The first object of the invention is a method of tableting a tablet mass comprising components crystallizing in a tetrahedral and/or regular system and/or subjected to micronization or nanonization, carried out in the following steps: moving the punches, filling the die cavities and/or die cavity with a tablet mass, lowering the punches and/or punch and compressing a tablet mass, pushing the tablets and/or tablet out of the die cavity, pushing the tablets and/or tablet out of the die, characterized in that the pressure in the tablet press chamber is lowered in the range from −0.005 MPa to −0.15 MPa, wherein the lowering of the pressure in the tablet press chamber reduces the pressure in the tablet press die cavity. The second object of the invention is a device for tableting a tablet mass. Another object of the invention is a kit comprising a tablet mass tableting device, as defined in the second aspect of the invention, and a vacuum pump.

The first object of the invention is a method of tableting a tablet mass comprising components crystallizing in a tetrahedral and/or regular system and/or subjected to micronization or nanonization, carried out in the following steps: moving the punches, filling the die cavities and/or die cavity with a tablet mass, lowering the punches and/or punch and compressing a tablet mass, pushing the tablets and/or tablet out of the die cavity, pushing the tablets and/or tablet out of the die, characterized in that the pressure in the tablet press chamber is lowered in the range from −0.005 MPa to −0.15 MPa, wherein the lowering of the pressure in the tablet press chamber reduces the pressure in the tablet press die cavity. The second object of the invention is a device for tableting a tablet mass. Another object of the invention is a kit comprising a tablet mass tableting device, as defined in the second aspect of the invention, and a vacuum pump.

Disclosed is a filling unit (10) for a rotary press (12), comprising a filling wheel (14), a metering wheel (24), a feeding wheel (30) and a medium unit (36), wherein the filling unit (10) is designed in such a way that the feeding wheel (30) can be connected to and disconnected from a delivery path of the medium to be metered, in particular by having a pivoting device (33) perform a pivoting movement, in particular about an axis of rotation (42) of the metering wheel (24), which is in the form of an impeller (20, 26, 32). Also disclosed is a method for providing an optimized rotary press.

Disclosed is a filling unit (10) for a rotary press (12), comprising a filling wheel (14), a metering wheel (24), a feeding wheel (30) and a medium unit (36), wherein the filling unit (10) is designed in such a way that the feeding wheel (30) can be connected to and disconnected from a delivery path of the medium to be metered, in particular by having a pivoting device (33) perform a pivoting movement, in particular about an axis of rotation (42) of the metering wheel (24), which is in the form of an impeller (20, 26, 32). Also disclosed is a method for providing an optimized rotary press.

A filling unit (10) for a rotary press (12) with a filling wheel (14), a dosing wheel (24), optionally a feed wheel (30) and a medium feed unit (36), wherein the blades (22, 28, 34) of the filling wheel (14), dosing wheel (24) and/or feed wheel (30) designed as an impeller wheel (20, 26, 32), are designed in such a way that a conveying surface (40) of the respective blades (22, 28, 34) can be varied in shape, and a method for providing an optimized rotary press is proposed.

A filling unit (10) for a rotary press (12) with a filling wheel (14), a dosing wheel (24), optionally a feed wheel (30) and a medium feed unit (36), wherein the blades (22, 28, 34) of the filling wheel (14), dosing wheel (24) and/or feed wheel (30) designed as an impeller wheel (20, 26, 32), are designed in such a way that a conveying surface (40) of the respective blades (22, 28, 34) can be varied in shape, and a method for providing an optimized rotary press is proposed.

A three-dimensional printing system and equipment assembly for the manufacture of three-dimensionally printed articles is provided. The equipment assembly includes a three-dimensional printing build system, an optional liquid removal system and an optional harvester system. The build system includes a conveyor, plural build modules and at least one build station having a powder-layering system and a printing system. The equipment assembly can be used to manufacture pharmaceutical, medical, and non-pharmaceutical/non-medical objects. It can be used to prepare single or multiple articles.

A three-dimensional printing system and equipment assembly for the manufacture of three-dimensionally printed articles is provided. The equipment assembly includes a three-dimensional printing build system, an optional liquid removal system and an optional harvester system. The build system includes a conveyor, plural build modules and at least one build station having a powder-layering system and a printing system. The equipment assembly can be used to manufacture pharmaceutical, medical, and non-pharmaceutical/non-medical objects. It can be used to prepare single or multiple articles.

A device for leveling the feeder platform relative to the die table of a tablet compression machine where the device has a base having top surface, a die table engaging surface and a proximate feeder platform surface. The die table surface and the proximate feeder surface are essentially flat and level or parallel with each other. The surfaces are sized such that when mounted on a tablet compression machine, the die table engaging surface is level with and parallel to the die table and the proximate feeder platform surface is approximately parallel to the feeder platform. The proximate feeder platform surface has three or more adjustable sensors attached so that the sensors are in a non-linear arrangement and are level with and parallel to the die table.

A system for continuous processing of powder products includes a first inlet configured to input a first dry powder product, a second inlet configured to input a second dry powder product, and a dry powder mixing device that mixes the first dry powder product together with the second dry powder product to form a product mixture. An outlet dispenses the product mixture from the dry powder mixing device. A production machine is included and has a powder feed frame comprising a feed frame inlet connected to the outlet of the dry powder mixing device. The outlet of the dry powder mixing device is positioned at a lower level than the feed frame inlet. A product conveying device is connected between the outlet of the dry powder mixing device and the feed frame inlet to continuously convey the product mixture from the dry powder mixing device to the feed frame inlet.