RU2624755C2 - Method of parachute descent with axial cord - Google Patents

Abstract

FIELD: aviation.

SUBSTANCE: method of parachute descent with axial cord equal to the length of the main lines, and the device for detaching the axial cord, includes parachute opening and the axial cord detaching. In this case, the device for detaching the axial cord is activated only after the parachute opening is completed.

EFFECT: expansion of the minimum safe descending armoury of the parachute system application by providing a steady decrease in the open parachute while maintaining the development minimum time.

2 dwg

Description

The invention relates to parachute technology, in particular to methods for reducing parachutes for various purposes (landing, rescue, cargo, special purpose).

There is a method of reducing the parachute with a central sling, the length of which is greater than the length of the main slings (N. A. Lobanov, "Fundamentals of calculation and design of parachutes", 1965, p. 135, Fig. 9.3.).

With the dome fully completed, the central sling hangs inside the dome, and the parachute has a steady, stable decline.

The disadvantage of this method is that it does not minimize the time of filling the dome and reducing the minimum safe height of the parachute system.

Currently, there are known methods of introducing an exhaust parachute with a central sling equal to the length of the main slings, which is widely used as part of serial rescue parachute systems such as S-4, S-5, S-7, PN-58 ("Rescue guided parachute S-4U ", Technical description 6772-67, 1993, p. 14, Fig. 5." Rescue parachute system S-5K series 2 ", Technical description 12540-74, 1981, p. 23, Fig. 5." Rescue parachute system S-7 ", Technical description 21607-86, 1988, page 16, Fig. 4." Rescue guided parachute PN-58 series 3 ", Technical description Ie 7973-68, 1992, p. 13, Fig. 4.).

For an exhaust parachute, the operating time after filling its canopy is several seconds, therefore, the stability characteristics of the parachute after the disclosure have no practical value. For parachutes, which are the main components of human or cargo parachute systems, the operating time after opening is several tens of seconds. In this case, the stability characteristics of the parachute is no less significant than the time of its opening or resistance force. The main disadvantage of this method is the lack of stability in reducing the parachute after it is opened.

There is also a method of introducing an exhaust parachute with a central sling equal to the length of the main slings (N. A. Lobanov, “Fundamentals of calculation and design of parachutes,” 1965, p. 135, Fig. 9.2.).

This method provides quick filling of the dome, but there is no stability of the parachute in the process of subsequent reduction. Intense rocking of the parachute is observed.

Closest to the technical nature of the proposed method is a method of lowering a parachute with a central sling equal to the length of the main slings, and a device for uncoupling it, described in British Patent 1243721. This patent implements a method for opening the parachute, which limits the load on the central sling in the process disclosures. This method includes the following operations: opening the canopy of the parachute, during which the current load on the central line is determined and then compared with the maximum possible specified value. The uncoupling device works or does not work depending on the magnitude of the load acting on the central sling. If the load does not exceed a predetermined value, then the uncoupling device does not work, and the parachute is further opened and its operation is carried out without uncoupling the central line.

If at the initial stage of opening the parachute the load exceeds a predetermined value, then, in this case, the central line is uncoupled. In this case, the uncoupling of the central sling is carried out during the opening of the dome, until it is completely filled. This leads to an increase in the filling time of the canopy and to an increase in the minimum safe height of the parachute system.

The technical solution according to the patent GB 1243721 does not allow to solve the problem of reducing the minimum safe height of the parachute system and is fundamentally different in that it either detaches the central line during the opening of the parachute (until it is fully opened), which increases the minimum height of its opening, or does not detach in general, worsening the sustainability of the subsequent decline.

The technical task of the invention is to expand the arsenal of means to reduce the minimum safe height of the parachute system by ensuring the technically guaranteed safety of the central line during the entire process of opening the parachute and uncoupling it only after its completion and, as a result, ensuring a steady reduction in the open parachute while maintaining a minimum filling time domes.

The technical result is achieved due to the fact that in the method of lowering the parachute with a central line equal to the length of the main lines, and a device for disconnecting the central line, including opening the parachute and disconnecting the central line, the device for disconnecting the central line is only activated after the completion of the process of opening the parachute , after its full filling. The full opening (filling) of the parachute is its state in which the dome formation processes are completed and the maximum extension of the lower edge is ensured. After disconnecting the central sling, the pole part of the dome is freed from the retracting action of the central sling and the dome acquires a shape that provides a further steady decrease in the open parachute. A distinctive feature of the proposed method of lowering the parachute is that the device for disconnecting the central line is only activated after the parachute is fully opened.

This method allows for a stable reduction of the opened parachute while maintaining the minimum time for filling the canopy, as well as to reduce the minimum safe height of the parachute system.

In FIG. 1 shows a parachute with a central sling equal to the length of the main slings at the time of completion of the opening process.

In FIG. 2 shows a parachute with a central sling equal to the length of the main slings after disconnecting the central sling.

The structure of the parachute (Fig. 1) includes: dome 1, the main slings 2, the central sling 3, equal to the length of the main slings, and the device 4 for disconnecting the central sling 3. When the parachute is laid down and in the process of opening, the pole part of the dome 5 is practically on level of its lower edge.

A method of reducing a parachute with a central sling 3 equal to the length of the main slings 2, and a device 4 for disconnecting the central sling 3, includes the process of opening the parachute, its full filling, and after completion of the opening of the parachute and its full filling, the device 4 for disconnecting the central slings 3. The device 4 allows you to disconnect the Central slings 3. (Fig. 2)

The pole part of the dome 5 is freed from the retracting action of the central sling 3, the dome 1 takes on a shape that provides a further steady decrease in the open parachute and load 6. The device 4 for disconnecting the central sling 3 can be made, for example, automatic, semi-automatic or manual and installed, for example, on cargo 6.

The proposed solution will provide an expansion of the arsenal of tools to reduce the minimum safe height of the parachute system, which is an important and urgent problem especially for rescue parachutes. Ensuring a steady reduction of the parachute while maintaining a minimum opening time will expand the scope of the parachute system.

Claims (1)

A method for lowering a parachute with a central line equal to the length of the main lines and a device for disconnecting the central line, including opening the parachute and disconnecting the central line, characterized in that the device for disconnecting the central line is only activated after the opening of the parachute.

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