A method for detecting powder is performed in a powder detection device including a pair of electrodes arranged to be opposed to each other with a gap interposed therebetween and an electric circuit electrically connected to the pair of electrodes. The method includes detecting powder filling in a case where the electric circuit together with powder and the electrodes forms a closed circuit when the powder fills the gap.

A method for detecting powder is performed in a powder detection device including a pair of electrodes arranged to be opposed to each other with a gap interposed therebetween and an electric circuit electrically connected to the pair of electrodes. The method includes detecting powder filling in a case where the electric circuit together with powder and the electrodes forms a closed circuit when the powder fills the gap.

Teaching storage means stores teaching data created on the basis of signals from a first pulse generator, a first shaft detector, a second pulse generator, and a second shaft detector, in a storage unit as a sequence control program of molding operation of a self-hardening mold when teaching operation of throwing kneaded self-hardening foundry sand from a discharge port into a molding flask is performed by manually moving a conveyor arm and a kneading arm. Molding playback means reads out the sequence control program from the storage unit to control and drive a first pivot motor and a second pivot motor on the basis of the sequence control program to pivot the conveyor arm and the kneading arm, and then throws the self-hardening foundry sand from the discharge port of the kneading arm into the molding flask to reproduce the molding operation.

Teaching storage means stores teaching data created on the basis of signals from a first pulse generator, a first shaft detector, a second pulse generator, and a second shaft detector, in a storage unit as a sequence control program of molding operation of a self-hardening mold when teaching operation of throwing kneaded self-hardening foundry sand from a discharge port into a molding flask is performed by manually moving a conveyor arm and a kneading arm. Molding playback means reads out the sequence control program from the storage unit to control and drive a first pivot motor and a second pivot motor on the basis of the sequence control program to pivot the conveyor arm and the kneading arm, and then throws the self-hardening foundry sand from the discharge port of the kneading arm into the molding flask to reproduce the molding operation.

A casting mold shaping method is provided which enables, in a three-stage squeeze step using an electric motor, quick and smooth switching from a second squeeze step to a third squeeze step. The casting mold shaping method includes: a first squeeze step of moving the pressing member toward a back surface of a pattern to an inside of a molding space; a second squeeze step of regulating an approach of the molding flask toward the pressing member side by the stopper device and moving the pattern and a pattern surface plate to the inside of the molding space; and a third squeeze step of releasing the regulation by the stopper device and moving the pressing member toward the back surface of the pattern to the inside of the molding space in a state where the movement of the output unit in the second squeeze step is continued.

A casting mold shaping method is provided which enables, in a three-stage squeeze step using an electric motor, quick and smooth switching from a second squeeze step to a third squeeze step. The casting mold shaping method includes: a first squeeze step of moving the pressing member toward a back surface of a pattern to an inside of a molding space; a second squeeze step of regulating an approach of the molding flask toward the pressing member side by the stopper device and moving the pattern and a pattern surface plate to the inside of the molding space; and a third squeeze step of releasing the regulation by the stopper device and moving the pressing member toward the back surface of the pattern to the inside of the molding space in a state where the movement of the output unit in the second squeeze step is continued.

A measuring device according to one aspect is used to measure a loss on ignition of foundry sand. This measuring device includes a container configured to accommodate foundry sand, the container having a discharge port for discharging the foundry sand to a discharge position, a heating device configured to heat the foundry sand in the container, a conveying device configured to convey the foundry sand discharged from the discharge port from the discharge position to a measurement position, a balance configured to measure the weight of the foundry sand disposed at the measurement position, and a furnace configured to heat the foundry sand.

A measuring device according to one aspect is used to measure a loss on ignition of foundry sand. This measuring device includes a container configured to accommodate foundry sand, the container having a discharge port for discharging the foundry sand to a discharge position, a heating device configured to heat the foundry sand in the container, a conveying device configured to convey the foundry sand discharged from the discharge port from the discharge position to a measurement position, a balance configured to measure the weight of the foundry sand disposed at the measurement position, and a furnace configured to heat the foundry sand.

A green sand mold molding sensor that can measure the pressure applied to a parting plane of a green sand mold in order to determine the quality (casting mold strength) of a molded green sand mold. A green sand mold molding sensor including a pressure sensor for evaluating the molding properties of a green sand mold molded by a casting mold molding machine, wherein the pressure sensor is embedded in a plate having a model attached thereto.

A green sand mold molding sensor that can measure the pressure applied to a parting plane of a green sand mold in order to determine the quality (casting mold strength) of a molded green sand mold. A green sand mold molding sensor including a pressure sensor for evaluating the molding properties of a green sand mold molded by a casting mold molding machine, wherein the pressure sensor is embedded in a plate having a model attached thereto.