RU184337U1 - DEVICE OF STOPPING THE STOCK OF THE MECHANISM OF LAYING OF AERODYNAMIC SURFACES - Google Patents

Abstract

The device for locking the stem of the mechanism for unfolding aerodynamic surfaces relates to the field of aviation technology, namely, the elements of means for unfolding and fixing the aerodynamic surfaces of aircraft.

The device for locking the rod of the folding mechanism of the aerodynamic surfaces contains a locking element made in the form of a plate spring of bending, and a movable element mounted on the locking element with the ability to move along the locking element, with a groove made in the rod.

The device for locking the stem of the folding mechanism of the aerodynamic surfaces makes it possible to avoid damage to the elements of the device under shock loading.

Description

The invention relates to the field of aviation technology, namely the elements of the means of folding and fixing the aerodynamic surfaces of aircraft.

The prior art discloses a device for folding and fixing wing consoles of an aircraft (patent of the Russian Federation RU 2463210, priority date 05/13/2011, IPC В64С 3/56, F42B 10/14), which is closest to the proposed utility model and selected as a prototype. The device for folding and fixing the wing consoles of the aircraft, in particular, contains a node for folding the wing consoles, which includes, among other things, a pneumatic cylinder with a piston, and a node for fixing the wing consoles, which includes a means of fixation that engages with the piston.

The disadvantage of the device folding and fixing the consoles of the aircraft is the lack of reliability of the device when exposed to shock loading during unfolding.

The utility model is aimed at solving the following technical problem: prevention of damage to the elements of the device when the shock interaction of the consoles of aerodynamic surfaces with resistant structural elements.

The technical problem is solved due to the fact that the device for locking the stem of the mechanism for unfolding aerodynamic surfaces contains a support element and a locking element, while the rod has the possibility of translational movement relative to the support element along its longitudinal axis, and the groove is made in the rod as a plate spring bending, the first end of the locking element is free, the second end of the locking element is fixed to the supporting element, the locking element is set so The first end of the locking element is facing in the direction of the rod stroke at an angle to the longitudinal axis of the rod, on the surface of the locking element facing the rod, is mounted for movement along the locking element of the movable element so that the elastic force of the spring presses the locking element and the movable element to the rod, and in the first position of the movable element in contact with the first end of the locking element, and in the second position of the movable element is located between the first and second ends of the locking element one, the height of the movable element is such that in the first position the movable element prevents the locking element from entering the groove, while in the second position the movable element allows the locking element to enter the groove, and when it enters the groove the movable element prevents the rod from moving against the stroke.

The technical result of the utility model is to increase the reliability of the device for locking the stem of the folding mechanism when subjected to shock loading by preventing damage to its elements.

The essence of the proposed utility model is illustrated by the drawings: FIG. 1-5 show the various stages of operation of the device for locking the rod of the mechanism for unfolding aerodynamic surfaces, and V is the speed of movement of the rod. FIG. 1 and FIG. 2 direction V coincides with the stroke of the rod.

FIG. 1-5 marked the following positions:

1 - supporting element;

2 - locking element;

3 - movable element;

4 - groove;

5 - stock.

The device for locking the rod of the folding mechanism of the aerodynamic surfaces consists of the supporting element 1, the locking element 2, the movable element 3 and the groove 4 made in the rod 5.

The supporting element 1 can be made either in the form of a case for locking the rod of the mechanism for unfolding aerodynamic surfaces, or, if the device for locking the rod for the mechanism for unfolding aerodynamic surfaces is part of a more complex assembly, it is another element of such a node with respect to which the rod moves 5. In FIG. 1-5, the support element 1 is schematically indicated as a seal.

The locking element 2 is made in the form of a plate spring bend. The first end of the locking element 2 is free, the second end of the locking element 2 is fixed on the supporting element 1. The locking element 2 is installed so that the first end of the locking element 2 faces in the direction of the stroke of the rod 5 at an angle α of the longitudinal axis of the rod 5.

The movable element 3 is mounted on the locking element 2 on the side facing the rod 5, can be moved along the locking element 2 and can occupy at least two positions: in the first position the movable element 3 contacts with the first end of the locking element 2, in the second The position of the movable element 3 is located between the first and second ends of the locking element 2.

The locking element 2 is installed so that the force of elasticity presses it to the rod 5, and in cases when the locking element 2 or the movable element 3 touch the rod 5 outside the groove 4, and in cases when the locking element 2 or the movable element 3 touch the inner surface groove 4.

The groove 4 is made in the rod 5 from the side with which the locking element 2 is located, so that when moving the rod 5 along the longitudinal axis, the locking element 2 with the movable element 3 can fall into the groove 4.

The depth of the groove 4 and the height of the movable element 3 are such that the movable element 3, being in the groove 4 and occupying the first position on the locking element 2 (FIG. 3), lifts the locking element 2 above the groove 4 enough that the locking element 2 cannot touch the walls groove 4. The length of the groove 4 and the length and height of the movable element 3 are such that jams of the movable element 3 in the groove 4 do not occur when the rod 5 moves in the direction indicated in FIG. 2

The device for locking the stem of the folding mechanism of the aerodynamic surfaces works as follows:

Prior to the triggering of the folding mechanism of the aerodynamic surfaces, the locking element 2 is in the initial position, the movable element 3 is in the first position (Fig. 1). When triggered by the folding mechanism of the aerodynamic surfaces under the action of the folding force, the rod 5 begins to move in the direction of the stroke of the rod 5 (coincides with the direction of folding), and lifts the locking element 2 with the movable element 3 (Fig. 2). The movable element 3 enters the groove 4 of the rod 5, at the same time due to the movable element 3, which prevents the locking element 2 from entering the groove 4, the locking element 2 is raised above the rod 5 (Fig. 3).

After the rod 5 takes an extreme position, a rollback occurs (Fig. 4). In the absence of the movable element 3, the locking element 2 would already fall into the groove 4, fixation would occur, and because of the maximum kinetic energy of the system and the impact force acting on the locking element 2, there would be a threat of its destruction. But due to the presence of the movable element 3, the locking element 2, raised above the rod 5, does not fall into the groove 4 during the rollback, only the movable element 3 enters the groove 4, which due to this moves during the rollback along the locking element 2 and takes its second position.

After the rollback of the rod 5, the unfolding force continues to act on the rod 5 and under the action of its rod 5 resumes movement in the direction of the stroke of the rod 5 (indicated in Fig. 1 and Fig. 2) until it reaches the extreme position again, after which the locking element 2 falls into the groove 4 (Fig. 5). At this stage of unfolding, the kinetic energy of the system is already extinguished and there is no impact, which allows the rod 5 to be locked in order to avoid the destruction of the locking element 2. After the rod 5 is locked, the locking element 2 prevents the rod 5 from moving in the opposite direction of the rod 5.

The device for locking the rod of the folding mechanism of aerodynamic surfaces is intended for use in the field of aviation technology, namely, elements of means for folding and fixing the aerodynamic surfaces of aircraft and possesses reliability under shock loading.

Claims (1)

The device for locking the rod of the folding mechanism of aerodynamic surfaces, containing the supporting element and the locking element, while the rod has the possibility of translational movement relative to the supporting element along its longitudinal axis, and the groove is made in the rod, characterized in that the locking element is made in the form of a leaf spring bend the end of the locking element is free, the second end of the locking element is fixed on the supporting element, the locking element is installed so that the first end of The supporting element faces in the direction of the rod stroke at an angle to the longitudinal axis of the rod, on the surface of the locking element facing the rod, is arranged to move along the locking element the movable element so that the elastic force of the spring presses the locking element and the movable element to the rod, and the first position of the movable element in contact with the first end of the locking element, and in the second position of the movable element is located between the first and second ends of the locking element, the height of the movable element ementa such that in a first position the movable member prevents the lock member in the groove, wherein in the second position the movable member allows ingress of the locking member into the recess and in contact with the groove prevents movement of the movable member against the rod stroke.

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