CA1096031A - Release device for suspended loads - Google Patents

Abstract

Release and flotation device for a suspended load, in particular an underwater sheet buoy, comprising a parachute to which the load is suspended and at least one inflatable float intended to maintain the load at a determined depth. The float consists of a pillow-shaped balloon fixed in the central part of the parachute and extended by an inflation sleeve under the effect of the air pressure generated by the parachute during its descent. The sleeve is stretched by a tension member whose ends are respectively fixed to the free end of the sleeve and to the load.

Description

: 109 ~ 1) 31 The present invention relates to devices for lar-pledge and flotation of suspended bodies, such as in particular buoys for underwater listening intended to be used in calm or rough seas.
Before being dropped or thrown into the sea, for example, from planes or helicopters, these buoys form compact units comprising radio-electric equipment, arranged in watertight bodies, and ~ electro- equipment acoustic.
When in contact with water, the electro-acoustic detaches from the radio equipment, all by remaining connected to it by a link ~ both electrical and mechanical suspension and descends into the water to a predetermined depth. This link is cons-with a coiled cable.
Radio equipment is mechanically linked and electrically to an antenna which must radiate waves herziennes to an operating aircraft.
The essential problem of dropping a child seems of the aforementioned type lies in the fact that this set must not be damaged when it comes into contact with ; the water.
To ensure the release of sets of this type, we , has used until now either self-rotating rotochutes, either parachutes, preferably cruciform. The arrangements known cruciform parachute drop tives include-~ - times a flotation balloon associated with the parachute, a thread radiant contained in the balloon being stretched during inflation flage of it and playing the antenna r ~.
Such a device is very simple, inexpensive in that which concerns the antenna, has a small footprint at '- the folded state and ensures good insulation against sea water.

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~ ' ~ 096031 However, it has the following disadvantages. he offers a relatively high wind resistance, which makes take off the buoy and create localization errors.
This significant wind catch also causes an inclination birth of the antenna unfavorable to the radiation thereof and an induced noise on the equipment carrying cable electro-acoustic which reduces the sensitivity of the latter.
If it is economical with regard to the antenna, this device is expensive because it requires employment a significant amount of waterproof canvas and that its realization must be entrusted to a specialized workforce.
In addition, known flotation balloons are usually inflated by inflators assets such as compressed gas cylinders, which increases lies the cost price of the device.
These balloons are generally formed by a sphere surmounted by a cone, which makes their realization ill-easy, or they are tetrahedral in shape and preqent - then an insufficient buoyancy reserve, if you want place the base of the antenna below sea level.
The invention aims to remedy the aforementioned drawbacks by creating a release and flotation device in particular for acoustic buoys which, while being of a price of re-comes reduced, has a relatively low wind resistance.
It therefore relates to a device for dropping and flotation for a suspended load, in particular a buoy underwater listening system, including a parachute to which is suspended hanging the load and at least one inflatable float intended for maintain a load at a determined depth, characterized in that said float is constituted by a balloon in pillow shape fixed in the central part of the parachute and extended by an inflation sleeve under the effect of the over-~ - 2 -:
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1 ~ 96031 air pressure generated by the parachute during its descent, said sleeve being stretched by a tension member whose extremit ~ s are respectively fixed ~ es at the extremity ~ free of the sleeve and charge.
Other characteristics of the invention will appear during the description which follows.
In the accompanying drawings, given only by way of example example:
Fig. 1 is an elevational and sectional view of a device positive drop according to the invention, Fig. 2 is a more detailed partial view of the device.
~ positive of FIG. 1, ; Fig. 3 is a top view of the device of the Fig. 2.
The release device shown in FIG. 1 com-mainly takes a cruciform parachute 1 (Fig. 3) which wears, in its central region, a flotation balloon 2 pillow-shaped consisting of two squares 3 of waterproof canvas edge glued edge to edge.
- 20 In the center of the upper square 3, an antenna is fixed whip 4. For this purpose, the square of canvas intended to support the antenna carries a rigid disc 5 glued to the canvas and which has a central hole crossed by the lower end of the antenna 4. The fixing of the antenna in the disc is . . . .
ensured, for example, by screwing.
Three metallic braids 5a, forming a ground plane are also attached to disk 5. This disc also constitutes the cover of a case B containing ~ - ning the radio transmission equipment.
The lower square 3 of the balloon comprises, in its central part, an orifice to which a sleeve 6 of frustoconical shape, elastic 7, inside the lOg6031 balloon 2, joining the center of the end of the sleeve connected to the lower square 3 with the unit ~ tier B of the device-transmission time.
Sleeve 6 is made of waterproof canvas. His mean diameter is a few centimeters, while its length is between twenty centimeters and about one meter, depending on the value of the overpressure which must reign in balloon 2 to maintain its shape.
As can be seen in FIG. 2, at its end opposite the balloon 2, the sleeve 6 carries a valve 8 consisting of killed by a cylindrical plastic sleeve that said sleeve being provided with an internal cross 9 and a seat 10 for a valve 11 in flexible canvas fixed to the center of the cross 9 by means of a rivet 12 which engages in an axial channel 13 of the spider.
Although, in the present embodiment, there is provided a valve, it is not essential.
In the channel 13, is fixed the upper end a tension member of the sleeve 6, constituted by a link 14.
As shown in Fig. 3, the cruciform parachute 1 consists of four rectangles of canvas or plastic sheet only 15 sewn or glued each by one of their short sides at the bottom square 3 of the balloon 2.
The seams or glued joints 16 are protected by waterproof strips 17 which seal the ball-lonnet and parachute reinforcement. The bands 17 are - glued to seams or glued joints 16.
On the sides of the rectangles 15 next to the seams or glued joints 16, 18 lines are fixed through the parachute and connecting two opposite rectangles 15 thereof, said lines being connected according to a ,. . .

1096 () 31 technique known to a central part 19 in the center of which is hung the upper end of a sling 20 of which the lower end carries a load 21 whose device of the invention must ensure the release and then the flotation.
The rectangles 15 are possibly perforated to `together, constitute a stabilization chimney parachute.
In the present example, the load 21 is constituted - by electro-acoustic equipment connected to the antenna 4 by a conductor (not shown) ~ The load 21 is fixed to the sling 20 by means of a hooking device 22 constituted by a tilting lock. This is cons-formed by two flanges 23 having a straight side 24 and a lateral recess 25 in which a hook is engaged 26 secured to a rod 27 for suspending the load 21.
Sling 20 is attached to the end of the straight side 24 of the flanges 23 closest to the recess 25.
At their opposite end, the straight sides 24 flanges 23 ensure the tightening of the link 14, it travels pouring the pipe 19 connecting the lines 18 to the sling 20, through an orifice 28 formed therein. The device attachment 22 is connected to the load 21 by an elastic link 29 such as a "bungee cord" about 2.50 m long.
The device which has just been described as functional the following way.
In the position before release, the sling 20 is folded in two equal halves, sewn together with a wire to break (not shown ~ another ~. Another provision is to insert, between the sling 20 and the hooking device 22, a shock absorber weaver.
When deploying the parachute, the sling 20 is more tense than the link 14. The wire now together 1096 () 31 two halves of the folded sling break, so that the elin-gue alone suspends load 21 during the descent of the parachute.
The link 14 keeps the chew 6 in a position such as the increase in air pressure, due to the descent, causes air to enter the sleeve and balloon inflation 2.
When the load 21 comes into contact with water, the tension of sling 20 is released and line 14 causes the tilting of the lock 22 and the release of the hook 26, the load then being connected to the rest of the device only by the elastic link 29 and by the electrical connection cable.
The overpressure in balloon 2 is considerable-increased by the entry of water in the lower part of the sleeve. The valve is then applied to its seat 10, prevents any outflow of water and thus traps the air contained in the balloon.
The elastic 7 exerts on the opposite walls of the ball lonnet 2, a restoring force against the pressure of the air entering the balloon through the sleeve 6, which sure, in combination with valve 8, maintaining the anti-born.
During its immersion, the charge 21 is emptied of its cable and its electro-acoustic assembly, and ensures with these the ionction of anore ilottante for the dispositii.

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Claims (9)

The embodiments of the invention, about which an exclusive right of property or privilege is claimed, are defined as follows: 1. Release and flotation device for a suspended load, in particular an underwater listening buoy, taking a parachute to which the load is suspended and at least an inflatable float designed to maintain the load at a depth deur determined, characterized in that said float consists by a pillow-shaped balloon fixed in the central part parachute and extended by an inflation sleeve under the effect the overpressure of air generated by the parachute when it lowering, said sleeve being stretched by a tension member of which the ends are respectively fixed to the free end of the sleeve and chargeable. 2. Device according to claim 1, characterized in that said parachute is cruciform and the balloon shaped of pillow consists of two squares of canvas glued edge to edge, one of the canvas squares forming said float being provided of said inflation sleeve and constituting the central part of the parachute whose branches are formed by rectangles of canvas or plastic sheet sewn or glued to said square by one of their short sides, lines connected to a piece of link being fixed to said rectangles. 3. Device according to claim 2, characterized in that the seams or collages between said square of canvas and the rectangles constituting the cruciform parachute are protected by waterproof strips glued to said seams or glued joints. 4. Device according to claim 1, characterized in that said inflation sleeve of said balloon is shaped frustoconical divergent towards the end of said opposite sleeve balloon and has a valve with a canvas valve flexible, retaining air in the balloon. 5. Device according to claim 4, characterized in that said valve comprises a sleeve provided with a cross in the central part of which is formed a channel in which is fixed one end of the tension member of said sleeve, said valve being fixed to one end of said sleeve and cooperating rant with a seat thereof. 6. Device according to claim 1, characterized in that said load is attached to the parachute by means of a sling one end of which is fixed to said connecting piece lines and the other end of which is connected to said load by means of a hooking device constituted by a tilting lock, said sleeve tension member being constituted by a link whose end opposite to said valve is also attached to the tilting lock an elastic link tick connecting said lock to said load. 7. Device according to claim 6, characterized in that said tilting latch has a straight side and a recess in which a suspension hook is engaged load, the sling being attached to the end of the straight side line of the lock adjacent to the recess and the member being fixed at the other end of said straight side. 8. Device according to claims 2, 3 or 4, characterized in that the square of fabric of the balloon, opposite the one carrying said sleeve, carries a whip antenna whose foot is fixed to a rigid disc glued on said square and forming a inside of a case that contains radio transmission equipment of the underwater listening buoy. 9. Device according to claims 2, 3 or 4, characterized in that an elastic member, intended to maintain an antenna in position, brings together the two squares of canvas titling said balloon.