A method of producing a mechanically extracted pseudo-polymorphic Cannabis extract by compressing a Cannabis substance between a heat resistant material and placing the sandwiched Cannabis substance on a press plate, pressing the Cannabis substance at a predetermined pressure for a predetermined time with the press at a temperature, releasing the press, heating the press plates to a predetermined temperature, pressing the Cannabis substance at a predetermined pressure for a predetermined time while the press plates are being heated to the predetermined temperature, collecting an extract expressed from the Cannabis substance, and storing the extract.

A method of producing a mechanically extracted pseudo-polymorphic Cannabis extract by compressing a Cannabis substance between a heat resistant material and placing the sandwiched Cannabis substance on a press plate, pressing the Cannabis substance at a predetermined pressure for a predetermined time with the press at a temperature, releasing the press, heating the press plates to a predetermined temperature, pressing the Cannabis substance at a predetermined pressure for a predetermined time while the press plates are being heated to the predetermined temperature, collecting an extract expressed from the Cannabis substance, and storing the extract.

A device (1) for heating filled brioches preferably filled with ice-cream, comprising an upper subassembly (3) and a lower subassembly (4) linked by one or more joints or hinges (10). Each one of the subassemblies (3, 4) includes a heating plate (14) with a cavity (14a) intended to receive the filled brioche, or other similar product, in order to heat it, arranged so that in an operative position they overlap one another. Each heating plate (14) is positioned on top of a heat transfer plate (16) enclosed in a thermoinsulating layer (13), except for an opening to allow contact between the heating plate (14) and the heat transfer plate (16). The heating plates (14) are releasable from the subassembly (3, 4) on which they are arranged by means of one or more releasable fastening elements protruding from the heating plate (14) and inserted in one or more slots (3c, 4c) of either casing of the subassemblies (3, 4).

A device (1) for heating filled brioches preferably filled with ice-cream, comprising an upper subassembly (3) and a lower subassembly (4) linked by one or more joints or hinges (10). Each one of the subassemblies (3, 4) includes a heating plate (14) with a cavity (14a) intended to receive the filled brioche, or other similar product, in order to heat it, arranged so that in an operative position they overlap one another. Each heating plate (14) is positioned on top of a heat transfer plate (16) enclosed in a thermoinsulating layer (13), except for an opening to allow contact between the heating plate (14) and the heat transfer plate (16). The heating plates (14) are releasable from the subassembly (3, 4) on which they are arranged by means of one or more releasable fastening elements protruding from the heating plate (14) and inserted in one or more slots (3c, 4c) of either casing of the subassemblies (3, 4).

An electrode rolling apparatus for rolling an electrode substrate having a coated portion and an uncoated portion includes: a coil section having an effective region where a uniform magnetic field is generated; and an electrode rolling portion for rolling the electrode substrate, wherein the coil section comprises a coil unit disposed on at least one side of opposing sides of the electrode substrate in reference to a traveling direction of the electrode substrate, wherein the coil unit comprises a first coil unit and a second coil unit that are disposed on first and second opposing part of the electrode substrate, respectively and wherein the coil unit is configured to inductively heats an entire region of the uncoated portion and a partial region of the coated portion that are located on the opposing sides centering on a boundary line between the coated portion and the uncoated portion.

Methods and systems for separating liquid components are disclosed. A vessel is provided containing a solids conveyance device. At least a first portion of the vessel acts as an indirect-contact heat exchanger and a second portion of the vessel contains a filter. A process liquid stream, containing a first component and a second component, is passed into the first portion of the vessel. A portion of the second component is frozen and entrained in the first portion of the vessel into the process liquid stream, resulting in a process slurry stream. The process slurry stream is passed into a second portion of the vessel by the solids conveyance device. The process slurry stream is separated into a solid product stream and a primary liquid product stream by passing the primary liquid product stream through the filter and out of the vessel while separately removing the solid product stream out of the vessel.

The present disclosure relates to a heat press, especially knee lever-transfer press with at least one socket, with at least one base plate and with at least one heatable counter plate pivotable towards the base plate, wherein the knee lever-transfer press further has a control unit, by which the knee lever-transfer press is controllable in an open-loop manner and/or closed-loop manner and wherein the control unit constitutes a first modular unit of the knee lever-transfer press and wherein the socket constitutes at least one second modular unit, and the base plate and the counter plate constitute at least one third modular unit and wherein at least the first modular unit and the second modular unit and/or the third modular unit are separable from each other and/or are formed to be replaceable for functional comparable modular units.

The present disclosure relates to a heat press, especially knee lever-transfer press with at least one socket, with at least one base plate and with at least one heatable counter plate pivotable towards the base plate, wherein the knee lever-transfer press further has a control unit, by which the knee lever-transfer press is controllable in an open-loop manner and/or closed-loop manner and wherein the control unit constitutes a first modular unit of the knee lever-transfer press and wherein the socket constitutes at least one second modular unit, and the base plate and the counter plate constitute at least one third modular unit and wherein at least the first modular unit and the second modular unit and/or the third modular unit are separable from each other and/or are formed to be replaceable for functional comparable modular units.

A method for forming a product of compressible material includes preparing compressible material, assembling a molding fixture, filling the compressible material into a filling tube of the molding fixture, clamping the filling tube by a clamping mechanism of the molding fixture, moving an adjusting screw of the molding fixture downward in the filling tube to compress the compressible material, delivering the molding fixture to a heating module to perform a heating process so that the compressible material s heated and melted, delivering the molding fixture to a cooling module to perform a cooling process so that the compressible material is cooled and solidified to form a product, stripping the molding fixture from the product, and finishing and taking out the product of the compressible material.

A method for forming a product of compressible material includes preparing compressible material, assembling a molding fixture, filling the compressible material into a filling tube of the molding fixture, clamping the filling tube by a clamping mechanism of the molding fixture, moving an adjusting screw of the molding fixture downward in the filling tube to compress the compressible material, delivering the molding fixture to a heating module to perform a heating process so that the compressible material s heated and melted, delivering the molding fixture to a cooling module to perform a cooling process so that the compressible material is cooled and solidified to form a product, stripping the molding fixture from the product, and finishing and taking out the product of the compressible material.