A weighing system is mounted on a support, and the support is configured to support the weighing system. The weighing system includes a feeding mechanism, a conveying and transferring mechanism, pushing rods, a pushing mechanism, resetting mechanisms, a weighing mechanism, and a linkage follower mechanism. The feeding mechanism is arranged at a top portion of the support. The conveying and transferring mechanism is arranged below the feeding mechanism. The conveying and transferring mechanism includes a transferring wheel, a plurality of first channels, a plurality of sliding blocks, a plurality of first grooves and a guide base. The pushing mechanism is arranged on one side of the transferring wheel. The resetting mechanisms are configured to push the sliding blocks connected with the pushing rods to slide along the first channel towards an initial direction, and the weighing mechanism is arranged below the transferring wheel.

A weighing system is mounted on a support, and the support is configured to support the weighing system. The weighing system includes a feeding mechanism, a conveying and transferring mechanism, pushing rods, a pushing mechanism, resetting mechanisms, a weighing mechanism, and a linkage follower mechanism. The feeding mechanism is arranged at a top portion of the support. The conveying and transferring mechanism is arranged below the feeding mechanism. The conveying and transferring mechanism includes a transferring wheel, a plurality of first channels, a plurality of sliding blocks, a plurality of first grooves and a guide base. The pushing mechanism is arranged on one side of the transferring wheel. The resetting mechanisms are configured to push the sliding blocks connected with the pushing rods to slide along the first channel towards an initial direction, and the weighing mechanism is arranged below the transferring wheel.

The invention relates to the food industry. A method includes generating, via a server of a system, a selected order for processing by a control computer, as a result of which the necessary food base, which is located in a refrigerating unit, is sent to a first transport device where specific food ingredients are added in a prescribed manner, said ingredients being released from containers mounted above the first transport device. After this, the partially finished product is transferred to a second transport device, and, while moving along it, is baked to a finished condition in a baking unit. Then the baked product is transferred to a packaging sub-system which is connected to a sub-system for temporary storage and dispensing of the finished and packaged product.

The invention relates to the food industry. A method includes generating, via a server of a system, a selected order for processing by a control computer, as a result of which the necessary food base, which is located in a refrigerating unit, is sent to a first transport device where specific food ingredients are added in a prescribed manner, said ingredients being released from containers mounted above the first transport device. After this, the partially finished product is transferred to a second transport device, and, while moving along it, is baked to a finished condition in a baking unit. Then the baked product is transferred to a packaging sub-system which is connected to a sub-system for temporary storage and dispensing of the finished and packaged product.

A weighing system is mounted on a support, and the support is configured to support the weighing system. The weighing system includes a feeding mechanism, a conveying and transferring mechanism, pushing rods, a pushing mechanism, resetting mechanisms, a weighing mechanism, and a linkage follower mechanism. The feeding mechanism is arranged at a top portion of the support. The conveying and transferring mechanism is arranged below the feeding mechanism. The conveying and transferring mechanism includes a transferring wheel, a plurality of first channels, a plurality of sliding blocks, a plurality of first grooves and a guide base. The pushing mechanism is arranged on one side of the transferring wheel. The resetting mechanisms are configured to push the sliding blocks connected with the pushing rods to slide along the first channel towards an initial direction, and the weighing mechanism is arranged below the transferring wheel.

A weighing system is mounted on a support, and the support is configured to support the weighing system. The weighing system includes a feeding mechanism, a conveying and transferring mechanism, pushing rods, a pushing mechanism, resetting mechanisms, a weighing mechanism, and a linkage follower mechanism. The feeding mechanism is arranged at a top portion of the support. The conveying and transferring mechanism is arranged below the feeding mechanism. The conveying and transferring mechanism includes a transferring wheel, a plurality of first channels, a plurality of sliding blocks, a plurality of first grooves and a guide base. The pushing mechanism is arranged on one side of the transferring wheel. The resetting mechanisms are configured to push the sliding blocks connected with the pushing rods to slide along the first channel towards an initial direction, and the weighing mechanism is arranged below the transferring wheel.

An offset weighing apparatus and method for use with poultry processing equipment includes a weigh assembly to weigh an animal connected to a shackle assembly as the shackle moves in contact with a force sensor along a conveyor line. A diverter assembly laterally displaces a shackle retaining the animal from below the conveyor line into engagement with the force sensor. The bending axis of the force sensor is approximately parallel to the displaced shackle. The angular position of the bending axis and shackle, and relative positions, friction, and forces of the components of the shackle assembly and weigh assembly are analyzed to calculate the weight of the animal connected to the shackle without removing the animal from the shackle or ceasing movement of the conveyor line.

An automatic weighing and sorting apparatus for battery electrode sheets is provided. The automatic weighing and sorting apparatus includes a conveying device, a weighing device, and a sorting device. The conveying device is configured to transfer a number of battery electrode sheets to the weighing device. The weighing device is configured to get a weight of each of the number of battery electrode sheets. The sorting device is configured to sort the number of battery electrode sheets based on the weight of each of the number of battery electrode sheets.

An automatic weighing and sorting apparatus for battery electrode sheets is provided. The automatic weighing and sorting apparatus includes a conveying device, a weighing device, and a sorting device. The conveying device is configured to transfer a number of battery electrode sheets to the weighing device. The weighing device is configured to get a weight of each of the number of battery electrode sheets. The sorting device is configured to sort the number of battery electrode sheets based on the weight of each of the number of battery electrode sheets.

A method for batching articles constituted by solid food products having a first property and a first quantity. The first property may be lean degree and the first quantity may be weight. The method provides a conveyor system and a batcher having a plurality of batcher heads such that articles within the batcher heads may be selected and batched according to a first target range of the first property and a first target interval of the first quantity. The method may ensure that different grades of the first property may not contaminate each other.