An agitator mill including a grinding chamber containing grinding bodies and an agitator shaft, which revolves therein about a horizontal agitator shaft axis, which supports several grinding members, which are connected to it in a rotationally fixed manner and which are spaced apart from one another in the direction of the horizontal axis, preferably in the shape of grinding disks, which move the grinding bodies, whereby, on the outlet side, the agitator shaft has a basket, which is preferably studded with grinding members on its outer circumference and which overlaps the split tube-supporting outlet, whereby a separation chamber is formed between the inner surface of the basket and the split tube-supporting outlet, whereby the basket has slits for returning grinding bodies from the separation chamber into the grinding chamber, which slits lead into the free front surface of the basket, which faces away from the grinding chamber.

The current invention, in a first aspect, concerns a method for separating a lead component from a lead coated glass, for instance glass from a CRT recycling process. The coated glass is crushed and ground to achieve a finely grained material of a mixture of a glass fraction and a lead fraction. The lead fraction is separated from the glass fraction based upon a difference in specific weight and/or density. In a second aspect the current invention concerns an apparatus for separating a lead component from a lead coated glass, for instance glass from a CRT recycling process. The apparatus is provided with a grinding unit. The apparatus includes a separator unit suited for separation based upon a difference in specific weight and/or density.

A mill and operating method for using grinding bodies for grinding a grinding stock. Grinding bodies that have passed through the through the product outlet enter an upwardly inclined discharge pipe from where, when the grinding body mill is at a standstill, the grinding bodies are directed out of the discharge pipe through the product outlet into a rotor body of the separating device. When operation of the grinding body mill is resumed, the grinding bodies are conveyed back into the grinding chamber owing to the rotation of the rotor body.

The invention discloses improvements and additional uses of thermo-mechanical processes using a rotary kiln for the separation of parts from a device that are held together by various means such as solder, epoxies, glues, and/or any other thermally degradable adhesives or underfills, and which is suitable for material size reduction via thermal decomposition of encapsulant materials such as integrated circuit casings or thermally degradable materials such as carbon-based hydro processing catalysts. The invention includes further sorting the materials according to predetermined size either in-situ or in series using a meshed vibrating table downstream of the rotary kiln. These devices can include, but not limited to, printed circuit boards, catalysts, solar panels, and the like.

A discharging device for mills, comprising: a conduit (10), structured so as to be connected to a discharge opening (3) of a mill (1); a bend (11) disposed along the conduit (10), which defines a curve of the conduit (10); a regulating device (12) associated to the bend (11) and predisposed for varying the position of the bend (11) so as to vary at least a height thereof.

A rotary milling system includes a rotatable body having a cylindrical portion and at least one variable diameter portion. The variable diameter portion is tapered toward an opening in a sidewall of the rotatable body a discharge grate. The body can include grinding media for abrading a product when the body is rotated. The product can be milled as a dry product or within a liquid medium. The tapered shape of the body urges milled product toward the opening and the discharge grate. The system can include a discharge housing surrounding the discharge grate and a conveying pipe in fluid communication with the discharge housing, with a valve disposed between the conveying pipe and the discharge to selectively allow milled product to be conveyed through the conveying pipe.

The present invention provides a solar panel recycling system includes: a frame dismantling machine for disassembling the outer frame of a solar panel; a crushing machine for placing the solar panel without the outer frame on the conveyor belt of the crushing machine, wherein the crushing machine includes a sensing unit for sensing the thickness of the glass on the solar panel; and a control unit for controlling the speed of the conveyor belt based on the thickness of the glass and simultaneously controlling the crushing unit to crush the glass on the solar panel, so as to achieve the effect of the separation between the glass and the solar cell module.

An attrition mill that includes a grinding chamber having a plurality of grinding elements and an internal classification and separation stage. The mill also includes at least one grinding element providing a larger flow path therethrough, when compared to other of the grinding elements. In other embodiments, mill includes at least one grinding element having an open area in the grinding element created to allow a larger flow path as a proportion of the grinding element surface area without such allowance and in the range of from 15% to equal to or less than 100%.

The present invention provides a solar panel recycling system includes: a frame dismantling machine for disassembling the outer frame of a solar panel; a crushing machine for placing the solar panel without the outer frame on the conveyor belt of the crushing machine, wherein the crushing machine includes a sensing unit for sensing the thickness of the glass on the solar panel; and a control unit for controlling the speed of the conveyor belt based on the thickness of the glass and simultaneously controlling the crushing unit to crush the glass on the solar panel, so as to achieve the effect of the separation between the glass and the solar cell module.