A grinding mill for pulverizing material includes a platform having an upper surface and defining a recess having a floor, the recess configured to seat a dish in which the material is disposed, and a movable securing frame that is movably connected with the platform, the frame including a lift support having an upper surface that is movable along a path from a first location that is beneath the floor of the recess, through the recess, to a second location that is coplanar with the upper surface of the platform. A motor configured to cause oscillation of the platform and the movable securing frame can be used. A method of using the grinding mill can include placing a dish above a recess defined by an upper surface of a platform, and lowering the frame with respect to the platform, thereby seating the dish within the recess.

A method for processing hemp to form a dry hemp product including cannabinoid oil comprises steps of: (i) cutting hemp plants growing in a field between about 85 days and about 120 days after seeding, such that the hemp plants include at least one of leaves and flower buds but are free of seed; (ii) drying the hemp plants to a prescribed moisture content of about 5% to about 15%, by leaving the hemp plants in the field to air dry; (iii) shaking the hemp plants to shear said at least one of the leaves and the flower buds from stalks of the hemp plants so as to form separated stalks and said at least one of the leaves and the flower buds which are not deformed; and (iv) screening the separated stalks and the leaves and/or the flower buds so as to be separated from one another.

A method for processing hemp to form a dry hemp product including cannabinoid oil comprises steps of: (i) cutting hemp plants growing in a field between about 85 days and about 120 days after seeding, such that the hemp plants include at least one of leaves and flower buds but are free of seed; (ii) drying the hemp plants to a prescribed moisture content of about 5% to about 15%, by leaving the hemp plants in the field to air dry; (iii) shaking the hemp plants to shear said at least one of the leaves and the flower buds from stalks of the hemp plants so as to form separated stalks and said at least one of the leaves and the flower buds which are not deformed; and (iv) screening the separated stalks and the leaves and/or the flower buds so as to be separated from one another.

A method for processing hemp to form a dry hemp product including cannabinoid oil comprises steps of: (i) cutting hemp plants growing in a field between about 85 days and about 120 days after seeding, such that the hemp plants include at least one of leaves and flower buds but are free of seed; (ii) drying the hemp plants to a prescribed moisture content of about 5% to about 15%, by leaving the hemp plants in the field to air dry; (iii) shaking the hemp plants to shear said at least one of the leaves and the flower buds from stalks of the hemp plants so as to form separated stalks and said at least one of the leaves and the flower buds which are not deformed; and (iv) screening the separated stalks and the leaves and/or the flower buds so as to be separated from one another.

A method for processing hemp to form a dry hemp product including cannabinoid oil comprises steps of: (i) cutting hemp plants growing in a field between about 85 days and about 120 days after seeding, such that the hemp plants include at least one of leaves and flower buds but are free of seed; (ii) drying the hemp plants to a prescribed moisture content of about 5% to about 15%, by leaving the hemp plants in the field to air dry; (iii) shaking the hemp plants to shear said at least one of the leaves and the flower buds from stalks of the hemp plants so as to form separated stalks and said at least one of the leaves and the flower buds which are not deformed; and (iv) screening the separated stalks and the leaves and/or the flower buds so as to be separated from one another.

The invention describes an installation, which serves for obtaining humate materials from mineral coal base material, and is provided with raw material depository (1), and a suitable mixer (5) for mixing of the raw material and the reagent, and where a dryer (3) for drying the raw material is attached to the raw material depository, and through a transporter (4) a mixer (5) is attached in order to mix the mineral coal base material with the solid state alkali reagent, furthermore there is a solid alkali feeder equipment (5a) and through a transporter (6) an ozonizing chamber (9) is attached to mixer (5), where the chamber (9) has an ozone inlet hole (78) attached to the ozone generator (8), and there is a mechano-chemical activator (10) attached to the outlet hole (79) of the chamber (9).

The invention describes an installation, which serves for obtaining humate materials from mineral coal base material, and is provided with raw material depository (1), and a suitable mixer (5) for mixing of the raw material and the reagent, and where a dryer (3) for drying the raw material is attached to the raw material depository, and through a transporter (4) a mixer (5) is attached in order to mix the mineral coal base material with the solid state alkali reagent, furthermore there is a solid alkali feeder equipment (5a) and through a transporter (6) an ozonizing chamber (9) is attached to mixer (5), where the chamber (9) has an ozone inlet hole (78) attached to the ozone generator (8), and there is a mechano-chemical activator (10) attached to the outlet hole (79) of the chamber (9).

According to one embodiment, a biological tissue grinding container includes a container portion and a vibrated portion, and vibration is transmitted to biological tissue from the vibration portion to grind the biological tissue. The vibrated portion includes a contact portion to be brought into direct contact with the biological tissue and defines a chamber which stores the biological tissue to be ground, together with the container portion. The vibrated portion is fixedly supported to be vibratable to the container portion directly or via a support portion provided between the container portion and itself, and has solidity higher than that of the container portion or support portion.

According to one embodiment, a biological tissue grinding container includes a container portion and a vibrated portion, and vibration is transmitted to biological tissue from the vibration portion to grind the biological tissue. The vibrated portion includes a contact portion to be brought into direct contact with the biological tissue and defines a chamber which stores the biological tissue to be ground, together with the container portion. The vibrated portion is fixedly supported to be vibratable to the container portion directly or via a support portion provided between the container portion and itself, and has solidity higher than that of the container portion or support portion.

A system and method for coffee bean processing that includes a bean refinement chute with a bean grind inlet and a refined grind outlet; a filter system integrated into at least one surface within the chute; a vibration system operable in an active state that agitates bean grinds during progression from the bean grind inlet to the refined grind outlet; a refined grind chamber positioned adjacent to the refined grind outlet and thereby collects refined grinds; and a filtered grind chamber positioned beneath the filter system and thereby collects filtered grinds.