A portable multi-sectioned boom concrete conveyor assembly includes a main conveyor boom section and a distal conveyor boom section. The distal conveyor boom section is hinged, relative to the main conveyor boom section, so that the distal conveyor boom section can be adjusted in order to provide concrete to a desired location.

A swing auger towable by a tractor features a main auger, and a feed auger pivotally coupled to the main auger and reaching transversely outward therefrom. One or more additional conveyors each are positioned alongside the tractor with the discharge of the conveyor(s) feeding into the feed auger, and with the conveyor hopper positioned longitudinally forward of the tractor under the bottom discharge of the trailer or other source receptacle. A stabilizing device for the main auger doubles as a lift arm for elevating the conveyor in a transport position, and may be installed with a tandem axle that compensates for angular frame variation in the working position of the main auger. Alternatively, a novel auger frame is pivotally coupled to the inlet end of the main auger, remains at a consistent angle regardless of the main auger's position, and is equipped with a hitch connector and rear stabilizer arms.

The invention relates to a conveyor belt arrangement of a material processing device having a conveyor belt (20) and a receiving and adjustment mechanism for adjusting the conveyor belt between a transport position and a working position. To this end, the conveyor belt is mounted on bearing elements (40, 60), which are rotatably connected to receiving elements (30, 50) of the receiving and adjusting mechanism. According to the invention, the receiving elements are each coupled to a pivot bearing each having a pivot axis (30.1, 50.1) for the pivotable attachment to the material processing device, and at least one bearing element is connected to the conveyor belt in a linearly adjustable manner, and/or between the conveyor belt and the pivot bearing of at least one receiving element, a compensating mechanism is provided, by means of which a spacing change between the bearing elements can be compensated for. The conveyor belt arrangement allows the simple adjustment of the conveyor belt of a material processing device between a working position and a transport position.

A mobile machine for conveying and/or processing mineral aggregate material, includes a machine frame and a conveyor module supported on the machine frame so as to be displaceable relative to the latter. A conveyor line runs along a virtual conveyor path (FB), the conveyor module being designed at least for conveying the aggregate material along the conveyor path on the conveyor line. A component carrier in a working state of the machine runs in an elevation direction (H) at a distance from the conveyor line crosswise with respect to the conveyor path above the conveyor line. The component carrier supports at least one functional module which interacts with the aggregate material conveyed on the conveyor line. The conveyor module is displaceable relative to the machine frame with a displacement component in the elevation direction. The component carrier is movable both relative to the conveyor module and the machine frame.

A conveyor comprises a first conveyor section and a second conveyor section that is foldable with respect to the first conveyor section. Skirting is movable into and out of a deployed state in which it extends along the second conveyor section. A skirting support is coupled to the skirting and is movable into and out of a deployed state in which it holds the skirting in the deployed state. Actuating device is provided for moving the skirting support. The skirting is deformable or foldable so that it does not have to be removed or fitted when the conveyor is folded or deployed, and is less susceptible to damage.

The present disclosure relates to a system and a method for fine manipulation. The system for fine manipulation includes a tossing mechanism, a setting mechanism, and a leaf uniformly distributing mechanism. The tossing mechanism comprises a tossing machine, a leaf distributing assembly, a first feeding conveyor assembly, and a first receiving conveyor assembly. The setting mechanism comprises a setting assembly, a second feeding conveyor assembly, and a second receiving conveyor assembly. The setting assembly includes a setting belt and a setting belt driving device configured to drive the setting belt to move. The leaf uniformly distributing mechanism comprises a leaf uniformly distributing device and a lifting driving assembly. The leaf uniformly distributing device includes a shifting arm, a rotary table and a rotary table driving assembly. The lifting driving assembly can drive the leaf uniformly distributing device to move up and down. The system for fine manipulation is convenient to realize uniform distribution of leaves in the tossing machine, and allows alternating between tossing and setting, to realize continuous and automatic fine manipulation for tea leaves. It can significantly reduce labor intensity and improve production efficiency, while improving stability of oolong tea quality.

A material processing apparatus has a discharge conveyor that is coupled to the body of the apparatus so that it can pivot with respect to the body and be raised vertically with respect to the body. The coupling mechanism allows the pivoting and lifting of the conveyor to be performed by the same actuators. The discharge conveyor can be raised into an access state in which a transfer conveyor can be removed from the body.

A material processing apparatus has a discharge conveyor that is coupled to the body of the apparatus so that it can pivot with respect to the body and be raised vertically with respect to the body. The coupling mechanism allows the pivoting and lifting of the conveyor to be performed by the same actuators. The discharge conveyor can be raised into an access state in which a transfer conveyor can be removed from the body.

The present disclosure relates to a system and a method for fine manipulation. The system for fine manipulation includes a tossing mechanism, a setting mechanism, and a leaf uniformly distributing mechanism. The tossing mechanism comprises a tossing machine, a leaf distributing assembly, a first feeding conveyor assembly, and a first receiving conveyor assembly. The setting mechanism comprises a setting assembly, a second feeding conveyor assembly, and a second receiving conveyor assembly. The setting assembly includes a setting belt and a setting belt driving device configured to drive the setting belt to move. The leaf uniformly distributing mechanism comprises a leaf uniformly distributing device and a lifting driving assembly. The leaf uniformly distributing device includes a shifting arm, a rotary table and a rotary table driving assembly. The lifting driving assembly can drive the leaf uniformly distributing device to move up and down. The system for fine manipulation is convenient to realize uniform distribution of leaves in the tossing machine, and allows alternating between tossing and setting, to realize continuous and automatic fine manipulation for tea leaves. It can significantly reduce labor intensity and improve production efficiency, while improving stability of oolong tea quality.

The invention relates to a conveyor belt arrangement of a material processing device having a conveyor belt (20) and a receiving and adjustment mechanism for adjusting the conveyor belt between a transport position and a working position. To this end, the conveyor belt is mounted on bearing elements (40, 60), which are rotatably connected to receiving elements (30, 50) of the receiving and adjusting mechanism. According to the invention, the receiving elements are each coupled to a pivot bearing each having a pivot axis (30.1, 50.1) for the pivotable attachment to the material processing device, and at least one bearing element is connected to the conveyor belt in a linearly adjustable manner, and/or between the conveyor belt and the pivot bearing of at least one receiving element, a compensating mechanism is provided, by means of which a spacing change between the bearing elements can be compensated for. The conveyor belt arrangement allows the simple adjustment of the conveyor belt of a material processing device between a working position and a transport position.