RU2033946C1 - Parachute deployment device - Google Patents

Abstract

FIELD: parachute technique. SUBSTANCE: device has aneroid-operated mechanism 1, clockwork mechanism 2, interlocking levers 3 located in housing 4, lock 5, pull mechanism 6 secured to housing 4 from beneath which has cord 7 in flexible protective casing 8 connected to two-cone lock 9 of parachute. Fitted on lateral surface of housing 4 is input mechanism which has additional flexible protective casing with cylinder-housing at free end and rod with piston. In the front portion of piston there is profiled seat for calibrated locking ring; sealing ring is provided in central portion and split collet of decoupler is arranged in rear portion. Tip of ear with line is fitted in split collet of decoupler. In case of loading the line, force is transmitted via ear, tip and split collet of decoupler to piston and then to calibrated locking ring received by the seat. As soon as force reaches critical value P_cr , calibrated locking ring spreads freeing the piston which starts moving in cylinder-housing pulling the rod from balance beam. As soon as split collet of decoupler is not engageable with cylinder any longer, its tabs open and spherical tip gets disengaged freeing the ear with line. Motion from clockwork mechanism 2 is transmitted via gear train to interlocking levers 3 or open lock of pull mechanism 6 or stop clockwork mechanism 2 if the flight altitude exceeds the value set on the instrument dial. As soon as preset altitude has been achieved, interlocking levers 3 are released due to compression of aneroid and clockwork mechanism completes remaining time 0.8 to 1.2 s and switches on lock 5 which releases piston of the instrument. Under action of compressed springs, the instrument piston starts moving and pulling cord 7 in protective casing 8 and opens two-cone lock 9 of parachute. EFFECT: enhanced reliability due to enhanced tightness of mechanism switching on the device and maintenance of stable operation of device throughout entire range of application. 2 dwg

Description

 The invention relates to parachute technology and can be used in devices for opening a pack of a parachute and for putting parachute rescue systems into operation.

A device for opening a parachute containing a handle kinematically connected by a cable to the nodes of the parachute system [1]
The main disadvantage of this device is the need for the parachutist to open the canopy of the parachute himself, which can not always happen for various reasons.

Closest to the proposed is a device for opening a parachute, consisting of locking levers, clock and aneroid mechanisms, as well as an exhaust mechanism connected via a cable to the cones of the backpack of the parachute and a flexible pin mounted on the bolt, which activates the device for opening the parachute [2]
When installing a flexible stud in the shutter of the device, the internal cavity of the device is contaminated. Dust and sand located at the end of the stud, when installed on the device, immediately fall inside the device, disrupting its performance.

 The objective of the invention is to increase the operational reliability of the device by increasing the tightness of the mechanism for turning on the device in operation and maintaining the stability of the shutter.

 This is achieved by the fact that the device is equipped with an input mechanism, including an additional flexible protective casing fixed at one end to the device casing, a cylinder body mounted on the free end of the additional flexible protective casing, a calibrated snap ring installed in a profiled socket made on the interface surface of the housing - a cylinder and a piston mounted on a rod and provided with a split collet for uncoupling, and the eyelet of the halyard is equipped with a tip included in a split collet for uncoupling the piston.

 The implementation of the input mechanism in the device increases operational reliability, namely, the stability of the operation of the device due to the introduction of a lock in the form of a calibrated retaining ring, as well as the tightness of the device due to the introduction of a piston group and a collet release.

Introduction of additional flexible guard device permits operation of the phase situated in the entire range of the solid angle, ie. E. From 0 to 180 ° ^C.

 The introduction of a calibrated locking ring provides a stable mode of operation of the device under any operating conditions.

 The introduction of a split release collet implements the hitch unhooking from the stud after it is guaranteed to be pulled out of engagement in the balance of the device.

 The introduction of the tip on the eyelet of the halyard implements the uncoupling of the halyard from the stud.

 The invention applies the principle of separation of control and execution functions. The control mechanism is two-stage, with the first stage calibrated circlip, and the second split collet hitch release. Mechanism of execution effort on the halyard from a parachute. This combination of control and execution functions protects the device from dusting by separating the execution mechanism by a piston group and stabilizes the device commissioning by introducing a tared retaining ring.

 In FIG. 1 shows a device for opening a parachute; in FIG. 2a, b node I in FIG. 1.

 The device for opening the parachute contains aneroid 1, clock 2 mechanisms, locking levers 3 located in the housing 4 of the device, the lock 5 of the device, the exhaust mechanism 6, mounted at the bottom of the housing 4, connecting the cable 7 in a flexible protective casing 8, attached to the two-cone lock 9 of the parachute . An input mechanism is installed on the side surface of the housing, comprising an additional protective casing 10, a cylinder body 11 and a rod with a piston 12. In the front of the piston, a profiled socket 13 for a calibrated retaining ring 14 is made, in the central part there is an o-ring 15, and a split collet in the rear uncoupling 16. In the split collet of the uncoupling 16, the ending 17 of the eye 18 with the halyard 19 is installed.

 A device for opening a parachute works as follows.

When the halyard 19 is loaded, the force through the eyelet 18, the tip 17, the split collet of the uncoupling 16 is transmitted to the piston 12 and then to the calibrated locking ring 14 installed in the socket 13. After reaching the critical value P _{cr, the} calibrated locking ring 14 is opened and the released piston 12 begins move in the cylinder body 11, pulling the rod out of the balancer. When the split collet of the uncoupling 16 comes out of contact with the cylinder body 11, its petals open and the tip 17 disengages, and with it the eye 18 with the halyard 19. The movement from the clock mechanism 2 is transmitted through the gear system to the locking levers 3, which either open lock 5 of the exhaust mechanism 6, or stop the clock mechanism 2 if the flight altitude is greater than the height set on the scale of the device. When reaching the specified height due to compression of the aneroid, the locking levers 3 are released and the clock mechanism 2 completes the remaining 0.8-1.2 s and turns on the lock 5, which releases the piston of the device. Under the action of the compressed springs, the piston of the device moves, pulls the cable 7 in the protective casing 8 and opens the two-cone lock 9 of the parachute.

 The proposed device for opening parachutes provides, in comparison with the known, the following advantages: tightness of the internal cavity of the device, stability of operation regardless of the conditions for pulling the studs.

Claims (1)

 DEVICE FOR OPENING THE PARASUTE, containing locking levers located in one case, clock and aneroid mechanisms, kinematically connected through a lock with an exhaust mechanism connected by a cable in a flexible protective cover with studs of cones of a parachute backpack, and a flexible pin in the form of a rod mounted on the case, characterized in that the device is equipped with an input mechanism, including an additional flexible protective casing, fixed at one end to the device body, a cylinder body mounted on the free end of the additional ADDITIONAL guard, tared circlip mounted in a shaped slot formed in a surface-coupling of the cylinder body and a piston fixed to the rod and provided with a split collet uncoupling and halyards eyelet provided ending, part of a split collet uncoupling piston.

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