CS244232B1 - Spindle and armature drive connection - Google Patents

Abstract

The invention falls into the field of valves and solves the connection of the spindle and the actuator of the valve, especially from the point of view of seismicity. The essence of the invention is that a yoke head is slidably mounted, the upper part of which is adapted for connecting the actuator and in the lower part of which a recess is formed, in which a spindle nut with a spindle is axially slidably mounted, whereby a flexible element is inserted between the bottom of the recess and the spindle nut.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to the design of a spindle joint and a valve actuator, particularly used in pipelines having a high operating temperature working fluid.

To accommodate the dilatation of the valve spindles, in particular the bellows valves for liquid metals, where the valve control is a handwheel, resilient members are mounted in the caliper head above the spindle nut.

However, this design is only suitable for manual actuation of the fitting, since the spindle nut moves with the handwheel mounted when the spindle is dilatated, which cannot be tolerated when actuated by an electric actuator or a gearbox with a spur or bevel gear.

In these methods of valve control, the spindle dilation is retained by means of spring washers located on the yoke posts or arms and under the yoke head. However, this is unsatisfactory from the seismic point of view, when during perpendicular vibrations, ie in the axis of the valve spindle, the control elements, ie electric servomotor, gearboxes or remote control extension including connecting rods, also vibrate and transfer their kinetic energy to the spring washers. and the valve spindle and valve closure, causing leakage of working fluid in the valve seat.

The above-mentioned disadvantages are essentially eliminated by the invention which is a joint of the spindle and the actuator of the armature, wherein the upper part of the armature is formed by at least the head and the lid and spindle nut, which consists in slidingly mounted in the caliper head. It is adapted to connect the drive and in the lower part of which a recess is formed in which a spindle nut with a spindle is axially displaceably disposed, wherein a resilient member is inserted between the bottom of the recess and the spindle nut.

It is a further object of the invention that at least two longitudinal grooves and at the periphery of the spindle nut are provided with the same number of notches in which the sliding member is received.

The present invention achieves a greater effect over the previously used designs of the spindle joints and the actuator of the armature in that it retains the spindle dilatations while ensuring a permanent tightness of the closure even under seismic conditions.

A specific embodiment of the joint according to the invention is schematically shown in the attached drawing, showing a vertical section through the upper part of the bevel gear box.

According to the invention, the columns 11 form the upper part of the fitting. The gearbox 2 is formed by a casing 22 and a pair of bevel gears 23, one of which is connected by means of a square 24 and a lock nut 25 to the drive shaft 26 and the other in the same way with a carrier 2> mounted slidingly on a pair of ball bearings 1 in the caliper head 12.

From the bottom of the carrier 2 is formed a cylindrical recess 31 having two longitudinal 'grooves 32- The recess 31 is inserted in the spindle nut ⁸ 2 spindle 6. On the circumference of the spindle nut 6 is provided with two notches 51 which accommodate the sliding member 2, e.g., beads .

Between the bottom 33 of the recess 31 and the spindle nut 2, a resilient member 8 is positioned.

2, 8 are closed in the carrier J by a lower flange 2 secured by screws 10.

The actuation of the armature, i.e. the movement of the spindle 6, is realized by means of a carrier J whose rotary movement is transmitted to the spindle nut 1 by means of a sliding member 2 housed in the longitudinal grooves 32 of carrier 2 and notches 51 of spindle ethics.

Functional movement of the spindle 6 is ensured.

In the closed state of the valve closure, which is heated by the operating fluid, the spindle 6 is dilated by the resilient member 8. The longitudinal movement of the spindle 6 during expansion allows the slider 2 to be permanently tight.

The described embodiment is not the only possible solution according to the invention but, for example, the connection of the bevel gear 23 to the driver 2 may be by means of a tongue and groove, the sliding member 2 may be in the form of plates or tongues. it is limited by the transmitted torque when operating the valve closure.

The same design of the upper part of the fitting can also be provided for other methods of actuating the fittings, such as a direct remote control extension or an electric servomotor.

Claims (2)

A spindle-armature joint, wherein the upper part of the armature is formed by at least the head and the yoke lid and the spindle nut, characterized in that the yoke head (12) is slidably supported by a carrier (3) whose upper part is adapted for engaging the drive and at the bottom of which there is formed a recess (31) in which a spindle nut (5) 'is axially displaceable with a spindle (6), wherein between the bottom (33) of the recess (31) and the spindle nut (6) a spring element (8) is inserted. 2. A spindle-valve actuator connection according to claim 1, characterized in that at least two longitudinal grooves (32) and at the periphery of the spindle nut (5) an equal number of notches (51) are formed in the recess (31) of the carrier (3 '). wherein the sliding member (7) is mounted.