Dosing device for feeding an infusion product

The invention claimed is: 1. A dosing device for feeding an infusion product for making filter bags, wherein it comprises: a tower for containing loose infusion product; at least one pair of tubular channels for feeding product connected to and in communication with the tower; the pair of tubular channels projecting from the containing tower and configured to allow the picking up of the product from the tower and the release of a quantity of product at its outer free end; a plurality of containers for receiving the infusion product from the tubular channels and each having a wall which is movable between a closed position of the container and an open position for discharging a programmed dose of product; a movable platform positioned under the tubular channels, and on which is associated the plurality of containers located one after the other along the platform; the platform being configured for moving, in sequence, each container to a first position for feeding a first quantity of product, in weight, less than the weight of a programmed dose, by falling from a first tubular channel of the pair of channels, and, subsequently, to a second position, downstream of the previous position relative to a feed direction of the platform, for feeding a remaining quantity of product, in weight, useful for reaching the weight of the programmed dose, falling from a second tubular channel of the pair of channels and again, subsequently, in a zone for discharging the dose of programmed infusion product; a plurality of weighing elements positioned along the path followed by the platform and configured to control the weight of the product fed by the first and second tubular channels ( 2 , 3 ) in each container; a control unit connected to each tubular feeding channel, to each weighing element and to the platform and programmed to control the quantity of product fed from the first and second channels to each container and the relative movement of the platform. 2. The device according to claim 1 , wherein the containing tower has a first axis of longitudinal extension and wherein the platform has a circular in shape and rotates about the axis according to the feed direction. 3. The device according to claim 1 , wherein each tubular channel rotates about a corresponding second axis of longitudinal extension. 4. The device according to claim 1 , wherein each weighing element is positioned on the platform, movable with it, and under a corresponding container. 5. The device according to claim 1 , comprising a further fixed platform, which is placed over the movable platform; the fixed platform supporting a second plurality of containers for receiving the quantity of product by falling from a corresponding tubular channel and the plurality of weighing elements, each of which being positioned under a corresponding container of the second plurality; each container of the second plurality being provided with a wall which is movable between a closed position of the container and an open position for the passage by falling of the infusion product towards a corresponding container of the first plurality located in the underlying movable platform. 6. The device according to claim 1 , wherein each tubular channel has a screw profile formed on its free end, inside the tower for containing the product, for picking up of the product. 7. The device according to claim 1 , comprising a drive unit, for each tubular channel; each drive unit being supported by the containing tower and connected to the corresponding tubular channel; between each drive unit and the corresponding tubular channel being interposed a kinematic unit for connecting to and driving the motion to the tubular channel. 8. The device according to claim 1 , comprising a suction unit associated with the containing tower; the suction unit having a suction source connected to a channel connected to containing compartments of the tubular channels made in the containing tower. 9. The device according to claim 1 , wherein the containing tower comprises a chamber configured for distributing the infusion product to the tubular channels and a hopper, positioned above the chamber, for the feeding, by controlled falling, of the infusion product into the chamber. 10. The device according to claim 1 , comprising a plurality of tubular channels with a number smaller, by at least one, than the number of containers present on the movable platform in such a way as to define, along the path of the platform, a free zone corresponding to the zone for discharging the infusion product by the containers. 11. A method for feeding doses of an infusion product for making filter bags, wherein it comprises at least the following steps: preparing a first quantity, by weight, of infusion product less than a predetermined quantity, by weight, of a programmed dose of infusion product, in a first tubular channel; depositing, by falling, the first quantity of infusion product in a container positioned on a platform which is movable relative to the tubular channel; weighing the first quantity of infusion product deposited; preparing a second quantity of infusion product in a second tubular channel, after the previous first channel relative to a feed direction of the platform, of a quantity of product, by weight, useful for reaching the weight of the programmed dose; moving the platform to allow the container to move from the first to the second tubular channel; depositing, by falling, the second quantity of infusion product in the container; weighing the quantity of infusion product present in the container; moving the platform for carrying the container with the programmed dose of infusion product beyond the second tubular channel; discharging the dose from the container. 12. The method according to claim 11 , wherein there is a plurality of containers positioned one after the other on the platform and a plurality of tubular channels positioned one after the other and with a number smaller, by at least one, than the number of the containers, and wherein there are the following steps: preparing a first quantity, by weight, of infusion product less than a predetermined quantity, by weight, of a dose of infusion product, in a first tubular channel; depositing, by falling, the first quantity of infusion product in a container positioned on the platform which is movable relative to the first tubular channel; weighing the first quantity of infusion product deposited in the container; preparing a second quantity of infusion product in a second tubular channel, after the previous first tubular channel relative to the feed direction of the platform, of a quantity of product, by weight, additional to the first quantity of infusion product; moving the platform to allow the container to move from the first to the second tubular channel; depositing, by falling, the second quantity of infusion product in the container; weighing the quantity of infusion product present in the container; preparing a third quantity in a third tubular channel, after the previous second tubular channel, of a quantity of product, by weight, useful for reaching the weight of the programmed dose; moving the platform to allow the container to move from the second to the third tubular channel; depositing, by falling, the third quantity of infusion product in the container; weighing the quantity of infusion product present in the container; moving the platform for carrying the container with the programmed dose of infusion product beyond the third tubular channel; discharging the dose from the container. 13. The method according to claim 12 , wherein each step of preparing and