A food product quality control system is provided. The system comprises a support structure, an inspection unit for detecting at least one property of a food product supplied to the inspection unit, the inspection unit being mounted on the support structure, and a conveyor system for conveying a food product through and/or past the inspection unit, the conveyor system being mounted on the support structure. The conveyor system comprises a conveying apparatus carried on a frame. The frame is movably mounted to the support structure such that the frame may move relative to the inspection unit between an operation position, at which the frame is laterally aligned with the inspection unit such that food product may be conveyed through and/or past the inspection unit, and a maintenance position, at which the frame is laterally offset from the inspection unit.

A food product quality control system is provided. The system comprises a support structure, an inspection unit for detecting at least one property of a food product supplied to the inspection unit, the inspection unit being mounted on the support structure, and a conveyor system for conveying a food product through and/or past the inspection unit, the conveyor system being mounted on the support structure. The conveyor system comprises a conveying apparatus carried on a frame. The frame is movably mounted to the support structure such that the frame may move relative to the inspection unit between an operation position, at which the frame is laterally aligned with the inspection unit such that food product may be conveyed through and/or past the inspection unit, and a maintenance position, at which the frame is laterally offset from the inspection unit.

The present invention relates to a flexible conveyor system. The system includes a supply conveyor module and a receiver conveyor module. A hitch mechanism is provided for pivotally coupling the supply conveyor module to the receiver conveyor module about a pivot axis so that the receiver conveyor module receives conveyed material from the supply conveyor module proximal to the pivot axis. Advantageously, the receiver conveyor module receives conveyed material from the supply conveyor module proximal to the pivot axis which impedes spillage between the adjacent conveyor modules on very tight corners.

The present invention relates to a flexible conveyor system. The system includes a supply conveyor module and a receiver conveyor module. A hitch mechanism is provided for pivotally coupling the supply conveyor module to the receiver conveyor module about a pivot axis so that the receiver conveyor module receives conveyed material from the supply conveyor module proximal to the pivot axis. Advantageously, the receiver conveyor module receives conveyed material from the supply conveyor module proximal to the pivot axis which impedes spillage between the adjacent conveyor modules on very tight corners.

A tofu conveying machine includes a conveyor, a support member, and an elevation device. The conveyor is configured to convey tofu placed thereon. The support member is configured to support at least a portion of the conveyor from below, and the portion allows the tofu to be placed thereon. The elevation device is configured to elevate and lower the support member.

A tofu conveying machine includes a conveyor, a support member, and an elevation device. The conveyor is configured to convey tofu placed thereon. The support member is configured to support at least a portion of the conveyor from below, and the portion allows the tofu to be placed thereon. The elevation device is configured to elevate and lower the support member.

A shield gate includes a door member disposed in a gap region located between an intra-area transport unit and an extra-area transport unit in a transport direction in a closed state in which the shield gate shields an opening, and is disposed at a position displaced from the gap region in an open state in which the shield gate opens the opening. A second interval is a length of the gap region that allows the door member to be disposed, during at least a part of a non-transport period, the length of the gap region is set to be greater than or equal to the second interval, and the shield gate is in the closed state, and, during the transport period, the shield gate is in the open state, and the length of the gap region is set to a first interval that is shorter than the second interval.

A shield gate includes a door member disposed in a gap region located between an intra-area transport unit and an extra-area transport unit in a transport direction in a closed state in which the shield gate shields an opening, and is disposed at a position displaced from the gap region in an open state in which the shield gate opens the opening. A second interval is a length of the gap region that allows the door member to be disposed, during at least a part of a non-transport period, the length of the gap region is set to be greater than or equal to the second interval, and the shield gate is in the closed state, and, during the transport period, the shield gate is in the open state, and the length of the gap region is set to a first interval that is shorter than the second interval.

A roller conveyor system for conveying material may include a frame and roller conveyors arranged on the frame. The roller conveyor system is configurable in an operating state and in a maintenance state. At least one of the roller conveyors is arranged in an operating position in the operating state and in a maintenance position that is different from the operating position in the maintenance state. In the maintenance position, a region is then advantageously freed up, which can be used to perform maintenance. In addition, a method for transferring such a roller conveyor system from an operating state into a maintenance state may involve transferring one of the roller conveyors from the operating position into a maintenance position different from the operating position.

A method is disclosed for varying a spatial arrangement of randomly arranged, stacked or piled products, particularly to rearrange the products in a way that makes automated handling thereof possible. The method relies on a plurality of subsequent conveyors extending between a product input and a product output, wherein at least one of a conveyor speed a conveyor direction and a conveyor height of a conveyor of the plurality is offset from, respectively, the conveyor speed the conveyor direction, and the conveyor height of a subsequent conveyor in the plurality.