This disclosure describes a machine for treating organic waste, comprising a casing which defines an inner treatment chamber for organic waste delimited at least in part by a screening grid, and an inlet opening for waste at one end of the chamber and an outlet opening at an end opposite to the inlet opening; at least one driven shaft installed in the inner chamber and provided with mechanical means for grinding or pressing the introduced organic waste against the screening grid or against at least one wall which delimits the inner treatment chamber; a first motor, having a drive shaft functionally coupled to the driven shaft; a first transmission system configured to transmit to the driven shaft a rotational movement imparted by the first motor to the drive shaft, the first transmission system comprising at least one first support bearing functionally coupled to the drive shaft. A particular feature of the machine according to the present disclosure consists in the fact that the said first transmission system comprises a second self-aligning roller bearing configured to allow an angular misalignment between a longitudinal axis of the driven shaft and a rotation axis of the drive shaft up to a maximum misalignment value such that a free distal end of the driven shaft may fluctuate heightwise inside the inner chamber for treating organic waste.

Apparatus for pressing and drying a pre-defined amount of waste includes a metal main frame positioned to provide rigid support, and a body mechanically linked to the main frame through a plurality of linkage plates. The apparatus also includes an inlet vertically mounted on the body and a twin screw assembly to press and dehydrate the pre-defined amount of waste. A plurality of mesh screens is rigidly linked to the main frame along the longitudinal axis of the apparatus to remove compressed liquid. The body is also designed to support rotation of the twin screw assembly, and the inlet includes an ingress cross-sectional opening to receive the pre-defined amount of waste.

Apparatus for pressing and drying a pre-defined amount of waste includes a metal main frame positioned to provide rigid support, and a body mechanically linked to the main frame through a plurality of linkage plates. The apparatus also includes an inlet vertically mounted on the body and a twin screw assembly to press and dehydrate the pre-defined amount of waste. A plurality of mesh screens is rigidly linked to the main frame along the longitudinal axis of the apparatus to remove compressed liquid. The body is also designed to support rotation of the twin screw assembly, and the inlet includes an ingress cross-sectional opening to receive the pre-defined amount of waste.

A juice extractor includes a power assembly, a housing assembly, a snap-fitting assembly and a screw assembly; the power assembly includes an electric motor, an electric-motor housing and a rotation shaft, and the electric motor drives the rotation shaft to rotate; the screw assembly is connected to the rotation shaft, and is provided inside the housing assembly; the snap-fitting assembly connects the housing assembly to the power assembly; and the housing assembly includes a strainer assembly and a filtering-shield assembly, the strainer assembly is integrally formed by welding, the filtering-shield assembly is detachably fixed to and supported on the strainer assembly, and the filtering-shield assembly is provided with a filtered-juice separating slot that is capable of performing secondary filtration of an extracted juice. The present disclosure employs a novel structure, which has a good sealing performance, and a low manufacturing cost, and the mouthfeel of the extracted juice is better.

A juice extractor includes a power assembly, a housing assembly, a snap-fitting assembly and a screw assembly; the power assembly includes an electric motor, an electric-motor housing and a rotation shaft, and the electric motor drives the rotation shaft to rotate; the screw assembly is connected to the rotation shaft, and is provided inside the housing assembly; the snap-fitting assembly connects the housing assembly to the power assembly; and the housing assembly includes a strainer assembly and a filtering-shield assembly, the strainer assembly is integrally formed by welding, the filtering-shield assembly is detachably fixed to and supported on the strainer assembly, and the filtering-shield assembly is provided with a filtered-juice separating slot that is capable of performing secondary filtration of an extracted juice. The present disclosure employs a novel structure, which has a good sealing performance, and a low manufacturing cost, and the mouthfeel of the extracted juice is better.

A pressing apparatus having a strainer cage and at least two feeding screws, which are arranged one behind the other in the feeding direction on a common screw shaft, wherein a pressure zone with no screw helix is arranged between the feeding screws. In the region of the pressure zone, the pressing apparatus according to the invention has a plurality of scraper shells, and these provide for improved efficiency of the pressing operation.

A pressing apparatus having a strainer cage and at least two feeding screws, which are arranged one behind the other in the feeding direction on a common screw shaft, wherein a pressure zone with no screw helix is arranged between the feeding screws. In the region of the pressure zone, the pressing apparatus according to the invention has a plurality of scraper shells, and these provide for improved efficiency of the pressing operation.

A pressing apparatus having a strainer cage and at least two feeding screws, which are arranged one behind the other in the feeding direction on a common screw shaft, wherein a pressure zone with no screw helix is arranged between the feeding screws. In the region of the pressure zone, the pressing apparatus according to the invention has a plurality of scraper shells, and these provide for improved efficiency of the pressing operation.

A pressing apparatus having a strainer cage and at least two feeding screws, which are arranged one behind the other in the feeding direction on a common screw shaft, wherein a pressure zone with no screw helix is arranged between the feeding screws. In the region of the pressure zone, the pressing apparatus according to the invention has a plurality of scraper shells, and these provide for improved efficiency of the pressing operation.

A process for producing a substantially dry product, according to various embodiments, may include receiving wet grain at a first screw The process includes receiving the wet grain at a second screw from the first screw. The process includes compressing the wet grain between the first screw and the second screw and dehydrating the wet grain when the wet grain is located within at least one zone of the first screw and the second screw to cause a physical property change to the wet grain.