A hydraulic torque compensation device comprises a pair of housings, a first housing including a first high pressure liquid chamber and a second low pressure liquid chambers, a second housing having a third high pressure liquid chamber, a fourth accumulator chamber, and a fifth low pressure chamber
A hydraulic torque compensation device comprises a pair of housings, a first housing including a first high pressure liquid chamber and a second low pressure liquid chambers, a second housing having a third high pressure liquid chamber, a fourth accumulator chamber, and a fifth low pressure chamber that is defined by a wall and an end of the second housing. A first main duct links the first chamber of the first housing to the third chamber of the second housing. A second main duct links the second chamber of the first housing to the fifth chamber of the second housing. Each housing also include a piston, the first chamber between a first piston body and an end of the first housing and the third chamber between a second piston body and the wall. The device ensures a counter action to engine loads when a positive torque is applied.
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1. A hydraulic torque compensation device comprising: a first housing containing: a first piston comprised of a body and a rod,a first chamber arranged between said body of the first piston and a first end of the first housing, said first chamber containing a high pressure liquid,a second chamber ar
1. A hydraulic torque compensation device comprising: a first housing containing: a first piston comprised of a body and a rod,a first chamber arranged between said body of the first piston and a first end of the first housing, said first chamber containing a high pressure liquid,a second chamber arranged between said body of the first piston and a second end of the first housing, through which said rod of the first piston extends towards an exterior, said second chamber containing a low pressure liquid;a second housing containing: a second piston comprised of a body and a rod,a wall extending through a whole section of said second housing, through which said rod of the second piston passes,a third chamber defined between said body of the second piston and said wall, said third chamber containing a high pressure liquid,a fourth chamber, with a variable volume, defined between said body of the second piston and a first end of the second housing, said fourth chamber containing a low pressure liquid,a fifth chamber defined between said wall and a second end of the second housing, through which the rod of the second piston extends towards the exterior, such that the fourth and fifth chambers surround the third chamber, said fifth chamber also comprising a low pressure liquid,an auxiliary duct linking the fourth chamber and the fifth chamber;a first main duct linking the first chamber to the third chamber of the second housing, the first chamber comprising a high pressure liquid and the third chamber also comprising a high pressure liquid, andeither a second main duct linking the second chamber of the first housing to at least one of the fifth or fourth chamber of the second housing, the second chamber comprising a low pressure liquid and the fifth and fourth chambers also comprising a low pressure liquid,or a second chamber with a variable volume. 2. A device according to claim 1, wherein the second end of the first housing is made of a resilient bushing fixedly mounted on the rod of the first piston. 3. A device according to claim 2, wherein said resilient bushing is made of elastomer and metal. 4. A device according to claim 1, wherein the second end of the second housing is made of a resilient bushing fixedly mounted on the rod of the second piston. 5. A device according to claim 4, wherein said resilient bushing is made of elastomer and metal. 6. A device according to claim 1, wherein the body of the first piston comprises at least a one-way valve for a liquid transfer from the second chamber, namely the low pressure chamber of the first housing, to the first chamber, namely the high pressure chamber of the first housing where the high pressure chamber exhibits an abnormal liquid pressure below the liquid pressure in the low pressure chamber. 7. A device according to claim 1, wherein the body of the second piston comprises at least a one-way valve for a liquid transfer from the fourth chamber or from the fifth chamber, namely a low pressure chamber of the second housing, to the third chamber, namely the high pressure chamber of the second housing where the high pressure chamber exhibits an abnormal liquid pressure below the liquid pressure in the low pressure chamber. 8. A device according to claim 1, wherein the fourth chamber comprises a spring-loaded moveable end wall to ensure that the fourth chamber presents a variable volume. 9. A device according to claim 1, wherein the auxiliary duct is made within the rod of the second piston. 10. A device according to claim 1, comprising only two housings. 11. A device according to claim 1, comprising: a second main duct linking the second chamber of the first housing to at least one of the fifth or fourth chamber of the second housing, the second chamber comprising a low pressure liquid and the fifth and fourth chambers also comprising a low pressure liquid, and a second chamber with a variable volume. 12. A device according to claim 1, wherein the fourth chamber presents a resilient side wall to ensure that the fourth chamber presents a variable volume. 13. A device according to claim 12, wherein the resilient side wall is a bellows. 14. A device according to claim 13, wherein the bellows is made of elastomer and metal. 15. A device according to claim 13, wherein the second housing comprises a rigid wall surrounding the fourth chamber in order to provide a stop intended to limit the expansion of the fourth chamber. 16. A system comprising: a hydraulic torque compensation device according to claim 1;a first side isolator mechanically linked to the rod of the first piston belonging to the first housing;a second side isolator mechanically linked to the rod of the second piston belonging to the second housing. 17. A system according to claim 16, wherein the first side isolator is mechanically linked to the rod of the first piston via a rotational joint and wherein the second side isolator is mechanically linked to the rod of the second piston via another rotational joint. 18. A system according to claim 16, wherein the rod of the first piston and the rod of the second piston are arranged in a parallel manner. 19. A hydraulic torque compensation assembly comprising: a support structure with a longitudinal axis for an aircraft engine; anda system according to claim 18 mounted on said support structure such that the rod of the first piston and the rod of the second piston are both arranged in a plane perpendicular to said longitudinal axis.
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