RU98120156A - MECHANISM OF OPENING AND CLOSING FORMS FOR A SECTIONAL MACHINE (OPTIONS) - Google Patents

Claims (10)

1. The mechanism for opening and closing molds for a sectional machine having many separate sections, each of which contains a pair of opposing supporting mechanisms for molds, configured to move between a separated, retracted position, in which each mold supporting mechanism is in its original position, and a forward position in which the molds supported by the mold support mechanisms engage in force interaction, an electronically controlled motor operatively connected to each of the mold supports x mechanisms for molds for moving the associated support mechanism for forms between the retracted and advanced forward positions, and means for regulating the operation of electronically controlled engines, including means for controlling each of the electronically controlled engines for moving the associated support mechanism for forms to the central a place located at half the distance between the starting positions, means for checking the location of each of the displaced support mechanisms for the molds on the selected distance from the central space, and means for actuating each of the electronically controlled engines for a given application of torque over a selected time period.  2. The mechanism according to claim 1, characterized in that the means for controlling each of the electronically controlled engines to move the mold support mechanism associated with each of them to a central place located at half the distance between the starting positions contains means for determining the termination of movement of each of support mechanisms for molds to a central place, means for controlling each of the electronically controlled engines to work at a selected low speed after determining the moment stopping each of the support mechanisms for the molds, and means for determining the cessation of movement of each of the support mechanisms for the molds after the operation of each of the support mechanisms for the molds at a selected low speed.  3. A mechanism for opening and closing molds for a sectional machine having a plurality of separate sections, each of which contains a pair of opposing supporting mechanisms for the molds, which are movable between a separated, retracted position, in which each mold supporting mechanism is in its initial position, and a forward position in which the molds supported by the mold support mechanisms enter into force interaction, an electronically controlled motor operatively connected to each of the mold supports механизмов mechanisms for molds for moving the support mechanism for molds between the retracted and advanced forward positions, and means for regulating the operation of electronically controlled motors, including means for issuing commands to each of the electronically controlled motors for moving the mold support mechanism associated with each of them in accordance with with the selected profile of the feed program to a central place at the location of an ideal midpoint located at half the distance between the starting positions, means for determining the cessation of movement of each of the support mechanisms for the molds to a central place, means for determining the difference in the distance traveled by each of the stopped support mechanisms for the molds, and means for scaling the profile of the feed program of one of the electronically controlled motors to reduce the difference in the distance traveled by the support mechanisms for forms.  4. The mechanism for opening and closing the molds for a separate section of a sectional machine having a pair of opposing supporting mechanisms for molds arranged to move between a separate, retracted position in which each supporting mechanism for the molds is in the initial position and the forward position wherein the molds supported by the mold support mechanisms enter into a force interaction comprising an electronically controlled engine operatively coupled to each of the mold support mechanisms the placement of the supporting mechanisms for the forms between the retracted and advanced forward positions, and regulating means for regulating the operation of electronically controlled engines, including means for controlling each of the electronically controlled engines to move the associated supporting mechanism for the forms to the central place of its interaction with another a support mechanism for molds, and means for actuating at least one of the electronically controlled motors for applying a predetermined cool present moment during the selected time period during which the support mechanisms in the interaction at a central location.  5. The mechanism according to claim 4, characterized in that the means for actuating at least one of the electronically controlled engines for applying a predetermined torque during the selected period of time the mold support is in the central position includes means for actuating each of the electronically controlled engines for applying a given torque during the selected period of stay of the supporting mechanisms for the molds in a central place.  6. The mechanism for opening and closing molds for a separate section of a sectional machine having a pair of opposing supporting mechanisms for molds, movable between a separate, retracted position, in which each mold supporting mechanism is in its initial position, and the forward position, in wherein the molds supported by the mold support mechanisms enter into a force interaction comprising an electronically controlled engine operatively coupled to each of the mold support mechanisms moving associated with each of them the supporting mechanism for forms between the retracted and advanced forward positions, and regulating means for regulating the operation of electronically controlled engines, including means for issuing commands to each of the electronically controlled engines to move the associated supporting mechanism for forms to a central place , means for determining the difference in distance traveled by each of the stopped supporting mechanisms for the molds, and means for reducing the difference in distance, passed th support mechanism for forms.  7. A mechanism for opening and closing molds for a sectional machine having a plurality of separate sections, each of which contains a pair of opposed supporting mechanisms for the molds, movable between a separated, retracted position, in which each mold supporting mechanism is in its initial position, and a forward position in which the molds supported by the mold support mechanisms enter into force interaction, a drive means operatively associated with each of the support mechanisms for forms for moving the support mechanism associated with each of them for forms between the retracted and forward positions, including an electronically controlled engine, means for actuating an electronically controlled engine to apply a given torque for a selected period of time, while finding the opposite pair of support mechanisms for molds in a forward position, means for returning the support mechanism for molds to their original position after a selected period of time, I include a means for controlling an electronically controlled motor for moving the support mechanism for the molds at a selected low speed for a predetermined period of time, and means for controlling an electronically controlled motor for quickly moving the support mechanism for the molds to their original position after a predetermined period of time.  8. The mechanism according to p. 7, characterized in that it further comprises means for setting a predetermined period of time.  9. The mechanism according to p. 8, characterized in that it further comprises means for setting the selected low speed.  10. The mechanism according to claim 7, characterized in that the means for controlling the electronically controlled engine for quickly moving the support mechanism for the molds to the initial position after a predetermined period of time comprises a device for setting a sequence of commands to a position that determines the profile of the disclosure program.