An apparatus and method for ventral/dorsal alignment of fish with a first fish conveying device, a guide roller for transversely positioning the fish in a feed-in channel, the guide roller extending across the width of the feed-in channel and having at least one section with reduced cross-sectional diameter, a channel floor in the centre of the channel comprising a transfer recess, widening in the conveying direction, to transfer the fish by effect of-gravity to a guiding channel arranged below the first conveying plane by aligning in a predetermined ventral/dorsal position, the guiding channel comprising lateral guide surfaces each arranged inclined with respect to the first conveying plane, and a second conveying device, forming a second conveying plane and configured to convey the fish on their side, said second conveying device being arranged downstream of the guiding channel for taking over the fish at the end of said guiding channel.

An apparatus and method for ventral/dorsal alignment of fish with a first fish conveying device, a guide roller for transversely positioning the fish in a feed-in channel, the guide roller extending across the width of the feed-in channel and having at least one section with reduced cross-sectional diameter, a channel floor in the centre of the channel comprising a transfer recess, widening in the conveying direction, to transfer the fish by effect of-gravity to a guiding channel arranged below the first conveying plane by aligning in a predetermined ventral/dorsal position, the guiding channel comprising lateral guide surfaces each arranged inclined with respect to the first conveying plane, and a second conveying device, forming a second conveying plane and configured to convey the fish on their side, said second conveying device being arranged downstream of the guiding channel for taking over the fish at the end of said guiding channel.

An apparatus and method, configured for transferring articles of the fish and meat processing industry in a predetermined end position, including a continuous conveying device with a plurality of transport sections for individually receiving the articles and movable in the conveying direction, which transport sections comprise in the conveying position a transport element pair forming two article support surfaces. Each transport element is configured to be controllably pivotable about axles, running in the edge region of the respective transport section, so that the articles (10) are transferred to the predetermined end position, under the effect of gravity, in a plane lying below the conveying plane by controlled pivoting of both transport elements while retaining the article orientation or by controlled pivoting of one of the respective transport elements of one of the respective transport element pairs while changing the article orientation.

An apparatus and method, configured for transferring articles of the fish and meat processing industry in a predetermined end position, including a continuous conveying device with a plurality of transport sections for individually receiving the articles and movable in the conveying direction, which transport sections comprise in the conveying position a transport element pair forming two article support surfaces. Each transport element is configured to be controllably pivotable about axles, running in the edge region of the respective transport section, so that the articles (10) are transferred to the predetermined end position, under the effect of gravity, in a plane lying below the conveying plane by controlled pivoting of both transport elements while retaining the article orientation or by controlled pivoting of one of the respective transport elements of one of the respective transport element pairs while changing the article orientation.

The present invention concerns a fish feed-in device (10) which is designed to supply fish (13) to a plurality of fish-processing devices and comprises a transverse conveyor (14) designed to convey the fish (13) transversely to their head-tail orientation in a transverse conveying direction (15), wherein the transverse conveyor (14) comprises a plurality of receptacles (17) each designed to individually hold one of the fish (13), and the transverse conveyor (14) has a controllable drive unit (19), at least one feeder device (11) designed to supply fish to the receptacles (17) of the transverse conveyor (14), a plurality of transfer devices (16) which are designed to selectively transfer the fish (13) from the transverse conveyor to longitudinal conveyors (12) arranged upstream of the respective fish-processing devices, wherein the longitudinal conveyors (12) are designed to convey the fish (13) in their head-tail orientation to the fish-processing machines, and a control device which is designed to control the at least one feeder device (11), the transfer devices (16), and the conveying speed of the transverse conveyor (14) on the basis of at least one predefined distribution specification. The invention furthermore concerns a corresponding method for supplying fish.

The present invention concerns a fish feed-in device (10) which is designed to supply fish (13) to a plurality of fish-processing devices and comprises a transverse conveyor (14) designed to convey the fish (13) transversely to their head-tail orientation in a transverse conveying direction (15), wherein the transverse conveyor (14) comprises a plurality of receptacles (17) each designed to individually hold one of the fish (13), and the transverse conveyor (14) has a controllable drive unit (19), at least one feeder device (11) designed to supply fish to the receptacles (17) of the transverse conveyor (14), a plurality of transfer devices (16) which are designed to selectively transfer the fish (13) from the transverse conveyor to longitudinal conveyors (12) arranged upstream of the respective fish-processing devices, wherein the longitudinal conveyors (12) are designed to convey the fish (13) in their head-tail orientation to the fish-processing machines, and a control device which is designed to control the at least one feeder device (11), the transfer devices (16), and the conveying speed of the transverse conveyor (14) on the basis of at least one predefined distribution specification. The invention furthermore concerns a corresponding method for supplying fish.

This disclosure concerns methods for processing and grading food articles including x-raying the food articles a first time and taking a 3D image of the food articles.

The present invention relates to an apparatus, a method and a fishing vessel for tracing items such as fish. The object is specifically to trace smaller items like pelagic fish, such as mackerel and herring or salmon. The tracing apparatus and method uses at least one image means to provide tracing of each item in a batch, where image data is linked to an ID number of the batch.

The present invention relates to an apparatus, a method and a fishing vessel for tracing items such as fish. The object is specifically to trace smaller items like pelagic fish, such as mackerel and herring or salmon. The tracing apparatus and method uses at least one image means to provide tracing of each item in a batch, where image data is linked to an ID number of the batch.

A fish decapitating apparatus includes a fish holder configured to receive a fish with the belly side facing up at an in-feed station, a cutting station and a conveying apparatus configured to convey the fish in the fish holder from the in-feed station to the cutting station. The fish holder includes opposingly arranged guide members moveable in a hinge like manner. The guide members are configured to clamp the fish behind the collar bones such that the collar bones rest on an outer side of the guide members in the clamped state with the fish head sticking out from the fish holder. The fish decapitating apparatus includes a measuring device configured to measure the position of the collar bones when in the clamped position, and a control unit configured to automatically adjust the position of the cutting station during cutting in accordance with the measured position of the collar bones.