Method for manufacturing a grid made of a composite material

The invention claimed is: 1 . A method for manufacturing a grid made of composite material for straightening an air flow for an aircraft turbomachine, this method comprising the following steps: a) positioning, in a thermocompression device, spars extending longitudinally in a first direction, said spars being made of a first material comprising fibres extending parallel to the first direction, these spars comprising lateral faces comprising recesses; b) positioning, in the thermocompression device, between the lateral faces of the spars and outside the recesses, connecting elements, made of a second thermo-compressible material; and, c) subjecting, by the thermocompression device, the spars and the connecting elements to a determined temperature and a determined pressure, adapted to cause a portion of the connecting elements to penetrate said recesses so as to ensure a mechanical anchoring of the connecting elements in said recesses of the spars, the thermocompression device comprising at least one of a compression means, a moulding means and an injection means adapted to form hollow cells, delimited by the spars and the connecting elements, at the end of the step c), and during the steps b) and c) the second thermo-compressible material of the connecting elements, made of discontinuous fibres, is contained in a tooling cavity and pushed out of the cavity by a piston, so as to cause a portion of the connecting elements to penetrate into the recesses and create a mechanical anchoring of the connecting elements to the spars. 2 . The manufacturing method of claim 1 , wherein during the step b), the connecting elements are positioned in a direction substantially perpendicular to the first direction, preferably between tooling cores. 3 . The manufacturing method according to claim 1 , wherein the spars are made from continuous fibres, for example, carbon fibres, arranged in draped unidirectional folds, in a two-dimensional weaving, in a three-dimensional weaving, or in a combination of these arrangements. 4 . The manufacturing method according to claim 1 , wherein the spars are made from long discontinuous fibres. 5 . The manufacturing method according to claim 1 , wherein the recesses are obtained by means of manual or automatic cutting means, such as a machining machine, an oscillating blade, ultrasonic waves, scissors, a scalpel or a punch. 6 . The manufacturing method according to claim 1 , wherein the recesses are blind holes, slots or through holes. 7 . The manufacturing method according to claim 1 , wherein the second thermo-compressible material is made from the cutting of continuous fibre folds pre- impregnated with a resin into chips. 8 . The manufacturing method according to claim 1 , wherein the second thermo-compressible material comprises fibres and a thermosetting resin belonging to the family of epoxides, benzoxasins, polyesters or bismaleimides. 9 . The manufacturing method according to claim 1 , wherein the second thermo-compressible material comprises fibres and a thermoplastic resin belonging to the family of polyamides, polypropylenes, PEEK, PEKK, PPS, PSA or PA. 10 . The manufacturing method of claim 1 , wherein, the formation of hollow cells is made by thermoplastic injection of short fibres between tooling cores.