Double hydraulic valve of a servo-control for feathering the blades of a rotorcraft rotor

What is claimed is: 1. A double hydraulic valve of a servo-control for feathering the blades of a rotorcraft rotor, the hydraulic valve comprising: a valve cylinder having A ducts dedicated to providing a hydraulic connection between the hydraulic valve and a source of fluid under pressure, the A ducts comprising at least an admission A duct providing fluid admission from the outside to the inside of the hydraulic valve and at least one discharge A duct providing fluid discharge out from the hydraulic valve, the valve cylinder having B ducts dedicated to providing a hydraulic junction between the hydraulic valve and a cylinder of a hydraulic actuator of the servo-control, referred to as the actuator cylinder, the B ducts comprising a pair of B ducts providing fluid flow between the inside and the outside of the hydraulic valve; a main valve member movably mounted inside the valve cylinder and controllable by a control member, the main valve member providing A channels dedicated to fluid flow through the hydraulic valve between the A ducts and the B ducts, the admission A duct and the discharge A duct being in fluid flow communication via A channels selectively with one or the other of the B ducts depending on the respective positions of the main valve member inside the valve cylinder; an emergency valve member interposed between the valve cylinder and the main valve member, the emergency valve member movably housing the main valve member and being movably mounted inside the valve cylinder, the emergency valve member having B channels that are dedicated to fluid flow between the A channels and either the A ducts or the B ducts, selectively depending on the respective positions of the main valve member; and positioning means for positioning the emergency valve member in a predefined position inside the valve cylinder, in which predefined position the emergency valve member, the A channels, and the B channels are in fluid flow communication in pairs, the positioning means making use at least of elastically deformable means bearing against the valve cylinder, the emergency valve member being authorized to move inside the valve cylinder together with the main valve member under the effect of the emergency valve member being entrained by friction from the main valve member in the event of it seizing inside the emergency valve member against thrust exerted by the elastically deformable means; wherein said positioning means are means for blocking the emergency valve member against the valve cylinder by a pin mounted to move relative to the valve cylinder and co-operating by sliding thrust engagement with a cavity of the emergency valve member, the pin being movable between an engaged position in which a head of the pin is received in the cavity under the effect of the thrust exerted against the pin by the elastically deformable means, and a disengaged position in which said head is totally disengaged from the cavity by mover means for causing the pin to move against the thrust exerted on the pin by the elastically deformable means, operation of the mover means depending on relative movement between the emergency valve member and the valve cylinder serving to release at least in part said cavity by the head of the pin sliding inside the cavity; wherein the mover means for moving the pin are means for applying fluid thrust to the pin, which is provided with a piston having applied thereagainst the fluid that is admitted under pressure into the inside of the hydraulic valve. 2. A hydraulic valve according to claim 1 , wherein the pin is movably received in a chamber of the valve cylinder and is arranged as a plunger for closing a first fluid passage referred to as a C channel, opening out into the chamber through the cavity and being in fluid flow communication with any one of said A ducts and B ducts, and at least a partial setback in the cavity allowing fluid to be admitted into the inside of the chamber from the C channel. 3. A hydraulic valve according to claim 2 , wherein the C channel is in fluid flow communication with the admission A duct. 4. A hydraulic valve according to claim 2 , wherein the chamber is in fluid flow communication with the discharge A duct via a third fluid comprising an E channel, said E channel opening out into any position of the pin upstream from the piston in the travel direction of the pin from the engaged position towards the disengaged position. 5. A hydraulic valve according to claim 4 , wherein the E channel includes a section constriction. 6. A hydraulic valve according to claim 1 , wherein the hydraulic valve has means for establishing fluid flow communication between all of the A ducts and the B ducts in the disengaged position of the pin. 7. A hydraulic valve according to claim 6 , wherein the valve cylinder has second fluid passages comprising D channels, said D channels being fluid passages respectively for a first D channel between the chamber and the admission A duct, for a second D channel between the chamber and the discharge A duct, for a third D channel between the chamber and one of the B ducts, and for a fourth D channel between the chamber and the other one of the B channels, the outlet to the chamber of the D channels being closed off jointly by the piston in the engaged position of the pin and being uncovered by the piston in the disengaged position of the pin. 8. A hydraulic valve according to claim 7 , wherein the D channels open out into the chamber in a common radial plane considered to be inside the chamber relative to the axial travel direction of the pin, fluid flow communication being established between all of the A ducts and the B ducts simultaneously. 9. A hydraulic valve according to claim 7 , wherein the D channels open out into the chamber in different radial planes relative to the travel direction of the pin inside the chamber, fluid flow communication being established progressively between all of the A ducts and the B ducts. 10. A hydraulic valve according to claim 1 , wherein the hydraulic valve includes means for holding the pin in the disengaged position independently of any interruption in the operation of the mover means, wherein the means for holding the pin comprises the elastically deformable means. 11. A hydraulic valve according to claim 10 , wherein the elastically deformable means is arranged as at least one spring blade, said spring blade(s) being fastened to the valve cylinder and being bidirectionally engaged with the pin, the spring blade(s) exerting thrust against the pin in the engaged position and traction on the pin in the disengaged position as a result of its deformation caused by the pin passing into the disengaged position. 12. A hydraulic valve according to claim 10 , wherein the holder means are of the resilient engagement type and comprise an elastically deformable clip co-operating with a housing, the clip and the housing being arranged respectively one in or on the valve cylinder and the other in or on the pin. 13. A hydraulic valve according to claim 1 , wherein the hydraulic valve is of the slide type, the main valve member and the emergency valve member being mounted to move in translation inside the valve cylinder. 14. A hydraulic valve according to claim 1 , wherein the hydraulic valve is of the rotary type, the main valve member and the emergency valve member being mounted to move angularly inside the valve cylinder. 15. A hydraulic valve according to claim 1 , wherein the bearing surface of the head of the pin for bearing against the inside of the cavity is a spherical bearing surface. 16. A hydraulic valve according to