The present invention relates to methods for producing particles of a biologically active material using dry milling processes as well as compositions comprising such materials, medicaments produced using said biologically active materials in particulate form and/or compositions, and to methods of treatment of an animal, including man, using a therapeutically effective amount of said biologically active materials administered by way of said medicaments.

The present invention relates to methods for producing particles of a biologically active material using dry milling processes as well as compositions comprising such materials, medicaments produced using said biologically active materials in particulate form and/or compositions, and to methods of treatment of an animal, including man, using a therapeutically effective amount of said biologically active materials administered by way of said medicaments.

A unit for grinding biological samples, comprising a grinding device including at least two tubes having different volumes, suitable for being mounted on a support of the grinding device, each tube comprising an inner space having a height (h) along the axis of the corresponding tube, and being intended to contain samples to be ground, means for driving the support in a precession movement, the support having an axis the position of which varies by describing a cone, each tube being subjected to a movement (d) defined by the projection, onto the axis of said cone, of the distance between the extreme positions of a same point of the tube during the precession movement.

A unit for grinding biological samples, comprising a grinding device including at least two tubes having different volumes, suitable for being mounted on a support of the grinding device, each tube comprising an inner space having a height (h) along the axis of the corresponding tube, and being intended to contain samples to be ground, means for driving the support in a precession movement, the support having an axis the position of which varies by describing a cone, each tube being subjected to a movement (d) defined by the projection, onto the axis of said cone, of the distance between the extreme positions of a same point of the tube during the precession movement.

This invention is directed to a sample preparation apparatus for grinding or homogenizing test samples. More specifically, but without restriction to the particular embodiments hereinafter described in accordance with the best mode of practice, this invention relates to a reciprocating apparatus based upon a slider-crank mechanism for grinding or homogenizing of a sample within a sample vial attached to an oscillating connecting linkage that has an amplitude of oscillatory motion equal to or greater than the length of the sample processing chamber.

This invention is directed to a sample preparation apparatus for grinding or homogenizing test samples. More specifically, but without restriction to the particular embodiments hereinafter described in accordance with the best mode of practice, this invention relates to a reciprocating apparatus based upon a slider-crank mechanism for grinding or homogenizing of a sample within a sample vial attached to an oscillating connecting linkage that has an amplitude of oscillatory motion equal to or greater than the length of the sample processing chamber.

A method and apparatus to reclaim metals from scrap material such as automobile shredder residue (ASR) that, after separating out light density components, separates out friable material such as rock and glass by crushing and screening operations to generate a high metal content product.

The invention shows and describes a vibration mill for at least two grinding beakers performing vibrations in the horizontal position, with at least one multi-part pendulum drive, wherein the pendulum drive has at least one eccentric shaft mounted to rotate about a vertical eccentric axis, and at least two rockers each mounted so as to be capable of vibrating about a vertical vibration axis and connected by means of couplers to the eccentric shaft, said rockers holding the grinding beakers. The pendulum drive further has a motor unit coupled to the eccentric shaft as a drive for the eccentric shaft and optionally further components, wherein a rotary movement of the eccentric shaft via the couplers can be converted into a vibrating movement of the rockers. According to the invention, the centre of gravity of the pendulum drive in a horizontal centre of gravity plane is substantially equidistant from both vibration axes.

A method of grinding large sample quantities using a bead beater homogenizer includes steps of loading a sample material into a vial having a size of 500 ml or greater having a chamber enclosed by two end walls and a cylindrical sidewall defining a central vial axis, loading a plurality of balls into the vial with the sample material, securing the vial to a movable platform of the homogenizer, and oscillating the platform in a back-and-forth motion isolated to a movement axis, thereby causing the balls to move in a circular motion along the cylindrical sidewall, wherein the central vial axis is perpendicular to the movement axis. A system of a cylindrical vial and a bead beater homogenizer is also provided.

A method of grinding large sample quantities using a bead beater homogenizer includes steps of loading a sample material into a vial having a size of 500 ml or greater having a chamber enclosed by two end walls and a cylindrical sidewall defining a central vial axis, loading a plurality of balls into the vial with the sample material, securing the vial to a movable platform of the homogenizer, and oscillating the platform in a back-and-forth motion isolated to a movement axis, thereby causing the balls to move in a circular motion along the cylindrical sidewall, wherein the central vial axis is perpendicular to the movement axis. A system of a cylindrical vial and a bead beater homogenizer is also provided.