The present application relates to a detoxified animal liver food product suitable for infants, the detoxified animal liver is obtained by the method as below: taking out a whole fresh liver from an animal body quickly and removing the gallbladder, dissecting the first porta hepatis of the liver quickly, and inserting disinfected medical catheters into blood vessels of the portal vein, the biliary tract and blood vessels of the hepatic artery; perfusing a perfusate into the catheters, eliminating macrophages and other immune cells containing a large number of toxins, blood and harmful substances in the liver continuously and flushing bitter bile out from the biliary tract; and completing processing of the liver when the fresh liver becomes white from blood red. In the present application, a canned and instant liver paste food product suitable for infants are made by using the detoxified animal liver, the liver paste contains rich nutrients such as protein, iron, Va, Vb2, it is non-toxic, odorless and safe to serve. Such liver paste provides infants with a good natural nutritional supplement and offers a new development opportunity for animal liver food products.

A method and processing device for processing an organ package taken out from slaughtered poultry is provided. At least two cooperating rollers that define a nip between the rollers selectively allow preselected organs from the organ package to pass through the nip. The rollers during operation rotate in opposite directions in order to convey the organ package and simultaneously promote that the preselected organs pass through the nip, wherein the rollers have a cross-sectional diameter, the value of which varies as seen in the longitudinal direction of the rollers and depends on the location of the cross-section between an entrance portion and an exit portion of the rollers so as to provide each of the rollers with a superficial curved contour.

A method and processing device for processing an organ package taken out from slaughtered poultry is provided. At least two cooperating rollers that define a nip between the rollers selectively allow preselected organs from the organ package to pass through the nip. The rollers during operation rotate in opposite directions in order to convey the organ package and simultaneously promote that the preselected organs pass through the nip, wherein the rollers have a cross-sectional diameter, the value of which varies as seen in the longitudinal direction of the rollers and depends on the location of the cross-section between an entrance portion and an exit portion of the rollers so as to provide each of the rollers with a superficial curved contour.

A detection unit configured to detect a leakage hole in an intestine suspended on a tubular member having a perforated portion that is configured to distribute a flow of liquid through the perforated portion and thereby pressurize the intestine, when the intestine is being moved with a non-zero velocity (V) along the longitudinal axis of the tubular member is disclosed. The detection unit comprises an electrically conducting and axially extending sleeve-shaped surrounding portion that at least partly surrounds the circumference of the tubular member and an electric circuitry arranged and configured to measure an electric quantity established between the surrounding portion and the liquid pressurizing the intestine.

A detection unit configured to detect a leakage hole in an intestine suspended on a tubular member having a perforated portion that is configured to distribute a flow of liquid through the perforated portion and thereby pressurize the intestine, when the intestine is being moved with a non-zero velocity (V) along the longitudinal axis of the tubular member is disclosed. The detection unit comprises an electrically conducting and axially extending sleeve-shaped surrounding portion that at least partly surrounds the circumference of the tubular member and an electric circuitry arranged and configured to measure an electric quantity established between the surrounding portion and the liquid pressurizing the intestine.

A method and processing device for processing an organ package taken out from slaughtered poultry is provided. At least two cooperating rollers that define a nip between the rollers selectively allow preselected organs from the organ package to pass through the nip. The rollers during operation rotate in opposite directions in order to convey the organ package and simultaneously promote that the preselected organs pass through the nip, wherein the rollers have a cross-sectional diameter, the value of which varies as seen in the longitudinal direction of the rollers and depends on the location of the cross-section between an entrance portion and an exit portion of the rollers so as to provide each of the rollers with a superficial curved contour.

A method and processing device for processing an organ package taken out from slaughtered poultry is provided. At least two cooperating rollers that define a nip between the rollers selectively allow preselected organs from the organ package to pass through the nip. The rollers during operation rotate in opposite directions in order to convey the organ package and simultaneously promote that the preselected organs pass through the nip, wherein the rollers have a cross-sectional diameter, the value of which varies as seen in the longitudinal direction of the rollers and depends on the location of the cross-section between an entrance portion and an exit portion of the rollers so as to provide each of the rollers with a superficial curved contour.

For separating an intestine from a cluster of organs harvested from an animal, in particular a pig, cow or sheep, wherein the intestine is connected to the remainder of the cluster through tissue, a device and method are provided. The intestine separating device includes a guiding device having at least one guiding surface configured to contact the intestine. The guiding device includes first and second guiding members together defining a gap for accommodating the tissue. The first and second guiding members are movable towards and away from each other to vary a gap width. A gap width control structure includes an actuator to controllably decrease and increase the gap width. A tissue separating device is operative in the gap to provide a separation in the tissue close to the intestine.

An intestinal tract part processing device includes a carrier for holding the intestinal tract part on the carrier at a first end of the intestinal tract part, and an elongate support member having a longitudinal axis configured for supporting the intestinal tract part on an inside of the intestinal tract part. The support member includes an outer wall and an inner wall, at least one fluid chamber arranged therein between, and a primary fluid connection configured for supplying a fluid to the at least one fluid chamber and/or for discharging a fluid from the at least one fluid chamber. The carrier and the support member are movable relative to each other in a direction parallel to the longitudinal axis. The carrier includes a tubular carrying member which is arranged coaxially to the support member on an outer side of the support member.

An intestinal tract part processing device includes a carrier for holding the intestinal tract part on the carrier at a first end of the intestinal tract part, and an elongate support member having a longitudinal axis configured for supporting the intestinal tract part on an inside of the intestinal tract part. The support member includes an outer wall and an inner wall, at least one fluid chamber arranged therein between, and a primary fluid connection configured for supplying a fluid to the at least one fluid chamber and/or for discharging a fluid from the at least one fluid chamber. The carrier and the support member are movable relative to each other in a direction parallel to the longitudinal axis. The carrier includes a tubular carrying member which is arranged coaxially to the support member on an outer side of the support member.