Broaching tool, broaching machine comprising such a tool and method for machining a workpiece using such a machine

The invention claimed is: 1. A broaching tool, comprising: at least one cutting area comprising a cutting face configured to come into contact with a workpiece to remove material, in the shape of at least one chip, from said workpiece, at least one cavity corresponding to said cutting area, said cavity being arranged to receive said at least one chip, at least three lubrication channels associated with the or each cavity and configured to be supplied with lubricant, each lubrication channel having an inlet orifice arranged to receive the lubricant and at least one outlet orifice opening into said cavity, wherein a distance between the outlet orifices of two consecutive lubrication channels of the at least three lubrication channels increases by moving away from the cutting face. 2. The broaching tool according to claim 1 , wherein the lubrication channels are inclined relative to the cutting face. 3. The broaching tool according to claim 1 , wherein the inlet orifices are aligned. 4. The broaching tool according to claim 1 , further comprising a plurality of cutting areas, each cutting area comprising a cutting face configured to come into contact with the workpiece to remove material from said workpiece, and a plurality of cavities configured to receive said material, one cavity being arranged between two successive cutting areas, and wherein, in each cavity open out the outlet orifices of the lubrication channels configured to be supplied with lubricant, each lubrication channel having an inlet orifice arranged to receive the lubricant. 5. A broaching machine, comprising: the broaching tool according to claim 4 , a lubrication system comprising a lubricant tank and lubrication means configured to deliver lubricant from said tank to the outlet orifices of the lubrication channels under high pressure of between 10 and 300 bar, and a frame, the broaching tool being mobile in translation relative to the frame, the lubrication system being fixed in translation relative to the frame and in which the lubrication means comprise a lubrication distributor configured to supply lubricant under high pressure to the lubrication channels of at least one or of each cavity corresponding to a cutting area, a cutting face of which comes into contact with the workpiece. 6. The broaching machine according to claim 5 , wherein the lubrication distributor comprises at least one seal. 7. A broaching machine, comprising: the broaching tool according to claim 4 , a lubrication system comprising a lubricant tank and lubrication means configured to deliver lubricant from said tank to the outlet orifices of the lubrication channels under high pressure of between 10 and 300 bar, and a frame, the broaching tool being fixed in translation relative to the frame, the lubrication system being mobile in translation relative to the frame and in which the lubrication means comprise a lubrication distributor configured to supply lubricant under high pressure to the lubrication channels of at least one or of each cavity corresponding to a cutting area, a cutting face of which comes into contact with the workpiece. 8. The broaching machine according to claim 7 , wherein the lubrication distributor comprises at least one seal. 9. A broaching machine, comprising: the broaching tool according to claim 1 , and a lubrication system comprising a lubricant tank and lubrication means configured to deliver lubricant from said tank to the outlet orifices of the lubrication channels under high pressure of between 10 and 300 bar. 10. A method for machining a workpiece by means of a broaching machine according to claim 9 , the broaching machine comprising a frame, one of the broaching tool and said workpiece being fixed relative to the frame, the method comprising the steps of: translating the other of the broaching tool and the workpiece relative to the frame so that at least one cutting face comes into contact with the workpiece, lubricating, by means of the lubrication system, the at least one cavity corresponding to the cutting area for which the cutting face comes into contact with the workpiece, stopping the lubrication of the at least one cavity corresponding to said cutting area as soon as the cutting face ceases to be in contact with the workpiece.