DE1169783B - Facility for reefing and unloading parachutes - Google Patents

Description

Device for reefing and unraveling parachutes The invention relates to a device for reefing and unloading parachutes, consisting of a reefing line, which is arranged near the edge of the parachute canopy and guided around it is, and from a release device that engages the ends of the reefing line and inside a cylindrical housing contains a spring, which on a certain Load is set and causes outbreak when its load is below the set value decreases.

A facility of this type is already known and has been carried out the release of the reefing line depending on the tension of a certain Suspension line, in which a device is switched on, which the suspension line tension controlled. When certain tension values occur in the suspension line, the Reefing line decreased accordingly from the device. The one in that regard effective part of the reefing line is perpendicular to that containing the device Suspension line and has no influence on the spring in the Inside the device.

The known device has the disadvantage that the release process the reefing line is dependent on forces that occur in the suspension lines. These forces are different in their size and in the way they become effective from the forces which appear in the reefing line itself. In the suspension lines there are often jerky, shaking forces that cause a release mechanism to "stutter" cause. The consequence of this is a highly uneven removal of the parachute canopy, also an unfavorable stress on the surface of the reefing line.

In another known device for reefing and de-gathering Parachutes are also deployed regardless of the reefing line tension initiated by unfolding the canopy. Through the associated The shock starts a time work, namely a burning charge with a certain burning time set, which cuts the reefing line after the predetermined time has elapsed and thereby allows the encounter to take place. In this known escape device so the moment of encounter is completely independent of the actual one Necessity of the meeting, rather the meeting takes place at a point in time instead of that long before when packing the parachute in its packing bag has been determined by the number of those placed in the facility Delay burners. The invention is based on the task of the moment of the arrival exactly to the respective requirements during the use of the glider. This is important not only for a skydiver, but also for such parachutes; those used to brake aircraft on landing or to Dropping loads and equipment are used. The solution to the The object is done according to the invention by a device of the type mentioned at the beginning Type, which is characterized in that the release device as a function is operated by the tension of the reefing line. In this way the moment can be adapt to the situation individually, and the encounter occurs not after a predetermined number of seconds have passed thereafter to the deployment of the umbrella, but sooner or later, depending on how strongly straight the pull is in the parachute canopy and the pull is on the reefing line. Herein lies a significant advance compared to the known collection facilities where the time of the arrival of external forces is determined or already fixed beforehand, so that no consideration for speed, positive or negative acceleration, air density, wind conditions, etc. can be taken. Further Features of the invention emerge from the description of two exemplary embodiments, which are shown in the drawing. It shows F i g. 1 is a schematic representation a partially unfolded parachute canopy in a reefed state, FIG. 2 the same Parachute canopy in deflated condition, FIG. 3 a longitudinal sectional view of a release device, which reacts to the reefing line tension, in the reefed state, FIG. 4 the same Device as in FIG. 3 in the fully developed state, FIG. 5 is a longitudinal sectional view another release device for the reefing line that operates on the reefing line tension reacts, in refed condition, FIG. 6 shows the device according to FIG. 5 in full State.

According to FIG. 1 and 2, the parachute canopy A has suspension lines B which are attached in any suitable manner to the load to be dropped or to the aircraft to be braked by a parachute. A furling line 10 is slidably mounted in flexible loops or tubes 11 secured around the circumference of the cap base; the ends of the line 10 are connected to the device C which holds the reefing line and the canopy in the reefed state until it releases them as a result of the drop in line tension to a predetermined value, thus allowing the canopy to unfold to its full resistance area.

According to FIG. 3 and 4, the device C contains a cylinder 13 with a closed end 14 to which one end of the reefing line 10 a is permanently attached. A piston 15 with a piston rod 16 is located in the cylinder 13 and is slidable; the piston rod 16 passes through a partition wall 17 which is fastened to the cylinder 13. A spring 18 is mounted in the cylinder chamber around the piston rod 16; their respective ends abut on the partition 17 and on the piston 15: the spring is pretensioned and has a constant tendency to drive the piston 15 in the direction opposite to the wall 17.

The free end of the piston rod 16 is forked. An L-shaped locking member 20 is rotatably mounted on it at point 19, which has a hook at one end which engages releasably in the looped end 10 b of the reefing line 10 . The transverse end of the locking member 20 rests against the inner wall of the cylinder 13 and has an opening 21 for a locking pin 22 which passes through an opening 24 in the cylinder wall and holds the locking device 20 in place when the parachute is not in use. In use, the pin 22 is connected to a lanyard of the cap, so that when the cap is unfolded, the pin 22 is pulled out and the device is put into operation.

One or more passage or damping openings, such as 26 in piston 15, can be provided so that the air in the cylinder chamber 27 can only escape very slowly and thus prevents any sudden movement of the piston in the cylinder, which is caused by an abrupt release of the tension of the reefing line 10 could be caused during the deployment process of the cap. A greater degree of damping can be achieved by filling the cylinder space on both sides of the piston 15 with a liquid.

When the canopy is initially unfolded to its reefed state (FIG. 1), the reefing line tension is greater than the force of the spring 18. Therefore, after the pin 22 has been pulled out, the hook end of the locking member 20 remains in the position shown in FIG. 3, the end 10 b of the reefing line 10 being held by the hook. If, as a result of the braking of the load, the tension of the line 10 drops to a value which is below the force of the spring 18, the piston 15 is driven into the cylinder 13 and pulls the locking member 20 with it until it has a slot with its upper leg 30 reached in the wall of the cylinder 13. This enables it to pivot into the unlocked position (FIG. 4), whereby the looped end 10b of the leash 10 slides off the hook and the cap can be unfolded over the full resistance surface.

In Fig. 5 and 6, another reefing control C is shown. It contains a cylinder 35 which is closed at one end by a wall 36. The wall 36 has a transverse opening 37 for fastening the looped end 10c of the reefing line. The wall 36 is attached to the cylinder 35 and has a slot 38 for a knife blade 40. A widened part 41 of the cylinder 35 contains a slidable disk 42 which is secured against rotation by a slider 44 of the cylinder part 41. The disc 42 has the knife blade 40 as an extension piece; a shear pin or wire 43 retains the disk 42 with the cutting edge of the blade 40 , as follows. that it does not come into contact with the strand of the loop 10 c, which goes through the opening 37, until the device is put into operation. In the cylinder 35 there is a piston 50, the piston rod 51 of which protrudes through the outer end of the cylinder, and to which the other end 10 d of the reefing line is attached. A threaded cap 52a closes off this end of the cylinder 35. A strong compression spring 52 lies between end cap 52a and piston 50 and has a constant tendency to drive piston 50 against disk 42.

A locking member 55 with a flange end is attached so that it can be moved in and out of the wall of the cylinder 35 in the transverse direction. The locking pin 55 is movably supported by a leaf spring 56, which at point 57 is attached to the cylinder part 41. This spring has a constant tendency to block the locking pin 55 to be lifted out of the cylinder 35. However, the piston 50 is in its front part so shaped. that the flange end of the locking bolt 55 engages behind there, so that if the compression spring 52 is under load, the locking pin 55 any movement of the piston 50 against the wall 36 until strong line pull pulls the spring 52 and the leaf spring 56 enables the locking pin 55 to be pulled out of the path of the piston 50.

A lighter compression spring 60 lies between the piston rod 51 and the disk 42 to increase the pressure when cutting the line.

When the canopy deployed, is between the ends 10 c and 10 d of the reef line a strong tension. This tension acts compressively on the compression spring 52 and removes the load from the locking pin 55, which is then pulled out of the path of the piston 50 by the leaf spring 56 (FIG. 6). When the reefed canopy then decelerates its load, the tension is reduced and the main spring 52 expands. This expansion puts spring 60 under pressure and moves it against wall 36 until the pressure on disk 42 is sufficient to shear pin 43 through. The action of the spring 60 causes the disk 42 to snap forward with the knife 40 and cut the looped end 10c of the reefing line. This allows the cap to fully unfold.

The spring 60 can also be omitted, although the knife 40 then cuts the reefing loop 10c only slowly with the expansion of the spring 52 and not suddenly and sharply, as with the built-in spring according to FIG. 5 and 6. It is also possible to apply a damping device to prevent unwanted movements of the piston 50 during the initial deployment of the cap. Such a device would be similar to the built-in device shown in FIG. 3 and 4 is shown (bore 26).

Claims (11)

Claims: 1. Device for reefing and unloading parachutes, consisting of a reefing line, which is placed near the edge of the parachute canopy and is guided around this, and from a release device that is at the ends the reefing line engages and contains a spring within a cylindrical housing, which is set to a certain load and causes the occurrence, if their load drops below the set value, which means that no n-z e i c h n e t that the release device (C, C ') as a function of the voltage the reefing line (10) is operated. 2. Device according to claim 1, characterized in that the release device (C) contains in a known manner a cylinder (27) with piston (15) and piston rod (16), wherein the releasable end (10 b) of the reefing line (10 ) are detachably attached to the piston rod and the other end (10 a) of the reefing line are firmly attached to the cylinder and the helical compression spring (18) is inserted between the piston and cylinder base (17) and acts in such a way that the piston counter to the pulling direction of the reefing line end (10 b) is pressed (Figs. 3 and 4). 3. Device according to claim 1 and 2, characterized in that the piston (15) one or more passage openings (26) for a cylinder (27) filling Has medium. 4. Device according to claim 1 and 2 or 1 to 3, characterized in that at the end of the piston rod (16) a holding and locking member (20) of known L-shaped shape for the releasable end (10 b) of the reefing line (10) is provided, which - as is also known per se - is held in the reefed state by a housing part in such a position (Fig. 3) that the reefing line cannot slide off, while the retaining member is triggered by the piston ( 15) can be pulled into a position (Fig. 4) in which it releases the reefing line, the L-shaped holding member being designed as a two-armed lever and one leg being pivoted to the end of the piston rod (16), while the other Legs in the reefed state (Fig. 3) rests along the wall of the housing (13) and during the release process - as known - is pulled under a housing opening (30), which causes the holding member to pivot out under the tension of the line (10b) allowed so this slides off the holding member (F i g. 4). 5. Establishment according to claim 1 to 4, characterized in that as a locking device for the Holding member (20) a pin (22) is provided which is attached to the deployment device by a leash of the parachute is in communication and through a hole (24) in the housing (13) extends into a bore (21) of the holding member (FIG. 3). 6. Device according to claim 1, characterized in that a disc (42) is arranged in front of the piston (50), which is longitudinally movable in the direction of the piston and carries a knife (40) on its side facing away from the piston in a manner known per se , which is driven forward with the disc in the direction of the reefing line under the pressure of the spring (52) under the pressure of the spring (52) (Figs. 5 and 6). 7. Device according to claim 6, characterized in that on the side of the piston (50) facing the disc (42) there is arranged a compression spring (60) which acts against the disc. B. Device according to claim 6, characterized in that a bolt (55) which is under spring pressure (56) is arranged on the housing (35) and which the spring pressure tends to move away from the housing, and in that the bolt in the secured state of the device is secured by a Bore of the housing protrudes through into the cylinder and lies in front of the piston (50) so that this is prevented from moving in the direction of the disc (42) with the knife (40) , the bolt in the locked position due to the pressure of the piston itself is held. 9. Device according to claim 8, characterized in that the bolt (55) is conical on its underside, while the piston (50) on its with the bolt in operative connection side a corresponding to the bolt has formed surface. 10. Device according to claim 8, characterized in that that the spring (56) of the bolt (55) is a leaf spring on the outside of the housing (35) is attached. 11. Parachute with equipment for reefing and de-meeting in accordance with one or more of the preceding claims, characterized in that the Reefing line (10) and the release device (C, C ') on the lower edge of the parachute canopy (A) attached and the reefing line in loops or in a tubular sleeve (11) is performed. Publications considered: German Patent No. 923,639; British Patent No. 148,028; U.S. Patents No. 2,897,799, 2,328,914.