Dispensing head with a stepped swirling chamber for a dispensing device

We claim: 1. A dispensing head for dispensing a product comprising: a spraying nozzle comprising a dispensing orifice and a swirling chamber opening into the dispensing orifice, the swirling chamber comprising a converging portion, said swirling chamber extending along an axis between an upstream end and a downstream end in the direction of displacement of the product, and an anvil comprising a core provided with a peripheral wall, the core being housed inside the swirling chamber, the peripheral wall and the converging portion forming at least one fluidic path in which the product circulates, the converging portion comprising an inner wall of the nozzle, at least one of the inner wall and the peripheral wall of the core being provided with a plurality of steps, each step being defined by a transverse wall that extends in a plane secant to the axis and a longitudinal wall substantially parallel to the axis, the steps forming obstacles in the fluidic path, the nozzle comprising at least one supply channel of the swirling chamber opening tangentially into the swirling chamber, wherein the swirling chamber comprises a pre-chamber upstream from said converging portion, with the channel or channels opening into the pre-chamber; wherein the core comprises a cone-shaped portion revolving about the axis and defining a top located next to the dispensing orifice. 2. The dispensing head according to claim 1 , wherein the converging portion comprises at least one step nosing located at the junction between a transverse wall and a longitudinal wall, the step nosing being located at a proximal distance of between 70 and 250 micrometres from the peripheral wall of the core measured along an imaginary straight line traced from the step nosing to the peripheral wall along the shortest route. 3. The dispensing head according to claim 2 , wherein a length of the longitudinal wall is of between 30 and 250 micrometres measured along the axis. 4. The dispensing head according to claim 2 , wherein a length of the transverse wall is of between 30 and 350 micrometres measured along an axis orthogonal to the axis. 5. The dispensing head according to claim 1 , wherein the steps extend from the upstream end to the downstream end. 6. The dispensing head according to claim 1 , wherein the converging portion comprises four steps. 7. The dispensing head according to claim 1 , wherein the pre-chamber is annular. 8. The dispensing head according to claim 1 , wherein the height of the channel or channels corresponds to the height of the pre-chamber. 9. The dispensing head according to claim 1 , wherein the top is flat and comprises a planar wall substantially perpendicular to the axis. 10. The dispensing head according to claim 1 , wherein the core is solid. 11. The dispensing head according to claim 1 , wherein the dispensing orifice is only connected fluidically to the converging portion of the nozzle. 12. A system for dispensing a product comprising: a dispensing head comprising: a spraying nozzle comprising a dispensing orifice and a swirling chamber opening into the dispensing orifice, the swirling chamber comprising a converging portion, said swirling chamber extending along an axis between an upstream end and a downstream end in the direction of displacement of the product, and an anvil comprising a core provided with a peripheral wall, the core being housed inside the swirling chamber, the peripheral wall and the converging portion forming at least one fluidic path in which the product circulates, the converging portion comprising an inner wall of the nozzle, at least one of the inner wall and the peripheral wall of the core being provided with a plurality of steps, each step being defined by a transverse wall that extends in a plane secant to the axis and a longitudinal wall substantially parallel to the axis, the steps forming obstacles in the fluidic path, the nozzle comprising at least one supply channel of the swirling chamber opening tangentially into the swirling chamber, wherein the swirling chamber comprises a pre-chamber upstream from said converging portion, with the channel or channels opening into the pre-chamber; wherein the core comprises a cone-shaped portion revolving about the axis and defining a top located next to the dispensing orifice.