Apparatus for moving logs (2) within cutting-off machines. The apparatus includes a platform (1) with one or more longitudinal channels (10) inside which the logs to be cut are disposed, and a pusher device (3) acting in correspondence of the platform (1) and intended for acting on the back of the logs (2) to push them, along respective guide channels (10), toward a cutting device (4) disposed downstream. The apparatus includes a clamping device (5) disposed intermediate between the pusher device (3) and the cutting device (4) and intended for engaging the logs (2) which are pushed along the channels (10) of platform (1) by the pusher device (3) and driving them along up to the cutting device (4).

A processing system (10) and corresponding method (158) are provided for processing workpieces (WP), including food items, to cut and remove undesirable components from the food items and/or portion the food items while being conveyed on a conveyor system (12). An X-ray scanning station (14) is located on an upstream conveyor section (20) to ascertain size and/or shape parameters of the food items as well as the location of any undesirable components of the food items, such as bones, fat or cartilage. Thereafter the food items are transferred to a downstream conveyor (20) at which is located an optical scanner (102) to ascertain the size and/or shape parameters of the food items. The results of the X-ray and optical scanning are transmitted to a processor (18) to confirm that the food item scanned by the optical scanner is the same as that previously scanned by the X-ray scanner. Once this identity is confirmed, if required, the data from the X-ray scanner is translated or transformed onto the data from the optical scanner. Such translation may include one or more of the shifting of the food items in the X and/or Y direction, rotation of the food item, scaling of the size of the food item, and sheer distortion of the food item. Next, the location of the undesirable material within the food item is mapped from the X-ray scanning data onto the optical scanning data. Thereafter, the undesirable material is removed by a cutter(s) (28). The food item may also (or alternatively) been portioned by the cutter(s) (28).

A horizontal char slicer for cutting a food product includes a frame housing having a heating housing and a cutting device located at a discharge end of the heating housing. The heating housing includes a heating element, and the cutting device has a generally horizontal cutting plane. A generally horizontal conveyor belt extends at least the length of the frame housing, between a heating inlet for delivering the food product through the heating housing to the cutting device. The horizontal conveyor belt also extends from the cutting device to an outlet of the frame housing. The horizontal conveyor belt transports the food product away from the cutting device. A finished-product conveyor also extends from the cutting device for transporting a finished-product away from the cutting device. The finished-product conveyor and the horizontal conveyor belt are configured to work in parallel downstream of the cutting device.

A stamping device serves to create one or more rows of endless dough rings. The stamping device has a stamping head with a stamping punch or a plurality of stamping punches, wherein each stamping punch is associated with a dough ring row. A dough piece support of the stamping device has a dough piece holder or a plurality of dough piece holders. Each dough piece holder of the dough piece support is associated with one of the stamping punches. An opening for the associated stamping punch is configured in a dough piece holder or in each of the dough piece holders as a die. A stamping device results in which the stamping of dough rings in particular to produce doughnuts can also be used, for example, for baking by hand.

The invention discloses a waste air-conditioning compressor recycling processing equipment, which includes a conveying box. The conveying box is provided with a conveying chamber with an opening facing upward. The conveying chamber is provided with a conveying device. Two left and right symmetrical fixing rods are fixedly connected, and a cutting box is fixedly connected to the fixed rods. The cutting box is provided with a cutting cavity with an opening facing downward, and the cutting cavity is provided with a power device. The lower side of the power unit is provided with a lifting device for providing the lifting movement required for cutting. The lower side of the lifting device is provided with a cutting device for cutting the compressor. The right side of the cutting device is provided for quickly clamping and fixing the compressor and the The clamping device for conveying the cut off compressor upper cover plate to the storage place can realize automatic clamping and fixing of the compressor, the installation and fixing process is simple, and the overall processing efficiency is improved.

A cutting apparatus for cutting blank profiles comprises a first cutting device located at a first position in the apparatus, a second cutting device located at a second position, the second position being separated from the first position along a first axis of the apparatus, and a third cutting device located at a third position, the third position being separated from the first position along a second axis and along a third axis of the apparatus. A chariot moves along the third axis while a support adapted to hold a blank profile is mounted to the chariot and moves along the first and second axes of the apparatus. A greater number of cutting devices may be used. Cutting devices may be arranged in rows along the third axis.

The disclosure relates to a food processing apparatus with a scanner for determining properties of a food product, in particular a food bar, with at least two substantially parallel separately drivable conveyor tracks for supplying the food products to the scanner, and with a control unit for controlling the drive of the conveyor tracks. According to the disclosure, the control unit is adapted to separately control the drive of the conveyor tracks to convey at least one food product of a first conveyor track and at least one food product of a further conveyor track sequentially through a scanning area of the scanner. The disclosure further relates to a method for scanning food products.

A horizontal char slicer for cutting a food product includes a frame housing having a heating housing and a cutting device located at a discharge end of the heating housing. The heating housing includes a heating element, and the cutting device has a generally horizontal cutting plane. A generally horizontal conveyor belt extends at least the length of the frame housing, between a heating inlet for delivering the food product through the heating housing to the cutting device. The horizontal conveyor belt also extends from the cutting device to an outlet of the frame housing. The horizontal conveyor belt transports the food product away from the cutting device. A finished-product conveyor also extends from the cutting device for transporting a finished-product away from the cutting device. The finished-product conveyor and the horizontal conveyor belt are configured to work in parallel downstream of the cutting device.

Portioning system 10 includes a scanner 200 for scanning work products 13 being carried on the conveyor 12. A cutter system 17 includes an array or manifold cutter 18 and single cutter 19 for cutting the work products into desired sized end pieces. The cutter assemblies 18 and 19 are carried on respective carriages 16 and 26 to move the cutters as required along predetermined cutting paths as controlled by control system 220.

Cutting wheels equipped with knife assemblies suitable for performing size reduction operations on products, methods of operating cutting wheels, knife holders for such knife assemblies, methods of manufacturing knife holders, and slicing machines capable of utilizing such cutting wheels. The knife assemblies each have a leading edge that faces a direction of rotation of the cutting wheel, a trailing edge oppositely disposed from the leading edge, and a cutting edge on the leading edge. Each knife assembly further has a knife holder having a first surface that faces the products advanced toward the cutting wheel in a feed direction and a registration surface formed in the first surface. The registration surface is defined by at least a first recessed planar surface that is recessed a distance relative to the first surface and defines with the first surface at least a first step therebetween.