Abstract: In a method for controlling an injection molding machine, a screw is advanced from an injection start position by means of velocity control, and when the screw reaches a control changeover point, pressure control is effected in place of the velocity control to apply pressure to the screw. Preliminary molding is performed to obtain an acceptable product; a total charged amount of resin during the preliminary mold is obtained on the basis of a movement distance over which the screw has moved before reaching the control changeover point during the preliminary mold; and the total charged amount is stored as a changeover target value. During ordinary molding, a total charged amount of resin is obtained on the basis of a movement distance over which the screw advances from the injection start position; and pressure control is started when the total charged amount reaches the changeover target value.

Abstract: A screw injecting apparatus includes a check valve mounted on the tip end portion of a screw and adapted to be opened and closed in response to rotation of the screw, and a control for controlling operation of the screw such that in a metering phase of molding process, the screw rotates in one direction to feed a melt of molding material toward the nozzle while the check valve is in an open state, when a metered amount of melt is accumulated forward of the tip end portion, the screw moves backward by a predetermined distance to reduce a reaction from the melt accumulated around the tip end portion, thereafter, the screw rotates in the reverse direction to close the check valve and cause the screw to advance until the amount of forward movement of the screw becomes substantially equal to the predetermined distance of backward movement achieved previously,

Abstract: A mold clamping method for a straight hydraulic mold clamping apparatus, wherein supply of mold clamping oil to the rear oil chamber of the mold clamping cylinder starts immediately before completion of slowing down of the mold closing process using rapid-moving cylinders, and raising the mold clamping force successively starts simultaneously with completion of the mold closing.

Abstract: A program setting method for an injection molding machine control device comprises the steps of a manufacturer previously making and storing unit programs corresponding to a plurality of basic operations, a user selecting desired unit programs to form whole programs and the control device connecting the selected unit programs in a predetermined order before storing the whole programs. By this method, users can readily and simply make and store a desired sequence program for the injection molding machine.

Abstract: The speed control unit for open loop control of the speed of an actuator 2 of an injection cylinder according to setpoint Vs of speed. The speed control unit includes a measurement sensing unit 3 to detect speed measurement Vd and pressure measurement Pd from the run of the actuator 2. An arithmetic processing unit 4 calculates a correction value Av for command value Vc of speed according to a speed measurement Vd, a pressure measurement Pb, a setpoint Vs of speed and/or a setpoint Ps of pressure, in cases where the speed measurement Vd is found deviated from the setpoint Vs of speed.

Abstract: A controller of an injection molding apparatus has a plurality of injection apparatuses from which different molding materials are injected into a cavity of a mold to fill the cavity so that molding is performed. The controller includes a first control unit for controlling operation of a specific injection apparatus on the basis of a previously set target value, for example, in the feedback control manner, a physical amount detection unit for detecting a physical amount (screw velocity, screw position, injection pressure, temperature or the like) concerning the operation of the specific injection apparatus, and a second control unit for obtaining a linkage target value for other injection apparatus from the detected physical amount (detection value) to control operation of the other injection apparatus on the basis of the linkage target value, for example, in the feedback control manner.

Abstract: To perform automatic PID control corresponding a status of an injection molding machine for eliminating a temperature overshoot or an undershoot during thermocontrol of thermocontrolled components of the injection molding machine, the Fuzzy Control theory is used for controlling the injection molding machine. By using the Fuzzy Control system, the object temperature of the thermocontrolled components can be attained with practically eliminated overshoot and undershoot.

Abstract: To eliminate a temperature overshoot or an undershoot during thermocontrol of thermocontrolled components, e.g. an injection cylinder, with resepct to an object temperature in each operating status of the injection molding machine, the Fuzzy Control theory is used for controlling the injection molding machine. By using the Fuzzy Control system, the object temperature of the thermocontrolled components can be attained with practically eliminated overshoot and undershoot.

Abstract: To eliminate a temperature overshoot or an undershoot during thermocontrol of thermocontrolled components, e.g. an injection cylinder, with respect to an object temperature in each operating status of the injection molding machine, the Fuzzy Control theory is used for controlling the injection molding machine. By using the Fuzzy Control theory, the object temperature of the thermocontrolled components can be attained with practically eliminated overshoot and undershoot.