side wind swings, they rotate the airfoil and take up a certain air flow, which has the consequence reduce the effects of side wind. 8. Device according to any one of the preceding claims, characterized in that the device is connected to the parachute by elements which include in their lower part metal cables (14, 23) allowing the device (5.20) to be at a distance from the parachute equal to or less than the diameter of the parachute. 9. Device according to any one of the preceding claims, characterized in that the inner face of the airfoil (4,18) is covered with a reflecting surface consisting of an aluminizing layer, so as to increase the reflection of the light rays due to the combustion of the device (5.20). 10. Device according to claim 9, characterized in that the exterior of the skirt (6, 19) is covered with a reflective surface consisting of an aluminizing layer to produce an additional effect of circular diffusion of luminosity on the ground .

Images