The invention relates to a corset for securely locking a shutter controlled by an actuator, the shutter being locked in the open position. The corset can in particular be a corset for an actuator for an aircraft landing gear door. The invention also relates to a secure locking method utilizing such a corset.
In the case of machines designed for air travel, as well as in other fields such as the construction and automotive sectors, it is known to control access shutters for internal spaces by means of hydraulic, pneumatic or electric actuators. In order to keep these shutters open entirely reliably during operations carried out through the openings thus created, it is necessary to lock the shutter in the open position.
Locking of this type can be secured by a corset which surrounds the piston of the actuator in the fully deployed position in order to prevent it from sliding. In particular in the field of aeronautics, such corsets have been developed for aircraft landing gear doors. These corsets comprise two articulated half-shells which come to surround the piston of the actuator and which are locked to each other when the actuator is fully extended.
In the case of an aircraft, there are three types of locking corset, depending on the type of landing gear, specifically: forward gear, under-wing gear and main gear underneath the body of the fuselage. Main landing gear doors present the particular problem of fully opening the outer doors, from what is termed a hanging open position, and of holding them in this position.
The invention aims to solve this problem, in particular of securing and controlling the positioning of the corset on the actuator piston, as well as moving the doors into their fully open position and holding them in that position by locking the corsets on the pistons of these doors. To that end, the invention provides the possibility of adjusting the length of the corset.
More specifically, the invention relates to a corset for securely locking a piston of an actuator, having a longitudinal axis and designed to control the opening of a shutter mounted on a structure, the locking being secured in the defined opening position of the shutter, in particular the fully open position. The corset comprises a control unit having attachment means designed to be coupled to a fixed point of the structure and means for varying the distance between the unit and the attachment means. These means for varying the distance are thus designed to move the attachment means further away from or closer to the corset along the longitudinal axis.
According to preferred embodiments:
the means for varying the distance comprise a screw having a threaded rod designed to drive, by rotation, a tapped nut coupled to an extending arm fitted with the attachment means, in particular an extending arm of overall “L” shape;
the means for varying the distance are chosen from a pneumatic, a hydraulic and an electric extension system fitted with the attachment means, in particular a micro-actuator or an actuator having an electric motor;
the control unit is securely fastened to an outer face of the corset, in particular, with the corset comprising two half-shells forming the outer face of the corset, the control unit is securely fastened to at least one of the half-shells;
each half-shell of semi-cylindrical overall shape has, securely fastened to its inner face, half seals, in particular made of TEFLON™ designed to facilitate the sliding of the piston;
the coupling nut is a pivot nut comprising a cylindrical body designed to be inserted into a suitably dimensioned housing of the extending arm, a tapped bore passing through this body and orientation tabs being fitted to the ends of the body.
The invention applies in particular to actuators for outer doors of aircraft landing gear bays. Indeed, a corset of the type described hereinabove is particularly suited to securely locking these outer doors in the fully open position.
In order to implement the corset described hereinabove in an appropriate manner on a piston of a control actuator of an outer door of a landing gear bay, the invention provides an ad hoc secure locking method. In this method, the door is first placed in an intermediate open position, termed a hanging position, which corresponds to a threshold position for locking the opening of the actuator. One end of the arm of the corset is then attached to the bay by said attachment means. The half-shells of the above corset are then tightened around the piston and are locked once closed around the piston. The distance between the unit and the extending arm is then increased until the actuator is fully deployed and the door is fully open.
Other features and advantages of the invention will become clear upon reading the following description with reference to the appended figures, in which:
With reference to the view in perspective of a main landing gear 1 of an airplane of
When on the ground, the actuators 3 are locked in the extended position by corsets. As regards the outer doors 21, the corsets must make it possible to hold these doors in the fully open position. One example of a secure locking corset 4, which is suited to holding in this way, is shown in
A corset 4 of this type comprises an outer face, formed in this case by two half-shells 41 of cylindrical overall shape, each having a longitudinal axis. In the closed position, the axes of the half-shells coincide along one and the same axis A′A. These half-shells are designed to tighten around the piston 31 of the actuator 3, the axis of which coincides with the common longitudinal axis A′A of the half-shells once these are closed around the piston. Moreover, these half-shells are articulated to each other by means of hinges 42, and are held in the closed position around the actuator by locking means, in this case pins 5 arranged in recesses 51 arranged on the other side from the hinges 42.
The corset 4 also comprises a control unit 6 securely fastened, for example welded, to one of the half-shells 41, and means 7 for varying the distance between the unit 6 and means 8 for attaching the corset 4 to an element of the structure of the gear bay. In the example, the means for varying the distance consist of a threaded rod 7a which is free to rotate through a channel 61 in the unit 6, and is designed to drive a tapped pivot nut 71 in rotation.
This nut 71 is mounted transversely at one end E1 of an extending arm 7b, advantageously an “L”-shaped arm. This shape makes it possible to balance the masses making up the corset 4. At the other end E2 of this arm 7b, an opening 72 has been created in order to receive a pin 8a for attaching the arm 7b, and more generally the corset, to a fixed point F of the structure. Additional attachment means 8b are also provided.
When the rod 7a is in rotation (arrow R), driven by a screwdriver in connection with a hex nut 70 arranged at the head of the rod 7a, the pivot nut 71 moves along the rod 7a. This movement increases the distance (arrow D), along the common longitudinal axis A′A of the half-shells 41, between the unit 6 and the arm 7b when the rod 7a rotates in one direction (arrow R) and decreases the distance when the rod rotates in the other direction. Increasing the distance thus moves the half-shells 41 away from the fixed point F.
As an alternative, the means for varying the distance can consist of a micro-actuator, or an actuator having an electric motor, fitted with the attachment means, such as a drive unit 711 illustrated in
The pivot nut 71 and the arm 7b are described with reference to
The half-shells 41 of the corset 4 are then opened and tightened around the piston 31 of the control actuator 3 of the outer door, as illustrated with reference to
The distance between the unit 6 and the extending arm 7b is then increased (
The invention is not limited to the examples described and represented. It is for example possible to provide a single molded shell for the unit and one half-shell or for all the corset with subsequent separation in order to allow the opening thereof. It is also possible to make deployment of the arm of the corset automatic, for example by means of a remote control.
Moreover, the corset can be made of any material capable of withstanding high pressures, of steel or of high density plastic.
Furthermore, two markings of different colors can be applied to the corset: a first marking which is visible to the operator when the corset is in the hanging door position, and a second marking which becomes visible to the operator when the corset is in the fully extended position, the outer door being fully open.
Number | Date | Country | Kind |
---|---|---|---|
11 50934 | Feb 2011 | FR | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/FR2012/050178 | 1/27/2012 | WO | 00 | 8/1/2013 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2012/104526 | 8/9/2012 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
3203513 | Allen | Aug 1965 | A |
4015862 | Bahrman et al. | Apr 1977 | A |
4073345 | Miller | Feb 1978 | A |
4323001 | Masclet et al. | Apr 1982 | A |
4634170 | Lach | Jan 1987 | A |
4744548 | Hathaway | May 1988 | A |
4791855 | Matsui | Dec 1988 | A |
4890703 | Hathaway | Jan 1990 | A |
4981069 | Matsui | Jan 1991 | A |
5040747 | Kane et al. | Aug 1991 | A |
5575513 | Tuttle | Nov 1996 | A |
6247564 | Kim | Jun 2001 | B1 |
6520067 | Hunt et al. | Feb 2003 | B1 |
7243765 | Marcacci | Jul 2007 | B2 |
7730579 | Coe | Jun 2010 | B2 |
7980796 | Salt | Jul 2011 | B1 |
20070187198 | Born et al. | Aug 2007 | A1 |
20100139429 | Ku | Jun 2010 | A1 |
20110278394 | Ditzler | Nov 2011 | A1 |
Number | Date | Country |
---|---|---|
202 09 151 | Nov 2002 | DE |
Entry |
---|
International Search Report dated Apr. 11, 2012. |
Written Opinion of the International Searching Authority with its English translation. |
Number | Date | Country | |
---|---|---|---|
20130305917 A1 | Nov 2013 | US |