Shock resistant bearing for a timepiece

The invention claimed is: 1. A method for manufacturing a shock resistant bearing including an elastic structure and a central portion carried by said elastic structure, said central portion having a blind hole intended to receive a pivot of a rotating wheel set of the timepiece, the elastic structure and the central portion being formed by one single-piece part, said method comprising: A) making a single crystal quartz wafer whose two main faces, respectively the first and second faces, are substantially oriented perpendicularly to the optical axis of the crystalline structure of the single crystal quartz; B) forming a first mask on the first face of the single crystal quartz wafer, said first mask being structured by photolithography so as to define on the first face the contours of said elastic structure and of said blind hole; C) machining said elastic structure and said blind hole in said single crystal quartz wafer by placing said wafer in a chemical etching bath adapted for an anisotropic etch of single crystal quartz which greatly facilitates an etch along said optical axis, said first mask being selected to resist the etch of said chemical etching bath. 2. The method according to claim 1 , wherein, prior to machining said elastic structure and said blind hole, a second mask is formed on the second face of the single crystal quartz wafer, said second mask being structured by photolithography so as to define the contour of the elastic structure on said second face. 3. The method according to claim 1 , wherein said machined elastic structure has a design with curved slots and/or apertures whose edges at least partially define curved lines. 4. The method according to claim 1 , wherein said blind hole has three oblique facets together defining a truncated or non-truncated trigonal pyramid. 5. A method for manufacturing a shock resistant bearing including an elastic structure and a central portion carried by said elastic structure, said central portion having a blind hole intended to receive a pivot of a rotating wheel set of the timepiece, the elastic structure and the central portion being formed by one single-piece part, said method comprising: A) making a single crystal quartz wafer whose two main faces, respectively the first and second faces, are substantially oriented perpendicularly to the optical axis of the crystalline structure of the single crystal quartz; B) forming a first initial mask on the first face of the single crystal quartz wafer, said first mask being structured by photolithography so as to define on said first face the contour of said elastic structure but not the contour of said blind hole; C) partially machining said elastic structure, defined by the first initial mask, in said single crystal quartz wafer by placing said wafer in a chemical etching bath adapted for an anisotropic etch of single crystal quartz greatly facilitating an etch along said optical axis, said first initial mask being selected to resist the etch of said chemical etching bath; D) structuring said first initial mask so as to define the contour of said blind hole and to obtain a first final mask; E) final machining of said elastic structure and simultaneous machining of said blind hole, in said single crystal quartz wafer by placing said wafer in said chemical etching bath again. 6. The method according to claim 5 , wherein, between forming a first initial mask on the first face of the single crystal quartz wafer and partially machining said elastic structure, a photosensitive layer, deposited on said first initial mask and used for structuring said first initial mask, is illuminated to subsequently form in said photosensitive layer a hole corresponding to said blind hole. 7. The method according to claim 5 , wherein, prior to partially machining said elastic structures, a second mask is formed on the second face of the single crystal quartz wafer, said second mask being structured by photolithography so as to define the contour of the elastic structure on said second face. 8. The method according to claim 5 , wherein said machined elastic structure has a design with curved slots and/or apertures whose edges at least partially define curved lines. 9. The method according to claim 5 , wherein said blind hole has three oblique facets together defining a truncated or non-truncated trigonal pyramid.