Abstract: Method and device for metering granular materials which comprises a least one dispensing element, driving means arranged to control the dispensing element, sensing means designed to detect the amount of granules delivered by the dispensing element, and a program control unit designed to control the control means and disable it as soon as the amount of granules delivered by the dispensing element has reached a predetermined amount.

Abstract: A dehumidification apparatus including an outer tubular container (2) closed at its ends, a first (5) and a second (9) transverse grids located inside the tubular container (2), one grid element being spaced from the other and from a respective adjacent end of the tubular container (2) and delimiting a receiving space therewith, a mass of molecular sieves (MS) located in the receiving space, heating elements (19) in the tubular container (2), and first and second openings (4, 16) for communication of the interior of the container with the outside, characterised in that it comprises an inner tubular jacket (6) extending from at least the first grid (5) for a distance greater than that between the first (5) and the second (9) grid, thereby shaping the receiving space for the sieves (8) as an annular gap and providing a projecting section (6a) extending from the second grid (9); and an annular partition (17) between the outer container (2) and the inner jacket (6) at the projecting section (6a) of the inner jack

Abstract: Method and device for metering granular materials which comprises a least one dispensing element, driving means arranged to control the dispensing element, sensing means designed to detect the amount of granules delivered by the dispensing element, and a program control unit designed to control the control means and disable it as soon as the amount of granules delivered by the dispensing element has reached a predetermined amount.