Method and tool for the vapour phase deposition of a metal coating onto parts made of superalloys

The invetion claimed is: 1. A method for depositing a metal coating in vapour phase on parts made from heat-resistant alloy, comprising: providing a box, the box including a plate forming a bottom of the box, a central column fixed in an opening in the plate forming the bottom of the box, and a side wall having a same height as the central column; arranging, on the bottom of the box, a first layer of grains of a donor of the coating metal on the bottom of the box and a second layer of grains of an activator capable of together forming a halide of the coating metal so as to form a bed of grains on the bottom of the box; providing a support for the parts, the support including columns having a same height as the height of the side wall of the box, and a plate supported by the columns of the support; arranging the parts on the plate of the support such that the parts are suspended from the plate of the support; placing the support on top of the bed of grains disposed on the bottom of the box such that the parts are kept at a distance above the bed of the grains so as to be free of contact with the bed of the grains, the plate of the support being parallel to the bottom of the box; closing the box so as to form a chamber; and heating the chamber in an atmosphere of a neutral or reducing gas, to a temperature at which the halide of the coating metal formed reacts with the alloy of the parts, the gas being introduced into the chamber through the side wall of the box above the bed of grains. 2. A method according to claim 1 , wherein a portion of each part that is not to be covered in a mask is enclosed. 3. A method according to claim 2 , wherein the part is suspended in the plate of the support, to hold a portion of the part not covered by the mask under the plate. 4. A method according to claim 1 , wherein the parts are disposed in at least two superposed boxes, a bottom of a top box forming a cover for a bottom box, which includes the central column supporting the top box, a cover being placed on the top box. 5. A method according to claim 1 , wherein all of the parts are kept at a same distance above the bed of the grains. 6. A method according to claim 1 , wherein the bed of the grains is flat. 7. A tool for implementing the method according to claim 1 , comprising: the box, the box comprising a plate forming a bottom of the box, a central column fixed in an opening in the plate forming the bottom of the box, and a side wall having a same height as the central column, a top edge of the side wall being provided with a peripheral centering sheet; and the support for the parts, the support including columns having a same height as the height of the side wall of the box, and a plate supported by the columns of the support, the plate including compartments for suspending the parts. 8. A tool according to claim 7 , wherein the support is arranged to receive movable turbine blades and comprises no more than one column supporting the plate for four compartments suspending the parts. 9. A tool according to claim 7 , wherein the support is arranged to receive internal jackets for hollow turbine engine blades and comprises no more than one column for supporting the plate for twenty compartments suspending the parts. 10. A tool according to claim 7 , comprising at least first and second boxes made of metal with a flat bottom, each box having a circular shape and comprising the central column forming a support, a cover covering a top box, and a tube discharging inside the side wall. 11. A tool according to claim 10 , wherein a top edge of the boxes is arranged to receive a bottom of the box that is placed on top. 12. A tool according to claim 11 , comprising at least one first box, the central column of which has a tubular shape, a hollow of which discharges by forming a central opening under the bottom of the box, and at least one second box, the central column of which has a shape at the top allowing contact with an inside of an edge of the central opening of a bottom of the first box when the first box is placed on top. 13. A method for depositing a metal coating in vapour phase on parts made from heat-resistant alloy in a tool, the tool comprising a first box and a second box, each of the first and second boxes forming a chamber and having a bottom and a side wall, and first and second supports for the parts, each support being placed in said first and second boxes, each support including a plate parallel to the bottom and columns supporting each plate, said columns being a same height as the side wall, the side wall of the first and second boxes forming the lateral wall of the tool, the method comprising: arranging on the bottom of each of the first and second boxes, a first layer of grains of a donor of the coating metal and a second layer of grains of an activator capable of together forming a halide of the coating metal; arranging the parts on the plate of each of the first and second supports such that the parts are suspended from the plate of each of the first and second supports; placing the first support on top of the bed of grains disposed on the bottom of the first box such that the parts are kept at a distance above the bed of the grains so as to be free of contact with the bed of the grains, and placing the second support on top of the bed of grains disposed on the bottom of the second box such that the parts are kept at a distance above the bed of the grains so as to be free of contact with the bed of the grains, the plate of the first support being parallel to the bottom of the first box and the plate of the second support being parallel to the bottom of the second box; and heating the chambers in an atmosphere of a neutral or reducing gas, to a temperature at which the halide of the coating metal formed reacts with the alloy of the parts, wherein the gas is introduced into the first and second boxes, when at least the first box is closed, through the side wall of the first box above the bed of the grains, the first box is closed by the bottom of the second box placed removably above the support and a top edge of the side wall of the first box. 14. A method for depositing a metal coating in vapour phase on parts made from heat-resistant alloy, the method comprising: arranging the parts on supports, each support having a plate and columns supporting the plate, the parts being suspended from the plate, providing a tool comprising at least a first box and a second box, each of the first and second boxes having a bottom and a side wall; disposing a bed of grains on each bottom of the first and second boxes, the bed of grains including a donor of the coating metal and an activator capable of together forming a halide of the coating metal; arranging the supports with the parts inside the first and second boxes, each support for the parts being placed above the bed of the grains of each of the first and second boxes and the parts are kept at a distance above the bed of the grains of each of the first and second boxes so as to be free of contact with each bed of the grains, the columns of each support being a same height as the side wall of the first and second boxes; arranging the second box on top of the first box, the bottom of the second box forming a cover for the first box and, each side wall of the first and second boxes forming a lateral wall of the tool; and introducing a gas into at least the first box which is closed and to heat the first box in an atmosphere of a neutral or reducing gas, to a temperature at which the halide of the coating metal formed reacts with the alloy of the parts, the gas is introduced though a s