The present invention relates to a portioning machine for dividing a strand-like product into individual portions and a method of controlling such portioning machine. The portioning machine includes a magazine turret attachment for receiving the strand-like product, a pressing unit for pressure-compacting the strand-like product at least in its longitudinal direction, and a portioning and cutting device for portioning and separating individual portions from the strand-like product. The magazine turret attachment has a base segment and a turret segment which have chute portions oriented coaxially with respect to one another for forming at least one reception chute for the strand-like product and which are rotatable about a common axis for positioning the reception chute in a cutting position; and wherein the pressing unit for pressure-compacting the strand-like product has at least one pressure ram and a counter-pressure element. The counter-pressure element is a slide element arranged between the base segment and the turret segment of the magazine turret attachment and is reversibly movable in a direction at least approximately perpendicular to the axis of rotation of the magazine turret attachment between a release position and a closure position for unblocking or closing the reception chute placed in the cutting position.

The present invention relates to a system for picking up, conveying, and delivering a foodstuff product to a processing machine which preferably has an upright magazine tube, said system including: a handling device, a gripping device releasably attachable to the handling device, a transporting apparatus, and a control unit; wherein the transporting apparatus has a transporting portion on which the foodstuff product that is to be picked up by the gripping device may be positioned in a pick-up position allowing the foodstuff product to be picked up by the gripping device, and the control unit is connected at least to the handling device of the gripping device and to the transporting apparatus; wherein the control unit is configured for detecting when the foodstuff product to be picked up has reached the pick-up position.

A sausage cutting apparatus 10 comprises a plastics base plate 36 defining a flat support base for a sausage rope to be cut, first and second cutting assemblies 38,42 including a number of cutting devices 40, a drive system for displacing the cutting devices and a guide rails 72 for guiding the displacement. The cutting assemblies 38, 42 are located at opposite sides of a feed path for the sausage rope and each includes a continuous flexible toothed belt 46 to which the cutting devices 40 are connected. The carrier belts 46 are mounted on the guide rails. The guide rails project upwardly from the support base and include arcuate guide surfaces along which the carrier belts are slidingly displaced, defining sequentially convergent and divergent cutter paths along which associated cutting devices are displaced inwardly for severing the sausage rope and thereafter away from one another for releasing severed sausage portions.

Methods and devices heat or cool viscous materials, such as meat emulsions useful for producing food and other products. The devices have a heat exchanger including a first plate, a second plate attached to the first plate, and a first spacer and a second spacer arranged between the first plate and the second plate. The first plate, the second plate, the first spacer, and the second spacer define at least one temperature controlled passage for a product to pass through the heat exchanger.

Methods and devices heat or cool viscous materials, such as meat emulsions useful for producing food and other products. The devices have a heat exchanger including a first plate, a second plate attached to the first plate, and a first spacer and a second spacer arranged between the first plate and the second plate. The first plate, the second plate, the first spacer, and the second spacer define at least one temperature controlled passage for a product to pass through the heat exchanger.

The present invention relates to a method and production line for in-line processing of food products. The method comprises the step of co-extruding a food dough into a flow of co-extruded food products having a casing that comprises a protein, or a hybrid casing of a protein and a polymer, wherein the method subsequently comprises the successive steps of: a) subjecting the flow of co-extruded food products to a surface treating step, b) subjecting the flow of food products to a thermal treating step, and c) optionally, subjecting the thermally treated flow of food products to a post-thermal treating step, wherein in step b) the flow of food products is at least subsequently subjected to a first thermal treating step, and a second thermal treating step.

The present invention relates to a method and production line for in-line processing of food products. The method comprises the step of co-extruding a food dough into a flow of co-extruded food products having a casing that comprises a protein, or a hybrid casing of a protein and a polymer, wherein the method subsequently comprises the successive steps of: a) subjecting the flow of co-extruded food products to a surface treating step, b) subjecting the flow of food products to a thermal treating step, and c) optionally, subjecting the thermally treated flow of food products to a post-thermal treating step, wherein in step b) the flow of food products is at least subsequently subjected to a first thermal treating step, and a second thermal treating step.

The present invention relates to a set of brine solutions for use in a method for in-line processing of food products, said method comprises the steps of a) co-extruding a food dough into a flow of co-extruded food products having a coating that comprises a protein, or a hybrid coating of a protein and a polymer, and b) subjecting the flow of co-extruded food products to a food product strengthening step, said food product strengthening step comprises the step of subjecting the flow of food products to a first brine solution comprising a salt solubilised in an aqueous medium, and a second brine solution comprising a buffer salt solubilised in an aqueous medium. The present invention further relates to a method for in-line processing of food products using the set of brine solutions of the present invention and a lactate salt comprising brine solution.

The present invention relates to a set of brine solutions for use in a method for in-line processing of food products, said method comprises the steps of a) co-extruding a food dough into a flow of co-extruded food products having a coating that comprises a protein, or a hybrid coating of a protein and a polymer, and b) subjecting the flow of co-extruded food products to a food product strengthening step, said food product strengthening step comprises the step of subjecting the flow of food products to a first brine solution comprising a salt solubilised in an aqueous medium, and a second brine solution comprising a buffer salt solubilised in an aqueous medium. The present invention further relates to a method for in-line processing of food products using the set of brine solutions of the present invention and a lactate salt comprising brine solution.

The present disclosure relates to a suspension unit and a method for taking up and transporting sausage loops with a guide rail and hooks circulating around the guide rail, where the guide rail has an elongate front side and an oppositely disposed rear side. The guide rail is inclined relative to a horizontal plane such that the front side is at a higher level than the rear side.