DE1020841B - Shut-off device operated by means of a servomotor - Google Patents

Description

GERMAN

The invention relates to a shut-off device operated by means of a servo motor, in particular for Pressures over 250 at and temperatures over 500 ° C, the valve spindle in the open position with a The force generated by the pressure of the medium over the surface of the spindle is held in the open position and in closed position with one of the pressure of the medium over the differential area of valve seat and Valve spindle generated force is held in the closed position.

In valves of the type described, the resistance to movement is the valve spindle at the beginning of the closing process is relatively high and therefore needs a correspondingly large dimensioning of the servomotor in order to apply the required locking force. The resistance to movement is composed firstly of the stuffing box friction, which Considerable values are assumed at the high pressures, especially since the strong ones used here are used Spindles must use soft packings because of thermal expansion. Second, there is resistance, which the pressure inside the valve generates on the surface of the spindle. Is this However, if the valve is closed, the two resistances are not only zero, but the closure piece is additionally due to the steam pressure, which is now reversed in the closing direction the surface of the closure piece around the valve spindle is loaded, and at the same time by the servomotor burdened.

In the case of valves through which the working medium has temperatures above 500 ° C and 250 at pressure, the valve material, apart from the mechanical Stress, which is already subjected to an extreme thermal preload, can be mechanical Strength of the valve material are exceeded at the moment of closing, so that the material of the valve seat or the closure piece plastically deformed, whereby the valve after a few Actuations would already be unusable.

There are already similar, if not so blatant, difficulties to overcome as with this one present high-pressure superheated steam valve proposals have been made, for example the servo motor relative to be dimensioned small and to overcome the initially high opposing forces with a special device, z. B. a hand pump to temporarily increase the pressure of the pressure medium in the working cylinder. This known, which is quite useful at relatively low pressures and relatively small valves Procedure is in steam valves of the present genus because of the order of magnitude to be mastered Forces no longer secure enough and therefore not applicable.

By means of a servo motor
actuated shut-off device

Applicant:

Sulzer Brothers Aktiengesellschaft,
Winterthur (Switzerland)

Representative: Dipl.-Ing. H. Marsch, patent attorney,
Schwelm (Westphalia), Drosselstr. 31

Claimed priority:
Switzerland from April 6, 1954

To prevent a valve from hitting its seat too strongly, devices are already included several unidirectional constrictions, e.g. B. check valves, in the pressure medium supply or discharge line of the servomotor piston has become known, so that the movement of the flowing into the cylinder or the pressure medium flowing out of the cylinder is delayed and thus a certain buffer effect is achieved. With this, however, one cannot prevent that at the end of the stroke of movement, ie at the moment the closing piece is seated on the valve seat, the full power of the servomotor in The closing direction acts because the throttling effect ceases at zero speed.

Finally, devices have become known in which to reduce the contact pressure between the closure piece and the valve seat a progressively counteracting the closing movement of the valve spindle Spring, for example a helical spring, is arranged. However, this arrangement has the Disadvantage that the valve spindle until shortly before closing a corresponding to the spring characteristics is exposed to increasing counterforce, which must first be overcome by the servomotor, but increases only slightly when the closure piece is put on, so that in the end a real Relief of the valve seat in the desired way

709 809/190

and way does not occur. There are also counter-pressure springs in the case of valves whose closing force reaches the order of magnitude of 50 t, for example, no longer sensible because, apart from other disadvantages, their size alone makes the valve unnecessarily large and would make expensive.

The invention aims to eliminate the disadvantages of the known devices and that described above technical problem, which especially with a superheated steam of over 500 ° C and more than 250 at pressure appears for the first time in this blatant form, with simple and safe means to solve.

The invention is characterized in that the servo motor to close the valve the valve spindle exerted force by a control intervention in accordance with the decrease in the spatial Distance between the closure piece and the valve seat shortly before the closure piece rests on the Valve seat is reduced to a minimum value.

The closure piece is so at most with the force caused by the steam pressure on the Pressed valve seat. This seat can now be dimensioned in such a way that its material is not yet overstrained will.

In the case of a shut-off device that has a servomotor operated with pressurized oil, this can be done Adjust the force depending on the pressure conditions on both sides of the servomotor piston.

To reduce the force on the valve spindle, a servomotor operated by pressurized oil can preferably be used the level of the oil pressure on the closing side of the servomotor piston can be reduced. Preferably a control device is used for this, by means of which the servomotor closes of the valve exerted on the valve spindle force is reduced before the closure piece on the Valve seat rests. You can use a pressure oil operated Operate the control slide for the servomotor, in its inlet line for the closing side of the servomotor piston is a control device with which the level of the supplied oil pressure changes can be.

In this simple solution, the control device is only an additional device that is connected to known control devices is connected.

When the cross-sectional area of the valve spindle adjoining the closure piece is about half as large is like the circular area corresponding to the mean valve seat diameter, the servomotor has both exert about the same force on the spindle to close and open. Preferably is then the outer diameter of the closure piece is about 1.5 times the diameter of the one adjoining it Valve stem. In this way, the sealing surface of the closure piece closes approximately with the Valve seat surface. In addition, the spindle can be guided in a sleeve, the outer diameter of which is larger than the diameter of the closure piece. This makes it possible to produce a coverless valve and the entire valve spindle easily out of the shut-off device pull out.

The closure piece preferably has an extension below its sealing surface, which together with the bore of the valve seat a throttling effect on the flowing through before the seat is seated Medium exercises. Such closure pieces have been used so that the throttling is not between occurs on the sealing surfaces of the closure piece and the valve seat and damages them. In connection With the main feature of the invention, however, there is the essential additional advantage that one the time and path between the start of throttling and full sealing for the Can take advantage of the scheme. For example, leave the valve at full power and speed close until only a fraction of the original flow cross-section is open, and then reduce the force exerted by the servomotor on the valve spindle, so that the only one Side of the closing piece acting steam pressure overcoming the stuffing box friction the valve slowly closes.

Further features of the invention emerge from the following explanation of the drawing, in which an embodiment of the invention is shown. In a high pressure line is between a supply pipe 1 and a discharge pipe 2 welded the valve housing 3 to the valve seat 4. the Valve spindle 5 carries the closure piece 6 with the sealing surface 7. The spindle is guided in a sleeve 8 and by means of a soft pack 9, which is held by a sleeve 10 and a union nut 11 is sealed to the outside. To cool the stuffing box, through the annular space 12 in the attachment 13 a coolant can be passed. The spindle 5 is via a coupling 14 with the piston 15 of an oil-operated one Servomotor connected. The pressure chamber is located inside the attachment 13 and is completed by the lids 16 and 17. If you loosen these two covers and the union nut 11, so you can the entire valve spindle 5 together with the guide sleeve 8 and the other on the Pull the parts pushed in by the spindle upwards.

A lever 18, which can be pivoted about the fixed point 19, is articulated to the spindle 5. The lever 18 acts on the spring 20 and thus on the control slide 21. In addition, the control slide can by the oil pressure in the control lines 22, 23 or 24 - depending on the position of the rotary valve 25 - can be influenced. If, for example, the control slide 21 is pushed downwards by the oil pressure against the force of the spring 20 Pressed, so can pressure oil via the supply line 26 and the locking element 27 under the piston 15 of the servo motor flow and lift the valve, the oil located above the piston 15 through the locking element 28 and the drain line 29 can flow off. As a result, the lever 18 compresses the spring 20 and finally the control slide 21 again in its neutral position. Conversely, pressure oil flows out of the Supply line 30 to the closing side of the piston 15, and it is from the opposite side of the piston that Oil is displaced via the drain line 31 when the control slide 21 is raised. It is about a normal repatriation. With this control, each position of the valve corresponds to a specific one Pressure in the connected control line 22, 23 or 24.

It is important, however, that the oil pressure in the supply line 30 - and thus also on the closing side of the Piston 15 when the control slide 21 is raised by a closing pulse - with the help of the control device 31 can be changed. When the valve spindle 5 is falling, the lever 18 the spring 32 is relaxed and the piston 33 is thereby raised. The oil supply line 34 can thereby be shut off and even the drain line 35 can be opened. The pressure on the closing side of the piston 15 and thus the force exerted on the spindle 5 is therefore a function of the position of the valve spindle 5. From safety

For reasons of safety, it will be ensured that the oil pressure on the closing side does not drop to zero, but rather maintains a low minimum value.

The locking elements 27 and 28 generally serve to close off the pressure chamber of the servo motor, if the control spool has to be removed for repair. But you can use the locking element 27 as Form a controllable throttle valve, which also depends on the position of the valve spindle 5 is regulated, and thus reduce the amount of draining oil, whereby the closing movement is slowed down can be.

Note the relatively large diameter of the valve spindle 5 in relation to the Diameter of the closure piece 6 and that of the valve seat 4. However, this is for the dimensioning of the Servomotor because of the already mentioned favorable pressure conditions an advantage.

The valve shown is only an example. Many variations are within the scope of the invention possible. In addition to the oil pressure operated servomotors, electric servomotors and also those with additional manual control can be used. The entire control can also not only be hydraulic, but also work electrically. The mechanical feedback 18 can by others Elements are replaced. Furthermore, it is also possible to reduce the amount exerted on the spindle 5 Forces not only from the position of the spindle 5 or from the pressure conditions on both sides of the To make servo piston 15 dependent; you can, for example, the ratio of the pressures in the Use feed pipe 1 and discharge pipe 2 for this purpose. Furthermore, the position of the valve is irrelevant Role. It can be rotated 180 ° from the position shown so that it closes upwards.

Claims (9)

Patent claims: 1. Shut-off device operated by means of a servomotor, in particular for pressures above 250 at and temperatures above 500 ° C, the valve stem in the open position with one of the pressure The force generated by the medium over the surface of the spindle is held in the open position and in the closed position Position with one of the pressure of the medium above the differential area of the valve seat and valve spindle generated force is held in the closed position, characterized in that that the exerted by the servo motor (15) to close the valve on the valve spindle (5) Force through a control intervention in accordance with the decrease in the spatial distance between Closure piece (6) and valve seat (4) just before the closure piece (6) rests on the Valve seat (4) is reduced to a minimum value. 2. Shut-off device according to claim 1 with a pressurized oil-operated servomotor, characterized in that that the force exerted by the servomotor (15) on the valve spindle (5) as a function is set by the pressure ratios on both sides of the servomotor piston (15). 3. Shut-off device according to claim 1 with pressurized oil-operated servomotor, characterized in that that the level of the oil pressure on the closing side of the servomotor piston (15) is reduced will. 4. shut-off device according to one of claims 1 to 3, characterized by a control device (31), by means of which the servomotor (15) to close the valve the force exerted on the valve spindle (5) is reduced before the closure piece (6) on the valve seat (4) rests. 5. shut-off device according to claim 3 or 4, characterized by a pressure oil-operated Control slide (21) for the servomotor (15), in its inlet line (30) for the closing side of the Servomotor piston (15) is a control device (31) with which the level of the supplied oil pressure can be changed. 6. shut-off device according to one of claims 1 to 5, characterized in that the The cross-sectional area of the valve stem (5) adjoining the closure piece (6) is about half as large is like the circular area corresponding to the mean valve seat diameter. 7. shut-off device according to one of claims 1 to 6, characterized in that the Outer diameter of the closure piece (6) about 1.5 times the diameter of the adjoining it Valve spindle (5) is. 8. shut-off device according to one of claims 1 to 7, characterized in that the Spindle (5) is guided in a sleeve (8), the outer diameter of which is larger than the diameter of the closure piece (6). 9. shut-off device according to one of claims 1 to 8, characterized in that the Closure piece (6) below its sealing surface carries an extension (36) which together with the bore of the valve seat (4) has a throttling effect on the flow before it is placed Medium exercises. Considered publications:
German Patent No. 836 420;
Austrian Patent No. 90,587;
Swiss Patent No. 230 773;
British Patent Nos. 414 571, 663 936;
U.S. Patent No. 2,574,574. 1 sheet of drawings © 709 809/190 12.