A method for sampling both layers of a bi-layer tablet, comprising forming a first layer of a first pharmaceutical powder of the bi-layer tablet in a tablet press machine, performing weight compensation for forming a second layer of a second pharmaceutical powder of the bi-layer tablet based at least on the formed first layer, performing height compensation for forming the second layer of the second pharmaceutical powder of the bi-layer tablet based at least on the formed first layer, and forming the second layer of the bi-layer tablet based on the performed height compensation and weight compensation, in the tablet press machine, for individually sampling both the first and second layers of the bi-layer tablet.

A method for determining a quality status of at least one component which is used during a setting process, in which a battery module is provided, which is place in a receptacle region of a battery housing having a housing base on a heat conducting compound located on the housing base and is pressed in the direction of the housing base so that the heat conducting compound located between the battery module and the housing base is at least partially distributed. The predefinable force (F) and the distance (z) covered by the battery module during the setting process in the first direction over the time (t) during the setting process are acquired as monitoring variables and the quality status is determined.

A method for realising ceramic slabs or tiles, comprising the following steps: laying a soft layer (SL) of granular or powder ceramic material on a support plane (P); pressing the soft layer (SL) in order to obtain a compacted layer (CL); firing the compacted layer (CL); prior to the pressing, applying an identification mark (M) onto the soft layer (SL), the identification mark (M) having an optical contrast with respect to the soft layer (SL), so as to enable an optical detection of the mark (M); subsequently to the pressing, acquiring an image of the mark (M); processing the image of the mark (M) detected so as to control one or more operating steps subsequent to the pressing.

A powdery-material measurement device includes a sensor probe configured to receive reflected light from mixed-powdery materials passing adjacent thereto or transmitted light through the mixed-powdery materials to measure characteristics of the mixed-powdery materials while the powdery-material measurement device is in operation to deliver the mixed-powdery materials toward an equipment, and a standard sample having known characteristics and facing the sensor probe that is disposed to receive the reflected light from the standard sample or the transmitted light through the standard sample, when the mixed-powdery materials are not present adjacent the sensor probe while the powdery-material measurement device is in operation to deliver the mixed-powdery materials toward the equipment.

A motor-driven powder molding machine according to the present disclosure molds powder using an upper mold and a lower mold and includes, in each of the upper and lower molds, a main ram for operating the upper or lower mold through a main shaft; an auxiliary ram for operating the upper or lower mold through an auxiliary shaft in synchronization with the main ram; and a pressure detector for detecting a pressure in an axial direction in at least one of the main ram and the auxiliary ram. The motor-driven powder molding machine further includes a controller for controlling operation speeds of the upper and lower molds by at least one of the main ram and the auxiliary ram so that the pressure falls within a predetermined range based on the detected pressure.

A method in a pressing arrangement is disclosed. The pressing arrangement comprises a pressure vessel arranged to hold pressure medium therein during use of the pressing arrangement, the pressure vessel including a treatment region therein, wherein the treatment region is arranged to accommodate at least one article. The pressing arrangement is arranged so that pressure medium can enter and exit the treatment region. The pressing arrangement comprises at least one controllable pressure medium supplying device configured to transport pressure medium during a cooling phase from another region in the pressing arrangement to the treatment region, wherein the temperature of the pressure medium in the other region is lower than the temperature of the pressure medium in the treatment region during at least part of the cooling phase. At least one value indicative of at least one temperature in the pressure vessel is obtained. Based on the at least one value indicative of at least one temperature in the pressure vessel, at least one operational parameter of the at least one controllable pressure medium supplying device is adjusted, whereby the pressure medium supplying rate of the at least one pressure medium supplying device is adjusted. A pressing arrangement in which the method may be carried out is also disclosed.

A tablet press for producing tablets including: a press chamber, a receiving chamber, a first material container having the first active substance with a first dosing device, a controller, and an input device. The press chamber has an extendable upper punch, an extendable lower punch, and a die. The input device inputs a target indicating a number of produced tablets and a target mass indicating a quantity of the first active substance and transmits the target number and the target mass to the controller. The controller actuates the first dosing device, the upper punch, and the lower punch such that a quantity of the first active substance that corresponds to the target mass is filled into a central opening of the die and pressed by the punches to form a tablet, and to repeat until the target number of tablets are produced.

A method of manufacturing compacts and an arrangement for manufacturing compacts, in which the disadvantages of the state of the art are overcome and an efficient method and at the same time a simple construction and a simple implementation are achieved. This involves a method for manufacturing compacts, wherein after feeding the feedstock, pre-pressing into a pre-agglomerate using at least one pre-pressing punch or at least one stuffing screw and subsequently main pressing of the pre-agglomerate into a compact in at least one pressing die using at least one main pressing punch and subsequently ejection of the compact from the at least one pressing die are performed, pre-pressing, main pressing and ejection being performed in a mutually parallel working direction. This also involves an arrangement for manufacturing compacts, wherein at least one pressing die is provided in die tool receptacle with a feed for feedstock.

A pressing arrangement (100) is disclosed. The pressing arrangement (100) comprises a pressure vessel (2) comprising a pressure cylinder (1), a top end closure (3) and a bottom end closure (9), a furnace chamber (18) for heating a pressure medium, a plurality of guiding passages (10, 11, 13), a load compartment (19) configured for holding at least one article to be treated, and at least one flow generator (30, 32) for circulating pressure medium within the pressure vessel. The pressing arrangement further comprises a heat exchanging element (170) arranged in the top end closure or in the bottom end closure. The heat exchanging element comprises at least one passage for allowing a flow of pressure medium through the heat exchanging element, and at least one circuit for allowing a circulation of cooling medium within the at least one circuit for a cooling of the pressure medium.

Machine and method for compacting ceramic powder; a layer of non-compacted ceramic powder is conveyed in a feed direction through a compacting device; downstream of the compacting device there is positioned a detection device which detects the density of the layer of compacted ceramic powder; the quantity of ceramic powder fed to the compacting device is varied in time as a function of what is detected by the detection device to thus regulate the density of the layer of compacted ceramic powder.