A method for producing iron metal castings, wherein an expendable mold having a cavity for holding casting material is inserted into an opened multi-part permanent mold, the permanent mold is closed, the cavity is filled with casting material, wherein a supporting device partially protruding into the cavity is partially overcast, the expendable mold is cooled in the permanent mold after the filling, the permanent mold is opened during the cooling, after the liquidus temperature has been fallen below at the earliest, and the expendable mold is nondestructively removed from the permanent mold together with the casting, the expendable mold is further cooled together with the solidified casting while hanging on the supporting device, at least until the microstructure formation of the casting is concluded, the casting is demolded by removing the expendable mold.

Method and apparatus for feeding sand molds laterally and/o between stations of differing heights. The method and apparatus of this invention utilize walking-beam-type conveyors having spaced apart fixed outboard rails and a central reciprocating rail. Walking-beam conveyors can be disposed in perpendicular directions with a junction therebetween that allows for a perpendicular change in direction. The method and apparatus of this invention include lift, leveling, and/or lateral transfer mechanisms for lateral placement of the stations relative to the conveyance path.

A method and system for indexing moulds using a flaskless moulding machine and a mould conveyor are provided. The method comprises: (i) forming one or more moulds, each of the one or more moulds being added to the mould string while the mould string is stationary by being brought into contact with the mould string. Once the one or more moulds has been added to the mould string, the method continues (ii) by advancing the mould string, in a single continuous motion, a distance corresponding to the sum of the thicknesses of the one or more moulds, wherein (1) the moulding machine assists the mould conveyor in advancing the mould string during a first part of the distance, and (2) the mould conveyor advances the mould string a second part of the distance, corresponding to the remainder of the distance, without assistance from the moulding machine.

An indexing transfer station for a sand mold conveyor system, and method of conveying. The indexing transfer station rotates between two or more angled conveyors to position the sand mold for further downstream movement. The indexing transfer station includes resting pads for the sand molds, spaced apart to allow a walking transfer rail of a first conveyor to place the sand mold and, upon rotation, to allow a walking transfer rail of a second conveyor each to position under the sand mold for lifting.

A mold-shift detection device for upper and lower molds molded and assembled with each other by a flaskless molding machine, comprises: a first distance sensor measuring a distance by irradiating side surfaces of the upper and lower molds with light; a cylinder causing the first distance sensor to scan the side surfaces of the upper and lower molds; and a controller detecting a mold-shift between the upper and lower molds, based on a measurement result in a scan range.

A mold transfer assembly includes a transfer housing providing an interior defined by one or more sidewalls and a top. The transfer housing is sized to receive and encapsulate a mold as the mold is moved between a furnace and a thermal heat sink. An arm is coupled to the transfer housing to move the transfer housing and the mold encapsulated within the transfer housing between the furnace and a thermal heat sink. The transfer housing exhibits one or more thermal properties to control a thermal profile of the mold.

Method and apparatus for feeding said molds laterally and/or between stations of differing heights. The method and apparatus of this invention utilize walking-beam-type conveyors having spaced apart fixed outboard rails and a central reciprocating rail. Walking-beam conveyors can be disposed in perpendicular directions with a junction therebetween that allows for a perpendicular change in direction. The method and apparatus of this invention include lift, leveling, and/or lateral transfer mechanisms for lateral placement of the stations relative to the conveyance path.

The method for the stepwise production and advancing of sand mold parts in a mold-string foundry plant comprising a station (1) for making mold parts, a pouring station (3) and a conveyor (2) for stepwise advancing of mold parts (101-109) from said station (1) for making mold parts towards said pouring station (3), includes the step of double indexing the mold parts using a first, moveable, part (21) of the conveyor. By double indexing the mold string, the time during which pouring into the molds has to be interrupted can be reduced.

A mold transfer assembly includes a transfer housing providing an interior defined by one or more sidewalls and a top. The transfer housing is sized to receive and encapsulate a mold as the mold is moved between a furnace and a thermal heat sink. An arm is coupled to the transfer housing to move the transfer housing and the mold encapsulated within the transfer housing between the furnace and a thermal heat sink. The transfer housing exhibits one or more thermal properties to control a thermal profile of the mold.

A mold transfer assembly includes a transfer housing providing an interior defined by one or more sidewalls and a top. The transfer housing is sized to receive and encapsulate a mold as the mold is moved between a furnace and a thermal heat sink. An arm is coupled to the transfer housing to move the transfer housing and the mold encapsulated within the transfer housing between the furnace and a thermal heat sink. The transfer housing exhibits one or more thermal properties to control a thermal profile of the mold.