DE4104003A1 - Gland for spindle of shut=off valve - has sealing rings pressed against spherical surfaces on spindle collar - Google Patents

Abstract

The shut-off valve is opened and closed by rotating the valve spindle (3). It has a collar (5) formed integrally with the spindle (3). This collar has a spherical seating surface (6,7) on each face. The lower face (6) abuts against a sealing ring (8) which abuts against the end wall of the gland housing. A second sealing ring (9) is pressed against the upper face (7) of the collar (5) by the sealing ring (13). The sealing ring (13) is pressed against the sealing ring (13) by a stack of disc springs (17) which are compressed by the ring (13) which is secured by bolts (14). USE - Shut-off valve.

Description

The invention relates to a control valve according to the Preamble of claim 1.

The sealing of the control shafts against the fittings housing is a weak point of switch fittings. I don't activities occur particularly when the Switching shafts on one-sided hand lever when on inevitable tilting moment exerted on the selector shaft Sealing presses on the one hand and on the other hand Gap formation enabled. The traditionally for this The stuffing boxes used often no longer correspond the operational and legal requirements, esp  especially the emissions that came into force in 1986 protection regulation "TA-Luft". For the above Quick-closing switch fittings, where for actuation of the shut-off device, the selector shaft is turned by 90 °, the regulation requires that in addition to the stuffing box ne bellows seal or equivalent seals are to be provided. Bellows seals are however for the rotatable selector shafts are unsuitable because they are only ge are slightly susceptible to corrosion. However, if the Bellows in the rotating area with mechanical seals tet, is the seal compared to conventional stuffing box only slightly improved. Moreover, there are bellows only slightly stressable and subject to pressure Significant material fatigue when changing loads.

Switch fittings that instead of a stuffing box or one Bellows have a different seal, be to the state of the art in print. From the DE-GM 78 15 061 is already a switchable valve have become known at the outset, the Druckbeauf struck switch shaft to secure in the valve body two axially spaced radial collars with has spherical sealing surfaces, each via sealing rings with spherical seats on the gradations of a branch stepped shift shaft bore are supported. The switching  shaft is both under the housing pressure, as well due to the preload of disc springs in their seal seat pressed and pulled, the disc springs one on the outside of the valve body and others supported on an abutment fixed to the switching shaft are. However, this construction has the disadvantage that the Internal pressure of the control valve and wear of the Ab Counteract the spring preload seals, so that critical operating situations do not correspond to one the increase in sealing forces are accompanied. Also are the sealing pressures in the two seals due to un Different dimensions of different heights. Furthermore is the selector shaft only with considerable gap formation between collars and sealing surfaces can be tilted because the spherical gasket seats axially significantly offset radii have points. In addition, can be in the elongated annular gap between valve body and control shaft as well as the two Sealing rings accumulate contaminants which cause the sealing impair function and preferably by a housing or switch shaft bore must be removed. Close Lich is disadvantageous that the spring preload is not after can be put and no replacement of the control shaft is possible without completely dismantling the valve.

DE-AS 21 40 975 is already a shift shaft seal  device for a switch fitting, the switching shaft a ring collar with flat ring surfaces for the system two he sealing arrangements of two interlocking, has wedge-shaped sealing rings. The inner sealing arrangement voltage is given on a gradation of the selector shaft bore supports, whereas the outer sealing arrangement on the inner circumference the shift shaft bore and on the end face of a screwed threaded bush is held. To compensate for Manufacturing tolerances and operational wear must this sealing by screwing the threads socket can be set. It is also due to the wedge interlocking sealing rings no tiltability given the control shaft while maintaining the sealing effect. Finally, it is disadvantageous that the shift shaft as a result a residual pressure in the valve after loosening the Ge Wind bushing can be blown out, which makes a lift there is a risk of an accident.

Finally, DE-AS 26 58 256 discloses a seal direction for the spindle of a valve, in which a seal ring with a spherical seal by means of a plate against the spherical sealing surface of a radial collar the spindle are pressed. The sealing surface is on the inner side of the federal government arranged so that the Disc springs abge on an inner step of the spindle bore  supports and contact with a flowing medium can get. To this and an accumulation of through flow medium or of impurities in the large cavity to avoid clearing the sealing system are apparently the Ball seat rings with O-rings opposite the inner wall of the housing sealed. The collar is outside on a flat ring surface supported on a housing-fixed abutment, so that a Tilting mobility of the spindle is not given. Also at this valve can be the spindle after loosening a Snap ring for the abutment through the fittings inside pressure can be blown out.

Proceeding from this, the object of the invention is to create a switching valve, in particular one improved sealing and tilting mobility of the switching shaft le should also exist under critical operating conditions, which is easier to assemble and a lower Ver There is a risk of dirt in the sealing area.

To solve this problem are in the aforementioned Switch armature the characterizing features of the claim 1 provided.

In a switching valve according to the invention, the seal inner and outer sealing ring and intermediate  of the switching shaft from the compression spring over the Pressure ring compressed without play, the arrangement abge on the inner gradation of the shift shaft bore is supported. The compression springs guarantee compensation of manufacturing tolerances, expansion changes and ver wear, basically without adjusting the seal would be required. The spring force is inside the valve body and thus the force due to the Ar counter pressure inside the valve. That's why increased internal pressure with an increased sealing force and an improved sealing effect. Even with one improbable failure of the compression spring is the seal tion still effective because the pressure ring on the ring can create flange and supports the sealing arrangement. Thanks to the spherical sealing and seating surfaces on both Sides of the same federal government is a gap-free sealing system given and are deposits due to media inclusion between the shift shaft and shift shaft bore prevented. Here are low torques and a low material due to wear. In addition, the spherical on both sides of the federal government in both seals and limited tiltability the control shaft without gap formation in the sealing area. There can be a gap between the selector shaft and the seals be provided. The sealing and seating surfaces remain in ge  mutual system, especially when the radius means points of the sealing or seating surfaces on both sides of the Federal collapse. Thus, the claimed at Be we act as a result of transverse forces on the selector shaft kenden tilting moments according to the invention the sealing rings hardly and do not cause gaps. In addition, Spaltbe range close to the seal due to the adjacent edge Avoid sealing rings in practice. For assembly or De assembly can switch shaft, pressure ring and sealing rings fold through the housing opening of the selector shaft bore leads. This results in a significant mon saving time during inspections or exchanges of parts.

In one embodiment of the invention, the compression spring of at least one plate surrounding the selector shaft formed spring, resulting in a space-saving construct tion results. To readjust the spring preload Screwing the ring flange between the valve body and an annular flange an adjustment gap can be formed.

According to another further development, Schaltwel oil hole, pressure ring, ring flange and selector shaft ring column formed that limited tilting of the switching allow shaft in the valve body. To lead the  The selector shaft can be inserted in the ring seal be a limited one with suitable material selection Allow tiltability.

The pressure ring preferably has next to its outer forehead surface an interior shot for a stuffing box packing from the inside, preferably designed as an inner collar edge of the ring flange is compressible. The darning socket supports the primary seal as a secondary seal from the collar and the sealing rings attached to it. The Secondary seal can cause minor leakage of the primary seal catch. The preload of the primary seal at the same time via the compression spring and the gland packing in forwarded the ring flange. This is an additional secured against spring failure, which an increased stuffing box pressure just in failure trap causes. This configuration is certainly sufficient for the be operational and legal requirements.

According to another preferred development, between The valve body and pressure ring have an O-ring in an annular groove used as leakage as a further secondary seal Primary seal especially due to microporosity can catch. For the same reason you can choose between ring flange and selector shaft an O-ring inserted in an annular groove  sets, especially in addition to a stuffing box poetry.

According to another development, the valve body has at least one pen holder, in which one by one the guide pin inserted is secured, is the pin holder perpendicular to the shift shaft bore aligned, and is the pin holder in the Schaltwel oil hole and in some areas by the pressure led ring, with a gap between the pin holder and Locking pin a limited axial displacement of the pressure allows ring. Through the locking pins used the pressure ring is secured in the valve body so that he at an improper loosening of the ring flange at Ar internal pressure of the valve cannot be expressed. In order to the accident prevention regulations are met. To an inspection and replacement of the stuffing box will take place shortly packing, the O-ring and the slide ring between the ring flange and selector shaft as well as the pressure springs and the ring Flansches enables, without interruption of operations would be required. For large-area support of the pressure ring on the locking pin cut the pin holder the shift shaft bore and the mount the pressure ring preferably tangential.  

According to a practical further training, the seals exist rings made of PTFE, polyamide, graphite, ceramic or metal. Through the use of pure graphite, especially for the outer sealing ring ensures that in the event of fire even at temperatures of around 800 ° C no un permissible leakages occur.

Further details and advantages of the subject of Er Find out from the following description the accompanying drawings, which are a preferred embodiment tion form of a switch fitting according to the invention show. In the drawings show:

Fig. 1 shows a longitudinal section through the fitting above the flow channel and

Fig. 2 shows the same fitting in a partial top view with a burst along the line II-II in FIG. 1.

The control valve shown is designed as a ball valve with floating mend in a two-part fitting housing 1 ball 2 , although the invention is also suitable for ball bearings. In the ball 2 a switch shaft 3 is inserted and rotatably guided through a switch shaft bore 4 of the valve body 1 .

The selector shaft 3 has a radial collar 5 in the selector shaft bore 4 , which is provided on the side facing away from the free actuating end of the selector shaft 3 with an inner sealing surface 6 and on the other side with an outer sealing surface 7 . Both sealing surfaces 6 , 7 have a spherical outer contour.

The inner sealing surface 6 is supported on the spherical seat surface of an inner sealing ring 8 , whereas the outer sealing surface 7 rests on the spherical seat surface of an outer sealing ring 9 .

The inner sealing ring is supported on an inner step 10 , which is incorporated in the shift shaft bore 4 . In contrast, the outer sealing ring 9 is supported on an outer step 11, from the shift shaft hole 4 and the inner end face 12 of a bore in the shifting shaft 4 inserted pressure ring is defined. 13

The pressure ring 13 surrounds the control shaft 4 , which is also surrounded outside the valve housing 1 by an annular flange 14 , from which only the actuating end protrudes. The ring flange 14 is screwed with four screws 15 to the Armaturenge housing 1 , wherein an adjusting gap 16 is formed between the ring flange and armature housing. In an annular recess on the underside of the ring flange 14 there are two disc springs 17 which press on the outer end face of the pressure ring 13 in order to press the sealing rings 8 , 9 against the sealing surfaces 6 , 7 .

Annular gaps 19 are formed between the selector shaft 3 , selector shaft bore 4 , pressure ring 13 and ring flange 14 , which allow the spherically mounted selector shaft 3 in the fitting housing 1 to be tilted to a limited extent. In the area of the pressure ring 13 and the ring flange 14 contain the annular gaps 19 sliding rings 20 , 21 , which guide the switching shaft 3 on the circumference, but are limited compressible.

The pressure ring 13 has in addition to its outer end face 18 an inner receptacle for a stuffing box 22 , which consists of two flat halves of the packing with a wedge-shaped outer profile. The ring flange 14 also functions as a gland and has for this purpose on its inner edge a projecting inner collar 23 which presses ge together with the slide ring 21 against the packing 22 .

In an annular groove of the pressure ring 13 , an O-ring 24 is inserted between fittings housing 1 and pressure ring. A corresponding O-ring 25 is located between the control shaft 3 and the ring flange 14 in an annular groove of the ring flange. Coal or graphite can be considered as the material for the O-rings.

Through the valve body 1 extend on both sides of the control shaft 3 pin receptacles 26 , inserted into the securing pins 27 and secured by means of a pin thread 28 and a nut 29 . Each pin receptacle is aligned perpendicular to the selector shaft bore 4 and intersects the selector shaft bore and the pressure ring 13 tangentially. In the area of the pressure ring 13 , a gap is formed between the pin receptacle 26 and the locking pin 27 , which allows a certain axial displacement of the pressure ring.

By prestressing the plate springs 18 , the sealing rings 8 , 9 are pressed against the sealing surfaces 6 , 7 of the collar 5 by means of the pressure ring 13 , whereby the required sealing force is ensured together with the valve interior pressure. The sealing effect of this primary seal is supported by the compressed gland packing 18 and the O-rings 14 , 25 as secondary seals. At the same time, the locking pins 27 prevent the selector shaft 3 from being pressed out unintentionally if the ring flange 14 of the fitting is improperly opened.

The control valve can be used for all ISO standard flange connections gen be manufactured. There are also existing fittings can be retrofitted with the stem seal. Extended Spindle designs for insulation e.g. B. in high temperature door area can be a non-positive, direct connection with the selector shaft without adapter. This will make one backlash-free, direct transmission of the rotary motion to the Bullet causes.

The control valve can work particularly in the medium to high vacuum range, whereby depending on the sealing materials, sealing values of 10 ^-4 -10 ^-8 Torr / ltr / sec can be achieved. Cryogenic inserts down to about minus 252 ° C are possible. It can also be used at high pressure up to 1000 bar.

Claims (11)

1. switching valve, in particular tap, ball valve, flap or the like. With a rotatable and tiltable through a switching shaft bore ( 4 ) of the valve housing ( 1 ) GE guided switching shaft ( 3 ), which has spherical sealing surfaces ( 6 , 7 ), of each of which is trained on a collar ( 5 ), sealing rings ( 8 , 9 ) with spherical seating surfaces for a sealing seat of the sealing surfaces ( 6 , 7 ), the sealing rings ( 8 , 9 ) in the valve housing ( 1 ) at gradations ( 10 , 11 ) are supported in a sealing manner, and a spring ( 17 ) supported on the valve body ( 1 ) and pressing the sealing surfaces ( 6 , 7 ) against the seat surfaces, characterized in that
that an inner sealing surface ( 6 ) on the actuating end of the switching shaft ( 3 ) facing away from the side of a collar ( 5 ) and
an outer sealing surface ( 7 ) is formed on the side of the same collar ( 5 ) facing the actuating end,
that for the tiltable mounting of the selector shaft ( 4 ) on its collar ( 5 ) an inner sealing ring ( 8 ) for the inner sealing surface ( 6 ) on the selector shaft bore ( 4 ) towards the end of actuation expanding inner step ( 10 ) and
an outer sealing ring ( 9 ) for the outer sealing surface ( 7 ) is supported on an outer step ( 11 ) formed by the selector shaft bore ( 4 ) and the inner end face ( 12 ) of a push ring ( 13 ) pushed into it and surrounding the selector shaft , and
that the compression spring ( 17 ) on one end, with the valve housing ( 1 ) screwed, the selector shaft ( 3 ) surrounding the ring flange ( 14 ) is supported on the valve housing and at the other end presses against the outer end face ( 18 ) of the pressure ring ( 13 ). 2. Switching valve according to claim 1, characterized in that the compression spring is formed by at least one, the switching shaft ( 3 ) encircling plate spring ( 17 ). 3. Switch valve according to claim 1 or 2, characterized in that between the valve housing ( 1 ) and the ring flange ( 14 ), an adjusting gap ( 16 ) is formed. 4. Switch valve according to one of claims 1 to 3, characterized in that between the switching shaft bore ( 4 ), pressure ring ( 13 ), annular flange ( 14 ) and switching shaft ( 3 ) annular gaps ( 19 ) are formed. 5. Control valve according to claim 4, characterized in that in the annular gap ( 19 ) slide rings ( 20 , 21 ) are inserted. 6. Switching valve according to one of claims 1 to 5, characterized in that the pressure ring ( 18 ) next to its outer end face ( 18 ) has an inner receptacle for a stuffing box packing ( 22 ), which is formed by the - preferably as an inner collar ( 23 ) - inner edge of the Ring flange ( 14 ) is compressible. 7. Control valve according to one of claims 1 to 6, characterized in that between the valve housing ( 1 ) and pressure ring ( 13 ), an O-ring ( 24 ) is inserted into an annular groove. 8. Switching valve according to one of claims 1 to 7, characterized in that between the annular flange ( 14 ) and switching shaft ( 3 ), an O-ring ( 25 ) is inserted in an annular groove. 9. Switching valve according to one of claims 1 to 8, characterized in that the valve housing ( 1 ) has at least one pin receptacle ( 26 ) in which an inserted through an insertion locking pin ( 27 ) is secured that the pin receptacle is perpendicular to right Gearshift shaft bore ( 4 ) is aligned, and that the pin receptacle is guided into the gearshift shaft bore ( 9 ) and is partially guided through the pressure ring ( 13 ), with a gap between the pin receptacle ( 26 ) and locking pin ( 27 ) a limited axial displacement of the pressure ring ( 13 ) allows. 10. Control valve according to claim 9, characterized in that the pin receptacle ( 26 ) tangentially cuts the control shaft bore ( 4 ) and the pressure ring ( 13 ). 11. Switching valve according to one of claims 1 to 10, characterized in that the sealing rings ( 8 , 9 ) consist of PTFE, polyamide, graphite, ceramic or metal.