The invention is a machine for producing decorative aggregate G-layer on top surfaces of claddings in cooperation with a cladding manufacturing machine. The G-layer production machine may be integrated into the cladding manufacturing machine or a standalone machine. In both options, the machines synchronize the overlaying of the top G-layer with the manufacturing process of the claddings to ensure continuous production of multi-layer claddings with a decorative aggregate layer. The overlaying itself is done under controlled condition to produce homogenous distribution of the aggregates on the top surface of the claddings to provide them an aesthetic look.

Provided is an improved animal feed distribution system and components, specifically tube belt conveyor system, that provides more efficient manner of delivering feed to the animals, such as poultry by using tube conveyor belt to distribute feed in a re-circulating loop.

The invention is a machine for producing decorative aggregate G-layer on top surfaces of claddings in cooperation with a cladding manufacturing machine. The G-layer production machine may be integrated into the cladding manufacturing machine or a standalone machine. In both options, the machines synchronize the overlaying of the top G-layer with the manufacturing process of the claddings to ensure continuous production of multi-layer claddings with a decorative aggregate layer. The overlaying itself is done under controlled condition to produce homogenous distribution of the aggregates on the top surface of the claddings to provide them an aesthetic look.

The invention is a machine for producing decorative aggregate G-layer on top surfaces of claddings in cooperation with a cladding manufacturing machine. The G-layer production machine may be integrated into the cladding manufacturing machine or a standalone machine. In both options, the machines synchronize the overlaying of the top G-layer with the manufacturing process of the claddings to ensure continuous production of multi-layer claddings with a decorative aggregate layer. The overlaying itself is done under controlled condition to produce homogenous distribution of the aggregates on the top surface of the claddings to provide them an aesthetic look.

A powder spreading apparatus includes a hopper having a first end, a second end opposite from the first end, a front wall, a rear wall opposite from the front wall, and a floor. The front wall, the rear wall, the first end, the second end, and the floor define an interior. An impeller is disposed within the interior of the hopper. The impeller includes a plurality of circumferentially spaced flutes and is configured to rotate about an impeller axis that extends from the first end of the hopper to the second end of the hopper to deposit powder onto a print area. A spreader rod is coupled to the hopper and extends along a spreader rod axis parallel to the impeller axis. The spreader rod is configured to rotate about the spreader rod axis to smooth the powder as it is deposited onto the print area.

A powder spreading apparatus includes a hopper having a first end, a second end opposite from the first end, a front wall, a rear wall opposite from the front wall, and a floor. The front wall, the rear wall, the first end, the second end, and the floor define an interior. An impeller is disposed within the interior of the hopper. The impeller includes a plurality of circumferentially spaced flutes and is configured to rotate about an impeller axis that extends from the first end of the hopper to the second end of the hopper to deposit powder onto a print area. A spreader rod is coupled to the hopper and extends along a spreader rod axis parallel to the impeller axis. The spreader rod is configured to rotate about the spreader rod axis to smooth the powder as it is deposited onto the print area.

Conveyor system comprising a conveying element with one or more bottoms (1) and upright side walls (2, 3), wherein the bottoms (1) and the upright side walls (2, 3) together form a trough in which bulk products (9) may be transported along a main flow (A), wherein the conveying element comprises one or more openings (4) through which bulk products (9) may be poured, wherein the conveyor system comprises a gate (5) for closing a particular opening (4), wherein this gate (5) may be moved between at least a closed position and an open position, wherein the one or more openings (4) extend on the side walls (2), and wherein the gate (5) may be moved slidably along the specified opening (4).

Conveyor system comprising a conveying element with one or more bottoms (1) and upright side walls (2, 3), wherein the bottoms (1) and the upright side walls (2, 3) together form a trough in which bulk products (9) may be transported along a main flow (A), wherein the conveying element comprises one or more openings (4) through which bulk products (9) may be poured, wherein the conveyor system comprises a gate (5) for closing a particular opening (4), wherein this gate (5) may be moved between at least a closed position and an open position, wherein the one or more openings (4) extend on the side walls (2), and wherein the gate (5) may be moved slidably along the specified opening (4).

A component supply device configured to output a predetermined number of components to be used in a work operation includes a fixing plate having a via-hole through which the components pass, the fixing plate being fixed to a housing, a movable plate having a storage hole penetrating through the movable plate in an up-down direction and having a size that allows the predetermined number of components to be stored, the movable plate being laminated on a top side of the fixing plate and configured to move such that the storage hole moves relative to the via-hole in a direction parallel to a top face of the fixing plate, a controller configured to control an operation of the movable plate, and an elastic member placed on a top side of the movable plate and configured to elastically deform in a direction parallel to a top face of the movable plate.

A component supply device configured to output a predetermined number of components to be used in a work operation includes a fixing plate having a via-hole through which the components pass, the fixing plate being fixed to a housing, a movable plate having a storage hole penetrating through the movable plate in an up-down direction and having a size that allows the predetermined number of components to be stored, the movable plate being laminated on a top side of the fixing plate and configured to move such that the storage hole moves relative to the via-hole in a direction parallel to a top face of the fixing plate, a controller configured to control an operation of the movable plate, and an elastic member placed on a top side of the movable plate and configured to elastically deform in a direction parallel to a top face of the movable plate.