DE3720359C1 - Fully sealed drive of a shut-off device - Google Patents

Abstract

The invention relates to a shut-off device for gases or liquids, in which device the rotary motion required for adjustment is transmitted from outside into a fully enclosed housing with the aid of a permanent-magnet-type clutch, thereby avoiding the need for moving seals or bellows. A permanent-magnet-type clutch having a stepped split cup is proposed for particularly high pressures.

Description

The invention relates to an absolutely sealed drive a shut-off device for gases or liquids, with an actuating spindle with one within a Housing rotatably mounted, drivable nut cooperates, which is directly connected to an inner rotor that is on change its outer cylindrical surface with permanent magnets of polarity, with the inner rotor on the housing fortified, bell-shaped can surrounds the one cylindrical driver mounted in the housing via engages with on its cylindrical inner surface Permanent magnets in the same number, but with ent opposite polarity as the inner rotor is occupied.

A drive of this type is such. B. from the US patent publication 43 82 578 known. The driver becomes a leader loosely placed on the outside of the containment can, its location is secured by the magnetic forces. Furthermore is used for this with the help of seals or packings ensures that the medium flowing through the shut-off device does not get into the area of the drive. Indeed spreading of the medium into this area is harmless Lich, since the containment can with stopper or with help sealed spindles is locked that an immediate There is no fear of the medium escaping.  

In any case, with time open with open Shut-off device the pressure prevailing in the shut-off device continued in this area, especially for gases and applies to liquids that are under a high system to stand pressure. This can deform the can so severely in the form of a bulbous widening, that the driver due to this increase in diameter is clamped.

To maintain good efficiency Magnetic coupling is namely compliance with low Ab stands of the permanent magnets on the inner rotor and the outer rotor required, and in this regard only minimal safety distances maintained. For high System pressure is therefore not the known drive reversible.

It is therefore an object of the invention to drive the change the type mentioned so that under avoidance an absolute seal Tightness despite frequent actuation even at very high levels System pressure is guaranteed.

To achieve this object, the invention proposes that the containment can is stepped with at least two cylindrical sections of different diameters is trained.

The drive according to the invention is particularly advantageous suitable for poppet valves or sliders. It is irrelevant whether the driver with a handwheel, a Electric motor or a gearbox is connected with its help either a handwheel or an electric motor can be used as a drive source. In any case  the power transmission works with the help of the Permanent magnets acting through the containment can and fatigue-free. Therefore, it arises from frequent use also no risk of impending leakage, provided that the storage involved and the like is fine are.

The drive according to the invention can handle extremely high system press because the stepped can is particularly dimensionally stable is. The step between the two cylindrical sections forms a reinforcement like a barrel tire in any case, which the dimensional stability and thus the insensitivity against a compression set. This effect can be pushed on or integrated rings in the area the level will be reinforced. In the cylindrical Sections that can be chosen relatively short - in practical examples, an axial length of e.g. B. 1.2 cm - enough space is available to Permanent magnets in sufficient number and strength bring and so the required torque is brought about for the adjustment of the locking member. If necessary, several wreaths of themselves opposite permanent magnets in several cylin used sections.

Below is an embodiment of the invention, that is shown in the drawing, explained in more detail; the only figure of the drawing shows

a cross-sectional view of a drive for a Shut-off device of the invention in connection with a Gate valve, its conventional components are drawn smaller than the components of the drive according to the invention.  

In the figure, a gate valve is shown, which is used for example for opening and closing a pipe. Within a housing 1 provided with connecting flanges there is a wedge-like sealing plate 2 which can be pulled out of the tubular area of the housing 1 with the aid of a spindle 3 or, as shown, can be sunk in this area to shut off. To accommodate the sealing plate 2 when the shut-off element is open, the housing 1 is provided with a hood 4 , to which an attachment 8 is also connected. In the usual way, the spindle 3 acts on the sealing plate 2 via a plate holder 5 and a ball 6 .

Within the attachment 8 , a threaded bushing 7 is rotatably mounted and secured in the axial direction. At its lower end it is designed like a nut, the nut area enclosing the upper end of the spindle 3 . By turning the threaded sleeve 7 , there is an axial movement of the spindle 3 , which is used for the adjustment of the blocking member.

At the upper end of the threaded sleeve 7 , an inner rotor 13 is attached, which carries two rings of permanent magnets 20 on its outside. The inner rotor 13 is covered in a bell-shaped manner by a containment shell 21 , a collar of the open side of the containment shell 21 being used simultaneously as a seal between the extension 8 and a clutch housing 9 .

The clutch housing 9 includes a hollow cylindrical driver 10 which is rotatably mounted in the clutch housing 9 with the aid of a shaft 11 . On the cylindrical inner surface of the driver 10 there are permanent magnets 20 of the same number and with opposite polarity in comparison to the permanent magnets on the inner rotor 13 . In this way, a non-contact coupling is formed, so that a rotational movement of the driver 10 is transmitted to the inner rotor 13 .

The shaft 11 can be moved with the aid of a handwheel, so that there are hardly any external differences to conventional sliders of the same type. Instead of the handwheel, a changeover gear can also be used, which opens up the possibility of moving the threaded sleeve 8 over the above-mentioned components either with the aid of a handwheel or with the aid of an electric motor, with conventional display means in the form of a pointer or the like in connection with the gearbox can be used to make the position of the sealing plate 2 relative to the housing 1 visible to the outside.

The permanent magnets 20 on the inner rotor 13 and on the driver 10 are in any case chosen so that the generally higher force for opening the shut-off member than the closing force is applied by the coupling formed by the permanent magnets 20 . There are particularly effective permanent magnets, for example made of alloys of cobalt and rare earths, which enable an economical design.

In the embodiment shown in the figure, the containment shell 21 is formed in stages due to the particularly high system pressures, a relatively steep step with a ring 24 being pushed on being shown in the left half of the figure and an integrated ring 23 in the right half of the figure; Both rings are of course not used at the same time within the same level, but have only been shown in the present case to demonstrate the design options. Permanent magnets 20 are arranged on both sides of the stage both on the inner rotor 13 and in the driver 10 , so that a total of two magnetic ring units acting as a clutch are present. It can be clearly seen that the mounting option is retained by the step, since the inner rotor can be inserted into the graduated gap pot 21 without difficulty and the driver 13 can be placed over the containment shell 21 .

To guide the threaded bushing 7 a pin is still attached to the can bottom 22 , which forms a guide bearing.

Claims (3)

1. Absolutely sealed drive of a shut-off device for gases or liquids, with an actuating spindle which interacts with a drivable nut which can be rotated within a housing and which is connected directly to an inner rotor which carries permanent magnets with alternating polarity on its outer cylindrical surface, wherein the inner rotor is surrounded by a fixed to the housing, bell-shaped gap pot, which a cylindrical housing in the Ge-bearing driver overlaps Walking on its cylindrical inner surface with permanent magnets in the same number, however, is occupied with the opposite polarity as the inner rotor, characterized denotes in that the gap pot (21) cut out stepwise with at least two cylindrical From different diameter is formed. 2. Drive according to claim 1, characterized in that in the area of each stage between the cylindrical sections of the containment shell ( 21 ) carries a radial web, an integrated ring ( 23 ) or an attached ring ( 24 ). 3. Drive according to claim 1 or 2, characterized in that the inner rotor ( 13 ) and the driver ( 10 ) are also stepped and axially adjacent cylindrical step surfaces each carry permanent magnets ( 20 ), so that the same distances from the opposite Permanent magnets ( 20 ) on the inner rotor ( 13 ) and on the driver ( 10 ) are present.