A head assembly having ancillary fan assemblies can be operationally mounted to the outlet of a conventional harvester extractor. The ancillary fan assemblies can generally direct suspended trash materials in a substantially upward and laterally outboard direction toward both lateral sides of a harvester. A duct assembly having an inlet and an outlet generally extends from each ancillary fan assembly to a position generally above a track of a harvester. Trash material expelled by a harvester extractor enters the head assembly and is directed by the ancillary fan assemblies into each of the duct assemblies, through said duct assemblies, and onto the upper surfaces of the tracks of the harvester. The trash material is then conveyed by the tracks toward the front or forward portion of the harvester, where it falls off of the tracks generally in the path of the harvester. As the harvester continues moving forward, the harvester runs over the deposited organic trash material, plowing the organic trash material into the underlying terrain.

The invention relates to an integrated separator (1) for separating coarse and fine particles in a cement making process, said integrated separator (1) comprising a static separator (2) and dynamic separator (3), said dynamic separator (3) being arranged in an uppermost position relative to said static separator (2) and said static separator (2) comprising an outer housing (11); a de-agglomeration cone (5) and a first inverted frustum cone (6), said de-agglomeration cone [5] arranged adjacent to said first inverted frustum cone (6) by holding rods (18), said holding rods (18) are connected to said inverted first frustum of cone (6).

The invention relates to an integrated separator (1) for separating coarse and fine particles in a cement making process, said integrated separator (1) comprising a static separator (2) and dynamic separator (3), said dynamic separator (3) being arranged in an uppermost position relative to said static separator (2) and said static separator (2) comprising an outer housing (11); a de-agglomeration cone (5) and a first inverted frustum cone (6), said de-agglomeration cone [5] arranged adjacent to said first inverted frustum cone (6) by holding rods (18), said holding rods (18) are connected to said inverted first frustum of cone (6).

The present invention relates to a waste sorter using specific gravity and, more specifically, to a specific gravity-specific waste air sorter having an impurity separation function, using a vortex for sorting waste into high-specific gravity materials (PET bottles, glass bottles, cans, metals and the like), low-specific gravity materials (vinyl, paper and the like), and impurities (sand, soil, dust, glass dust and the like) when the impurities are shaken off and removed by means of the hitting of a rotating drum and vanes while the waste fed therein is turned over by a vortex. The present invention includes a main drum having radial vanes, an upper auxiliary drum, and a lower auxiliary drum, wherein the main drum is provided at one side of an input hole, the upper auxiliary drum is provided at the other side of the input hole, and the lower auxiliary drum is provided below the upper auxiliary drum, the main drum and the lower auxiliary drum rotate in the same direction, whereas the upper auxiliary drum rotates in the opposite direction, a vortex is formed between the main drum, the upper auxiliary drum, and the lower auxiliary drum in a structure of maximizing the vortex at different rotational speeds, and a screen conveyor formed in a mesh shape is obliquely provided below the input hole.

The present invention relates to a waste sorter using specific gravity and, more specifically, to a specific gravity-specific waste air sorter having an impurity separation function, using a vortex for sorting waste into high-specific gravity materials (PET bottles, glass bottles, cans, metals and the like), low-specific gravity materials (vinyl, paper and the like), and impurities (sand, soil, dust, glass dust and the like) when the impurities are shaken off and removed by means of the hitting of a rotating drum and vanes while the waste fed therein is turned over by a vortex. The present invention includes a main drum having radial vanes, an upper auxiliary drum, and a lower auxiliary drum, wherein the main drum is provided at one side of an input hole, the upper auxiliary drum is provided at the other side of the input hole, and the lower auxiliary drum is provided below the upper auxiliary drum, the main drum and the lower auxiliary drum rotate in the same direction, whereas the upper auxiliary drum rotates in the opposite direction, a vortex is formed between the main drum, the upper auxiliary drum, and the lower auxiliary drum in a structure of maximizing the vortex at different rotational speeds, and a screen conveyor formed in a mesh shape is obliquely provided below the input hole.

A centrifugal separator including a separator housing and a separator wheel revolving in the housing. The separator housing has an inlet for material, a coarse material outlet, and a fine material outlet. The wheel is formed by a drum and a wheel shaft, which supports the drum and rotates around a horizontal axis. The circumferential jacket surface of the drum is interrupted such that it sets the material to be separated, which hits the drum on the outer jacket side, into rotation during operation and the separation air flows through it in the radially inwards direction. The fine material outlet is arranged on the end of the drum and fine material is discharged from the interior of the drum into the fine material outlet via the free front face of the drum. The wheel shaft consists of two parts, which are not directly connected to one another in a supporting manner.

A centrifugal separator including a separator housing and a separator wheel revolving in the housing. The separator housing has an inlet for material, a coarse material outlet, and a fine material outlet. The wheel is formed by a drum and a wheel shaft, which supports the drum and rotates around a horizontal axis. The circumferential jacket surface of the drum is interrupted such that it sets the material to be separated, which hits the drum on the outer jacket side, into rotation during operation and the separation air flows through it in the radially inwards direction. The fine material outlet is arranged on the end of the drum and fine material is discharged from the interior of the drum into the fine material outlet via the free front face of the drum. The wheel shaft consists of two parts, which are not directly connected to one another in a supporting manner.

A toner classification apparatus comprising a classification rotor in which the classification rotor has a vane A which extends from a rotation center direction of the classification rotor to an outer circumference direction thereof and a vane B having a length longer than that of the vane A, the vane A, and the vane B are disposed so as to satisfy a predetermined relationship, and a toner production method comprising a classification step of carrying out a classification process on particles to be classified by using the toner classification apparatus.

A toner classification apparatus comprising a classification rotor in which the classification rotor has a vane A which extends from a rotation center direction of the classification rotor to an outer circumference direction thereof and a vane B having a length longer than that of the vane A, the vane A, and the vane B are disposed so as to satisfy a predetermined relationship, and a toner production method comprising a classification step of carrying out a classification process on particles to be classified by using the toner classification apparatus.

An agitator ball mill including an in particular horizontal grinding container, which has a first end area having a grinding material inlet and a second end area having a grinding material outlet, and a method for operating an agitator ball mill. The agitator ball mill includes a shaft, which can be rotated in the grinding container or in the grinding chamber, respectively, by means of a drive unit and which is formed as agitator shaft at least in sections and which is equipped with agitator elements, as well as a separating device. The separating device includes a classifier rotor, which is arranged on the agitator shaft axially spaced apart from the grinding material outlet and has a rotatable rotor cage, as well as a screen unit, which is arranged within the rotor cage and which is fastened to the classifier rotor.