Abstract: For saving of time and effort during replacement of soiled filter plate locked onto a seal cover of a core shooter, the filter plate is placed on a gas chamber after releasing the lock and by its lateral outward motion from the core shooter is engaged with a receptacle of a tilting plate holder. A subsequent retraction of the gas chamber without the filter plate into the core shooter clears the path for tilting of the plate holder and with it positioning of a second receptacle carrying a cleaned filter plate into the vacant position. A renewed to-and-fro motion of the gas chamber serves the acceptance of the cleaned filter plate and its retraction to the seal cover of the core shooter, in order to lock the plate to the cover.

Abstract: For saving of time and effort during replacement of soiled filter plate locked onto a seal cover of a core shooter, the filter plate is placed on a gas chamber after releasing the lock and by its lateral outward motion from the core shooter is engaged with a receptacle of a tilting plate holder. A subsequent retraction of the gas chamber without the filter plate into the core shooter clears the path for tilting of the plate holder and with it positioning of a second receptacle carrying a cleaned filter plate into the vacant position. A renewed to-and-fro motion of the gas chamber serves the acceptance of the cleaned filter plate and its retraction to the seal cover of the core shooter, in order to lock the plate to the cover.

Abstract: A foundry core or mold comprised of sand admixed with an inorganic binder is hardened by passing a treatment gas through a first heater and heating it therein to a relatively low temperature and, in a first hardening stage, passing the gas at the low temperature from the first heater through a second heater and heating it therein to a relatively high temperature and thereafter passing the gas at the high temperature from the second heater to and through a core box holding the core or mold to harden same. Thereafter in an after-treatment stage passing the gas at the low temperature from the first heater substantially directly to and through the core box holding the core or mold to after treat same.

Abstract: The invention relates to a method for hardening foundry cores from sand-containing molding materials. The core, for the purpose of hardening it, is subjected to a catalyst vapor/gas mixture in a core molding tool (20). and then to a pressurized air flow, at a predetermined pressure and predetermined temperature, via a gassing plate (30) that can be coupled to the core molding tool in a gas-tight manner. The amine is, preferably during core injection, supplied to a heating and mixing stage (17) in liquid form and in a dosed manner and converted to its gaseous state. Once the gassing plate has been coupled to the core molding tool in a gas-tight manner, heated pressurized air is guided through the heating and mixing stage (17) charged with the amine gas within a predetermined time interval and with proportional pressure increase for gassing the tool in a time-controlled manner. From there, the gas is guided as a catalyst vapor/gas mixture through the sand-containing molding material in the core molding tool.