润滑科技信息平台

专利摘要

一种用于在飞机涡轮发动机模块中形成耐磨涂层的工具,该模块具有环形定子壳体和中心转子,该中心转子可以在壳体内绕轴线移动,其中该模块具有附接至转子的第一部分、第二部分和第二部分。该部分包括至少一个径向向外延伸并承载铺展辊的第一横向臂,以及以轴线为中心并构造成由操作者手动旋转以便在壳体内旋转工具和转子的飞轮,使得铺展辊能够铺展树脂以形成涂层。 ......

基本信息

专利类型:
发明专利
申请/专利号:
US18/699567
申请日期:
2022-10-05
专利申请人:
分类号:
["B05C7/06","B05C7/00","F01D25/24"]
发明/设计人:
DOMINGUES, SERGE EMMANUEL ， ABADIE, GUILLAUME JULIEN ， BOISSON, ALEXANDRE BERNARD MARIE ， HEBERT, GREGORY
权利要求: 1. A tooling for forming an abradable coating in an aircraft turbomachine module, this module comprising an annular stator casing and a central rotor which can move inside the casing about an axis, comprising:a first portion which is configured to be centered and secured to the rotor,a second portion which comprises at least a first transverse arm extending radially outwards and which carries spreading rollers, anda flywheel centered on said axis and configured to be rotated manually by an operator in order to rotate the tooling and the rotor inside the casing, so that the spreading rollers are capable of spreading a resin in order to form said coating.2. The tooling according to claim 1, wherein the first portion comprises:securing hooks which are distributed around the axis and which are configured to cooperate with said rotor in order to secure the tooling to the rotor, and/orcentring lugs which are distributed around the axis and which are configured to cooperate with said rotor in order to ensure that the tooling is centered on the rotor.3. The tooling according to claim 2, wherein the hooks and/or the lugs are located on a circumference centered on said axis, which has a first diameter, and the flywheel has a second diameter which is greater than the first diameter.4. The tooling claim 1, wherein the first portion comprises support pins or orifices which are parallel to said axis.5. The tooling claim 1, wherein the tooling comprises a second transverse arm which is diametrically opposed the first arm with respect to said axis, and which carries at least one counterweight.6. The tooling claim 1, wherein the tooling further comprises a lever for adjusting the radial position of said rollers with respect to said axis.7. An assembly comprising a tooling according to claim 1, with a transport carriage, said transport carriage comprising a frame, castors secured to the frame, a first space for housing said tooling, and at least one member for supporting the tooling in said first space so that the axis of the tooling is horizontal.8. The assembly according to claim 7, the tooling comprising comprises support pins or orifices which are parallel to said axis, wherein said support member comprises elements which are complementary to the pins or orifices and which are configured to cooperate by male-female engagement with these pins or orifices.9. The assembly according to claim 8, wherein said support member comprises a fixed vertical upright, a plate which is mounted so as to be movable in vertical translation on said upright and which carries said elements, and a crank for adjusting the position of the plate on the upright.10. The assembly according to claim 7, wherein the assembly further comprises an annular protective shroud intended to protect said rotor, the transport carriage further comprising a second space for housing the shroud, and at least one member for supporting the shroud in said second space.11. An installation for forming an abradable coating in an aircraft turbomachine module, said installation comprising an assembly according to claim 7, and an aircraft turbomachine module, this module comprising:a central rotor having an axis of rotation, andan annular stator casing which extends around the axis and the hub, this casing comprising an internal annular surface onto which a resin is intended to be spread by the rollers of said tooling in order to form the coating.12. A method of forming an abradable coating in an aircraft turbomachine module by means of an installation according to claim 11, said method comprising:a step a) of moving said assembly towards the module,a step b) of aligning the axis of the tooling with the axis of the rotor,a step c) of securing the first portion of the tooling to the rotor of the module,a step d) of removing the carriage from the module,a step e) of depositing resin on the surface of the casing, this step may be carried out before one of the preceding steps,a step f) of manual rotation by an operator of the tooling and the rotor inside the casing, by means of the flywheel, so as to spread the resin with the rollers on the surface of the casing,a step g) of supporting the tooling by the carriage,a step h) of separating the tooling from the rotor,a step i) of removing the tooling from the module by means of the carriage.13. The method according to claim 12, wherein, the method comprises, before step a), or between steps a) and b) or b) and c), a step of securing an annular protective shroud intended to protect said rotor to the rotor.14. The method according to claim 12, wherein it the method comprises, between steps d) and e) or e) and f), a step of setting the radial position of the rollers relative to the axis of the rotor.15. The method according to claim 12, wherein the step e) is carried out manually by an operator.