A device and method configured to jet pressurized liquid from hemal arch of fish into arteries and veins to perform instantaneous fish body blood removal, thereby cleansing the blood vessel interior. The device jets pressurized liquid into hemal arch from severed fish tail to perform fish ikijime (quality-preserving quick kill). A pressure applying device applies pressure to and discharges liquid and a hose conveys the pressurized liquid discharged from the pressure applying device. A valve connected to the hose opens and closes the flow path of the liquid and a nozzle jets the liquid when the valve is in open state. The valve opens or closes the flow path in response to a button being pushed down or pulled up. The nozzle is formed to taper from a large diameter base region toward a tip region, and tip region center hole diameter is formed thin.

A device and method configured to jet pressurized liquid from hemal arch of fish into arteries and veins to perform instantaneous fish body blood removal, thereby cleansing the blood vessel interior. The device jets pressurized liquid into hemal arch from severed fish tail to perform fish ikijime (quality-preserving quick kill). A pressure applying device applies pressure to and discharges liquid and a hose conveys the pressurized liquid discharged from the pressure applying device. A valve connected to the hose opens and closes the flow path of the liquid and a nozzle jets the liquid when the valve is in open state. The valve opens or closes the flow path in response to a button being pushed down or pulled up. The nozzle is formed to taper from a large diameter base region toward a tip region, and tip region center hole diameter is formed thin.

Gutting machine for fish, comprising a conveyor belt to receive fish, where the fish is placed with the abdomen facing a number of cutting and cleaning tools for gutting and cleaning of the fish when it is transported on said conveyor belt, in which said conveyor belt is equipped with a number of holding devices where respective holding devices are adapted for firmly holding the fish, and that one or more barriers arranged adjoining said conveyor belt are adapted to slow down the movement of the fish until the fish is firmly held in a respective holding device and is brought by the conveyor belt in its direction of movement. Also described is a method for gutting the fish in a gutting machine.

A frozen product of minced fish meat frozen into granules includes: 90 wt % or more of meat granules having a substantially columnar shape with a 3 mm to 7 mm diameter; and 10 wt % or less of meat granules with a short diameter of 2 mm or less. A method of producing the minced fish meat frozen into granules includes: raising the temperature of fish meat which has been frozen at −20° C. or less to a temperature of from −10° C. to −5° C.; mincing the fish meat while maintaining the temperature of the fish meat at −10° C. to −5° C. by using a meat mincer having a feed screw, a plate, and a plate knife at a rotation speed of 200 rpm or less; lowering the temperature of minced fish meat to −20° C. or less; and crushing the minced fish meat frozen at −20° C. or less into granules.

The present invention relates to a method and a device for treating and/or transporting food items. The apparatus and method are designed to facilitate treating animals or food items in liquid. The device of the present invention is designed as a spiral shaped channel with one or more channels wound together around an axis. The apparatus of the present invention and the use thereof provides a method to heat or cool food items in a spiral shaped channel device.

A cutting apparatus for cutting an essentially V-shaped strip from meat products fed in a transport direction has a knife carrier to which two knife units are assigned. Each knife unit has a circular knife and a drive for rotationally driving the circular knife about a central axis of rotation. The two circular knives are set substantially in a V-shape to each other in a position enclosing an angle. An adjustable arrangement of the knife units provides for setting of the size of the angle. The offset of the two central axes of rotation to each other is equal to zero in the transport direction and the two knife units are adjustable exclusively synchronously with each other. A corresponding apparatus and method for cutting an essentially V-shaped strip from meat products fed in transport direction is also provided.

A fish descaling assembly includes a first panel that has a plurality of openings each extending through the first panel. Each of the openings has an ovoid boundary for having a fish positioned therein to restrain the fish. A first mesh screen is coupled to the first panel to support the fish when the fish are positioned in the openings. A second panel is hingedly coupled to the first panel and the second panel has a plurality of openings each extending through the second panel. Each of the openings in the second panel has an ovoid boundary to surround the fish when the second panel is closed onto the first panel. A second mesh screen is coupled to the second panel to support the fish when the fish are positioned in the openings in the second panel.

The invention provides a gutting device for gutting a fish along its abdominal cavity. A blade for cutting the fish open, and a shielding element are movably mounted on a controllable movable arm. The shielding element has a blunt tip, and it is arranged for being in: 1) a retracted position, where the shielding element allows the blade to cut the fish, 2) a tracking position, where the blunt tip of the shielding elements is inside the abdominal cavity of the fish, so as to track the end of the abdominal cavity of the fish, and 3) a shielding position, where the shielding element is pushed upwards by contact with the end of the abdominal cavity at a genital opening of the fish, thereby shielding the blade from further contact with the fish. This provides a precise method for without unintentionally damaging the fish.

A method and apparatus for filleting fish to produce high yielding fillets from relatively short bodied fish in the size range of about 600 grams to about 3.5 kilograms dependent on species. The method and apparatus are designed to be capable of handling salmon, tilapia, trout, arctic char, barramundi, snappers, walleye pike, striped bass and similar species where the rib follows the contour of the belly cavity. Further, the method and apparatus incorporate belly opening and eviscerating components prior to subjecting the fish to a backbone removal system so that the fish need only be headed, but not gutted, before introduction into the machine.

Method and apparatus for ventral/dorsal alignment of fish. The apparatus includes a first fish conveying device, a guide roller configured 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 center of the channel comprising a transfer recess, widening in the conveying direction, which is designed to transfer the fish by the effect of gravity to a guiding channel arranged below the first conveying plane by aligning in a predetermined ventral/dorsal position. The guiding channel includes lateral guide surfaces each arranged inclined with respect to the first conveying plane. A second conveying device, forming a second conveying plane and configured to convey the fish on their side, is provided. The second conveying device is arranged downstream of the guiding channel for taking over the fish at the end of said guiding channel.