Abstract:
A capsule filling machine (100) for the production of hard gelatin capsules (C) of the type with lid (3) and body (2) containing a quantity (1) of pharmaceutical material comprises a rotary turret or carousel (15) which defines at least one capsule (C) handling line (L) and on which the following are positioned, one after the other: at least one station (6) for feeding empty capsules (C); at least one opening station (20) where the capsule bodies (2) are separated from the lids (3) to form two separate rows of capsule bodies (2) and lids (3); at least one station (7) for feeding and dosing the quantities (1) of pharmaceutical material to be filled into the capsule bodies (2); and at least one station (8) for closing the capsules (C) by placing a lid (3) over each respective body (2); the machine (100) also comprises means (9) for detecting and volumetrically checking the quantity (1) of pharmaceutical material filled into each capsule body (2), the detecting and checking means (9) comprise transducer means (5) for measuring the volume of said quantities (1) before they are filled into the capsule bodies (2).
Abstract:
In a method for optoelectronically inspecting pharmaceutical capsules (2) in a capsule filling machine (1), the pharmaceutical capsules (2) are fed in single file from a station (3) where the capsules (2) are made to a capsule (2) outfeed portion (8) of the machine (1) along a defined feed path (P) passing through an inspection station (13). In the inspection station (13), each pharmaceutical capsule (2) passes through an electromagnetic field created by coherent, polarised light radiation.
Abstract:
A tablet press machine (1) includes a fixed casing (2) which houses a compression assembly (3) comprising a power-driven rotor (4) that rotates about an axis (5), the rotor including a matrix disc (6) and another two discs (7, 8) on both sides of it, mounting two sets of reciprocating punches (9, 10) opposite and aligned with each other in pairs. The matrix disc (6) has a plurality of through matrixes (11) where the reciprocating punches (9, 10) forming each pair are mounted in such a way as to delimit between them an empty space (12) of variably size designed to contain a dosed quantity of powder to be compressed. Two sets of cams (13, 14) are associated with the compression assembly (3) and, as the rotor (4) rotates, impart on the punches (9, 10) a driving motion which moves them cyclically towards and away from each other in such a way as to compress the powder contained in the matrix (11) in the matrix disc (6). The casing (2) comprises, inside it, sealed separating means (15; 18, 19, 21, 22) desigend to delimit separate spaces (16, 17, 20) for housing the compression assembly (3) and the sets of cams (13; 14) in order to prevent the powdered product from contaminating the cams.
Abstract:
In a method for optoelectronically inspecting pharmaceutical capsules (2) in a capsule filling machine (1), the pharmaceutical capsules (2) are fed in single file from a station (3) where the capsules (2) are made to a capsule (2) outfeed portion (8) of the machine (1) along a defined feed path (P) passing through an inspection station (13). In the inspection station (13), each pharmaceutical capsule (2) passes through an electromagnetic field created by coherent, polarised light radiation.
Abstract:
A granulator device (1) for the treatment of powdered material, in particular pharmaceutical powdered material, comprises a substantially cylindrical container (2), in which there is a chamber (4) for treatment of the powdered material using a fluid flow fed into the chamber (4); filtering means (5) for filtering the inside of the chamber (4), the filtering means (5) being located in the chamber (4) and comprising at least one filter (5) with a cylindrical metal mesh filtering wall (6); and means (P) for cleaning the filtering means (5) which can be activated during maintenance operations, the cleaning means comprising at least one element (7) rotating about each filter (5) and supporting diffuser means (8) designed to diffuse a service fluid on the cylindrical wall (6) in order to eliminate any impurities trapped in the filter (5) wall (6); the cleaning means (P) also comprise means (9) for temporarily opening at least one portion (10) of the filter (5) to allow the service fluid to flow out of the filter (5) together with the impurities.
Abstract:
A capsule filling machine (10) for producing hard gelatin capsules (C) of the type with lid and body (3, 4) containing particles (12) of pharmaceutical material, in particular microtablets (12) or pellets comprises a rotary carousel (2) mounting a plurality of slide units (5) for holding and handling the capsules (C) in order to open and then close the capsules (C) by first separating and then pairing the capsule lids (3) and bodies (4); and means (11) for feeding the particles (12) to the carousel (2) for filling doses of the particles (12) into the respective capsule bodies (4); the feed means (11) comprise at least one hopper (13) containing a mass of these particles (12), and roller means (14) partly immersed in said mass of particles (12) in the hopper (13); the roller means (14) having a plurality of suction recesses (15) for accommodating and retaining a predetermined number of the particles (12) drawn from the hopper (13) and then releasing the particles (12) into a series of hollow conduits (16) mounted on the carousel (2).
Abstract:
A machine (100) for the treatment of pharmaceutical products (P) comprises a pan (2) that revolves about an axis of rotation (X) and a dispensing unit (3) designed to disperse a coating material inside the pan (2) over a mass (M) of the products (P) located in the pan (2). The pan (2) has an opening (7) for feeding the products to be treated (P) into the pan (2), and an opening (8) for feeding the products (PT) already treated with the coating material out of the pan (2), the infeed opening (7) and the outfeed opening (8) being separate and independent of each other. A portion (K) of the inside surface of the pan (2) is equipped with at least one helical flow regulating fin (4, 5, 6) designed to facilitate inflow (F3) of the products to be treated (P) into the pan (2) during the feeding of the products (P) into the pan (2) through the infeed opening (7) when the pan (2) itself revolves in a first direction of rotation (FI), and to cause outflow (F4) of the treated products (PT) from the pan (2) during the outfeed of the treated products (PT) from the pan (2) through the outfeed opening (8) when the pan (2) itself revolves in a second direction of rotation (F2), opposite to the first direction of rotation (F1).
Abstract:
A unit (6) for checking the dosing of pharmaceutical material (M) in a capsule filling machine (1) for the production of capsules (CF) of the type with a capsule lid (C) and a capsule body (F), the machine (1) comprising a fixed structure (15) fitted with a rotary drum (2) for supporting a plurality of capsules (CF) on its edge, opening each capsule (CF) by separating the capsule lid (C) from the capsule body (F), filling the capsule body (F) with a dose of material (M), then closing the capsule body (F) again with the relative capsule lid (C); the rotary drum (2) having a tank (5) containing the pharmaceutical material (M) and supporting a plurality of doser elements (3), each comprising at least one piston (8) sliding inside a hollow cylinder (4) to pick up and compress a dose (DS) of material (M) from the tank (5) and discharge it into a capsule body (F) of a capsule (CF). The unit (6) comprises sensor means (9) attached to each piston (8) for detecting a piston (8) thrust value (V; V1) on the dose (DS) and transmitter means (10) connected to the sensor means (9) for transmitting the value (V; V1) to a receiver element (11; 41) by the telemetric transmission of a relative signal (S; S1), said receiver element (11; 41) being fixed on the machine (1) in at least one zone (P1; P2) of the fixed structure (15). Power supply means (12, 14a) are also provided for cyclically activating the sensor means (9) and the transmitter means (10) during drum (2) rotation.
Abstract:
Described is a rotary pan (1) of the type comprising a central hollow cylindrical body (3) with end portions (4, 4′) shaped substantially like truncated cones, and mixing/deflecting means (7) attached to at least one inside surface of the pan (1) itself; the peripheral inside cylindrical surface (5) of the hollow body (3) comprises an extended zone (A) defined by a uniform distribution of through holes (6) and at least one zone (B) within the zone (A) forming an area by which the mixing/deflecting means (7) are attached or fixed to the peripheral surface (5).
Abstract:
A machine for dosing a plurality of products in capsules, or similar containers, includes a plurality of dosing units for filling the capsules with respective products and a turret arrangement that rotates intermittently and is arranged for housing and moving the capsules in sequence through the dosing units. The machine further includes a plurality of checking units, each of which is located downstream of a respective dosing unit for measuring a quantity of product dosed in the capsules by the respective dosing units.