A molding method for a resin molded article includes: a step of sandwiching a sheet-shaped resin in a molten state extruded downward by a pair of rollers, and sending out downward the sheet-shaped resin in the molten state by a rotational driving of the rollers so as to allow a first stretching; a step of drawing downward the sheet-shaped resin in the molten state sent out downward so as to allow a second stretching; a step of disposing the sheet-shaped resin in the molten state that is drawn in a side portion of a mold disposed below the pair of rollers; and a step of molding the sheet-shaped resin into a shape conforming to a mold shape by depressurizing a sealed space formed between the sheet-shaped resin in the molten state and the mold and/or pressurizing the sheet-shaped resin toward the mold.

A molding die device is provided for bringing a resin sheet into close contact with a pair of dies by vacuum suction from a cavity surface to perform molding. An outer frame portion is formed integrally with an outer peripheral portion of the respective dies arranged to face each other. Moreover, one of the dies has a recessed portion formed at the position of the one of the dies facing the outer frame portion of the other die and configured so that the outer frame portion of the one of the dies can be housed in the recessed portion. The outer frame portion is formed to protrude most in each die. Upon molding, the dies are clamped together after vacuum suction has been performed with the resin sheet being arranged in contact with the outer frame portions.

A molding die device is provided for bringing a resin sheet into close contact with a pair of dies by vacuum suction from a cavity surface to perform molding. An outer frame portion is formed integrally with an outer peripheral portion of the respective dies arranged to face each other. Moreover, one of the dies has a recessed portion formed at the position of the one of the dies facing the outer frame portion of the other die and configured so that the outer frame portion of the one of the dies can be housed in the recessed portion. The outer frame portion is formed to protrude most in each die. Upon molding, the dies are clamped together after vacuum suction has been performed with the resin sheet being arranged in contact with the outer frame portions.

A vacuum forming method of manufacturing a product by using a vacuum forming mold including a vacuum forming product protrusion forming device is provided, the vacuum forming product protrusion forming device including: a body portion fixed on a side of the vacuum forming mold; a guide portion inserted in the body portion to be movable in an up and down direction with respect to the body portion; a hinge portion connected to a side of the guide portion; and a protrusion forming portion connected to the side of the guide portion through the hinge portion to be pivotable within an angular range around the hinge portion, the vacuum forming method including: placing material on the vacuum forming mold; forming the material by vacuum pressing; separating a formed product from the vacuum forming mold.

A vacuum forming method of manufacturing a product by using a vacuum forming mold including a vacuum forming product protrusion forming device is provided, the vacuum forming product protrusion forming device including: a body portion fixed on a side of the vacuum forming mold; a guide portion inserted in the body portion to be movable in an up and down direction with respect to the body portion; a hinge portion connected to a side of the guide portion; and a protrusion forming portion connected to the side of the guide portion through the hinge portion to be pivotable within an angular range around the hinge portion, the vacuum forming method including: placing material on the vacuum forming mold; forming the material by vacuum pressing; separating a formed product from the vacuum forming mold.

A molding changing apparatus having a holder, a cooling plate, and a mold set coupled to the cooling plate is disclosed. The cooling plate has at least one connecting pin disposed on the surface which is reverse to the surface where the mold set is disposed, and the holder has at least one pneumatic pin receptacle disposed thereon. The connecting pin of the cooling plate can be inserted into the connecting hole of the pneumatic pin receptacle of the holder, and the connecting pin is fastened by the pneumatic pin receptacle, thereby connecting the mold set and the cooling plate to the holder. Through the use of the connecting pin and the pneumatic pin receptacle, the mold set and the cooling plate on the holder can be changed rapidly and the efficiency of the plastic vacuum forming with mold sets is enhanced.

A molding changing apparatus having a holder, a cooling plate, and a mold set coupled to the cooling plate is disclosed. The cooling plate has at least one connecting pin disposed on the surface which is reverse to the surface where the mold set is disposed, and the holder has at least one pneumatic pin receptacle disposed thereon. The connecting pin of the cooling plate can be inserted into the connecting hole of the pneumatic pin receptacle of the holder, and the connecting pin is fastened by the pneumatic pin receptacle, thereby connecting the mold set and the cooling plate to the holder. Through the use of the connecting pin and the pneumatic pin receptacle, the mold set and the cooling plate on the holder can be changed rapidly and the efficiency of the plastic vacuum forming with mold sets is enhanced.

The present invention relates to a blow molding device including: a heating unit which is configured to heat a molding material; and molds between which the molding material is loaded and molded, in which the heating unit includes: an infrared lamp configured to emit infrared rays, a reflective mirror configured to concentrate the infrared rays emitted from the infrared lamp; and a light transmitting body configured to transmit the infrared rays concentrated by the reflective mirror to the molding material, and in which the molds mold the molding material by using gas pressures applied to surfaces of the molding material heated to a predetermined temperature by the infrared rays transmitted from the light transmitting body.

A highly flexible thermoformed stand-up dispensing package for a flowable material that is produced from one or more highly flexible heat-sealable polymeric sheets is formed with a trapezoidal front wall and opposing back wall and is dimensional and configured so that the corner of the package formed by the intersection of the top and the projecting side wall, or walls, that extend at an obtuse angle from the base is removable along a weakened tear line that is positioned upon removal to provide an integral pour spout for the controlled dispensing of the flowable material; and the container portion of the package is dimensioned to (1) maintain the center of gravity of the flowable material in the package over the base wall when the base wall of the filled package is in contact with a horizontal surface, and (2) to maintain the level of flowable material in the opened package is below the opened integral pour spout.

A highly flexible thermoformed stand-up dispensing package for a flowable material that is produced from one or more highly flexible heat-sealable polymeric sheets is formed with a trapezoidal front wall and opposing back wall and is dimensional and configured so that the corner of the package formed by the intersection of the top and the projecting side wall, or walls, that extend at an obtuse angle from the base is removable along a weakened tear line that is positioned upon removal to provide an integral pour spout for the controlled dispensing of the flowable material; and the container portion of the package is dimensioned to (1) maintain the center of gravity of the flowable material in the package over the base wall when the base wall of the filled package is in contact with a horizontal surface, and (2) to maintain the level of flowable material in the opened package is below the opened integral pour spout.