Dosing apparatus for powder products

The invention claimed is: 1. A method for cleaning a dosing apparatus comprising a hopper that is provided with an inner cavity for containing a powder product, the inner cavity including a lower portion provided with a supply duct with a terminal aperture for outflow of the powder product, and a metering screw that is adapted to rotate about, and extends along, a respective rotation axis inside the inner cavity and the supply duct, wherein a washing manifold has an inlet opening and an interior of the washing manifold contains at least one sonotrode that has a longitudinal axis transverse to the rotation axis of the metering screw, and wherein the washing manifold in a cleaning configuration of the dosing apparatus is connected to the hopper and the inlet opening is coupled to the supply duct, the method comprising: connecting the washing manifold to the hopper by sealingly coupling the supply duct of the hopper to the inlet opening of the washing manifold; filling the hopper and the washing manifold with a washing fluid; activating the sonotrode inside the washing manifold to produce alternate pressure waves capable of generating air bubbles in the washing liquid that propagate towards the inner cavity of the hopper through the supply duct to implode creating shockwaves to detach and/or break apart powder product residue adhering to internal surfaces of the dosing apparatus. 2. The method according to claim 1 , further comprising, at least during the activating of the sonotrode, rotating the metering screw in the supply duct so as to facilitate a moving up of the air bubbles through the supply duct towards the inner cavity. 3. The method according to claim 1 , further comprising, before the activating of the sonotrode, positioning the sonotrode in the washing manifold such that the pressure waves generated by the sonotrode, oscillating with a sinusoidal motion along the longitudinal axis of the sonotrode, have positive pressure peaks at the inlet opening and the supply duct. 4. The method according to claim 1 , further comprising, before the filling, making the washing fluid flow through the hopper and the washing manifold to wash and at least partially remove the powder product residue. 5. The method according to claim 4 , wherein, during the activating of the sonotrode, the hopper and the washing manifold are sealingly isolated from an external environment and set at an internal pressure higher than an atmospheric pressure to facilitate implosion of the air bubbles. 6. A dosing apparatus for dosing a powder product inside containers, the dosing apparatus comprising: a hopper that is provided with an inner cavity for containing the powder product, the inner cavity including a lower portion provided with a supply duct with a terminal aperture for outflow of the powder product; and a metering screw that is adapted to rotate about, and extends along, a respective rotation axis inside the inner cavity and the supply duct, wherein a washing manifold has an inlet opening and an interior of the washing manifold contains at least one sonotrode that has a longitudinal axis transverse to the rotation axis of the metering screw, wherein the washing manifold in a cleaning configuration of the dosing apparatus is connected to the hopper and the inlet opening is coupled to the supply duct, so as to receive and contain a washing liquid introduced into the hopper, and wherein the sonotrode is configured to produce alternate pressure waves capable of generating air bubbles in the washing liquid that propagate towards the inner cavity of the hopper through the supply duct to implode creating shockwaves to detach and/or break apart product residue adhering to internal surfaces of the dosing apparatus. 7. The dosing apparatus according to claim 6 , wherein the washing manifold comprises an inner compartment arranged to contain at least the sonotrode, a first discharge opening at a lower end of the washing manifold for outflow of the washing liquid, the first discharge opening being substantially opposite to the inlet opening, and a second discharge opening formed at an upper end of the washing manifold to allow outflow of air from the washing manifold. 8. The dosing apparatus according to claim 1 , further comprising a power supply unit connected to the sonotrode to transfer an oscillating power to the sonotrode, wherein the power supply unit is contained inside the washing manifold. 9. The dosing apparatus according to claim 6 , wherein the sonotrode has dimensions or is positioned inside the washing manifold such that pressure waves generated by the sonotrode, oscillating with sinusoidal motion along the longitudinal axis of the sonotrode, have peaks of positive pressure at the inlet opening and the supply duct. 10. The dosing apparatus according to claim 1 , wherein the sonotrode is arranged with the longitudinal axis lying on a vertical plane that passes through the rotation axis of the metering screw. 11. The dosing apparatus according to claim 1 , wherein the metering screw is coaxial with the supply duct. 12. The dosing apparatus according to claim 1 , wherein the hopper is provided with at least one additional inner cavity for containing the powder product, the at least one additional inner cavity including a lower portion provided with a supply duct with a terminal aperture for outflow of the powder product, the metering screw is a plurality of metering screws that can be rotated about, and extend along, respective rotation axes each within a respective one of the inner cavities and an associated one of the supply ducts of the hopper, and the washing manifold comprises at least one additional inlet opening, each of the inlet openings being couplable to a respective one of the supply ducts in the cleaning configuration. 13. The dosing apparatus according to claim 12 , wherein the metering screws and the inlet openings are arranged above the sonotrode and aligned along the longitudinal axis of the sonotrode. 14. The dosing apparatus according to claim 6 , further comprising a connecting element for removably coupling the inlet opening to the supply duct in the cleaning configuration. 15. The dosing apparatus according to claim 14 , wherein the washing manifold comprises an inner compartment arranged to contain at least the sonotrode, a first discharge opening at a lower end of the washing manifold for outflow of the washing liquid, the first discharge opening being substantially opposite to the inlet opening, and a second discharge opening formed at an upper end of the washing manifold to allow outflow of air from the washing manifold. 16. The dosing apparatus according to claim 14 , wherein the connecting element comprises a first seat for sealingly receiving the supply duct and a first coupling portion adapted to abut a second coupling portion of the inlet opening. 17. The dosing apparatus according to claim 16 , wherein the washing manifold comprises an inner compartment arranged to contain at least the sonotrode, a first discharge opening at a lower end of the washing manifold for outflow of the washing liquid, the first discharge opening being substantially opposite to the inlet opening, and a second discharge opening formed at an upper end of the washing manifold to allow outflow of air from the washing manifold. 18. The dosing apparatus according to claim 16 , wherein the connecting element further comprises a collecting compartment arranged around the first seat, the collecting compartment being provided with an outlet opening for the air bubbles, and where