RU210371U1 - MANUAL TWO-SPEED ACTUATOR FOR PIPELINE VALVES - Google Patents

Abstract

The utility model relates to the field of mechanical engineering and can be used as a drive for linear pipeline valves. The technical task of the utility model is to expand the control area of the injection molding machine. interacting through the satellites with an internal gear wheel mounted on a controlled flywheel on the drive shaft, equipped with two fixing elements with the housing, while the carrier is rigidly connected to the running bushing of the control spindle of the injection molding machine, located in the internal cavity of the drive shaft, while the latter is equipped with a coupling half, interacting with a response half-coupling fixed on the carrier.

Description

The utility model relates to the field of mechanical engineering and can be used as a drive for linear pipeline valves.

Known manual two-speed actuator for valves (see RU 2378555 C2 F16K 31/53) containing gear, driven wheel, flywheel, speed switch. The driven wheel is connected to the mechanism for moving the locking body. The drive shaft consists of two parts with drive gears attached to them. The speed switch divides the drive shaft into two parts. The speed switch is controlled by traction. The rod is passed through part of the drive shaft. The rod is connected to the flywheel and is kinematically connected to the additional flywheel.

The disadvantages of the known device include low consumer properties due to the inconvenience of controlling the dual flywheel (flywheel + speed switch), when the operator needs to control the flywheels pressed to each other overcoming the force of the switching mechanism spring.

Also known is a two-speed drive for pipeline valves (TPA) (see RU 132855 U1 F16K 31/05), a prototype containing a gear, for example, bevel or hypoid with a driven wheel interconnected with the pipeline valve spindle, and a drive wheel controlled both directly , and through with a planetary mechanism fixed on the body with a central gear wheel, in which the switching shaft is coaxially located, while the carrier is movably rotationally connected to the drive wheel of the gear train, and the inner wheel of the planetary mechanism is fixed on the switching shaft at one end, on the opposite working flywheel , and between them there are elements for fixing the switching shaft with the carrier and the switching shaft with the housing.

The disadvantages of this device include a limited (one-sided) control area of the injection molding machine, due to the rotation of the flywheel axis perpendicular to the axis of rotation of the spindle, which provides only one-sided accessibility of the operator to the drive flywheel, since the flywheel is located in a vertical plane parallel to the axis of the pipeline in which the injection molding machine is operated, with drive.

The technical problem solved by this utility model is to expand the control area of the ROV.

The technical problem is solved by the fact that a manual two-speed actuator for pipeline valves, containing a stationary housing of the planetary mechanism with an external gear wheel interacting through satellites with an internal gear wheel mounted on a controlled flywheel on the drive shaft, equipped with two elements fixing to the housing, while the carrier is rigidly connected to by a running sleeve for the control spindle of the injection molding machine, located in the internal cavity of the drive shaft, while the latter is equipped with a coupling half that interacts with the mating half-coupling fixed on the carrier.

The drawing shows a diagram of a manual two-speed actuator for valves in the closed position of the locking element of the injection molding machine.

The drive consists of a fixed housing 1, inside of which an external gear wheel 2 is installed through the satellites 3, interacting with the internal gear wheel 4, fixed on the lower end of the hollow shaft of the drive 5, inside of which there is a spindle 6 that controls the locking element of the injection molding machine (not shown in the diagram) , mated with the running sleeve 7, fixedly connected to the carrier 8.

On the carrier 8, satellites 3 and half-coupling 9-1 are movably and rotationally mounted, the counterpart 9-2 of which is fixed on the hollow shaft of the drive 5. On the latter, annular recesses 10-1 and 10-2 are made, fixing the position of the hollow shaft 5, controlled through the clamps 11 flywheel 12.

Drive operation:

The opening of the TPA is performed as follows.

The rotation of the flywheel 12 counterclockwise creates a moment transmitted through the inner gear wheel 4 of the planetary mechanism, satellites 3 to the stationary outer wheel 2 and through the carrier 8 and the running nut 7 to the spindle 6. The latter opens the pipeline valve.

After opening the shutter (lifting the locking element of the injection molding machine), the pressure of the conducted medium in both nozzles of the injection molding machine is equalized, the drive speed is switched by moving the flywheel 12 upwards, as a result, the drive shaft 5 is fixed with the housing 1 through the recess 10-2, while the coupling halves 1 and 9-2, after which the moment from the flywheel 12 is transmitted through the carrier 8 directly to the running sleeve 7, then to the spindle 6 without engaging the planetary mechanism, that is, a higher speed of movement of the locking element of the valve of the injection molding machine is switched on, which significantly reduces the opening time of the injection molding machine.

The TPA is closed in the reverse order.

That is, first, the locking element of the valve of the injection molding machine moves at an increased speed until its sealing fields come into contact, after which it is switched by feeding the flywheel 12 downward and the speed is switched on with the transfer of increased force to the spindle through the planetary mechanism.

Thus, due to the fact that the carrier is rigidly connected to the running sleeve interacting with the control valve of the injection molding machine, the spindle located in the hollow shaft of the drive connected to the flywheel, the alignment of the rotation axes of the flywheel and the spindle is ensured, which in turn expands the control area of the injection molding machine, providing accessibility to the drive flywheel on both sides of the pipeline operated jointly with the injection molding machine.

Claims (1)

A manual two-speed actuator for pipeline valves, containing a fixed housing of the planetary mechanism with an external gear wheel interacting through satellites with an internal gear wheel mounted on a controlled flywheel on the drive shaft, equipped with two elements fixing with the housing, characterized in that the carrier is rigidly connected to the running bushing control spindle of pipeline fittings, placed in the inner cavity of the drive shaft, while the latter is equipped with a half-coupling, interacting with the mating half-coupling, fixed on the carrier.

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