RU2112709C1 - Parachute deployment device - Google Patents

Abstract

FIELD: aeronautical engineering. SUBSTANCE: device includes aneroid-operated and clockwork mechanisms, interlocking levers located in housing, lock, extraction mechanism secured at the housing bottom. Fitted on lateral surface of housing is flexible stud with deployment mechanism provided with additional protective casing connected to housing and attached to piston located in housing-cylinder. Release unit is made in form of two parts with wedge-shaped contact surfaces forming rod of round section. Amount of return stroke of flexible stud is regulated by means of spring-loaded plunger; depressing this plunger makes flexible stud enter the mechanism of device. Such construction of release unit excludes penetration of dirt into deployment mechanism. EFFECT: enhanced operational reliability. 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 is known, which contains locking levers located in the same body, clock and aneroid mechanisms, an exhaust mechanism connected via a cable to the cones of the parachute backpack, and a flexible pin mounted on the bolt that activates the device for opening the parachute [1]. When a flexible pin is installed in the shutter of the device, its internal cavity is contaminated, which can lead to disruption of its performance.

 Closest to the invention, the technical solution is a device for opening a parachute, containing locking levers located in one housing, clock and aneroid mechanisms, kinematically connected through a lock with an exhaust mechanism connected by a cable in a flexible protective casing to the studs of the cones of the parachute backpack, a flexible pin in the form of a rod mounted on the housing and the input mechanism, including an additional flexible protective casing of a flexible pin, fixed at one end to the device’s body, and the other end ohm connected to the cylinder body, inside of which there is a piston with o-rings, one end of which is attached to a flexible pin, and the other is the first part of the uncoupling unit, the second traction part of which is connected with the halyard [2].

 In the known device, the problem of maintaining the tightness of the internal cavity of the device’s body when pulling a flexible pin due to a certain organization of its input mechanism is solved. However, the implementation of the uncoupling unit in the form of a split collet does not prevent the penetration of contaminating particles into the input mechanism, which can lead to a malfunction of the entire device, i.e., to reduce its operational reliability, requiring constant routine work to clean the input mechanism after each operation.

 The technical result that can be achieved using this invention is to increase operational reliability and improve manufacturability.

 The technical result is achieved by the fact that in the device for opening the parachute [2], containing locking levers located in one housing, clock and aneroid mechanisms kinematically connected through a lock with an exhaust mechanism connected by a cable in a flexible protective casing with studs of cones of the backpack of a parachute, a flexible pin in the form of a rod mounted on a housing with an input mechanism, which includes an additional protective cover of a flexible pin, fixed at one end to the device’s body and connected to the housing at the other end a catfish cylinder, inside of which there is a piston, one end of which is attached to a flexible pin, and the other is the first part of the uncoupling unit, the second traction part of which is connected with the halyard [2], both parts of the uncoupling unit, the contact surfaces of which are wedge-shaped, form the hinge has a round cross-section rod, while a spring-loaded plunger is provided in the first part of the uncoupling unit, which limits the return stroke of the flexible pin during uncoupling, and in the second traction part of the uncoupling unit there is an eye for threading the rings Associated with the tether.

 Figure 1 shows a device for opening a parachute; figure 2 - input mechanism at the time of coupling with the halyard and at the time of uncoupling, respectively.

 The device contains aneroid 1, clock 2 mechanisms, locking levers 3 located in the housing 4 of the device, a lock 5, an exhaust mechanism 6, mounted at the bottom of the housing 4, connecting the cable 7 in a flexible protective casing 8, connected to a two-cone lock 9 of the parachute. On the side surface of the housing 4, an input mechanism 10 of the flexible pin 11 is installed, comprising an additional protective casing 12 of the flexible pin 11, made in the form of a rod and attached to the device body 4 and one of the ends of the piston 13 located in the cylinder body 14. The piston 13 has grooves for accommodating the sealing rings 15. The other end of the piston 13 is the first part of the trip unit 16, the second traction part 17 of which has an eyelet through which the ring 18 is connected with the halyard 19. In the first part of the trip unit 16 there is a spring loaded a plunger 20, limiting the reverse stroke of the piston 13 and the flexible stud 11. By pressing the spring-loaded plunger 20, the flexible stud 11 can be freely inserted into the device mechanism.

 The device operates as follows.

When the halyard 19 is loaded, the force through the ring 18 and the trip assembly 16 is transmitted to the piston 13. After reaching the critical value, the second part 17 of the trip assembly 16 is separated from its first part and the piston 13 begins to move in the cylinder body 14, pulling the flexible pin 11 from the balancer . The presence of an additional protective casing 12 ensures that the device responds from a phase located in the entire range of the solid angle, i.e. from 0 to 180 ^o . Movement from the clock mechanism 2 through the gear system is transmitted to the locking levers 3, which either open the lock 5 of the exhaust mechanism 6, or stop the clock mechanism 2 if the flight height 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 includes a 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 and opens the two-cone lock 9 of the parachute.

 This design of the mechanism allows to increase operational reliability, reduce the number of maintenance work to ensure trouble-free operation, simplifying operating conditions, and improve manufacturability.

Sources of information
1. Semi-automatic parachute combined type PPK-u and PPK-1M. Atomizdat, 1972.

 2. RF patent N 2033946 CI, B 64 17/54, 1992.

Claims (1)

 A device for opening a parachute 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 casing to the studs of the cones of the parachute backpack, a flexible pin in the form of a rod mounted on the case, and a mechanism input, including an additional protective casing of the flexible studs, fixed at one end to the device body, and at the other end connected to the cylinder body, inside of which there is a piston , one end of which is attached to a flexible stud, and the other is the first part of the trip assembly, the second traction part of which is connected with a halyard through the eye, characterized in that both parts of the trip assembly, the contact surfaces of which are wedge-shaped, form a round cross-section rod in the coupling in this case, in the first part of the uncoupling unit, a spring-loaded plunger is provided, limiting the return stroke of the flexible pin during uncoupling, and in the second traction part of the uncoupling unit there is an eyelet for threading the ring connected with a halyard.

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